CN102929409B - Telechiric device, display system and display packing - Google Patents

Abstract

The invention provides a kind of telechiric device, display system and display packing.Display packing comprises following steps: telechiric device produces index amount of movement and index moving direction in response to the operation of user, wherein index moving direction system can be selected from shuffle one of dynamic direction and negative both moving directions, and positive moving direction and negative moving direction system are with the opposite direction of one dimension; Telechiric device senses it and puts attitude, and draws the major axis horizontal sextant angle between housing major axis and surface level accordingly; Telechiric device transmits index amount of movement, index moving direction and major axis horizontal sextant angle to display device; And display device adjusts display frame according to index amount of movement, index moving direction and major axis horizontal sextant angle.

Description

Telechiric device, display system and display packing

Technical field

The invention relates to a kind of telechiric device, display system and display packing, and relate to a kind of telechiric device, display system and the method that adjust display frame according to index amount of movement and pointer movement direction especially.

Background technology

In recent years, along with popularizing gradually of electronic whiteboard and interactive projector, be also showing improvement or progress day by day in order to the optical pen technology showing mouse pointer.According to the mode of track sensing, the track sensing mode of optical pen can be divided into signal of video signal and comprises and do not comprise coordinate information two type.

Wherein, signal of video signal does not comprise coordinate information type and represents that optical pen itself is only simple produces indication point on a display screen in response to the operation of user, and then by the locating device be arranged near display screen to detect the coordinate position of indication point; And signal of video signal comprises coordinate information type and represents optical pen and can read the coordinate information that entrained with in signal of video signal transmits, judge the coordinate position at indication point current place in display frame accordingly.

Figure 1A is the schematic diagram commonly using " signal of video signal does not comprise coordinate information " technology display system, also United States Patent (USP) case US5 is referred to, 528,263, " interactive projection image display system] (Interactiveprojectedvideoimagedisplaysystem).In this is graphic, display system 13 must arrange relevant induction installation 111 around projection screen 11, and the operation according to user is controlled projector 112 by optical pen 10 on projection screen 11, produce indication point.Then, then by least one induction installation 111 position of indication point is returned to main frame 12.

Under this framework, adopt signal of video signal not comprise coordinate information mode when sensing optical pen track, the sensing coordinate of induction installation 111 must keep aligning consistent with the displaing coordinate of projector 112 projection image; Even if otherwise induction installation 111 correctly can sense the sensing coordinate of indication point for (X.Y), but displaing coordinate (X.Y) non-co-located in projector 14 projection image, mouse indication point like this can be shown to the diverse location on projection screen 11, causes user to think optical pen 10 fault.

In other words, signal of video signal is adopted not comprise coordinate information mode when sensing optical pen track, whenever induction installation 111, when relative position relation between projection screen 11 and projector 14 changes to some extent, (such as: induction installation 111 and projector 14 move B meeting room when resetting from A classroom), then induction installation 111 must first and projector 112 again correct once, this also result in restriction in use and inconvenience.

Figure 1B commonly uses the schematic diagram that signal of video signal comprises coordinate information technology display system, also refers to United States Patent (USP) case US7,421,111, " the optical pen system of picture element type display screen] (Lightpensystemforpixel-baseddisplays).First projection arrangement 14 projection user signal of video signal picture sequentially staggered on predetermined viewing area and a series of coordinate pattern (asequenceofpatterns) is controlled by main frame 16, such as: projection user signal of video signal picture per second 59 picture frames (frames), projection 1 picture frame coordinate pattern is inserted; Series coordinate pattern interts in the signal of video signal picture of user's broadcasting with extremely low ratio, and therefore also what difference cannot experience image frame has to user's naked eyes.

So through at the 60th picture frame sequential insertion sequence coordinate pattern, make the specific light intensity sequence (auniquesequenceoflightintensity) of tool respectively of each position in display frame.Therefore, according to when the 60th frame, optical pen sequence read optical pen nib align the order of ad-hoc location light intensity sequence, just can judge in viewing area, optical pen nib at present why align the corresponding coding in indication point position.Further, the where of position in viewing area of the indication point of optical pen 15 can be judged according to light intensity sequence.

Such as: coordinate pattern is when the first time point t1 (the 60th frame sequential), and the upper left corner block of display frame presents shade shape; Coordinate pattern is when the second time point t2 (the 120th frame sequential), and the upper right corner block of display frame presents shade shape; Coordinate pattern is when the 3rd time point t3 (the 180th frame sequential), and the lower right corner block of display frame presents shade shape; Coordinate pattern is when the 4th time point t4 (the 240th frame sequential), and the lower left corner block of display frame presents shade shape.

Like this: to be respectively (1 when optical pen 15 senses the coded sequence drawn at the first time point t1, the second time point t2, the 3rd time point t3, the 4th time point t4,0,0,0) time, just can judge that optical pen 15 nib is the upper left corner block aligning display frame at present, that is indication point position is positioned at upper left corner block at present.In like manner, when coded sequence is (0,1,0,0), judge that optical pen 15 nib is the upper right corner block aligning display frame at present, that is indication point position is positioned at upper right corner block at present.

Because coordinate pattern picture and user's signal of video signal picture export through same projection device 14 projection, even if therefore after display system 17 movement shown in Figure 1B, also without the need to correcting when resetting, just can directly use.

Only the display frame of the following stated can be suitable for the display system that signal of video signal does not comprise or comprise coordinate information simultaneously.For convenience of explanation, no longer distinguish signal of video signal below and whether comprise coordinate information.

Please refer to Fig. 2 A, it is in display frame, represents with criss-cross cursor mark the schematic diagram that optical pen points to path and display frame 22 confluce indication point 23.When user's mobile optical pen 21, correspondence also changes by the position of cursor mark 23 in display frame 22.

Please refer to Fig. 2 B, display system also can provide writing function, and after user starts writing function, the mobile route of optical pen 21 will become the input person's handwriting 26 of user's input.

In fig. 2b, the input person's handwriting Presentation Function that optical pen is provided that located by prior art is only simple.But the input person's handwriting write out by optical pen is change not.If when user wishes color or the width changing input person's handwriting, need again to choose the palette setting in display frame 22, the color of track could be upgraded.If when user needs to illustrate with multicolour or write, user must open the function of screen palette repeatedly, and then again choose the color setting that the input trajectory newly selected uses.This kind of process too loaded down with trivial details and unfavorable use for user.

Moreover, if when user needs to adjust the display frame 22 in window, usually can need to adjust the vertical scroll bar 24 in display frame 22, HScrollBar 25.But the horizontal or vertical direction for display frame 22 adjusts, user often needs, in addition at main frame end, additionally to control in the mode such as mouse, Trackpad.Therefore, use optical pen, Trackpad that user must rotate, can carry out the process of drawing or writing smoothly.

Summary of the invention

The object of the present invention is to provide a kind of telechiric device, display system and display packing, make the operation can easily carrying out display frame.

For achieving the above object, the invention provides a kind of display system, it comprises telechiric device and display unit.Telechiric device comprises housing, input block, gravity sensing unit and delivery unit.Housing has housing major axis; Input block is arranged on this housing, it can produce index amount of movement and index moving direction because of the operation of user, wherein this index moving direction can be selected from one of the two of shuffle dynamic direction and negative moving direction, and this positive moving direction and this negative moving direction are the opposite direction of same one dimension; What gravity sensing unit sensed this housing puts attitude, and draws the major axis horizontal sextant angle between this housing major axis and surface level accordingly; Delivery unit is electrically connected on this gravity sensing unit, and it transmits this index amount of movement, this index moving direction and this major axis horizontal sextant angle.Display device comprises receiving element, display unit and indicative control unit.Receiving element signal is connected to this telechiric device, and it receives this index amount of movement, this index moving direction and this major axis horizontal sextant angle; Display unit demonstrates display frame; Indicative control unit is electrically connected on this receiving element and this display unit, and it adjusts this display frame according to this index amount of movement, this index moving direction and this major axis horizontal sextant angle.Wherein when this major axis horizontal sextant angle is less than the first level angle door, this indicative control unit is according to this pointer movement amount and this index moving direction, and controls this display frame and carry out non-longitudinal and move; And when this major axis horizontal sextant angle is greater than this first level angle door, this indicative control unit according to this pointer movement amount and this index moving direction, and controls this display frame and vertically moves.

Preferably, input block is roller, this roller can rotate because of the operation of user, and the rotation direction of this roller can be selected from one of the two of turn direction and negative rotation direction, it makes this index amount of movement, this index moving direction corresponds respectively to the rotation number of turns of this roller, the rotation direction of this roller.Or, input block is Trackpad, this Trackpad can detect touch control gesture, and the direction of motion of this touch control gesture can be selected from one of the two of positive motion direction and negative direction of motion, it makes this index amount of movement, this index moving direction corresponds respectively to the displacement of this touch control gesture, the direction of motion of this touch control gesture.Or, input block is switch, this switch can produce Continuity signal because of the pressing of user, wherein this index amount of movement corresponds to the time producing this Continuity signal, when this Continuity signal is the first state, using this positive moving direction as this index moving direction, when this Continuity signal is the second state, using this negative moving direction as this index moving direction.

Preferably, instruction path is extended from this housing; When this instruction path and this display frame intersection are in rendezvous position, this display unit points out this user through the indicator diagram shown by this rendezvous position.Wherein, it is optionally convergent-divergent adjustment and one of both transverse shiftings that this non-longitudinal moves, if this this display frame of instruction path point is with inner region, then this indicative control unit system is according to this pointer movement amount and this index moving direction, and controls this display frame and carry out this convergent-divergent adjustment; And if this this display frame of instruction path point is with exterior domain, then this indicative control unit is according to this pointer movement amount and this index moving direction, and controls this display frame and carry out this transverse shifting.

Preferably, it is optionally convergent-divergent adjustment and one of both transverse shiftings that this non-longitudinal moves, this indicative control unit vertically moves mode, this transverse shifting mode and this convergent-divergent adjustment mode thrin according to this and adjusts this display frame, wherein this vertically moves mode and refers to that this display frame vertically moves up or down, this transverse shifting mode refers to that this display frame is moved in the horizontal direction to the left or to the right, and this convergent-divergent adjustment mode refers to the content zooming in or out this display frame.

Second technical scheme of the present invention provides a kind of display packing, between the telechiric device being applied to signal connection each other and display device, this display packing comprises following steps: this telechiric device produces index amount of movement and index moving direction because of the operation of user, wherein this index moving direction can be selected from one of the two of shuffle dynamic direction and negative moving direction, and this positive moving direction and this negative moving direction are the opposite directions of same one dimension; This telechiric device senses it and puts attitude, and draws the major axis horizontal sextant angle between its housing major axis and surface level accordingly; This telechiric device transmits this pointer movement amount, this index moving direction and this major axis horizontal sextant angle to this display device; And this display device adjusts display frame according to this pointer movement amount, this index moving direction and this major axis horizontal sextant angle, wherein when this major axis horizontal sextant angle is less than the first level angle door, this display device according to this pointer movement amount and this index moving direction, and controls this display frame and carries out non-longitudinal and move; And when this major axis horizontal sextant angle is greater than this first level angle door, this display device according to this pointer movement amount and this index moving direction, and controls this display frame and vertically moves.

Preferably, this telechiric device extends instruction path, and this display packing more comprises following steps: when this instruction path and this display frame intersection are in rendezvous position, this display device in this rendezvous position display indicator diagram, and points out this user accordingly.

Wherein this non-longitudinal moves is optionally convergent-divergent adjustment and one of both transverse shiftings; If this this display frame of instruction path point is with inner region, then this display device is according to this pointer movement amount and this index moving direction, and controls this display frame and carry out this convergent-divergent adjustment; And if this this display frame of instruction path point is with exterior domain, then this display device is according to this pointer movement amount and this index moving direction, and controls this display frame and carry out this transverse shifting.

Preferably, it is optionally convergent-divergent adjustment and one of both transverse shiftings that this non-longitudinal moves, this display device vertically moves mode, this transverse shifting mode and this convergent-divergent adjustment mode thrin according to this and adjusts this display frame, wherein this vertically moves mode and refers to that this display frame vertically moves up or down, this transverse shifting mode refers to that this display frame is prolonged horizontal direction and moved to the left or to the right, and this convergent-divergent adjustment mode refers to the content zooming in or out this display frame.

The present invention the 3rd technical scheme provides a kind of display system, and comprise telechiric device and display device, wherein telechiric device comprises: housing; Input block, is arranged on this housing, and it can produce index amount of movement and index moving direction because of the operation of user, and this index moving direction can be selected from one of the two of shuffle dynamic direction and negative moving direction, and this input block has input block lateral axis; Gravity sensing unit, what it sensed this housing puts attitude, and draws the lateral axis horizontal sextant angle between this input block lateral axis and surface level accordingly; And delivery unit, be electrically connected on this gravity sensing unit, it transmits this index amount of movement, this index moving direction, with this lateral axis horizontal sextant angle; Display device comprises: receiving element, and signal is connected to this telechiric device, and it receives this index amount of movement, this index moving direction and this lateral axis horizontal sextant angle; Display unit, it demonstrates display frame; And indicative control unit, be electrically connected on this receiving element and this display unit, it adjusts this display frame according to this index amount of movement, this index moving direction and this lateral axis horizontal sextant angle, wherein when this input block lateral axis horizontal sextant angle is greater than the second level angle door, this indicative control unit controls this display frame according to this pointer movement amount and this index moving direction and carries out transverse shifting; And when this input block lateral axis horizontal sextant angle is less than this second level angle door, this indicative control unit controls this display frame according to this pointer movement amount and this index moving direction and vertically moves.

Preferably, this input block is roller, this roller can rotate around roller wheel shaft because of the operation of this user, and this roller wheel shaft is this input block lateral axis, wherein the rotation direction of this roller can be selected from one of the two of turn direction and negative rotation direction, and this index amount of movement and this index moving direction correspond respectively to the rotation number of turns and the rotation direction of this roller.Or, this input block is Trackpad, this Trackpad extends in X-axis Y-axis plane, and this X-axis is this input block lateral axis, wherein this Trackpad can detect touch control gesture, when this touch control gesture essence is parallel to the motion of this Y-axis, the direction of motion of this touch control gesture can be selected from one of the two of positive motion direction and a negative direction of motion, and it makes this index amount of movement, this index moving direction corresponds respectively to the displacement of this touch control gesture, the direction of motion of this touch control gesture.Or, this input block is switch, this switch-linear hybrid is in X-axis Y-axis plane, and this switch extends along this Y-axis, and this X-axis is this input block lateral axis, this switch can because of should user pressing and produce Continuity signal, wherein this index amount of movement corresponds to the time producing this Continuity signal, when this Continuity signal is the first state, using this positive moving direction as this index moving direction, when this Continuity signal is the second state, using this negative moving direction as this index moving direction.

Preferably, this indicative control unit according to vertically move mode, transverse shifting mode the two one of and adjust this display frame, wherein this vertically moves mode and refers to that this display frame vertically moves up or down, this transverse shifting mode refers to that this display frame is prolonged horizontal direction and moved to the left or to the right.

4th technical scheme of the present invention provides a kind of display packing, between the telechiric device being applied to signal connection each other and display device, this display packing comprises following steps: this telechiric device is according to the operation of user, and produce index amount of movement and index moving direction, this index moving direction to be selected from shuffle one of dynamic direction and negative both moving directions, this positive moving direction and this negative moving direction are the opposite directions of same one dimension, and this input block has input block lateral axis; This telechiric device senses it and puts attitude, and draws the lateral axis horizontal sextant angle between this input block lateral axis and surface level accordingly; This telechiric device transmits this pointer movement amount, this index moving direction and this lateral axis horizontal sextant angle to this display device; And this display device adjusts display frame according to this pointer movement amount, this index moving direction and this lateral axis horizontal sextant angle, wherein when this lateral axis horizontal sextant angle is greater than the second level angle door, this indicative control unit controls this display frame according to this pointer movement amount and this index moving direction and carries out transverse shifting; And when this lateral axis horizontal sextant angle is less than this second level angle door, indicative control unit controls this display frame according to this pointer movement amount and this index moving direction and vertically moves.

Preferably, this display device be according to vertically move mode, transverse shifting mode the two one of and adjust this display frame, wherein this vertically moves mode and refers to that this display frame vertically moves up or down, this transverse shifting mode refers to that this display frame is moved in the horizontal direction to the left or to the right.

5th technical scheme of the present invention provides a kind of display system, and comprise telechiric device and display device, wherein telechiric device comprises: housing, has default tangent plane, and extends instruction path from this housing; Gravity sensing unit, it is the vertical angle of sensing between this default tangent plane and perpendicular line and draws vertical angle information; And delivery unit, be electrically connected on this gravity sensing unit, it transmits this vertical angle information; Display device, comprises: receiving element, and signal is connected to this delivery unit, and it receives this vertical angle information; And display unit, demonstrate display frame and indicator diagram, this instruction path and this display frame intersection are in rendezvous position, and this display unit points out this rendezvous position with this indicator diagram, and wherein the outward appearance of this indicator diagram changes according to this vertical angle information.

Preferably, this telechiric device more comprises: activation unit, is electrically connected on this delivery unit, and it produces enable signal, and wherein when this enable signal produces, this display unit shows input person's handwriting because of the change of this rendezvous position; Wherein when this enable signal does not produce, this display unit adjusts the display position of this indicator diagram because of the change of this rendezvous position.

Preferably, this indicator diagram is brush strokes pattern, and this display device more comprises: mapping software, its be according to this brush strokes pattern in this display frame institute path of passing through with produces input person's handwriting, and the setting of the size of this input person's handwriting, width setting, color settings, brightness settings one of them be change because of the change of this vertical angle.

Preferably, this display device more comprises: storage element, is electrically connected on this display unit, it stores this input person's handwriting and its size sets, width sets, color settings, brightness settings one of them.

Preferably, this input person's handwriting corresponds to the change of this vertical angle and adjusts its width, and when this vertical angle is the first predetermined angle, this input person's handwriting has the first width; And when this vertical angle is the second predetermined angle, this input person's handwriting has the second width, and wherein this first width is greater than this second width.

Wherein, between this vertical angle and this first predetermined angle, there is the first angle difference, and between this vertical angle and this second predetermined angle, there is the second angle difference, and the width of this input person's handwriting is according to this first width, this second width, and this first angle difference and this second angle difference determine jointly.

Preferably, this input person's handwriting be correspond to this vertical angle change and adjust its brightness, when this vertical angle is the 3rd predetermined angle, this input person's handwriting has the first brightness; And when this vertical angle is the 4th predetermined angle, this input person's handwriting has the second brightness, wherein this first brightness is greater than this second brightness.

Preferably, there is between this vertical angle and the 3rd predetermined angle the 3rd angle difference, and between this vertical angle and the 4th predetermined angle, there is the 4th angle difference, and measuring of this input person's handwriting is according to this first brightness, this second brightness, and the 3rd angle difference and the 4th angle difference determine jointly.

Preferably, this input person's handwriting corresponds to the change of this vertical angle and adjusts its color, and when this vertical angle is the 5th predetermined angle, this input person's handwriting has the first color; And when this vertical angle is the 6th predetermined angle, this input person's handwriting has the second color, and wherein this first color differs from this second color.Wherein, there is between this vertical angle and the 5th predetermined angle the 5th angle difference, and between this vertical angle and the 6th predetermined angle, there is the 6th angle difference, and this input person's handwriting measure according to this first color, this second color, and the 5th angle difference and the 6th angle difference determine jointly.

Preferably, this telechiric device more comprises: lock cell, is electrically connected on this gravity sensing unit and this delivery unit, and when this lock cell is not activated, this gravity sensing unit continues this vertical angle of sensing and upgrades this vertical angle information; When this lock cell is activated, this vertical angle Information Dimension is held in before this lock cell is activated, and this gravity sensing unit upgrades the content of this vertical angle information for the last time.

6th technical scheme of the present invention provides a kind of telechiric device, signal is linked to display device, this display device is for demonstrating display frame, with the rendezvous position of this display frame of indicator diagram representative instruction path point in this display frame, and this indicator diagram outward appearance changes according to received vertical angle information, this telechiric device comprises: housing, has default tangent plane, and extends this instruction path from this housing; Gravity sensing unit, it senses the vertical angle between this default tangent plane and perpendicular line and draws this vertical angle information; And delivery unit, be electrically connected on this gravity sensing unit, it transmits this vertical angle information to this display device.

Preferably, this indicator diagram is brush strokes pattern, and this display device more comprises mapping software, this mapping software be according to this brush strokes pattern in this display frame institute path of passing through with produces input person's handwriting, and the setting of the size of this input person's handwriting, width setting, color settings, brightness settings one of them change because of the change of this vertical angle.

7th technical scheme of the present invention provides a kind of display packing, between the telechiric device being applied to signal connection and display device, this display packing comprises following steps: this telechiric device has default tangent plane, this telechiric device senses the vertical angle between this default tangent plane and perpendicular line and draws vertical angle information, and extends an instruction path from this telechiric device; This telechiric device transmits this vertical angle information to this display device; And this display device demonstrates display frame, this display frame and this instruction path intersection, in rendezvous position, be represent this rendezvous position with indicator diagram, and the outward appearance of this indicator diagram changes according to this vertical angle information in this display frame.

Preferably, this display packing more comprises following steps: this telechiric device produces enable signal according to the operation of user; This telechiric device transmits the input signal to this display device according to the generation of this enable signal; Wherein when this receiving element receives this input signal, this display unit shows this indicator diagram in this rendezvous position; And wherein when this receiving element does not receive this input signal, this display unit stops at this rendezvous position and shows this indicator diagram.

Preferably, this indicator diagram is brush strokes pattern, and this display device has more mapping software, this mapping software be according to this brush strokes pattern in this display frame institute path of passing through with produces input person's handwriting, and the setting of the size of this input person's handwriting, width setting, color settings, brightness settings one of them be change because of the change of this vertical angle.

Preferably, this display packing more comprises following steps: this telechiric device produces locking signal; And when this locking signal does not produce, this telechiric device continues this vertical angle of sensing and upgrades this vertical angle information; When this locking signal produces, before this vertical angle Information Dimension is held in the generation of this locking signal, this telechiric device upgrades the content of this vertical angle information for the last time.

8th technical scheme of the present invention provides a kind of display system, comprises: telechiric device, comprises: housing, extends instruction path from this housing; Acceleration sensing unit, it senses acceleration that this housing moves in space and produces shell vibrating signal; And delivery unit, be electrically connected on this acceleration sensing unit, it transmits this shell vibrating signal; And display device, comprise: receiving element, signal is connected to this delivery unit, and it is receive this shell vibrating signal; And display unit, show at least one display frame and indicator diagram, this instruction path and this display frame intersection are in rendezvous position, this display unit points out this rendezvous position with this indicator diagram, and wherein the outward appearance of this indicator diagram changes according to the reception number of times of this shell vibrating signal received by this receiving element.

Preferably, this telechiric device more comprises activation unit, is electrically connected on this delivery unit, and it is the operation of foundation user and produces enable signal, and wherein when this enable signal produces, this display unit shows input person's handwriting according to the change of this rendezvous position; Wherein when this enable signal does not produce, this display unit adjusts the display position of this indicator diagram according to the change of this rendezvous position.

Preferably, this indicator diagram is brush strokes pattern, and this display device more comprises: mapping software, its be according to this brush strokes pattern this display frame up through path with produce input person's handwriting, and the setting of the size of this input person's handwriting, width setting, color settings, brightness settings one of them be corresponding to this shell vibrating signal reception number of times and change.

Preferably, this display device more comprises: storage element, is electrically connected on this display unit, it stores this input person's handwriting and its size sets, width sets, color settings, brightness settings one of them.

Preferably, this mapping software is to provide at least one and takes turns sequence candidate width, and the setting of the width of this input person's handwriting is the reception number of times according to this shell vibrating signal, and then takes turns selection one in sequence candidate width from these.

Preferably, this mapping software provides at least one to take turns sequence candidate brightness, and the brightness settings of this input person's handwriting is the reception number of times according to this shell vibrating signal, and then takes turns selection one in sequence candidate brightness from these.

Preferably, this system of mapping software provides at least one to take turns sequence candidate color, and the color settings of this input person's handwriting is the reception number of times according to this shell vibrating signal, and then takes turns selection one in sequence candidate color from these.

Preferably, this telechiric device more comprises: lock cell, is electrically connected on this gravity sensing unit and this delivery unit, and it produces locking signal, when this lock cell is not activated, this acceleration sensing unit continues this casing acceleration of sensing and exports this shell vibrating signal with selectivity; When this lock cell is activated, this acceleration sensing unit stops exporting this shell vibrating signal.

The present invention the 9th technical scheme provides a kind of telechiric device, signal is linked to display device, this display device shows at least one display frame, and the instruction path of this telechiric device and this display frame meet at rendezvous position, point out this rendezvous position with indicator diagram in this display frame, the outward appearance of this indicator diagram changes according to the reception number of times of shell vibrating signal, and this telechiric device comprises: housing, extends this instruction path from this housing; Acceleration sensing unit, it senses acceleration that this housing moves in space and produces this shell vibrating signal; And delivery unit, be electrically connected on this acceleration sensing unit, it transmits this shell vibrating signal to this display device.

Preferably, this indicator diagram is brush strokes pattern, and the mapping software that this display device comprises inputs the change that person's handwriting represents this rendezvous position, and the setting of the size of this input person's handwriting, width setting, color settings, brightness settings one of them be correspond to the change of this brush strokes pattern.

The present invention the tenth technical scheme provides a kind of display packing, be applied to that signal connects between telechiric device and display device, this display packing comprises following steps: this telechiric device senses acceleration that this housing moves in space and produces shell vibrating signal; This telechiric device transmits this shell vibrating signal to this display device; And this display device shows a display frame, be the rendezvous position representing this this display frame of instruction path point with indicator diagram in this display frame, wherein the outward appearance of this indicator diagram changes according to the reception number of times of this shell vibrating signal.

Preferably, this indicator diagram is brush strokes pattern, and this display device has mapping software, this mapping software according to this brush strokes pattern this display frame up through path with produce input person's handwriting, and the setting of the size of this input person's handwriting, width setting, color settings, brightness settings one of them be because of should shell vibrating signal reception number of times and change.

Preferably, this display packing, more comprises following steps: this mapping software provides at least one to take turns sequence candidate width, and wherein the width setting of this input person's handwriting is the reception number of times according to this shell vibrating signal, and then takes turns selection one in sequence candidate width from these.

Preferably, this display packing, more comprises following steps: this mapping software provides at least one to take turns sequence candidate brightness, and wherein the brightness settings of this input person's handwriting is the reception number of times according to this shell vibrating signal, and then takes turns selection one in sequence candidate brightness from these.

Preferably, more comprise following steps: this mapping software provides at least one to take turns sequence candidate color, wherein the color settings of this input person's handwriting is the reception number of times according to this shell vibrating signal, and then takes turns selection one in sequence candidate color from these.

11 technical scheme of the present invention provides a kind of display system, comprises telechiric device and display device, wherein telechiric device, comprises: housing, has housing major axis, extends instruction path from this housing major axis; Input block, be arranged on this housing, it can produce index amount of movement and index moving direction in response to the operation of user, wherein this index moving direction system can be selected from shuffle one of dynamic direction and negative both moving directions, this positive moving direction and the opposite direction of this negative moving direction with one dimension; And delivery unit, be electrically connected on this gravity sensing unit, it transmits this index amount of movement and this index moving direction; Display device, comprises: receiving element, and signal is connected to this telechiric device, and it receives this index amount of movement and this index moving direction; Display unit, it shows display frame; And indicative control unit, be electrically connected on this receiving element and this display unit, it adjusts this display frame according to this index amount of movement and this index moving direction; Wherein when this this display frame of instruction path point is with inner region, then this indicative control unit is according to this pointer movement amount and this index moving direction, and controls this display frame and vertically move; And wherein when this this display frame of instruction path point is with exterior domain, then this indicative control unit is according to this pointer movement amount and this index moving direction, and controls this display frame and carry out transverse shifting, to vertically move essence vertical with this for this transverse shifting.

Preferably, this telechiric device more comprises: gravity sensing unit, and what it sensed this housing puts attitude, and draws the major axis horizontal sextant angle between this housing major axis and surface level accordingly; Wherein when this this display frame of instruction path point is with inner region, or this major axis horizontal sextant angle is when being greater than the first level angle door, then this indicative control unit system is according to this pointer movement amount and this index moving direction, and controls this display frame and carry out this and vertically move; And wherein when this this display frame of instruction path point is with exterior domain, and this major axis horizontal sextant angle is when being less than this first level angle door, then this indicative control unit system is according to this pointer movement amount and this index moving direction, and controls this display frame and carry out this transverse shifting.

Preferably, this input block is roller, this roller can because of should user operation and rotate, and the rotation direction of this roller can be selected from one of both turn direction and negative rotation direction, it makes this index amount of movement, this index moving direction corresponds respectively to the rotation number of turns of this roller, the rotation direction of this roller.Or, this input block is Trackpad, this Trackpad can detect touch control gesture, and the direction of motion system of this touch control gesture can be selected from one of positive motion direction and negative both direction of motion, it makes this index amount of movement, this index moving direction corresponds respectively to the displacement of this touch control gesture, the direction of motion of this touch control gesture.Or, this input block is switch, this switch can because of should user pressing and produce Continuity signal, wherein this index amount of movement corresponds to the time producing this Continuity signal, when this Continuity signal is the first state, using this positive moving direction as this index moving direction, when this Continuity signal is the second state, using this negative moving direction as this index moving direction.

Compared with prior art, telechiric device of the present invention, display system and display packing, all by telechiric device, the position angle of its housing and display device is changed the pointer change information caused and pass to display device, carry out and immediately control display frame, easy to use.

Accompanying drawing explanation

Figure 1A is that located by prior art display system does not comprise with signal of video signal the schematic diagram that coordinate information mode senses the indication point position of optical pen.

Figure 1B is that located by prior art display system comprises with signal of video signal the schematic diagram that coordinate information mode senses the indication point position of optical pen.

Fig. 2 A is the schematic diagram representing optical pen sensing in display frame with criss-cross cursor mark.

Fig. 2 B is the schematic diagram showing input person's handwriting in display frame because of the movement of optical pen.

Fig. 3 A is optical pen schematic diagram of the present invention.

Fig. 3 B is the inside block schematic diagram of optical pen of the present invention.

Fig. 3 C is the schematic diagram of putting attitude utilizing major axis horizontal sextant angle to represent optical pen.

Fig. 4 is display device schematic diagram of the present invention.

Fig. 5 is that the present invention utilizes optical pen to adjust process flow diagram first embodiment of display frame.

Fig. 6 A, Fig. 6 B, Fig. 6 C are the schematic diagram that display device controls that vertical movement is carried out in display frame.

Fig. 7 A, Fig. 7 B, Fig. 7 C are the schematic diagram that display device control display frame is carried out moving horizontally.

Fig. 8 A is the schematic diagram of the instruction path point display frame of optical pen.

Fig. 8 B is the schematic diagram that display frame is not pointed in the instruction path of optical pen.

Fig. 9 is that the present invention utilizes optical pen to adjust the second embodiment of the process flow diagram of display frame.

Figure 10 A, Figure 10 B, Figure 10 C are the schematic diagram that display device controls that convergent-divergent adjustment is carried out in display frame.

Figure 11 A, Figure 11 B are the schematic diagram of the correlativity of major axis horizontal sextant angle and adjustment display frame mode.

Figure 12 A is the schematic diagram of putting attitude utilizing lateral axis horizontal sextant angle to represent optical pen.

Figure 12 B is the schematic diagram of the correlativity of lateral axis horizontal sextant angle and adjustment display frame mode.

Figure 13 A is that optical pen is using long strip type Trackpad as the schematic diagram of input block.

Figure 13 B is that optical pen is using rocker switch as the schematic diagram of input block.

Figure 13 C is that optical pen is using keyswitch as the schematic diagram of input block.

Figure 14 is the schematic diagram of display system of the present invention.

Figure 15 A provides the schematic diagram of the brush strokes pattern of several preliminary election for display device.

Figure 15 B plants the schematic diagram of wheel sequence candidate color as optical pen track for providing plural number.

Figure 16 be show picture according to user to the dynamic operation of optical pen the schematic diagram of contrail color.

Figure 17 A is the schematic diagram that display system is in non-writing pattern.

Figure 17 B is the schematic diagram that display system is in write mode.

Figure 18 is the schematic diagram of the rotation amplitude of sensing optical pen.

Figure 19, for when user's operating optical, rotates the schematic diagram that optical pen turns to.

Figure 20 A utilizes different in width to correspond to the schematic diagram inputting person's handwriting according to turning to of optical pen.

The schematic diagram of the tangent plane of its optical pen corresponding to the different time points in Figure 20 A in writing process of Figure 20 B.

Figure 21 is that the difference of optical pen puts attitude corresponding to the variable angle of vertical angle, the schematic diagram of input pen stitch width.

Embodiment

According to embodiments of the invention, the present invention is the adjustment utilizing telechiric device directly to carry out display frame, such as, adjust the vertical scroll bar of display frame, the HScrollBar of adjustment display frame, the scaling of adjustment display frame.Further, utilize optical pen of the present invention can the function such as width, brightness, color of direct control inputs person's handwriting when carrying out depicting pattern.For ease of illustrating, below using optical pen as the citing of telechiric device, but the kind of telechiric device does not need to be defined.

Referring to Fig. 3 A, is optical pen schematic diagram of the present invention.In optical pen 35 housing, roller 352 is set near nib place, allows user while hand grips optical pen 35, finger manipulation roller 352 can be utilized.Further, what user only needed to utilize the manipulation of hand to change optical pen 35 puts attitude, rotation roller 352, can carry out various types of adjustment for these operations to display frame.Be described in detail as follows.

Referring to Fig. 3 B, is the inside block schematic diagram of optical pen of the present invention.Optical pen 35 comprises lip pencil housing 351, roller 352, gravity sensing unit 353, delivery unit 354.Gravity sensing unit 353 and delivery unit 354 are all arranged at inside housing 351, and roller 352 is then arranged at the surface of lip pencil housing 351.In addition, delivery unit 354 is electrically connected on gravity sensing unit 353 and input block 352.

Wherein, roller 352 can be considered input block, can produce pointer movement information (A) according to the amount of spin of roller 352 and rotation direction; Gravity sensing unit 353 can produce the information of putting (B) according to the putting attitude of lip pencil housing 351.Thereafter, by delivery unit 354 through the mode such as bluetooth, wireless network, output pointer mobile message (A) with put information (B).

Please refer to Fig. 3 C, its illustrate the schematic diagram of putting attitude for utilizing major axis horizontal sextant angle to represent optical pen.The tail end of optical pen 35 to the body direction of nib is defined as housing major axis by the present invention, and the bearing of trend of housing major axis is further defined as instruction path.When user grip optical pen 35 and control its put attitude time, the body direction representing optical pen changes, also related make major axis horizontal sextant angle produce change.

Therefore, gravity sensing unit 353 can utilize major axis horizontal sextant angle to represent and put information (B); Further, allow roller 352 produce according to the control of user and rotate, and produce the pointer movement information (A) comprising index moving direction (a1) and index amount of movement (a2).

Refer to Fig. 4, its illustrate is display device schematic diagram of the present invention.According to conception of the present invention, display device may be the electronic whiteboard that signal of video signal does not comprise coordinate information formula, or signal of video signal comprises the projection arrangement of coordinate information formula.Certainly, display device also may be the screen etc. with the projection screen, LCD screen, lithographic plate computing machine or the mobile computer that sense deixis.

Display device 32 comprises: receiving element 321, indicative control unit 323, display unit 322.Wherein, receiving element 321 signal is connected to the delivery unit of telechiric device, and indicative control unit 323 is electrically connected on receiving element 321 and display unit 322.

Receiving element 321 reception pointer mobile message (A) with put information (B) after, by indicative control unit 323 according to pointer movement information (A) with put information (B) and adjust the display frame that display unit 322 presents.

In addition, display device also 32 can comprise storage element (not illustrating), is electrically connected on display unit 322.When display device 32 arranges in pairs or groups mapping software use, display device 32 can utilize storage element to store the change in location of input person's handwriting, and the setting value of the display properties such as size setting, width setting, color settings, brightness settings of input person's handwriting.

Please refer to Fig. 5, for the present invention utilizes optical pen to adjust the first embodiment of the process flow diagram of display frame.First, display device receives the pointer movement information (A) that exports of optical pen and puts information (B) (step S52); Then, judge whether major axis horizontal sextant angle is less than the first level angle door (step S53), that is judge according to major axis horizontal sextant angle representative in the information of putting (B).

When being false if judge, display device then controls vertically moving (step S55) of display frame according to pointer movement information (A), such as: vertical scrolling (verticalscrollup/down) up or down.Otherwise when setting up if judge, display device controls the transverse shifting (step S54) of display frame according to pointer movement information (A), such as: left or to by horizontal scrolling (horizontalscrollright/left).

For Fig. 6 A to Fig. 6 C.Suppose that Fig. 6 A is original display frame.When major axis horizontal sextant angle is very large and when being greater than the first level angle door, what represent optical pen puts attitude comparatively close to vertical direction.Now, display device can control display frame according to pointer movement information (A) and vertically moves.

If user is to a tail direction rotation roller, index moving direction (a1) is defined as positive moving direction (+), then as shown in Figure 6B, display frame can vertically be moved up.

Further, determine according to index amount of movement (a2) amplitude that display frame can be moved upward.Such as: when roller rotates half-turn towards tail direction, the content of display frame will move up 100 pixels; And when roller rotates a circle towards tail direction, the content of display frame will move up 200 pixels.

In like manner, if user is to nib direction rotation roller, index moving direction (a1) is defined as negative moving direction (-), then as shown in Figure 6 C, display frame can be moved downward.Further, determine according to index amount of movement (a2) amplitude that display frame vertically moves down.

For Fig. 7 A to Fig. 7 C.Suppose that Fig. 7 A is original display frame.When major axis horizontal sextant angle is very little and when being less than the first level angle door, what represent optical pen puts attitude comparatively close to horizontal direction.Now, display device can control display frame according to pointer movement information (A) and carries out transverse shifting.

If user is towards a tail direction rotation roller, index moving direction (a1) is defined as positive moving direction (+), then as shown in Figure 7 B, display frame can be moved to the left in the horizontal direction.Further, determine according to index amount of movement (a2) amplitude that display frame is moved to the left in the horizontal direction.

In like manner, if user is towards optics nib direction rotation roller, index moving direction (a1) is defined as negative moving direction (-), then as seen in figure 7 c, display frame can be moved right.Further, determine according to index amount of movement (a2) amplitude that display frame moves right in the horizontal direction.

From above explanation, utilize optical pen of the present invention directly can carry out the longitudinal direction of display frame and horizontal movement.

In addition, please refer to Fig. 8 A, Fig. 8 B, when the instruction path point display frame 82 of optical pen, a criss-cross cursor mark can be shown in display frame.If when display frame is not pointed in the instruction path of optical pen 81, then not display highlighting symbol.Therefore, whether the present invention can have intersection according to instruction path and display frame further, and allows user utilize optical pen to carry out display picture zooming.

Please refer to Fig. 9, it utilizes the second embodiment of the process flow diagram of optical pen adjustment display frame for the present invention.First, receive the pointer movement information (A) that exports of optical pen and put information (B) (step S62); Then judge whether major axis horizontal sextant angle is less than the first level angle door (step S63), that is judge according to major axis horizontal sextant angle representative in the information of putting (B).

When being false if judge, then control vertically moving (step S67) of display frame according to pointer movement information (A).The control method of step S67 is identical with the step S55 of Fig. 5, please refer to the explanation of Fig. 6 A, Fig. 6 B, Fig. 6 C, repeats no more herein.

When setting up if judge, then judge whether instruction path points to display frame (step S64) further.

If when display frame is not pointed in instruction path, display device will control the transverse shifting (step S65) of display frame according to pointer movement information (A).The control method of step S65 is identical with the step S54 of Fig. 5, please refer to the explanation of Fig. 7 A, Fig. 7 B, Fig. 7 C, repeats no more herein.

On the other hand, if during instruction path point display frame, display device will control the convergent-divergent (step S66) of display frame according to pointer movement information (A).

Suppose that Figure 10 A is original display frame.If user is to a tail direction rotation roller, index moving direction (a1) is defined as positive moving direction (+), then as shown in Figure 10 B, the content of display frame can reduced (zoom-out).Further, display device can determine according to pointer movement amount (a2) ratio that the content of display frame is reduced.

In like manner, if user is to nib direction rotation roller, index moving direction (a1) is defined as negative moving direction (-), then as illustrated in figure 10 c, the content of display frame can be exaggerated (zoom-in).Further, pointer movement amount (a2) determines the ratio that the content of display frame is exaggerated.

Hold, according to the housing major axis of optical pen, the present invention can judge that it puts attitude, and then adjustment display frame carries out vertically moving or non-longitudinal moves.Below utilize Figure 11 A, correlativity that Figure 11 B converges whole major axis horizontal sextant angle and display frame move mode, wherein, the represented by dotted arrows of horizontal direction and the direction of plane-parallel, and two wherein thicker represented by dotted arrows first level angles door (α _ th).

In Figure 11 A, when optical pen 91 lay respectively at first put attitude P1, second put attitude P2, the 3rd put attitude P3 time, its major axis horizontal sextant angle is respectively the first major axis horizontal sextant angle θ 1, second major axis horizontal sextant angle θ the 2, the 3rd major axis horizontal sextant angle θ 3; And those major axis horizontal sextant angles (θ 1, θ 2, θ 3) are all greater than the first level angle door (α _ th).Therefore, when optical pen 91 present first put attitude P1, second put attitude P2, the 3rd put attitude P3 time, display device carries out vertically moving of vertical direction by making display frame according to pointer movement information.

In Figure 11 B, put attitude P4, the 5th and put attitude P5, the 6th when optical pen 91 lays respectively at the 4th and put attitude P6, the 7th and put attitude P7, its major axis horizontal sextant angle is respectively the 4th major axis horizontal sextant angle θ the 4, the 5th major axis horizontal sextant angle θ the 5, the 6th major axis horizontal sextant angle θ the 6, the 7th major axis horizontal sextant angle θ 7; And those major axis horizontal sextant angles (θ 4, θ 5, θ 6, θ 7) are all less than the first level angle door (α _ th).Therefore, when optical pen 91 present first put attitude P1, second put attitude P2, the 3rd put attitude P3, the 4th put attitude P4 time, display device will make according to pointer movement information display frame carry out transverse shifting or convergent-divergent adjustment.

For example, the first level angle door (α _ th) may be defined as 50 degree, and when major axis horizontal sextant angle is greater than 50 degree, control display frame vertically moves by display device; And when major axis horizontal sextant angle is less than 50 degree, control display frame is carried out non-longitudinal and is moved by display device.

The present invention also can arrange in pairs or groups the first level angle door and provide an error burst (such as: positive and negative 5 degree).When major axis horizontal sextant angle changes, but still when this error burst, then maintain operator scheme originally.

Such as: if during the current operating optical of user, control display device display frame and carry out transverse shifting, then, when major axis horizontal sextant angle is increased to 54 degree by 40 degree, still row transverse shifting is carried out in maintenance; Until optical pen 81 major axis horizontal sextant angle continue to become large and more than 55 degree time, display device just changes control display frame into and vertically moves, and vice versa.

Except putting except information (B) with the representative of major axis horizontal sextant angle, the present invention also can utilize alternate manner to define the information of putting (B).Refer to Figure 12 A, its illustrate the schematic diagram of putting attitude for utilizing lateral axis horizontal sextant angle to represent optical pen 42.The rotation axis bearing of trend of roller 422 is defined as input block lateral axis by it, and therefore, input block lateral axis is by vertical with a body direction of optical pen 42.

Angle between further definition input block lateral axis and surface level is lateral axis horizontal sextant angle, and puts information (B) with the representative of lateral axis horizontal sextant angle.Same, then arrange in pairs or groups pointer movement information (A) representated by roller 422 rotation direction and amount of spin time, display device just can be allowed further to control display frame.

When optical pen put attitude produce change time, lateral axis horizontal sextant angle is also related to change.Figure 12 B illustrates embodiments of the invention, how judges the action type of user according to lateral axis horizontal sextant angle.

This figure is that hypothesis optical pen 42 lays respectively at first and puts attitude P1, second and put attitude P2, the 3rd and put attitude P3, the 4th and put attitude P4, and its lateral axis horizontal sextant angle is respectively the first lateral axis horizontal sextant angle θ 1, second side direction major axis horizontal sextant angle θ the 2, the 3rd lateral axis horizontal sextant angle θ the 3, the 4th lateral axis horizontal sextant angle θ 4.

In Figure 12 B, when optical pen 42 put attitude as first in figure put attitude P1, the 3rd put attitude P3, the 4th put attitude P4 time, lateral axis horizontal sextant angle is less.That is when a body direction for optical pen 42 is comparatively put close to vertical direction, lateral axis horizontal sextant angle diminishes.Therefore, the second level angle door (θ=β _ th) can be defined, when the attitude of putting of optical pen 42 makes lateral axis horizontal sextant angle be less than the second level angle door (θ < β _ th), display device will vertically move display frame.

On the other hand, when optical pen 42 put attitude as second in figure put attitude P2, the 5th put attitude P5 time, lateral axis horizontal sextant angle is larger.That is when a body direction for optical pen 42 is comparatively put close to horizontal direction, lateral axis horizontal sextant angle becomes large.Therefore, the second level angle door (θ=β _ th) can be defined, when the attitude of putting of optical pen 42 makes lateral axis horizontal sextant angle be greater than the second level angle door (θ > β _ th), display device will be carried out non-longitudinal to display frame and be moved.

Therefore, Figure 12 utilizes the roller of optical pen 42 to carry out non-longitudinal to move to represent user compared with the shading of paler colour equally, and lateral axis horizontal sextant angle when vertically moving with the shading representative that color is darker.In figure, the represented by dotted arrows lateral axis horizontal sextant angle of horizontal direction is 0 degree, two wherein thicker represented by dotted arrows second level angles door (β _ th).

When optical pen utilizes lateral axis horizontal sextant angle to represent to put information, how display device the adjusts display frame practice according to roller rotation direction and amount of spin can analogize aforementioned explanation, repeats no more herein.Need notice, the corresponding relation of the control mode of input block and pointer movement direction, index amount of movement is not limited in the mode of aforementioned definitions.Such as: when roller rolls towards nib direction, also can be defined as index moving direction is positive moving direction, and vice versa.

Although the input block of previous embodiment hypothesis optical pen is roller, the both direction utilizing roller to rotate corresponds to two reverse directions in same dimension when index moves, and corresponds to the pointer movement amount of display frame with the actual rotation amount of roller.But the input block of optical pen also may be the Trackpad be arranged in one X-axis-Y-axis plane, rocker switch (Rocker), keyswitch etc.Wherein, input block extends along Y-axis, and X-axis is input block lateral axis.

Refer to Figure 13 A, it is that optical pen is using long strip type Trackpad 711 as the schematic diagram of input block.Wherein defining housing major axis is the direction that body direction is parallel with optical pen 71, and instruction path represents with housing longer axis parallel and points to the direction of nib.Moreover definition input block lateral axis is the direction that body direction is vertical with optical pen 71.

Trackpad 711 can detect touch control gesture, and the direction of motion system of touch control gesture can be selected from one of positive motion direction and negative both direction of motion.When optical pen 71 is using Trackpad as input block, index amount of movement, index moving direction can be represented according to the direction of motion of the displacement of touch control gesture, touch control gesture.

Refer to Figure 13 B, it is that optical pen is using rocker switch 721 as the schematic diagram of input block.Wherein defining housing major axis is the direction that body direction is parallel with optical pen, and instruction path and housing longer axis parallel point to the nib of optical pen.Moreover definition input block lateral axis is the direction that body direction is vertical with optical pen.

Rocker switch 721 can produce Continuity signal in response to the pressing of user, and wherein index amount of movement is pressed time length corresponding to rocker switch 721 or is pressed number of times.When rocker switch 721 is pressed near the switch first half section 721a of nib, using positive moving direction as index moving direction, when rocker switch 721 near a tail the switch second half section, 721b was pressed time, using negative moving direction as index moving direction.

Refer to Figure 13 C, it is that optical pen is using keyswitch 731 as the schematic diagram of input block.Wherein defining housing major axis is the direction that body direction is parallel with optical pen, and instruction path and housing longer axis parallel point to the nib of optical pen.Moreover definition input block lateral axis is the direction that body direction is vertical with optical pen.

If what be pressed is from the keyswitch 731a close to nib, supposes that Continuity signal is the first state, now index moving direction is defined as positive moving direction.

Moreover, if what be pressed is relatively from the keyswitch 731b close to a tail, supposes that Continuity signal is the second state, now index moving direction is defined as negative moving direction.

Except determining index moving direction according to keyswitch 731a, 731b, the present invention also can to push button the number of times of switch 731a, 731b or time length and judge index amount of movement according to user.

Another kind application in, optical pen can also display device provide write or drawing function time, provide amendment input person's handwriting function.

Refer to Figure 14, it is the schematic diagram of display system of the present invention.Wherein display device is for being connected to personal computer PC, and personal computer PC is just performing mapping software (as: the little artist in Windows accessory application) and be unlocked striograph file A (imagefile).Wherein, style of writing setting district, color settings district is had on the left of mapping software.User can control both optical pen 143 put attitude, make optical pen 143 rest on the various regions on the left of display frame 142 with the rendezvous position of display frame 142, the type desirably set and select the style of writing or the color that input person's handwriting.Be described in detail as follows:

Display device is except pointing out user at rendezvous position display indicator diagram, if when user utilizes mapping software to carry out writing or drawing, display device can also be selected using brush strokes pattern as indicator diagram.

For Figure 15 A, style of writing setting district illustrates that the preliminary election brush strokes pattern that mapping software provides has watercolor pencil, paintbrush, cylinder etc.Suppose that the first brush strokes pattern is used as with the graphic of watercolor pencil by mapping software; The second brush strokes pattern is used as with the graphic of paintbrush; And, be used as the 3rd brush strokes pattern with the graphic of cylinder.

According to an embodiment of the present invention's conception, when rendezvous position rests on style of writing setting district, and when user carries out dynamic operation (such as: front and back whipping optical pen) to optical pen, now brush strokes pattern may correspond to produce and changes.

For example, user's whipping optical pen is supposed once, then selected first brush strokes pattern (watercolor pencil); Suppose user's whipping optical pen secondary, then selected second brush strokes pattern (paintbrush); Suppose user's whipping optical pen three times, then selected 3rd brush strokes pattern (cylinder).In like manner, suppose user again whipping optical pen then return back to selected first brush strokes pattern (watercolor pencil), so go round and begin again.

In other words, when user selects brush strokes pattern, display system of the present invention allows user through the operation to optical pen, directly changes the brush strokes pattern selected, and repeatedly needn't change through mapping software the brush strokes pattern selected.The present invention will judge user's whether whipping optical pen, and determine the current brush strokes pattern selected according to the number of times of whipping optical pen.

When realizing this function, the present invention can arrange acceleration sensing unit in optical pen, for sensing the acceleration that lip pencil housing moves in space.When optical pen because the dynamic operation behavior of user and by whipping, rock, when swinging, produce shell vibrating signal by acceleration sensing unit.Afterwards, shell vibrating signal is transferred into display device through the delivery unit be electrically connected with acceleration sensing unit again.

Hold, the receiving element signal of display device is connected to the delivery unit of optical pen, makes display device first receive shell vibrating signal through receiving element.Thereafter, display unit changes the outward appearance of indicator diagram again according to the reception number of times of shell vibrating signal.

In like manner, refer to Figure 15 B, it provides six kinds to take turns the schematic diagram of sequence candidate color as optical pen track.User can control optical pen, and rendezvous position is rested on color settings district.And color settings district provides six kinds of default wheel sequence candidate colors, along with user carries out dynamic operation behavior to optical pen, display frame also will change the display properties of indicator diagram and input person's handwriting.

That is user utilizes the number of times of whipping optical pen, carry out the color that selected user wants to utilize.Be same as the mode of style of writing setting, utilize the number of times of optical pen whipping, the color utilized is wanted in the selection that user can go round and begin again.After user completes drawing or image amendment by the operation of optical pen, mapping software can provide the function storing input person's handwriting.

See Figure 16, it is the schematic diagram that optical pen 161 of the present invention senses the dynamic operation of user.A tail of optical pen 161 comprises the second switch unit 161a of the first switch element 161c and case side.

Wherein, the first switch element 161c is regarded as lock cell, is electrically connected on gravity sensing unit and delivery unit.

When user wishes the display properties setting input person's handwriting, first do not start lock cell, acceleration sensing unit continues the dynamic operation sensing user.That is, the above-mentioned display properties deciding input person's handwriting according to the region of rendezvous position stop and the number of times of user's whipping.

After user determines the style of writing and color inputting person's handwriting, the first switch element 161c can be pressed.Now, lock cell is activated, and represents the dynamic operation that optical pen 161 no longer detects user.After lock cell is activated and produces locking signal, acceleration sensing unit also stops output housing vibration signal.

Certainly, if after user has write a paragraph, wished the display properties changing input person's handwriting once again, just can press the first switch element 161c once again, namely stopped starting lock cell.Afterwards, then repeat aforesaidly to choose assignment procedure, and restart lock cell after choosing.

Moreover second switch unit 161a is regarded as activation unit, and is electrically connected on delivery unit, it produces enable signal because of the operation of user.

When activation unit is pressed, activation unit produces enable signal, and this enable signal can be transmitted to display device.When activation unit is pressed, represents user and wish that setting mapping software is in write mode.That is, display unit adjusts except the change because of rendezvous position except the position of indicator diagram, also can corresponding amendment input trajectory.

Please refer to Figure 17 A, its representative is not when activation unit is pressed, and mapping software is in operation during non-writing pattern.Now, display device only shows current rendezvous position with pointer pattern.Figure 17 A illustrates the continuous moving process of rendezvous position with dashed trace, and display frame 171 can't show this dashed trace, and mapping software also can not be recorded to above-mentioned dashed trace in the striograph file opened at present.

Please refer to Figure 17 B, its representative is when activation unit is pressed, and mapping software is in operation during write mode.Now, display device, except display indicator diagram, also can show the track that rendezvous position changes.Suppose that user have selected the 3rd brush strokes figure (cylinder) and first round sequence candidate color.Solid line track then in Figure 17 B represents the continuous moving process of rendezvous position.Can find out in figure, display frame 172 can show a wider solid line track, and the striograph file that editor opens at present also can be revised according to above-mentioned solid line track by mapping software, that is in the striograph file that above-mentioned solid line track record is opened up till now.

Although aforesaid preferred embodiment illustrates mapping software how according to the front and back whipping number of times of optical pen, and determines how to change input person's handwriting, when practical application, the dynamic operation type that optical pen senses is not limited with front and back whipping.Such as modes such as rotation, swings, the judgement source that the shell vibrating signal also can being used as optical pen produces.

Moreover, when user determines style of writing or color (such as, 3rd brush strokes figure and first round sequence candidate color) after, when pressing activation unit and entering write mode, rotary pen body more can be utilized to decide the width of lines and the change of brightness.Be described in detail as follows:

See Figure 18, it is the schematic diagram of the rotation amplitude of sensing optical pen.This graphic user of representative can the central shaft of optical pen 161 be rotation center, to rotate clockwise or counterclockwise.And according to the amplitude that user rotates optical pen 161, the width or the brightness that input person's handwriting can be determined.

Refer to Figure 19, it, for when user's operating optical, rotates the schematic diagram that optical pen turns to simultaneously.For example, when describing dashed trace as figure when user's operating optical pen 181, user except by left and except the mobile optical pen 181 on the right side, simultaneously also with optical pen 161 central shaft for rotation center and make optical pen produce rotation.Therefore, when the second switch unit 181a originally shown above picture on the dotted line left side has arrived dotted line right-hand member, graphic below has been diverted to.

The present invention, further according to optical pen turning at writing process, provides a kind of practice adjusting input pen stitch width, is described in detail as follows.

Refer to Figure 20 A, it is turning to according to optical pen, utilizes different in width to correspond to the schematic diagram of input person's handwriting.

Suppose user operating optical pen 181 herein and write the S type track of a transverse direction.Suppose that user is when operating optical pen 181, except mobile optical pen 181 is in the position of solid space, and make outside optical pen 181 moves along the dotted line in figure, a body of optical pen 181 also can change it and turn to along with the difference of time point.

As can be seen from Figure, when user is at operating optical pen 181, the input person's handwriting shown by display frame 180 also can its width of synchronous adjustment.Such as: corresponding to optical pen 181 turning at t1, t3, t5, the input person's handwriting that display frame 180 shows have respectively wider, more carefully, wider width.

See Figure 20 B, it corresponds in Figure 20 A, the different time points in writing process, the schematic diagram of the tangent plane of corresponding optical pen.

In order to distinguish the rotation status of optical pen at different time point, the default tangent plane of hypothesis is herein: the tangent plane of activation unit on optical pen surface location of optical pen.Certainly, the definition mode of tangent plane is preset not as limit, such as: the tangent plane etc. of roller on optical pen surface location that also default tangent plane can be defined as optical pen.Further, the angle between the default tangent plane of optical pen 181 and perpendicular line is defined as vertical angle by this embodiment.

When the first time point t1, if by when seeing the tangent plane of optical pen 181 on rear side of optical pen 181, activation unit 181a is positioned at the position of optical pen 181 top relatively.Now, the vertical angle between the default tangent plane of optical pen 181 and perpendicular line presents 90 degree.The person's handwriting of hypothesis input herein, when vertical angle presents 90 degree, has wider width setting relatively.Such as: supposing to input the display ratio that the width of person's handwriting is set in the first time point t1 is 100%.

When the second time point t2, if by when seeing the tangent plane of optical pen 181 on rear side of optical pen 181, activation unit is positioned at the relatively top-right position of optical pen 181.Now, the vertical angle between the default tangent plane of optical pen 181 and perpendicular line presents 45 degree.Herein, input the display ratio that the width of person's handwriting is set in the second time point t2 and may be reduced to 75%.

When the 3rd time point t3, if by when seeing the tangent plane of optical pen on rear side of optical pen 181, activation unit 181a is positioned at the position on optical pen 181 right side relatively.Now, the vertical angle between the default tangent plane of optical pen 181 and perpendicular line presents 0 degree.The display ratio that the width of input person's handwriting is set in the 3rd time point t3 may be reduced to 50%.

When the 4th time point t4, if by when seeing the tangent plane of optical pen 181 on rear side of optical pen 181, activation unit 181a is positioned at the relatively top-right position of optical pen 181.Now, the vertical angle between the default tangent plane of optical pen 181 and perpendicular line presents 45 degree.Herein, track width may return to 75% at the display ratio of the 4th time point t4.

When the 5th time point t5, if by when seeing the tangent plane of optical pen 181 on rear side of optical pen 181, activation unit 181a is positioned at the position of optical pen 181 top relatively.Now, the vertical angle between the default tangent plane of optical pen 181 and perpendicular line returns back to 90 degree, and the input person's handwriting in display frame has wider width once again.Now, track width may return to 100% at the display ratio of the 5th time point t5.

Optical pen of the present invention can utilize gravity sensing unit sense vertical angle and draw vertical angle information, transmits vertical angle information to display device through delivery unit.Display device is supplied to the mapping software of PC end after receiving vertical angle information through receiving element, and the mapping software allowing PC hold adjusts the display properties of input person's handwriting with reference to this information.

Refer to Figure 21, the variable angle between the default tangent plane of optical pen and perpendicular line is described, how to affect the schematic diagram of person's handwriting width setting.

In this is graphic, with first row representative looked forward by the proceeds posterolateral of optical pen 181 time, optical pen put attitude; When being looked forward by the dead astern of optical pen 181 with secondary series representative, optical pen 181 presents difference when putting attitude, the relation between perpendicular line and default tangent plane; And, input person's handwriting when changing with the 3rd row explanation width.In addition, the 4th row illustrate how the width of input person's handwriting changes according to vertical angle.

Suppose being set as of mapping software: optical pen 181 is when vertical angle is the first predetermined angle θ 1, and the width of input person's handwriting is the first width W 1; And when vertical angle is the second predetermined angle θ 2, the width of input person's handwriting is the second width W 2.

When user's operating optical pen 181, there is between the vertical angle θ of optical pen 181 and the first predetermined angle θ 1 first angle difference Δ θ 1, and there is between vertical angle and the second predetermined angle θ 2 second angle difference Δ θ 2, and input the width W of person's handwriting according to the first width W 1, second width W 2, and the first angle difference Δ θ 1 and the second angle difference Δ θ 2 determines jointly.Such as:

$W=W1*\frac{|\mathrm{\&theta;}-\mathrm{\&theta;}2|}{|\mathrm{\&theta;}2-\mathrm{\&theta;}1|}+W2*\frac{|\mathrm{\&theta;}-\mathrm{\&theta;}1|}{|\mathrm{\&theta;}2-\mathrm{\&theta;}1|}=W1*\frac{\mathrm{\&Delta;\&theta;}2}{|\mathrm{\&theta;}2-\mathrm{\&theta;}1|}+W2*\frac{\mathrm{\&Delta;\&theta;}1}{|\mathrm{\&theta;}2-\mathrm{\&theta;}1|}$

The first row hypothesis of Figure 21 is watched by nib direction by a tail of optical pen 181, and the first of optical pen 181 puts attitude makes activation unit relatively be positioned at twelve-hour position, and the angle that representative is preset between tangent plane and perpendicular line is 90 degree.First predetermined angle like this is 90 degree, and now the first angle difference Δ θ 1 is 0 degree, the second angle difference Δ θ 2 is 90 degree.When optical pen 181 present this kind put attitude time, the input person's handwriting corresponding with optical pen 181 should have the first width W 1, that is,

$W=W1*\frac{\mathrm{\&Delta;\&theta;}2}{|\mathrm{\&theta;}2-\mathrm{\&theta;}1|}+W2*\frac{\mathrm{\&Delta;\&theta;}1}{|\mathrm{\&theta;}2-\mathrm{\&theta;}1|}=W1*\frac{90}{90}+W2*\frac{0}{90}=W1.$

On the other hand, if the third line of Figure 21 illustrates that the second of optical pen 181 is put attitude and made activation unit relatively be positioned at three position, the angle that representative is preset between tangent plane and perpendicular line is 0 degree.Second predetermined angle like this is 0 degree, and now the first angle difference is 90 degree, the second angle difference Δ θ 2 is 0 degree.When optical pen 181 present this kind put attitude time, the input person's handwriting corresponding with optical pen 181 should have the second width W 2, that is,

$W=W1*\frac{\mathrm{\&Delta;\&theta;}2}{90}+W2*\frac{\mathrm{\&Delta;\&theta;}1}{90}=W1*\frac{0}{90}+W2*\frac{90}{90}=W2.$

In addition, second row of Figure 21 represent optical pen 181 turn to make optical pen put attitude between the first row and the third line.Now, the width inputting person's handwriting will between the first width W 1 and the second width W 2.

Such as: when vertical angle is 45 degree, the width of the input person's handwriting corresponding with optical pen is:

$W=W1*\frac{|45-0|}{|0-90|}+W2*\frac{|45-90|}{|0-90|}=W1*\frac{45}{90}+W2*\frac{45}{90}=W1*50\%+W2*50\%.$

Moreover, also can draw according to similar mode about the brightness or color settings mode inputting person's handwriting, as:

If when vertical angle is 90 degree, the brightness of the input person's handwriting corresponding with optical pen is the first brightness L1; And if when vertical angle is 0 degree, the brightness of the input person's handwriting corresponding with optical pen is the second brightness L2.

Accordingly, when vertical angle is 30 degree, the brightness of the input person's handwriting corresponding with optical pen is:

$L=L1*\frac{|30-0|}{|0-90|}+L2*\frac{|30-90|}{|0-90|}=L1*\frac{30}{90}+L2*\frac{60}{90}=L1*\frac{1}{3}+L2*\frac{2}{3}.$

That is, utilize vertical angle and adjust different display properties, and predetermined angle corresponding to different display properties (as: brightness, color, width etc.) may be identical or different, this people by the pre-located by prior art of ability energy free substitution.

In addition, except person's handwriting width, this kind changes brightness settings mode according to roller steering also can be applied to the person's handwriting brightness, color settings etc. of optical pen.

From the above, according to the preferred embodiment of the present invention's conception, when user's operating optical pen go forward side by side running hand write time, the display properties of its track just can according to the roller bearing of optical pen towards direction change.Except the mode with calculating, the display properties of person's handwriting also can draw with lookup table mode, and this draws for those skilled in the art can freely apply, and no longer describes in detail herein.

Same, the optical pen according to the present invention's conception can comprise lock cell further, when lock cell is not activated, represents locking signal and does not produce, and gravity sensing unit continues sensing vertical angle and upgrades vertical angle information; And when lock cell is activated, represents locking signal and produce, vertical angle Information Dimension is held in before lock cell is activated, and gravity sensing unit upgrades the content of vertical angle information for the last time.

In sum, the present invention can directly utilize the various mode of operation of optical pen to provide state and the relevant display setting adjusting display device to putting, and makes the operation of display system more convenient.

Need attach one to carry, display system also may comprise at least one telechiric device, and these telechiric devices have corresponding identification title respectively.There is provided corresponding input person's handwriting according to each telechiric device, and each input person's handwriting have the style of writing setting, size setting, width setting, color settings, brightness settings etc. of its uniqueness respectively.The technician that the practice that this kind provides the collocation of multiple telechiric device to distinguish that display device uses can be this area breath can know, repeats no more herein.

In sum, although the present invention with preferred embodiment disclose as above, so itself and be not used to limit the present invention.Persond having ordinary knowledge in the technical field of the present invention, without departing from the spirit and scope of the invention, when doing various changes and retouching.Therefore, protection scope of the present invention is when being as the criterion with the claim person of defining.

Claims (40)

1. a display system, is characterized in that, comprises:

Telechiric device, comprises:

Housing, has housing major axis;

Input block, be arranged on this housing, it can produce index amount of movement and index moving direction because of the operation of user, wherein this index moving direction can be selected from one of the two of shuffle dynamic direction and negative moving direction, and this positive moving direction and this negative moving direction are the opposite direction of same one dimension;

Gravity sensing unit, what it sensed this housing puts attitude, and draws the major axis horizontal sextant angle between this housing major axis and surface level accordingly; And

Delivery unit, is electrically connected on this gravity sensing unit, and it transmits this index amount of movement, this index moving direction and this major axis horizontal sextant angle; And

Display device, comprises:

Receiving element, signal is connected to this telechiric device, and it receives this index amount of movement, this index moving direction and this major axis horizontal sextant angle;

Display unit, it demonstrates display frame; And

Indicative control unit, is electrically connected on this receiving element and this display unit, and it adjusts this display frame according to this index amount of movement, this index moving direction and this major axis horizontal sextant angle,

Wherein when this major axis horizontal sextant angle is less than the first level angle door, this indicative control unit is according to this index amount of movement and this index moving direction, and controls this display frame and carry out non-longitudinal and move; And

When this major axis horizontal sextant angle is greater than this first level angle door, this indicative control unit according to this index amount of movement and this index moving direction, and controls this display frame and vertically moves.

2. display system as claimed in claim 1, it is characterized in that, this input block is roller, this roller can rotate because of the operation of this user, and the rotation direction of this roller can be selected from one of the two of turn direction and negative rotation direction, it makes this index amount of movement, this index moving direction corresponds respectively to the rotation number of turns of this roller, the rotation direction of this roller.

3. display system as claimed in claim 1, it is characterized in that, this input block is Trackpad, this Trackpad can detect touch control gesture, and the direction of motion of this touch control gesture can be selected from one of the two of positive motion direction and negative direction of motion, it makes this index amount of movement, this index moving direction corresponds respectively to the displacement of this touch control gesture, the direction of motion of this touch control gesture.

4. display system as claimed in claim 1, it is characterized in that, this input block is switch, this switch can produce Continuity signal because of the pressing of this user, wherein this index amount of movement corresponds to the time producing this Continuity signal, when this Continuity signal is the first state, using this positive moving direction as this index moving direction, when this Continuity signal is the second state, using this negative moving direction as this index moving direction.

5. display system as claimed in claim 1, is characterized in that, extends instruction path from this housing;

When this instruction path and this display frame intersection are in rendezvous position, this display unit points out this user through the indicator diagram shown by this rendezvous position.

6. display system as claimed in claim 5, is characterized in that, it is optionally convergent-divergent adjustment and one of both transverse shiftings that this non-longitudinal moves,

If this this display frame of instruction path point is with inner region, then this indicative control unit system is according to this index amount of movement and this index moving direction, and controls this display frame and carry out this convergent-divergent adjustment; And

If this this display frame of instruction path point is with exterior domain, then this indicative control unit is according to this index amount of movement and this index moving direction, and controls this display frame and carry out this transverse shifting.

7. display system as claimed in claim 1, it is characterized in that, it is optionally convergent-divergent adjustment and one of both transverse shiftings that this non-longitudinal moves, this indicative control unit vertically moves according to this, this transverse shifting and this convergent-divergent adjustment thrin and adjust this display frame, wherein this vertically moves and refers to that this display frame vertically moves up or down, this transverse shifting refers to that this display frame is moved in the horizontal direction to the left or to the right, and the adjustment of this convergent-divergent refers to the content zooming in or out this display frame.

8. a display packing, between the telechiric device being applied to signal connection each other and display device, it is characterized in that, this display packing comprises following steps:

This telechiric device produces index amount of movement and index moving direction because of the operation of user, wherein this index moving direction can be selected from one of the two of shuffle dynamic direction and negative moving direction, and this positive moving direction and this negative moving direction are the opposite directions of same one dimension;

This telechiric device senses it and puts attitude, and draws the major axis horizontal sextant angle between its housing major axis and surface level accordingly;

This telechiric device transmits this index amount of movement, this index moving direction and this major axis horizontal sextant angle to this display device; And

This display device adjusts display frame according to this index amount of movement, this index moving direction and this major axis horizontal sextant angle, wherein

When this major axis horizontal sextant angle is less than the first level angle door, this display device according to this index amount of movement and this index moving direction, and controls this display frame and carries out non-longitudinal and move; And

When this major axis horizontal sextant angle is greater than this first level angle door, this display device according to this index amount of movement and this index moving direction, and controls this display frame and vertically moves.

9. display packing as claimed in claim 8, it is characterized in that, this telechiric device extends instruction path, and this display packing more comprises following steps: when this instruction path and this display frame intersection are in rendezvous position, this display device in this rendezvous position display indicator diagram, and points out this user accordingly.

10. display packing as claimed in claim 9, is characterized in that, it is optionally convergent-divergent adjustment and one of both transverse shiftings that this non-longitudinal moves;

If this this display frame of instruction path point is with inner region, then this display device is according to this index amount of movement and this index moving direction, and controls this display frame and carry out this convergent-divergent adjustment; And

If this this display frame of instruction path point is with exterior domain, then this display device is according to this index amount of movement and this index moving direction, and controls this display frame and carry out this transverse shifting.

11. display packings as claimed in claim 8, it is characterized in that, it is optionally convergent-divergent adjustment and one of both transverse shiftings that this non-longitudinal moves, this display device vertically moves according to this, this transverse shifting and this convergent-divergent adjustment thrin and adjust this display frame, wherein this vertically moves and refers to that this display frame vertically moves up or down, this transverse shifting refers to that this display frame is moved in the horizontal direction to the left or to the right, and the adjustment of this convergent-divergent refers to the content zooming in or out this display frame.

12. 1 kinds of display systems, is characterized in that, comprise:

Telechiric device, comprises:

Housing;

Input block, is arranged on this housing, and it can produce index amount of movement and index moving direction because of the operation of user, and this index moving direction can be selected from one of the two of shuffle dynamic direction and negative moving direction, and this input block has input block lateral axis;

Gravity sensing unit, what it sensed this housing puts attitude, and draws the lateral axis horizontal sextant angle between this input block lateral axis and surface level accordingly; And

Delivery unit, is electrically connected on this gravity sensing unit, and it transmits this index amount of movement, this index moving direction, with this lateral axis horizontal sextant angle; And

Display device, comprises:

Receiving element, signal is connected to this telechiric device, and it receives this index amount of movement, this index moving direction and this lateral axis horizontal sextant angle;

Display unit, it demonstrates display frame; And

Indicative control unit, is electrically connected on this receiving element and this display unit, and it adjusts this display frame according to this index amount of movement, this index moving direction and this lateral axis horizontal sextant angle, wherein

When this input block lateral axis horizontal sextant angle is greater than the second level angle door, this indicative control unit controls this display frame according to this index amount of movement and this index moving direction and carries out transverse shifting; And

When this input block lateral axis horizontal sextant angle is less than this second level angle door, this indicative control unit system controls this display frame according to this index amount of movement and this index moving direction and vertically moves.

13. display systems as claimed in claim 12, it is characterized in that, this input block is roller, this roller can rotate around roller wheel shaft because of the operation of this user, and this roller wheel shaft is this input block lateral axis, wherein the rotation direction of this roller can be selected from one of the two of turn direction and negative rotation direction, and this index amount of movement and this index moving direction correspond respectively to the rotation number of turns and the rotation direction of this roller.

14. display systems as claimed in claim 12, it is characterized in that, this input block is Trackpad, this Trackpad extends in X-axis Y-axis plane, and this X-axis is this input block lateral axis, wherein this Trackpad can detect touch control gesture, when this touch control gesture essence is parallel to the motion of this Y-axis, the direction of motion of this touch control gesture can be selected from one of the two of positive motion direction and a negative direction of motion, and it makes this index amount of movement, this index moving direction corresponds respectively to the displacement of this touch control gesture, the direction of motion of this touch control gesture.

15. display systems as claimed in claim 12, it is characterized in that, this input block is switch, this switch-linear hybrid is in X-axis Y-axis plane, and this switch extends along this Y-axis, and this X-axis is this input block lateral axis, this switch can because of should user pressing and produce Continuity signal, wherein this index amount of movement corresponds to the time producing this Continuity signal, when this Continuity signal is the first state, using this positive moving direction as this index moving direction, when this Continuity signal is the second state, using this negative moving direction as this index moving direction.

16. display systems as claimed in claim 12, it is characterized in that, this indicative control unit according to vertically moving, transverse shifting the two one of and adjust this display frame, wherein this vertically moves and refers to that this display frame vertically moves up or down, this transverse shifting refers to that this display frame is moved in the horizontal direction to the left or to the right.

17. 1 kinds of display packings, between the telechiric device being applied to signal connection each other and display device, it is characterized in that, this display packing comprises following steps:

This telechiric device is according to the operation of user, and produce index amount of movement and index moving direction, this index moving direction to be selected from shuffle one of dynamic direction and negative both moving directions, this positive moving direction and this negative moving direction are the opposite directions of same one dimension, and this telechiric device has input block lateral axis;

This telechiric device senses it and puts attitude, and draws the lateral axis horizontal sextant angle between this input block lateral axis and surface level accordingly;

This telechiric device transmits this index amount of movement, this index moving direction and this lateral axis horizontal sextant angle to this display device; And

This display device adjusts display frame according to this index amount of movement, this index moving direction and this lateral axis horizontal sextant angle, wherein

When this lateral axis horizontal sextant angle is greater than the second level angle door, this indicative control unit controls this display frame according to this index amount of movement and this index moving direction and carries out transverse shifting; And

When this lateral axis horizontal sextant angle is less than this second level angle door, this indicative control unit controls this display frame according to this index amount of movement and this index moving direction and vertically moves.

18. display packings as claimed in claim 17, it is characterized in that, this display device be according to vertically moving, transverse shifting mode the two one of and adjust this display frame, wherein this vertically moves and refers to that this display frame vertically moves up or down, this transverse shifting refers to that this display frame is moved in the horizontal direction to the left or to the right.

19. 1 kinds of display systems, is characterized in that, comprise:

Telechiric device, comprises:

Housing, has default tangent plane, and extends instruction path from this housing;

Gravity sensing unit, it is the vertical angle of sensing between this default tangent plane and perpendicular line and draws vertical angle information; And

Delivery unit, is electrically connected on this gravity sensing unit, and it transmits this vertical angle information; And

Display device, comprises:

Receiving element, signal is connected to this delivery unit, and it is receive this vertical angle information; And

Display unit, demonstrates display frame and indicator diagram, and this instruction path and this display frame intersection are in rendezvous position, and this display unit points out this rendezvous position with this indicator diagram, and wherein the outward appearance of this indicator diagram changes according to this vertical angle information.

20. display systems as claimed in claim 19, it is characterized in that, this telechiric device more comprises:

Activation unit, is electrically connected on this delivery unit, and it produces enable signal,

Wherein when this enable signal produces, this display unit shows input person's handwriting because of the change of this rendezvous position;

Wherein when this enable signal does not produce, this display unit adjusts the display position of this indicator diagram because of the change of this rendezvous position.

21. display systems as claimed in claim 19, it is characterized in that, this indicator diagram is brush strokes pattern, and this display device more comprises:

Mapping software, its be according to this brush strokes pattern in this display frame institute path of passing through with produces input person's handwriting, and the setting of the size of this input person's handwriting, width setting, color settings, brightness settings one of them be change because of the change of this vertical angle.

22. display systems as claimed in claim 21, it is characterized in that, this display device more comprises:

Storage element, is electrically connected on this display unit, it stores this input person's handwriting and its size sets, width sets, color settings, brightness settings one of them.

23. display systems as claimed in claim 21, is characterized in that, this input person's handwriting corresponds to the change of this vertical angle and adjusts its width,

When this vertical angle is the first predetermined angle, this input person's handwriting has the first width; And,

When this vertical angle is the second predetermined angle, this input person's handwriting has the second width, and wherein this first width is greater than this second width.

24. display systems as claimed in claim 23, it is characterized in that, between this vertical angle and this first predetermined angle, there is the first angle difference, and between this vertical angle and this second predetermined angle, there is the second angle difference, and the width of this input person's handwriting is according to this first width, this second width, and this first angle difference and this second angle difference determine jointly.

25. display systems as claimed in claim 21, is characterized in that, this input person's handwriting be correspond to this vertical angle change and adjust its brightness,

When this vertical angle is the 3rd predetermined angle, this input person's handwriting has the first brightness; And,

When this vertical angle is the 4th predetermined angle, this input person's handwriting has the second brightness, and wherein this first brightness is greater than this second brightness.

26. display systems as claimed in claim 25, it is characterized in that, there is between this vertical angle and the 3rd predetermined angle the 3rd angle difference, and between this vertical angle and the 4th predetermined angle, there is the 4th angle difference, and measuring of this input person's handwriting is according to this first brightness, this second brightness, and the 3rd angle difference and the 4th angle difference determine jointly.

27. display systems as claimed in claim 21, is characterized in that, this input person's handwriting corresponds to the change of this vertical angle and adjusts its color,

When this vertical angle is the 5th predetermined angle, this input person's handwriting has the first color; And,

When this vertical angle is the 6th predetermined angle, this input person's handwriting has the second color, and wherein this first color differs from this second color.

28. display systems as claimed in claim 27, it is characterized in that, there is between this vertical angle and the 5th predetermined angle the 5th angle difference, and between this vertical angle and the 6th predetermined angle, there is the 6th angle difference, and this input person's handwriting measure according to this first color, this second color, and the 5th angle difference and the 6th angle difference determine jointly.

29. display systems as claimed in claim 19, it is characterized in that, this telechiric device more comprises:

Lock cell, is electrically connected on this gravity sensing unit and this delivery unit,

When this lock cell is not activated, this gravity sensing unit continues this vertical angle of sensing and upgrades this vertical angle information;

When this lock cell is activated, this vertical angle Information Dimension is held in before this lock cell is activated, and this gravity sensing unit upgrades the content of this vertical angle information for the last time.

30. 1 kinds of telechiric devices, signal is linked to display device, this display device is for demonstrating display frame, with the rendezvous position of this display frame of indicator diagram representative instruction path point in this display frame, and this indicator diagram outward appearance changes according to received vertical angle information, it is characterized in that, this telechiric device comprises:

Housing, has default tangent plane, and extends this instruction path from this housing;

Gravity sensing unit, it senses the vertical angle between this default tangent plane and perpendicular line and draws this vertical angle information; And

Delivery unit, is electrically connected on this gravity sensing unit, and it transmits this vertical angle information to this display device.

31. telechiric devices as claimed in claim 30, it is characterized in that, this indicator diagram is brush strokes pattern, and this display device more comprises mapping software, this mapping software be according to this brush strokes pattern in this display frame institute path of passing through with produces input person's handwriting, and the setting of the size of this input person's handwriting, width setting, color settings, brightness settings one of them change because of the change of this vertical angle.

32. 1 kinds of display packings, between the telechiric device being applied to signal connection and display device, it is characterized in that, this display packing comprises following steps:

This telechiric device has default tangent plane, and this telechiric device senses the vertical angle between this default tangent plane and perpendicular line and draws vertical angle information, and extends an instruction path from this telechiric device;

This telechiric device transmits this vertical angle information to this display device; And

This display device demonstrates display frame, and this display frame and this instruction path intersection, in rendezvous position, be represent this rendezvous position with indicator diagram, and the outward appearance of this indicator diagram changes according to this vertical angle information in this display frame.

33. display packings as claimed in claim 32, is characterized in that: more comprise following steps:

This telechiric device produces enable signal according to the operation of user;

This telechiric device transmits the input signal to this display device according to the generation of this enable signal;

Wherein when the receiving element of this display device receives this input signal, the display unit of this display device shows this indicator diagram in this rendezvous position; And

Wherein when this receiving element does not receive this input signal, this display unit stops at this rendezvous position and shows this indicator diagram.

34. display packings as claimed in claim 32, it is characterized in that, this indicator diagram is brush strokes pattern, and this display device has more mapping software, this mapping software be according to this brush strokes pattern in this display frame institute path of passing through with produces input person's handwriting, and the setting of the size of this input person's handwriting, width setting, color settings, brightness settings one of them be change because of the change of this vertical angle.

35. display packings as claimed in claim 32, is characterized in that, more comprise following steps:

This telechiric device produces locking signal; And,

When this locking signal does not produce, this telechiric device continues this vertical angle of sensing and upgrades this vertical angle information;

When this locking signal produces, before this vertical angle Information Dimension is held in the generation of this locking signal, this telechiric device upgrades the content of this vertical angle information for the last time.

36. 1 kinds of display systems, is characterized in that, comprise:

Telechiric device, comprises:

Housing, has housing major axis, extends instruction path from this housing major axis;

Input block, be arranged on this housing, it can produce index amount of movement and index moving direction in response to the operation of user, wherein this index moving direction can be selected from shuffle one of dynamic direction and negative both moving directions, this positive moving direction and the opposite direction of this negative moving direction with one dimension; And

Delivery unit, is electrically connected on this input block, and it transmits this index amount of movement and this index moving direction; And

Display device, comprises:

Receiving element, signal is connected to this telechiric device, and it receives this index amount of movement and this index moving direction;

Display unit, it shows display frame; And

Indicative control unit, is electrically connected on this receiving element and this display unit, and it adjusts this display frame according to this index amount of movement and this index moving direction;

Wherein when this this display frame of instruction path point is with inner region, then this indicative control unit is according to this index amount of movement and this index moving direction, and controls this display frame and vertically move; And

Wherein when this this display frame of instruction path point is with exterior domain, then this indicative control unit is according to this index amount of movement and this index moving direction, and controls this display frame and carry out transverse shifting, and to vertically move essence vertical with this for this transverse shifting.

37. display systems as claimed in claim 36, it is characterized in that, this telechiric device more comprises:

Gravity sensing unit, what it sensed this housing puts attitude, and draws the major axis horizontal sextant angle between this housing major axis and surface level accordingly;

Wherein when this this display frame of instruction path point is with inner region, or this major axis horizontal sextant angle is when being greater than the first level angle door, then this indicative control unit system is according to this index amount of movement and this index moving direction, and controls this display frame and carry out this and vertically move; And

Wherein when this this display frame of instruction path point is with exterior domain, and this major axis horizontal sextant angle is when being less than this first level angle door, then this indicative control unit system is according to this index amount of movement and this index moving direction, and controls this display frame and carry out this transverse shifting.

38. display systems as claimed in claim 36, it is characterized in that, this input block is roller, this roller can because of should user operation and rotate, and the rotation direction of this roller can be selected from one of both turn direction and negative rotation direction, it makes this index amount of movement, this index moving direction corresponds respectively to the rotation number of turns of this roller, the rotation direction of this roller.

39. display systems as claimed in claim 36, it is characterized in that, this input block is Trackpad, this Trackpad can detect touch control gesture, and the direction of motion system of this touch control gesture can be selected from one of positive motion direction and negative both direction of motion, it makes this index amount of movement, this index moving direction corresponds respectively to the displacement of this touch control gesture, the direction of motion of this touch control gesture.

40. display systems as claimed in claim 36, it is characterized in that, this input block is switch, this switch can because of should user pressing and produce Continuity signal, wherein this index amount of movement corresponds to the time producing this Continuity signal, when this Continuity signal is the first state, using this positive moving direction as this index moving direction, when this Continuity signal is the second state, using this negative moving direction as this index moving direction.