DE102004063491A1 - Stereo projector for use in projection system, has lenses with deflecting device which is rotatable or pivotable synchronously with horizontal frequency in order to over coat projection surface with lamellar sections - Google Patents

Abstract

The projector includes film projectors emitting lights of different polarizations. Lenses (11) are provided for common display of lamellar section of both semi images on the projection surface. The lenses include a deflecting device (8) which is rotatable or pivotable synchronously with a horizontal frequency in order to over coat the projection surface with the lamellar sections. Independent claims are also included for the following: (A) a method for projecting stereo images containing two semi images on a projection surface arranged in predetermined distance (B) a projection system with a stereo projector.

Description

The The invention relates to a stereo projector according to the preamble of the claim 1 and a method for projecting one of two fields Stereo illustration according to the generic term of claim 10 and a projection system.

For presentations in the public representations are preferred, the most plastic and memorable objects or Show products. Therefor In particular, three-dimensional representations are used.

A Three-dimensional representation of an object on a projection surface is obtained, by projecting a stereo image. A stereo illustration consists of two fields, taken by a stereo camera are. The two fields show the same object, but the pickup points which are two fields apart.

at the projection of a stereo image will be the two fields in known devices and methods by means of two successive projected projectors projected onto a projection screen. Here transmits the one Projector polarizing one field transversely, whereas the other projector longitudinally polarizes the second field projected.

One Viewer uses polarizing glasses when viewing. The polarizing glasses has lenses that act as polarizing filters are formed so that the one eye is the transversely polarized Field and the other eye the longitudinally polarized field perceives. Overall, the viewer takes the stereo picture as three-dimensional image of the recorded object true.

at The known stereo projectors can both conventional Image and film projectors as well as LCD or laser projectors used become. LCD or Laser projectors are each controlled by an associated PC, the one below the other are networked. To be able to radiate an effective picture is on the one hand a very accurate calibration of the two projectors to each other necessary. For another the projectors described above are very powerful light sources have. Furthermore The arrangement of the projectors is very space consuming.

Of the Invention is based on the technical problem of a stereo projector, a projection system and a method for projecting stereo images to create a bright and contrasting as well as simple three-dimensional Representation of an object in limited space allow.

The solution The technical problem arises from a stereo projector with the features of claim 1, a method with the features of claim 10 and a projection system with the features of claim 16. Further advantageous embodiments of Invention will become apparent from the dependent claims.

One Stereoprojektor includes two strip projectors, each strip-shaped cutouts of generate two fields of the stereo image to be projected. The light of the two strip projectors is polarized differently, preferably transversal and longitudinal. The strip-shaped cutouts the two fields are mapped onto the projection surface together with an optical system. The Optics comprise a deflection device, for example a mirror, with the strip-shaped cutouts on the projection screen be imaged. The deflector is synchronized with a Line frequency pivoted so that the strip-shaped cutouts of the two Fields over the projection surface. The line frequency is the frequency with which the different line-shaped sections the two fields are generated. This means that usually the line-shaped cutouts, the while a complete pivoting movement the deflecting device are projected onto the projection screen, the entire image information of the stereo image, i. all strip-shaped cutouts of the two fields, on the projection screen. As a result, several Benefits achieved. By using a single optic to the common Mapping the two fields is a compact space-saving construction of the stereo projector possible. It is also ensured that the two fields are positioned correctly relative to each other be imaged. If the line frequency is chosen to be sufficiently high, then that a frame rate of greater than 25 Hz is achieved, so a viewer takes the projected stereo image due to the inertia of the eye is true as a rigid image. The two strip projectors may be near arranged together and so easily aligned with each other, so that ensures both fields of stereo imaging correctly on the projection screen be imaged.

A particularly compact embodiment of Invention provides that the two strip projectors in one Double stripe projector are integrated. In this embodiment deleted in operation any adjustment of the two strip projectors relative to each other.

To obtain a sharp image on the projection surface, a preferred Ausfüh tion form of the invention, a focusing device for focusing the strip-shaped cutouts on the projection surface.

A allows particularly advantageous development of the invention it, stereo pictures on arbitrarily shaped projection surfaces map. Since with most geometries of projection surfaces the Distance from the deflecting device to the strip-shaped area the projection surface varies on which the strip-shaped Extracts of the two fields are shown, is advantageous provided that an object distance (distance of the radiation source to the focusing device) of the focusing device in dependence on a pivot angle of the deflection is variable. Consequently will be a sharp illustration about the entire projection surface reached.

at a particularly advantageous development of the invention the focusing device is an optically focusing element and drive means for varying a pitch of the fringe projectors from the optically focusing element, so the object width to adjust the focusing device. Drive means, the Distance between the strip projectors and an optical focusing Enable element, such as a lens, can be made easily and reliably are and are easily accessible.

at A preferred embodiment of the invention are piezocrystals provided as a drive means, as they are particularly reliable, compact and fast drive means are.

Around to ensure, that the object width of the focusing device of the position the deflection corresponds, comprises a preferred development the invention a sensor for determining a displacement angle of the deflection device and the Generating a measurement signal and a control unit for receiving the measuring signal and for generating an actuating signal for the drive means the focusing device. This is determined by the determination the adjustment angle of the deflection and the generation of a corresponding Measuring signal the possibility opened, to take into account the geometry of the projection surface by means of a control device and to control the drive means by means of a control signal so that optimum focusing of the imaged strip-shaped cutouts the two fields is achieved.

A Further advantageous embodiment of the invention comprises a grinding device to modify the control unit's control signals to defocus for a Blurring the stereo image with another stereo image too to reach.

A particularly compact design of the strip projectors is achieved if the two fringe projectors each have a segmented emitter line comprise, each segment three different colored LEDs for generating mixed-color light for each one pixel of a includes the fields. Light-emitting diodes are bulbs that have a provide good light output with low energy consumption. With you is a lighter and cheaper Structure of the strip projectors possible. The Control of LEDs is easy.

Around to keep the two strip projectors compact and only a small one To move mass when focusing, the strip projectors a radio interface, allowing storage of the image data and a data processing unit containing the strip projectors controls, be formed separated from the strip projectors can.

The Features of the developments of the method and the projection system have the same advantages as the corresponding features of the stereo projector on.

The Invention will be described below with reference to preferred embodiments explained in more detail. in this connection demonstrate:

1 a schematic structure of a projection system with a stereo projector;

2 another embodiment of a projection system with a stereo projector and

3 a schematic view of a double-stripe projector.

1 shows a schematic representation of a projection system 1 , The projection system 1 includes a canvas 2 and a stereo projector 3 , The canvas 2 and the stereo projector 3 are arranged at a fixed distance from each other. The canvas 2 has a light-amplifying layer 4 on.

The stereo projector 3 includes two projectors 5 . 6 , Each of the projectors 5 . 6 projects a field of a stereo image. The projectors 5 . 6 are configured as a strip projectors, each generating corresponding strip-shaped sections of the two fields. In front of the projectors 5 . 6 each is a polarizing filter 17 . 18 arranged with different polarization direction. The strip-shaped cutouts are via an optically focusing element 7 for example, a fo kissing lens, and a deflection device 8th on the canvas 2 focused. The deflection device 8th , which is a swinging or rotating mirror, is preferably formed as a prism. With the help of a drive device 9 , For example, a rotary encoder, the deflection device 8th swung or rotated synchronized with a line rate. This ensures that the different strip-shaped sections of the stereo image at different points on the screen 2 be imaged and so the full stereo picture on the screen 2 is shown. If the line frequency is chosen to be high enough, a refresh rate of greater than 25 Hz can be achieved so that the stereo image is perceived by a human observer as a rigid image due to the inertia of the human eye.

As a length of a beam path from the projectors 5 . 6 to a point of impact 10 on the canvas 2 changed when the strip-shaped cutouts the canvas 2 It must be a subject matter of optics 11 be adjusted accordingly. The optics 11 includes the optical focusing element 7 , the deflection device 8th with the drive device 9 and drive means 12 , The drive means 12 are with the projectors 5 . 6 connected and can be a distance of the projectors 5 . 6 from the optically focusing element 7 vary, as by the dotted representation 5 ' . 6 ' . 12 ' . 17 ' . 18 ' is indicated. Suitable drive means 12 are piezo elements. The distance between the optically focusing element 7 and the projectors 5 . 6 becomes dependent on an adjustment angle α of the deflection device 8th varied. Thus, a focus of the two strip-shaped sections of the fields of the stereo image on the screen 2 at the point of impact 10 each optimal. The stereo projector 3 is with the canvas 2 via a connecting element 13 connected. Thus, the length of the beam path from the projectors 5 . 6 to the point of impact 10 on the canvas 2 as a function of the displacement angle α known. Thus, the drive means 12 be controlled so that an optimal focus is guaranteed.

The adjustment angle α can be determined by means of a measuring sensor (not shown) and transmitted via a measuring signal to a control unit (not shown). The control unit calculates from the specified distance between the stereo projector 3 and the canvas 2 as well as a geometry of the canvas 2 the length of the beam path or the required distance between the projectors 5 . 6 and the optically focusing element 7 to get a sharp focus on the canvas 2 to obtain. About control signals that generates the control unit, the drive means 12 driven. The control of the drive means 12 as well as the transmission of image data to the projectors 5 . 6 can be done via an interface or interfaces (not shown) that allow wireless transmission. Thus, the control unit can be spatially separated from the other components of the stereo projector 3 to be ordered. This allows a design of the projection system 1 which can be used in confined spaces.

Furthermore, the stereo projector includes 3 a slicer (not shown) that modifies the control unit's control signals to achieve defocusing for smoothing the stereo image with another stereo image.

2 shows a schematic representation of another embodiment of a projection system 1 , Same technical features are denoted by the same reference numerals as in 1 Mistake. The embodiment according to 2 is different from the after 1 in that the geometry of the canvas 2 another is.

In 3 is a preferred embodiment of the projectors 5 . 6 shown. The projectors 5 . 6 each comprise an emitter line 14 , The emitter lines 14 are in a double-stripe projector 15 integrated. Every emitter line 14 generates a line of pixels as a strip-shaped section of a field. Every emitter line 14 is in segments 16 divided. Every segment 16 produces colored light for one pixel. The colored light is generated by a color mixing method such as an RGB color mixing method. Light for the required primary colors is provided by means of different colored light emitting diodes 19 (LED) generated. The different polarization of the projected light of the two projectors 5 . 6 or the emitter lines 14 of the double-stripe projector 15 be through polarizing filters 17 . 18 reached. These polarizing filters are in front of the emitter lines 14 or the projectors 5 . 6 arranged like this in 1 and 2 is shown.

Claims (16)

Stereo projector ( 3 ) for projecting a stereo image consisting of two fields onto a projection surface arranged at a fixed distance ( 2 ) with two strip projectors ( 5 . 6 ) for generating mutually corresponding strip-shaped sections of the two fields, wherein the two strip projectors ( 5 . 6 ) Emit light of different polarization, characterized by an optic ( 11 ) for the common imaging of the strip-shaped sections of both fields on the projection surface ( 2 ), whereby the optics ( 11 ) a deflection device ( 8th ), which is rotatable or pivotable synchronized with a line frequency in order to use the strip-shaped cut-outs, the projection surface ( 2 ). Stereo projector ( 3 ) according to claim 1, characterized in that the two strip projectors ( 5 . 6 ) in a double-stripe projector ( 15 ) are integrated. Stereo projector ( 3 ) according to claim 1 or 2, characterized in that the optics ( 11 ) a focusing device for focusing the strip-shaped cutouts on the projection surface ( 2 ). Stereo projector ( 3 ) according to claim 3, characterized in that the focusing device and the deflection device ( 8th ) are coupled to one another such that an object width of the focusing device in dependence on an adjustment angle (α) of the deflection device ( 8th ) is variable. Stereo projector ( 3 ) according to claim 3 or 4, characterized in that the focusing device is an optically focusing element ( 7 ) and drive means ( 12 ) for varying a spacing of the strip projectors ( 5 . 6 ) of the optically focusing element ( 7 ) so as to be able to adjust the object width of the focusing device. Stereo projector ( 3 ) according to claim 5, characterized in that the drive means ( 12 ) Piezo crystals are. Stereo projector ( 3 ) according to claim 5 or 6, characterized by a measuring sensor for determining a displacement angle (α) of the deflection device ( 8th ) and for generating a measurement signal and a control unit for receiving the measurement signal and for generating an actuating signal for the drive means ( 12 ) of the focusing device. Stereo projector ( 3 ) according to one of claims 1 to 7, characterized in that the two strip projectors ( 5 . 6 ) each have a segmented emitter line ( 14 ), each segment ( 16 ) three different colored light emitting diodes ( 19 ) for generating mixed-color light for each one pixel of one of the fields. Stereo projector ( 3 ) according to any one of claims 7 to 8, characterized by a trimming means for modifying the control signals of the control unit to achieve defocusing for trimming the stereo image with another stereo image. Method for projecting a two-field stereo image with a stereo projector ( 3 ) to a projected at a fixed distance projection surface ( 2 ), in which in each case corresponding strip-shaped sections of the two fields with two strip projectors ( 5 . 6 ) generated by the two strip projectors ( 5 . 6 ) light is polarized differently, characterized in that the strip-shaped sections of the two fields with the aid of an optical system ( 11 ) together on the projection surface ( 2 ), wherein a deflection device ( 8th ) of the optics ( 11 ) is rotated or rotated in synchronism with a line frequency in order to use the strip-shaped cutouts to project the projection surface ( 2 ). A method according to claim 10, characterized in that the strip-shaped cutouts with the aid of a focusing device of the optics ( 11 ) on the projection surface ( 2 ). A method according to claim 11, characterized in that and when focusing an object width in dependence on an adjustment angle (α) of the deflection device ( 8th ) is changed. A method according to claim 12, characterized in that the object width of the focusing device is changed by a distance of the strip projectors ( 5 . 6 ) of an optically focusing element ( 7 ) of the focusing device by means of drive means ( 12 ) is varied. A method according to claim 13, characterized in that by means of a sensor, the displacement angle (α) of the deflection device ( 8th ) and a measurement signal is generated, wherein the measurement signal is evaluated by a control unit in order to generate a control signal for the drive means ( 12 ) to create. Method according to one of claims 10 to 14, characterized that by means of a wiper defocusing the Trim the stereo image with another stereo image is effected. Projection system ( 1 ) with a stereo projector ( 3 ) according to one of claims 1 to 9 and a projection surface ( 2 ), where the stereo projector ( 3 ) at the predetermined distance rigidly by means of a connecting element ( 13 ) with the projection surface ( 2 ) connected is.