CN102129856A - Water-light interactive laser electone - Google Patents
Water-light interactive laser electone Download PDFInfo
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- CN102129856A CN102129856A CN 201110025479 CN201110025479A CN102129856A CN 102129856 A CN102129856 A CN 102129856A CN 201110025479 CN201110025479 CN 201110025479 CN 201110025479 A CN201110025479 A CN 201110025479A CN 102129856 A CN102129856 A CN 102129856A
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Abstract
The invention discloses a water-light interactive laser electone, which comprises a plurality of semiconductor lasers and a plurality of photosensitive devices, wherein each semiconductor laser outputs laser beams to corresponding photosensitive devices. The water-light interactive laser electone further comprises a plurality of electromagnetic valves, an upper container, a lower container, a bracket, a controller and a water pump, wherein the upper and lower containers are arranged on the bracket respectively; the bottom of the upper container is provided with a plurality of water pipes; the water pump is arranged in the lower container; the water pump is connected with one water pipe at the bottom of the upper container; the plurality of electromagnetic valves are arranged on the other water pipes at the bottom of the upper container; a laser transmission module and a photosensitive module both are arranged on the bracket, and are positioned between the upper and lower containers; and the controller comprises a circuit control board and a photoelectric touch keyboard. The water-light interactive laser electone can realize a novel performance way of producing photoelectric signals by utilizing interaction between water and laser, achieve a dynamic music performance effect and realize a plurality of manual, automatic or manual-automatic combined performance ways.
Description
Technical field
The present invention relates to a kind of laser musical instrument, be specifically related to the interactive laser musical instrument of a kind of water light.
Background technology
In the at present existing mellotron, it is played and has realized dual mode, a kind of is that the button playing mode that key is connected electronic circuit is pressed in more general passing through, another kind is comparatively novel laser induced playing mode, be about to laser beam as string, the player is directly blocked laser beam makes the photoelectricity receiving converter produce signal and according to the respective signal sounding.Though the mellotron of first kind of button playing mode is extensive use of, the single and outward appearance of its expression-form, function, form are also novel inadequately.And laser musical instrument is played as string with laser beam, certain novelty has been arranged on playing mode, also certain sight has been arranged on the mode of appearance because of the laser effect that adds, but some shortcomings are arranged also in use, its expression way also has only single sounding effect and lacks dynamic demonstration effect to music, particularly the same with ordinary electronic qin function when automatic playing back music, and in order to make laser have preferably observability also needs to add atomizer generation fog effect conveniently to play.A kind of laser musical instrument fountain is also arranged in existing technology, be characterized in laser musical instrument is combined with fountain, when playing laser musical instrument, go back may command fountain water column rhythm, this laser musical instrument fountain and common laser musical instrument have had on the dynamic demonstration of music preferably and have replenished, be applicable to the center view on large-scale square, but the laser musical instrument with common on its playing mode is identical, consistent with music fountain function of the prior art when automatic playing back music, the laser string no longer works playing automatically when demonstrating.
Summary of the invention
The objective of the invention is: provide a kind of and not only produce the brand-new playing mode of photosignal and have dynamic music demonstration effect with the repercussion effect of water and laser, and can realize manually, automatic or manual and automatically in conjunction with the interactive laser musical instrument of water light of multiple playing mode.
In order to achieve the above object, technical scheme of the present invention is: the interactive laser musical instrument of a kind of water light, comprise laser emitting module that constitutes by several semiconductor lasers and the optoelectronic induction module that constitutes by several photosensitive devices, described each semiconductor laser outgoing laser beam is given photosensitive device one to one, its innovative point is: also comprise several solenoid valves, upper container, following container, support, controller and water pump, described upper container and following container are contained on the support respectively, and some water pipes are equipped with in the bottom of upper container, be provided with water pump in the following container, water pump links to each other with a water pipe of upper container bottom, and several solenoid valves are contained in respectively on remaining water pipe of upper container bottom; The laser emitting module that constitutes by several semiconductor lasers and all be contained on the support by the optoelectronic induction module that several photosensitive devices constitute, and between upper container and following container, several semiconductor lasers and photosensitive device one to one lay respectively at the both sides of corresponding solenoid valve; Described controller comprises circuit control panel and photoelectricity touch keyboard, the output terminal of photoelectricity touch keyboard is electrically connected with the input end of circuit control panel, the output terminal of several photosensitive devices is electrically connected with the photosignal input end of circuit control panel by bus, the input end of several semiconductor lasers is electrically connected with the operating voltage output terminal of circuit control panel by bus, and the input end of several solenoid valves is electrically connected with the driving voltage output terminal of circuit control panel by bus.
In technique scheme, described circuit control panel comprises power module, microprocessor, the photoelectric signal collection module, solenoid-driven module and audio frequency power amplifier module, the output terminal of described power module respectively with the input end of microprocessor, the input end of photoelectric signal collection module, the input end of solenoid-driven module, the input end of the input end of audio frequency power amplifier module and photoelectricity touch keyboard is electrically connected, the output terminal of photoelectricity touch keyboard is electrically connected with the input end of microprocessor and the input end of solenoid-driven module respectively, the input end of solenoid-driven module also is electrically connected with the output terminal of microprocessor, the output terminal of photoelectric signal collection module is electrically connected with the input end of microprocessor, and the output terminal of microprocessor is electrically connected with the input end of audio frequency power amplifier module.
In technique scheme, 2 back up pads are housed respectively on the described support, described several semiconductor lasers are evenly arranged and are placed on the back up pad, and several photosensitive devices are evenly arranged and are placed on another back up pad.
In technique scheme, described power module comprises one-level reduction voltage circuit, current rectifying and wave filtering circuit and secondary reduction voltage circuit, the output terminal of described one-level reduction voltage circuit is electrically connected with the input end of current rectifying and wave filtering circuit, and the output terminal of current rectifying and wave filtering circuit is electrically connected with the input end of secondary reduction voltage circuit.
In technique scheme, described secondary reduction voltage circuit comprises the first secondary reduction voltage circuit, the second secondary reduction voltage circuit and the 3rd secondary reduction voltage circuit; The described first secondary reduction voltage circuit comprises the first low pressure reduction step-down integrated chip, capacitor C 2, capacitor C 3, the resistance R 31 and the first pilot lamp LED1, the input end of the first low pressure reduction step-down integrated chip and an end of capacitor C 2 are electrically connected with the output terminal of current rectifying and wave filtering circuit simultaneously, the output terminal of the first low pressure reduction step-down integrated chip, the end of one end of capacitor C 3 and the first pilot lamp LED1 all connects power supply, the earth terminal of the first low pressure reduction step-down integrated chip, the other end of capacitor C 2, the equal ground connection of one end of the other end of capacitor C 3 and resistance R 31, the other end of resistance R 31 is electrically connected with the other end of the first pilot lamp LED1, and the first low pressure reduction step-down integrated chip model is SPX1117M3-3.3; The described second secondary reduction voltage circuit comprises the second low pressure reduction step-down integrated chip, capacitor C 4, capacitor C 5, the resistance R 32 and the second pilot lamp LED2, the input end of the second low pressure reduction step-down integrated chip and an end of capacitor C 4 are electrically connected with the output terminal of current rectifying and wave filtering circuit simultaneously, the output terminal of the second low pressure reduction step-down integrated chip, the end of one end of capacitor C 5 and the second pilot lamp LED2 all connects power supply, the earth terminal of the second low pressure reduction step-down integrated chip, the other end of capacitor C 4, the equal ground connection of one end of the other end of capacitor C 35 and resistance R 32, the other end of resistance R 32 is electrically connected with the other end of the second pilot lamp LED2, and the second low pressure reduction step-down integrated chip model is LM2940; Described the 3rd secondary reduction voltage circuit comprises the 3rd low pressure reduction step-down integrated chip, capacitor C 6, capacitor C 7, capacitor C 8, resistance R 33, resistance R 34, adjustable resistance RPot9 and the 3rd pilot lamp LED3, the input end of the 3rd low pressure reduction step-down integrated chip and an end of capacitor C 6 are electrically connected with the output terminal of current rectifying and wave filtering circuit simultaneously, the output terminal of the 3rd low pressure reduction step-down integrated chip, one end of capacitor C 8, one end of resistance R 33 and an end of resistance R 34 all connect power supply, the earth terminal of the 3rd low pressure reduction step-down integrated chip, one end of capacitor C 7 and the other end of resistance R 33 are electrically connected with the end of adjustable resistance RPot9 simultaneously, the other end of resistance R 34 is electrically connected with the end of the 3rd pilot lamp LED3, the other end of capacitor C 6, the other end of capacitor C 7, the other end of capacitor C 8, the other end of the other end of the 3rd pilot lamp LED3 and adjustable resistance RPot9 and the equal ground connection of adjustable end, the 3rd low pressure reduction step-down integrated chip model is LM1117.
In technique scheme, have single-chip microcomputer U in the described microprocessor, and single-chip microcomputer U is the MSP430F14x integrated chip.
In technique scheme, described photoelectric signal collection module comprises first comparator circuit and second comparator circuit, the output terminal of the output terminal of first comparator circuit and second comparator circuit is electrically connected with the corresponding input end of microprocessor respectively, first comparator circuit has comparer U1, and the model of comparer U1 is the LM339 integrated chip, second comparator circuit has comparer U2, and the model of comparer U2 is the LM339 integrated chip.
In technique scheme, described solenoid-driven module comprises first driving circuit and second driving circuit, the input end of the input end of first driving circuit and second driving circuit is electrically connected with the corresponding output terminal of photoelectricity touch keyboard respectively, and the output terminal of the output terminal of first driving circuit and second driving circuit is electrically connected with corresponding solenoid valve respectively.
In technique scheme, described audio frequency power amplifier module comprises power amplifier chip LM386, capacitor C 18, capacitor C 19, capacitor C 20, capacitor C 21, capacitor C 22, resistance R 29, adjustable resistance RPot10, rheostat R35 and loudspeaker LS1,1 pin of power amplifier chip LM386 is electrically connected with an end of capacitor C 19, the other end of capacitor C 19 is electrically connected with the end of rheostat R35,8 pin of power amplifier chip LM386 are electrically connected with the other end of rheostat R35,2 pin of power amplifier chip LM386 and an end of capacitor C 18 be ground connection simultaneously, 6 pin of power amplifier chip LM386 and the other end of capacitor C 18 connect power supply simultaneously, 3 pin of power amplifier chip LM386 are electrically connected with the adjustable end of adjustable resistance RPot10, the end of adjustable resistance RPot10 is electrically connected with the input end of microprocessor, the other end ground connection of adjustable resistance RPot10, the 4 pin ground connection of power amplifier chip LM386,5 pin of power amplifier chip LM386 connect an end of capacitor C 20 and an end of capacitor C 21 simultaneously, the other end of capacitor C 20 is electrically connected with the end of loudspeaker LS1, the other end of capacitor C 21 is electrically connected with an end of resistance R 29, the other end of the other end of resistance R 29 and loudspeaker LS1 is ground connection simultaneously, 7 pin of power amplifier chip LM386 are electrically connected with an end of capacitor C 22, the other end ground connection of capacitor C 22.
In technique scheme, described photoelectricity touch keyboard comprises base plate and poly (methyl methacrylate) plate, described base plate and poly (methyl methacrylate) plate load, and the sensing element of some infrared electros to pipe is housed on the base plate, some infrared electros are electrically connected with the input end of microprocessor by bus the sensing element of pipe, and described poly (methyl methacrylate) plate is positioned at some infrared electros top.
The good effect that the present invention had is: because the present invention is divided into the pattern of manually playing and automatic playing pattern when work; When manually playing, the player can control the current break-make of corresponding note solenoid valve easily and control the required scale of corresponding note by the optoelectronic induction touch keyboard, can realize the corresponding sounding (7 musical sounds of every scale) of 28 musical sounds under 4 scales, player itself only is the break-make of direct control electromagnetic valve current, and sounding with otherwise only be whether the optoelectronic induction module detection laser that is made of several photosensitive devices is interdicted by current and realized, the flow effect of current and current have well been realized dynamic demonstration function to music to the scattering of laser beam and refraction effect; When automatic playing, the circuit control panel of controller is controlled the current break-make of each solenoid valve automatically and is played, and whether the optoelectronic induction module detection laser that its audible signal still is made of several photosensitive devices is interdicted by current and produced; Simultaneously, under the automatic playing pattern, the photoelectricity tactile keyboard remains fully independently with respect to the control to solenoid valve of the circuit control panel of controller the control of solenoid valve, this design makes the present invention still can use the photoelectricity tactile keyboard to carry out the control of solenoid valve when automatic playing, thereby realized that distinctive following play function, be that the user can follow the corresponding current of automatic control in the enterprising bent exercise of playing of making merry of photoelectricity touch keyboard, follow the accuracy of playing and directly influence the result of broadcast of music, if wrong plays, thereby then corresponding solenoid valve flowing water produces wrong audible signal, makes music to play smoothly.This vivid music demonstration is played function and has been played the effect of teaching through lively activities preferably, is applicable to the application that the interest of children and adolescents with learning music is cultivated, and its technical scheme also can be promoted becomes bigger music water curtain, be applied to exhibitions, dinner party, household, many public arenas such as park.
Description of drawings
Fig. 1 is the structural representation of the interactive laser musical instrument of water light of the present invention;
Fig. 2 is the circuit block diagram of controller of the present invention;
Fig. 3 is the circuit theory diagrams of controller of the present invention;
Fig. 4 is the circuit theory diagrams of power module of the present invention;
Fig. 5 is the structural representation of photoelectricity touch keyboard of the present invention.
Embodiment
The present invention is described in further detail below in conjunction with accompanying drawing and the embodiment that provides.
As Fig. 1,2,3,4, shown in 5, the interactive laser musical instrument of a kind of water light, comprise laser emitting module that constitutes by several semiconductor lasers 8 and the optoelectronic induction module that constitutes by several photosensitive devices 2, described each semiconductor laser 8 outgoing laser beams are given photosensitive device 2 one to one, also comprise several solenoid valves 1, upper container 3, following container 4, support 5, controller 6 and water pump 9, described upper container 3 and following container 4 are contained in respectively on the support 5, and some water pipes 7 are equipped with in the bottom of upper container 3, be provided with water pump 9 in the following container 4, water pump 9 links to each other with a water pipe 7 of upper container 3 bottoms, and several solenoid valves 1 are contained in respectively on remaining water pipe 7 of upper container 3 bottoms; The laser emitting module that constitutes by several semiconductor lasers 8 and all be contained on the support 5 by the optoelectronic induction module that several photosensitive devices 2 constitute, and between upper container 3 and following container 4, several semiconductor lasers 8 and photosensitive device 2 one to one lay respectively at the both sides of corresponding solenoid valve 1; Described controller 6 comprises circuit control panel 6-1 and photoelectricity touch keyboard 6-2, the output terminal of photoelectricity touch keyboard 6-2 is electrically connected with the input end of circuit control panel 6-1, the output terminal of several photosensitive devices 2 is electrically connected with the photosignal input end of circuit control panel 6-1 by bus, the input end of several semiconductor lasers 8 is electrically connected with the operating voltage output terminal of circuit control panel 6-1 by bus, and the input end of several solenoid valves 1 is electrically connected with the driving voltage output terminal of circuit control panel 6-1 by bus.
As Fig. 2,3, shown in 4, described circuit control panel 6-1 comprises power module 6-1-1, microprocessor 6-1-2, photoelectric signal collection module 6-1-3, solenoid-driven module 6-1-4 and audio frequency power amplifier module 6-1-5, the output terminal of described power module 6-1-1 respectively with the input end of microprocessor 6-1-2, the input end of photoelectric signal collection module 6-1-3, the input end of solenoid-driven module 6-1-4, the input end of the input end of audio frequency power amplifier module 6-1-5 and photoelectricity touch keyboard 6-2 is electrically connected, the output terminal of photoelectricity touch keyboard 6-2 is electrically connected with the input end of microprocessor 6-1-2 and the input end of solenoid-driven module 6-1-4 respectively, the input end of solenoid-driven module 6-1-4 also is electrically connected with the output terminal of microprocessor 6-1-2, the output terminal of photoelectric signal collection module 6-1-3 is electrically connected with the input end of microprocessor 6-1-2, and the output terminal of microprocessor 6-1-2 is electrically connected with the input end of audio frequency power amplifier module 6-1-5.
As shown in Figure 1, for the ease of installing and fix several semiconductor laser 8 and several photosensitive devices 2,2 back up pads 10,10 ' are housed respectively on the described support 5, described several semiconductor lasers 8 are evenly arranged and are placed on the back up pad 10, and several photosensitive devices 2 are evenly arranged and are placed on another back up pad 10 '.
Shown in Fig. 3,4, described power module 6-1-1 comprises one-level reduction voltage circuit 6-1-1-1, current rectifying and wave filtering circuit 6-1-1-2 and secondary reduction voltage circuit 6-1-1-3, the output terminal of described one-level reduction voltage circuit 6-1-1-1 is electrically connected with the input end of current rectifying and wave filtering circuit 6-1-1-2, and the output terminal of current rectifying and wave filtering circuit 6-1-1-2 is electrically connected with the input end of secondary reduction voltage circuit 6-1-1-3.
As shown in Figure 4, for the ease of the operating voltage that is applicable to that each module is suitable on the circuit control panel 6, described secondary reduction voltage circuit 6-1-1-3 comprises the first secondary reduction voltage circuit 6-1-1-3a, the second secondary reduction voltage circuit 6-1-1-3b and the 3rd secondary reduction voltage circuit 6-1-1-3c; The described first secondary reduction voltage circuit 6-1-1-3a comprises the first low pressure reduction step-down integrated chip, capacitor C 2, capacitor C 3, the resistance R 31 and the first pilot lamp LED1, the input end of the first low pressure reduction step-down integrated chip and an end of capacitor C 2 are electrically connected with the output terminal of current rectifying and wave filtering circuit 6-1-1-2 simultaneously, the output terminal of the first low pressure reduction step-down integrated chip, the end of one end of capacitor C 3 and the first pilot lamp LED1 all connects power supply, the earth terminal of the first low pressure reduction step-down integrated chip, the other end of capacitor C 2, the equal ground connection of one end of the other end of capacitor C 3 and resistance R 31, the other end of resistance R 31 is electrically connected with the other end of the first pilot lamp LED1, and the first low pressure reduction step-down integrated chip model is SPX1117M3-3.3; The described second secondary reduction voltage circuit 6-1-1-3b comprises the second low pressure reduction step-down integrated chip, capacitor C 4, capacitor C 5, the resistance R 32 and the second pilot lamp LED2, the input end of the second low pressure reduction step-down integrated chip and an end of capacitor C 4 are electrically connected with the output terminal of current rectifying and wave filtering circuit 6-1-1-2 simultaneously, the output terminal of the second low pressure reduction step-down integrated chip, the end of one end of capacitor C 5 and the second pilot lamp LED2 all connects power supply, the earth terminal of the second low pressure reduction step-down integrated chip, the other end of capacitor C 4, the equal ground connection of one end of the other end of capacitor C 35 and resistance R 32, the other end of resistance R 32 is electrically connected with the other end of the second pilot lamp LED2, and the second low pressure reduction step-down integrated chip model is LM2940; Described the 3rd secondary reduction voltage circuit 6-1-1-3c comprises the 3rd low pressure reduction step-down integrated chip, capacitor C 6, capacitor C 7, capacitor C 8, resistance R 33, resistance R 34, adjustable resistance RPot9 and the 3rd pilot lamp LED3, the input end of the 3rd low pressure reduction step-down integrated chip and an end of capacitor C 6 are electrically connected with the output terminal of current rectifying and wave filtering circuit 6-1-1-2 simultaneously, the output terminal of the 3rd low pressure reduction step-down integrated chip, one end of capacitor C 8, one end of resistance R 33 and an end of resistance R 34 all connect power supply, the earth terminal of the 3rd low pressure reduction step-down integrated chip, one end of capacitor C 7 and the other end of resistance R 33 are electrically connected with the end of adjustable resistance RPot9 simultaneously, the other end of resistance R 34 is electrically connected with the end of the 3rd pilot lamp LED3, the other end of capacitor C 6, the other end of capacitor C 7, the other end of capacitor C 8, the other end of the other end of the 3rd pilot lamp LED3 and adjustable resistance RPot9 and the equal ground connection of adjustable end, the 3rd low pressure reduction step-down integrated chip model is LM1117.
As shown in Figure 3, have single-chip microcomputer U among the microprocessor 6-1-2 of the present invention, and single-chip microcomputer U is the MSP430F14x integrated chip.
As shown in Figure 3, described photoelectric signal collection module 6-1-3 comprises the first comparator circuit 6-1-3a and the second comparator circuit 6-1-3b, the output terminal of the output terminal of the first comparator circuit 6-1-3a and the second comparator circuit 6-1-3b is electrically connected with the corresponding input end of microprocessor 6-1-2 respectively, the first comparator circuit 6-1-3a has comparer U1, and the model of comparer U1 is the LM339 integrated chip, the second comparator circuit 6-1-3b has comparer U2, and the model of comparer U2 is the LM339 integrated chip.
As shown in Figure 3, described solenoid-driven module 6-1-4 comprises the first driving circuit 6-1-4a and the second driving circuit 6-1-4b, the input end of the input end of the first driving circuit 6-1-4a and the second driving circuit 6-1-4b is electrically connected with the corresponding output terminal of photoelectricity touch keyboard 6-2 respectively, and the output terminal of the output terminal of the first driving circuit 6-1-4a and the second driving circuit 6-1-4b is electrically connected with corresponding solenoid valve 1 respectively.
As shown in Figure 3, described audio frequency power amplifier module 6-1-5 comprises power amplifier chip LM386, capacitor C 18, capacitor C 19, capacitor C 20, capacitor C 21, capacitor C 22, resistance R 29, adjustable resistance RPot10, rheostat R35 and loudspeaker LS1,1 pin of power amplifier chip LM386 is electrically connected with an end of capacitor C 19, the other end of capacitor C 19 is electrically connected with the end of rheostat R35,8 pin of power amplifier chip LM386 are electrically connected with the other end of rheostat R35,2 pin of power amplifier chip LM386 and an end of capacitor C 18 be ground connection simultaneously, 6 pin of power amplifier chip LM386 and the other end of capacitor C 18 connect power supply simultaneously, 3 pin of power amplifier chip LM386 are electrically connected with the adjustable end of adjustable resistance RPot10, the end of adjustable resistance RPot10 is electrically connected with the input end of microprocessor 6-1-2, the other end ground connection of adjustable resistance RPot10, the 4 pin ground connection of power amplifier chip LM386,5 pin of power amplifier chip LM386 connect an end of capacitor C 20 and an end of capacitor C 21 simultaneously, the other end of capacitor C 20 is electrically connected with the end of loudspeaker LS1, the other end of capacitor C 21 is electrically connected with an end of resistance R 29, the other end of the other end of resistance R 29 and loudspeaker LS1 is ground connection simultaneously, 7 pin of power amplifier chip LM386 are electrically connected with an end of capacitor C 22, the other end ground connection of capacitor C 22.
As shown in Figure 5, described photoelectricity touch keyboard 6-2 comprises base plate 6-2-1 and poly (methyl methacrylate) plate 6-2-2, described base plate 6-2-1 and poly (methyl methacrylate) plate 6-2-2 load, and the sensing element of some infrared electros to pipe is housed on the base plate 6-2-1, some infrared electros are electrically connected by the input end of bus with microprocessor 6-1-2 the sensing element of pipe, and described poly (methyl methacrylate) plate 6-2-2 is positioned at some infrared electros top.
The course of work of the present invention is: during use, power module 6-1-1 is connected with the 220V alternating current, secondary step-down behind the rectifying and wave-filtering after the step-down of described power module 6-1-1 process one-level, supply with required different operating voltage for the disparate modules of circuit control panel 6-1, be that power module 6-1-1 can supply with 3v, three kinds of different operating voltage of 5v and 12v, described each semiconductor laser 8 outgoing laser beams are given photosensitive device 2 one to one, by the optoelectronic induction module that several photosensitive devices 2 constitute the light intensity signal of sensing is delivered to photoelectric signal collection module 6-1-3, light intensity signal is converted to corresponding with it voltage signal, deliver to audio frequency power amplifier module 6-1-5 after the microprocessor 6-1-2 processing of voltage signal through circuit control panel 6-1, electric signal after the acquisition process is converted into voice signal, described microprocessor 6-1-2 output control signal is delivered to solenoid-driven module 6-1-4, solenoid-driven module 6-1-4 outputting drive voltage drives the break-make of solenoid valve 1, and the output terminal of photoelectricity touch keyboard 6-2 is electrically connected with the input end of solenoid-driven module 6-1-4 with the input end of microprocessor 6-1-2 respectively; By operation photoelectricity touch keyboard 6-2, make the present invention in manual performance, automatic playing or manual and automatic in conjunction with the different mode of operation of playing, the corresponding key of a photoelectric tube on the described photoelectricity touch keyboard 6-2, the control signal of being exported is directly delivered to the break-make that solenoid-driven module 6-1-4 drives solenoid valve 1, each semiconductor laser 8 outgoing laser beams are because the scattering and the refraction action of the current of upper container 3 outputs, make the optoelectronic induction module produce light intensity signal, change voice signal into after the microprocessor 6-1-2 processing of light intensity signal through the circuit control panel 6-1 of controller 6, this voice signal is delivered to audio frequency power amplifier module 6-1-5 and is sent interesting to listen to melodious music by loudspeaker.
Claims (10)
1. interactive laser musical instrument of water light, comprise laser emitting module that constitutes by several semiconductor lasers (8) and the optoelectronic induction module that constitutes by several photosensitive devices (2), described each semiconductor laser (8) outgoing laser beam is given photosensitive device (2) one to one, it is characterized in that:
A, also comprise several solenoid valves (1), upper container (3), container (4), support (5), controller (6) and water pump (9) down, described upper container (3) and following container (4) are contained in respectively on the support (5), and some water pipes (7) are equipped with in the bottom of upper container (3), be provided with water pump (9) in the following container (4), water pump (9) links to each other with a water pipe (7) of upper container (3) bottom, and several solenoid valves (1) are contained in respectively on remaining water pipe (7) of upper container (3) bottom;
B, the laser emitting module that is made of several semiconductor lasers (8) and the optoelectronic induction module that is made of several photosensitive devices (2) all are contained on the support (5), and be positioned between upper container (3) and the following container (4), several semiconductor lasers (8) and photosensitive device (2) one to one lay respectively at the both sides of corresponding solenoid valve (1);
C, described controller (6) comprises circuit control panel (6-1) and photoelectricity touch keyboard (6-2), the output terminal of photoelectricity touch keyboard (6-2) is electrically connected with the input end of circuit control panel (6-1), the output terminal of several photosensitive devices (2) is electrically connected by the photosignal input end of bus with circuit control panel (6-1), the input end of several semiconductor lasers (8) is electrically connected by the operating voltage output terminal of bus with circuit control panel (6-1), and the input end of several solenoid valves (1) is electrically connected by the driving voltage output terminal of bus with circuit control panel (6-1).
2. the interactive laser musical instrument of water light according to claim 1, it is characterized in that: described circuit control panel (6-1) comprises power module (6-1-1), microprocessor (6-1-2), photoelectric signal collection module (6-1-3), solenoid-driven module (6-1-4) and audio frequency power amplifier module (6-1-5), the output terminal of described power module (6-1-1) respectively with the input end of microprocessor (6-1-2), the input end of photoelectric signal collection module (6-1-3), the input end of solenoid-driven module (6-1-4), the input end of the input end of audio frequency power amplifier module (6-1-5) and photoelectricity touch keyboard (6-2) is electrically connected, the output terminal of photoelectricity touch keyboard (6-2) is electrically connected with the input end of microprocessor (6-1-2) and the input end of solenoid-driven module (6-1-4) respectively, the input end of solenoid-driven module (6-1-4) also is electrically connected with the output terminal of microprocessor (6-1-2), the output terminal of photoelectric signal collection module (6-1-3) is electrically connected with the input end of microprocessor (6-1-2), and the output terminal of microprocessor (6-1-2) is electrically connected with the input end of audio frequency power amplifier module (6-1-5).
3. the interactive laser musical instrument of water light according to claim 1, it is characterized in that: 2 back up pads (10,10 ') are housed respectively on the described support (5), described several semiconductor lasers (8) are evenly arranged and are placed on the back up pad (10), and several photosensitive devices (2) are evenly arranged and are placed on another back up pad (10 ').
4. the interactive laser musical instrument of water light according to claim 2, it is characterized in that: described power module (6-1-1) comprises one-level reduction voltage circuit (6-1-1-1), current rectifying and wave filtering circuit (6-1-1-2) and secondary reduction voltage circuit (6-1-1-3), the output terminal of described one-level reduction voltage circuit (6-1-1-1) is electrically connected with the input end of current rectifying and wave filtering circuit (6-1-1-2), and the output terminal of current rectifying and wave filtering circuit (6-1-1-2) is electrically connected with the input end of secondary reduction voltage circuit (6-1-1-3).
5. the interactive laser musical instrument of water light according to claim 4 is characterized in that: described secondary reduction voltage circuit (6-1-1-3) comprises the first secondary reduction voltage circuit (6-1-1-3a), the second secondary reduction voltage circuit (6-1-1-3b) and the 3rd secondary reduction voltage circuit (6-1-1-3c); The described first secondary reduction voltage circuit (6-1-1-3a) comprises the first low pressure reduction step-down integrated chip, capacitor C 2, capacitor C 3, the resistance R 31 and the first pilot lamp LED1, the input end of the first low pressure reduction step-down integrated chip and an end of capacitor C 2 are electrically connected with the output terminal of current rectifying and wave filtering circuit (6-1-1-2) simultaneously, the output terminal of the first low pressure reduction step-down integrated chip, the end of one end of capacitor C 3 and the first pilot lamp LED1 all connects power supply, the earth terminal of the first low pressure reduction step-down integrated chip, the other end of capacitor C 2, the equal ground connection of one end of the other end of capacitor C 3 and resistance R 31, the other end of resistance R 31 is electrically connected with the other end of the first pilot lamp LED1, and the first low pressure reduction step-down integrated chip model is SPX1117M3-3.3; The described second secondary reduction voltage circuit (6-1-1-3b) comprises the second low pressure reduction step-down integrated chip, capacitor C 4, capacitor C 5, the resistance R 32 and the second pilot lamp LED2, the input end of the second low pressure reduction step-down integrated chip and an end of capacitor C 4 are electrically connected with the output terminal of current rectifying and wave filtering circuit (6-1-1-2) simultaneously, the output terminal of the second low pressure reduction step-down integrated chip, the end of one end of capacitor C 5 and the second pilot lamp LED2 all connects power supply, the earth terminal of the second low pressure reduction step-down integrated chip, the other end of capacitor C 4, the equal ground connection of one end of the other end of capacitor C 35 and resistance R 32, the other end of resistance R 32 is electrically connected with the other end of the second pilot lamp LED2, and the second low pressure reduction step-down integrated chip model is LM2940; Described the 3rd secondary reduction voltage circuit (6-1-1-3c) comprises the 3rd low pressure reduction step-down integrated chip, capacitor C 6, capacitor C 7, capacitor C 8, resistance R 33, resistance R 34, adjustable resistance RPot9 and the 3rd pilot lamp LED3, the input end of the 3rd low pressure reduction step-down integrated chip and an end of capacitor C 6 are electrically connected with the output terminal of current rectifying and wave filtering circuit (6-1-1-2) simultaneously, the output terminal of the 3rd low pressure reduction step-down integrated chip, one end of capacitor C 8, one end of resistance R 33 and an end of resistance R 34 all connect power supply, the earth terminal of the 3rd low pressure reduction step-down integrated chip, one end of capacitor C 7 and the other end of resistance R 33 are electrically connected with the end of adjustable resistance RPot9 simultaneously, the other end of resistance R 34 is electrically connected with the end of the 3rd pilot lamp LED3, the other end of capacitor C 6, the other end of capacitor C 7, the other end of capacitor C 8, the other end of the other end of the 3rd pilot lamp LED3 and adjustable resistance RPot9 and the equal ground connection of adjustable end, the 3rd low pressure reduction step-down integrated chip model is LM1117.
6. the interactive laser musical instrument of water light according to claim 2 is characterized in that: have single-chip microcomputer U in the described microprocessor (6-1-2), and single-chip microcomputer U is the MSP430F14x integrated chip.
7. the interactive laser musical instrument of water light according to claim 2, it is characterized in that: described photoelectric signal collection module (6-1-3) comprises first comparator circuit (6-1-3a) and second comparator circuit (6-1-3b), the output terminal of the output terminal of first comparator circuit (6-1-3a) and second comparator circuit (6-1-3b) is electrically connected with the corresponding input end of microprocessor (6-1-2) respectively, first comparator circuit (6-1-3a) has comparer U1, and the model of comparer U1 is the LM339 integrated chip, second comparator circuit (6-1-3b) has comparer U2, and the model of comparer U2 is the LM339 integrated chip.
8. the interactive laser musical instrument of water light according to claim 2, it is characterized in that: described solenoid-driven module (6-1-4) comprises first driving circuit (6-1-4a) and second driving circuit (6-1-4b), the input end of the input end of first driving circuit (6-1-4a) and second driving circuit (6-1-4b) is electrically connected with the corresponding output terminal of photoelectricity touch keyboard (6-2) respectively, and the output terminal of the output terminal of first driving circuit (6-1-4a) and second driving circuit (6-1-4b) is electrically connected with corresponding solenoid valve (1) respectively.
9. the interactive laser musical instrument of water light according to claim 2, it is characterized in that: described audio frequency power amplifier module (6-1-5) comprises power amplifier chip LM386, capacitor C 18, capacitor C 19, capacitor C 20, capacitor C 21, capacitor C 22, resistance R 29, adjustable resistance RPot10, rheostat R35 and loudspeaker LS1,1 pin of power amplifier chip LM386 is electrically connected with an end of capacitor C 19, the other end of capacitor C 19 is electrically connected with the end of rheostat R35,8 pin of power amplifier chip LM386 are electrically connected with the other end of rheostat R35,2 pin of power amplifier chip LM386 and an end of capacitor C 18 be ground connection simultaneously, 6 pin of power amplifier chip LM386 and the other end of capacitor C 18 connect power supply simultaneously, 3 pin of power amplifier chip LM386 are electrically connected with the adjustable end of adjustable resistance RPot10, the end of adjustable resistance RPot10 is electrically connected with the input end of microprocessor (6-1-2), the other end ground connection of adjustable resistance RPot10, the 4 pin ground connection of power amplifier chip LM386,5 pin of power amplifier chip LM386 connect an end of capacitor C 20 and an end of capacitor C 21 simultaneously, the other end of capacitor C 20 is electrically connected with the end of loudspeaker LS1, the other end of capacitor C 21 is electrically connected with an end of resistance R 29, the other end of the other end of resistance R 29 and loudspeaker LS1 is ground connection simultaneously, 7 pin of power amplifier chip LM386 are electrically connected with an end of capacitor C 22, the other end ground connection of capacitor C 22.
10. the interactive laser musical instrument of water light according to claim 1, it is characterized in that: described photoelectricity touch keyboard (6-2) comprises base plate (6-2-1) and poly (methyl methacrylate) plate (6-2-2), described base plate (6-2-1) and poly (methyl methacrylate) plate (6-2-2) load, and the sensing element of some infrared electros to pipe is housed on the base plate (6-2-1), some infrared electros are electrically connected by the input end of bus with microprocessor (6-1-2) the sensing element of pipe, and described poly (methyl methacrylate) plate (6-2-2) is positioned at some infrared electros top.
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CN103927929A (en) * | 2014-04-22 | 2014-07-16 | 浙江理工大学 | Automatic multiplex solenoid valve two-state energy-saving display platform and control method thereof |
CN106782468A (en) * | 2016-12-16 | 2017-05-31 | 广州千核数码科技有限公司 | Multifunctional integrated laser musical instrument |
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