CN203191658U - Multifunctional acoustic control glasses - Google Patents
Multifunctional acoustic control glasses Download PDFInfo
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- CN203191658U CN203191658U CN 201320244711 CN201320244711U CN203191658U CN 203191658 U CN203191658 U CN 203191658U CN 201320244711 CN201320244711 CN 201320244711 CN 201320244711 U CN201320244711 U CN 201320244711U CN 203191658 U CN203191658 U CN 203191658U
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- acoustic control
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- voice recognition
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Abstract
The utility model relates to a pair of multifunctional acoustic control glasses, which comprises a glass frame, glass legs, a single chip microcomputer, an ultrasonic distance measuring sensor, a voice chip, a battery and an earphone, and also comprises a voice recognition chip, a microphone, an infrared transmitting tube and a laser diode, wherein the voice identification chip is used for completing the voice recognition to realize acoustic control, and the ultrasonic distance measuring sensor, the infrared transmitting tube and the laser diode are arranged on the glass frame; and the single chip microcomputer, the voice chip, the voice recognition chip, the earphone, the microphone and the battery are arranged on the glass legs. The glasses can acoustically control the automatic completion of selection of glasses functions, the ultrasonic distance measurement, the code emitting infrared rays and the laser emission, for example, the acoustic control ultrasonic distance measurement can realize the function of acoustic control distance measurement, the acoustic control code emitting infrared ray can realize the function of acoustically controlling an infrared remote controller, and the acoustic control laser emission can realize the function of acoustically controlling a laser pointer, so that the application range is expanded.
Description
Technical field
The utility model relates to a kind of multi-functional glasses, particularly relates to a kind of acoustic control multi-functional glasses with voice recognition chip.
Background technology
The multi-functional glasses of prior art, the selection of function wants manual control to complete, and function is limited, such as, can not the acoustic control ultrasonic ranging, the infrared ray of acoustic control launching code, acoustic control Emission Lasers, make it limit range of application.
Summary of the invention
The purpose of this utility model is, a kind of acoustic control multi-functional glasses is provided, these glasses are by single-chip microcomputer, voice recognition chip, speech chip, microphone, earphone, battery, ultrasonic distance-measuring sensor, infrared emission tube, laser diode, can realize that acoustic control completes the selection of glasses function automatically, but also can the acoustic control ultrasonic ranging, the infrared ray of acoustic control launching code, acoustic control Emission Lasers, make it enlarge range of application.
For achieving the above object, the technical solution of the utility model is as follows:
A kind of acoustic control multi-functional glasses, comprise picture frame, the mirror leg, single-chip microcomputer, ultrasonic distance-measuring sensor, speech chip, battery, keyswitch, earphone, wherein, also comprise voice recognition chip, audio amplifier circuit, microphone, infrared emission tube, laser diode, this voice recognition chip respectively with described single-chip microcomputer, described audio amplifier circuit, described battery, described earphone, described infrared emission tube, described laser diode connects, described microphone is connected with described voice recognition chip by described audio amplifier circuit, described voice recognition chip has been used for speech recognition and has realized acoustic control, described ultrasonic distance-measuring sensor, described infrared emission tube, described laser diode are arranged on described picture frame, and described single-chip microcomputer, speech chip, voice recognition chip, earphone, microphone, battery, described audio amplifier circuit, keyswitch are arranged on described mirror leg.
Preferably, the model of described voice recognition chip is HBR210.
Preferably, the model of described ultrasonic distance-measuring sensor is KS103, and this ultrasonic distance-measuring sensor is for obtaining the supersonic sounding value.
Preferably, the model of described speech chip is SC8035, and this speech chip is for automatic information broadcast supersonic sounding value, voice suggestion, voice answer-back playback dialogue.
Preferably, the lithium battery that described battery is 3.6V.
Preferably, the model of described single-chip microcomputer is W79E825A
.
Preferably, the model of described single-chip microcomputer is W79E824A
.
The beneficial effects of the utility model:
A kind of acoustic control multi-functional glasses of the utility model, these glasses are by single-chip microcomputer, voice recognition chip, speech chip, microphone, earphone, battery, ultrasonic distance-measuring sensor, infrared emission tube, laser diode, can realize that acoustic control completes the selection of glasses function automatically, but also can the acoustic control ultrasonic ranging, the infrared ray of acoustic control launching code, acoustic control Emission Lasers; Such as, described acoustic control ultrasonic ranging can realize that the infrared ray of the function of acoustic control range finding, described acoustic control launching code can realize that the function of acoustic control Infrared remote controller, described acoustic control Emission Lasers can realize the function of acoustic control laser pen, makes it enlarge range of application.
The accompanying drawing explanation
Fig. 1 is the schematic appearance of a kind of acoustic control multi-functional glasses of the utility model;
Fig. 2 is the circuit theory schematic diagram of the multi-functional glasses of acoustic control shown in Fig. 1.
Embodiment
In order to further illustrate principle of the present utility model and structure, now by reference to the accompanying drawings preferred embodiment of the present utility model is elaborated, yet described embodiment can not be used for limiting scope of patent protection of the present utility model only for furnishing an explanation and the use of explaining.
As Fig. 1, a kind of acoustic control multi-functional glasses shown in Fig. 2, comprise left side picture frame 9, right side picture frame 9A, left side mirror leg 10, right side mirror leg 10A, the single-chip microcomputer 1 that model is W79E825A, the ultrasonic distance-measuring sensor 5 that model is KS103, the speech chip 2 that model is SC8035, 3.6V lithium battery 4, keyswitch K1, keyswitch K2, earphone 2B, earphone 3J, wherein, also comprise voice recognition chip 3, audio amplifier circuit 6, microphone 3K, infrared emission tube 7, laser diode 8, this voice recognition chip 3 respectively with described single-chip microcomputer 1, described audio amplifier circuit 6, described battery 4, described earphone 3J, described infrared emission tube 7, described laser diode 8 connects, described microphone 3K is connected with described voice recognition chip 3 by described audio amplifier circuit 6, described voice recognition chip 3 is realized acoustic control for completing speech recognition, described ultrasonic distance-measuring sensor 5 is arranged on described left side picture frame 9, described infrared emission tube 7, described laser diode 8 are arranged on described right side picture frame 9A, described single-chip microcomputer 1, speech chip 2, battery 4, earphone 2B are arranged on described right side mirror leg 10A, described voice recognition chip 3, earphone 3J, audio amplifier circuit 6, keyswitch K1, keyswitch K2 are arranged on described left side mirror leg 10, and described microphone 3K is arranged on described left side mirror leg 10 by support bar.
The negative pole pin of the emitter of the 2nd pin of described voice recognition chip 3, the 24th pin, triode 3Q, the end pin of microphone 3K, 10 μ F capacitor 3N is connected with the negative pole of described battery 4 jointly; The 3rd pin of described voice recognition chip 3, the 4th pin are connected with the 6th pin of described voice recognition chip 3 by 4700PF capacitor 3F, 20K Ω resistance 3G, and the 6th pin of described voice recognition chip 3 also is connected with the 7th pin of described voice recognition chip 3 by 10K Ω resistance 3H, 0.1 μ F capacitor 3I; The 23rd pin of described voice recognition chip 3 is connected with the negative pole of described battery 4 by 1000PF capacitor 3D, and the negative pole of described battery 4 also is connected with the 26th pin of described voice recognition chip 3 by 0.1 μ F capacitor 3B.
The 11st pin of described voice recognition chip 3 is by 0.01 μ F capacitor 3E, 100K Ω resistance 3T is connected with the negative pole of described battery 4, the 11st pin of described voice recognition chip 3 also is connected with the 27th pin of this voice recognition chip 3 by 91K Ω resistance 3U, the 11st pin of described voice recognition chip 3 also is connected with the collector of described triode 3Q by 0.1 μ F capacitor 3S, the collector of this triode 3Q also is connected with the 27th pin of described voice recognition chip 3 by 3K Ω resistance 3R, the collector of described triode 3Q also is connected with the base stage of this triode 3Q by 470K Ω resistance 3P, the base stage of this triode 3Q is connected with the other end pin of described microphone 3K by 0.1 μ F capacitor 3M, the other end pin of described microphone 3K also is connected with the anodal pin of 10 μ F capacitor 3N by 3K Ω resistance 3L, the anodal pin of described 10 μ F capacitor 3N also is connected with the 27th pin of described voice recognition chip 3 by 2K Ω resistance 3W.
The DATA pin that the 28th pin of described voice recognition chip 3 is voice identification result two-wire serial output, the 28th pin of this voice recognition chip 3 is connected with the 10th pin of described single-chip microcomputer 1; The CLK pin that the 30th pin of this voice recognition chip 3 is speech recognition two-wire serial output, the 30th pin of this voice recognition chip 3 is connected with the 9th pin of described single-chip microcomputer 1; The 32nd pin of this voice recognition chip 3 is the speech recognition dormancy, wakes the input control pin up, and the 32nd pin of this voice recognition chip 3 is connected with the 8th pin of described single-chip microcomputer 1; The 31st pin of described voice recognition chip 3 is connected with the negative pole of described laser diode 8, and the positive pole of described laser diode 8 is connected with the positive pole of described battery 4, and the 31st pin of described voice recognition chip 3 is for described laser diode 8 Emission Lasers of acoustic control; The 35th pin of described voice recognition chip 3 is connected with the negative pole of described infrared emission tube 7, the positive pole of described infrared emission tube 7 is connected with the positive pole of described battery 4, and the 35th pin of described voice recognition chip 3 is for the infrared ray of described infrared emission tube 7 launching codes of acoustic control.
The 1st pin of described voice recognition chip 3, the 25th pin are connected with the positive pole of described battery 4 jointly, and the 20th pin of this voice recognition chip 3, the 21st pin are connected with the positive pole of described battery 4 by resistance 3Y jointly; The 22nd pin of this voice recognition chip 3 is connected with the positive pole of described battery 4 by resistance 3Z, the 22nd pin of this voice recognition chip 3 also is connected with the negative pole of described battery 4 by capacitor 3C, and the negative pole of this battery 4 also is connected with the positive pole of this battery 4 by capacitor 3A; The 43rd pin of described voice recognition chip 3, the 44th pin are connected with anodal pin, the negative pole pin of earphone 3J respectively.
Described audio amplifier circuit 6 comprises transistor 3Q, 3K Ω resistance 3L, 2K Ω resistance 3W, 3K Ω resistance 3R, 91K Ω resistance 3U, 100K Ω resistance 3T, 470K Ω resistance 3P, 0.01 μ F capacitor 3E, 0.1 μ F capacitor 3S, 0.1 μ F capacitor 3M, the 10 μ F capacitor 3N that model is 9014, described triode 3Q base stage is connected with the other end pin of described microphone 3K by 0.1 μ F capacitor 3M, and the end pin of this microphone 3K is connected with the negative pole of described battery 4; The other end pin of described microphone 3K also is connected with the anodal pin of 10 μ F capacitor 3N by 3K Ω resistance 3L, and the anodal pin of this 10 μ F capacitor 3N also is connected with the 27th pin of voice recognition chip 3 by 2K Ω resistance 3W; The emitter of triode 3Q is connected with the negative pole of described battery 4, the collector of this triode 3Q is connected with the 11st pin of described voice recognition chip 3 by 0.1 μ F capacitor 3S, and the 11st pin of this voice recognition chip 3 also is connected with the negative pole of described battery 4 by 100K Ω resistance 3T, 0.01 μ F capacitor 3E; The collector of described triode 3Q also is connected with the base stage of described triode 3Q by 470K Ω resistance 3P, and the collector of described triode 3Q also is connected with the 27th pin of described voice recognition chip 3 by 3K Ω resistance 3R.
The 1st pin of described single-chip microcomputer 1, the 2nd pin respectively with keyswitch K1, the end pin of K2 connects, described keyswitch K1, the other end pin of K2 is connected with the negative pole of battery 4 jointly, the negative pole of described battery 4 also with the 5th pin of described single-chip microcomputer 1, the pin GND of described ultrasonic distance-measuring sensor 5, the pin VSS of described speech chip 2, the end of capacitor 2A connects, the other end of this capacitor 2A is connected with the pin VREG of described speech chip 2, the pin PWM1 of described speech chip 2, PWM2 respectively with the positive pole of earphone 2B, the negative pole pin connects, the pin BUSY of described speech chip 2, DATA, RST respectively with the 17th pin of described single-chip microcomputer 1, the 18th pin, the 19th pin connects, the pin VDD of described speech chip 2 is connected with the positive pole of described battery 4, the positive pole of described battery 4 also is connected with the end of pin VCC, the resistance 5A of the 15th pin of described single-chip microcomputer 1, described ultrasonic distance-measuring sensor 5, the end of resistance 5B, and the other end of described resistance 5A is connected with the 12nd pin of described single-chip microcomputer 1, the pin SDA of described ultrasonic distance-measuring sensor 5 respectively, the other end of described resistance 5B is connected with the 11st pin of described single-chip microcomputer 1, the pin SCL of described ultrasonic distance-measuring sensor 5 respectively.
Preferably, the model of described voice recognition chip 3 is HBR210.
Preferably, the model of described ultrasonic distance-measuring sensor 5 is KS103, and this ultrasonic distance-measuring sensor 5 is for obtaining the supersonic sounding value.
Preferably, the model of described speech chip 2 is SC8035, and this speech chip 2 is for automatic information broadcast supersonic sounding value, voice suggestion, voice answer-back playback dialogue.
Preferably, the lithium battery that described battery 4 is 3.6V.
Preferably, the model of described single-chip microcomputer 1 is W79E825A
.
Preferably, the model of described single-chip microcomputer 1 is W79E824A
.
Described embodiment advantage and beneficial effect are, this embodiment acoustic control multi-functional glasses, ultrasonic distance-measuring sensor, infrared emission tube, laser diode that the lithium battery of the speech chip that the voice recognition chip that the single-chip microcomputer that these glasses are W79E825A by model, model are HBR210, model are SC8035, microphone, earphone, 3.6V, model are KS103, can realize that acoustic control completes the selection of glasses function automatically, but also can the acoustic control ultrasonic ranging, the infrared ray of acoustic control launching code, acoustic control Emission Lasers; Such as, described acoustic control ultrasonic ranging can realize that the infrared ray of the function of acoustic control range finding, described acoustic control launching code can realize that the function of acoustic control Infrared remote controller, described acoustic control Emission Lasers can realize the function of acoustic control laser pen, makes it enlarge range of application.
The just embodiment of this utility model described above; the various fleshes and bloods that illustrate not utility model are construed as limiting; the person of an ordinary skill in the technical field after having read instructions can to before described embodiment make an amendment or be out of shape, all should be considered as belonging to protection domain of the present utility model.
Claims (7)
1. an acoustic control multi-functional glasses, comprise picture frame, the mirror leg, single-chip microcomputer, ultrasonic distance-measuring sensor, speech chip, battery, keyswitch, earphone, it is characterized in that: also comprise voice recognition chip, audio amplifier circuit, microphone, infrared emission tube, laser diode, this voice recognition chip respectively with described single-chip microcomputer, described audio amplifier circuit, described battery, described earphone, described infrared emission tube, described laser diode connects, described microphone is connected with described voice recognition chip by described audio amplifier circuit, described voice recognition chip has been used for speech recognition and has realized acoustic control, described ultrasonic distance-measuring sensor, described infrared emission tube, described laser diode are arranged on described picture frame, and described single-chip microcomputer, speech chip, voice recognition chip, earphone, microphone, battery, described audio amplifier circuit, keyswitch are arranged on described mirror leg.
2. a kind of acoustic control multi-functional glasses according to claim 1, it is characterized in that: the model of described voice recognition chip is HBR210.
3. a kind of acoustic control multi-functional glasses according to claim 2, it is characterized in that: the model of described ultrasonic distance-measuring sensor is KS103, this ultrasonic distance-measuring sensor is for obtaining the supersonic sounding value.
4. a kind of acoustic control multi-functional glasses according to claim 3, it is characterized in that: the model of described speech chip is SC8035, this speech chip is for automatic information broadcast supersonic sounding value, voice suggestion, voice answer-back playback dialogue.
5. a kind of acoustic control multi-functional glasses according to claim 4, is characterized in that: the lithium battery that described battery is 3.6V.
6. according to the described a kind of acoustic control multi-functional glasses of arbitrary claim in claim 1 to 5, it is characterized in that: the model of described single-chip microcomputer is W79E825A
.
7. according to the described a kind of acoustic control multi-functional glasses of arbitrary claim in claim 1 to 5, it is characterized in that: the model of described single-chip microcomputer is W79E824A
.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201320244711 CN203191658U (en) | 2013-05-08 | 2013-05-08 | Multifunctional acoustic control glasses |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201320244711 CN203191658U (en) | 2013-05-08 | 2013-05-08 | Multifunctional acoustic control glasses |
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| Publication Number | Publication Date |
|---|---|
| CN203191658U true CN203191658U (en) | 2013-09-11 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 201320244711 Expired - Lifetime CN203191658U (en) | 2013-05-08 | 2013-05-08 | Multifunctional acoustic control glasses |
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| Country | Link |
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| CN (1) | CN203191658U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103278940A (en) * | 2013-05-08 | 2013-09-04 | 管存忠 | Multifunctional voice-control glasses |
-
2013
- 2013-05-08 CN CN 201320244711 patent/CN203191658U/en not_active Expired - Lifetime
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103278940A (en) * | 2013-05-08 | 2013-09-04 | 管存忠 | Multifunctional voice-control glasses |
| CN103278940B (en) * | 2013-05-08 | 2014-09-03 | 管存忠 | Multifunctional voice-control glasses |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| AV01 | Patent right actively abandoned |
Granted publication date: 20130911 Effective date of abandoning: 20140903 |
|
| RGAV | Abandon patent right to avoid regrant |