CN206863886U - One kind control debugging apparatus and infrared emission system - Google Patents
One kind control debugging apparatus and infrared emission system Download PDFInfo
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- CN206863886U CN206863886U CN201720522765.0U CN201720522765U CN206863886U CN 206863886 U CN206863886 U CN 206863886U CN 201720522765 U CN201720522765 U CN 201720522765U CN 206863886 U CN206863886 U CN 206863886U
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Abstract
The utility model provides a kind of control debugging apparatus and infrared emission system, control debugging apparatus passes through during the installation and debugging of infrared shooting device, send the voice message being adjusted to the installation site of infrared shooting device, when receiving the normal enabled instruction of external control terminal transmission, control infrared shooting device normally starts work, during infrared shooting device normally starts work, the work state information of infrared shooting device is fed back by wireless communication module, and receive the working state control instruction of external control terminal transmission, it is controlled with the working condition to infrared shooting device.The utility model uses communication, receives the instruction of external control terminal, and remote control can be achieved, during installation and debugging, instruct user to operate by voice message.
Description
Technical field
The utility model belongs to infrared emission technical field, more particularly to a kind of control debugging apparatus and infrared emission system
System.
Background technology
Infrared emission is named as " active infrared intrsion detector " entirely, and its basic construction includes transmitting terminal, receiving terminal, light beam
Strong indicating lamp, optical lens etc..It is the infrared-ray launched using infrarede emitting diode that it, which detects principle, then by optics
Lens do focusing, light is reached great distances, and last light is received by the photistor of receiving terminal.When there is object gear
Firmly during the infrared-ray of transmitting terminal transmitting, receiving terminal can not receive infrared ray, can send alarm.Based on the such a of infrared emission
Function, it is usually used in the purposes of boundary defence, burglar alarm.
For existing infrared shooting device in installation and debugging by the way of manual dial-up, wiring is more, and complex operation is general
General family is difficult to complete independently.
Utility model content
The utility model embodiment provides a kind of control debugging apparatus and infrared emission system, it is intended to solves prior art
Middle infrared shooting device is in installation and debugging by the way of manual dial-up, and it is more wiring to be present, complex operation, and domestic consumer is difficult
The problem of with complete independently.
A kind of control debugging apparatus that the utility model embodiment provides, is communicated to connect with infrared shooting device, for pair
The infrared shooting device is controlled and installation and debugging, it is described control debugging apparatus also with external control terminal wireless connection simultaneously
Communication, the control debugging apparatus include control module, wireless communication module and voice cue module.
The control module communicates to connect with the wireless communication module and the voice cue module respectively, the control
Module and the infrared shooting device are communicated to connect, and the wireless communication module and the external control terminal wireless connection are simultaneously led to
Letter.
When the wireless communication module receives the debugging mode enabled instruction that the external control terminal is sent, the control
Debugging apparatus processed enters debugging mode, and the control module controls institute during the installation and debugging of the infrared shooting device
State voice cue module and send the voice message being adjusted to the installation site of the infrared shooting device.
The infrared shooting device installation and the wireless communication module receive the external control terminal and sent
Normal enabled instruction when, the control module controls the infrared shooting device normally to start work.
During the infrared shooting device normally starts work, the control module passes through the radio communication mold
Block feeds back the work state information of the infrared shooting device, and receives the working state control that the external control terminal is sent
Instruction, is controlled with the working condition to the infrared shooting device.
In one embodiment, the wireless communication module includes WiFi units, bluetooth unit, ZigBee units or honeycomb
One or more in NE.
In one embodiment, the wireless communication module includes WiFi units.
It is single that the WiFi units include WIFI chips, the first filtering subunit, first switch subelement, second switch
Member, the first partial pressure subelement, the second partial pressure subelement, the 3rd partial pressure subelement, the 4th partial pressure subelement and luminous subelement.
The serial data pin of the WIFI chips connects the control module, the power pins of the WIFI chips with it is described
The input of first filtering subunit connects the first power supply, the output head grounding of first filtering subunit, the WIFI cores altogether
The reset pin of piece connects the first end of the first switch subelement, and the second end ground connection of the first switch subelement is described
The controlled end of first switch subelement receives external reset signal, the weight of the WIFI chips by the first partial pressure subelement
Put the first end of pin and the second switch subelement and the first end of the second partial pressure subelement connects altogether, described second point
Press the second termination first power supply of subelement, the second end ground connection of the second switch subelement, second switch
The controlled end of unit receives external reset signal, the connection instruction pin of the WIFI chips by the 3rd partial pressure subelement
Connect the output end of the luminous subelement by the 4th partial pressure subelement, the input termination of the luminous subelement described the
One power supply.
In one embodiment, the voice cue module includes speech control unit, audio power amplifier unit and loudspeaker.
The input of the speech control unit terminates the control module, described in the output termination of the speech control unit
The input of audio power amplifier unit, the output of the audio power amplifier unit terminate the loudspeaker.
During the installation and debugging of the infrared shooting device, the speech control unit receives the control module hair
The speech data sent, speech simulation data are sent to the audio power amplifier unit, so as to control the loudspeaker to send to described
The voice message that the installation site of infrared shooting device is adjusted.
In one embodiment, the speech control unit includes speech chip and the 5th partial pressure subelement.
The input pin of the speech chip is the input of the speech control unit, and the output of the speech chip is drawn
The first end of pin and the 5th partial pressure subelement connects the output end to form the speech control unit, the 5th partial pressure altogether
The second end ground connection of unit.
In one embodiment, the audio power amplifier unit includes audio frequency power amplifier chip and the second filtering subunit.
The input of the audio frequency power amplifier chip terminates the first end of second filtering subunit, and the second filtering is single
Second end of member is the input of the audio power amplifier unit, and the output end of the audio frequency power amplifier chip is the audio frequency power amplifier list
The output end of member.
In one embodiment, the control module include processor unit, the first communication unit, the second communication unit,
Memory cell, display unit and key control unit.
The processor unit respectively with first communication unit, second communication unit, the memory cell, institute
Display unit is stated to connect with the key control unit.
A kind of infrared emission system that the utility model embodiment provides, including infrared shooting device, in addition to it is described
The control debugging apparatus as described above of infrared shooting device connection.
In one embodiment, infrared emission system also includes controlling with the outside of control debugging apparatus wireless connection
Terminal.
The external control terminal sends debugging mode enabled instruction to the control debugging apparatus, controls the control to adjust
Trial assembly is put into debugging mode, sends the control debugging apparatus and the installation site of the infrared shooting device is adjusted
Voice message.
The external control terminal also sends normal enabled instruction to the control debugging apparatus, to be adjusted by the control
Trial assembly puts the control infrared shooting device and normally starts work.
The external control terminal receives the control also during the infrared shooting device normally starts work
The work state information of the infrared shooting device of debugging apparatus feedback, and send working condition to the control debugging apparatus
Control instruction, it is controlled with the working condition to the infrared shooting device.
In one embodiment, the external control terminal includes mobile terminal and/or cloud server, described mobile whole
End sends instruction directly or by the cloud server to the control debugging apparatus.
Existing beneficial effect is the utility model embodiment compared with prior art:Control debugging apparatus passes through channel radio
When letter module receives the debugging mode enabled instruction of external control terminal transmission, control debugging apparatus enters debugging mode, controls
For molding block during the installation and debugging of infrared shooting device, control voice reminding module sends the installation to infrared shooting device
The voice message that position is adjusted;Infrared shooting device installation and wireless communication module receive external control terminal hair
During the normal enabled instruction sent, control module control infrared shooting device normally starts work;Normally opened in infrared shooting device
Start building during work, control module feeds back the work state information of infrared shooting device by wireless communication module, and receives
The working state control instruction that external control terminal is sent, is controlled with the working condition to infrared shooting device.This practicality
New embodiment uses communication, receives the instruction of external control terminal, remote control can be achieved, in installation and debugging
Cheng Zhong, user is instructed to operate by voice message, it is simple in construction, it is easy to accomplish.
Brief description of the drawings
, below will be to embodiment or prior art in order to illustrate more clearly of the technical scheme in the embodiment of the utility model
The required accompanying drawing used is briefly described in description, it should be apparent that, drawings in the following description are only that this practicality is new
Some embodiments of type, for those of ordinary skill in the art, without having to pay creative labor, can be with
Other accompanying drawings are obtained according to these accompanying drawings.
Fig. 1 is the structural representation for the control debugging apparatus that one embodiment of the present utility model provides;
Fig. 2 is the circuit structure diagram of the wireless communication module in Fig. 1 that one embodiment of the present utility model provides;
Fig. 3 is the circuit structure diagram of the voice cue module in Fig. 1 that one embodiment of the present utility model provides;
Fig. 4 is the function structure chart of the control module in Fig. 1 that one embodiment of the present utility model provides.
Embodiment
To enable goal of the invention of the present utility model, feature, advantage more obvious and understandable, below in conjunction with this
Accompanying drawing in utility model embodiment, the technical scheme in the embodiment of the utility model is clearly and completely described, and shows
So, the embodiments described below are only the utility model part of the embodiment, and not all embodiment.Based on this practicality
Embodiment in new, all other reality that those of ordinary skill in the art are obtained under the premise of creative work is not made
Example is applied, belongs to the scope of the utility model protection.
Realization of the present utility model is described in detail below in conjunction with specific accompanying drawing:
Fig. 1 shows the modular structure for the control debugging apparatus 100 that the embodiment of the utility model one is provided, for the ease of
Illustrate, illustrate only the part related to the utility model embodiment, details are as follows:
As shown in figure 1, the control debugging apparatus 100 that the utility model embodiment is provided, logical with infrared shooting device 200
Letter connection, for being controlled to infrared shooting device 200 and installation and debugging, control debugging apparatus 100 also with outside control eventually
Hold 300 wireless connections and communicate, control debugging apparatus 100 includes control module 110, wireless communication module 120 and voice message
Module 130.
Control module 110 communicates to connect with wireless communication module 120 and voice cue module 130 respectively, control module 110
Communicated to connect with infrared shooting device 200, wireless communication module 110 and the wireless connection of external control terminal 300 simultaneously communicate.
When wireless communication module 120 receives the debugging mode enabled instruction of the transmission of external control terminal 300, control debugging
Device 100 enters debugging mode, and control module 110 is during the installation and debugging of infrared shooting device 200, control voice prompting
Module 130 sends the voice message being adjusted to the installation site of infrared shooting device 200.
The installation of infrared shooting device 200 and wireless communication module 120 receive external control terminal 300 and sent just
During normal enabled instruction, control module 110 controls infrared shooting device 200 normally to start work.
During infrared shooting device 200 normally starts work, control module 110 passes through wireless communication module 120
The work state information of infrared shooting device 200 is fed back, and the working state control for receiving the transmission of external control terminal 300 refers to
Order, is controlled with the working condition to infrared shooting device 200.
In a particular application, control module 110 feeds back the work of infrared shooting device 200 by wireless communication module 120
Status information is to external control terminal 300.
In a particular application, control module 110 realizes serial communication with wireless communication module 120 by serial data line.
In a particular application, control module 110 passes through I2C (Inter-Integrated with voice cue module 130
Circuit) bus realizes serial communication.
In a particular application, control module 110 can pass through universal integrated circuit, such as CPU (Central
Processing Unit, central processing unit), or pass through ASIC (Application Specific Integrated
Circuit, application specific integrated circuit) realize.
In the utility model embodiment, control debugging apparatus 100 receives outside control eventually by wireless communication module 120
During the debugging mode enabled instruction that end 300 is sent, control debugging apparatus 100 enters debugging mode, and control module 110 is infrared right
During the installation and debugging of injection device 200, control voice reminding module 130 sends the installation site to infrared shooting device 200
The voice message being adjusted;The installation of infrared shooting device 200 and wireless communication module 120 receives external control terminal
During the normal enabled instruction of 300 transmissions, control module 110 controls infrared shooting device 200 normally to start work;In infrared emission
During device 200 normally starts work, control module 110 feeds back infrared shooting device 200 by wireless communication module 120
Work state information, and receive external control terminal 300 transmission working state control instruction, with to infrared shooting device
200 working condition is controlled, and the utility model embodiment uses communication, receives external control terminal 300
Instruction, remote control can be achieved, during installation and debugging, instruct user to operate by voice message, it is simple in construction, it is easy to real
It is existing.
In one embodiment, wireless communication module 120 includes WiFi units, bluetooth unit, ZigBee units or honeycomb
One or more in NE.
Fig. 2 shows the circuit structure for the wireless communication module 120 that the embodiment of the utility model one is provided, for the ease of
Illustrate, illustrate only the part related to the utility model embodiment, details are as follows:
As shown in Fig. 2 in one embodiment of the present utility model, it is mono- that the wireless communication module 120 in Fig. 1 includes WiFi
Member.
WiFi units include WIFI chips 121, the first filtering subunit 122, first switch subelement 123, second switch
Subelement 124, the first partial pressure subelement 125, the second partial pressure subelement 126, the 3rd partial pressure subelement 127, the 4th partial pressure are single
Member 128 and luminous subelement 129.
The serial data pin of WIFI chips 121 connects control module 110, the power pins of WIFI chips 121 and the first filter
The input of marble unit 122 meets the first power supply V1 altogether, the output head grounding of the first filtering subunit 122, WIFI chips 121
Reset pin connects the first end of first switch subelement 123, the second end ground connection of first switch subelement 123, first switch
The controlled end of unit 123 receives the replacement pin of external reset signal RST, WIFI chip 121 by the first partial pressure subelement 125
Connect altogether with the first end of second switch subelement 124 and the first end of the second partial pressure subelement 126, the second partial pressure subelement 126
Second termination the first power supply V1, second switch subelement 124 the second end ground connection, the controlled end of second switch subelement 124
External reset signal RELOAD is received by the 3rd partial pressure subelement 127, the connection instruction pin of WIFI chips 121 passes through the 4th
The output end of the sending and receiving photon unit 129 of partial pressure subelement 128, the input for the subelement 129 that lights terminate the first power supply V1.
In a particular application, external reset signal RST and external reset signal RELOAD can be that control module 110 is sent
Or in the operable equipment such as the button by being set in wireless communication module 120 execution action so as to obtaining.
In a particular application, the first power supply V1 can be obtained by external power source, or wireless communication module 120 is self-contained
Battery obtain.
In the present embodiment, serial communication between WIFI chips 121 and control module 110.WIFI chips 121 pass through first
Power supply V1 obtains power supply, and the interference voltage that the first filtering subunit 122 is filtered out in the first power supply V1 prevents overvoltage from damaging chip.
WIFI chips 121 receive external reset signal RST and perform reset, receive external reset signal RELOAD and perform parameter replacement.When
When the communication link of WIFI chips 121 is all connected, status display is carried out by luminous subelement 129.
In one embodiment, the first filtering subunit 122 includes the first electric capacity C1, the second electric capacity C2 and the 3rd electric capacity
C3, the first end of the first electric capacity C1 first end, the second electric capacity C2 first end and the 3rd electric capacity C3 connect to form the first filtering altogether
The input of subelement 122, second end at the first electric capacity C1 the second end, the second electric capacity C2 the second end and the 3rd electric capacity C3 are total to
Connect the output end to form the first filtering subunit 122.
In one embodiment, first switch subelement 123 includes PMOS Q1, PMOS Q1 with parasitic diode
Source electrode and the negative electrode of parasitic diode connect the first end to form first switch subelement 123 altogether, PMOS Q1 drain electrode and post
The anode of raw diode connects the second end to form first switch subelement 123 altogether, and PMOS Q1 grid is single for first switch
The controlled end of member 123.
In one embodiment, second switch subelement 124 includes PMOS Q2, PMOS Q2 with parasitic diode
Source electrode and the negative electrode of parasitic diode connect the first end to form first switch subelement 124 altogether, PMOS Q2 drain electrode and post
The anode of raw diode connects the second end to form first switch subelement 124 altogether, and PMOS Q2 grid is single for first switch
The controlled end of member 124.
In one embodiment, the model ST2302 of first switch subelement, second switch subelement.
In one embodiment, the first partial pressure subelement 125, the second partial pressure subelement 126, the 3rd partial pressure subelement 127
Respectively include a resistance with the 4th partial pressure subelement 128.
In one embodiment, the subelement 129 that lights includes light emitting diode D1, and light emitting diode D1 anode is luminous
The input of subelement 129, light emitting diode D1 negative electrode are the output end of luminous subelement 129.
Fig. 3 shows the circuit structure for the voice cue module 130 that the embodiment of the utility model one is provided, for the ease of
Illustrate, illustrate only the part related to the utility model embodiment, details are as follows:
As shown in figure 3, in one embodiment of the present utility model, the voice cue module 130 in Fig. 1 includes voice control
Unit 131, audio power amplifier unit 132 and loudspeaker 133 processed.
The input termination control module 110 of speech control unit 131, the output ending connecting audio work(of speech control unit 131
Put the input of unit 132, the output termination loudspeaker 133 of audio power amplifier unit 132.
During the installation and debugging of infrared shooting device 200, the receive and control module 110 of speech control unit 131 is sent
Speech data, send speech simulation data to audio power amplifier unit 132, send to infrared emission so as to controlling loudspeaker 133
The voice message that the installation site of device 200 is adjusted.
In one embodiment, speech control unit 131 includes the partial pressure subelement 1312 of speech chip 1311 and the 5th.
The input pin of speech chip 1311 is the input of speech control unit 131, and the output of speech chip 1311 is drawn
The first end of pin and the 5th partial pressure subelement 1312 connects the output end to form speech control unit 131, the 5th partial pressure subelement altogether
1312 the second end ground connection.
In a particular application, the model WTN5055 of speech chip 1311.
In a particular application, the 5th partial pressure subelement 1312 includes the 5th resistance R5, and the 5th resistance R5 first end is the
The first end of five partial pressure subelements 1312, the 5th resistance R5 the second end are the second end of the 5th partial pressure subelement 1312.
In one embodiment, audio power amplifier unit 132 includes the filtering subunit of audio frequency power amplifier chip 1321 and second
1322。
The first end of input the second filtering subunit 1322 of termination of audio frequency power amplifier chip 1321, the second filtering subunit
1322 the second end is the input of audio power amplifier unit 132, and the output end of audio frequency power amplifier chip 1321 is audio power amplifier unit
132 output end.
In a particular application, the model FT690 of audio frequency power amplifier chip 1321.
In a particular application, the second filtering subunit 1322 includes the 4th electric capacity C4 and the 6th resistance R5 of series connection.
Fig. 4 shows the circuit structure for the control module 110 that the embodiment of the utility model one is provided, for the ease of saying
It is bright, the part related to the utility model embodiment is illustrate only, details are as follows:
As shown in figure 4, in one embodiment of the present utility model, the control module 110 in Fig. 1 includes processor unit
111st, the first communication unit 112, the second communication unit 113, memory cell 114, display unit 115 and key control unit 116.
Processor unit 111 is single with the first communication unit 112, the second communication unit 113, memory cell 114, display respectively
Member 115 and key control unit 116 connect.
In one embodiment, the first communication unit 112 includes serial communication interface, for passing through serial data line and nothing
Line communication module 120 communicates to connect.
In one embodiment, the second communication unit 113 includes I2C interface, for passing through I2C buses and voice message mould
Block 130 communicates to connect.
In a particular application, processor unit 111 is used to communicate with infrared shooting device 200.
As shown in figure 1, the utility model embodiment additionally provides a kind of infrared emission system 10, including infrared shooting device
200, in addition to the control debugging apparatus 100 as above being connected with infrared shooting device 200.
In one embodiment, infrared emission system 10 also includes controlling with the outside of the control wireless connection of debugging apparatus 100
Terminal 300 processed.
External control terminal 300 sends debugging mode enabled instruction, control control debugging apparatus to control debugging apparatus 100
100 enter debugging mode, control debugging apparatus 100 is sent the language being adjusted to the installation site of infrared shooting device 200
Sound is prompted.
External control terminal 300 also sends normal enabled instruction to control debugging apparatus 100, with by controlling debugging apparatus
100 control infrared shooting devices 200 normally start work.
External control terminal 300 receives control debugging dress also during infrared shooting device 200 normally starts work
The work state information of the infrared shooting device 200 of 100 feedbacks is put, and working state control is sent to control debugging apparatus 100
Instruction, is controlled with the working condition to infrared shooting device 200.
In one embodiment, external control terminal 300 includes mobile terminal and/or cloud server, and mobile terminal is straight
Connect or instruction is sent to control debugging apparatus 100 by cloud server.
Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model
All any modification, equivalent and improvement made within the spirit and principle of utility model etc., should be included in the utility model
Protection domain within.
Claims (10)
1. one kind control debugging apparatus, is communicated to connect with infrared shooting device, for being controlled to the infrared shooting device
And installation and debugging, it is characterised in that the control debugging apparatus is also with external control terminal wireless connection and communicating, the control
Debugging apparatus includes control module, wireless communication module and voice cue module;
The control module communicates to connect with the wireless communication module and the voice cue module respectively, the control module
Communicated to connect with the infrared shooting device, the wireless communication module and the external control terminal wireless connection simultaneously communicate;
When the wireless communication module receives the debugging mode enabled instruction that the external control terminal is sent, the control is adjusted
Trial assembly is put into debugging mode, and the control module controls institute's predicate during the installation and debugging of the infrared shooting device
Sound reminding module sends the voice message being adjusted to the installation site of the infrared shooting device;
The infrared shooting device installation and the wireless communication module receive the external control terminal and sent just
During normal enabled instruction, the control module controls the infrared shooting device normally to start work;
During the infrared shooting device normally starts work, the control module is anti-by the wireless communication module
The work state information of the infrared shooting device is presented, and receives the working state control that the external control terminal is sent and refers to
Order, is controlled with the working condition to the infrared shooting device.
2. as claimed in claim 1 control debugging apparatus, it is characterised in that the wireless communication module include WiFi units,
One or more in bluetooth unit, ZigBee units or cellular network unit.
3. control debugging apparatus as claimed in claim 1 or 2, it is characterised in that it is mono- that the wireless communication module includes WiFi
Member;
The WiFi units include WIFI chips, the first filtering subunit, first switch subelement, second switch subelement, the
One partial pressure subelement, the second partial pressure subelement, the 3rd partial pressure subelement, the 4th partial pressure subelement and luminous subelement;
The serial data pin of the WIFI chips connects the control module, the power pins of the WIFI chips and described first
The input of filtering subunit connects the first power supply altogether, the output head grounding of first filtering subunit, the WIFI chips
Reset pin connects the first end of the first switch subelement, and the second end of the first switch subelement is grounded, and described first
The controlled end for switching subelement receives external reset signal by the first partial pressure subelement, and the replacement of the WIFI chips is drawn
Pin connects altogether with the first end of the second switch subelement and the first end of the second partial pressure subelement, the second partial pressure
Second termination first power supply of unit, the second end ground connection of the second switch subelement, the second switch subelement
Controlled end by the 3rd partial pressure subelement receive external reset signal, the WIFI chips connection instruction pin pass through
The 4th partial pressure subelement connects the output end of the luminous subelement, input termination first electricity of the luminous subelement
Source.
4. control debugging apparatus as claimed in claim 1, it is characterised in that the voice cue module includes Voice command list
Member, audio power amplifier unit and loudspeaker;
The input of the speech control unit terminates the control module, and the output of the speech control unit terminates the audio
The input of power amplifier unit, the output of the audio power amplifier unit terminate the loudspeaker;
During the installation and debugging of the infrared shooting device, the speech control unit receives what the control module was sent
Speech data, speech simulation data are sent to the audio power amplifier unit, so as to control the loudspeaker to send to described infrared
The voice message being adjusted to the installation site of injection device.
5. as claimed in claim 4 control debugging apparatus, it is characterised in that the speech control unit include speech chip and
5th partial pressure subelement;
The input pin of the speech chip be the speech control unit input, the output pin of the speech chip with
The first end of the 5th partial pressure subelement connects the output end to form the speech control unit, the 5th partial pressure subelement altogether
The second end ground connection.
6. control debugging apparatus as claimed in claim 4, it is characterised in that the audio power amplifier unit includes audio frequency power amplifier core
Piece and the second filtering subunit;
The input of the audio frequency power amplifier chip terminates the first end of second filtering subunit, second filtering subunit
Second end is the input of the audio power amplifier unit, and the output end of the audio frequency power amplifier chip is the audio power amplifier unit
Output end.
7. control debugging apparatus as claimed in claim 1, it is characterised in that the control module includes processor unit, the
One communication unit, the second communication unit, memory cell, display unit and key control unit;
The processor unit respectively with first communication unit, second communication unit, the memory cell, described aobvious
Show that unit connects with the key control unit.
8. a kind of infrared emission system, it is characterised in that connect including infrared shooting device, in addition to the infrared shooting device
The control debugging apparatus as described in any one of claim 1~7 connect.
9. infrared emission system as claimed in claim 8, it is characterised in that also include wirelessly connecting with the control debugging apparatus
The external control terminal connect;
The external control terminal sends debugging mode enabled instruction to the control debugging apparatus, controls the control debugging dress
Put and enter debugging mode, the control debugging apparatus is sent the language being adjusted to the installation site of the infrared shooting device
Sound is prompted;
The external control terminal also sends normal enabled instruction to the control debugging apparatus, to pass through the control debugging dress
Put the control infrared shooting device and normally start work;
The external control terminal receives the control debugging also during the infrared shooting device normally starts work
The work state information of the infrared shooting device of device feedback, and send working state control to the control debugging apparatus
Instruction, is controlled with the working condition to the infrared shooting device.
10. infrared emission system as claimed in claim 9, it is characterised in that the external control terminal includes mobile terminal
And/or cloud server, the mobile terminal is sent directly or by the cloud server to the control debugging apparatus to be referred to
Order.
Priority Applications (1)
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CN201720522765.0U CN206863886U (en) | 2017-05-11 | 2017-05-11 | One kind control debugging apparatus and infrared emission system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111245415A (en) * | 2020-01-16 | 2020-06-05 | 仁化县启航电子科技有限公司 | Method for analyzing moving directivity of infrared correlation photoelectric switch |
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2017
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111245415A (en) * | 2020-01-16 | 2020-06-05 | 仁化县启航电子科技有限公司 | Method for analyzing moving directivity of infrared correlation photoelectric switch |
CN111245415B (en) * | 2020-01-16 | 2023-06-06 | 仁化县启航电子科技有限公司 | Method for analyzing movement directivity of infrared correlation photoelectric switch |
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