CN207819878U - Microwave induced energy saver applied to socket - Google Patents
Microwave induced energy saver applied to socket Download PDFInfo
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- CN207819878U CN207819878U CN201820133792.3U CN201820133792U CN207819878U CN 207819878 U CN207819878 U CN 207819878U CN 201820133792 U CN201820133792 U CN 201820133792U CN 207819878 U CN207819878 U CN 207819878U
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- resistance
- capacitance
- microwave induced
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Abstract
The utility model discloses the microwave induced energy savers applied to socket, turn AC circuits, microwave induced circuit and power supply circuit including AC, the power supply circuit and AC turn AC circuits and are connect with socket, power supply circuit supplies electricity to microwave induced circuit for alternating current to be converted to direct current, microwave induced circuit turns AC circuits for outputing signal to AC when sensing human body, and AC is made to turn AC circuits and be connected to power supply circuit to charge with socket.
Description
Technical field
The utility model is related to jack technology more particularly to the microwave induced energy savers of socket.
Background technology
Equipment generally can all have certain power consumption, and long-term open can bring huge energy consumption, simultaneously as electric
The mechanical structure of machine determines, long-term to open the abrasion that accelerate electromechanics structure, reduces the service life of electrical equipment.
Existing socket is all that people is needed to go shutdown electrical equipment or pull out socket, can just electric equipment be used to stop work
Make, if forgetting to turn off, one carrys out waste of resource, and two reduce the electrical equipment service life.
Utility model content
For overcome the deficiencies in the prior art, the purpose of this utility model is to provide the microwave induced sections applied to socket
Can device, existing socket waste of resource can be solved, the equipment life caused short problem.
The purpose of this utility model is realized using following technical scheme:
Turn AC circuits, microwave induced circuit and power supply circuit, institute applied to the microwave induced energy saver of socket, including AC
It states power supply circuit and AC turns AC circuits and connect with socket, power supply circuit supplies electricity to microwave induced electricity for alternating current to be converted to direct current
Road, microwave induced circuit turn AC circuits for outputing signal to AC when sensing human body, AC are made to turn AC circuits and power supply circuit
Connection is charged with socket.
Preferably, the power supply circuit includes resistance R1, resistance R2, varistor R3, varistor R4, rectification circuit
DB1, voltage-stabiliser tube U1, diode D1, capacitance C1 to capacitance C4, relay FR1, one end of one end and varistor R4 of resistance R1
It is connect with the zero line of alternating current, one end of relay FR1 connects socket, the movement of varistor R3, the one of varistor R4
End and one end of capacitance C1 are connect with the other end of relay FR1, and the other end of resistance R1 and the other end of capacitance C1 are logical
Cross the first input end that resistance R2 is connected to rectification circuit, the second input terminal of rectification circuit DB1, the other end of varistor R3
It is connect with socket with the other end of varistor R4, the cathode output end of rectification circuit DB1, one end of capacitance C2, diode
The cathode of D1 is connected to the input terminal of voltage-stabiliser tube U1, the cathode output end of rectification circuit DB1, the other end of capacitance C2, two poles
The anode of pipe D1, the ground terminal of voltage-stabiliser tube U1 are grounded, and one end of capacitance C3 and one end of capacitance C4 are defeated with voltage-stabiliser tube U1
Outlet connects, and the other end of capacitance C3 and the other end of capacitance C4 are grounded, and one end of capacitance C4 is also connected with microwave induced circuit,
AC turns AC circuits and is additionally attached between capacitance C3 and capacitance C4.
Preferably, it includes silicon-controlled BT, metal-oxide-semiconductor Q1 to Q3, resistance R5 to R9 that the AC, which turns AC circuits, and the one of silicon-controlled BT
End is connected to the other end of varistor R4, and the other end of the silicon-controlled other end and varistor R3 are all connected with socket, controllably
The control terminal of silicon BT is connected between one end of resistance R5 and one end of resistance R6, and the other end of resistance R5 is connected to metal-oxide-semiconductor Q1
Source electrode, the drain electrode of metal-oxide-semiconductor Q1 is connected between capacitance C3 and capacitance C4, and the grid of metal-oxide-semiconductor Q1 passes through resistance R7 connection metal-oxide-semiconductors
The drain electrode of Q3, the source electrode ground connection of metal-oxide-semiconductor Q3, the grid of metal-oxide-semiconductor Q3 are connected to microwave induced circuit by resistance R9, resistance R6's
The other end is connected to the drain electrode of metal-oxide-semiconductor Q2, the source electrode ground connection of metal-oxide-semiconductor Q2, and the grid of metal-oxide-semiconductor Q2 is connected to microwave by resistance R8
Sensor circuit.
Preferably, the microwave induced circuit includes interface X1, resistance R10 to resistance R18, capacitance C5 to capacitance C13, red
Outer sensor U2, photo resistance U3, the resistance R10 one end resistance R8, resistance R10 connection infrared sensings are connected with interface X1
Device U2, interface X1 are also connected with one end of capacitance C4;One end of resistance R11 and one end of resistance R12 are all connected with infrared sensor U2,
The other end of resistance R11 is grounded by capacitance C5, and the other end of resistance R12 is grounded by capacitance C6;Resistance R13 and capacitance C7 is simultaneously
Connection forms the first parallel branch, which connects infrared sensor U2, one end connection resistance R14's of parallel branch
One end, capacitance C8 and capacitance C9 parallel connections form the second parallel branch, and the other end of resistance R14 is grounded by the second parallel branch;
The other end of first parallel branch passes sequentially through resistance R15, capacitance C10 is connect with one end of resistance R16, and resistance R16's is another
End is connect with infrared sensor U2, and capacitance C11 is connected in parallel on the both ends of resistance R16;One end of resistance R17 connects infrared sensor
U2, other end ground connection, one end of resistance R18 and one end of capacitance C12 are connect with infrared sensor U2, and resistance R18's is another
End, one end of capacitance C13 and the other end of infrared sensor U2 and capacitance C12 are all connected with photo resistance U3.
Compared with prior art, the beneficial effects of the utility model are:
The utility model allows socket band when sensing human body automatically by adding microwave induced energy saver in socket
Electricity reduces the loss of power to postpone the service life of electrical equipment.
Description of the drawings
Fig. 1 is the circuit structure diagram of the microwave induced circuit of the utility model;
Fig. 2 turns the circuit structure diagram of AC circuits for the power supply circuit and AC of the utility model.
Specific implementation mode
In the following, in conjunction with attached drawing and specific implementation mode, the utility model is described further:
The utility model provides a kind of microwave induced energy saver applied to socket combined with Figure 1 and Figure 2, comprising AC
Turn AC circuits, microwave induced circuit and power supply circuit, the power supply circuit and AC turn AC circuits and connect with socket, power supply circuit
Microwave induced circuit is supplied electricity to for alternating current to be converted to direct current, microwave induced circuit when sensing human body for outputing signal to
AC turns AC circuits, and AC is made to turn AC circuits and be connected to power supply circuit to charge with socket.
AC alternating currents come in start to work to power supply circuit, and microwave induced circuit is started to work after power supply, when induction has object
Mobile module exports a high level, and the movement of no object then exports low level, and AC is made to turn the start-up operation of AC circuits, high level then AC
Turning AC circuits has output, low level AC to turn AC circuits without output.
Particular circuit configurations are:The power supply circuit includes resistance R1, resistance R2, varistor R3, varistor R4, whole
Current circuit DB1, voltage-stabiliser tube U1, diode D1, capacitance C1 to capacitance C4, relay FR1, one end of resistance R1 and varistor R4
One end connect with the zero line of alternating current, one end of relay FR1 connects socket, the movement of varistor R3, varistor
One end of R4 and one end of capacitance C1 are connect with the other end of relay FR1, and the other end of resistance R1 and capacitance C1's is another
End is connected to the first input end of rectification circuit by resistance R2, the second input terminal of rectification circuit DB1, varistor R3
The other end of the other end and varistor R4 are connect with socket, the cathode output end of rectification circuit DB1, one end of capacitance C2,
The cathode of diode D1 is connected to the input terminal of voltage-stabiliser tube U1, the cathode output end of rectification circuit DB1, capacitance C2 it is another
End, the anode of diode D1, voltage-stabiliser tube U1 ground terminal be grounded, one end of capacitance C3 and one end of capacitance C4 are and voltage-stabiliser tube
The output end of U1 connects, and the other end of capacitance C3 and the other end of capacitance C4 are grounded, and one end of capacitance C4 is also connected with microwave sense
Circuit, AC is answered to turn AC circuits and be additionally attached between capacitance C3 and capacitance C4.
It includes silicon-controlled BT, metal-oxide-semiconductor Q1 to Q3, resistance R5 to R9, one end connection of silicon-controlled BT that the AC, which turns AC circuits,
To the other end of varistor R4, the other end of the silicon-controlled other end and varistor R3 are all connected with socket, silicon-controlled BT's
Control terminal is connected between one end of resistance R5 and one end of resistance R6, and the other end of resistance R5 is connected to the source electrode of metal-oxide-semiconductor Q1,
The drain electrode of metal-oxide-semiconductor Q1 is connected between capacitance C3 and capacitance C4, the leakage that the grid of metal-oxide-semiconductor Q1 passes through resistance R7 connection metal-oxide-semiconductors Q3
Pole, the source electrode ground connection of metal-oxide-semiconductor Q3, the grid of metal-oxide-semiconductor Q3 are connected to microwave induced circuit, the other end of resistance R6 by resistance R9
It is connected to the drain electrode of metal-oxide-semiconductor Q2, the source electrode ground connection of metal-oxide-semiconductor Q2, the grid of metal-oxide-semiconductor Q2 is connected to microwave induced electricity by resistance R8
Road.
The microwave induced circuit includes interface X1, resistance R10 to resistance R18, capacitance C5 to capacitance C13, infrared sensing
Device U2, photo resistance U3, the resistance R10 one end resistance R8, resistance R10 connection infrared sensor U2 are connected with interface X1,
Interface X1 is also connected with one end of capacitance C4;One end of resistance R11 and one end of resistance R12 are all connected with infrared sensor U2, resistance
The other end of R11 is grounded by capacitance C5, and the other end of resistance R12 is grounded by capacitance C6;Resistance R13 shapes in parallel with capacitance C7
At the first parallel branch, which connects infrared sensor U2, and one end of parallel branch connects the one of resistance R14
End, capacitance C8 and capacitance C9 parallel connections form the second parallel branch, and the other end of resistance R14 is grounded by the second parallel branch;The
The other end of one parallel branch passes sequentially through resistance R15, capacitance C10 is connect with one end of resistance R16, the other end of resistance R16
It is connect with infrared sensor U2, capacitance C 11 is connected in parallel on the both ends of resistance R16;One end of resistance R17 connects infrared sensor U2,
The other end is grounded, and one end of resistance R18 and one end of capacitance C12 are connect with infrared sensor U2, the other end of resistance R18,
One end of capacitance C13 and the other end of infrared sensor U2 and capacitance C12 are all connected with photo resistance U3.
It will be apparent to those skilled in the art that technical solution that can be as described above and design, make various other
Corresponding change and deformation, and all these changes and deformation should all belong to the protection of the utility model claims
Within the scope of.
Claims (4)
1. the microwave induced energy saver applied to socket, which is characterized in that turn AC circuits, microwave induced circuit and confession including AC
Circuit, the power supply circuit and AC turn AC circuits and are connect with socket, and power supply circuit is supplied electricity to for alternating current to be converted to direct current
Microwave induced circuit, microwave induced circuit turn AC circuits for outputing signal to AC when sensing human body, AC are made to turn AC circuits
It is connected to power supply circuit and is charged with socket.
2. microwave induced energy saver as described in claim 1, which is characterized in that the power supply circuit includes resistance R1, electricity
Hinder R2, varistor R3, varistor R4, rectification circuit DB1, voltage-stabiliser tube U1, diode D1, capacitance C1 to capacitance C4, relay
One end of device FR1, resistance R1 and one end of varistor R4 are connect with the zero line of alternating current, one end connection of relay FR1
One end of socket, the movement of varistor R3, one end of varistor R4 and capacitance C1 connects with the other end of relay FR1
It connects, the other end of resistance R1 and the other end of capacitance C1 are connected to the first input end of rectification circuit, rectification by resistance R2
The other end of the second input terminal of circuit DB1, the other end of varistor R3 and varistor R4 is connect with socket, rectified current
The cathode output end of road DB1, one end of capacitance C2, diode D1 cathode be connected to the input terminal of voltage-stabiliser tube U1, rectified current
The cathode output end of road DB1, the other end of capacitance C2, the anode of diode D1, voltage-stabiliser tube U1 ground terminal be grounded, capacitance C3
One end and one end of capacitance C4 connect with the output end of voltage-stabiliser tube U1, the other end of capacitance C3 and the other end of capacitance C4 are equal
Ground connection, one end of capacitance C4 are also connected with microwave induced circuit, and AC turns AC circuits and is additionally attached between capacitance C3 and capacitance C4.
3. microwave induced energy saver as claimed in claim 2, which is characterized in that it includes silicon-controlled that the AC, which turns AC circuits,
BT, metal-oxide-semiconductor Q1 to Q3, resistance R5 to R9, one end of silicon-controlled BT are connected to the other end of varistor R4, and silicon-controlled is another
The other end of end and varistor R3 are all connected with socket, and the control terminal of silicon-controlled BT is connected to one end of resistance R5 with resistance R6's
Between one end, the other end of resistance R5 is connected to the source electrode of metal-oxide-semiconductor Q1, and the drain electrode of metal-oxide-semiconductor Q1 is connected to capacitance C3 and capacitance C4
Between, the grid of metal-oxide-semiconductor Q1 passes through the drain electrode of resistance R7 connection metal-oxide-semiconductors Q3, the source electrode ground connection of metal-oxide-semiconductor Q3, the grid of metal-oxide-semiconductor Q3
It is connected to microwave induced circuit by resistance R9, the other end of resistance R6 is connected to the drain electrode of metal-oxide-semiconductor Q2, the source electrode of metal-oxide-semiconductor Q2
Ground connection, the grid of metal-oxide-semiconductor Q2 are connected to microwave induced circuit by resistance R8.
4. microwave induced energy saver as claimed in claim 3, which is characterized in that the microwave induced circuit includes interface
X1, resistance R10 are to resistance R18, capacitance C5 to capacitance C13, infrared sensor U2, photo resistance U3, one end of the resistance R10
Resistance R8 is connected with interface X1, resistance R10 connections infrared sensor U2, interface X1 are also connected with one end of capacitance C4;Resistance R11's
One end and one end of resistance R12 are all connected with infrared sensor U2, and the other end of resistance R11 is grounded by capacitance C5, resistance R12's
The other end is grounded by capacitance C6;Resistance R13 the first parallel branches of formation in parallel with capacitance C7, first parallel branch connection are red
Outer sensor U2, one end of one end connection resistance R14 of parallel branch, capacitance C8 and capacitance C9 parallel connections form the second branch in parallel
The other end on road, resistance R14 is grounded by the second parallel branch;The other end of first parallel branch passes sequentially through resistance R15, electricity
Hold C10 to connect with one end of resistance R16, the other end of resistance R16 is connect with infrared sensor U2, and capacitance C11 is connected in parallel on resistance
The both ends of R16;One end of resistance R17 connects infrared sensor U2, other end ground connection, one end of resistance R18 and the one of capacitance C12
End is connect with infrared sensor U2, the other end of resistance R18, one end of capacitance C13 and infrared sensor U2 and capacitance C12
The other end be all connected with photo resistance U3.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820133792.3U CN207819878U (en) | 2018-01-26 | 2018-01-26 | Microwave induced energy saver applied to socket |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820133792.3U CN207819878U (en) | 2018-01-26 | 2018-01-26 | Microwave induced energy saver applied to socket |
Publications (1)
Publication Number | Publication Date |
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CN207819878U true CN207819878U (en) | 2018-09-04 |
Family
ID=63323810
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201820133792.3U Active CN207819878U (en) | 2018-01-26 | 2018-01-26 | Microwave induced energy saver applied to socket |
Country Status (1)
Country | Link |
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CN (1) | CN207819878U (en) |
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2018
- 2018-01-26 CN CN201820133792.3U patent/CN207819878U/en active Active
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