CN203446068U - Automatic lighting lamp control structure - Google Patents

Automatic lighting lamp control structure Download PDF

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Publication number
CN203446068U
CN203446068U CN201320442973.1U CN201320442973U CN203446068U CN 203446068 U CN203446068 U CN 203446068U CN 201320442973 U CN201320442973 U CN 201320442973U CN 203446068 U CN203446068 U CN 203446068U
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China
Prior art keywords
nand gate
circuit device
pin
resistance
relay
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Expired - Fee Related
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CN201320442973.1U
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Chinese (zh)
Inventor
朱芳
钱颖
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Wuxi Professional College of Science and Technology
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Wuxi Professional College of Science and Technology
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Abstract

The utility model provides an automatic lighting lamp control structure, which has the advantages of being simple in structure, low in cost, convenient in maintenance, easy in operation, and good in popularization and use values. The automatic lighting lamp control structure comprises a photosensitive control circuit device, an oscillation circuit device, a digital combined logic circuit device, and a relay control circuit device, wherein the output ends of the photosensitive control circuit device and the oscillation circuit device are both connected to the input end of the digital combined logic circuit device; and the output end of the digital combined logic circuit device is connected with the input end of the relay control circuit device.

Description

A kind of illuminating lamp automatic control structure
Technical field
The utility model relates to electronic technology field, is specially a kind of illuminating lamp automatic control structure.
Background technology
Lighting lamp controller is for controlling the device that illuminating lamp is dark, go out, and existing lighting lamp controller ubiquity circuit is complicated, cost is higher, maintenance difficult, the defect such as not easy to operate.
Summary of the invention
For the problems referred to above, the utility model provides a kind of illuminating lamp automatic control structure, and it is simple in structure, with low cost, easy to maintenance, and easy operating has good popularizing value.
The technical solution of the utility model is such: it is characterized in that: it comprises photosensitive control circuit device, oscillating circuit arrangement, digital combined logic circuit device, control relay circuit device, the output of described photosensitive control circuit device, oscillating circuit arrangement is all connected to the input of described digital combined logic circuit device, and the output of described digital combined logic circuit device connects the input of described control relay circuit device.
It is further characterized in that: described photosensitive control circuit device comprises resistance R 1, phototriode VT1, triode VT2, described oscillating circuit arrangement comprises K switch, resistance R 3, capacitor C 1, NAND gate G1C, G1D, described digital combined logic circuit device comprises NAND gate G1A, G1B, resistance R 2, light-emitting diode L1, described control relay circuit device comprises diode D1, D2, D3, illuminating lamp EL, inverter U1, relay K A, and described inverter U1 adopts integrated chip 7406, one end of described resistance R 1 connects power supply 5V, the other end of described resistance R 1 and described phototriode VT1, the collector electrode of triode VT2, 1 pin of NAND gate G1A is all connected, the emitter of described phototriode VT1 connects the base stage of described triode VT2, the grounded emitter of described triode VT2, 2 pin of described NAND gate G1A and 11 pin of described NAND gate G1D, one end of capacitor C 1 is all connected, ground connection after the 12 pin connecting valve K of described NAND gate G1D, 8 pin of one end of described resistance R 3 and described NAND gate G1C, 13 pin of NAND gate G1D are all connected, 9 of described NAND gate G1C, 10 pin connect rear and described resistance R 3, the other end of capacitor C 1 is all connected, 4 of 3 pin of described NAND gate G1A and described NAND gate G1B, 5 pin are all connected, 6 pin of described NAND gate G1B connect one end of described resistance R 2, 1 pin of inverter U1, the other end of described resistance R 2 connects the positive pole of described light-emitting diode L1, the minus earth of described light-emitting diode L1, 2 pin of described inverter U1 and the positive pole of described diode D1, one end of relay K A coil is connected, the negative pole of described diode D1, the other end of relay K A coil meets described power supply 5V after being connected, one end of described relay K A make contact meets described power supply 5V after connecting described illuminating lamp EL, the other end of described relay K A make contact connects the positive pole of described diode D2, the negative pole of described diode D2 connects the positive pole of described diode D3, the minus earth of described diode D3.
A kind of illuminating lamp automatic control structure that the utility model adopts, the induction of its phototriode VT1 by photosensitive control circuit device to light power, disconnects relay K A make contact and closure, thereby effectively controls the dark of illuminating lamp and go out, simple in structure, handled easily.
Accompanying drawing explanation
Fig. 1 is the electric circuit constitute block diagram of the present utility model;
Fig. 2 is circuit theory diagrams of the present utility model.
Embodiment
As shown in Figure 1 and Figure 2, the utility model comprises photosensitive control circuit device 1, oscillating circuit arrangement 4, digital combined logic circuit device 2, control relay circuit device 3, the output of described photosensitive control circuit device 1, oscillating circuit arrangement 4 is all connected to the input of described digital combined logic circuit device 2, and the output of described digital combined logic circuit device 2 connects the input of described control relay circuit device 3, photosensitive control circuit device 1 comprises resistance R 1, phototriode VT1, triode VT2, described oscillating circuit arrangement 2 comprises K switch, resistance R 3, capacitor C 1, NAND gate G1C, G1D, described digital combined logic circuit device 2 comprises NAND gate G1A, G1B, resistance R 2, light-emitting diode L1, described control relay circuit device 3 comprises diode D1, D2, D3, illuminating lamp EL, inverter U1, relay K A, and described inverter U1 adopts integrated chip 7406, one end of described resistance R 1 connects power supply 5V, the other end of described resistance R 1 and described phototriode VT1, the collector electrode of triode VT2, 1 pin of NAND gate G1A is all connected, the emitter of described phototriode VT1 connects the base stage of described triode VT2, the grounded emitter of described triode VT2, 2 pin of described NAND gate G1A and 11 pin of described NAND gate G1D, one end of capacitor C 1 is all connected, ground connection after the 12 pin connecting valve K of described NAND gate G1D, 8 pin of one end of described resistance R 3 and described NAND gate G1C, 13 pin of NAND gate G1D are all connected, 9 of described NAND gate G1C, 10 pin connect rear and described resistance R 3, the other end of capacitor C 1 is all connected, 4 of 3 pin of described NAND gate G1A and described NAND gate G1B, 5 pin are all connected, 6 pin of described NAND gate G1B connect one end of described resistance R 2, 1 pin of inverter U1, the other end of described resistance R 2 connects the positive pole of described light-emitting diode L1, the minus earth of described light-emitting diode L1, 2 pin of described inverter U1 and the positive pole of described diode D1, one end of relay K A coil is connected, the negative pole of described diode D1, the other end of relay K A coil meets described power supply 5V after being connected, one end of described relay K A make contact meets described power supply 5V after connecting described illuminating lamp EL, the other end of described relay K A make contact connects the positive pole of described diode D2, the negative pole of described diode D2 connects the positive pole of described diode D3, the minus earth of described diode D3.
The course of work of the present utility model and principle are as follows: when external light is stronger, phototriode VT1 flows through larger electric current, the 1 pin input voltage of NAND gate G1A is low level, NAND gate G1A is output as high level, and the output voltage of NAND gate G1B is also low level, and light-emitting diode L1 does not work, inverter U1 is output as high level, relay K A coil must not be electric, and its make contact is not closed, and illuminating lamp EL does not work, when external light is darker, phototriode VT1 cut-off, the 1 pin input voltage of NAND gate G1A is high level, while NAND gate G1C, G1D forms multivibrator, 2 pin of NAND gate G1A are input as the rectangle wave of oscillation, the low and high level for alternately changing of input, the output of NAND gate G1A is also the rectangle wave of oscillation, the output of G1B is also the rectangle wave of oscillation, its low and high level all alternately changes, light-emitting diode L1 flicker, the output of inverter U1 is also that low and high level alternately changes, when inverter U1 is output as high level, relay K A coil must not be electric, its make contact is not closed, illuminating lamp EL does not work, when inverter U1 is output as low level, relay K A coil obtains electric, its make contact is closed, illuminating lamp EL is bright, according to the difference of low and high level, change, illuminating lamp EL does not stop flicker, and synchronize and change with light-emitting diode L1, when external light is darker, phototriode VT1 cut-off, the 1 pin input voltage of NAND gate G1A is high level, because K switch is closed, the 12 pin input voltages of NAND gate G1D are 0V, the output voltage of NAND gate G1D is high level, the input voltage that is 2 pin of NAND gate G1A is high level, NAND gate G1A is output as low level, and the output voltage of NAND gate G1B is high level, light-emitting diode L1 Chang Liang, inverter U1 is output as low level, relay K A coil obtains electric, and its make contact is closed, illuminating lamp EL Chang Liang.

Claims (2)

1. an illuminating lamp automatic control structure, it is characterized in that: it comprises photosensitive control circuit device, oscillating circuit arrangement, digital combined logic circuit device, control relay circuit device, the output of described photosensitive control circuit device, oscillating circuit arrangement is all connected to the input of described digital combined logic circuit device, and the output of described digital combined logic circuit device connects the input of described control relay circuit device.
2. a kind of illuminating lamp automatic control structure according to claim 1, is characterized in that: described photosensitive control circuit device comprises resistance R 1, phototriode VT1, triode VT2, described oscillating circuit arrangement comprises K switch, resistance R 3, capacitor C 1, NAND gate G1C, G1D, described digital combined logic circuit device comprises NAND gate G1A, G1B, resistance R 2, light-emitting diode L1, described control relay circuit device comprises diode D1, D2, D3, illuminating lamp EL, inverter U1, relay K A, and described inverter U1 adopts integrated chip 7406, one end of described resistance R 1 connects power supply 5V, the other end of described resistance R 1 and described phototriode VT1, the collector electrode of triode VT2, 1 pin of NAND gate G1A is all connected, the emitter of described phototriode VT1 connects the base stage of described triode VT2, the grounded emitter of described triode VT2, 2 pin of described NAND gate G1A and 11 pin of described NAND gate G1D, one end of capacitor C 1 is all connected, ground connection after the 12 pin connecting valve K of described NAND gate G1D, 8 pin of one end of described resistance R 3 and described NAND gate G1C, 13 pin of NAND gate G1D are all connected, 9 of described NAND gate G1C, 10 pin connect rear and described resistance R 3, the other end of capacitor C 1 is all connected, 4 of 3 pin of described NAND gate G1A and described NAND gate G1B, 5 pin are all connected, 6 pin of described NAND gate G1B connect one end of described resistance R 2, 1 pin of inverter U1, the other end of described resistance R 2 connects the positive pole of described light-emitting diode L1, the minus earth of described light-emitting diode L1, 2 pin of described inverter U1 and the positive pole of described diode D1, one end of relay K A coil is connected, the negative pole of described diode D1, the other end of relay K A coil meets described power supply 5V after being connected, one end of described relay K A make contact meets described power supply 5V after connecting described illuminating lamp EL, the other end of described relay K A make contact connects the positive pole of described diode D2, the negative pole of described diode D2 connects the positive pole of described diode D3, the minus earth of described diode D3.
CN201320442973.1U 2013-07-24 2013-07-24 Automatic lighting lamp control structure Expired - Fee Related CN203446068U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201320442973.1U CN203446068U (en) 2013-07-24 2013-07-24 Automatic lighting lamp control structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201320442973.1U CN203446068U (en) 2013-07-24 2013-07-24 Automatic lighting lamp control structure

Publications (1)

Publication Number Publication Date
CN203446068U true CN203446068U (en) 2014-02-19

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN201320442973.1U Expired - Fee Related CN203446068U (en) 2013-07-24 2013-07-24 Automatic lighting lamp control structure

Country Status (1)

Country Link
CN (1) CN203446068U (en)

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CF01 Termination of patent right due to non-payment of annual fee
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Granted publication date: 20140219

Termination date: 20160724