CN205041309U - Light -operated dry hand device of infrared ray - Google Patents

Abstract

The utility model provides a light -operated dry hand device of infrared ray, its characteristic includes: 220V alternating current power supply, 12V half -wave rectification constant voltage power supply, infrared emission and receiving circuit, light -operated signal comparison and level shifting circuit, electrical heating and fan drive circuit, light -operated signal comparison and level shifting circuit in the model chooseed for use of operational amplifier IC1 for LM358. Experiment through multiple scheme, light -operated dry hand device of infrared ray use the power drive component of bidirectional thyristor as electrical heating and fan to be aided with that a small amount of ordinary components and parts have realized that light -operated dry hand device of infrared ray circuit structure is simple, dependable performance, low in cost's requirement.

Description

The dry arm device of controlled by infrared light

Technical field

The utility model belongs to application of electronic technology field, is about the dry arm device of a kind of controlled by infrared light.

Background technology

Hand dryer is that it is divided into the types such as infrared-type automatic hand dryer, manual hand dryer for drying both hands or drying up the sanitary equipment electric heating appliance of both hands between a kind of bathroom.It such as to be mainly used between hotel, restaurant, scientific research institution, hospital, place of public amusement or domestic hygiene at the place.

The hand dryer market owning amount of hot type is maximum, usually its heating power is larger, many at more than 1000W, and power of fan is generally about 200W, the typical feature of this hand dryer is that wind-warm syndrome is very high, relies on the wind of higher temperature, and the globule evaporation on handle blows away, its advantage is that noise is little, and therefore it receives office building etc. and to need peace and quiet the favor in place.Through the test of kinds of schemes, the dry arm device of controlled by infrared light described in the utility model uses bidirectional triode thyristor as the power drive element of electrical heating and blower fan, and be aided with that a small amount of common components and parts achieve that controlled by infrared light dry arm device circuit structure is simple, dependable performance, cheap requirement.

Below describe that the dry arm device of controlled by infrared light described in the utility model is involved necessary in implementation process, guardian technique content in detail.

Utility model content

Goal of the invention and beneficial effect: the hand dryer market owning amount of hot type is maximum, usually its heating power is larger, many at more than 1000W, and power of fan is generally about 200W, the typical feature of this hand dryer is that wind-warm syndrome is very high, relies on the wind of higher temperature, and the globule evaporation on handle blows away, its advantage is that noise is little, and therefore it receives office building etc. and to need peace and quiet the favor in place.Through the test of kinds of schemes, the dry arm device of controlled by infrared light described in the utility model uses bidirectional triode thyristor as the power drive element of electrical heating and blower fan, and be aided with that a small amount of common components and parts achieve that controlled by infrared light dry arm device circuit structure is simple, dependable performance, cheap requirement.

Circuit working principle: form resistance-capacitance depressurization half-wave rectifier voltage circuit by decompression capacitor C2, bleeder resistance R8 and silicon rectifier diode D3, voltage-stabiliser tube DW, electrochemical capacitor C1 is 12V D.C. regulated power supply filter capacitor.

Infrared ray automatic hand dryer is that infrared light emission pipe D1 is faced the below that photodiode D2 is installed on hand dryer, when staff does not enter hand dryer, the infrared light direct irradiation that infraluminescence pipe D1 sends is on photodiode D2, because the resistance of resistance R3 is less, voltage comparator in-phase input end the 3rd pin in operational amplifier IC1 is made to show as low level, and its inverting input the 2nd pin is mid-point voltage, its output the 1st pin is low level, bidirectional triode thyristor BCR ends because of triggerless, makes electrical heating wire RL and blower fan be in holding state without electricity.

When staff enters hand dryer, the infrared signal that infraluminescence pipe D1 sends is blocked, the resistance of photodiode D2 is caused to become large, photodiode D2 is ended, in-phase input end in operational amplifier IC1 the 3rd pin voltage rise, that is: in-phase input end voltage is greater than the mid-point voltage of inverting input 2 pin, and duty is just in time contrary with said process, that is: output the 1st pin making operational amplifier IC1 is high level, thus makes electrical heating wire RL and blower fan obtain electric starting working.

Technical characteristic: the dry arm device of controlled by infrared light, it comprises 220V AC power, 12V halfwave rectifier voltage-stabilized power supply, Infrared emitting and receiving circuit, optically-controlled signal compare and level shifting circuit, electrical heating and fan drive circuit, it is characterized in that:

Infrared emitting and receiving circuit: it is made up of infrared light-emitting diode D1, resistance R1 and photodiode D2, resistance R2 and resistance R3, the positive pole of infrared light-emitting diode D1 is by resistance R1 connection circuit positive pole VCC, the negative pole connection circuit ground GND of infrared light-emitting diode D1, the positive pole of photodiode D2 passes through resistance R3 connection circuit ground GND by the negative pole of resistance R2 connection circuit positive pole VCC, photodiode D2;

Optically-controlled signal compares and level shifting circuit: it is made up of operational amplifier IC1, resistance R4, resistance R5 and resistance R6, the model that operational amplifier IC1 selects is LM358,3rd pin of operational amplifier IC1 connects the negative pole of photodiode D2, one end of the 2nd pin connecting resistance R4 of operational amplifier IC1 and one end of resistance R5, the other end of resistance R4 and the 8th pin connection circuit positive pole VCC of operational amplifier IC1,1st pin of the other end of resistance R5 and the 4th pin connection circuit ground GND, the operational amplifier IC1 of operational amplifier IC1 is by resistance R6 connection circuit ground GND;

Electrical heating and fan drive circuit: it is made up of resistance R7, bidirectional triode thyristor BCR, electrical heating wire RL and blower fan, 1st pin of operational amplifier IC1 meets the control pole G of bidirectional triode thyristor BCR by resistance R7, the first anode T1 connection circuit ground GND of bidirectional triode thyristor BCR, the second plate T2 of bidirectional triode thyristor BCR connects one end of electrical heating wire RL and one end of blower fan, the live wire end L of the other end of electrical heating wire RL and another termination 220V AC power of blower fan;

12V halfwave rectifier voltage-stabilized power supply: it is by decompression capacitor C2, bleeder resistance R8 and silicon rectifier diode D3, silicon voltage regulator diode DW, electrochemical capacitor C1 forms, the technical parameter of silicon voltage regulator diode DW is 12V, the live wire end L of 220V AC power connects one end of decompression capacitor C2 and one end of bleeder resistance R8, the positive pole of the other end of decompression capacitor C2 and another termination silicon rectifier diode D3 of bleeder resistance R8, the negative pole of silicon rectifier diode D3 connects the negative pole of silicon voltage regulator diode DW and the positive pole of electrochemical capacitor C1, the positive pole of silicon voltage regulator diode DW and the negative pole connection circuit ground GND of electrochemical capacitor C1,

The positive pole of 12V halfwave rectifier voltage-stabilized power supply is connected with circuit anode VCC, and the negative pole of 12V halfwave rectifier voltage-stabilized power supply is connected with the zero line side N of circuit ground GND and 220V AC power.

Accompanying drawing explanation

Accompanying drawing 1 is the circuit working schematic diagram of the controlled by infrared light dry arm device embodiment that the utility model provides.

Detailed description of the invention

According to the controlled by infrared light dry arm device circuit working schematic diagram shown in accompanying drawing 1 and accompanying drawing explanation, and according to annexation between components and parts in each several part circuit described in utility model content, and components and parts technical parameter described in embodiment requires and circuit production main points are carried out enforcement and can be realized the utility model, is further described correlation technique of the present utility model below in conjunction with embodiment.

The technical parameter of components and parts and selection requirement thereof

The model that infrared light-emitting diode D1 and photodiode D2 adopts is respectively SE303 and PH302;

IC1 is operational amplifier, and the model selected is LM358, and it is plastic packaging DIP dual-in-line;

D3 is silicon rectifier diode, and the model selected is 1N4007;

DW is silicon voltage regulator diode, and the technical parameter of use is 12V, power is 1W;

Rl ~ R7 resistance adopts 1/8W metalfilmresistor, and its resistance is respectively 820 Ω, 510 Ω, 510 Ω, 110K Ω, 110K Ω, 910 Ω, 2.2K Ω; The resistance of bleeder resistance R8 is 620K Ω, power is 1W;

C1 is the model C D11-10 of electrochemical capacitor, use, and its capacity is 1000 μ/25V; The capacity of decompression capacitor C2 is 0.68 μ F/450V electric capacity of the dacron;

BCR is bidirectional triode thyristor, and the technical parameter of employing is 450V, 16A;

RL is electrical heating wire, and the technical parameter of use is 220V, 1600W;

Blower fan uses series-wound motor and permanent magnet motor, and its technical parameter is 220V, 160W.

Circuit production main points, circuit debugging and using method

Because the circuit structure of the dry arm device of controlled by infrared light is fairly simple, as long as the electronic devices and components performance generally selected is intact, and the components and parts annexation to specifications in accompanying drawing 1 is welded, physical connection line and welding quality are through carefully checking correctly, and circuit of the present utility model only needs to debug simply and can normally work;

First weak current part circuit debugging is carried out with 12V D.C. regulated power supply, after treating that weak current part circuit working is normal, that is: after the high and low level of the 1st pin output of operational amplifier IC1 is reliably changed, then use 220V AC power instead circuit debugging is carried out to strong power part.

Circuit structure design of the present utility model, components' placement; and its face shaping design and size etc. thereof are not all key technologies of the present utility model; neither the claimed guardian technique content of the utility model; because not affecting the realization of the utility model specific implementation process and utility model object, therefore do not illustrate one by one in the description.

Claims (1)

1. the dry arm device of controlled by infrared light, it comprises 220V AC power, 12V halfwave rectifier voltage-stabilized power supply, Infrared emitting and receiving circuit, optically-controlled signal compare and level shifting circuit, electrical heating and fan drive circuit, it is characterized in that:

Described Infrared emitting and receiving circuit is made up of infrared light-emitting diode D1, resistance R1 and photodiode D2, resistance R2 and resistance R3, the positive pole of infrared light-emitting diode D1 is by resistance R1 connection circuit positive pole VCC, the negative pole connection circuit ground GND of infrared light-emitting diode D1, the positive pole of photodiode D2 passes through resistance R3 connection circuit ground GND by the negative pole of resistance R2 connection circuit positive pole VCC, photodiode D2;

Described optically-controlled signal compares and is made up of operational amplifier IC1, resistance R4, resistance R5 and resistance R6 with level shifting circuit, the model that operational amplifier IC1 selects is LM358,3rd pin of operational amplifier IC1 connects the negative pole of photodiode D2, one end of the 2nd pin connecting resistance R4 of operational amplifier IC1 and one end of resistance R5, the other end of resistance R4 and the 8th pin connection circuit positive pole VCC of operational amplifier IC1,1st pin of the other end of resistance R5 and the 4th pin connection circuit ground GND, the operational amplifier IC1 of operational amplifier IC1 is by resistance R6 connection circuit ground GND;

Described electrical heating and fan drive circuit are made up of resistance R7, bidirectional triode thyristor BCR, electrical heating wire RL and blower fan, 1st pin of operational amplifier IC1 meets the control pole G of bidirectional triode thyristor BCR by resistance R7, the first anode T1 connection circuit ground GND of bidirectional triode thyristor BCR, the second plate T2 of bidirectional triode thyristor BCR connects one end of electrical heating wire RL and one end of blower fan, the live wire end L of the other end of electrical heating wire RL and another termination 220V AC power of blower fan;

Described 12V halfwave rectifier voltage-stabilized power supply is by decompression capacitor C2, bleeder resistance R8 and silicon rectifier diode D3, silicon voltage regulator diode DW, electrochemical capacitor C1 forms, the technical parameter of silicon voltage regulator diode DW is 12V, the live wire end L of 220V AC power connects one end of decompression capacitor C2 and one end of bleeder resistance R8, the positive pole of the other end of decompression capacitor C2 and another termination silicon rectifier diode D3 of bleeder resistance R8, the negative pole of silicon rectifier diode D3 connects the negative pole of silicon voltage regulator diode DW and the positive pole of electrochemical capacitor C1, the positive pole of silicon voltage regulator diode DW and the negative pole connection circuit ground GND of electrochemical capacitor C1,

The positive pole of described 12V halfwave rectifier voltage-stabilized power supply is connected with circuit anode VCC, and the negative pole of 12V halfwave rectifier voltage-stabilized power supply is connected with the zero line side N of circuit ground GND and 220V AC power.