CN204574367U - A kind of air conditioner electric heating safety control circuit - Google Patents

Abstract

The utility model discloses a kind of air conditioner electric heating safety control circuit, comprise electric heating tube, controller, phase inverter, be respectively used to the first electrical heating relay and the second electrical heating relay that control described electric heating tube two ends and electrical network closed and disconnected for a pair, the blower fan relay be connected with control rotation speed of fan circuit and electrical-heating control circuit, first output of wherein said controller is connected with the first electrical heating relay by described phase inverter, for controlling this first electrical heating relay adhesive or disconnection, second output of this controller is connected with described second electrical heating relay by described electrical-heating control circuit simultaneously, for controlling this second electrical heating relay adhesive or disconnection, 3rd output of described controller is also connected with electrical-heating control circuit with blower fan relay by described phase inverter.

Description

A kind of air conditioner electric heating safety control circuit

Technical field

The utility model relates to air-condition circuits control technology field, refers more particularly to a kind of air conditioner electric heating safety control circuit.

Background technology

The electrical-heating control circuit of existing air-conditioning on it is all adopt relay control mode, namely by adhesive and the release of temperature sensor, Single-chip Controlling relay coil, utilizes the contact of single relay to control the power supply circuits of electrothermal tube.But this control circuit frame mode himself reliability and security there is certain hidden danger, concrete is presented as: first, the contact of relay exists the possibility of adhesion, and once the contact adhesion of relay, air-conditioning one is energized will Automatic-heating, and then very easily causes fire incident; In addition, also there is the possibility of punch through damage in the driving triode of relay or control chip, once puncture, power-on of air conditioner, relay will heat by automatic pick, equally very easily causes fire incident.

Meanwhile, according to incompletely statistics, the fire incident that the whole nation causes because of air-conditioning every year exceedes over one hundred, and the fire incident wherein caused because of electrical-heating control circuit fault accounts for 70% of whole fire incident, causes very large loss to user.

In order to improve above-mentioned phenomenon, some air conditioning system makers start to take measures, such as Chinese patent application file individually discloses a key name, and for " air conditioner electric Heating guard circuit ", (notification number is CN203744467U, the day for announcing is 2014.07.30) and name be called that " fault detection method of air-conditioning auxiliary electrical heater device and fault secure circuit " (notification number is CN102927656B, the day for announcing is 2014.11.12) two parts of patent documents, these two parts of patent documents are mainly according to adopting temperature controller to control electrical heating temperature, failure judgement is carried out by detecting electrical heating electric current, it is stable not to there is control structure in it, logical relation is separately relatively simple, the safety coefficient of whole circuit is lower.Therefore, the reliability and security that improve air conditioner electric heating control circuit are just seemed be even more important.

Summary of the invention

The purpose of this utility model is to overcome the deficiencies in the prior art, provides a kind of air conditioner electric reasonable in design, that have good reliability and security to heat safety control circuit.

For achieving the above object, technical scheme provided by the utility model is: a kind of air conditioner electric heating safety control circuit, comprise electric heating tube, controller, phase inverter, be respectively used to the first electrical heating relay and the second electrical heating relay that control described electric heating tube two ends and electrical network closed and disconnected for a pair, the blower fan relay be connected with control rotation speed of fan circuit and electrical-heating control circuit, first output of wherein said controller is connected with the first electrical heating relay by described phase inverter, for controlling this first electrical heating relay adhesive or disconnection, second output of this controller is connected with described second electrical heating relay by described electrical-heating control circuit simultaneously, for controlling this second electrical heating relay adhesive or disconnection, 3rd output of described controller is also connected with electrical-heating control circuit with blower fan relay by described phase inverter.

Further, described blower fan relay is three and coordinates the high wind relay, apoplexy relay and the low wind relay that are connected respectively with rotation speed of fan circuit, is respectively used to control blower fan and carries out work with different rotating speeds.

Again further, described electrical-heating control circuit respectively by three diodes and described high wind relay, apoplexy relay is corresponding with low wind relay is connected, wherein the positive pole of three described diodes is connected with described electrical-heating control circuit, its negative pole respectively with described high wind relay, apoplexy relay is corresponding with low wind relay is connected.

This programme is by adopting more complicated logic circuit structure, and namely circuit must meet multiple condition simultaneously, and electrical heating relay can be energized closed, concrete, be respectively used to for a pair control electric heating tube two ends and the first electrical heating relay of electrical network closed and disconnected and the double relay version of the second electrical heating relay by adopting, can effectively prevent relay from causing the possibility of air-conditioner Automatic-heating because of bonding, after above-mentioned second relay simultaneously in this programme passes through the version adopting blower fan relay and air-conditioning draught fan to link, second electrical heating relay is only when air-conditioning draught fan runs, ability action, and then more further improve the safe class of whole heating control circuit, thus better can protect the unexpected adhesive of electrical heating relay.

Accompanying drawing explanation

Fig. 1 is principle frame structure schematic diagram of the present utility model.

Fig. 2 is electrical block diagram of the present utility model.

Detailed description of the invention

Below in conjunction with specific embodiment, the utility model is described in further detail:

Shown in attached Fig. 1 and 2, a kind of air conditioner electric heating safety control circuit described in the present embodiment, it comprises electric heating tube 1, controller 2, phase inverter 3, be respectively used to the first electrical heating relay J 1 and the second electrical heating relay J 2 controlling these electric heating tube 1 two ends and electrical network closed and disconnected for a pair, the blower fan relay 5 be connected with control rotation speed of fan circuit and electrical-heating control circuit 4, first output of its middle controller 2 is connected with the first electrical heating relay J 1 by phase inverter 3, for controlling this first electrical heating relay J 1 adhesive or disconnection, second output of this controller 2 is connected with the second electrical heating relay J 2 by electrical-heating control circuit 4 simultaneously, for controlling this second electrical heating relay J 2 adhesive or disconnection, 3rd output of controller 2 is also connected with electrical-heating control circuit 4 with blower fan relay 5 by phase inverter 3.In addition, the blower fan relay 5 in this programme is three and coordinates the high wind relay J 3, apoplexy relay J 4 and the low wind relay J 5 that are connected respectively with rotation speed of fan circuit, is respectively used to control blower fan and carries out work with different rotating speeds, simultaneously, in order to make above-mentioned high wind relay J 3, apoplexy relay J 4 and low wind relay J 5 do not affect in the course of the work separately mutually mutually, and himself also can not be breakdown when even if its emitter junction of triode Q1 in electrical-heating control circuit 4 ends, therefore this programme at above-mentioned electrical-heating control circuit 4 respectively by three diodes and this high wind relay J 3, apoplexy relay J 4 is connected with low wind relay J 5 correspondence, wherein the positive pole of three diodes is connected with electrical-heating control circuit 4, its negative pole respectively with high wind relay J 3, apoplexy relay J 4 is connected with low wind relay J 5 correspondence.

Preferred concrete implementing circuit schematic diagram please refer to shown in accompanying drawing 2: its output port of controller 2 S1 formed with single-chip microcomputer meets the input port pin IN7 of phase inverter 3, the output port pin OUT7 of phase inverter 3 connects coil one end of the first electrical heating relay J 1, and the coil other end of the first electrical heating relay J 1 is connected to 12V positive source; The output port S2 of controller connects the one end of resistance R1 in electrical-heating control circuit 4, the base stage of another termination triode of resistance R1 Q1, the colelctor electrode of triode Q1 connects one end of the second electrical heating relay J 2 coil, and the other end of the second electrical heating relay J 2 coil is connected to 12V positive source.The output port S3 of controller 2 meets the input port pin IN6 of phase inverter 3, and the output port pin OUT6 of phase inverter 3 connects one end of high wind relay J 3 coil, and the other end of high wind relay J 3 coil is connected to 12V positive source; The output port S4 of controller 2 meets the input port pin IN5 of phase inverter 3, and the output port pin OUT5 of phase inverter 3 connects one end of apoplexy relay J 4 coil, and the other end of apoplexy relay J 4 coil is connected to 12V positive source; The output port S5 of controller 2 meets the input port pin IN4 of phase inverter 3, and the output port pin OUT4 of phase inverter 3 connects one end of low wind relay J 5 coil, and the other end of low wind relay J 5 coil is connected to 12V positive source.The emitter stage of triode Q1 connects the positive pole of diode D2, D3 and D4, the negative pole of diode D2 meets the output port pin 0UT6 of phase inverter 3, the negative pole of diode D3 meets the output port pin OUT5 of phase inverter 3, the negative pole of diode D4 meets the output port pin OUT4 of phase inverter 3, one end, contact of second electrical heating relay J 2 is connected with the live wire L of electrical network, and the other end is connected with one end of electric heating tube 1; One end, contact of first electrical heating relay J 1 is connected with the zero line N of electrical network, and its other end is connected with the other end of electric heating tube 1.

When air-conditioning works in a heating mode, controller 2(single-chip microcomputer) output port S1 be high level, export high level that single port S1 exports after the inverting function of phase inverter 3, the output port pin OUT7 of phase inverter 3 is end level, and the first electrical heating relay J 1 is energized adhesive; The output port S2 of controller 2 is also high level, this is high level with regard to making the base stage of triode Q1, meanwhile, when room conditioning ventilator selection is high wind pattern, then the output port S3 of controller 2 exports as high level equally, and after the inverting function of phase inverter 3, the output port pin OUT6 output low level of phase inverter 3, and then high wind relay J 3 is energized adhesive.The emitter stage of triode Q1, because of diode D2 forward conduction, makes to launch very low level, triode Q1 conducting, and the second electrical heating relay J 2 is energized adhesive, thus electric heating tube 1 and high wind blower fan are brought into operation work.Equally, when room conditioning ventilator selection be apoplexy or low wind pattern time, the startup operation principle of electric heating tube is identical with the above-mentioned principle of process, just no longer describes at this.

Time under air-conditioning is in standby mode, when causing output port S1 and S2 of controller 2 to be all high level due to certain factor, first electrical heating relay J 1 is energized adhesive, but because its output port of controller 2 S3, S4 and S5 are that low level is (under namely air-conditioning is in standby mode, the blower fan of air-conditioning is in the state of quitting work), after by the anti-phase output of phase inverter 3, make the transmitting very high level of triode Q1, therefore Q1 cut-off, and then the second electrical heating relay J 2 can not be energized adhesive, thus electric heating tube 1 can not be worked.In addition, even if corresponding on controller 2 is all high level for controlling output port S3, S4 or S5 of high wind relay J 3, apoplexy relay J 4 and low wind relay J 5, electric heating tube 1 is caused to be energized work, but corresponding blower fan is also in running order, and the temperature anomaly of whole air-conditioning therefore can not be caused to raise simultaneously.

Compared with prior art, this programme makes the security of the electrical-heating control circuit on air-conditioning obtain great lifting, is embodied in: the relay adhesion probability 1, in this programme have dropped 50%(owing to have employed the form of double relay structure); 2, safe class promotes 150%(due to after needing guarantee first electrical heating relay J 1, second electrical heating relay J 2 and corresponding blower fan relay conducting during its work of the electric heating tube in this programme, and it just can be started working).

The examples of implementation of the above are only the preferred embodiment of the utility model, not limit practical range of the present utility model with this, therefore the change that all shapes according to the utility model, principle are done, all should be encompassed in protection domain of the present utility model.

Claims (3)

1. an air conditioner electric heating safety control circuit, it is characterized in that: comprise electric heating tube, controller, phase inverter, be respectively used to the first electrical heating relay and the second electrical heating relay that control described electric heating tube two ends and electrical network closed and disconnected for a pair, the blower fan relay be connected with control rotation speed of fan circuit and electrical-heating control circuit, first output of wherein said controller is connected with the first electrical heating relay by described phase inverter, for controlling this first electrical heating relay adhesive or disconnection, second output of this controller is connected with described second electrical heating relay by described electrical-heating control circuit simultaneously, for controlling this second electrical heating relay adhesive or disconnection, 3rd output of described controller is also connected with electrical-heating control circuit with blower fan relay by described phase inverter.

2. a kind of air conditioner electric heating safety control circuit according to claim 1, it is characterized in that: described blower fan relay is three and coordinates the high wind relay, apoplexy relay and the low wind relay that are connected respectively with rotation speed of fan circuit, be respectively used to control blower fan and carry out work with different rotating speeds.

3. a kind of air conditioner electric heating safety control circuit according to claim 2, it is characterized in that: described electrical-heating control circuit respectively by three diodes and described high wind relay, apoplexy relay is corresponding with low wind relay is connected, wherein the positive pole of three described diodes is connected with described electrical-heating control circuit, its negative pole respectively with described high wind relay, apoplexy relay is corresponding with low wind relay is connected.