JP2510617B2 - Control device for air conditioner - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention is a control device for contact welding of switch means of an air conditioner, for example, a power relay.

[Conventional technology]

The conventional device is provided with an earth leakage breaker in addition to the magnet switch as described in Japanese Utility Model Laid-Open No. 61-177641, and when the contact of the magnet switch is welded, the earth leakage breaker is opened.

[Problems to be solved by the invention]

In the prior art described above, providing the switch of the second-stage compressor like an earth leakage breaker leads to an increase in size of the control device.
Eventually, it led to a larger air conditioner.

 An object of the present invention is to solve the above problems.

[Means for solving problems]

The above-mentioned object is to provide a compressor, a power relay for turning on and off the energization of the compressor, and an indoor heat exchanger whose temperature decreases during cooling operation by operating the compressor when the power relay is on. An indoor fan for sending indoor air to the indoor heat exchanger, a fan relay for turning on / off the power supply to the indoor fan, a room temperature detection circuit for detecting an indoor air temperature, and the indoor heat exchange A temperature detection circuit that detects the temperature of the air conditioner and a compressor off signal is output to the power relay when the room temperature detection circuit detects that the lower limit temperature of the indoor air temperature has reached during cooling operation, or the above when the operation is stopped. A control means for turning off the signal output to the power relay and the fan relay, and a warning means for giving a sound alarm for an abnormality in the temperature of the indoor heat exchanger detected by the temperature detection circuit are provided. The control means detects that the temperature of the heat exchanger has become equal to or lower than an arbitrary temperature from the temperature detection circuit when the signal output to the power relay and the fan relay is turned off when the operation is stopped. This is achieved by providing an air conditioner control device that outputs a warning signal to the warning means when a signal is input to warn with a sound.

[Action]

When the contact of the power relay is welded, the temperature of the indoor heat exchanger decreases because the compressor continuously operates even though the power relay output is off. When the temperature falls below an arbitrary temperature, a warning device such as a buzzer or bell sounds to alert the user of the abnormality, and the user shuts off the power to the air conditioner. The above cooling can be prevented.

Here, the temperature of the indoor heat exchanger may be lowered by the operation of the compressor when the power relay is turned on, and may reach an arbitrary temperature. In this case, however, it is not abnormal and no warning signal is issued. When the thermostat operates and the thermostat is off, that is, when the power relay output is off, the temperature of the indoor heat exchanger drops when the contacts of the power relay are welded, and therefore an abnormal warning signal is issued.

〔Example〕

An embodiment of the present invention will be described below with reference to FIGS. 1, 2, and 3. FIG.

During the cooling operation, as shown in FIG. 2, the compressor is turned on to perform cooling, and the room temperature gradually falls. Then, when the set lower limit temperature (T ₁ ) is reached, the compressor is turned off and the room temperature rises again. When the room temperature reaches the upper limit temperature (T _h ), the compressor is turned on again, and then the compressor is turned on and off in the same manner.

Here, it is assumed that the contact of the power relay is welded at point A. The power relay output turns off at point B when the room temperature reaches the lower limit temperature (T ₁ ), but the compressor remains on because the contacts are welded. Therefore, the heat exchanger temperature gradually decreases, but according to the protection function of the present invention, when the heat exchanger temperature reaches the arbitrary temperature (T _s ) at the point C, the buzzer output is turned on and the buzzer is turned on. Ring.

A circuit for controlling the operation as described above is shown in FIG. In FIG. 1, the room temperature detection circuit 1 is
In addition to the room temperature thermistor 2 as a temperature sensitive element, the resistor 3 and the capacitor 4 are included. The room temperature detection circuit 1 is connected to a microcomputer 15 (control means) via an analog / digital conversion circuit 5. The set temperature input circuit 6 is a circuit for setting the upper limit temperature (T _h ) and the lower limit temperature (T ₁ ) of the cooling temperature, and is connected to the microcomputer 15. Heat exchanger temperature detection circuit 7
Is composed of resistors 9, 10, 11, 12, 13 and a comparator 14 in addition to the thermistor 8 for the heat exchanger as a temperature sensitive element, and the output of the comparator 14 is the microcomputer.
Combined with 15. The output side of the microcomputer 15 is coupled to the compressor 12 via an inverter 17 and a power relay 19, and is coupled to an indoor fan 22 via an inverter 18 and a fan relay 20. The buzzer 16 is also connected to the output side.

In such a configuration, the analog signal from the room temperature detection circuit 1 is converted into a digital signal by the analog / digital conversion circuit 5 and input to the microcomputer 15 every moment. Further, from the set temperature input circuit 6, signals corresponding to the upper limit temperature (T _h ) and the lower limit temperature (T ₁ ) are input to the microcomputer 15.

Here, when the room temperature reaches the lower limit temperature (T ₁ ), the microcomputer 15 immediately outputs a compressor off signal, demagnetizes the power relay 19 via the inverter 17, and the compressor 21
To stop. When the room temperature reaches the upper limit temperature (T _h ), the microcomputer 15 immediately outputs the compressor on signal and the compressor 21 is turned on. Similarly, the compressor is repeatedly turned on and off.

However, if the contacts of the power relay 19 are welded,
Even if the microcomputer 15 outputs a compressor off signal to demagnetize the power relay 19 when the room temperature reaches the lower limit temperature (T ₁ ), the compressor remains energized and the cooling operation continues. The heat exchanger temperature detection circuit 7 has resistors 9 and 1
The outputs of the comparator 14 are set to Hi when the temperature of the thermistor 8 for the heat exchanger is lowered to an arbitrary temperature (T _s ) by 0, 11, 12, and 13. When the temperature of the heat exchanger drops due to continuous cooling operation and reaches an arbitrary temperature (T _s ), Hi is input from the heat exchanger temperature detection circuit 7 to the microcomputer 15 and immediately the microcomputer 15
The buzzer signal is output from 15, and the buzzer 16 continues to ring.

The above control is shown in a flowchart as shown in FIG.

According to the present embodiment, since the warning signal is the buzzer, the abnormality is more reliably transmitted to the user than the display lamp or the like.

As described above, although the embodiment during the cooling operation has been described,
The same effect can be obtained even while the operation is stopped. That is, when the operation is stopped, the power relay 19 from the microcomputer 15
The signal output to the fan relay 20 is turned off, but if the contact of the power relay 19 is welded, the compressor 21 continues to operate and the indoor fan 22 stops. Therefore, the temperature of the indoor heat exchanger drops sharply compared to the temperature during the operation in which the indoor fan 22 rotates to blow indoor air to the indoor heat exchanger. As a result, the moisture in the air condensed and adhered to the indoor heat exchanger freezes to become ice, and the growing ice makes it difficult for the cooling power of the indoor heat exchanger to reach the condensed water, and the condensed water does not freeze. Although the possibility of dripping increases, according to the present invention, the buzzer sounds when the temperature of the heat exchanger drops to an arbitrary temperature, so that an abnormality is transmitted to the creditors, and it is possible to perform cooling operation more than necessary. It can be prevented.

〔The invention's effect〕

According to the invention of the present application, when the signal output to the power relay and the fan relay is turned off when the operation is stopped, it is detected from the temperature detection circuit that the temperature of the indoor heat exchanger has become equal to or lower than an arbitrary temperature. When the control means inputs the signal, the control means outputs a warning signal to the warning means to warn by sound, so that the contact of the power relay causes welding and the compressor continuously operates. Even in such a case, the warning conveys the abnormality to the user,
It is possible to cut off the power to the air conditioner and prevent the cooling operation from continuing unnecessarily. Moreover, since it is possible to prevent the compressor from continuing to operate when the operation is stopped, it is possible to prevent dripping from the indoor heat exchanger.

[Brief description of drawings]

FIG. 1 is a circuit diagram of an embodiment of the present invention, FIG. 2 is a time chart of the circuit of FIG. 1, and FIG. 3 is a control flowchart of the present invention. 1 ... Room temperature detection circuit, 2 ... Room temperature thermistor, 5 ...
Analog-digital conversion circuit, 6 ... Set temperature input circuit, 8 ... Heat exchanger thermistor, 14 ... Comparator, 15 ... Microcomputer, 16 ... Buzzer, 17,
18 ... Inverter, 19 ... Power relay, 20 ... Farrelay, 21 ... Compressor, 22 ... Indoor fan.

Claims (1)

(57) [Claims] Claim: What is claimed is: 1. A compressor, a power relay for turning on and off the energization of the compressor, and an indoor heat exchange in which the temperature is lowered during a cooling operation by operating the compressor when the power relay is on. And an indoor fan for sending indoor air to the indoor heat exchanger, a fan relay for turning on and off the power supply to the indoor fan, a room temperature detection circuit for detecting indoor air temperature, and the indoor heat A temperature detection circuit that detects the temperature of the exchanger, and a compressor off signal is output to the power relay or the operation is stopped when the room temperature detection circuit detects that the lower limit temperature of the indoor air temperature has been reached during cooling operation. A control means for turning off the signal output to the power relay and the fan relay, and a warning means for giving a sound warning of an abnormality in the temperature of the indoor heat exchanger detected by the temperature detection circuit, The control means, when the signal output to the power relay and the fan relay is turned off when the operation is stopped,
An air conditioner characterized by outputting a warning signal to the warning means and issuing a sound when a signal is input from the temperature detection circuit to detect that the temperature of the indoor heat exchanger has dropped below an arbitrary temperature. Machine control device.