KR20000041651A - Control method for preventing air conditioner connecting terminal from overheating - Google Patents

Abstract

PURPOSE: A control method is provided to prevent an air conditioner power connecting terminal form overheating caused by increase of contact resistance. CONSTITUTION: A connecting terminal electrically connects the indoor unit and the outdoor unit of an air conditioner. A temperature sensor is installed inside the connecting terminal to detect the temperature of the connection terminal. A controller compares the temperature with the first set temperature. When the temperature reaches the first set temperature since the temperature rises, a relay is turned on and intercepts power to the outdoor unit and the indoor unit. After that, the temperature sensor detects temperature of the connecting terminal again and the controller compares the temperature with the second set temperature. When the temperature reaches to the second set temperature with the temperature falling, the relay is turned off and supplies power to the outdoor unit and the indoor unit.

Description

How to control overheating of air conditioner connection terminal

The present invention relates to a separate type air conditioner, and in particular, in a power line connection terminal that electrically connects an indoor unit and an outdoor unit to supply operating power, a fire may be caused by heat generated by an increase in contact resistance between a contact point of a connecting terminal and a power cable. The present invention relates to a method for controlling overheating of an air conditioner connecting terminal that can eliminate the possibility.

General indoor unit and outdoor unit separate air conditioner devices are connected by a refrigerant pipe constituting a refrigerant circuit. The refrigerant circuit of the air conditioner includes an electric motor unit, a compression unit driven by the electric motor unit, a four-way valve for suppressing vibration and noise caused by pulsation of refrigerant discharged from the compressor of the compression unit, an outdoor unit side heat exchanger, and a cap It consists of a lari tube and an electronic open / close valve.

1 is a block diagram of a control circuit of an air conditioner. As referred to herein, the left side of the center represents an indoor unit control circuit and the right side represents an outdoor unit control circuit, and both control circuits are electrically connected through a power supply power line and a control signal line.

On the indoor unit side, the rectifier circuit 11, the motor power supply circuit 12, the control power supply circuit 13, the electric motor driving circuit 15, the switch section 17, the receiving circuit 18a, the display section 18 and the flap An electric motor 19 is installed.

The rectifier circuit 11 rectifies the commercial AC voltage input through the plug 10a. The motor power supply circuit 12 adjusts the DC voltage supplied to the DC fan motor 16 to a voltage of a constant magnitude (10-36V). The DC fan motor 16 ejects cooling air into the room in accordance with a signal transmitted from the microcomputer 14.

The control power supply circuit 13 generates a Vcc (5V) DC voltage supplied to the microcomputer 14. The electric motor driving circuit 15 controls the timing of driving of the DC fan electric motor 16 in response to a signal from the microcomputer 14 based on the rotation position information of the DC fan electric motor 16.

The switch unit 17 is fixed to the operation panel of the indoor unit and includes an on / off switch and a start operation switch.

The receiving circuit 18a receives a remote control signal such as an on / off signal, a cooling / blowing switching signal, or an indoor temperature setting signal from the wireless remote control device 60. The display unit 18 including the reception circuit displays the operation state of the air conditioner.

The flap motor 19 functions to operate the flap to change the blowing direction of the cold air.

The control circuit is provided with a room temperature sensor 20 for measuring room temperature, a heat exchanger temperature sensor 21 for measuring a room temperature, and a humidity sensor 22 for measuring humidity in a room.

The measurement values detected by these sensors are analog / digital converted and input to the microcomputer 14, and the control signals from the microcomputer 14 are transmitted to the outdoor unit side through the serial transmission circuit 23 and the terminal plate T4.

The outdoor unit is connected to the terminal plates T1 ', T2', T3 'and T4' of the outdoor unit, respectively, and the terminal plates T1, T2, T3 and T4 on the indoor unit side are respectively connected to the terminal plates T1 'and T2. And a varistor 31, a noise filter 33, a reactor 34, a voltage divider 35 for doubling the voltage, a noise filter 36, and a ripple filter 37.

The serial transmission circuit 39 is a circuit for converting the control signal supplied from the indoor unit via the terminal plate T4 ', and the converted signal is transmitted to the microcomputer 41.

The current detector 40 is a current detector that detects the current supplied to the load in the outdoor unit and the current transformer (CT) 33 and rectifies the current at a DC voltage and gives the value to the microcomputer 41.

The switching power supply circuit 42 is a circuit for generating electric power for operation of the microcomputer 41, and the motor drive device 38 is supplied to the compressor 43 based on a control signal from the microcomputer 41. It is in charge of PWM control of power.

Six electric shock transistors of the electric motor drive device 38 comprise what is called an inverter device connected in the form of a three-phase bridge.

The compressor motor 43 operates the compressor 1 in the refrigerating cycle, and the discharge side temperature sensor 44 detects the temperature of the refrigerant on the discharge side of the compressor.

The fan motor 45 is controlled in three stages to blow air to the outdoor unit, and the four-way valve 3 and the solenoid valve 10 switch the refrigerant passage of the refrigerating cycle.

In the outdoor unit, an outdoor temperature sensor 48 for detecting the outdoor temperature is disposed close to the air intake port, and an outdoor unit temperature sensor 49 for detecting the temperature of the outdoor unit is disposed.

The detected values obtained by these temperature sensors 48 and 49 are A / D converted and input to the microcomputer 41.

However, in the above-described outdoor unit and indoor unit separate air conditioner system, there is a contact resistance at a power connection terminal that distributes power to each indoor and outdoor unit, and the contact resistance is increased when the connection state between the connection terminal and the power cable is incomplete. The heat is generated here.

Since the heat generated from the power cable connection terminal is continuous, there is a high risk of overheating and causing a fire.

An object of the present invention is to prevent heat in advance due to the increase in contact resistance at the power connection terminal for connecting the power cable for connecting the indoor and outdoor air of the air conditioner and to prevent the possibility of fire due to overheating according to the continuous heating state It is to provide an overheat prevention control method of the air conditioner connecting terminal for the purpose.

1 is a circuit diagram illustrating a connection relationship between an indoor unit and an outdoor unit of a general split type air conditioner.

2 is a circuit diagram for blocking heat generation in the air conditioner power connection terminal according to the present invention.

3 is an explanatory view of the installation structure of the temperature sensor used in the present invention.

Figure 4 is a flow chart for explaining the overheat prevention control process according to the present invention.

※ Explanation of symbols about main part of drawing ※

100: indoor unit 101: connection terminal

102: temperature sensor 103: compressor contact

104: comparator 105: transistor

106: relay 107: relay contact

The present invention for achieving the above object is a first step of detecting the temperature of the connection terminal using a temperature sensor inside the connection terminal for electrically connecting the indoor unit and the outdoor unit of the air conditioner and comparing the first set temperature value; In the first step, when the detection temperature of the connection terminal rises to reach the first set temperature value, the relay is turned on to cut off the power supply to the indoor outdoor unit by the contact point, and after the second step is performed. A third step of detecting the temperature of the terminal and comparing it to a second set temperature value; and in the third step, when the detected temperature of the connection terminal falls and reaches the second set temperature value, the relay is turned off to the indoor / outdoor by its contact point. Characterized in that it comprises a fourth step of the power supply is made.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

2 is a circuit diagram for blocking heat generation in the air conditioner power connection terminal according to the present invention.

As referred to herein, each terminal plate (T1, T2, T3) of the connecting terminal 101 for electrically connecting the air conditioner indoor unit 100 and the outdoor unit has a power input cable including a ground line and a power input cable of the outdoor unit; Connect the power input cable of indoor unit to be connected in common.

At this time, a contact 107 of the relay is installed between the terminal board T1 or T2 except for the ground terminal board T2 of the connection terminal 101 and the power outlet.

The contact point 107 of the relay is switched according to whether the relay 106 is driven, and the relay 106 is connected so that its operation is determined by the output of the transistor 105.

The transistor 105 is connected to be driven by the Schmitt trigger circuit 108 that outputs an upper and lower limit value, the Schmitt trigger circuit 108 is a constant buffer area, i.e., the first to the change of the output value of the comparator 104 It is configured to output with the area created by the set temperature value and the second set temperature value.

The power input signal passing through the compressor contact 103 is configured to be applied to the indoor unit through the terminal plate T4 of the connection terminal 101.

In particular, a temperature sensor 102 is provided between the connection terminals 101, as shown in FIG. Such a temperature sensor is preferably buried so that the internal temperature of the connection terminal can be detected faithfully.

The temperature value of the connection terminal 101 detected by the temperature sensor 102 is compared with the reference temperature value Vref in the comparator 104, and configured to determine whether the current temperature reaches the set reference temperature value. do.

The temperature sensor uses an NTC element or a PTC element, and may also use a thermocouple and bimetal.

When using a thermocouple as a temperature sensor, an amplifier circuit for amplifying the signal voltage is required. However, if a mechanical temperature sensor such as bimetal is used, its mechanical contact can be used as a switch for voltage control for driving a relay, so that an additional device such as a circuit component or an amplifier circuit will not be required.

The overheat prevention control process of the present invention based on the overheat monitoring circuit configured as described above is as follows.

When input power through the power cord is supplied to each indoor unit and the outdoor unit through the connection terminal 101, heat is generated when a contact resistance is generated between the connection terminal and the power cable.

Heat generated at the connection terminal 101 is detected by the temperature sensor 102 to obtain a voltage value.

The temperature proportional voltage detection value is input to the comparator 104 is compared to the set voltage value corresponding to the reference temperature value and the comparison result value is input to the Schmitt trigger 108. At this time, the Schmitt trigger outputs the upper and lower limits for one comparison detection logic output value, thereby controlling the transistor 105 on / off at the first and second set temperature values.

Therefore, when the temperature of the connection terminal exceeds the reference temperature, the transistor 105 is turned on to drive the relay 106, so that the contact 107 is opened to cut off the power supplied to the air conditioner.

After that, when the temperature of the connection terminal 101 decreases, the relay 106 will be turned off, and thus its contact point 107 will be closed so that operating power is supplied to the indoor and outdoor units of the separate air conditioner.

4 is a flowchart for explaining the flow of the present invention.

As referred to herein, in the first step, the temperature of the connection terminal is detected using a temperature sensor mounted inside the connection terminal electrically connecting the indoor unit and the outdoor unit of the air conditioner, and the detected temperature of the connection terminal (T ) Is compared to the first set temperature value to determine whether the temperature of the current terminal has reached the first set temperature (T1). Here, the 1st set temperature is set to 60 degreeC illustratively.

In the second step, when the temperature of the connection terminal detected in the first step rises and reaches the first set temperature value, the relay is turned on to cut off the power supply to the indoor outdoor unit by opening the contact point.

In the third step, after performing the second step, the temperature T of the connection terminal is detected and compared to the value of the second set temperature T2 to determine whether the elevated terminal temperature is lowered to the second set temperature. Here, the first preset temperature may be set to 40 ° C. for example.

In the fourth step, when the temperature of the connection terminal detected in the third step decreases to reach the second set temperature value, the relay is turned off to supply power to the indoor outdoor unit by closing the contact point.

Through the continuous execution of these steps, if heat is generated in the connection terminal, it is detected early and the connection terminal cooling process is repeated according to the interruption of the power supply, thereby avoiding overheating at the connection terminal that supplies the operating power to the indoor and outdoor units of the air conditioner. You can do it.

According to the present invention as described above, when the heat generation occurs due to an increase in contact resistance between the power cable and the connection terminal in the power cable connection terminal for transmitting the power of the indoor unit of the separate air conditioner to the outdoor unit, When the supply is automatically cut off and the cooling is below a certain level, the power supply to the outdoor air is restarted again, thereby exhibiting a unique effect of preventing a fire accident due to overheating of the air conditioner connection terminal.

Claims (1)

In a separate air conditioner system for an indoor unit and an outdoor unit, a first step of detecting a temperature of the connection terminal by using a temperature sensor installed inside the connection terminal electrically connecting the indoor unit and the outdoor unit of the air conditioner and comparing it to a first set temperature value And, in the first step, when the detection temperature of the connection terminal rises to reach the first set temperature value, the relay is turned on to cut off the power supply to the indoor outdoor unit by the contact point, and after the second step is performed. A third step of detecting the temperature of the connection terminal and comparing it to a second set temperature value; and in the third step, when the detection temperature of the connection terminal decreases and reaches the second set temperature value, the relay is turned off so that the contact point is And a fourth step of supplying power to the air conditioner.