KR20080059912A - Air condition - Google Patents

Abstract

An air conditioner is provided to reduce power consumption and to prevent damage to a load by sensing short-circuit of an N terminal and preventing overcurrent from being supplied to the load. An air conditioner comprises a drive unit, a sensing unit(120), a control unit(130), and a switch unit. The drive unit is operated by receiving three-phase power. The sensing unit senses an error of three-phase power, and outputs a sensing signal. The control unit outputs a control signal and cut off three-phase power supplied to the drive unit using the switch unit on the basis of the sensing signal.

Description

Air Conditioner

1 is a perspective view showing a first embodiment of the configuration of an air conditioner according to the present invention.

2 is a block diagram showing a first embodiment of a part of an air conditioner according to the present invention.

3 is a circuit diagram showing a first embodiment of a sensing device of an air conditioner according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: indoor unit 12: indoor heat exchanger

14: indoor blowing fan 20: outdoor unit

22: outdoor heat exchanger 24: outdoor blower fan

26 compressor 31 temperature sensor

35: temperature measuring part 41: operation part

42: remote control 100: power supply

110: operating device 120: sensing device

125: determination unit 130: control device

140: switch device ZD1, ZD2: first, second diode

C1, C2: first and second capacitors R1, R2: first and second resistors

B1: Inverter OP: Comparison Means

The present invention relates to an air conditioner, and more particularly, to an air conditioner that detects an abnormality of a three-phase power source and cuts off the three-phase power source.

A general air conditioner is a device for treating intake air and supplying it to a building or a room to maintain indoor air in a comfortable condition. The air conditioner is classified into a separate type or a split type and a window type.

The separation type and the integrated type are functionally the same, but the separation type is provided with an indoor heat exchanger and an indoor blower in the room, and an outdoor heat exchanger, an outdoor blower, a compressor, and an expansion device are installed in the outside to separate the refrigerant pipes from each other. It is connected to the heat absorber in the indoor heat exchanger to radiate heat in the outdoor heat exchanger.

In addition, the integrated type is formed by the indoor side with the indoor heat exchanger and the indoor blower, and the outdoor side with the outdoor heat exchanger, the outdoor blower, the compressor, and the expansion mechanism. It was installed by foot.

The air conditioner according to the conventional invention is supplied to the three-phase four-wire power supply divided into R, S, T, N phase, the line voltage is 380V and the voltage between phases is 220V.

Here, the line voltage is a voltage between R phase and S phase, S phase and T phase, T phase and R phase, and the phase voltage is R phase and N phase, S phase and N phase, T phase and N phase. Is the voltage between.

Here, the three-phase four-wire voltage uses a single-phase 220V voltage to balance the load based on the N phase.

However, the air conditioner according to the conventional invention should be connected to the N-phase, if there is a problem that the load of 220V voltage rises up to a maximum 380V voltage, there is a problem that the burnout of the load is increased.

An object of the present invention is to provide an air conditioner that detects the abnormality of the three-phase power source and cuts off the three-phase power source.

The air conditioner of the present invention includes an operating device operating by receiving a three-phase power supply, a sensing device for detecting an abnormality of the three-phase power supply and outputting a detection signal, and the three-phase power supply operation based on the detection signal. And a control device for outputting a control signal to block supply to the device.

Hereinafter, an air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a first embodiment of the configuration of an air conditioner according to the present invention.

Referring to FIG. 1, an air conditioner according to the present invention includes an indoor unit 10 and an outdoor unit 20.

The indoor unit 10 includes an indoor heat exchanger 12 for exchanging heat between indoor air and a refrigerant, an indoor blower fan 14 for blowing the heat-exchanged indoor air, and a heater for heating the blown indoor air. ).

In addition, the outdoor unit 20 includes an outdoor heat exchanger 22 for exchanging heat with the outdoor air and a refrigerant, an outdoor blower fan 24 for blowing the heat exchanged outdoor air, and a compressor 26 for compressing the refrigerant. do.

Here, the indoor unit 10 is provided with a temperature sensor 31 for sensing the temperature of the indoor air, the temperature of the outdoor air is predicted by the operation rate of the compressor 26.

In addition, the indoor unit 10 is selected by the user to switch the operation method of the air conditioner to the customized operation, the on / off temperature of the compressor 26, the on / off temperature of the heater and the indoor blower fan 14 An operation unit 42 for inputting a setting value for the air flow RPM and the sleep reservation information, and a display unit 50 for displaying a setting screen according to the setting value and the sleep reservation information of the operation unit 42.

In addition, the air conditioner is remotely controllable, and includes a remote control 41 capable of remotely inputting the set value and the sleep reservation information like the operation unit 42.

FIG. 2 is a block diagram showing a first embodiment of a part of an air conditioner according to the present invention, and FIG. 3 is a circuit diagram showing a first embodiment of a sensing device of the air conditioner according to the present invention.

2 and 3, the air conditioner of the present invention detects the abnormality of the power supply unit 100 for supplying the three-phase power, the operation device 110 to operate by receiving the three-phase power, the three-phase power supply A sensing device 120 for outputting a sensing signal, and a control device 130 for outputting a control signal for blocking supply of the three-phase power to the operating device 110 based on the sensing signal. Based on the signal, the three-phase power supply comprises a switch device 140 to supply and cut off to the operating device (110).

The power supply unit 100 supplies the three-phase power to the operating device 110 through the R terminal R, the S terminal S, the T terminal T, and the N terminal N.

The operation device 110 is connected to at least two terminals of the R terminal R, the S terminal S, the T terminal T, and the N terminal N by the first and second voltages. It works.

Here, the first and second voltages are different voltages from each other.

In addition, the operation device 110 may include an R terminal R and an S terminal S, an S terminal S, a T terminal T, and a T terminal T to which the three-phase power of the power supply unit 100 is supplied. The line voltage between the R terminals R is the first voltage, and the R terminal R and the N terminal N, the S terminal S and the N terminal N, and the T terminal T and the N terminal N The second voltage is supplied between the phase voltages.

Here, the line voltage is 380V and the phase voltage is 220V.

In addition, the line / phase voltage is not limited thereto, and may be supplied with different voltages.

The sensing device 120 is connected between the R terminal R, the S terminal S, the T terminal T and the N terminal N, and the operating device 110, and the R terminal R and the S terminal S. ), The presence or absence of wiring of the N terminal (N) is detected by the voltage difference between the T terminal (T) and the N terminal (N).

In addition, the sensing device 120 includes a first capacitor C1 connected between the R terminal R and the N terminal N, and a second capacitor connected between the S terminal S and the N terminal N. FIG. And a determination unit 125 connected between the C terminal and the T terminal T and the N terminal N. FIG.

Here, the first and second capacitors C1 and C2 are connected between the R terminal R and the S terminal S and the N terminal N, so that when the N terminal N is disconnected, the 0 V induced voltage is applied to the sensing device. When this is supplied and the N terminal N is shorted, a predetermined voltage is induced.

In addition, when the N terminal N is short-circuited, the determination unit 125 may be connected between the T terminal T and the N terminal so that the voltage induced through the first and second capacitors C1 and C2 is equal to or greater than the first voltage. In the case where the first diode ZD1 and the N terminal N which are operated are short-circuited, a voltage connected between the T terminal T and the N terminal and induced through the first and second capacitors C1 and C2 is second. The first and second resistors R1 and R2 and the second diode ZD2 connected between the second diode ZD2, the N terminal N, and the first and second diodes ZD1 and ZD2 that operate when the voltage is higher than the voltage. And an inverter B1 connected between the second resistor R1 and a comparison means OP connected to the first resistor R1 and the inverter B1.

Here, when the N terminal N is short-circuited, the first and second capacitors C1 and C2 convert the first and second voltages charged through the R terminal R and the S terminal S to the N terminal N. It is supplied to the first and second diodes ZD1 and ZD2 connected to each other.

That is, the first and second diodes ZD1 and ZD2 are Zener diodes which are constant voltage diodes that are switched on when the voltages of the first and second voltages are supplied.

Here, each of the first and second diodes ZD1 and ZD2 has an anode connected to the first and second resistors R1 and R2 and a cathode connected to the T terminal T.

One side of the first and second resistors R1 and R2 is connected to the first and second diodes ZD1 and ZD2, and the other side thereof is connected to the N terminal N. In addition, the first and second resistors R1 and R2 are connected to the inverter B1 and the comparison means OP in parallel with the first and second diodes ZD1 and ZD2, respectively.

Here, the inverter B1 supplies the first signal to the comparing means OP when the second diode ZD2 is switched on, and compares the second signal when the second diode ZD2 is switched off. Supply to (OP).

The comparison means OP includes a first input terminal IN1 to which an on / off signal according to the switching operation of the first diode ZD1 is input, and a first to which the first and second signals output from the inverter B1 are input. And a second input terminal IN2 and an output terminal OUT1 for outputting the detection signal for the presence or absence of the abnormality of the three-phase power supply, based on the on / off signal and the first and second signals.

Here, the comparison means OP is configured to switch on the first diode ZD1 to input the ON signal to the first input terminal IN1, and to switch on the second diode ZD2 to operate the second input terminal ( When the first signal is input to IN2, since the N terminal N is short-circuited, the first sensing signal is output to the output terminal OUT1 by the control device 130.

In addition, in the comparison means OP, the first diode ZD1 is switched on and the ON signal is input to the first input terminal IN1, and the second diode ZD2 is switched off. When the second signal is input to IN2, since the N terminal N is in a normal state, the second detection signal is output to the output terminal OUT1 by the control device 130.

The comparison means OP is an AND gate, but is not limited thereto, and an op amp and a nand gate may also be used.

Here, the control device 130 supplies a control signal for the switching operation of the switch device 140 based on the first and second sensing signals.

That is, the control device 130 supplies the control signal that the switch device 140 is switched off when the first detection signal is input, and the switch device 140 is switched on when the second detection signal is input. Supply the control signal.

The switch device 140 is at least one switch, and is connected to the R terminal R, the S terminal S, and the T terminal T, respectively. Here, the switch device 140 may be a relay, an individual switch and other switch means.

Therefore, the present invention can detect the short-circuit of the N terminal (N) as compared with the conventional invention, it is possible to prevent the power consumption and breakage of the load by preventing the overvoltage is supplied to the load.

Although a preferred embodiment of the present invention has been described in detail above, those skilled in the art to which the present invention pertains can make various changes without departing from the spirit and scope of the invention as defined in the appended claims. It will be appreciated that modifications or variations may be made. Accordingly, modifications to future embodiments of the present invention will not depart from the technology of the present invention.

The air conditioner according to the present invention is to detect whether or not the short circuit of the N terminal to detect the abnormality of the three-phase power so that the three-phase power supply to the operating device normally through the R terminal, S terminal, T terminal and N terminal, When the terminal is short-circuited, the first and second sensing signals are output to prevent the overvoltage from being supplied to the load, thereby preventing power consumption and damage to the load due to the use of the product, thereby improving the merchandise and efficiency of the product.

Claims (11)

An operating device operated by being supplied with three-phase power; A sensing device for detecting an abnormality of the three-phase power and outputting a sensing signal; And And a control device outputting a control signal to block the three-phase power from being supplied to the operation device based on the detection signal. The method of claim 1, And a switch device for supplying and interrupting the three-phase power to the operating device based on a control signal of the control device. The method of claim 2, wherein the operation device, And the switch device is switched on to operate the first and second voltages in which the three-phase power supply is connected to at least two terminals of the R terminal, the S terminal, the T terminal, and the N terminal. The method of claim 3, wherein the sensing device, Connected between the R terminal, the S terminal, the T terminal, and the N terminal and the operating device, The air conditioner for detecting the presence or absence of the connection of the N terminal by the voltage difference between the N terminal, the R terminal, S terminal, T terminal. The method of claim 4, wherein the sensing device, A first capacitor connected between the R and N terminals; A second capacitor connected between the S and N terminals; And An air conditioner comprising a determination unit connected between the T, N terminals. The method of claim 5, wherein the determination unit, A first diode connected between the T and N terminals when the N terminal is shorted and operated when the voltage induced through the first and second capacitors is equal to or greater than a first voltage; A second diode connected between the T and N terminals when the N terminal is shorted and operated when a voltage induced through the first and second capacitors is greater than or equal to a second voltage; First and second resistors connected between the N terminal and the first and second diodes: An inverter connected between the second diode and the second resistor; And And a comparison means connected to the first resistor and the inverter. The method of claim 6, wherein the first and second diodes, And a constant voltage diode switched on when the first and second voltages are supplied. The method of claim 6, wherein the inverter, Outputting a first signal when the second diode is switched on, And outputting a second signal when the second diode is switched off. The method of claim 8, wherein the comparison means, A first input terminal configured to receive an on / off signal according to a switching operation of the first diode; A second input terminal to which the first and second signals output from the inverter are input; And And an output terminal configured to output the detection signal for the presence or absence of the abnormality of the three-phase power source based on the on / off signal and the first and second signals. The method of claim 9, wherein the comparison means, When an on signal is input to the first input terminal and the second signal is input to the second input terminal, a first sensing signal for the three-phase power is supplied to the controller, And a second sensing signal for the three-phase power supply to the controller when an off signal is input to the first input terminal and the first signal is input to the second input terminal. The method of claim 10, wherein the controller, An air conditioner for switching on the switch device when the first detection signal is input from the comparing means, and switching off the switch device when the second detection signal is input.

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