KR20050044160A - Air conditioner and control method thereof - Google Patents

Abstract

An air conditioner and a control method thereof are disclosed. The air conditioner and control method thereof according to the present invention improve the power supply structure so that power supply can be stably achieved in a multi-type air conditioner in which a plurality of indoor units are connected to and operated by a single outdoor unit through a communication line. Therefore, the object of the present invention is to enable efficient reset of outdoor units and indoor units even in an improved power supply structure. An air conditioner according to the present invention for this purpose includes an outdoor unit, at least one indoor unit, and a reset control unit. At least one indoor unit is connected to the outdoor unit via a communication line. The reset control unit is provided independently for each outdoor unit and at least one indoor unit to receive a reset signal transmitted through a communication line to reset the outdoor unit or at least one indoor unit.

Description

Air Conditioner and Control Method {AIR CONDITIONER AND CONTROL METHOD THEREOF}

The present invention relates to an air conditioner, and more particularly, to a multi-type air conditioner in which a plurality of indoor units are connected to and operated by one outdoor unit through a communication line and a refrigerant pipe.

In a multi-type air conditioner in which a plurality of indoor units are also connected to a single outdoor unit through a single communication line, a unique address is set for each indoor unit for smooth communication between the outdoor unit and the indoor units. When each indoor unit transmits a temporary address having a different value from each indoor unit to set an indoor unit address, the outdoor unit sets the received temporary address as a unique address of the indoor unit or a separate unique address corresponding to the received temporary address. To give it to the indoor unit.

In such a multi-type air conditioner, all outdoor units and indoor units each communicate and receive power through a single communication line and power line. Communication and power supply are led by the outdoor unit. In particular, a reset operation for initializing the control unit (microcom) provided for each indoor unit is not performed by the outdoor unit.

In the conventional multi-type air conditioner, the outdoor unit and indoor units are reset by turning off the power supplied to the outdoor unit and resuming the power supply. The collective reset of the outdoor unit led by the outdoor unit and the indoor units uses a single power line. This is possible because the structure is powered through.

The air conditioner and control method thereof according to the present invention improve the power supply structure so that power supply can be stably achieved in a multi-type air conditioner in which a plurality of indoor units are connected to and operated by a single outdoor unit through a communication line. Therefore, the object of the present invention is to enable efficient reset of outdoor units and indoor units even in an improved power supply structure.

An air conditioner according to the present invention for this purpose includes an outdoor unit, at least one indoor unit, and a reset control unit. At least one indoor unit is connected to the outdoor unit via a communication line. The reset control unit is provided independently for each outdoor unit and at least one indoor unit to receive a reset signal transmitted through a communication line to reset the outdoor unit or at least one indoor unit.

In the control method of the air conditioner according to the present invention configured as described above, any one of the outdoor unit and at least one indoor unit generates a reset signal and transmits it through the communication line, and the other of the outdoor unit and the at least one indoor unit uses the communication line. It is reset by receiving a reset signal sent over.

Another control method of the air conditioner according to the present invention is that when the power supply of the outdoor unit and at least one indoor unit is stopped and the power supply is resumed, the outdoor unit is first reset by resuming the power supply, and at least one reset outdoor unit is provided. To reset the indoor unit.

Another control method of the air conditioner according to the present invention is to set at least one of the plurality of indoor units as a master indoor unit, and to reset the outdoor unit when the indoor unit does not generate a reset signal for resetting the plurality of indoor units. Generates a reset signal, and the outdoor unit is reset by receiving a reset signal generated from the master indoor unit.

Another air conditioner according to the present invention includes an outdoor unit, at least one indoor unit, and a power supply. At least one indoor unit is connected to the outdoor unit through a communication line, and the power supply units allow power to be independently supplied to each of the outdoor unit and the at least one indoor unit.

Referring to Figures 1 to 7 a preferred embodiment of the air conditioner and the control method according to the invention made as described above are as follows. First, Figure 1 is a block diagram showing the configuration of a multi-type air conditioner according to an embodiment of the present invention. As illustrated in FIG. 1, the plurality of indoor units 104a to 104h and the single outdoor unit 102 are connected through the refrigerant pipe 108 to form one refrigerant cycle. In addition, the outdoor unit 102 and the plurality of indoor units 104a to 104h are commonly connected through one communication line 106 and communicate with each other through the initiative of the outdoor unit 102. Power supply devices 116 and 110a to 110h are independently provided for the outdoor unit 102 and the plurality of indoor units 104a to 104h to supply power to the outdoor unit 102 and each of the plurality of indoor units 104a to 104h independently. do. In addition, a circuit breaker 112 and 114a to 114h are connected to each of the outdoor unit 102 and the indoor units 104a to 104h, so that the outdoor unit 102 and each of the indoor units 104a to 104h are connected to each other. When abnormalities (such as lightning or overvoltage) occur, power supply to the outdoor unit 102 or the indoor units 104a to 104h is cut off by the breakers 112 and 114a to 114h.

As such, the power supply devices 116 and 110a to 110h and the circuit breakers 112 and 114a to 114h are provided in the outdoor unit 102 and the plurality of indoor units 104a to 104h, respectively. ) Need only have the power supply capacity of the size required by the outdoor unit 102, the power supply unit (110a ~ 110h) of each of the indoor units (104a ~ 104h) also needs each indoor unit (104a ~ 104h) All you need is a power supply of size. Therefore, the structure in which power is independently supplied to the outdoor unit 102 and each of the plurality of indoor units 104a to 104h is greater than that of the structure in which power is supplied to the respective indoor units 104a to 104h through the outdoor unit 102. The power supply burden is greatly reduced. In addition, since the breakers 112 and 114a to 114h are provided for each of the outdoor unit 102 and the plurality of indoor units 104a to 114h, the stability problem of the power supply is at each outdoor unit 102 and the indoor units 104a to 104h itself. The burden caused by ensuring the stability of the power supply of the outdoor unit 102 is also greatly reduced.

FIG. 2 is a block diagram showing the configuration of each of the outdoor unit 102 and the indoor units 104a to 104h of the multi-type air conditioner according to the embodiment of the present invention shown in FIG. 1, and shows components related to reset control. . Here, the reset is forcibly initialized when the control unit (microcomputer) provided in each of the outdoor unit 102 and the indoor units 104a to 104h does not operate normally to operate normally.

As shown in FIG. 2, each of the outdoor unit 102 and the indoor units 104a to 104h of the multi-type air conditioner according to the embodiment of the present invention has a reset control unit 202 and 212, a reset driving unit 204 and 214, and a control unit. 206 and 216 are provided.

The reset control unit 202 or 212 distinguishes the reset signal from other general communication signals, and generates reset control signals 202a and 212a when the reset signal is received. The controllers 206 and 216 correspond to a microcomputer and control overall operations of each of the outdoor unit 102 and the plurality of indoor units 104a to 104h. The reset drivers 204 and 214 reset the controllers 206 and 216 in response to the reset control signals 202a and 212a generated by the reset controllers 202 and 212. In particular, the reset driver 214 of the outdoor unit 102 responds to the change of the power source 208 input through the power supply 116 shown in FIG. 1 as well as the reset control signal 212a. 216). For example, the change in the power source 208 may be a power source voltage falling below the threshold level rises above the threshold level.

A communication line 106 is directly connected to each of the control units 206 and 216. Through such a structure, the control unit 206 and 216 has a reset signal corresponding to the reset signal currently transmitted through the communication line 106. You can judge the cognition. If the reset signal currently transmitted through the communication line does not correspond to itself, the controllers 206 and 216 are excluded from the reset target by rejecting the reception of the reset signal.

3 is a diagram showing the configuration of a reset signal transmitted through a communication line of the multi-type air conditioner according to the embodiment of the present invention shown in FIG. As shown in FIG. 3, the electrical characteristic of the reset signal 302 is that a voltage signal (for example, 5 V) at a constant level is maintained for a predetermined time tr. In order to distinguish the reset signal 302 and other general communication signals transmitted and received between the outdoor unit 102 and the plurality of indoor units 104a to 104h. In addition, the data signal 304 having the address of the outdoor unit 102 or the indoor units 104a to 104h to be reset is generated together in front of the reset signal 320. The outdoor unit 102 and the indoor units 104a to 104h refuse to receive the reset signal not including their own addresses, so that only the outdoor unit or the indoor unit which is not normally operated is reset in response to the reset signal.

4 is a view showing a reset control unit of the multi-type air conditioner according to the embodiment of the present invention shown in FIG. As shown in Fig. 4A, a 5V reference signal is input to the non-inverting input terminal (+) of the comparator 402a, and a communication signal transmitted through the communication line 106 is input to the inverting input terminal (-). . The reset signal has an electrical characteristic such that a DC voltage of 5 V is maintained for a predetermined time tr, and the reference signal also has this same electrical characteristic. The reset control unit 202 is an apparatus for detecting a reset signal in a communication signal transmitted through the communication line 106. When the reset signal is received via the communication line 106, the comparator 402a generates a positive reset control signal 202a to drive the reset driver 204. In this case, the reset driver 204 preferably drives the reset control signal 202a only when the reset control signal 202a maintains a positive value for a predetermined time tr in the same manner as the reset signal.

4B illustrates another configuration of the reset controller 202 and is based on the delay relay 402b. Since the delay relay 402b has a characteristic of being excited and turned on when a signal of a specific condition is input for a predetermined time, the delay relay 402b receives a communication signal by using the delay relay 402b, and the received communication signal corresponds to a reset signal. When the same electrical characteristic (for example, a DC voltage of 5V is maintained for a predetermined time) to be excited and turned on to generate the reset control signal 202a drives the reset driver 204 in response to the reset signal only. can do.

5 to 7 are flowcharts illustrating a control method of an air conditioner according to an embodiment of the present invention. 5 is a view showing that the indoor units 104a to 104h are reset by the driving of the outdoor unit 102. If the control unit of some or all of the indoor units 104a to 104h does not operate normally, a reset is required to initialize the unit and to operate it normally (502). The outdoor unit 102 generates an address data signal and a reset signal of the indoor unit in order to reset the indoor unit that does not operate normally (504). Since the indoor unit in which the control unit 206 does not operate normally cannot directly receive the reset signal, the reset control unit 202 and the reset driving unit 204 in front of it operate by the reset signal to reset the control unit 206 ( 506). That is, the indoor units that normally operate reject the reception because the address included in the reset signal is not their own, and thus the reset unit is reset only by inputting the reset signal to only the indoor units which do not operate normally.

6 is a view showing that the outdoor unit 102 and the indoor units 104a to 104h are reset when the power supply is interrupted and resumed due to a failure. When the power supply is interrupted due to lightning or abnormal voltage, all the outdoor units 102 and indoor units 104a to 104h do not operate (602). After the power supply is resumed (604), the control unit 216 of the outdoor unit 102 is first reset and restarted (606). As shown in FIG. 2B, the reset driver 214 of the outdoor unit 102 is not only reset control signal 212a but also changes in power 208 input through the power supply 116 shown in FIG. In response, since the controller 216 of the outdoor unit 102 is reset, the outdoor unit 102 is automatically reset in accordance with the resumption of power supply. Once the outdoor unit 102 is reset and restarted, each indoor unit 104a-104h is tracked while simultaneously resetting each indoor unit 104a-104h (608). The tracking of the indoor units 104a to 104h by the outdoor unit 102 is a task in which the outdoor unit 102 confirms the existence of the respective indoor units 104a to 104h through communication. At this time, the reset of the indoor units 104a to 104h is performed on the indoor units 104a to 104h whose existence is confirmed.

FIG. 7 is a diagram illustrating that the outdoor unit 102 is reset when the control unit 216 of the outdoor unit 102 does not operate normally. If the control unit 216 of the outdoor unit 102 that drives communication with the indoor units 104a to 104h does not operate normally, it may not reset itself as well as other indoor units (702). Therefore, as shown in 104a of FIG. 1, one of the indoor units 104a to 104h is set as the master indoor unit, and when the outdoor unit 102 does not operate normally, the master indoor unit 104a drives the reset of the outdoor unit 102. do. The master indoor unit 104a transmits a reset signal to the outdoor unit 102 to reset the outdoor unit 102 which does not operate normally (704). The outdoor unit 102 is reset 706 by the reset signal transmitted from the master indoor unit 104a. After the outdoor unit 102 is reset, the indoor units 104a to 104h are reset at the initiative of the outdoor unit 102, and the reset outdoor unit 102 determines whether there is an indoor unit to be reset (that is, an indoor unit that does not operate normally). In operation 708, if there is an indoor unit that does not operate normally, a reset signal is transmitted to the indoor unit (710). In preparation for the situation in which the outdoor unit 102 and the master indoor unit 104a do not operate normally, all the indoor units 104a to 104h are set as the master indoor unit, but the priority is set for each indoor unit 104a to 104h. If the previous indoor unit goes down, the next priority indoor unit operates as the master indoor unit, thereby increasing the stability of the reset control.

In the air conditioner and control method thereof according to the present invention, power is supplied to the outdoor unit and each indoor unit independently, thereby reducing the size of the power supply unit of the outdoor unit and reducing the stability burden of the outdoor unit. In addition, even in this improved power supply structure, since the outdoor unit and the indoor unit can be individually selected and reset, unnecessary restart time of the compressor provided in the outdoor unit can be reduced, and the number of restarts can be greatly reduced, which is more efficient. In addition, since the existing communication line is used as it is, no separate line extension for resetting is required in the individual power supply structure.

1 is a block diagram showing the configuration of a multi-type air conditioner according to an embodiment of the present invention.

Figure 2 is a block diagram showing the configuration of each of the outdoor unit and the indoor unit of the multi-type air conditioner according to the embodiment of the present invention shown in FIG.

3 is a view showing a waveform of a reset signal transmitted through a communication line of the multi-type air conditioner according to the embodiment of the present invention shown in FIG.

4 is a view showing a reset control unit of the multi-type air conditioner according to the embodiment of the present invention shown in FIG.

5 to 7 is a flow chart showing a control method of the air conditioner according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

102: outdoor unit

104a ~ 104h: Indoor unit

106: communication line

108: refrigerant tube

110a ~ 110h: power supply

112, 114a ~ 114h: Circuit Breaker

202 and 212: reset control unit

204, 214: reset driver (reset IC)

206, 216: control unit (microcomputer)

202a, 212a: reset control signal

204a, 214a: reset drive signal

Claims (26)

Outdoor unit; At least one indoor unit connected to the outdoor unit via a communication line; And a reset controller provided independently for each of the outdoor unit and the at least one indoor unit to receive a reset signal transmitted through the communication line to reset the outdoor unit or the at least one indoor unit. The method of claim 1, The at least one indoor unit is reset by a reset signal generated in the outdoor unit; And the outdoor unit is reset by a reset signal generated by the at least one indoor unit. The method of claim 2, When the at least one indoor unit is plural, at least one of the plurality of indoor units is set as a master indoor unit; And the master indoor unit generates a reset signal for resetting the outdoor unit. The method of claim 1, The outdoor unit and the at least one indoor unit each include a control unit; The reset signal is a signal for resetting the respective control unit. The method of claim 4, wherein The reset signal includes an address of a reset target outdoor unit or indoor unit; And only the outdoor unit or indoor unit designated by the address is reset in response to the reset signal. The method of claim 1, And the reset signal has an inherent electrical characteristic so as to be different from other general communication signals transmitted through the communication line. The method of claim 6, The outdoor unit includes a first reset control unit which determines whether the reset signal is included in a communication signal input through the communication line and generates a first reset control signal when it is determined that the reset signal is included; The at least one indoor unit includes a second reset control unit which determines whether the reset signal is included in a communication signal input through the communication line and generates a second reset control signal when it is determined that the reset signal is included. Air conditioner. The method of claim 7, wherein the first and second reset control unit, respectively, When a reference signal having the same electrical characteristics as the reset signal is input, and receives a communication signal transmitted through the communication line, and compares the reference signal with the communication signal and determines that the reset signal is generated, An air conditioner comprising a comparator for generating a reset control signal. The method of claim 7, wherein the first and second reset control unit, respectively, Receives a communication signal transmitted through the communication line, and is excited and turned on when the received communication signal has the same electrical characteristics as the reset signal to generate the first reset control signal and the second reset control signal, respectively. Air conditioner including a delay relay. The method of claim 9, Wherein the electrical characteristic of the reset signal is that a constant level voltage signal is maintained for a predetermined time. The method of claim 7, wherein the at least one indoor unit, A first reset driving unit generating a first reset driving signal for resetting the controller of the indoor unit itself; And the reset driving unit generates the first reset driving signal in response to the first reset control signal generated by the first reset control unit. The method of claim 7, wherein the outdoor unit, A second reset driving unit for generating a second reset driving signal for resetting the controller of the outdoor unit itself; And a second reset driving signal in response to at least one of the second reset control signal generated by the second reset control unit and a predetermined change in the supply power. At least one indoor unit is connected to the outdoor unit via a communication line, and the power is independently supplied to the outdoor unit and the at least one indoor unit, and the outdoor unit and the at least one indoor unit receive a reset signal transmitted through the communication line. In the control method of the air conditioner is reset by One of the outdoor unit and the at least one indoor unit generates and transmits a reset signal through the communication line; And the other of the outdoor unit and the at least one indoor unit is reset by receiving a reset signal transmitted through the communication line. The method of claim 13, wherein the at least one indoor unit, A controller for controlling the overall operation of the at least one indoor unit; A first reset driving unit generating a first reset driving signal for resetting the controller of the indoor unit itself; And the reset driving unit generates the first reset driving signal in response to the first reset control signal generated by the first reset control unit. The method of claim 13, wherein the outdoor unit, A controller for controlling the overall operation of the outdoor unit; A second reset driving unit for generating a second reset driving signal for resetting the controller of the outdoor unit itself; And a second reset driving signal in response to at least one of the second reset control signal generated by the second reset control unit and a preset change in the supply power. The method of claim 13, The reset signal includes an address of a reset target outdoor unit or indoor unit; And only the outdoor unit or indoor unit designated by the address is reset in response to the reset signal. At least one indoor unit is connected to the outdoor unit via a communication line, and the power is independently supplied to the outdoor unit and the at least one indoor unit, and the outdoor unit and the at least one indoor unit receive a reset signal transmitted through the communication line. In the control method of the air conditioner is reset by When the power supply of the outdoor unit and the at least one indoor unit is stopped and the power supply is resumed, the outdoor unit is first reset by resuming the power supply; And a control method of the air conditioner, wherein the reset outdoor unit resets the at least one indoor unit. The method of claim 17, And when the at least one indoor unit is plural, the outdoor unit restarted through the reset resets the plurality of indoor units while tracking the plurality of indoor units. The method of claim 17, wherein the at least one indoor unit, A controller for controlling the overall operation of the at least one indoor unit; A first reset driving unit generating a first reset driving signal for resetting the controller of the indoor unit itself; And the reset driving unit generates the first reset driving signal in response to the first reset control signal generated by the first reset control unit. The method of claim 17, wherein the outdoor unit, A controller for controlling the overall operation of the outdoor unit; A second reset driving unit for generating a second reset driving signal for resetting the controller of the outdoor unit itself; And a second reset driving signal in response to at least one of the second reset control signal generated by the second reset control unit and a predetermined change in the supply power. A plurality of indoor units are connected to the outdoor unit via a communication line, and the power is independently supplied to the outdoor unit and the plurality of indoor units, and the outdoor unit and the plurality of indoor units are reset by receiving a reset signal transmitted through the communication line. In the control method of the air conditioner, Setting at least one of the plurality of indoor units to a master indoor unit; The master indoor unit generates a reset signal for resetting the outdoor unit when the outdoor unit fails to generate a reset signal for resetting the plurality of indoor units; And the outdoor unit is reset by receiving a reset signal generated from the master indoor unit. The method of claim 21, The reset signal includes an address of a reset target outdoor unit or indoor unit; And only the outdoor unit or indoor unit designated by the address is reset in response to the reset signal. Outdoor unit; At least one indoor unit connected to the outdoor unit via a communication line; And a power supply unit configured to independently supply power to each of the outdoor unit and the at least one indoor unit. The method of claim 23, The outdoor unit power supply device has an air conditioner having a power supply capacity of a size corresponding to the amount of power required by the outdoor unit. The method of claim 23, And a breaker provided separately for each of the outdoor unit and the at least one indoor unit to cut off the power supply to the outdoor unit or the indoor unit when an abnormality in the power supplied to the outdoor unit and the indoor unit occurs. Outdoor unit; At least one indoor unit connected to the outdoor unit via a communication line; Power supply devices configured to independently supply power to each of the outdoor unit and the at least one indoor unit; And a reset control unit provided separately for each of the outdoor unit and the indoor unit to receive a reset signal transmitted through the communication line to reset the outdoor unit or the at least one indoor unit.