KR20110053089A - Air conditioning system and communicating method using refregerant pipes thereof - Google Patents

Abstract

PURPOSE: An air-conditioner performing reliable piping communications and a communicating method using refrigerant pipes are provided to improve the reliability of the piping communications by amplifying a communications signal based on the intensity of answer signal. CONSTITUTION: An air-conditioner comprises a transmission unit, a receiver, and a control unit. The transmission unit is respectively installed in an outdoor unit(200) and an indoor unit. The transmission unit amplifies and transmits communications signal according to the intensity of the communications signal. The receiver amplifies and receives the communications signal based on the intensity of the communications signal. The control unit determines the existence and intensity of communications signal and generates command based on the result of determine.

Description

AIR CONDITIONING SYSTEM AND COMMUNICATING METHOD USING REFREGERANT PIPES THEREOF}

The present invention relates to an air conditioner, and more particularly, to an air conditioner and a pipe communication method thereof capable of performing reliable pipe communication even in a long distance pipe or a pipe having a plurality of branches.

In general, an air conditioner includes an indoor unit and an outdoor unit to drive a cooling and heating cycle according to a user's request. At this time, the indoor unit and the outdoor unit are connected through a refrigerant pipe.

Recently, a multi-air conditioning system includes a control unit for connecting and controlling a plurality of multi-air conditioners and a plurality of multi-air conditioners, which are configured to share an outdoor unit for controlling the distribution and circulation of refrigerant and an indoor unit that is shared with the outdoor unit and discharge air to each chamber. It may also constitute a group. For example, as shown in FIG. 1, in a general air conditioner, a plurality of indoor units are connected to one outdoor unit through a refrigerant pipe.

On the other hand, the air conditioner performs cooling or heating in the room by circulating the refrigerant which is the working fluid in the order of the compressor, the condenser, the expansion valve, the evaporator, or vice versa. Such refrigerant is charged appropriately according to the capacity of the air conditioner when the air conditioner is installed. However, over time, that is, as the air conditioner continues to be used, the refrigerant is consumed and shortage occurs. If the refrigerant is insufficient, the efficiency of the air conditioner is reduced, so the refrigerant should be replenished to maintain an appropriate level. Accordingly, in order to properly maintain the insufficient refrigerant, a technology of injecting a refrigerant according to the capacity of the air conditioner and maintaining it has been developed.

Meanwhile, the refrigerant pipe connecting the outdoor unit to the indoor unit is pre-installed inside the building, and as the number of outdoor units and indoor units increases or the distance between the outdoor unit and the indoor unit increases, the length of the refrigerant pipe increases, and the number of branches increases. There is a problem.

Therefore, the piping communication method of the air conditioner and the air conditioner according to the prior art is a long distance piping, in the case of a pipe with a large number of branches, the distance between the outdoor unit and the indoor unit is far away, the strength of the communication signal is attenuated As a result, the reliability of piping communication is lowered, and precise distance measurement becomes difficult.

The present invention is to solve the above problems, by determining the presence or strength of the communication signal between the outdoor unit or indoor unit to perform a pipe communication by amplifying, transmitting or receiving a communication signal, it is possible to measure the pipe distance The present invention provides an air conditioner and a pipe communication method thereof.

An air conditioner according to the present invention for achieving the above object is installed in each of one or more outdoor units and one or more indoor units connected to the outdoor unit, and transmit or transmit the communication signal according to the strength of the communication signal, A transmitter which amplifies and transmits or transmits the communication signal, a receiver that receives the communication signal according to the strength of the communication signal, or a receiver that amplifies and receives the communication signal, determines the strength of the communication signal, and determines a determination result. And a communication device having a control unit for generating a control command on a basis.

In the air conditioner according to the present invention, the transmitting unit includes a DC-AC conversion unit for converting the communication signal into a communication AC signal, a transmission amplification unit for amplifying the communication AC signal, and the control command based on the control command. And a transmission selection unit for outputting one of the communication AC signal converted by the DC-AC conversion unit and the communication AC signal amplified by the amplification unit. The transmitter further includes a transmission amplification ratio conversion unit that converts an amplification ratio of the transmission amplification unit.

In the air conditioner according to the present invention, the receiving unit includes a receiving amplifying unit for amplifying the communication AC signal, an AC-DC conversion unit for converting the communication AC signal and the amplified communication AC signal into a received signal. It is configured to include. The receiving unit includes a reception amplification ratio conversion unit that converts the amplification ratio of the reception amplification unit.

In the air conditioner according to the present invention, the receiving unit comprises: a communication amplification unit which is one of a reception amplification unit for amplifying the communication ac signal, the communication ac signal, and a communication ac signal amplified by the reception amplification unit. And an AC-DC conversion unit for converting a communication AC signal selected through the reception selection unit into a reception signal.

According to an aspect of the present invention, there is provided a pipe communication method of an air conditioner, the outdoor unit or an indoor unit generating a communication signal, a first conversion step of converting the communication signal into a communication AC signal, and the communication. And a first amplifying step of amplifying an AC signal, an output step of outputting one communication AC signal among the communication AC signal converted in the first conversion step and the communication AC signal amplified in the first amplifying step. do. The pipe communication method may further include a second amplifying step of amplifying the communication AC signal output in the output step, a second conversion step of converting the communication AC signal or the amplified communication AC signal into a received signal; It further comprises an error determination step of determining the error of the received signal. The pipe communication method may further include a response step of outputting a response signal to the received signal.

In the piping communication method of the air conditioner according to the present invention, the method further comprises a first determination step of determining the strength of the response signal, wherein the first amplifying step, the communication based on the determination result of the first determination step Amplifying an AC signal. Here, the first amplification step may include a step of converting the amplification ratio.

In the pipe communication method of the air conditioner according to the present invention, the method further includes a second determination step of determining the strength of the received signal, wherein the second amplifying step is based on the determination result of the second determination step. Amplifying the communication AC signal output in the output stage. Here, the second amplifying step may include a step of converting the amplification ratio.

The pipe communication method of the air conditioner according to the present invention further comprises a transmission step of retransmitting the received signal to another outdoor unit or indoor unit.

In the air conditioner and the pipe communication method according to the present invention, when transmitting a communication signal, the reliability of the pipe communication is improved by amplifying and transmitting or retransmitting the communication signal based on the presence or absence of a response signal to the transmission signal. It is possible to improve the accuracy of pipe distance measurement.

In the air conditioner and the pipe communication method according to the present invention, when transmitting a communication signal, the reliability of the pipe communication is improved by amplifying and retransmitting the communication signal based on the strength of the received signal from another outdoor unit or indoor unit, Accurate pipe distance measurement is possible.

In the air conditioner and the pipe communication method according to the present invention, when receiving a communication signal, the strength of the communication communication is improved by amplifying and receiving the communication signal by determining the strength of the communication signal, and the advantages of enabling accurate pipe distance measurement. There is this.

Hereinafter, a pipe communication method of an air conditioner and an air conditioner according to the present invention will be described in detail with reference to the accompanying drawings. Hereinafter, the air conditioner composed of one outdoor unit and four indoor units connected to the outdoor unit as shown in FIG. 1 will be described, but the same may be described in other types of air conditioners or multi air conditioners.

2, at least one outdoor unit 200, at least one indoor unit 100 connected to the outdoor unit to perform air conditioning, and installed at each of the outdoor unit or indoor unit, the outdoor unit and the And a communication device 300 that transmits and receives a communication signal between indoor units to perform communication, and measures a distance between the outdoor unit and the indoor unit and the indoor units. The communication device 300 may be configured to transmit or transmit the communication signal according to the strength of the communication signal, a transmitter for amplifying and transmitting or transmitting the communication signal, and to receive the communication signal according to the strength of the communication signal, And a receiving unit for amplifying and receiving the communication signal, and a control unit 310 for determining the strength of the communication signal and generating a control command based on the determination result. As the communication signal, an RF signal, an ultrasonic signal, or the like may be used.

Referring to FIG. 3, in the air conditioner according to the present invention, the transmitting unit includes a DC-AC conversion unit 320 for converting the communication signal into a communication AC signal, and a transmission amplification unit for amplifying the communication AC signal. 330, a transmission selection unit 340 for outputting one of the communication AC signal converted by the DC-AC conversion unit and the communication AC signal amplified by the amplifying unit based on the control command. It is configured to include.

An operation in which the outdoor unit 200 performs communication with the indoor unit 100A will be described with reference to FIG. 3. The control unit 310 provided in the communication device of the outdoor unit 200 generates a communication signal. The DC-AC conversion unit 320 in the transmitter converts the generated communication signal into a communication AC signal so that it can be transmitted to the indoor unit 100A through a pipe. The control unit 310 transmits the converted communication AC signal to the indoor unit 100A. The indoor unit 100A receives the communication AC signal and then transmits a response signal to the outdoor unit 200 in response to the received communication AC signal. At this time, the control unit 310 of the outdoor unit 200 determines whether to perform the communication according to the arrival of the response signal. In addition, the control unit 310 of the outdoor unit 200 may determine whether to amplify when transmitting a communication signal to another indoor unit according to the strength of the response signal. In addition, the distance between the outdoor unit 200 and the indoor unit 100A may be measured based on the transmission / reception time of the communication signal.

Referring to FIG. 4, the transmitter includes a DC-AC conversion unit 320 for converting the communication signal into a communication AC signal, a transmission amplification unit 330 for amplifying the communication AC signal, and the control command. A transmission selection unit 340 for outputting a communication AC signal converted from the DC-AC conversion unit and one of the communication AC signals amplified by the amplification unit, and amplification of the transmission amplification unit. It is comprised including the transmission amplification ratio conversion unit 350 which converts a ratio.

An operation in which the outdoor unit 200 communicates with the indoor unit 100A will be described with reference to FIG. 4. The control unit 310 provided in the communication device of the outdoor unit 200 generates a communication signal. The DC-AC conversion unit 320 in the transmitter converts the generated communication signal into a communication AC signal so that it can be transmitted to the indoor unit 100A through a pipe. The control unit 310 transmits the converted communication AC signal to the indoor unit 100A. The indoor unit 100A receives the communication AC signal and then transmits a response signal to the outdoor unit 200 in response to the received communication AC signal. At this time, the control unit 310 of the outdoor unit 200 determines whether to perform the communication according to the arrival of the response signal. In addition, the control unit 310 of the outdoor unit 200 may determine whether to amplify when transmitting a communication signal to another indoor unit according to the strength of the response signal. In this case, the control unit 310 of the outdoor unit 200 may convert the amplification ratio by dividing the level of the intensity of the response signal. In addition, the distance between the outdoor unit 200 and the indoor unit 100A may be measured based on the transmission / reception time of the communication signal.

Referring to FIG. 5, in the air conditioner according to the present invention, the receiving unit receives a receiving amplifying unit 360 for amplifying the communication ac signal, the communication ac signal, and the amplified communication ac signal. It is configured to include an AC-DC conversion unit 370 to convert to.

Referring to FIG. 6, the receiver includes an amplification unit 360 for amplifying the communication AC signal, an AC-DC conversion unit for converting the communication AC signal and the amplified communication AC signal into a received signal ( 370 and a reception amplification ratio conversion unit 380 for converting the amplification ratio of the reception amplification unit.

An operation in which the indoor unit 100A performs communication with the indoor unit 100C will be described with reference to FIGS. 5 and 6. The control unit 310 provided in the communication device of the indoor unit 100A generates a communication signal. The DC-AC conversion unit 320 in the transmitter converts the generated communication signal into a communication AC signal so that it can be transmitted to the indoor unit 100C through a pipe. The control unit 310 transmits the converted communication AC signal to the indoor unit 100C. The indoor unit 100C receives the communication AC signal and then transmits a response signal to the indoor unit 100A in response to the received communication AC signal. That is, the receiver of the indoor unit 100C receives the communication AC signal transmitted from the indoor unit 100A, and amplifies the received communication AC signal through the receiving amplification unit 360. The receiving unit of the indoor unit 100C converts the received communication AC signal and the amplified communication AC signal through the AC-DC conversion unit 370 and communicates through the control unit 310 of the indoor unit 100C. Determine whether there is an error of the AC signal. The control unit 310 of the indoor unit 100C generates a control command for controlling the operation of the reception amplifying unit 360 based on the strength of the received communication AC signal. In addition, the control unit 310 of the indoor unit 100C generates a control command to convert the amplification ratio based on the strength of the received signal.

Referring to FIG. 7, the receiving unit selects one communication AC signal among a reception amplification unit for amplifying the communication AC signal, the communication AC signal, and a communication AC signal amplified through the reception amplification unit. And an AC-DC conversion unit for converting a communication AC signal selected through the reception selection unit into a reception signal.

For example, an operation in which the indoor unit 100B communicates with the outdoor unit 200 will be described. The control unit 310 provided in the communication device of the indoor unit 100B generates a communication signal. The DC-AC conversion unit 320 in the transmitter converts the generated communication signal into a communication AC signal to be transmitted to the outdoor unit 200 through a pipe. The control unit 310 transmits the converted communication AC signal to the outdoor unit 200. The outdoor unit 200 receives the communication AC signal, and then transmits a response signal to the indoor unit 100B in response to the received communication AC signal. That is, the receiver of the outdoor unit 200 receives the communication AC signal transmitted from the indoor unit 100B, and amplifies the received communication AC signal through the reception amplification unit 360. The reception selection unit 390 of the outdoor unit 200 selects the received communication AC signal or the amplified communication AC signal according to a control command of the control unit 310 of the outdoor unit and performs AC-DC current of the outdoor unit 200. It transfers to the conversion unit 370. The control unit 310 of the outdoor unit 200 determines whether the communication signal is an error.

An operation of retransmitting the received communication signal by the air conditioner according to the present invention will be described with reference to FIG. 8.

Referring to FIG. 8, the air conditioner according to the present invention is an operation in which the indoor unit 100C receives a communication signal generated and transmitted from the outdoor unit 200 and transmits it to the indoor unit 100D, and generates from the indoor unit 100D. The indoor unit 100C receives the received communication signal and transmits the communication signal to the outdoor unit 200 again. That is, when the distance between the outdoor unit 200 and the indoor unit 100D increases, the communication signal is attenuated so that the communication signal generated from the outdoor unit 200 is not transmitted to the indoor unit 100D or the indoor unit 100D. May not be transmitted to the outdoor unit 200. At this time, the indoor unit (100C) receiving the communication signal from the outdoor unit 200 determines the strength of the received communication signal, and if the strength of the communication signal is a predetermined level or more, and transmits to the indoor unit (100D) as it is, As a result of the determination, when the strength of the communication signal is smaller than a predetermined level, the signal is amplified and retransmitted to the indoor unit 100D. On the contrary, the indoor unit 100C also determines the strength of the signal generated by the indoor unit 100D and transmits the transmitted signal to the outdoor unit 200 as it is or amplifies the original signal according to the determination result.

The piping communication method of an air conditioner according to the present invention includes a generation step of generating a communication signal by an outdoor unit or an indoor unit, a first conversion step of converting the communication signal into a communication AC signal, and an amplification of the communication AC signal. And an output step of outputting a communication AC signal converted from the first amplification step, the communication AC signal converted in the first conversion step, and the communication AC signal amplified in the first amplification step. The pipe communication method may further include a second amplifying step of amplifying the communication AC signal output in the output step, a second conversion step of converting the communication AC signal or the amplified communication AC signal into a received signal; It further comprises an error determination step of determining the error of the received signal. The pipe communication method may further include a response step of outputting a response signal to the received signal. In the piping communication method of the air conditioner according to the present invention, the method further comprises a first determination step of determining the strength of the response signal, wherein the first amplifying step, the communication based on the determination result of the first determination step Amplifying an AC signal. Here, the first amplification step may include a step of converting the amplification ratio. In the pipe communication method of the air conditioner according to the present invention, the method further includes a second determination step of determining the strength of the received signal, wherein the second amplifying step is based on the determination result of the second determination step. Amplifying the communication AC signal output in the output stage. Here, the second amplifying step may include a step of converting the amplification ratio. The pipe communication method of the air conditioner according to the present invention further comprises a transmitting step of retransmitting the received signal to another outdoor unit or indoor unit. Hereinafter, the configuration of the apparatus will be described with reference to FIGS. 2 to 8.

Referring to FIG. 9, as an example of a transmission operation in a pipe communication method according to the present invention, the pipe communication method according to the present invention may include a generation step (S100) in which an outdoor unit or an indoor unit generates a communication signal, and the communication signal. A first conversion step (not shown) for converting to a communication AC signal, a first amplification step (S120) for amplifying the communication AC signal, a communication AC signal converted in the first conversion step, and the first amplification It comprises an output step (S130) for outputting one communication AC signal of the communication AC signal amplified in the step.

An operation in which the outdoor unit 200 communicates with the indoor unit 100A will be described by way of example. The outdoor unit 200 generates a communication signal, and then converts the generated communication signal into a communication AC signal so that the outdoor unit 200 can be transmitted to the indoor unit 100A through a pipe (S100). The outdoor unit 200 transmits the converted communication AC signal to the indoor unit 100A (S130). The indoor unit 100A receives the communication AC signal and then transmits a response signal to the outdoor unit 200 in response to the received communication AC signal. In this case, the outdoor unit 200 determines whether to perform communication according to whether the response signal arrives. In addition, the outdoor unit 200 may determine whether to amplify when transmitting a communication signal to another indoor unit according to the strength of the response signal. In addition, the distance between the outdoor unit 200 and the indoor unit 100A may be measured based on the transmission / reception time of the communication signal.

Referring to FIG. 10, as an example of a receiving operation in a pipe communication method according to the present invention, when the communication AC signal is input (S200), a second amplifying step of amplifying the communication AC signal is performed. (S220), a second conversion step (not shown) for converting the communication AC signal or the amplified communication AC signal into a received signal, and an error determination step (S230) for determining an error of the received signal. It is configured by.

An operation in which the indoor unit 100A communicates with the indoor unit 100C will be described by way of example. The indoor unit 100A generates a communication signal and converts the generated communication signal into a communication AC signal so that the indoor unit 100A can be transmitted to the indoor unit 100C through a pipe. The indoor unit 100A transmits the converted communication AC signal to the indoor unit 100C. The indoor unit 100C receives the communication AC signal and then transmits a response signal to the indoor unit 100A in response to the received communication AC signal. That is, the receiver of the indoor unit 100C receives the communication AC signal transmitted from the indoor unit 100A (S200), and amplifies the received communication AC signal (S220). The receiver of the indoor unit 100C converts the received communication AC signal and the amplified communication AC signal into a reception signal, and determines whether the received signal is in error (S230). The indoor unit 100C determines whether or not to amplify the communication AC signal and an amplification ratio based on the strength of the received communication AC signal (S210).

As described above, the air conditioner and pipe communication method thereof according to the present invention amplify and transmit or retransmit the communication signal based on the presence or absence of a response signal to the transmission signal when transmitting the communication signal, In the case of transmitting a communication signal, the communication signal is amplified and retransmitted based on the strength of the received signal from another outdoor unit or indoor unit, and when receiving the communication signal, the communication signal is amplified and received by determining the strength of the communication signal. It improves the reliability of pipe communication and enables accurate pipe distance measurement.

1 is a view schematically showing the configuration of a general air conditioner;

2 schematically shows the configuration of an air conditioner according to the present invention;

3 is a block diagram schematically showing an embodiment of a transmitting unit of the communication device in FIG. 2;

4 is a block diagram schematically showing another embodiment of a transmitting unit of the communication device in FIG. 2;

FIG. 5 is a block diagram schematically showing an embodiment of a receiving unit of the communication device in FIG. 2; FIG.

FIG. 6 is a block diagram schematically showing another embodiment of a receiver of a communication device in FIG. 2; FIG.

FIG. 7 is a block diagram schematically showing another embodiment of a receiving unit of the communication device in FIG. 2; FIG.

8 is a view for explaining an air conditioner and a pipe communication method thereof according to the present invention;

9 is a flowchart illustrating a transmission operation of a pipe communication method of an air conditioner according to the present invention;

10 is a flowchart illustrating a receiving operation of a pipe communication method of an air conditioner according to the present invention.

Claims (14)

Installed in each of one or more outdoor units and one or more indoor units connected to the outdoor unit, A transmitter for transmitting or transmitting the communication signal according to the strength of the communication signal, or amplifying and transmitting or transmitting the communication signal; A receiver which receives the communication signal according to the strength of the communication signal, or amplifies and receives the communication signal; And a control unit for determining the presence or absence of the communication signal and generating a control command based on the determination result. The method of claim 1, wherein the transmitting unit, A DC-AC conversion unit for converting the communication signal into a communication AC signal; A transmission amplifying unit for amplifying the communication AC signal; And And a transmission selection unit for outputting one of the communication AC signal converted by the DC-AC conversion unit and the communication AC signal amplified by the amplification unit, based on the control command. Air conditioner. The method of claim 2, wherein the transmitting unit, And a transmission amplification ratio conversion unit for converting an amplification ratio of the transmission amplification unit. The method of claim 2 or 3, wherein the receiving unit, A reception amplifying unit for amplifying the communication AC signal; And And an AC-DC conversion unit for converting the communication AC signal and the amplified communication AC signal into a reception signal. The method of claim 4, wherein the receiving unit, And a reception amplification ratio conversion unit for converting an amplification ratio of the reception amplification unit. The method of claim 2 or 3, wherein the receiving unit, A reception amplifying unit for amplifying the communication AC signal; A reception selection unit for selecting one communication AC signal among the communication AC signal and the communication AC signal amplified by the reception amplification unit; And And an AC-DC conversion unit for converting a communication AC signal selected through the reception selection unit into a reception signal. An air conditioner comprising one or more outdoor units and one or more indoor units connected to the outdoor unit, Generating the communication signal by the outdoor unit or the indoor unit; A first conversion step of converting the communication signal into a communication AC signal; A first amplifying step of amplifying the communication AC signal; And And an output step of outputting one communication AC signal of the communication AC signal converted in the first conversion step and the communication AC signal amplified in the first amplifying step. 8. The method of claim 7, A second amplifying step of amplifying the communication AC signal output in the output step; A second conversion step of converting the communication AC signal or the amplified communication AC signal into a received signal; And Error determination step of determining the error of the received signal; Pipe communication method further comprising. The method of claim 8, And a response step of outputting a response signal to the received signal. The method of claim 9, And a first determining step of determining the presence or absence of the response signal. The first amplification step, And amplifying the communication AC signal based on the determination result of the first determination step. The method of claim 8, And a second determining step of determining the strength of the received signal. The second amplification step, And amplifying the communication AC signal output in the output step based on the determination result of the second determination step. The method of claim 8, wherein the second amplifying step, A pipe communication method of an air conditioner, comprising the step of converting the amplification ratio. The method of claim 7, wherein the first amplification step, A pipe communication method of an air conditioner, comprising the step of converting the amplification ratio. The method according to any one of claims 8 to 13, And a transmission step of retransmitting the received signal to another outdoor unit or an indoor unit.

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