KR19980049976A - Data transmitting and receiving device and method of multi air conditioner - Google Patents

Abstract

The present invention relates to an apparatus for transmitting and receiving data of a multi-air conditioner, and a method thereof. Receives the controller 60 of the outdoor unit and transmits the driving state data transmitted from the controller 60 of the outdoor unit by adding information indicating the indoor unit to be transmitted, and receives the operating state of the other indoor unit from the received driving state data. Recognizes and drives the indoor unit, and determines when to transmit the driving state data of the indoor unit from the received driving state data, and transmits the driving state data of the indoor unit to the controller 60 of the outdoor unit. It consists of the controllers 62, 64, and 66, and displays the current operating state data for several indoor periods. It can send and receive and can drive safely.

Description

Data transmitting and receiving device and method of multi air conditioner

The present invention relates to a data transmission and reception apparatus and a method of a multi-air conditioner in which multiple indoor units are connected to one outdoor unit and each indoor unit performs cooling and heating. More specifically, the current driving situation and safety device operation of each indoor unit are performed. The present invention relates to a data transmitting / receiving device and a method of a multi-air conditioner for transmitting and receiving driving state data such as whether or not to each indoor unit.

In general, as shown in FIG. 1, the air conditioner includes an outdoor unit 1 having an outdoor heat exchanger and an indoor unit 2 having an indoor heat exchanger. As shown, cooling is carried out while forming a refrigerant cycle in which a cold vessel flows.

That is, the high temperature and high pressure refrigerant gas discharged from the compressor 3 is cooled and condensed in the outdoor heat exchanger 5 to be exchanged with the outdoor air, and the liquefied high pressure refrigerant is expanded by a capillary tube or an expansion valve. The high pressure refrigerant liquid introduced into the means (7) and introduced into the expansion means (7) is converted into the low pressure refrigerant liquid by the adiabatic expansion effect and introduced into the indoor heat exchanger (9). In 9), the refrigerant liquid is evaporated and exchanged with the indoor air to be converted into refrigerant gas. The refrigerant gas flows into the compressor 3 and is cooled in a cycle of being converted into refrigerant gas of high temperature and high pressure by the compressor 3. .

In the general air conditioner configured as described above, one indoor unit 2 having one indoor heat exchanger 9 is installed in one outdoor unit 1 having one outdoor heat exchanger 5 to correspond to one indoor space. Since it can only be cooled / heated, there is a problem that each air conditioner must be installed in each indoor space in order to cool / heat in a plurality of indoor spaces.

Therefore, in order to solve the above problems, a plurality of indoor units are installed to correspond to an outdoor unit provided with only one compressor and an outdoor heat exchanger, so that an air conditioner for cooling / heating a plurality of indoor spaces has been developed.

As an example of an air conditioner of this kind, an air conditioner having a plurality of indoor units is shown in FIG. 2.

As shown in FIG. 2, in the air conditioner including a plurality of indoor units, an outdoor unit 11 having one outdoor heat exchanger and a plurality of indoor units 13, 15, 17, and 19 each having one indoor heat exchanger are refrigerant. The structure is connected by a pipe.

The outdoor heat exchanger 23 is connected to the discharge port side of the compressor 21 installed in the outdoor unit 11, and the dryer 25 is connected to the refrigerant outlet side of the outdoor heat exchanger 23 to remove moisture contained in the refrigerant. At the same time, it prevents the refrigerant from overcharging due to the small operation capacity in the room and expands the refrigerant so that the refrigerant does not flow into the compressor 21 so that the compressor 21 bypasses the refrigerant inlet. A valve 27 is connected, and on / off valves 29, 31, 33, 35 are provided at the refrigerant outlet side of the dryer 25 to open and close the passages of the refrigerant flowing into the indoor units 13, 15, 17, and 19. It is connected to, and one side of the outdoor heat exchanger 23 is a structure in which a blower (not shown) is disposed so as to force convection of air to increase heat exchange efficiency.

The indoor unit (13, 15, 17, 19) is disposed inside each of the indoor heat exchangers (37, 39, 41, 43) connected to the on-off valves (29, 31, 33, 35), respectively, At the refrigerant inlet side of the heat exchangers 37, 39, 41, 43, expansion valves 45, 47 for adiabatic expansion of each refrigerant flowing into the indoor heat exchangers 37, 39, 41, 43 and a low temperature low pressure refrigerant. , 49, 51 are welded and coupled to each side of the indoor heat exchanger (37, 39, 41, 43) has a structure in which a blower (not shown) is disposed to forcibly convection air to increase heat exchange efficiency. .

At this time, the expansion valve (45, 47, 49, 51) in the thermostats 53, 55, 57, so as to adjust the degree of expansion according to the temperature of the refrigerant inlet side of the indoor heat exchanger (37, 39, 41, 43) 59) are combined.

In a conventional air conditioner having a plurality of indoor units configured as described above, the cooling gas of the high temperature and high pressure discharged from the compressor 21 flows into the outdoor heat exchanger 23 as indicated by arrows in FIG. Cooled and condensed and exchanged with outdoor air, the liquefied high-pressure refrigerant passes through the dryer 25 to remove moisture contained therein, and is divided through the open / close valves 29, 31, 33, and 35. The high pressure flowed into each of the expansion valves 45, 47, 49, and 51, and the high pressure flowed into the expansion valves 45, 47, 49, and 51 is converted into a low pressure refrigerant liquid by the adiabatic expansion effect thereof. Flows into each indoor heat exchanger (37, 39, 41, 43), the refrigerant liquid is evaporated in the indoor heat exchanger (37, 39, 41, 43), the indoor air is heat-exchanged and converted into refrigerant gas, The refrigerant gas gathers again and flows into the compressor 21 to be compressed. The high-temperature and high-pressure refrigerant by 21 yirumyeonseo the cycle in which the conversion throw and cooling the interior space of each indoor unit is installed at the same time.

However, in the multi air conditioner in which a plurality of indoor units connected to an outdoor unit having a compressor, a condenser and an outdoor heat exchanger as described above, all indoor units connected to the outdoor unit have one mode (that is, a cooling operation mode or a heating operation mode). Mode, but it is not possible to know the operation status of other indoor units because there is no function to send and receive driving status data in each indoor period. Therefore, each indoor unit has different modes (for example, Cooling of the indoor unit, the other indoor unit is easy to be set to the heating mode), as described above, if each indoor unit is set to a different operation mode, there was a problem that the multi-air conditioner can not normally be.

The present invention is to solve the above problems of the conventional, multi-air conditioning to enable safe driving by transmitting and receiving data on the current operating state in a plurality of indoor period connected to one outdoor unit It is an object of the present invention to provide an apparatus for transmitting and receiving data and a method thereof.

In order to achieve the above object, a data transceiving apparatus of a multi-air conditioner according to the present invention is a multi-air conditioner in which multiple indoor units are connected to one outdoor unit to perform air conditioning. A controller of the outdoor unit for controlling and driving the outdoor unit according to the received indoor unit, and adding and indicating information indicating the indoor unit to which the next driving state data should be transmitted to the operation state data of each indoor unit, and a driving state transmitted from the controller of the outdoor unit. Each indoor unit which receives data, recognizes the driving state of another indoor unit from the received driving state data, drives the control of the indoor unit, and determines and transmits the driving state data of the indoor unit from the received driving state data. Characterized in that consisting of the controller do.

In addition, the data transmission and reception method of the multi-air conditioner according to the present invention for achieving the above object, in the multi-air conditioner to perform air-conditioning by connecting a plurality of indoor units to one outdoor unit, the controller of each indoor unit is When it is time to transmit the operation state data of the indoor unit indoor unit transmission step of transmitting the current operation state data of its indoor unit to the controller of the outdoor unit, and the controller of the outdoor unit to the operation state data of the indoor unit received from the controller of each indoor unit; Next, the outdoor unit transmission step of adding the information specifying the indoor unit to transmit the driving state data to the controller of each indoor unit transmitting step, the controller of the outdoor unit receives the operation state data of the indoor unit transmitted from the controller of each indoor unit Outdoor unit control step of driving outdoor unit, phase An indoor unit control step of controlling the indoor unit to drive the indoor unit by receiving the operating state data of the indoor unit transmitted from the controller of the outdoor unit by recognizing the operating state of the other indoor unit, and the operating state of the indoor unit transmitted from the controller of the outdoor unit From the data, it is determined that the operation state data of the indoor unit should be transmitted, and then the transmission timing determination step of repeatedly performing the indoor unit transmission step is performed.

1 is a schematic refrigerant circuit diagram of a general air conditioner;

2 is a refrigerant circuit diagram of a general multi air conditioner;

3 is a schematic configuration diagram of a data transmitting and receiving apparatus of a multi-air conditioner according to the present invention;

4 is an operation flowchart of the outdoor unit controller by the data transmission / reception method of the multi-air conditioner according to the present invention;

5 is an operation flowchart of an indoor unit controller by a data transmitting / receiving method of a multi-air conditioner according to the present invention;

6 is a diagram illustrating a format of a frame which is a data transmission / reception unit in a data transmission / reception apparatus of a multi-air conditioner according to the present invention;

7 is a view showing the format of data bytes in the data transmission and reception apparatus of the multi-air conditioner according to the present invention;

8 is a diagram illustrating a frame transmission procedure in the data transmission and reception apparatus of the multi-air conditioner according to the present invention.

* The description of the signs for the main couple of drawings

60: controller of the outdoor unit, 62: controller of the first indoor unit, 64: controller of the second indoor unit, 66: controller of the third indoor unit, 71: compressor, 72: four-way valve, 73: outdoor fan motor, 74, 75, 76 : Valve for refrigerant flow control

3 is a block diagram of a data transmission and reception apparatus of a multi-air conditioner according to the present invention. In the data transmission / reception apparatus of the multi-air conditioner shown in FIG. 3, three indoor units are connected to one outdoor unit to perform cooling or heating. It is a data transmission / reception device of a multi air conditioner.

That is, in the data transceiver of the multi-air conditioner according to the present invention shown in FIG. 3, the outdoor unit includes a controller 60, a controller 62 of the first indoor unit, a controller 64 of the second indoor unit, and a third unit. The controller 66 of the indoor unit.

The controller 60 of the outdoor unit receives the driving state data of the first to third indoor units input from the controllers 62, 64, 66 of the first to third indoor units, and receives the received driving state data. The compressor 71, the four-way valve 72, the outdoor fan motor 73 and the refrigerant flow control valves 74, 75, 76 are controlled.

Then, the driving state data received from the controllers 62, 64 and 66 of the first to third indoor units is returned to the controllers 62, 64 and 66 of the first to third indoor units. Send.

At this time, the controller 60 of the outdoor unit includes information indicating the driving state data of which indoor unit the driving state data transmitted to the controllers 62, 64, 66 of the first to third indoor units, and the following: The information indicating the indoor unit to which the driving state data should be transmitted is added to and transmitted.

The controllers 62, 64, and 66 of the first to third indoor units each receive driving state data transmitted from the controller 60 to the outdoor unit, and from the received driving state data, The controller recognizes the driving state and controls the indoor unit to control the driving time, and determines when to transmit the driving state data of the indoor unit from the received driving state data.

The data transmission and reception apparatus and method of the multi-air conditioner according to the present invention configured as described above will be described in detail with reference to FIGS. 4 to 8.

As shown in FIG. 4, the controller 60 of the outdoor unit determines whether it is time to transmit driving state data, and if it is not time to transmit driving state data, the controller 62 of the first to third indoor units, The compressor 71, the four-way valve 72, the outdoor fan motor 73, and the first to third refrigerant flow control valves 74 in accordance with the operation state data of each indoor unit received from the 64 and 66 units. , 75, 76 are controlled to perform cooling or heating. (S1, S8)

When it is time to transmit the driving state data, it is determined whether the driving state data to be transmitted is the driving state data of the first indoor unit, and when the driving state data to be transmitted is the driving state data of the first indoor unit, the controller 60 of the outdoor unit Transmits the operation state data of the first indoor unit input from the controller 62 of the first indoor unit to the controllers 62, 64, 66 of the first to third indoor units. (S2, S5)

At this time, the controller 60 of the outdoor unit adds and specifies information indicating the indoor unit to which the driving state data should be transmitted next, and information indicating that the driving state data currently transmitted is the driving state data of the first indoor unit.

Then, the controller 60 of the outdoor unit transmits the operation state data of the first indoor unit to the controllers 62, 64, and 66 of the first to third indoor units, and then the controllers of the first to third indoor units ( The compressor 71, the four-way valve 72, the outdoor fan motor 73, and the first to third refrigerant flow control valves in accordance with the operation state data of each indoor unit received from 62, 64 and 66. Controlled driving of 74, 75 and 76 is performed to perform cooling or heating. (S8)

If the driving state data to be transmitted is not the driving state data of the first indoor unit, the controller 60 of the outdoor unit determines whether the driving state data to be transmitted is the driving state data of the second indoor unit. The operation state data of the second indoor unit input from the controller 64 of the second indoor unit is transmitted to the controllers 62, 64, 66 of the first to third indoor units. (S3, S6)

At this time, the controller 60 of the outdoor unit adds and specifies information indicating the indoor unit to which the driving state data should be transmitted next, and information indicating that the driving state data currently transmitted is the driving state data of the second indoor unit.

Then, the controller 60 of the outdoor unit transmits the operation state data of the second indoor unit to the controllers 62, 64, 66 of the first to third indoor units, and then the controllers of the first to third indoor units ( The compressor 71, the four-way valve 72, the outdoor fan motor 73, and the first to third refrigerant flow control valves in accordance with the operation state data of each indoor unit received from 62, 64 and 66. Controlled driving of 74, 75 and 76 is performed to perform cooling or heating. (S8)

On the other hand, if the driving state data to be transmitted by the controller 60 of the outdoor unit is the driving state data of the third indoor unit when the driving state data of the second indoor unit is not the data, and the driving state data to be transmitted is the driving state data of the third indoor unit. The controller 60 of the outdoor unit transmits operation state data of the third indoor unit input from the third indoor unit controller 66 to the controllers 62, 64, 66 of the first to third indoor units. (S4, S7)

At this time, the controller 60 of the outdoor unit adds and informs the indoor unit to which the driving state data should be transmitted next and information indicating that the driving state data to be transmitted is the driving state data of the third indoor unit.

Then, the controller 60 of the outdoor unit transmits the operation state data of the third indoor unit to the controllers 62, 64, and 66 of the first to third indoor units, and then the controllers of the first to third indoor units ( The compressor 71, the four-way valve 72, the outdoor fan motor 73, and the first to third refrigerant flow control valves in accordance with the operation state data of each indoor unit received from 62, 64 and 66. Controlled driving of 74, 75 and 76 is performed to perform cooling or heating. (S8)

Meanwhile, as illustrated in FIG. 5, the controllers 62, 64, 66 of the first to third indoor units of the indoor unit of the indoor unit are operated from the operation state data of each indoor unit transmitted from the controller 60 of the outdoor unit. It is determined whether it is time to transmit the driving state data, and if it is time to transmit the driving state data, the driving state data of the indoor unit is output to the controller 60 of the outdoor unit. (S11, S12)

As described above, the driving state data of the indoor unit is transmitted to the controller 60 of the outdoor unit, and it is then determined whether there is the driving state data transmitted from the controller 60 of the outdoor unit, and the driving state data transmitted from the controller 60 of the outdoor unit. If there is, the transmission time of the driving state data of the self indoor unit to be transmitted next is determined from the driving state data received from the controller 60 of the outdoor unit, and the driving state data of the other indoor unit received from the controller 60 of the outdoor unit. To control his indoor unit accordingly. (S13, S14, S15)

As described above, the operation state data transmitted and received between the controller 60 of the outdoor unit and the controllers 62, 64, 66 of the first to third indoor units are transmitted and received in a serial communication method, one frame of which is shown in FIG. As described above, the data is composed of an 8-bit data byte (date byte), which is operation state data, and an 8-bit check byte for correcting an error of the data byte. The start bit (a) for synchronizing with the receiving side is transmitted first, followed by an 8-bit data byte, followed by a parity bit (b) set or cleared to provide even or odd parity. The stop bit c is transmitted.

As shown in FIG. 7, the lower 4 bits (8, 7, 6, and 5) are the mode areas, the most significant bit (1) indicates the compressor on / off, and the upper second bit (2). ) Indicates the on / off of the outdoor fan motor, the upper third bit (3) is a bit for indicating on / off the four-way valve, the upper fourth bit (4) is for indicating the cooling / heating mode Bit.

The mode area consisting of the lower 4 bits is set to 0000 for driving state data output from the controller 62 of the first indoor unit, and set to 0001 for driving state data output from the controller 64 of the second indoor unit. If the driving state data output from the controller 66 of the third indoor unit is set to 0010.

In addition, the least significant bit 8 and the lower second bit 7 of the operation state data byte output from the controller 60 of the outdoor unit are bits for setting the indoor unit to which the operation state data should be output next. If the controller of the indoor unit to output the status data is set to 01 when the controller 62 of the first indoor unit is set, and if the controller of the indoor unit to output the operation state data is the controller 64 of the second indoor unit, It is set to 10, and is set to 00 when the controller of the indoor unit to output the driving state data is the controller 66 of the third indoor unit.

In addition, the lower third bit 6 and the lower fourth bit 5 of the data byte output from the controller 60 of the outdoor unit are bits for indicating which indoor unit driving state data is currently output driving state data. If the currently output driving state data is the driving state data of the first indoor unit, it is set to 00, and if the currently output driving state data is the driving state data of the second indoor unit, it is set to 01. If the data is the driving state data of the third indoor unit, it is set to 10.

As shown in FIG. 8, the frame having the above-described format has the first indoor unit having the current data again after a predetermined time (after the frame of another indoor unit is output) after the first frame of the first indoor unit is output. The first frame is output.

Therefore, since the indoor unit can know the operating state of the other indoor unit, it is possible to prevent the mixing of the cooling / heating cycle due to the user's mistake of operation can safely operate the cooling / heating.

In addition, if you try to operate a specific indoor unit in a different mode than the other indoor unit may be to correct the user's error.

As described above, according to the present invention, in a multi-air conditioner in which several indoor units of one outdoor unit are connected to each other, the current driving state data can be transmitted and received during several indoor periods, thereby enabling safe driving.

Although the present invention has been described with reference to an example of a multi-air conditioner in which three indoor units are connected to one outdoor unit, it is obvious that the present invention can be applied to a multi-air conditioner in which a plurality of indoor units are connected to one indoor unit.

Claims (9)

In a multi-air conditioner in which several indoor units are connected to one outdoor unit to perform cooling and heating, the outdoor unit which adds and indicates information indicating an indoor unit to transmit operation state data next to the received operation state data of each indoor unit. Recognizing the driving state of the other indoor unit by the controller and the driving state data received from the controller of the outdoor unit to control and drive the indoor unit, and determines when to transmit the driving state data of the indoor unit from the received driving state data. A data transmitting and receiving device of a multi-air conditioner, characterized in that consisting of a plurality of indoor controllers for transmitting the operation state data of the indoor unit to the controller of the outdoor unit. The method of claim 1, The driving state data transmitted from the controller of each indoor unit to the controller of the outdoor unit is for indicating that the driving state data displayed in the upper 4 bits and the upper 4 bits for indicating the current driving state of the indoor unit is the driving state data of the indoor unit. And a data byte comprising a lower four bits and a check byte for correcting an error occurring during transmission. The method of claim 2, The data byte is the most significant bit for indicating the compressor on / off, the upper second bit for indicating the on / off of the outdoor fan motor, the upper third bit for indicating the on / off of the four-way valve, cooling The upper fourth bit for indicating the heating / heating mode, the upper fifth and sixth bits for indicating which indoor unit's driving state data is, and the meaningless lower two bits. Data transmission and reception device of the air conditioner. The method of claim 3, wherein The driving state data transmitted from the controller of the outdoor unit to the controller of each indoor unit is configured by indicating the indoor unit to transmit the driving state data next to the lower two bits of the data byte received from the controller of each indoor unit. Data transmission and reception device of the air conditioner. In a multi air conditioner in which multiple indoor units are connected to one outdoor unit to perform cooling and heating, when the controller of each indoor unit is time to transmit operation state data of its indoor unit, the current operating state data of its indoor unit is controlled by the controller of the outdoor unit. An indoor unit transmitting step of transmitting to the; An outdoor unit transmitting step, wherein the controller of the outdoor unit adds information specifying the indoor unit to which the next operation state data should be transmitted to the operation state data of the indoor unit received from the controller of each indoor unit and transmits the information to the controller of each indoor unit; An outdoor unit control step of controlling, by the controller of the outdoor unit, driving state data of the indoor unit transmitted from the controller of each indoor unit to drive the outdoor unit; An indoor unit control step of controlling, by the controller of each indoor unit, the driving state data of the indoor unit received from the controller of the outdoor unit to recognize the driving state of another indoor unit to control and drive the indoor unit; A multi-air conditioner characterized in that it is determined from the operation state data of the indoor unit transmitted from the controller of the outdoor unit when the operation state data of its indoor unit should be transmitted, and then performing the transmission timing determination step of repeatedly performing the indoor unit transmission step. How to send and receive data. The method of claim 5, In the indoor unit transmission step, the operation state data of the indoor unit transmitted from the controller of each indoor unit to the controller of the outdoor unit is checked to correct a data byte indicating the current operation state of the indoor unit and an error generated during transmission of the data byte. A data transmitting / receiving method of a multi-air conditioner, characterized in that formed in units of frames consisting of bytes. The method of claim 6, The data byte is formed by the upper 4 bits for indicating the current driving state of the indoor unit and the lower 4 bits for indicating that the driving state data displayed in the upper 4 bits is the driving state data of the indoor unit. Method of transmitting and receiving data. The method of claim 7, wherein The data byte has the most significant bit for indicating on / off of the compressor, the upper second bit for indicating the on / off of the outdoor fan motor, the upper third bit for indicating the on / off of the four-way valve, and cooling The upper fourth bit for indicating the heating / heating mode, the upper fourth and sixth bits for indicating which indoor unit's driving state data is, and the lower two bits meaningless. Method of transmitting and receiving data of air conditioner. The method of claim 8, In the outdoor unit transmitting step, the driving state data transmitted from the controller of the outdoor unit to the controller of each indoor unit is displayed in the lower two bits of the data byte received from the controller of each indoor unit to display the indoor unit to transmit the driving state data next. Data transmission and reception method of a multi-air conditioner, characterized in that the forming.