JP2014231914A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioner configured so that a cooling/heating switching unit enables respective indoor units to simultaneously select cooling and heating operations, and capable of ensuring normal communication with an incorrect line used as it is even if a communication line connected to the cooling/heating switching unit and the indoor units is the incorrect line.SOLUTION: A compressor is activated while one cooling/heating switching unit 20A is turned on into a state of being switched to a cooling operation with the other cooling/heating switching unit 20B being turned off. Operating indoor units 30A and 30B are thereby made to transmit operation signals including addresses and the operation signals are received by the cooling/heating switching unit 20A. In addition, if the operating indoor units are indoor unit temporarily registered in advance, a communication line 61 acts as a normal line. If the cooling/heating switching unit 20B receives the operation signals, the communication line 61 is determined as an incorrect line and the addresses of the operating indoor units 30A and 30B are transmitted to the cooling/heating switching unit 20A and the cooling/heating switching unit 20A includes the operating indoor units 30A and 30B as indoor units belonging to the cooling/heating switching unit 20A.

Description

  The present invention relates to an air conditioner in which a plurality of indoor units are connected to an outdoor unit via a cooling / heating switching unit, and the cooling / heating switching unit can individually select a cooling operation and a heating operation on each indoor unit side. More specifically, the present invention relates to a technique that enables normal communication to be performed even if there is an incorrect wiring in a communication line wired between the cooling / heating switching unit and the indoor unit.

  An air conditioner that includes an outdoor unit and a plurality of indoor units and that can be individually selected between a cooling operation and a heating operation on the side of each indoor unit by a cooling / heating switching unit is described in Patent Document 1, for example. An example of the configuration is schematically shown in FIG.

  First, as shown in FIG. 5A, in this example, one outdoor unit 10, two cooling / heating switching units 20 (20A, 20B), and three indoor units 30 (30A, 30B, 30C). ), And a three-pipe refrigerant pipe 41 including a high-pressure gas pipe 41a, a low-pressure gas pipe 41b, and a liquid pipe 41c is drawn out from the outdoor unit 10. In addition, when it is not necessary to distinguish between the cooling / heating switching unit and the indoor unit, the cooling / heating switching unit 20 and the indoor unit 30 are collectively referred to.

  In this example, two indoor units 30A and 30B of the three indoor units 30 are connected to the refrigerant pipe 41 via the first cooling / heating switching unit 20A, and the remaining one indoor unit 30C is connected. The second cooling / heating switching unit 20B is connected to the refrigerant piping 41.

  The cooling / heating switching unit 20 includes a switching valve (not shown) that connects one of the high-pressure gas pipe 41 a and the low-pressure gas pipe 41 b in the refrigerant pipe 41 to the indoor unit 30 and disconnects the other from the indoor unit 30. I have.

  The indoor unit 30 is connected to the cooling / heating switching unit 20 through a normal two-pipe pipe 42 including a gas side pipe 42a and a liquid side pipe 42b, but one end side of an indoor heat exchanger (not shown) of the indoor unit 30. Is always connected to the liquid pipe 41 c in the refrigerant pipe 41 via the liquid pipe 42 b in the two-pipe pipe 42.

  On the other hand, the other end side of the indoor heat exchanger is connected to the high-pressure gas pipe 41a in the refrigerant pipe 41 through the gas pipe 42a in the two-pipe pipe 42 and the switching valve in the cooling / heating switching unit 20, the low pressure It is selectively connected to either one of the gas pipes 41b.

  As a communication system, the outdoor unit 10 and the first and second cooling / heating switching units 20 </ b> A and 20 </ b> B are connected to each other via the first communication line 51, and the indoor unit 30 is switched between cooling and heating via the second communication line 61. Connected to the unit 20.

  The second communication line 61 is wired along the pipe 42 so as not to cause an incorrect wiring. As in this example, the two indoor units 30A, two (multiple) indoor units 30A, When 30B is connected by piping, the second communication line 61A that connects the indoor units 30A and 30B to the first cooling / heating switching unit 20A is a serial wiring.

  Switching between the cooling operation and the heating operation is performed individually in units of the cooling / heating switching unit 20. For example, when a heating operation signal is output from the remote controller 31A attached to the indoor unit 30A, the heating operation signal is transmitted by the second communication line 61A. This is transmitted to the first cooling / heating switching unit 20A, whereby the high pressure gas pipe 41a side of the switching valves of the first cooling / heating switching unit 20A is "open", the low pressure gas pipe 41b side is "closed", and the indoor units 30A, 30B are Both are in the heating operation state.

  On the other hand, when a cooling operation signal is output from the remote control 31C attached to the indoor unit 30C, the cooling operation signal is transmitted to the second cooling / heating switching unit 20B through the second communication line 61B, and thereby the second cooling / heating switching unit 20B. Among the switching valves, the low-pressure gas pipe 41b side is “open”, the high-pressure gas pipe 41a side is “closed”, and the indoor unit 30C is in the cooling operation state.

  In this way, the cooling / heating switching unit 20 can individually select the cooling operation and the heating operation on each indoor unit 30 side, but the operation information is transmitted to the outdoor unit 10 via the first communication line 51. Then, the outdoor unit 10 calculates the required capacity of the frozen squill based on the operation information, and controls the compressor, the outdoor unit expansion valve, and the like.

  By the way, when wiring the second communication line 61, for example, as shown in FIG. 5B, the communication line 61A of the indoor units 30A and 30B should be connected to the first cooling / heating switching unit 20A as an example of incorrect wiring. When the communication line 61B of the indoor unit 30C should be connected to the second cooling / heating switching unit 20B, it may be connected to the first cooling / heating switching unit 20A.

  Then, for example, a remote control signal output from the remote control 31A to the indoor unit 30A is erroneously transmitted to the second cooling / heating switching unit 20B, and similarly, a remote control signal output from the remote control 31C to the indoor unit 30C is the first. It is erroneously transmitted to the cooling / heating switching unit 20A, and the indoor unit designated by the user enters an operation state different from the user's intention.

  Therefore, in order to detect the presence / absence of such a miswiring of the second communication line 61, in the invention described in Patent Document 2, the indoor heat exchange of the designated indoor unit that has output a remote control signal as a cooling operation, for example, during a test operation If the temperature of the chamber or the room temperature is detected by the temperature sensor and the temperature of the designated indoor unit is lower than the initial temperature by the cooling operation, it is recognized as normal wiring, and if the temperature of the designated indoor unit does not change, the second The communication line 61 is recognized as having an incorrect wiring.

JP-A-3-55475 JP 2002-13777 A

  According to the invention described in Patent Document 2, it is possible to detect an incorrect wiring of the second communication line 61 wired between the indoor unit 30 and the cooling / heating switching unit 20, but it is assumed that an incorrect wiring is detected. However, in order to correct the erroneous wiring, the second communication line 61 must be actually rewired to a normal state after the trial operation.

  Usually, since the second communication wiring including the first communication line 51 is also wired on the back of the ceiling or the like, it takes much time to reconnect the second communication line.

  Accordingly, the problem of the present invention is that even if the second latitude line wired between the indoor unit and the cooling / heating switching unit is an incorrect wiring, normal communication is performed without actually rewiring. An object of the present invention is to provide an air conditioner that can be used.

In order to solve the above problems, the present invention provides a cooling / heating switching unit including a plurality of cooling / heating switching units in a refrigerant piping including a high-pressure gas pipe, a low-pressure gas pipe, and a liquid pipe extending from an outdoor unit. A predetermined number of indoor units are connected to each cooling / heating switching unit, one end of the indoor heat exchanger of each indoor unit is connected to the liquid pipe, and the switching provided in the cooling / heating switching unit is provided. By connecting the other end of the indoor heat exchanger to the high-pressure gas pipe side or the low-pressure gas pipe side with a valve, the indoor unit is cooled or heated in units of the cooling / heating switching unit. In the air conditioner that was made possible,
Each of the cooling / heating switching units includes a first communication unit and a second communication unit, and a unit control unit for controlling the communication units and the switching valve. The indoor units include an indoor unit communication unit, the indoor unit Including an indoor communication unit and an indoor unit control unit that controls the operation of the indoor unit,
The first communication unit communicates with the outdoor unit control unit provided in the outdoor unit and communicates with the first communication unit provided in another cooling / heating switching unit via the first communication line, The second communication unit communicates with the indoor unit communication unit via a second communication line,
The air conditioner has a wiring confirmation mode and a test operation mode as operation modes for detecting and correcting erroneous wiring of the second communication line,
As the wiring confirmation mode, the unit control unit communicates between the second communication unit and the indoor unit communication unit via the second communication line, acquires address information from the indoor unit, and performs self-cooling / warming. Register as an indoor unit to which the switching unit belongs,
Next, as the test operation mode, one of the plurality of cooling / heating switching units is set as a specific cooling / heating switching unit, and the switching valve of the specific cooling / heating switching unit is connected to the specific cooling / heating switching unit by piping. The air conditioner can be operated in an air conditioner, and the indoor unit connected to the other cooling / heating switching unit is prevented from flowing refrigerant by the switching valve of the other cooling / heating switching unit. Start the compressor of the outdoor unit,
Among the indoor units, let the second communication unit transmit the air conditioning operation signal including the address information of the own unit from the operating indoor unit in which the air conditioning operation is performed by starting the compressor, through the second communication line, When the second communication unit that has received the air conditioning operation signal is the second communication unit of the other cooling / heating switching unit, the unit control unit of the other cooling / heating switching unit may provide address information of the operating indoor unit. Is transmitted to the specific cooling / heating switching unit via the first communication line, and the unit controller of the specific cooling / heating switching unit registers the operating indoor unit as an indoor unit to which the self-cooling / heating switching unit belongs, and The cooling / heating switching units are sequentially changed, and one of them is repeatedly executed as the specific cooling / heating switching unit.

  According to a second aspect of the present invention, in the first aspect, the second communication unit that has received the air conditioning operation signal is the second communication unit of the specific cooling / heating switching unit, and the operation indoor unit is the If it is an indoor unit registered in the wiring confirmation mode, the unit controller of the specific cooling / heating switching unit is characterized in that the operating indoor unit is definitely registered using the second communication line as a normal wiring.

  According to a third aspect of the present invention, in the second aspect of the present invention, the unit controller of the specific cooling / heating switching unit is configured so that a predetermined time-up time elapses among the indoor units registered in the wiring confirmation mode. The indoor unit that does not transmit the air conditioning operation signal is deleted from the registered indoor unit.

  According to a fourth aspect of the present invention, in any one of the first to third aspects, the cooling / heating switching unit other than the cooling / heating switching unit in which the second communication line is pipe-connected during the air-conditioning operation performed after the trial operation mode. The cooling / heating switching signal issued from the remote control device to the indoor unit connected to the second communication unit of the other cooling / heating switching unit is piped by the indoor unit from the first communication unit of the other cooling / heating switching unit. It is transferred to the first communication unit of the connected cooling / heating switching unit.

  According to a fifth aspect of the present invention, in any one of the first to fourth aspects, the unit control unit is wired from the second communication unit to the indoor unit communication unit in the wiring confirmation mode. The indoor unit control unit that has transmitted the confirmation signal and has received the wiring confirmation signal transmits a response signal including the address information of the own unit set in advance from the indoor unit communication unit to the second communication unit, The unit control unit executes a procedure for registering the indoor unit having the response signal as an indoor unit to which the self-cooling / warming switching unit belongs.

  A sixth aspect of the present invention provides the method according to any one of the first to fifth aspects, wherein the indoor unit includes a temperature sensor that detects a temperature of the indoor heat exchanger or a room temperature, an indoor unit expansion valve, In order to execute the test operation mode, before starting the compressor, each unit control unit opens a predetermined opening of the indoor unit expansion valve from the second communication unit to the associated indoor unit. The expansion valve opening signal is transmitted so as to open at a degree.

  The invention described in claim 7 is the operation unit according to any one of claims 1 to 6, wherein the operation indoor unit detects the change in the output signal of the temperature sensor from the indoor unit communication unit. An air conditioning operation signal including machine address information is transmitted to the second communication unit.

  According to the present invention, for one specific cooling / heating switching unit among the plurality of cooling / heating switching units, the indoor unit connected to the specific cooling / heating switching unit is cooled or heated by the switching valve of the self-cooling / heating switching unit. For indoor units that are in a state in which the air conditioning operation can be performed and are connected to other cooling / heating switching units by pipes, the switching valve of the other cooling / heating switching units prevents the refrigerant from flowing, and the compressor of the outdoor unit is The second communication unit that is activated and transmits the air conditioning operation signal including the address information of the own unit to the second communication unit of the cooling / heating switching unit from the operation indoor unit that has been activated and thereby performed the air conditioning operation. In the case of another cooling / heating switching unit, the unit controller transmits the address information of the operating indoor unit to the specific cooling / heating switching unit via the first communication line, and the specific cooling / heating switching unit. The unit control unit of the unit includes the operating indoor unit in the indoor unit to which the self-cooling / warming switching unit belongs, so that even if the second communication line is miswired, Communication can be performed.

The conceptual diagram which shows each structure of the outdoor unit with which the air conditioner of this invention is equipped, a cooling / heating switching unit, and an indoor unit. The schematic diagram which shows the structural example and connection state of the said cooling / heating switching unit and an indoor unit concretely. The flowchart which shows the procedure which confirms the wiring state of the communication line between the cooling / heating switching unit and indoor unit performed by this invention. The flowchart which shows the correction procedure of the incorrect wiring performed by this invention. The schematic diagram which shows the air conditioner which makes each indoor unit cooling-operation or heating operation simultaneously by a cooling / heating switching unit, (a) The figure which shows the normal wiring state of the communication line between a cooling / heating switching unit and an indoor unit, (b) The figure which shows the example of miswiring.

  Next, an embodiment of the present invention will be described with reference to FIGS. 1 to 5, but the present invention is not limited to this.

  As shown in FIG. 1, the air conditioner according to this embodiment includes an outdoor unit 10, a cooling / heating switching unit 20, and an indoor unit 30 as a basic configuration.

  In this embodiment as well, as described with reference to FIG. 5A, the cooling / heating switching unit 20 includes the first cooling / heating switching unit 20A and the second cooling / heating switching unit 20B. The three indoor units 30A, 30B, and 30C are connected to the first cooling / heating switching unit 20A, and the two indoor units 30A and 30B are connected to the second cooling / heating switching unit 20B. It shall be. Accordingly, refer to FIG. 5A as appropriate for the overall configuration of the air conditioner.

  The outdoor unit 10 includes a refrigeration cycle unit 110, a communication unit (outdoor unit communication unit) 120, and a control unit (outdoor unit control unit) 130 that controls them.

  The refrigeration cycle unit 110 includes a compressor 111, an outdoor heat exchanger 112, an outdoor blower 113, an expansion valve 114, and the like. In order to allow a cooling operation indoor unit and a heating operation indoor unit to coexist at the same time, a three-pipe refrigerant pipe 41 including a high-pressure gas pipe 41a, a low-pressure gas pipe 41b, and a liquid pipe 41c is drawn from the refrigeration cycle unit 110. Yes.

  Referring also to FIG. 2, the cooling / heating switching unit 20 (20A, 20B) includes a gas pipe connection switching unit 210, a communication unit 220, and a control unit (unit control unit) 230 for controlling them. .

  The gas pipe connection switching unit 210 includes two solenoid valves, a first solenoid 211 and a second solenoid valve 212. The first electromagnetic 211 is connected between the high pressure gas pipe 41 a and the indoor unit 30, and the second electromagnetic 212 is connected between the low pressure gas pipe 41 b and the indoor unit 30. During the heating operation of the indoor unit 30, the first electromagnetic 211 is “open” and the second electromagnetic 212 is “closed”, and during the cooling operation, the first electromagnetic 211 is “closed” and the second electromagnetic 212 is “open”. When the operation of the indoor unit 30 is stopped, the gas pipe connection switching unit 210 is controlled by the unit control unit 230 so that the first solenoid 211 and the second solenoid valve 212 are both “closed”.

  The communication unit 220 includes a first communication unit 221 and a second communication unit 222. Among these, the 1st communication part 221 communicates between the outdoor unit communication part 120 and the 1st communication part 221 of the other cooling / heating switching unit 20 via the 1st communication line 51. In contrast, the second communication unit 222 communicates with the indoor unit 30 via the second communication line 61.

  The indoor unit 30 (30A, 30B, 30C) includes a refrigeration cycle unit 310, a communication unit (indoor unit communication unit) 320, and a control unit (indoor unit control unit) 330 that controls these units. A remote controller 31 (31A, 31B, 31C) is provided for each indoor unit 30 (30A, 30B, 30C).

  The refrigeration cycle unit 310 includes an indoor heat exchanger 311, an indoor fan 312, an expansion valve (indoor unit expansion valve) 313, a temperature sensor 314, and the like.

  The indoor unit 30 is connected to the cooling / heating switching unit 20 via a normal two-pipe pipe 42 including a gas side pipe 42a and a liquid side pipe 42b. However, as shown in FIG. One end side is connected to the liquid pipe 41c in the refrigerant piping 41 via a liquid side pipe 42b including the indoor unit expansion valve 313, and the other end side of the indoor heat exchanger 311 is a switching valve (first electromagnetic valve 211). Alternatively, it is selectively connected to either the high pressure gas pipe 41a or the low pressure gas pipe 41b in the refrigerant piping 41 via the second electromagnetic valve 212).

  Since the liquid side pipe 42b is directly connected to the liquid pipe 41c, the liquid side pipe 42b is not necessarily provided through the cooling / heating switching unit 20.

  In this embodiment, the temperature sensor 314 includes two temperature sensors, a heat exchange temperature sensor 314a that detects the temperature of the indoor heat exchanger 311 and a room temperature sensor 314b that detects the room temperature.

  The indoor unit communication unit 320 is connected to the second communication unit 222 of the cooling / heating switching unit 20 via the second communication line 61. Referring to FIG. 5 (a), each indoor unit communication unit 320 of the indoor units 30A and 30B is connected to the second communication unit 222 of the first cooling / heating switching unit 20A via the second communication line 61A. Each indoor unit communication unit 320 of 30C is connected to the second communication unit 222 of the second cooling / heating switching unit 20B via the second communication line 61B, but the second communication line 61A is connected to the indoor units 30A and 30B. It is passed and connected as a serial wiring to the second communication unit 222 of the first cooling / heating switching unit 20A.

  For the outdoor unit control unit 130, the unit control unit 230, and the indoor unit control unit 330, for example, a microcomputer or a CPU (Central Processing Unit) is used, and each control unit 130, 230, 330 is written with a control program or the like. Storage sections 131, 231 and 331 including a ROM and a work RAM for working to store data and the like sequentially generated in the control process. The unit controller 230 has a timer 232 attached thereto.

  Also in this embodiment, switching between the cooling operation and the heating operation is performed individually in units of the cooling / heating switching unit 20. For example, when a heating operation signal is output from the remote controller 31A attached to the indoor unit 30A, the heating operation signal is 2 is transmitted to the second communication unit 222 of the first cooling / heating switching unit 20A through the communication line 61A, and in response to this, the unit control unit 230 “opens” the first electromagnetic valve 211 on the high pressure gas pipe 41a side, and the low pressure gas The second electromagnetic valve 212 on the pipe 41b side is set to “closed”, whereby both the indoor units 30A and 30B are in the heating operation state.

  On the other hand, when a cooling operation signal is output from the remote controller 31C attached to the indoor unit 30C, the cooling operation signal is transmitted to the second communication unit 222 of the second cooling / heating switching unit 20B via the second communication line 61B, and received. The indoor unit control unit 230 sets the second electromagnetic valve 212 on the low pressure gas pipe 41b side to “open” and the first electromagnetic valve 211 on the high pressure gas pipe 41a side to “close”, so that the indoor unit 30C is in the cooling operation state. It becomes. The indoor unit expansion valve 313 is controlled by the indoor unit control unit 330 so as to have a predetermined opening degree according to the heating operation and the cooling operation.

  By the way, as described above, when wiring the second communication line 61, as shown in FIG. 5B, for example, the communication line 61A of the indoor units 30A and 30B is connected to the first cooling / heating as an example of incorrect wiring. Where the switching unit 20A should be connected, it is connected to the second cooling / heating switching unit 20B, and the communication line 61B of the indoor unit 30C should be connected to the second cooling / heating switching unit 20B, but will be connected to the first cooling / heating switching unit 20A. Sometimes.

  Then, for example, a remote control signal output from the remote control 31A to the indoor unit 30A is erroneously transmitted to the second cooling / heating switching unit 20B, and similarly, a remote control signal output from the remote control 31C to the indoor unit 30C is the first. It is erroneously transmitted to the cooling / heating switching unit 20A, and the indoor unit designated by the user enters an operation state different from the user's intention.

  Therefore, in order to solve the problem of communication abnormality due to this incorrect wiring, in the present invention, first, the wiring connection information of the second communication line 61 between the cooling / heating switching unit 20 and the indoor unit 30 is acquired, and then cooling or A trial run with heating is performed to determine whether there is an incorrect wiring in the second communication line 61. If there is an incorrect wiring, incorrect wiring information is exchanged between the cooling / heating switching units 20, and the actual wiring is performed. Normal communication can be performed between the cooling / heating switching unit 20 and the indoor unit 30 without re-execution, and an example of the operation will be specifically described below.

  First, a procedure for confirming which indoor unit 30 is connected to the cooling / heating switching unit 20 via the second communication line 61 as the wiring confirmation mode will be described with reference to the flowchart of FIG. 3. The description here assumes that the second communication line 61 (61A, 61B) is miswired as shown in FIG. 5B. In the flowcharts of FIGS. 3 and 4, the cooling / heating switching unit is represented as “RB”.

  In the first step ST101, when the wiring confirmation mode is started by turning on the power to the air conditioner or by an external trigger or the like, in step ST102, each unit controller 230 of the first and second cooling / heating switching units 20A, 20B A wiring confirmation signal for obtaining address information set in the indoor unit 30 is transmitted from the communication unit 222 to the indoor unit communication unit 320 of the indoor unit 30.

  In step ST103, the indoor unit control unit 330 that has received the wiring confirmation signal sends a response signal including the address information of the own unit set in advance from the indoor unit communication unit 320 to the second communication unit 222 of the cooling / heating switching unit 20. Send.

  In the example of FIG. 5B, although the indoor units 30A and 30B are connected to the first cooling / heating switching unit 20A, a response signal including their address information is sent to the second communication of the second cooling / heating switching unit 20B. Although the indoor unit 30C is connected to the second cooling / heating switching unit 20B, a response signal including the address information is transmitted to the second communication unit 222 of the first cooling / heating switching unit 20A. .

  In step ST104, the unit controller 230 of the cooling / heating switching unit 20 temporarily registers the indoor unit 30 having the response signal in the storage unit 231 as an assigned indoor unit of the own unit, and the indoor unit 30 having the response signal is registered. On the other hand, a group address assigned in advance to the cooling / heating switching unit 20 is transmitted.

  That is, in the first cooling / heating switching unit 20A, the indoor unit 30C is provisionally registered in the storage unit 231 as an indoor unit to which the own unit belongs, and the group address “A” of the first cooling / heating switching unit 20A is transmitted to the indoor unit 30C. In the second cooling / heating switching unit 20B, the indoor units 30A, 30B are provisionally registered in the storage unit 231 as belonging indoor units of the own unit, and the group address “B” of the second cooling / heating switching unit 20B is assigned to the indoor units 30A, 30B. Send.

  In step ST105, the indoor unit control unit 330 of the indoor unit 30 stores the group address transmitted from the cooling / heating switching unit 20 in the storage unit 331. That is, each indoor unit control unit 330 of the indoor units 30A and 30B stores the group address “B” of the second cooling / heating switching unit 20B in the storage unit 331, and the indoor unit control unit 330 of the indoor unit 30C includes the first cooling / heating unit. The group address “A” of the switching unit 20A is stored in the storage unit 331.

  Then, in step ST106, the wiring confirmation mode is terminated, and the operation shifts to a test operation mode in which the presence / absence of erroneous wiring and correction of erroneous wiring are performed according to the flowchart of FIG.

  This test operation mode is started by, for example, an external trigger in step ST201, and then in step ST202, the indoor unit expansion valves 313 of all the indoor units 30 are opened to a predetermined opening degree. In this case, the opening degree of the expansion valve, for example, in an electronic expansion valve driven by a pulse motor, may be in a slightly opened state of about 80 pulses if 400 pulses are fully opened.

  In the example of FIG. 5B, the unit control unit 230 of the first cooling / heating switching unit 20A to the indoor unit expansion valve 313 of the indoor unit 30C, and the unit control unit 230 of the second cooling / heating switching unit 20B to the indoor unit. An expansion valve “open” signal is transmitted to each of the indoor unit expansion valves 313 of 30A and 30B.

  Then, in the next step ST203, the variable n of the number of cooling / heating switching units 20 is set to n = 1, and one cooling / heating switching unit 20 selected according to a preset order is switched to a specific cooling / heating switching of n = 1. As a unit, for example, the first electromagnetic valve 211 on the high-pressure gas pipe side of the specific cooling / heating switching unit is “closed” and the second electromagnetic valve 212 on the low-pressure gas pipe side is “open”, and is connected to the specific cooling / heating switching unit. The refrigeration cycle unit 310 of the indoor unit 30 is a cooling circuit, and the first and second solenoid valves 211 and 212 are both “closed” for the other cooling / heating switching units.

  In the example of FIG. 5B, first, the first cooling / heating switching unit 20A is set as the specific cooling / heating switching unit, the first electromagnetic valve 211 of the first cooling / heating switching unit 20A is “closed”, and the second electromagnetic valve 212 is set. As “open”, each refrigeration cycle section 310 of the indoor units 30A and 30B connected to the first cooling / heating switching unit 20A by piping is used as a cooling circuit, and the second cooling / heating switching unit 20B includes a first electromagnetic valve 211, a first The 1 solenoid valve 212 is both “closed” so that the refrigerant does not flow into the indoor unit 30C.

  Note that the program in which order the cooling / heating switching unit 20 is set as the specific cooling / heating switching unit may be set in either the control unit 130 of the outdoor unit 10 or the unit control unit 230 of each cooling / heating switching unit 20.

  Further, unlike this embodiment, the first electromagnetic valve 211 of the first cooling / heating switching unit 20A, which is a specific cooling / heating switching unit, is set to “open” and the second electromagnetic valve 212 is set to “closed”, and piping to the first cooling / heating switching unit 20A. It is good also considering each refrigeration cycle part 310 of indoor unit 30A, 30B connected by (4) as a heating circuit.

  In subsequent step ST204, the compressor 111 of the outdoor unit 10 is started, and in step ST205, the timer 232 provided in the first cooling / heating switching unit 20A is started. The time-up time may be about 40 to 60 minutes, for example.

  In subsequent step ST206, unit control unit 230 of first cooling / heating switching unit 20A determines whether or not the time is up. If the result of the determination is NO and before the time is up, whether or not there is a driving indoor unit in step ST207. Judgment is made.

  The operating indoor unit is an indoor unit that has been detected to have been cooled by the temperature sensor 314 as the compressor 111 is started, and the temperature sensor 314 includes a heat exchanger temperature sensor 314a and a room temperature sensor 314b. Any of these may be used.

  If the determination result is YES and there is an operating indoor unit, in step ST208, the indoor unit control unit 330 of the operating indoor unit includes the address information of the own unit from the indoor unit communication unit 320 and is in cooling operation. Is transmitted to the second communication unit 222 of the cooling / heating switching unit 20.

  In the example of FIG. 5B, the operating indoor units that have been subjected to the cooling operation are the indoor units 30A and 30B, and the second cooling / heating switching unit 20B of the second cooling / heating switching unit 20B is performed by the indoor unit control units 330 of the indoor units 30A and 30B. 2 A cooling operation signal including address information of the own device is transmitted to the communication unit 222.

  In step ST209, the cooling / heating switching unit 20 that has received the cooling operation signal determines whether the own unit is the specific cooling / heating switching unit.

  Here, as shown in FIG. 5A, when the second communication line 61 (61A, 61B) is normally wired, in step ST104 of the wiring confirmation mode, the first cooling / heating switching unit 20A The indoor units 30A and 30B are provisionally registered in the storage unit 231 as belonging indoor units of the own unit, and the first cooling / heating switching unit 20A receives a cooling operation signal from the indoor units 30A and 30B that are the operating indoor units. .

  Since the first cooling / heating switching unit 20A is designated as the specific cooling / heating switching unit in step ST203, the determination result in step ST209 is YES, and in step ST210, the first cooling / heating switching unit 20A The machines 30A and 30B are changed from temporary registration to final registration, and the process returns to step ST206.

  On the other hand, in the case of FIG. 5B, the second cooling / heating switching unit 20B receives the cooling operation signal from the indoor units 30A and 30B that are the operating indoor units, but the second cooling / heating switching unit 20B is switched to the specific cooling / heating switching. Since it is not a unit, the decision result in step ST209 is NO, and the process moves to step ST211.

  In step ST211, the cooling / heating switching unit 20 that is not the specific cooling / heating switching unit that has received the cooling operation signal (cooling / heating switching unit that does not form a cooling circuit) sets the address of the indoor unit 30 that has transmitted the cooling operation signal to "incorrect wiring". Is stored in the storage unit 231. In the case of FIG. 5B, the second cooling / heating switching unit 20 </ b> B stores the addresses of the indoor units 30 </ b> A and 30 </ b> B, which are operation indoor units, in the storage unit 231 as “wrong wiring”.

  In step ST212, the cooling / heating switching unit 20 (second cooling / heating switching unit 20B) sends the addresses of the indoor units 30A, 30B, which are miswired, to the specific cooling / heating switching unit (first cooling / heating switching unit 20A) via the first communication line 51. ).

  Then, in step ST213, the specific cooling / heating switching unit (first cooling / heating switching unit 20A) stores the addresses of the indoor units 30A and 30B in the storage unit 231, and makes the indoor units 30A and 30B belong to the indoor unit to which the own unit belongs. In step ST214, the indoor units 30A and 30B are notified of the group address “A” of the first cooling / heating switching unit 20A, and the process returns to step ST206.

  When the determination result in step ST206 is YES and the time is up, the process proceeds to step ST215, and the specific cooling / heating switching unit (first cooling / heating switching unit 20A) determines that the indoor unit address stored in the storage unit 231 is the “determined” address. Alternatively, it is determined whether any of the “wrong wiring” addresses remains “provisional registration”.

  If the determination result is YES and there is no “tentative registration” indoor unit address, the process proceeds to step ST216. However, if the determination result is NO and there is a “provisional registration” indoor unit address, step S216 is performed. In ST215a, the “tentative registration” indoor unit address (in this case, the address of the indoor unit 30C) is deleted from the storage unit 231, and the process proceeds to step ST216.

  In step ST216, the specific cooling / heating switching unit (first cooling / heating switching unit 20A) sets the second electromagnetic valve 212 forming the cooling circuit to “closed”.

  In step ST217, the variable n is set to n = n + 1, and the second cooling / heating switching unit 20 (second cooling / heating switching unit 20B) of n = 2 is designated as the specific cooling / heating switching unit, and then in step ST218. It is determined whether or not n = N + 1, where N is the total number of cooling / warming switching units 20, that is, whether all cooling / warming switching units 20 are sequentially changed and switched as specific cooling / warming switching units.

  If the determination result is NO and n = N + 1 is not reached, the process returns to step ST203, and this time, the second cooling / heating switching unit 20B is set as the specific cooling / heating switching unit, and the same steps as the first cooling / heating switching unit 20A are executed.

  When the second cooling / heating switching unit 20B is a specific cooling / heating switching unit, the indoor unit 30C becomes a driving indoor unit, and the cooling operation signal is transmitted to the first cooling / heating switching unit 20A. The address of the indoor unit 30C is transmitted as “wrong wiring” to the second cooling / heating switching unit 20B via the communication line 51.

  Then, the second cooling / heating switching unit 20B, which is the specific cooling / heating switching unit, adds the address of the indoor unit 30C to the indoor unit to which the own unit belongs, while deleting the addresses of the temporarily registered indoor units 30A, 30B.

  In the case of FIG. 5B, since there are two cooling / heating switching units 20, when the processing up to step ST217 is completed for the second cooling / heating switching unit 20B, the determination result in step ST218 is YES, and compression is performed in step ST219. After stopping the machine 111, the test operation mode is terminated in step ST220.

  In the subsequent actual air conditioning operation, for example, when a cooling operation signal is output from the remote controller 31A attached to the indoor unit 30A, the cooling operation signal is transmitted to the second cooling / heating switching unit 20B from the second communication line 61A. In the second cooling / heating switching unit 20B, the addresses of the indoor units 30A and 30B are stored as “erroneous wiring”. As a result, the first electromagnetic valve 211 of the first cooling / heating switching unit 20A is “closed”, the second electromagnetic valve 212 is “open”, and the refrigeration cycle unit 310 of the indoor units 30A and 30B is connected to the cooling circuit. Become.

  Similarly, when a heating operation signal is output from the remote controller 31C attached to the indoor unit 30C, for example, the heating operation signal is transmitted from the second communication line 61B to the first cooling / heating switching unit 20A. Then, since the address of the indoor unit 30C is stored as “erroneous wiring”, the address of the indoor unit 30C is transferred to the second cooling / heating switching unit 20B via the first communication line 51 together with the heating operation signal. The first electromagnetic valve 211 of the second cooling / heating switching unit 20B is “open”, the second electromagnetic valve 212 is “closed”, and the refrigeration cycle unit 310 of the indoor unit 30C is a heating circuit.

  As described above, according to the present invention, even if the second communication line wired between the cooling / heating switching unit and the indoor unit is miswired, it remains in the miswired state without actually rewiring. Normal communication can be performed.

DESCRIPTION OF SYMBOLS 10 Outdoor unit 110 Refrigeration cycle unit 111 Compressor 120 Outdoor unit communication unit 130 Outdoor unit control unit 20 (20A, 20B) Cooling / heating switching unit 210 Gas pipe connection switching unit 211, 212 Electromagnetic valve (switching valve)
221 First communication unit 222 Second communication unit 230 Unit control unit 231 Storage unit 30 (30A, 30B, 30C) Indoor unit 31 (31A, 31B, 31C) Remote control 310 Refrigerating cycle unit 311 Indoor heat exchanger 313 Indoor unit expansion valve 314 Temperature sensor 320 Indoor unit communication unit 330 Indoor unit control unit 331 Storage unit 41 Refrigerant piping 41a High pressure gas pipe 41b Low pressure gas pipe 41c Liquid pipe 51 First communication line 61 (61A, 61B) Second communication line

Claims (7)

A plurality of cooling / heating switching units are provided in a refrigerant pipe including a high-pressure gas pipe, a low-pressure gas pipe, and a liquid pipe extending from the outdoor unit, and a predetermined number of indoor units are connected by piping for each of the cooling / heating switching units. One end of the indoor heat exchanger of each indoor unit is connected to the liquid pipe, and the other end side of the indoor heat exchanger is connected to the high-pressure gas pipe side or the low-pressure gas by a switching valve provided in the cooling / heating switching unit. In the air conditioner that enables the air conditioning operation that is a cooling operation or a heating operation of the indoor unit in units of the cooling / heating switching unit by connecting to the pipe side,
Each of the cooling / heating switching units includes a first communication unit and a second communication unit, and a unit control unit for controlling the communication units and the switching valve. The indoor units include an indoor unit communication unit, the indoor unit Including an indoor communication unit and an indoor unit control unit that controls the operation of the indoor unit,
The first communication unit communicates with the outdoor unit control unit provided in the outdoor unit and communicates with the first communication unit provided in another cooling / heating switching unit via the first communication line, The second communication unit communicates with the indoor unit communication unit via a second communication line,
The air conditioner has a wiring confirmation mode and a test operation mode as operation modes for detecting and correcting erroneous wiring of the second communication line,
As the wiring confirmation mode, the unit control unit communicates between the second communication unit and the indoor unit communication unit via the second communication line, acquires address information from the indoor unit, and performs self-cooling / warming. Register as an indoor unit to which the switching unit belongs,
Next, as the test operation mode, one of the plurality of cooling / heating switching units is set as a specific cooling / heating switching unit, and the switching valve of the specific cooling / heating switching unit is connected to the specific cooling / heating switching unit by piping. The air conditioner can be operated in an air conditioner, and the indoor unit connected to the other cooling / heating switching unit is prevented from flowing refrigerant by the switching valve of the other cooling / heating switching unit. Start the compressor of the outdoor unit,
Among the indoor units, let the second communication unit transmit the air conditioning operation signal including the address information of the own unit from the operating indoor unit in which the air conditioning operation is performed by starting the compressor, through the second communication line, When the second communication unit that has received the air conditioning operation signal is the second communication unit of the other cooling / heating switching unit, the unit control unit of the other cooling / heating switching unit may provide address information of the operating indoor unit. Is transmitted to the specific cooling / heating switching unit via the first communication line, and the unit control unit of the specific cooling / heating switching unit registers the operating indoor unit as a belonging indoor unit of the self-cooling / heating switching unit,
An air conditioner characterized in that the plurality of cooling / heating switching units are sequentially changed and one of them is repeatedly executed as the specific cooling / heating switching unit.   If the second communication unit that has received the air conditioning operation signal is the second communication unit of the specific cooling / heating switching unit, and the operating indoor unit is an indoor unit registered in the wiring confirmation mode, the specific cooling / heating is performed. 2. The air conditioner according to claim 1, wherein the unit control unit of the switching unit confirms and registers the operating indoor unit using the second communication line as a normal wiring.   The unit controller of the specific cooling / heating switching unit registers the indoor units that do not transmit the air-conditioning operation signal even if a predetermined time-up time elapses, among the indoor units registered in the wiring confirmation mode. The air conditioner according to claim 2, wherein the air conditioner is deleted from the belonging indoor units.   During the air conditioning operation performed after the test operation mode, a remote controller is provided for the indoor unit connected to the second communication unit of the cooling / heating switching unit other than the cooling / heating switching unit to which the second communication line is pipe-connected. The cooling / heating switching signal output from the apparatus is transferred from the first communication unit of the other cooling / heating switching unit to the first communication unit of the cooling / heating switching unit to which the indoor unit is pipe-connected. Item 4. The air conditioner according to any one of Items 1 to 3.   In the wiring confirmation mode, each unit control unit transmits a wiring confirmation signal from the second communication unit to the indoor unit communication unit, and the indoor unit control unit that has received the wiring confirmation signal is set in advance. A response signal including the address information of the own unit is transmitted from the indoor unit communication unit to the second communication unit, and the unit control unit transmits the indoor unit having the response signal to the room to which the self-cooling / warming switching unit belongs. The air conditioner according to any one of claims 1 to 4, wherein a procedure for registering as an air conditioner is executed.   The indoor unit further includes a temperature sensor for detecting the temperature of the indoor heat exchanger or the indoor temperature, and an indoor unit expansion valve, and before executing the test operation mode, before starting the compressor, The unit control unit transmits an expansion valve opening signal from the second communication unit to the associated indoor unit so that the indoor unit expansion valve opens at a predetermined opening degree. The air conditioner of any one of Claims.   The operating indoor unit transmits an air conditioning operation signal including address information of the own unit from the indoor unit communication unit to the second communication unit when a change in the output signal of the temperature sensor is detected. The air conditioner according to any one of claims 1 to 6.

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