JP4513792B2 - Air conditioning control method - Google Patents

Description

The present invention is an invention relating to air-conditioning control method, for example, it can be applied to air conditioning control method having a plurality of refrigerant system.

  For example, Patent Document 1 exists as a conventional technique related to an air conditioning system including a plurality of refrigerant systems.

  In the technique related to Patent Document 1, there are a plurality of refrigerant systems that include an outdoor unit and a plurality of indoor units connected to the outdoor unit via a refrigerant pipe and a communication line. And the remote controller connected to each of multiple systems can determine an operation mode. In the technology related to Patent Document 1, the operation mode of the outdoor unit and the indoor unit do not match by specifying any one of the remote controllers for each system and giving the selected remote controller the right to select the operation mode. Was avoiding.

Japanese Patent Laid-Open No. 7-19583

  However, there are cases where the operation mode of the outdoor unit is desired to be set by an operation other than the remote controller. For example, when performing a test run. In this case, there is a case where it is desired to perform a test run only for a certain system among a plurality of systems. In such a case, the specific remote controller described in Patent Document 1 is specified, and even if it has the right to select the operation mode, the operation mode between the system to be trial run and the other system is separated. I can't.

  On the other hand, when the trial operation is completed, it is desirable to control the air conditioning of a plurality of systems in the same operation mode.

Therefore, the present invention provides an air conditioning system composed of a plurality of refrigerant systems, wherein the operation mode of the air conditioning control in one refrigerant system can lead the air conditioning control in the other refrigerant system, and the operation of the other refrigerant system An object of the present invention is to provide an air conditioning control method that can be performed separately from the one refrigerant system.

In order to achieve the above object, an air conditioning control method according to a first aspect of the present invention includes a first outdoor unit (1) connected to the first outdoor unit via a refrigerant pipe. A first refrigerant system (A1) composed of one indoor unit (2), a second outdoor unit (6), a second outdoor unit connected to the second outdoor unit via a refrigerant pipe. An air conditioning control method for an air conditioning system including at least a second refrigerant system (A2) configured from an indoor unit (7), wherein the second outdoor unit performs a predetermined process on itself (A). (B1) After the step (A), the second indoor unit detects a command from the second outdoor unit and / or a command from a remote controller. The first state ("main" state) in which air conditioning control is possible due to A step (S2) of determining whether or not the second state (“subordinate” state) in which the same air conditioning control as the air conditioning of the first indoor unit is possible due to a command from the system; ) When it is determined in step (B) that the second indoor unit is in the second state, the signal is received from the second state by receiving a signal from the second outdoor unit. Step (S3) for changing the state of the second indoor unit to a state where only the air-conditioning control resulting from the above can be performed, (D) After the step (C), for the second indoor unit, A step (S4) of performing an air conditioning operation resulting from the predetermined process for a predetermined period; and (E) a step of returning the second indoor unit to the second state after the predetermined period has elapsed. (S5) and (F) the second indoor unit in step (B) If it is determined that the state is the first state, the step of maintaining the first state and performing the air-conditioning operation resulting from the predetermined processing on the second indoor unit (S6) ).

Also, the air conditioning control method according to claim 2 is the air conditioner control method according to claim 1, wherein step (F), said a second state with respect to the first indoor unit And a step of performing an air conditioning operation resulting from the predetermined processing.

The air conditioning control method according to claim 3 is the air conditioning control method according to claim 1, wherein the second outdoor unit can set the predetermined period, and the step (E) Is a step of automatically returning the second indoor unit to the second state after elapse of the predetermined period.

An air conditioning control method according to a fourth aspect is the air conditioning control method according to the third aspect, wherein the setting of the predetermined period can be changed.

In the invention according to claim 1 or claim 2 of the present invention, the second indoor unit receives the signal from the first refrigerant system, and controls the same air conditioning as the air conditioning of the first indoor unit. On the other hand, it is possible to control air conditioning by receiving a signal from the second outdoor unit. When a predetermined process is performed on the second outdoor unit, the second indoor unit receives a signal from the second outdoor unit for a predetermined period after the predetermined process. Air conditioning control due to

In the invention according to claim 3 or claim 4, except for the predetermined period, the second indoor unit is the same as the air conditioning of the first indoor unit due to reception of a signal from the first refrigerant system. Air conditioning control is implemented.

  Therefore, when the air conditioning control of the second indoor unit is subordinate to the air conditioning control of the first indoor unit before the start of the predetermined period, the second indoor unit is automatically restored after the predetermined period has elapsed. Can be restored to its dependent state.

  Hereinafter, the present invention will be specifically described with reference to the drawings showing embodiments thereof.

<Embodiment>
FIG. 1 is a diagram showing an outline of a configuration of an air conditioning system according to the present embodiment.

  As shown in FIG. 1, the air conditioning system includes a first refrigerant system A1 and a second refrigerant system A2. Here, the first refrigerant system A1 includes the first outdoor unit 1, the first indoor unit 2, and the remote controller 3, and the second refrigerant system A2 includes the second outdoor unit 6 and the second outdoor unit 6. It is assumed that it is composed of two indoor units 7.

  The first outdoor unit 1 and the first indoor unit 2 are connected via a refrigerant pipe (not shown for simplification of the drawing), and the second outdoor unit 6 and the second indoor unit 7 are connected. Is connected via another refrigerant pipe (not shown for simplification of the drawing). When a compressor (not shown) or the like disposed in the first outdoor unit 1 (or the second outdoor unit 6) is turned on and circulation of the refrigerant is started, the refrigerant pipe is connected. The refrigerant is supplied to the first indoor unit 2 (or the second indoor unit 7).

  The first outdoor unit 1 and the first indoor unit 2 are connected via a communication line 4, and the first indoor units 2 are connected to each other. The first indoor unit 2 and the remote controller 3 are connected via communication lines 5 and 10. The communication lines 10 and 5 are provided on the first indoor unit 2 side and the remote controller 3 side, respectively. Moreover, the 2nd outdoor unit 6 and the 2nd indoor unit 7 are connected via the communication line 8, and the 1st outdoor units 1 are mutually connected. A connection point between the communication lines 5 and 10 and the second indoor unit 7 are connected via a communication line 9. Therefore, data transmission / reception is performed between the first outdoor unit 1 and the first indoor unit 2, between the first indoor unit 2 and the remote controller 3, and between the second outdoor unit 6 and the second indoor unit 7. It becomes possible. Note that the communication line 9 can only transmit signals from the communication lines 5 and 10 to the second indoor unit 7 (that is, one-way data transmission).

  Each communication line 4, 5, 8, 9 may be wireless or wired.

  The first indoor unit 2 can control the air conditioning caused by the signal (command) from the remote controller 3 and can receive the signal (command) from the first outdoor unit 1. It is possible to control the air conditioning caused by the signal.

  More specifically, the user performs a predetermined operation on the remote controller 3. In this case, the remote controller 3 transmits a signal corresponding to the predetermined operation (that is, a cooling / heating command such as a predetermined wind force and a predetermined temperature) to the first indoor unit 2. The 1st indoor unit 2 which received the said signal performs the air-conditioning control resulting from the said signal. In addition, when a signal related to predetermined air conditioning is transmitted from the first outdoor unit 1 by a predetermined operation (for example, a test operation) for the first outdoor unit 1, the first room that has received the signal. The machine 2 performs air conditioning control resulting from the signal.

  On the other hand, the second indoor unit 7 can control the same air conditioning as the air conditioning of the first indoor unit 2 due to the reception of the signal (command) from the first refrigerant system A1. At the same time, in the air conditioning system according to the present invention, by receiving a signal (command) from the second outdoor unit 6, it is possible to control the air conditioning caused by the signal.

  More specifically, when the air conditioning control of the first indoor unit 2 changes (for example, the operation mode) in a period other than the predetermined period described later, the first indoor unit 2 is connected to the second indoor unit 2 via the communication line 9. The signal which shows the condition of own air conditioning is transmitted with respect to this indoor unit 7. The second indoor unit 7 that has received the signal performs the same air conditioning control (for example, the same operation mode) as the air conditioning of the first indoor unit 2 after the air conditioning change. Further, within a predetermined period to be described later, the second indoor unit 7 is transmitted from the second outdoor unit 6 based on a predetermined operation (for example, a test operation) performed on the second outdoor unit 6. The air conditioning control resulting from the received signal is performed.

  Here, the first indoor unit 2 is air-conditioned based on the operation performed on the remote controller 3. The air conditioning control of the first indoor unit 2 leads the second refrigerant system A2 (hereinafter also referred to as “main” state). Therefore, the second indoor unit 7 subordinate to the air conditioning control of the first refrigerant system A1 (hereinafter also referred to as “subordinate” state) is indirectly in the same remote controller 3 except for a predetermined period described later. It can also be grasped that the operation based on can be performed. Therefore, from this point of view, it can be understood that the first refrigerant system A1 and the second refrigerant system A2 belong to the same remote controller group.

  Further, as described above, during the normal operation of the air conditioning system (except for a predetermined period described later), the second indoor unit 7 performs air conditioning caused by a signal (command) transmitted from the first refrigerant system A1. Implement control. On the other hand, when a predetermined process is performed on the second outdoor unit 6, the second indoor unit 7 transmits from the second outdoor unit 6 for a predetermined period after the predetermined process. The air conditioning control caused by the signal (command) to be executed is executed.

  Next, the air conditioning control operation of the air conditioning system according to the present embodiment will be described with reference to the flowchart in FIG.

  In the configuration of FIG. 1, when the user operates the first outdoor unit 1 or the remote controller 3, a “heating” signal (command) from the first outdoor unit 1 or the remote controller 3 such as a predetermined temperature and wind force. ) Is output. Then, the 1st indoor unit 2 which received the said signal performs air conditioning of "heating" based on the said signal. Then, the first indoor unit 2 that has started the air conditioning for “heating” transmits a signal indicating the air conditioning status of the own unit to the second indoor unit 7.

  The second indoor unit 7 that has received a signal from the first refrigerant system A1 (more specifically, the first indoor unit 2) (a signal indicating “heating” of a predetermined wind power / temperature) Based on the signal (command), the same air conditioning operation as the air conditioning of the first indoor unit 2 (that is, the “heating” operation) is performed.

  Here, during normal operation of the air-conditioning system (that is, a period other than the predetermined period), as described above, the second indoor unit 7 performs air conditioning caused by the signal from the first refrigerant system A1. (That is, the same air conditioning control as that of the first indoor unit 2 is performed).

  In this situation, for example, it is assumed that a predetermined process is performed on the second outdoor unit 6 in order for the user to perform a trial operation of the second refrigerant system A2. Then, the 2nd outdoor unit 6 detects that the said predetermined | prescribed process was performed to itself (step S1).

  After step S1, the second outdoor unit 6 is in the master-slave state of the second indoor unit 7 belonging to the second refrigerant system A2 (that is, the second indoor unit 7 controls the air conditioning of the first indoor unit 2). It is possible to control the same air conditioning as the air conditioning of the first indoor unit 2 due to the “main” state (which can be grasped as the first state) leading from the first or the instruction from the first refrigerant system A1. A determination is made as to whether it is in the “subordinate” state (can be grasped as the second state) (step S2).

  Here, in the second indoor unit 7, information indicating whether the own unit is in the “main” state or the “subordinate” state is disposed in the second indoor unit 7, for example. Is set in a storage unit (not shown in FIG. 1). Therefore, the second outdoor unit 6 refers to the information in the storage unit via the communication line 8 to determine whether the second indoor unit 7 is in the “main” state or the “subordinate” state. Judgment can be made.

  In the present embodiment, the second indoor unit 7 is in the “subordinate” state. Therefore, it becomes “subordinate” in step S2, and the process proceeds to step S3. In step S <b> 3, the second outdoor unit 6 changes the state of the second indoor unit 7 so that only the air-conditioning control caused by the signal is performed by receiving the signal from the second outdoor unit 6. .

  And the 2nd indoor unit 7 implements the operation | movement of the air conditioning resulting from the said predetermined | prescribed process for a predetermined period after the predetermined | prescribed process with respect to the 2nd outdoor unit 6 (step S4). For example, when the second outdoor unit 6 is subjected to a predetermined process for performing a “cooling” test operation in the second refrigerant system A2, the second indoor unit 7 Based on the signal from the outdoor unit 6, the "cooling" test operation is performed only for a predetermined period (step S4). Note that the predetermined period is preset in the second indoor unit 7 or the second outdoor unit 6, and the value can be changed.

  When a predetermined period is set for the second outdoor unit 6, the state of the second indoor unit 7 is changed to “ The state is returned to the “subordinate” state (that is, the same air conditioning control as that of the first indoor unit 2 is performed by receiving a signal from the first refrigerant system A1) (step S5). On the other hand, when a predetermined period is set for the second indoor unit 7, the second indoor unit 7 is controlled by the control unit provided in the second indoor unit 7 by itself. The state of the machine 7 is returned to the “subordinate” state (step S5).

  As can be seen from the above, during the period other than the predetermined period, the second indoor unit 7 is in the “subordinate” state (that is, the air conditioner of the first indoor unit 2 is received by receiving a signal from the first refrigerant system A1. This is a state in which the same air conditioning control is performed.

  On the other hand, a trial operation of the first refrigerant system A1 will be described with reference to FIG. When the trial operation is performed on the first outdoor unit 1, the state of the first indoor unit 2 is “main”, and therefore the first indoor unit 2 is based on the signal from the first outdoor unit 1. Air conditioning operation is possible. Therefore, the process proceeds from step S2 to step S6. In step S6, as described above, an operation (for example, a predetermined test operation) resulting from the predetermined process is started. Needless to say, the state of the first indoor unit 2 is not changed after the predetermined test run.

  As described above, in the air conditioning system according to the present embodiment, when the second outdoor unit 6 is subjected to predetermined processing, the second indoor unit 7 that has been in the “subordinate” state until then is After the predetermined processing, the air conditioning control caused by the signal from the second outdoor unit 6 is performed only for a predetermined period.

  Accordingly, in the first refrigerant system A1, the normal air conditioning operation is performed in the second refrigerant system A2 while the normal air conditioning operation resulting from the signal (command) of the remote controller 3 or the first outdoor unit 1 is performed. For example, a trial run under the control of the second outdoor unit 6 can be performed.

  In the air conditioning system according to the present embodiment, the state of the second indoor unit 7 can be automatically returned to the “subordinate” state after the predetermined period has elapsed by the process of step S5. In other words, the state of the second indoor unit 7 is changed from the state in which the air conditioning operation caused by the signal from the second outdoor unit 6 can be performed to the signal from the first refrigerant system A1 before the predetermined processing. It is possible to return to the state in which the same air conditioning operation as the air conditioning of the first indoor unit 2 caused by the above is performed.

  You may take the structure which can replace the master-slave relationship of the 1st indoor unit 2 and the 2nd indoor unit 7. FIG. If the communication line 9 is capable of bidirectional communication and the communication line 10 can be switched to a mode in which communication can be performed only in one direction from the connection point of the communication lines 5 and 9 toward the first indoor unit 2, a master-slave relationship is established. Can be replaced. Such switching of the communication method in the communication line can be performed by using a well-known technique.

  In addition, in this Embodiment, the air conditioning system comprised from 1st refrigerant | coolant system | strain A1 and 2nd refrigerant | coolant system | strain A2 was demonstrated for the simplification of description. However, the following configuration may be used.

  For example, in an air conditioning system including three or more refrigerant systems, all the refrigerant systems may belong to the same remote controller group. In this case, when the indoor units belonging to one refrigerant system are in the “main” state, all the indoor units belonging to other refrigerant systems are in the “subordinate” state.

It is a figure for demonstrating the structure of the air conditioning system in one Embodiment of this invention. It is a flowchart for demonstrating operation | movement of the air conditioning system concerning one Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 1st outdoor unit 2 1st indoor unit 3 Remote controller 4, 5, 8, 9, 14, 15 Communication line 6 2nd outdoor unit 7 2nd indoor unit A1 1st refrigerant system A2 2nd Refrigerant system

Claims (4)

A first refrigerant system (A1) composed of a first outdoor unit (1), a first indoor unit (2) connected to the first outdoor unit via a refrigerant pipe, and a second Air including at least a second refrigerant system (A2) composed of the outdoor unit (6) of the first and second indoor units (7) connected to the second outdoor unit via a refrigerant pipe. An air conditioning control method for a harmony system,
  The second outdoor unit is
  (A) a step (S1) of detecting that a predetermined process has been performed on itself;
  (B) After the step (A), the second indoor unit is capable of controlling air conditioning caused by a command from the second outdoor unit and / or a command from a remote controller. A second state ("subordinate" state) that is in the state ("main" state) or that can be controlled by the same air conditioning as that of the first indoor unit due to a command from the first refrigerant system ) Step (S2) for determining whether or not
  (C) If it is determined in step (B) that the second indoor unit is in the second state, from the second state, by receiving a signal from the second outdoor unit, A step (S3) of changing the state of the second indoor unit to a state where only the air conditioning control caused by the signal can be performed;
  (D) After the step (C), a step (S4) of performing an air conditioning operation resulting from the predetermined process for a predetermined period on the second indoor unit;
  (E) after the predetermined period has elapsed, returning the second indoor unit to the second state (S5);
  (F) When it is determined in step (B) that the second indoor unit is in the first state, the first state is maintained, and the second indoor unit is A step (S6) of performing an air conditioning operation resulting from the predetermined processing,
The air-conditioning control method characterized by the above-mentioned. The step (F)
  In the second state, the first indoor unit is also a step of performing an air conditioning operation resulting from the predetermined processing.
The air conditioning control method according to claim 1. The second outdoor unit is
  The predetermined period can be set,
  The step (E)
  A step of automatically returning the second indoor unit to the second state after elapse of the predetermined period;
The air conditioning control method according to claim 1. The predetermined period is set as follows:
  Can be changed,
The air conditioning control method according to claim 3.

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