JP2013238340A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioner capable of performing preservation and backup of function setting data, only by an outdoor unit and an indoor unit, without using special physical components such as a DIP switch and an external device.SOLUTION: An air conditioner includes a control unit 1b of an outdoor unit 1 and control units 3b, 4b of indoor units 3, 4, wherein the control unit 1b and the control units 3b, 4b include: a determination function for determining whether the content of data of a nonvolatile memory 1d of a new control board 1a after replacement is a default value, when the control board 1a of the outdoor unit 1 or the indoor unit is replaced; a retrieval function for retrieving other outdoor unit or indoor units 3, 4 preserving the function setting data concerning the outdoor unit 1 or indoor unit with the control board 1a replaced, when the data content of a determined non-volatile memory 1d is the default value; and a transfer function for transferring and preserving the function setting data, preserved in the outdoor unit or the indoor units 3, 4 retrieved by the retrieval function, in the outdoor unit 1 or the indoor unit with the board replaced.

Description

The present invention relates to a service for maintaining and managing an air conditioner, and more particularly to an air conditioner when a control board is replaced due to a failure or the like.

Conventionally, in this type of air conditioner, the function setting of the air conditioner has been performed by a combination of ON and OFF of the DIP switch provided in the indoor unit and the outdoor unit.
Further, a technique is known in which function setting data is stored in a nonvolatile memory, and the memory setting information is transferred to an external device to backup the function setting data (see, for example, Patent Document 1).

JP 2007-318572 A

In the above-described conventional technology, since a DIP switch or an external device must be used, it takes time to invite an increase in product cost and a setting operation. On the other hand, with an increase in control functions, there is a problem that it is necessary to increase the number of DIP switches and increase the storage media of external devices.

The present invention has been made to solve the above-described problems, and a first object is to provide an outdoor unit that constitutes an air conditioner without using special physical components such as a DIP switch or an external device. In addition, the function setting data can be stored and backed up only by the indoor unit. The second object is to determine whether or not to restore the function setting when the control board is replaced due to a failure or the like, thereby enabling the restoration operation. The third object is to make it possible to handle data relating to the model name, rated input, standby power, and power consumption in the same manner as the function setting data. The fourth object is to enable highly reliable communication by executing transfer of function setting data at a low timing of communication traffic. A fifth object is to provide a highly reliable air conditioner that can perform function setting without losing the function setting data when either the outdoor unit or the indoor unit breaks down by distributing the transfer destination of the function setting data. Is what you get. The sixth object is to restore the function setting data even when the consistency of the function setting data received from a plurality of indoor units or outdoor units cannot be obtained.

  In the air conditioner according to the present invention, a plurality of outdoor units that perform air conditioning and a plurality of indoor units that are air conditioning heat sources are connected to be able to transmit and receive via communication means, and are set in the outdoor unit or the indoor unit The function setting data related to the controlled function is transmitted to the outdoor unit or the indoor unit other than the outdoor unit or the indoor unit, and the transmitted function setting data is the control board of the outdoor unit or the indoor unit that has received the function setting data. When the control board is replaced in an air conditioner that is stored as backup data in the non-volatile memory and is configured so that the saved function setting data can be transferred to and from other outdoor units or indoor units. In addition, a determination function for determining whether or not the data content of the non-volatile memory of the new control board after replacement is a default value and the data content of the determined non-volatile memory are Search function for searching for other outdoor units or indoor units that store function setting data related to outdoor units or indoor units whose control boards have been replaced, and outdoor units that have been searched for by the search function Alternatively, the outdoor unit and the indoor unit are provided with a transfer function for transferring and storing the function setting data stored in the indoor unit to the outdoor unit or the indoor unit after board replacement.

  The air conditioner of the present invention stores function setting data related to an outdoor unit or an indoor unit whose control board has been replaced when the data content of the nonvolatile memory of the new control board after replacement is a default value. Because it is configured to search for other outdoor units or indoor units, transfer the function setting data stored in the searched outdoor unit or indoor unit to the outdoor unit or indoor unit after board replacement, and save it. When the control board is replaced due to a failure, the function setting data can be restored without human intervention. As a result, it is not necessary to use a special physical component such as a DIP switch or an external device, so that an increase in product cost can be suppressed. In addition, since the function setting data is backed up by a plurality of outdoor units or indoor units, the function setting data can be saved and used for data restoration unless all the outdoor units and indoor units in the air conditioner are damaged. Also have.

It is a block diagram which shows the whole system of the air conditioner in Embodiment 1 of this invention. It is explanatory drawing of the sequence for constructing | assembling the connection information of the air conditioner in the said Embodiment 1. FIG. It is a figure of the control flowchart which shows the restoration operation procedure of the function setting of the outdoor unit of the air conditioner in the said Embodiment 1. FIG. It is a figure of the control flowchart which shows the restoration operation procedure of the function setting of the indoor unit of the air conditioner in the said Embodiment 1. FIG. It is a control flowchart figure which shows the backup procedure of the function setting data of the air conditioner in the said Embodiment 1. FIG.

Embodiment 1 FIG.
FIG. 1 is a configuration diagram showing the entire system of an air conditioner according to Embodiment 1 of the present invention.
In FIG. 1, an air conditioner according to this embodiment includes, for example, two outdoor units 1 and 2 that are air conditioning heat sources, and two indoor units 3 and 4 that perform air conditioning, for example. (Not shown) and a transmission line 7. Commercial power is supplied to the outdoor units 1 and 2 via the power line 5 and to the indoor units 3 and 4 via the power line 6. Since the outdoor units 1 and 2, the indoor units 3 and 4, and the remote controllers 3 e and 4 e communicate via the transmission line 7, unique identification addresses that are not duplicated are assigned.

The outdoor units 1 and 2 and the indoor units 3 and 4 have control boards 1a, 2a, 3a, and 4a, respectively. These control boards 1a, 2a, 3a, and 4a are respectively connected to control devices 1b, 2b, 3b, and 4b composed of a microcomputer (CPU) and the like, and communication circuit units 1c, 2c, and 3c for transmitting and receiving data. , 4c, nonvolatile memories 1d, 2d, 3d, 4d for storing control state data, program data, and the like, and rotary switches 1f, 2f, 3f, 4f for inputting data from the outside. The transmission line 7 is for transmitting and receiving the function setting data of the outdoor units 1 and 2 and the indoor units 3 and 4 between the outdoor units 1 and 2 and the indoor units 3 and 4, and each control board 1a. , 2a, 3a, 4a are connected to each of the communication circuit units 1c, 2c, 3c, 4c. These communication circuit portions 1c, 2c, 3c, 4c and the transmission line 7 are examples of communication means according to the present invention. The transmission line 7 is also connected to remote controllers 3e and 4e for operating the indoor units 3 and 4, respectively.

  In the outdoor units 1 and 2 and the indoor units 3 and 4, function setting data related to the control function is input and set in advance from, for example, rotary switches 1f, 2f, 3f, and 4f. As this function setting data, as shown in Table 1 below, for example, to support model switching, temperature display, startup speed-up setting, air conditioner trial operation, periodic inspection, operation status monitoring, unit setting information. Data on model name, rated input, standby power, or power consumption can be listed. These function setting data are transmitted to the other outdoor units 1 and 2 or the indoor units 3 and 4, and the transmitted function setting data is the outdoor unit 1 or 2 or the indoor unit 3 that has received these function setting data. 4 are stored as backup data in the nonvolatile memories 1d, 2d, 3d, and 4d of the control boards 1a, 2a, 3a, and 4a. The function setting data stored in the non-volatile memories 1d, 2d, 3d, 4d of the control boards 1a, 2a, 3a, 4a can be mutually transferred between the other outdoor units 1, 2 or the indoor units 3, 4. It is configured as follows.

The nonvolatile memories 1d, 2d, 3d, and 4d of the control boards 1a, 2a, 3a, and 4a include “determination function”, “search function”, “transfer function”, “ A control program for executing the “detection function”, “backup transfer function”, “data selection function”, and “selected data storage function” is stored in advance as program data. The control devices 1b, 2b, 3b, and 4b of the control boards 1a, 2a, 3a, and 4a read the program data from the nonvolatile memories 1d, 2d, 3d, and 4d and execute the functions. It has become.

FIG. 2 is an explanatory diagram of a sequence for constructing the relationship of connection information of the air conditioner according to Embodiment 1 of the present invention. In the figure, in the outdoor units 1 and 2 and the indoor units 3 and 4 in this air conditioner, identification addresses having non-overlapping values are set from the rotary switches 1f, 2f, 3f, and 4f, for example, manually. For example, identification address data represented by 1 to 50 is assigned to the indoor unit, and identification address data represented by, for example, 51 to 99 is assigned to the outdoor unit. Here, the communication response between the outdoor unit 1 and the indoor units 3 and 4 will be described as a sequence example for the time being.

The operation will be described. First, when the power is turned on, power is supplied to the outdoor units 1 and 2 via the commercial power source 5 and to the indoor units 3 and 4 via the commercial power source 6. The remote controllers 3e and 4e are supplied with power from the indoor units 3 and 4 via the transmission line 7. Therefore, the outdoor unit 1 with the identification address 51 transmits the identification command 301 via the transmission line 7 to the indoor units to which the identification addresses 1 to 50 are assigned (in this example, the indoor unit 3 and the indoor unit 4). . Next, the indoor unit 3 having the identification address 1 that has received the identification command 301 transmits an identification command response 401 to the outdoor unit 1 having the identification address 51 via the transmission line 7. When the outdoor unit 1 at the address 51 receives the identification command response 401, the outdoor unit 1 transmits a connection information setting command 501 to the indoor unit 3 at the address 1. Further, the indoor unit 3 at the address 1 that has received the connection information setting command 501 stores the connection information of the outdoor unit 1 at the address 51 in the nonvolatile memory 3d, and then sets the connection information response to the outdoor unit 1 at the address 51. 601 is transmitted. The outdoor unit 1 at the address 51 that has received the connection information setting response 601 stores the connection information of the indoor unit 3 at the address 1 in the nonvolatile memory 1d. Subsequently, the outdoor unit 1 at the address 51 transmits the identification command 302 to the target of the address 2 that is not set as an indoor unit, but no response to the identification command is returned. Therefore, it is possible to determine that the indoor unit is not connected to the address 2.

  The above-described series of processing from the transmission of the identification command to the confirmation of the presence / absence of the connection information setting response is repeated for addresses 1 to 50, so that the non-volatile memory 1 d of the outdoor unit 1 has a room connected to the outdoor unit 1. Information on the units 3 (identification address = 1) and 4 (identification address = 3, for example) is stored, and information on the connected outdoor unit 1 is stored in the non-volatile memories 3d and 4d of the indoor units 3 and 4. Is done. Thereby, the construction of the connection information is completed. Based on the identification addresses stored in the nonvolatile memories 1d, 3d, and 4d, the function setting data backup and restoration operations to be described in detail later are performed. In the above description, the outdoor unit 1 is described as an example of the outdoor unit. However, in the case of the outdoor unit 2, connection information relations can be constructed by the same processing as the outdoor unit 1.

Next, a procedure for restoring the function setting data when the control board of the “outdoor unit” is damaged will be described with reference to the flowchart of FIG. Here, the case where the control board 1a of the outdoor unit 1 is damaged is illustrated.
When the control board 1a of the outdoor unit 1 is damaged, the service board replaces the control board 1a of the outdoor unit 1 with a new one (Y in step ST1), and the power is turned on (Y in ST2). After the power is turned on, the control device 1b of the outdoor unit 1 performs a startup process. First, the outdoor unit 1 transmits an identification command to all the indoor units (ST3), and constructs connection information with, for example, the indoor units 3 and 4 that have responded to the identification command (ST4). Thereafter, the outdoor unit 1 reads function setting data from the nonvolatile memory 1d (ST5).

Incidentally, the default values in the storage areas of the nonvolatile memories 1d, 2d, 3d, and 4d are all “FF”. Therefore, the control device 1b of the outdoor unit 1 determines whether or not the work for restoring the function setting data is necessary based on the value read from the nonvolatile memory 1d (ST6). That is, the control device 1b determines whether or not the data contents read from the nonvolatile memory 1d are all “FF” (determination function). If the data contents of the nonvolatile memory 1d are not all “FF” (N in ST6), it is determined that the function setting data need not be restored, and the start-up process is terminated (ST12). On the other hand, when all the values read from the nonvolatile memory 1d are “FF” (Y in ST6), the control device 1b of the outdoor unit 1 determines that the function setting data needs to be restored and connected. A request command for requesting function setting data related to the nonvolatile memory 1d of the outdoor unit 1 is transmitted to all of the indoor units 3 and 4 that are constructing information (ST7).

If the control devices 3b and 4b of the indoor units 3 and 4 that have received the request command have stored the function setting data of the outdoor unit 1 in their nonvolatile memories 3d and 4d (Y in ST8: search function), the function The setting data is transferred to the outdoor unit 1 (ST9). The outdoor unit 1 that has found the indoor units 3 and 4 in this way stores the received function setting data in the nonvolatile memory 1d (ST10: transfer function). Then, the control device 1b of the outdoor unit 1 collates the received function information data when there is function setting data whose values do not match among the two types of function setting data received from the plurality of indoor units 3 and 4. Only the function information data having consistency is selected (data selection function), and the selected function information data is stored in the nonvolatile memory 1d (selected data storage function). If more than 3 indoor units have been received, the function setting data stored in the largest number of indoor units is regarded as the most consistent data, and is stored in the nonvolatile memory 1d, and the start-up process is completed. (ST12). On the other hand, when the function setting data of the outdoor unit 1 is not stored in the non-volatile memories 3d and 4d of the indoor units 3 and 4 (N of ST8), the control board 1a of the outdoor unit 1 has a preset function setting. The initial value of the data is stored in the nonvolatile memory 1d (ST11), and the start-up process is terminated (ST12).

Next, a procedure for restoring the function setting data when the control board of the “indoor unit” is damaged will be described with reference to the flowchart of FIG. Here, the case where the control board 3a of the indoor unit 3 is damaged is illustrated.
When the control board 3a of the indoor unit 3 is damaged, the service board replaces the control board 3a of the indoor unit 3 (Y in step RT1) and further turns on the power (Y in RT2). Then, when receiving the identification command from the outdoor unit 1 (RT3), the control device 3b of the indoor unit 3 reads the function setting data from the replaced nonvolatile memory 3d (RT4). Incidentally, the default values of the storage areas of the nonvolatile memories 1d, 2d, 3d, and 4d are all “FF”. Therefore, the control device 3b of the indoor unit 3 determines whether or not the function setting data needs to be restored based on the value read from the nonvolatile memory 3d (RT5: determination function). If all the values read from the nonvolatile memory 3d are not “FF” (N in ST5), the control device 1b determines that the restoration of the function setting data is unnecessary, and ends the startup process (RT11).

On the other hand, when all the values read from the nonvolatile memory 3d are “FF” (Y of ST5), the control device 3b of the indoor unit 3 determines that the function setting data needs to be restored, and the connection information A request command for requesting function setting data related to the nonvolatile memory 3d of the indoor unit 3 is transmitted to the outdoor unit 1 that constructs (RT6). When the control device 1b of the outdoor unit 1 that has received the request command confirms that the function setting data of the indoor unit 3 is stored in the nonvolatile memory 1d (Y of RT7: search function), the function setting data is transmitted to the indoor unit 3 (RT8). The control device 3b of the indoor unit 3 stores the received function setting data in the nonvolatile memory 3d (RT9: transfer function). When the control device 1b of the outdoor unit 1 recognizes that the function setting data of the indoor unit 3 is not stored in the nonvolatile memory 1d (N of RT7), the control device 3b of the indoor unit 3 The initial value of the setting data is stored in the nonvolatile memory 3d (RT10), and the start-up process is terminated (RT11).

The processing procedure of “function setting data backup” will be described with reference to the flowchart of FIG.
The backup of the function setting data by the control devices 1b, 2b, 3b, 4b is performed after the power is turned on or after 24 hours have elapsed from the completion of the previous function setting data backup process (Y in step QT1). This is to avoid a communication abnormality due to an increase in communication traffic if the function setting data is backed up when the communication traffic is high. Further, the control devices 1b, 2b, 3b, 4b determine whether or not the air conditioner is in a thermo-off state (QT2: detection function), and when detecting that the air conditioner is in a thermo-off state, that is, communication traffic Is low, the function setting data is backed up (Y in QT2).

In the backup processing described above, the control devices 1b and 2b of the outdoor units 1 and 2 transfer the function setting data stored in the nonvolatile memories 1d and 2d to all other indoor units 3 and 4 having connection information. (QT3: backup transfer function). The control devices 3b and 4b of the indoor units 3 and 4 store the received function setting data of the outdoor units 1 and 2 in the nonvolatile memories 3d and 4d as backup data (QT4).
On the other hand, the control devices 3b and 4b of the indoor units 3 and 4 transfer the function setting data stored in the nonvolatile memories 3d and 4d to all other outdoor units 1 and 2 having connection information (QT5: backup). Transfer function). Since the control devices 1b and 2b of the outdoor units 1 and 2 store the received function setting data of the indoor units 3 and 4 as backup data in the nonvolatile memories 1d and 2d (QT6), and the function setting data backup processing ends. Yes (QT7).

As described above, according to the air conditioner of this embodiment, when the control board is replaced due to a failure or the like, it is determined whether or not the function setting data needs to be restored without manual intervention, Restore operations can be performed when necessary. As a result, the function setting data can be stored and backed up only by the outdoor unit and the indoor unit constituting the air conditioner without using special physical components such as a DIP switch or an external device. Up can be suppressed. Also, the model name, rated input, standby power, and power consumption data of the component devices can be handled by the same method as the original function setting data. Since the communication abnormality can be avoided by selecting the function setting data transfer timing when the air conditioner is in the thermo-off state, that is, when the communication traffic is low, highly reliable communication can be performed. Furthermore, since function setting data is distributed and backed up to multiple indoor units or outdoor units, function setting can be re-executed without losing the function setting data unless all outdoor units and indoor units in the air conditioner are damaged. Therefore, the reliability of the air conditioner can be increased. In addition, even when the function setting data received from a plurality of indoor units or outdoor units are different, the restoration operation can be performed with the function setting data in which the plurality of data are matched.

  In the first embodiment, the control board 1a of the outdoor unit 1 or the control board 3a of the indoor unit 3 is replaced. However, the present invention is not limited thereto. For example, when the control board 2a of the outdoor unit 2 or the control board 4a of the indoor unit 4 is replaced due to a failure or the like, the same processing as that of the first embodiment can be applied.

1, 2 Outdoor unit 1a, 2a, 3a, 4a Control board 1b, 2b, 3b, 4b Control device (CPU)
1c, 2c, 3c, 4c Communication circuit 1d, 2d, 3d, 4d Non-volatile memory 1f, 2f, 3f, 4f Rotary switch 3, 4 Indoor unit 3e, 4e Remote controller 5, 6 Power supply line 7 Transmission line

Claims (5)

A plurality of outdoor units that perform air conditioning and a plurality of indoor units that are air conditioning heat sources are connected so as to be able to transmit and receive via communication means, and function settings related to the control function set in the outdoor unit or the indoor unit Data is transmitted to the outdoor unit or indoor unit other than the outdoor unit or the indoor unit, and the transmitted function setting data is backed up to the nonvolatile memory of the control board of the outdoor unit or indoor unit that has received the function setting data. In the air conditioner configured so that the saved function setting data can be transferred to and from other outdoor units or indoor units,
When the control board is replaced, a determination function for determining whether or not the data content of the nonvolatile memory of the new control board after replacement is a default value, and the data content of the determined nonvolatile memory is a default value A search function for searching for another outdoor unit or an indoor unit that stores function setting data relating to the outdoor unit or the indoor unit in which the control board has been replaced, and an outdoor unit that is searched for by the search function, or An air conditioner characterized in that the outdoor unit and the indoor unit have a transfer function for transferring and storing the function setting data stored in the indoor unit to the outdoor unit or the indoor unit after the substrate replacement. The function setting data is selected from the group consisting of data on air conditioner test run, periodic inspection, operation status monitoring, model name to support unit setting information, rated input, standby power, and power consumption. The air conditioner according to claim 1, wherein the air conditioner is seed or two or more kinds of data. The detection function that detects that the air conditioner is in the thermo-off state, and the function information data stored in each outdoor unit or each indoor unit when the thermo-off state of the air conditioner is detected as backup data The air conditioner according to claim 1 or 2, further comprising a backup transfer function for transferring to an outdoor unit or an indoor unit. The function information data transferred mutually between each outdoor unit and each indoor unit is stored in the nonvolatile memory of each of the indoor unit or the plurality of outdoor units, respectively. The air conditioner as described in any one of Claims. When the new control board after replacement in the outdoor unit or indoor unit receives the function information data stored in other indoor units or outdoor units, it compares the received multiple function information data to 5. A data selection function for selecting function information data having consistency, and a selection data storage function for storing the selected function information data in a nonvolatile memory. The air conditioner as described in any one of to.

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