JP4196804B2 - Inverter air conditioner - Google Patents

Description

  The present invention relates to an air conditioner that uses an inverter, and is suitable for investigating the cause when a system fails or is damaged.

  Conventionally, it is known that an overcurrent that is one of the abnormal conditions of an air conditioner is detected by an overcurrent detection means, the number of detections and the motor frequency at the time of overcurrent are stored in a nonvolatile memory, and displayed on a remote control. For example, it is described in Patent Document 1.

Japanese Patent Application Laid-Open No. 07-174387

In the above-mentioned Patent Document 1, when the overcurrent detecting means is damaged, not only the data cannot be stored in the nonvolatile memory but also the nonvolatile memory may be damaged, and the data in the nonvolatile memory cannot be read. The operation of the compressor and inverter is closely related to load fluctuations, voltage fluctuations, and outside air temperature fluctuations, but these are not stored in association with the abnormal state (overcurrent) of the compressor. It is not enough to investigate the cause of system failure or damage.
An object of the present invention is to solve the above-described problems of the prior art, facilitate analysis of the cause of failure or breakage of an air conditioner, and improve serviceability.

To achieve the above object, the present invention provides an outdoor unit having an inverter system that performs inverter control of a compressor and a drive motor of the compressor, an indoor unit to which the outdoor unit is connected to a signal line and piping, and the indoor unit In the inverter air conditioner having a remote controller that communicates with the remote controller and sets the room temperature, fin temperature detecting means for detecting the temperature of the heat dissipating fin that performs heat dissipation of the inverter system, and direct current supplied for inverter control DC voltage detection means for detecting the voltage, motor current detection means for detecting the operating current of the compressor, and detecting an abnormality based on the temperature of the radiating fin, at least one of the DC voltage and the operating current with the inverter system comprising an abnormality detecting means, the for, the outdoor unit, allows the inverter system and the two-way communication Is, holds the value of the temperature and the DC voltage and the operating current of the radiation fins is transmitted from the inverter system to be able to transmit and receive the outdoor control unit configured is provided a data to the upper, the abnormality detecting means When it is determined that at least one of the temperature of the radiating fin, the DC voltage, and the operating current is abnormal, the outdoor control unit holds the value stored until the abnormality occurs, and the remote controller The fact that an abnormality has occurred is transmitted, and data up to the time of occurrence of the abnormality can be displayed .

Further, in the above, the temperature of the radiating fin, the DC voltage, and the operating current are stored in the nonvolatile memory from the outdoor control unit provided in the outdoor unit, and at least one of the stored values is the remote controller It is desirable to be able to display with.
Further, in the above, control data for driving the compressor is transmitted to the outdoor control unit and held together with the temperature of the radiating fin, the detected DC voltage, and the detected value of the operating current. It is desirable that each detection value and control data can be displayed .

Furthermore, in those described above, the temperature and the DC voltage and the operating current of the radiation fins is preferably stored before Symbol non volatile memory repeatedly at predetermined time intervals.
Furthermore, in those described above, the temperature and the DC voltage and the operating current of the radiation fin is stored in the nonvolatile memory from the outdoor control unit provided in the outdoor unit, readably configured from outside the outdoor unit It is desirable that

Furthermore, in those described above, if the said inverter system and the outdoor control unit is no longer performed bidirectional communication, the outdoor control unit, the DC voltage and the temperature of the heat radiating fins transmitted from the inverter system it is desirable to write a value immediately before the communication of the operating current can not be performed in the non-volatile memory.

According to the present invention, the outdoor unit is capable of two-way communication with the inverter system, and retains the temperature, DC voltage, and operating current value of the heat radiating fins transmitted from the inverter system, and transmits data to the upper level. An outdoor control unit configured to be able to transmit and receive is provided, and when the abnormality detecting means determines that the temperature of the heat radiation fin, at least one of the DC voltage and the operating current is abnormal, the outdoor control unit is abnormal Since the value stored until the occurrence is held, the fact that the abnormality has occurred is transmitted to the remote controller, and the data up to the time of the occurrence of the abnormality can be displayed.
(B) The temperature, DC voltage, and operating current values of the radiating fins of the inverter system are data related to the environmental conditions of the air conditioner and the abnormal state of the compressor, and can be bidirectionally communicated with the inverter system. Since it is stored in the outdoor control unit, it becomes easy to investigate the details of the failure state or cause of damage before or after the abnormality of the air conditioner system, and promptly take measures against failure and prevent recurrence be able to. In addition, it is possible to reproduce at the time of failure as an air conditioner.
(B) Inverter system information is stored in an outdoor control unit that is capable of two-way communication with the inverter system, so even if the inverter system fails or breaks during operation and the system goes down, it can be driven until an abnormality occurs. Information can be retrieved.

Hereinafter, an embodiment according to the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of an embodiment of an air conditioner having a function of holding and displaying data when a failure or destruction of the inverter system 17 of the present invention, and 1 is in the inverter system 17 of the air conditioner. Fin temperature detection means for detecting the temperature of the fins used for heat dissipation, the motor of the compressor 6 is driven by a DC voltage by inverter control, and 2 is a DC voltage detection for detecting a DC voltage supplied for inverter control. Means 3 is a motor current detecting means for detecting the current flowing through the compressor.
The inverter control unit 4 stores control data for driving the compressor 6 in the microcomputer, and transmits or receives the detected fin temperature, DC voltage, motor current value and motor control data to the outdoor control unit.
The compressor 6 is controlled and driven by the inverter control unit 4, and the abnormality detection means 5 transmits to the inverter control unit 4 that each detected value is abnormal when each detected value is abnormal.

  The outdoor control unit 7 holds each detection value and control data transmitted from the inverter control unit 4 and transmits / receives data to / from the storage unit or higher level. The nonvolatile memory 8 receives each detection value and control data required for this transmission / reception. Remember. The indoor control unit 9 transmits and receives each detection value and control data from the outdoor control unit 7 and transmits them to the remote control unit.

  A request signal for display on the display means 10 provided in the remote controller 13 is output by the reading means 11, and each detection value and control data transmitted from the indoor control section 9 are transmitted to the remote control section 12, and the display means 10 displays each received detection data and motor control data.

The operation of the embodiment shown in FIG. 1 will be described below with reference to the operation flowchart of FIG.
When a predetermined fin temperature is detected by the fin temperature detecting means 1 shown in FIG. 1, the detected value is held in the inverter control unit 4 (S1). Next, when a predetermined DC voltage is detected by the DC voltage detecting means 2, the detected value is held in the inverter control unit 4 (S2). Further, when a predetermined motor current is detected by the motor current detecting means 3, the detected value is held in the inverter control unit 4 (S3). It can be seen from the detected values (S1) to (S3) that the compressor 6 is driven in an environment where the inverter system 17 is present. And the inverter control part transmits the detected value of (S1) to (S3) to the outdoor control part 7 (S4). Further, the motor control data for driving the compressor 6 in the inverter control unit 4 is transmitted to the outdoor control unit 7 (S5). The outdoor control unit 7 holds the received detection value (S6).

The motor control data is data necessary for driving the compressor 6 such as the number of motor poles, the motor frequency, and the motor constant, and each detected value detected when the inverter system 17 drives the compressor 6. Is transmitted to the outdoor control unit 7, driving information indicating how the inverter system 17 controls the compressor 6 in what environment can be obtained. Normally, this operation is repeated and data for a predetermined period is held until an abnormality is detected.
As a result of this operation, the information of the inverter system 17 is held in the outdoor control unit 7, so that even if the inverter system 17 fails or breaks during operation and the system goes down, drive information up to the time of occurrence of an abnormality can be taken out.

When it is determined that the value detected by the abnormality detection means 4 is abnormal (S7), the outdoor control unit 7 writes the detected value and motor control data to the nonvolatile memory 8 (S8).
The abnormality detection means judge that the abnormality is the case when the fin temperature detection value exceeds the rated temperature of the inverter system, when the DC voltage detection value is outside the operating range, or when the motor current detection value exceeds the rated current. If it exceeds, the drive information of the inverter system 17 is stored in the memory 8 for a period until the abnormality is detected, so it is possible to know in which operating state the abnormality occurred.

When displaying the abnormal content, the inspection unit 18 that requests the remote control unit 12 to display the abnormal content on the display unit 10 is pressed from the reading unit 11. (S9)
The remote control unit 12 to the outdoor control unit 7 transmit / receive each detection value and control data, and transmit the detection value and control data in the nonvolatile memory 8 to the remote control unit 12 (S10). The transmitted detection value and control data are displayed on the display means 9 (S11).

  FIG. 2 shows the display of data, and the remote control unit 12 requests the outdoor control unit 7 for the detected value and the control data up to the time of occurrence of the abnormality by pressing the check button 18 of the remote controller 13 after the occurrence of the abnormality. The requested data is transmitted from the outdoor control unit 7 to the remote control unit, and the transmitted data is held by the remote control unit 12, and is displayed as a fin temperature detection value, a DC voltage detection value, a motor current detection value, and motor control data. Data can be selected by the function selection button 19. When the arrow key of the room temperature setting button 20 is pressed, data up to the time of occurrence of an abnormality is displayed on the remote control. As a result, the drive information at the time of detecting the abnormality of the inverter system 17 can be easily and whenever necessary taken out, and the cause of the failure can be quickly clarified.

  FIG. 4 shows an example in which bidirectional communication between the inverter system 17 and the outdoor control unit 7 is confirmed. In this example, when the inverter system 17 becomes unable to perform two-way communication for some reason in S12, the outdoor control unit 7 writes the detected value and the motor control data to the nonvolatile memory 8 (S8). Therefore, even if the inverter system 17 cannot perform two-way communication even if the abnormality detection means 5 does not determine that there is an abnormality in the inverter system 17, for example, even if the inverter system 17 fails or breaks and cannot perform two-way communication, data is retained and displayed. To do. As a result, even if the inverter system 17 is stopped, failed, or damaged, data up to the occurrence of the abnormality can be displayed on the display means 10 of the remote controller 13, so that failure analysis becomes easy and the cause of the failure can be clarified quickly.

The block diagram which shows the air conditioner by this invention. 1 is an external view of a remote control according to an embodiment. The flowchart which shows one Embodiment using an abnormality detection means. The flowchart which shows other embodiment which confirms bidirectional | two-way communication.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Fin temperature detection means, 2 ... DC voltage detection means, 3 ... Motor current detection means, 4 ... Inverter control part, 5 ... Abnormality detection means, 6 ... Compressor, 7 ... Outdoor control part, 8 ... Non-volatile memory, 9 DESCRIPTION OF SYMBOLS ... Indoor control part, 10 ... Display means, 11 ... Reading means, 12 ... Remote control part, 13 ... Remote control, 14 ... Indoor unit, 15 ... Outdoor unit, 16 ... Control board, 17 ... Inverter system.

Claims (6)

An outdoor unit having an inverter system that performs inverter control of a compressor and a drive motor of the compressor, an indoor unit to which the outdoor unit is connected to a signal line and a pipe, and a remote controller that communicates with the indoor unit and sets a room temperature In an inverter air conditioner equipped with
Fin temperature detecting means for detecting the temperature of the heat dissipating fin that performs heat dissipation of the inverter system;
DC voltage detecting means for detecting a DC voltage supplied for inverter control;
Motor current detection means for detecting an operating current of the compressor;
An abnormality detecting means for detecting an abnormality based on the temperature of the heat dissipating fin and at least one of the DC voltage and the operating current; and the inverter system comprising:
The outdoor unit is capable of two-way communication with the inverter system, and retains the temperature of the radiating fin, the DC voltage, and the operating current transmitted from the inverter system, and transmits and receives data to the host. An outdoor control unit configured to be possible is provided,
When the abnormality detecting means determines that the temperature of the radiating fin and the value of at least one of the DC voltage and the operating current are abnormal, the outdoor control unit holds the value stored until the abnormality occurs, The inverter air conditioner is configured so that the remote controller can be notified that an abnormality has occurred and can display data up to the time of the abnormality . In the thing of Claim 1, the temperature of the said radiation fin, the said DC voltage, and the said operation current are memorize | stored in the non-volatile memory from the said outdoor control part provided in the said outdoor unit , The at least one value memorize | stored is An inverter air conditioner configured to be displayable with the remote controller. The control data for driving the compressor is transmitted to the outdoor control unit and held together with the temperature of the radiating fin, the detected DC voltage, and the detected value of the operating current. An inverter air conditioner configured to display each detection value and control data in a remote controller . In those described in claim 2, the temperature and the DC voltage and the operating current of the heat radiating fin, the inverter air conditioner characterized in that it is stored before Symbol non volatile memory repeatedly at predetermined time intervals. The temperature of the radiation fin, the DC voltage, and the operating current are stored in a non-volatile memory from the outdoor control unit provided in the outdoor unit, and can be read from the outside of the outdoor unit. inverter air conditioner which is characterized by being composed. The thing of Claim 1 WHEREIN: When the said inverter system and the said outdoor control part cannot perform two-way communication , the said outdoor control part is the temperature of the said radiation fin and the said DC voltage which were transmitted from the said inverter system. and an inverter air conditioner and writes the value immediately before the communication can not be performed in the operating current non volatile memory.

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