JP2004156829A - Air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an inexpensive air conditioner capable of easily specifying the cause of abnormality which occurred in an outdoor unit. <P>SOLUTION: This air conditioner is provided with an indoor unit and the outdoor unit. The indoor unit has an indoor unit side control part. The outdoor unit has an outdoor unit side control part and is operated receiving the supply of electric power from the indoor unit. The indoor unit side control part is connected to an indoor storage part for storing summed operation time from the initial time of starting current application to the indoor unit, and sends the summed operation time to the outdoor unit side control part. The outdoor unit side control part is connected to a nonvolatile outdoor storage part, and stores the summed operation time in the outdoor storage part at the occurrence of abnormality in the outdoor unit. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an air conditioner, particularly an air conditioner including an indoor unit having an indoor unit control unit and an outdoor unit having an outdoor unit control unit and operated by receiving power supply from the indoor unit. About.
[0002]
[Prior art]
In a conventional air conditioner, in order to identify the cause of an abnormality occurring in the outdoor unit, the operating state history of each part of the outdoor unit is stored in a storage device such as an EEPROM every predetermined time, thereby storing a history of the operating state. Saved. Then, when an abnormality actually occurs, the cause of the abnormality is identified by examining the history of the operation status up to the occurrence of the abnormality remaining in the storage device, and a specific device in which the abnormality has occurred is found out. (For example, see Patent Document 1).
[0003]
In a general air conditioner, power is supplied to the indoor unit by inserting a power plug of the indoor unit into a power outlet, and power is supplied to the outdoor unit via the indoor unit. I have. Then, since the power plug of the installed indoor unit is not usually unplugged, the indoor unit is in a state where power is constantly supplied. However, when power saving is performed when the operation of the air conditioner is stopped, or when the outdoor temperature is so high that the compressor of the outdoor unit does not need to be warmed, the supply of power from the indoor unit to the outdoor unit is stopped. Sometimes.
[0004]
[Patent Document 1]
JP-A-11-83134 (pages 2-4, FIG. 1)
[0005]
[Problems to be solved by the invention]
As described above, since the power supply from the indoor unit to the outdoor unit may be interrupted, the normal outdoor unit cannot recognize the elapsed time from the start of energization to the indoor unit. Therefore, even if the power supply from the indoor unit to the outdoor unit is interrupted, a storage device having a function such as a battery backup that can measure and store a lapse of time after the power supply to the indoor unit is started. Is newly provided in the outdoor unit and is stored together with the information on the occurrence of the abnormality, which is useful for identifying the cause of the abnormality. However, an outdoor unit equipped with such a function costs much more than the storage device described above. In addition, when the amount of information to be stored about the lapse of time from the start of energization to the indoor unit is large, the life of the storage unit itself is shortened, and it is necessary to replace the storage unit in a short period of time. is there.
[0006]
An object of the present invention is to provide an inexpensive air conditioner that can easily identify the cause of an abnormality that has occurred in an outdoor unit.
[0007]
[Means for Solving the Problems]
The air conditioner according to claim 1 includes an indoor unit and an outdoor unit. The indoor unit has an indoor unit-side control unit. The outdoor unit has an outdoor unit-side control unit, and operates by receiving power supply from the indoor unit. The indoor unit-side control unit is connected to an indoor storage unit that stores an accumulated operation time from when power is first supplied to the indoor unit, and sends the accumulated operation time to the outdoor unit-side control unit. When the power supply to the indoor unit is first started means the time when the indoor unit is installed and power is first supplied. The outdoor unit-side control unit is connected to the nonvolatile outdoor storage unit, and stores the accumulated operation time in the outdoor storage unit when an abnormality occurs in the outdoor unit.
[0008]
The indoor unit-side control unit stores the value of the integrated operation time in the indoor storage unit each time the integrated operation time is counted. Thereby, the integrated operation time updated one after another is stored in the indoor storage unit.
Between the accumulated operation time and the cause of the abnormality, for example, an abnormality cause and an accumulated operation time such as an abnormality cause A which is likely to occur when the accumulated operation time is about 5 minutes and an abnormality cause B which is likely to occur in about 6 months. May be related. Here, since the outdoor unit-side control unit stores the accumulated operation time in the outdoor storage unit when an abnormality occurs in the outdoor unit, the abnormality that has occurred is determined by how much accumulated operation time has elapsed. I understand what it is. Therefore, the cause of the abnormality that has occurred can be easily specified because the cause of the abnormality related to the accumulated operation time can be considered in the work of specifying the cause of the abnormality that will be described later.
[0009]
The indoor unit-side control unit stores the accumulated operation time from the start of energization to the indoor unit in the indoor storage unit and sends the accumulated operation time to the outdoor unit-side control unit. Therefore, the outdoor unit-side control unit can determine the integrated operation time without providing an expensive device such as a storage device with a battery backup function that can store the lapse of time even when the power supply is interrupted. Can be. For this reason, the outdoor unit can be made inexpensive.
[0010]
As described above, the cause of the abnormality that has occurred in the outdoor unit can be easily specified, and an inexpensive air conditioner can be realized.
An air conditioner according to a second aspect is the air conditioner according to the first aspect, wherein the indoor storage unit is nonvolatile.
Here, the indoor storage unit stores the accumulated operation time from the start of energization to the indoor unit, but the storage unit is such that the stored content is erased when the supply of power to the indoor unit is interrupted. Does not reflect the stored contents before the power supply is cut off.
[0011]
However, in the air conditioner according to claim 2, the indoor storage unit is nonvolatile. For this reason, even if the power supply to the indoor unit is interrupted, the integrated operation time until the power supply is interrupted is stored, and when the power supply is restarted, the stored integrated operation time is stored. Counting can be restarted from time.
The air conditioner according to claim 3 is the air conditioner according to claim 1 or 2, wherein the outdoor unit-side control unit sends a notification of the occurrence of the abnormality to the indoor unit-side control when an abnormality occurs in the outdoor unit. Send to department.
[0012]
Here, when an abnormality occurs in the outdoor unit, the indoor unit-side control unit receives a notification of the occurrence of the abnormality from the outdoor unit-side control unit. Be able to recognize time. For this reason, by receiving the notification of the occurrence of the abnormality when the abnormality occurs in the outdoor unit in the indoor unit-side control unit, it is determined whether or not the occurred abnormality is the abnormality that has occurred for the first time since the power was supplied to the indoor unit. Can be recognized by the indoor unit side control unit.
[0013]
An air conditioner according to a fourth aspect is the air conditioner according to the third aspect, wherein the indoor unit-side control unit is configured such that, when an abnormality occurs in the outdoor unit, the abnormality is not performed for the first time after the start of energization to the indoor unit. The information about whether or not the object is sent to the outdoor unit side control unit.
The start of energization of the indoor unit means the time when the power supply to the indoor unit is started, and once the power supply is interrupted, the time when the power is again supplied to the indoor unit after that.
[0014]
Here, only the indoor unit-side control unit recognizes the information as to whether or not the occurred abnormality is the first time after the start of energization to the indoor unit. Therefore, by sending this information to the outdoor unit-side control unit, the outdoor unit-side control unit can also recognize whether or not the occurred abnormality is the first time after the start of energization to the indoor unit. .
The air conditioner according to claim 5 is the air conditioner according to claim 4, wherein the outdoor unit-side control unit receives power supply from the indoor unit and operates while the outdoor unit-side control unit is operating. After the occurrence of the abnormality in the outdoor unit, the information that the abnormality has occurred for the first time after the start of energization of the indoor unit is already recognized.
[0015]
Here, the indoor unit-side control unit notifies the outdoor unit-side control unit of information on whether or not an abnormality has occurred for the first time since the start of energization of the indoor unit, and the outdoor unit-side control unit independently transmits the information to the indoor unit. It recognizes the information that the first abnormality has already occurred after the start of energization. In addition, since the outdoor unit-side control unit can operate while receiving power supply from the indoor unit, the outdoor unit-side control unit transmits to the indoor unit only while receiving power supply from the indoor unit. It is possible to recognize information that an abnormality has already occurred for the first time after the start of energization. Therefore, when the indoor unit-side control unit and the outdoor unit-side control unit cooperate with each other and store the abnormality history, even if a continuous abnormality with a short time interval occurs, the indoor unit-side control unit and the outdoor unit-side control unit It is possible to prevent erroneous information that an abnormality for the first time after the start of energization to the indoor unit has not yet occurred due to a delay in transmission with the unit-side control unit.
[0016]
The air conditioner according to claim 6 is the air conditioner according to claim 4, wherein the outdoor unit-side control unit is configured to, after an abnormality occurs in the outdoor unit, perform the abnormality for the first time after starting power supply to the indoor unit. Is stored in the outdoor storage unit.
Here, the indoor unit-side control unit notifies the outdoor unit-side control unit of information on whether or not the abnormality is the first time since the start of energization of the indoor unit, and the outdoor unit-side control unit has its own outdoor storage unit. The information that an abnormality for the first time after the start of energization of the indoor unit has already occurred is stored in the memory. Therefore, the outdoor unit-side control unit, when storing the information of the abnormality in the outdoor storage unit, based on the information stored in the outdoor unit and indicating that the abnormality for the first time after the start of power supply to the indoor unit has already occurred. Can be done. Therefore, in the case where the indoor unit-side control unit and the outdoor unit-side control unit store the abnormality history in cooperation with each other, the transmission delay between the indoor unit-side control unit and the outdoor unit-side control unit causes the transmission to the indoor unit to be stopped. Erroneous information that the first abnormality has not yet occurred after the start of power supply can be suppressed.
[0017]
An air conditioner according to a seventh aspect is the air conditioner according to any one of the fourth to sixth aspects, wherein the outdoor unit-side control unit determines whether the abnormality that has occurred in the outdoor unit is the first abnormality after the start of energization. Is stored in the outdoor storage unit.
Here, the outdoor unit-side control unit stores the accumulated operation time at the time of occurrence of the abnormality in the outdoor storage unit in order to identify the cause of the abnormality that has occurred. It may be difficult to identify the cause of the abnormality even if the accumulated operation time at the time of occurrence is known.
[0018]
However, in the air conditioner according to claim 7, the outdoor unit-side control unit causes the outdoor storage unit to store information on whether or not the abnormality occurred in the outdoor unit is the first time after the start of energization of the indoor unit. I have. Therefore, in the work of specifying the cause of the abnormality that will be described later, it is possible to narrow down, from various possible causes of the abnormality, to the cause of the abnormality that is related to the abnormality that occurs only after the power supply to the indoor unit is started. Therefore, the cause of the abnormality can be more easily specified.
[0019]
The air conditioner according to claim 8 is the air conditioner according to any one of claims 1 to 7, wherein the outdoor unit-side control unit is configured to output operation information when an abnormality occurs in the outdoor unit when an abnormality occurs in the outdoor unit. Is stored in the outdoor storage unit.
The operation information at the time of occurrence of an abnormality in the outdoor unit is various information relating to the operation state at the time of occurrence of an abnormality in the outdoor unit, for example, the discharge pipe temperature of the compressor of the outdoor unit, the compressor, the indoor fan motor, and the outdoor fan motor. Of the current applied to the air conditioner, pressure of the refrigerant sucked or discharged by the compressor, temperature or humidity of the environment where the air conditioner is installed, and the like.
[0020]
Here, by storing the operation information at the time of occurrence of an abnormality of the outdoor unit in the outdoor storage unit, the value of each unit of the outdoor unit at the time of occurrence of the abnormality is compared with the value of each unit of the outdoor unit at the time of the standard operation. It becomes easier to find the part where the abnormality has occurred. For this reason, the cause of the abnormality described later can be more easily specified.
The air conditioner according to claim 9 includes an indoor unit and an outdoor unit. The indoor unit has an indoor unit-side control unit. The outdoor unit has an outdoor unit-side control unit, and operates by receiving power supply from the indoor unit. The indoor unit-side control unit is connected to the indoor storage unit that stores the accumulated operation time from when the energization of the indoor unit is first started, and is notified from the outdoor unit-side control unit when an abnormality occurs in the outdoor unit. The notification of the occurrence of the abnormality is received, and the integrated operation time is stored in the indoor storage unit when the notification is received.
[0021]
When the power supply to the indoor unit is first started means the time when the indoor unit is installed and power is first supplied.
The indoor unit-side control unit stores the value of the integrated operation time in the indoor storage unit each time the integrated operation time is counted. Thereby, the integrated operation time updated one after another is stored in the indoor storage unit.
[0022]
Between the accumulated operation time and the cause of the abnormality, for example, an abnormality cause and an accumulated operation time such as an abnormality cause A which is likely to occur when the accumulated operation time is about 5 minutes and an abnormality cause B which is likely to occur in about 6 months. May be related. Here, the indoor unit-side control unit receives the notification of the occurrence of the abnormality notified from the outdoor unit-side control unit when an abnormality occurs in the outdoor unit, and stores the integrated operation time in the indoor storage unit at the time of reception. It is possible to know how much accumulated operation time has elapsed after the occurrence of the abnormality. Therefore, the cause of the abnormality related to the integrated operation time can be considered in the work of specifying the cause of the abnormality later, and the cause of the abnormality that has occurred can be easily specified.
[0023]
The indoor unit-side control unit stores, in the indoor storage unit, the accumulated operation time from the start of energization to the indoor unit, and a notification of the occurrence of an abnormality notified from the outdoor unit-side control unit when an abnormality occurs in the outdoor unit. And the accumulated operation time is stored in the indoor storage unit at the time of receipt. Therefore, even in the outdoor unit-side control unit of the outdoor unit in which power supply may be interrupted, it is necessary to provide an expensive device such as a storage device with a battery backup function capable of storing the lapse of time, or to reduce the accumulated operation time. This eliminates the need to secure the capacity of a storage device or the like for receiving and storing from the indoor unit side control unit. For this reason, the outdoor unit can be made inexpensive.
[0024]
As described above, the cause of the abnormality that has occurred in the outdoor unit can be easily specified, and a more inexpensive air conditioner can be realized.
An air conditioner according to a tenth aspect is the air conditioner according to the ninth aspect, wherein the indoor storage unit is nonvolatile.
Here, the indoor storage unit stores the accumulated operation time from the start of energization to the indoor unit, but the storage unit is such that the stored content is erased when the supply of power to the indoor unit is interrupted. Does not reflect the stored contents before the power supply is cut off.
[0025]
However, in the air conditioner according to claim 10, the indoor storage unit is nonvolatile. For this reason, even if the power supply to the indoor unit is interrupted, the integrated operation time until the power supply is interrupted is stored, and when the power supply is restarted, the stored integrated operation time is stored. The counting can be restarted from.
The air conditioner according to claim 11 is the air conditioner according to claim 10, wherein the indoor unit-side control unit determines whether the abnormality that has occurred in the outdoor unit is the first time after the start of energization to the indoor unit. Is stored in the indoor storage unit.
[0026]
Here, the indoor unit-side control unit stores the accumulated operation time at the time of occurrence of the abnormality in the indoor storage unit in order to identify the cause of the abnormality that has occurred. Even if the accumulated operation time is known, it may be difficult to identify the cause of the abnormality.
However, in the air conditioner according to claim 11, the indoor unit-side control unit stores information on whether the abnormality occurred in the outdoor unit is the first time after the start of energization of the indoor unit in the indoor storage unit. I have. Therefore, in the work of identifying the cause of the abnormality that will be described later, it is possible to narrow down from various possible causes of the abnormality to those that are related to the abnormality that occurs only after the power supply to the indoor unit is started. Therefore, the cause of the abnormality can be more easily specified.
[0027]
An air conditioner according to a twelfth aspect is the air conditioner according to any one of the ninth to eleventh aspects, wherein the indoor unit-side control unit transmits operation information when an abnormality occurs in the outdoor unit to the outdoor unit-side control unit. And store it in the indoor storage unit.
The operation information at the time of occurrence of an abnormality in the outdoor unit is various information relating to the operation state at the time of occurrence of an abnormality in the outdoor unit, such as the discharge pipe temperature of the compressor of the outdoor unit, the compressor, the indoor fan motor, and the outdoor fan motor. Of the current applied to the air conditioner, pressure of the refrigerant sucked or discharged by the compressor, temperature or humidity of the environment where the air conditioner is installed, and the like.
[0028]
Here, by storing the operation information at the time of occurrence of an abnormality of the outdoor unit in the indoor storage unit, the value of each unit of the outdoor unit at the time of occurrence of the abnormality is compared with the value of each unit of the outdoor unit at the time of the standard operation. It becomes easier to find the part where the abnormality has occurred. For this reason, the cause of the abnormality described later can be more easily specified.
[0029]
BEST MODE FOR CARRYING OUT THE INVENTION
<Appearance of air conditioner>
FIG. 1 shows the appearance of an air conditioner to which an embodiment of the present invention is applied.
The air conditioner 1 includes an indoor unit 2 attached to an indoor wall or the like, and an outdoor unit 6 installed outdoors. The indoor unit 2 is connected to electric wiring by inserting a power plug of the indoor unit 2 into an electric outlet. As a result, electric power is supplied to the indoor unit 2. Further, the outdoor unit 6 is electrically connected to the indoor unit 2 and receives power supply from the indoor unit 2.
[0030]
As shown in FIG. 2, the heat exchangers 27 and 69 of the indoor unit 2 and the outdoor unit 6 are connected via the refrigerant pipe 7 to form a refrigerant circuit. The indoor unit 2 has an indoor unit-side control unit 20, and the outdoor unit 6 has an outdoor unit-side control unit 60 (see FIG. 3). The indoor unit-side control unit 20 and the outdoor unit-side control unit 60 are connected via a communication line 49, and can transmit and receive information to and from each other.
[0031]
<Schematic configuration of refrigerant circuit>
FIG. 2 shows an example of a refrigerant circuit used in the air conditioner 1.
[Configuration of indoor unit]
The indoor unit 2 is provided with an indoor heat exchanger 27. The indoor heat exchanger 27 includes a heat transfer tube that is bent a plurality of times at both ends in the length direction, and a plurality of fins through which the heat transfer tube is inserted, and exchanges heat with air that comes into contact with the heat transfer tube. In the indoor unit 2, a cross flow fan 28 and an indoor fan motor 29 for rotating and driving the cross flow fan 28 are provided. The cross flow fan 28 is formed in a cylindrical shape, and has blades provided on a peripheral surface thereof in a direction of a rotation axis, and generates an air flow in a direction intersecting with the rotation axis. The cross flow fan 28 draws indoor air into the indoor unit 2 and blows out air after performing heat exchange with the refrigerant flowing through the indoor heat exchanger 27 into the room.
[0032]
[Configuration of outdoor unit]
The outdoor unit 6 is connected to the compressor 67, a four-way switching valve 68 connected to the discharge side of the compressor 67, an accumulator 67 a connected to the suction side of the compressor 67, and connected to the four-way switching valve 68. An outdoor heat exchanger 69 and a motor-operated valve 70 connected to the outdoor heat exchanger 69 are provided. The electric valve 70 is connected to the refrigerant pipe 7a via a filter 74 and a liquid shutoff valve 75, and is connected to one end of the indoor heat exchanger 27 via the refrigerant pipe 7a. The four-way switching valve 68 is connected to the refrigerant pipe 7b via the gas closing valve 71, and is connected to the other end of the indoor heat exchanger 27 via the refrigerant pipe 7b. Further, the outdoor unit 6 is provided with a blower fan 72 for discharging the air after the heat exchange in the outdoor heat exchanger 69 to the outside. The blower fan 72 is driven to rotate by an outdoor fan motor 73.
[0033]
<Control block diagram>
A system schematic diagram of the indoor unit 2 and the outdoor unit 6 is shown in FIG. 3, a control block diagram of the indoor unit 2 and a control block diagram of the outdoor unit 6 are shown in FIGS.
[Configuration of indoor unit side control unit]
FIG. 4 is a block diagram showing the configuration of the indoor unit-side control unit 20.
[0034]
The indoor unit-side control unit 20 is installed inside the indoor unit 2. The indoor unit-side control unit 20 is constituted by a microprocessor, and is connected to an indoor ROM 22 for storing a control program during operation of the indoor unit and an indoor RAM 23 for temporarily storing various parameters during operation. I have. The indoor unit-side control unit 20, the indoor ROM 22, and the indoor RAM 23 can be configured as a one-chip microcomputer.
[0035]
Further, an indoor storage unit 21 including an indoor EEPROM for storing control constants set for each model is connected to the indoor unit-side control unit 20. The indoor storage unit is a rewritable nonvolatile memory, and stores control constants such as a fan air volume setting, an inverter frequency control, and a temperature set value for protection control according to the type of the air conditioner. You.
[0036]
The indoor storage unit 21 can also store various data relating to codes for each type of abnormality occurrence and information such as power consumption. In particular, the information of the device in which the abnormality has occurred and the abnormality in which the abnormality has occurred are stored in the indoor unit. It is possible to store information on whether or not it is the first time after the start of energization and information on the integrated operation time. An area for storing such information in the indoor storage unit 21 is partially allocated to the entire area, and for example, an area for storing two pieces of abnormality occurrence information is secured.
[0037]
Further, an overwrite restricting unit 24 for permitting or prohibiting writing into the indoor storage unit 21 is connected to the indoor storage unit 21. The overwriting restriction unit 24 permits or prohibits the indoor unit-side control unit 20 from storing the abnormality occurrence information in the indoor storage unit 21.
Further, an infrared transmission / reception unit 30 for transmitting / receiving data to / from a remote controller is connected to the indoor unit-side control unit 20. The infrared transmitting / receiving unit 30 includes an infrared receiving element for receiving data from the remote controller, a data transmitting LED for transmitting data to the remote controller, and the like.
[0038]
Further, a display element 31 composed of an LED or the like for displaying information such as an operating state and indoor and outdoor temperatures and humidity is connected to the indoor unit side control unit 20. The display element 31 can be, for example, a display element such as various LEDs provided in the display unit 32 in the external view of the air conditioner 1 shown in FIG.
A buzzer 33 is connected to the indoor unit-side control unit 20 for sounding when a set temperature change, an operation mode switching, and other instruction inputs are made from a remote controller or when various warnings are issued.
[0039]
The indoor unit-side control unit 20 is connected to the outdoor unit-side control unit 60 via an internal / external transmission line to transmit and receive data, and the indoor unit-side control unit 20 has an internal / external connection connected to the internal / external transmission line. The transmission path interface 34 is connected. Thus, the indoor unit-side control unit 20 can transmit and receive data to and from the outdoor unit-side control unit 60.
[0040]
Further, another input / output unit 35 is connected to the indoor unit-side control unit 20.
Various sensors such as an indoor heat exchange thermistor 36 and a room temperature sensor 37 are connected to the indoor unit-side control unit 20, and a detection signal of each sensor is input.
The indoor unit-side control unit 20 is connected to driving units such as an indoor fan motor driving unit 38 that drives the indoor fan motor 29 and a swing motor driving unit 39 that moves the louver for adjusting the wind direction. The controller is configured to control each part during operation by supplying a control signal.
[0041]
Further, the indoor unit side control unit 20 is connected to a main relay operation unit 41 for performing on / off control of the main relay 40.
The indoor unit-side control unit 20 is mounted on an indoor printed circuit board 42 together with an indoor storage unit 21, an indoor ROM 22, an indoor RAM 23, an overwrite control unit 24, and the like, and is housed in an indoor electrical component box 43 in the indoor unit 2. (See FIG. 6). The indoor electrical component box 43 is detachably mounted inside the indoor unit 2, and when an abnormality occurs, only the indoor electrical component box 43 can be collected for investigation. In addition, it is also possible to adopt a configuration in which only the indoor printed circuit board 42 in which the indoor storage unit 21 is mounted in the indoor electrical component box 43 can be collected.
[0042]
[Configuration of outdoor unit-side control unit]
The outdoor unit-side control unit 60 is installed inside the outdoor unit 6. The outdoor unit-side control unit 60 is constituted by a microprocessor, and is connected to an outdoor ROM 62 for storing a control program during operation of the outdoor unit and an outdoor RAM 63 for temporarily storing various parameters during operation. I have. Note that the outdoor unit-side control unit 60, the outdoor ROM 62, and the outdoor RAM 63 may be configured as a one-chip microcomputer.
[0043]
Further, the outdoor unit-side control unit 60 is connected to an outdoor storage unit 61 formed of an electrically rewritable outdoor EEPROM. The outdoor storage unit 61 can store a plurality of times of various data relating to the operation state at the time of occurrence of an abnormality in the device. In particular, a code for each type of abnormality occurrence, an accumulated operation time, and the generated abnormality are stored in the indoor unit. It is possible to store information on whether or not it is the first time after the start of energization, abnormality occurrence information including the operation state of each unit of the device at the time of abnormality occurrence, environmental information, and the like. A part of the entire area where the abnormality occurrence information is stored in the outdoor storage unit 61 is allocated, and, for example, an area for storing two pieces of abnormality occurrence information is secured.
[0044]
An overwrite control unit 64 for permitting or prohibiting writing to the outdoor storage unit 61 is connected to the outdoor storage unit 61. The overwrite restriction unit 64 permits or prohibits the outdoor unit-side control unit 60 from storing the abnormality occurrence information in the outdoor storage unit 61.
The indoor unit-side control unit 60 is connected to the indoor unit-side control unit 20 via an internal / external transmission line to perform data transmission / reception, and the outdoor unit-side control unit 60 has an internal / external connection connected to the internal / external transmission line. The transmission path interface 34 is connected. Thus, the outdoor unit-side control unit 60 can transmit and receive data to and from the indoor unit-side control unit 20.
[0045]
The outdoor unit-side controller 60 further includes an outdoor air thermistor 76 for detecting the outdoor air temperature, an outdoor heat exchange thermistor 77 for detecting the evaporation temperature or condensation temperature of the refrigerant in the outdoor heat exchanger 69, and discharge of the compressor 67. Sensors such as a discharge pipe thermistor 78 for detecting a pipe temperature and a discharge side pressure protection switch 80 for protecting the pressure of the compressor 67 are connected, and a detection signal of each sensor is input.
[0046]
The outdoor unit-side control unit 60 includes a compressor driving unit 81 for driving the compressor 67, a four-way switching valve driving unit 82 for driving the four-way switching valve 68, and an electric valve for driving the electric valve 70. It is connected to a driving unit 83, an outdoor fan motor driving unit 84 for driving the outdoor fan motor 73, and the like, and is configured to control each unit during operation by supplying a control signal to each unit.
[0047]
The outdoor unit-side control unit 60 is mounted on an outdoor printed board 85 together with an outdoor storage unit 61, an outdoor ROM 62, an outdoor RAM 63, an overwrite control unit 64, and the like. The compressor drive unit 81 and the outdoor fan motor drive unit 84 are mounted on a plurality of printed circuit boards that are the same as or different from the outdoor printed circuit board 85 on which the outdoor unit control unit 60 is mounted. It is stored in the outdoor electrical component box 86.
[0048]
The outdoor electrical component box 86 includes a connector for sensors and switches, a connector for an electric valve, a connector for a four-way valve, a connector for a compressor, a connector for a thermistor, and the like. 6 are connected to each part arranged in the same. The outdoor electrical component box 86 includes the above-described interface 34 for the internal / external transmission line, a power receiving connector, and the like, and is connected to the indoor unit 2. Each connector arranged in the electrical component box can be mounted on an outdoor printed circuit board 85 on which the outdoor unit-side control unit 60, the compressor drive unit 81, the outdoor fan motor drive unit 84, and the like are mounted. It can be configured to be attached to the inner wall of the outdoor electrical component box 86 and connected to terminals on the outdoor printed circuit board 85 by a harness. The outdoor electrical component box 86 is removably mounted in the outdoor unit 6, and when an abnormality occurs, only the outdoor electrical component box 86 can be collected for investigation. Further, it is also possible to adopt a configuration in which only the outdoor printed circuit board 85 in which the outdoor storage unit 61 is mounted in the outdoor electric component box 86 can be collected.
[0049]
<Electrical wiring diagram>
FIG. 6 schematically shows an electrical wiring diagram of the indoor unit 2 and the outdoor unit 6.
The indoor unit 2 has power ports 44 and 45 and a communication port 46, and the outdoor unit 6 has power ports 87 and 88 and a communication port 89. The power ports 44 and 45 of the indoor unit 2 and the power ports 87 and 88 of the outdoor unit 6 are connected by power supply lines 47 and 48, respectively. The communication port 46 of the indoor unit 2 and the communication port 89 of the outdoor unit 6 are communication lines. 49.
[0050]
The indoor unit 2 includes a power cable 51 having a power plug 50 connected to a commercial power supply, and power is supplied via the power cable 51. The power supplied from the power cable 51 is input to the indoor printed circuit board 42 on which circuit components such as the indoor unit control unit 20 are mounted. On the indoor printed circuit board 42, an indoor unit side control unit 20, an indoor storage unit 21, an indoor ROM 22, an indoor RAM 23, various interfaces 34, and the like are mounted, and an indoor fan motor driving unit 38 for driving the indoor fan motor 29 is provided. And a swing motor drive unit 39 for moving the wind direction adjusting louver. The indoor fan motor 29 and the swing motor 52 are connected to corresponding positions on the indoor printed circuit board 42, respectively.
[0051]
A power supply line 48 in the indoor unit 2 is provided with a main relay 40 for interrupting power supply to the power ports 44 and 45. By shutting off the main relay 40, the supply of electric power to the outdoor unit 6 can be stopped.
In the outdoor unit 6, an outdoor printed circuit board 85 connected to the power ports 87 and 88 and the communication port 89 is arranged. On the outdoor printed board 85, an outdoor unit-side control unit 60, an outdoor storage unit 61, an outdoor ROM 62, an outdoor RAM 63, various interfaces 34, and the like are mounted, and an outdoor fan motor driving unit 84 for driving an outdoor fan motor 73; A four-way switching valve drive unit 82 that drives the four-way switching valve 68, a motorized valve drive unit 83 that drives the motorized valve 70, and the like are provided. The outdoor fan motor 73, the four-way switching valve 68, and the electric valve 70 are connected to corresponding positions on the outdoor printed circuit board 85, respectively.
[0052]
Further, on the outdoor printed board 85, a rectifying unit 90 for rectifying the power supply voltage supplied from the power supply ports 87 and 88, an inverter circuit 91 for driving the compressor 67 based on an air conditioning command, and the like are configured. The output of the inverter circuit 91 is input to the compressor 67.
<Power supply stop control>
In the air conditioner 1, power is supplied to the indoor unit 2 by plugging the power plug 50 of the indoor unit 2 into a power outlet, and power is supplied to the outdoor unit 6 via the indoor unit 2. Is made. Since the power plug 50 of the installed indoor unit is not usually pulled out, the indoor unit 2 is in a state where power is always supplied. For example, when power saving is performed when the operation of the air conditioner 1 is stopped, the supply of power from the indoor unit 2 to the outdoor unit 6 is stopped. Hereinafter, the power supply stop control of the indoor unit 2 and the outdoor unit 6 will be described.
[0053]
[Indoor unit]
The operation of the indoor unit-side control unit 20 when performing the power supply stop control is shown in the flowchart of FIG.
In step S11, it is determined whether a predetermined power supply stop condition has been reached. For example, when it is determined that a predetermined period of time has elapsed since the air-conditioning operation was stopped and a transition to the standby power reduction mode is made, it is determined that a predetermined power supply stop condition has been reached, and the process proceeds to step S12. For example, the compressor 67 of the outdoor unit 6 must be kept at a certain temperature or higher, but the power supply is also stopped when the outside air temperature is high and it is not necessary to control such a constant temperature. Also, in the normal operation mode, when information indicating that an abnormality has occurred is received from the outdoor unit-side control unit 60, it is determined whether or not power supply needs to be stopped, and it is determined that power supply needs to be stopped. The process moves to step S12.
[0054]
In step S12, a signal to stop power supply is transmitted to the outdoor unit-side control unit 60.
In step S13, the operation state information of the outdoor unit 6 is acquired. Here, a request signal is transmitted to the outdoor unit controller 60 to transmit the outdoor operation information held in the outdoor RAM 63, and the transmitted outdoor operation information is received. The outdoor operation information is information on the current operation state of the outdoor unit 6, and for example, information such as the number of abnormalities that have occurred in the past, the level of the abnormalities, and learning content is assumed.
[0055]
In step S14, the acquired operating state information of the outdoor unit 6 is stored in the storage unit. Here, the outdoor operation information is stored in a predetermined area of the outdoor RAM 63. Since the indoor unit-side control unit 20 includes the indoor storage unit 21 including a non-volatile memory indoor EEPROM, the non-volatile memory can be configured to store outdoor operation information.
[0056]
In step S15, a process of stopping power supply to the outdoor unit 6 is performed. Here, the main relay 40 is turned off via the main relay operating section 41, and the power supply to the outdoor unit 6 is stopped.
In step S16, it is determined whether or not a condition for returning power supply to the outdoor unit 6 during which power supply has been stopped has been reached. In the standby power reduction mode, when the operation is restarted according to an instruction from the user or the setting of the timer, and when the recovery process for the abnormality of the outdoor unit 6 is completed, the process proceeds to step S17.
[0057]
In step S17, power supply to the outdoor unit 6 in the power supply stopped state is restarted. Here, the main relay 40 is turned on via the main relay operation unit 41, and the power supply to the outdoor unit 6 is restored.
In step S18, the outdoor operation information immediately before the power supply stop stored in the storage unit is transmitted to the outdoor unit 6. The outdoor operation information immediately before the power supply is stopped, which is stored in a predetermined area of the outdoor RAM 63, is read and transmitted to the outdoor unit-side control unit 60. Note that the outdoor operation information can be stored in a recording medium such as a magnetic disk or a flash memory. In this case, the outdoor operation information immediately before the power supply is stopped is read from each recording medium, and the outdoor unit-side controller 60 Send.
[0058]
In step S19, normal operation is restarted.
[Outdoor unit]
8 and 9 show the operation of the outdoor unit-side control unit 60 when performing the power supply stop control and the power supply restart control.
In step S21, it is determined whether or not a signal from the indoor unit 2 to stop power supply has been received. If a signal to stop power supply is received from the indoor unit-side control unit 20, the process proceeds to step S22.
[0059]
In step S22, the operation state information is transmitted to the indoor unit 2 in response to a request from the indoor unit 2 side. Here, the outdoor operation information stored in the outdoor RAM 63 is transmitted to the indoor unit-side control unit 20. Thereafter, the supply of power is cut off by the power supply stop process by the indoor unit-side control unit 20, so that the outdoor unit-side control unit 60 stops operating.
When the power supply from the indoor unit 2 is restarted, the outdoor unit-side control unit 60 executes initialization of each unit in step S31 in FIG.
[0060]
In step S32, the outdoor operation information immediately before the power supply stoppage transmitted from the indoor unit-side control unit 20 is received.
In step S33, the outdoor operation information immediately before the power supply stoppage transmitted from the indoor unit side control unit 20 is stored in the outdoor RAM 63.
In step S34, normal operation is restarted.
[0061]
In the air conditioner 1 configured as described above, when an abnormality occurs in the outdoor unit 6 and the power supply to the outdoor unit 6 is temporarily stopped, the operation controlled by the outdoor unit-side control unit 60 immediately before the stop of the power supply. Since the information on the state is saved in the indoor RAM 23 of the indoor unit-side control unit 20, the use state immediately before the power supply is stopped can be reproduced using the outdoor operation information saved when the power supply is restored. Also, when the power supply to the outdoor unit 6 is stopped to reduce the standby power, the use state immediately before the power supply is stopped can be similarly reproduced.
[0062]
It should be noted that the information judgment related to the outdoor unit is completed only by the outdoor unit 6 as much as possible, and the information judgment related to the indoor unit is completed only by the indoor unit 2 as much as possible. Can be configured to be developed. In this case, it is relatively easy to perform the model change between the indoor unit and the outdoor unit at different times, and there is an effect that the degree of freedom in the development time increases.
[0063]
<Storage work of indoor storage unit>
[Storing accumulated operation time]
By operating the indoor ROM 22 that stores the control program and various constants of the indoor unit-side control unit 20, the indoor unit-side control unit 20 can continue to measure the integrated operation time of the indoor unit. Then, the indoor unit-side control unit 20 stores the integrated operation time in the indoor storage unit 21 periodically, such as every hour. Since the indoor storage unit 21 is configured by an EEPROM (Electrically Erasable and Programmable Read Only Memory), even if the power supply to the indoor unit is interrupted due to the power plug 50 being unplugged or the like, the indoor storage unit 21 may be used. The stored contents can be held. As described above, the indoor storage unit 21 periodically stores the accumulated operation time. Therefore, even if the supply of power to the indoor unit 2 is interrupted, power is supplied to the indoor unit 2 first. It is possible to continue to secure the information of the accumulated operation time since the last operation.
[0064]
Specifically, even when the supply of power to the indoor unit is interrupted when the integrated operation time is counted by the indoor unit-side control unit 20, the latest transmission transmitted from the indoor unit-side control unit 20 immediately before the interruption of the power supply is performed. Information on the integrated operation time is stored in the indoor RAM 23, and this information is secured in the indoor EEPROM. Then, when the power supply to the indoor unit-side control unit 20 is started again, the indoor unit-side control unit 20 can restart the counting from the value of the integrated operation time stored in the indoor EEPROM. As a result, even if the supply of power to the indoor unit 2 is interrupted, the indoor unit-side control unit 20 can recognize the integrated operation time during which the air conditioner 1 has been operated after installation.
[0065]
In addition, in the indoor storage unit 21, when the supply of power is started, an operation of reading a set value specific to the model, such as an air volume setting and a capacity setting, from the indoor unit side control unit 20 is performed.
[Memory work when the first error occurs]
The indoor unit side control unit 20 transmits and receives information to and from the outdoor unit side control unit 60 as shown in FIG. The indoor unit-side control unit 20 receives a notification of occurrence of an abnormality from the outdoor unit-side control unit 60 when an abnormality occurs. In this case, the indoor unit-side control unit 20 determines whether or not the occurred abnormality is the first abnormality after the start of energization to the indoor unit 2 (hereinafter, simply referred to as “the first abnormality”), and the indoor unit. The first abnormality information is stored in the indoor storage unit 21 only when the abnormality is the first abnormality (hereinafter, simply referred to as the first abnormality) after the power supply to the second power supply is started. The first abnormality information is an identification code of the abnormality that has occurred, information on which device has an abnormality, and information on whether the abnormality is the first abnormality.
[0066]
In addition, even after the abnormality of the outdoor unit 6 has already occurred, if the supply of power to the indoor unit 2 is interrupted once, the recognition as to whether or not it is the first abnormality is initialized. For this reason, the indoor unit-side control unit 20 recognizes that the first abnormality has not yet occurred. Then, when an abnormality occurs for the first time after the supply of power to the indoor unit 2 is started again, the indoor unit side control unit 20 determines that the abnormality information is the first abnormality after the start of energization to the indoor unit. In the same manner as described above, the information is stored in the indoor storage unit 21.
[0067]
<Storage work of outdoor storage unit>
[Memory operation when an error occurs]
The outdoor unit-side control unit 60 transmits and receives information to and from the outdoor unit-side control unit 60 as shown in FIG. While power is being supplied to the outdoor unit 6, the indoor unit-side control unit 20 performs periodic transmission to the outdoor unit-side control unit 60 every minute. The outdoor unit-side control unit 60 receives the information of the integrated operation time and the information of whether or not the first abnormality has occurred by the periodic transmission every minute. For example, if no abnormality has occurred after the start of energization of the indoor unit 2, the outdoor unit-side control unit 60 determines that the integrated operation time is XX hours / minutes and that the first abnormality has not yet occurred. (Hereinafter simply referred to as first-time abnormality non-occurrence information).
[0068]
The outdoor unit-side control unit 60 notifies the indoor unit-side control unit 20 of the occurrence of an abnormality when an abnormality occurs in the outdoor unit 6. Then, upon receiving the notification of the occurrence of the abnormality, the indoor unit-side control unit 20 replaces the information about the non-occurrence of the abnormality that has been periodically transmitted until immediately before this time with the information that the first abnormality has already occurred (hereinafter simply referred to as the first abnormality). The information is transmitted to the outdoor unit-side control unit 60 together with the information of the integrated operation time when the next periodic transmission is performed.
[0069]
The outdoor unit-side control unit 60 does not particularly store information in the outdoor storage unit 61 when no abnormality occurs in the outdoor unit 6. Then, the abnormality information is stored in the outdoor storage unit 61 only when an abnormality occurs in the outdoor unit 6. Note that, unlike the indoor unit-side control unit 20, the outdoor unit-side control unit 60 stores not only the information about the first abnormality but also the information about the abnormality that has occurred after the second time in the outdoor storage unit 61, and stores the abnormality The information history is accumulated. The information on the abnormality includes various data on codes for each type of abnormality, information on the integrated operation time transmitted from the indoor unit-side control unit 20, and information on whether or not it is the first abnormality. The various data relating to the code for each type of abnormality include information on parameters of each part necessary for subsequent repairs, such as a neck temperature at the time of occurrence of the abnormality and a temperature of each part.
[0070]
Note that, even when the supply of power from the indoor unit 2 to the outdoor unit 6 is interrupted, the outdoor storage unit 61 is configured with an outdoor EEPROM, so that the stored contents can be retained. Then, when the supply of power from the indoor unit 2 to the outdoor unit 6 is restarted again, the outdoor storage unit 61 stores the abnormality information again.
In addition, the outdoor storage unit 61 reads, from the outdoor unit-side control unit 60, setting values specific to the model, such as air volume setting and capacity setting, when power is supplied again after the power supply to the outdoor unit 6 is interrupted. I do.
<The first work of recognizing abnormalities after starting the energization of the indoor unit side control unit and the outdoor unit side control unit>
FIG. 10 shows an information transmission / reception diagram of the indoor unit-side control unit 20, the outdoor unit-side control unit 60, and the outdoor storage unit 61 when an abnormality occurs continuously in the outdoor unit 6.
[0071]
In the drawing, it is indicated that time has passed from the top to the bottom.
The time indicated by A on the line of the outdoor unit-side control unit 60 indicates the time of occurrence of the first abnormality. Similarly, when indicated by B, it indicates the second occurrence of an abnormality in the outdoor unit. Similarly, when indicated by C, it indicates the time when the outdoor unit-side control unit 60 receives the information that the first abnormality has already occurred (the first abnormality occurrence information) from the indoor unit-side control unit 20.
[0072]
In the state where the first abnormality has not occurred, the indoor unit-side control unit 20 indicates that the first abnormality has not yet occurred after the energization to the indoor unit is started, as indicated by arrows 20a, 20b, and 20c in the figure ( The first-time abnormality non-occurrence information is transmitted to the outdoor unit-side control unit 60 every minute. Accordingly, the outdoor unit-side control unit 60 recognizes that no abnormality has yet occurred after the start of energization to the indoor unit.
[0073]
When the first abnormality occurs (A), the outdoor unit-side control unit 60 notifies the indoor unit-side control unit 20 of the abnormality occurrence as indicated by an arrow 60d. Thereby, the indoor unit-side control unit 20 recognizes that the first abnormality has occurred. At the same time, the outdoor unit-side control unit 60 causes the outdoor storage unit 61 to store each information at the time of occurrence of an abnormality as indicated by an arrow 60e. In this case, the outdoor storage unit 61 stores the information on the integrated operation time, the information on the occurrence of no first-time abnormality, and the operation information on each unit of the outdoor unit at the time of occurrence of the abnormality, transmitted by the arrow 20c.
[0074]
The indoor unit-side control unit 20 that has received the notification of the occurrence of the abnormality switches the first-time abnormality non-occurrence information to the first-time abnormality occurrence information, and transmits the information together with the integrated operation time to the outdoor unit-side control unit 60 (arrow 20g).
In addition, before the outdoor unit-side control unit 60 receives the information on the occurrence of the first abnormality from the indoor unit-side control unit 20 (C), the second abnormality as shown in FIG. There is. In this case, the outdoor unit-side control unit 60 has not yet received the first-time abnormality occurrence information from the indoor unit-side control unit 20. However, the outdoor unit-side control unit 60 determines when the abnormality has occurred, as indicated by the arrow 60f. Are stored in the outdoor storage unit 61.
[0075]
After such a first abnormality has occurred, the outdoor unit-side control unit 60 that is energized recognizes whether or not the first abnormality has occurred in the outdoor unit. Then, the outdoor unit-side control unit 60 refers to only the integrated operation time for the information from the indoor unit-side control unit 20 and performs a storage operation, and determines whether or not the first abnormality has occurred. The first-time abnormality occurrence information recognized in 60 is stored in the outdoor storage unit 31. That is, the outdoor unit-side control unit 60 does not refer to the information obtained from the indoor unit-side control unit 20 for all the abnormalities that have occurred, but refers to the information obtained from the indoor unit-side control unit 20 only for the first abnormality. ing. If the storage operation is performed before receiving the abnormality occurrence information from the indoor unit side control unit 20 for the abnormality that has occurred after the second time, the outdoor storage unit 61 stores information indicating that the first abnormality has already occurred. This is because erroneous information indicating that no abnormality has occurred is stored where it must be stored.
[0076]
As described above, the outdoor unit-side control unit 60 can recognize the information about whether or not the first abnormality has occurred in the outdoor unit 6 because power is supplied to the outdoor unit 6 and the indoor unit-side control unit 20 and the outdoor unit-side This is only while the control unit 60 is connected. Therefore, once the power supply to the outdoor unit 6 is interrupted, the outdoor unit-side control unit 60 cannot recognize the information as to whether the first abnormality has occurred. However, when the power is supplied to the outdoor unit 6 again, the first-time abnormality occurrence information or the first-time abnormality non-occurrence information is transmitted from the indoor unit-side control unit 20. Can be recognized as to whether or not an error has already occurred.
[0077]
Note that the outdoor unit-side control unit 60 stores the first-time abnormality occurrence information and the operation information of each unit of the outdoor unit at the time of occurrence of the abnormality when the abnormality occurs for the second time or later, and determines the integrated operation time with the indoor unit-side control unit 20. The latest integrated operation time among the integrated operation times received from the server is stored.
From the time when the indoor unit side control unit 20 receives the notification of the occurrence of the abnormality at the time of the first abnormality until the power supply to the indoor unit is interrupted, the indoor unit side control unit 20 displays the first abnormality occurrence information as indicated by an arrow 20h. Is transmitted to the outdoor unit-side control unit 60. For this reason, even if the energization of the outdoor unit is interrupted thereafter, the outdoor unit-side control unit 60 can recognize that the initial abnormality has already occurred.
[0078]
When the power supply to the indoor unit 2 is restarted after the power supply to the indoor unit 2 is interrupted, the information on whether or not the first abnormality recognized by the indoor unit-side control unit 20 has occurred is initialized. Then, the indoor unit-side control unit 20 transmits the first-time abnormality non-occurrence information to the outdoor unit-side control unit 60 again.
Since the power supply to the indoor unit 2 is interrupted and the power supply to the outdoor unit 6 is also interrupted, at the stage when the power supply to the indoor unit 2 is started again, the outdoor unit-side control unit 60 determines whether the first abnormality has already occurred. I do not know the information of whether or not. Here, as described above, the initial abnormality non-occurrence information starts to be transmitted to the outdoor unit side control unit 60 again, so that the outdoor unit side control unit 60 can also recognize the initial abnormality non-occurrence information again.
<Identification of cause of abnormality>
As described above, the information stored in the outdoor storage unit 61 is such that when an abnormality occurs in the outdoor unit 6, the outdoor printed circuit board 85 in the outdoor electrical component box 86 is taken out and the outdoor storage unit 61 is collected. Alternatively, by reading the information directly at the site where the outdoor storage unit 61 is located, the information is used when actually identifying the cause of the abnormality.
[0079]
[Identification of cause of abnormality due to component life]
The components of each device such as the compressor 67 and the gas shut-off valve 71 constituting the outdoor unit 6 have different service lives. For this reason, the time at which the abnormality occurs differs for each component. Therefore, when the integrated operation time stored in the outdoor storage unit 61 is relatively long, the component causing the abnormality is likely to have a long life, and it is unlikely that the component has a short life. Low. For this reason, when the accumulated operation time stored in the outdoor storage unit 61 is close to the life of some component of the outdoor unit, only the one having a life corresponding to the accumulated operation time is selected from all kinds of abnormal causes. It is only necessary to investigate the cause of the abnormality. Thereby, the cause of the abnormality that has occurred in the outdoor unit 6 can be easily specified.
[0080]
[Identify the cause of the first error]
When the air conditioner 1 is installed, when the power supply of the indoor unit 2 is once turned off to repair the failed part, or when the power supply is temporarily interrupted due to a power outage or the like, the abnormality that occurs for the first time after the abnormality occurs, is the first abnormality. There are often abnormal causes related to For example, an abnormal cause such as a wiring error when the air conditioner 1 is installed or a defective portion is not completely repaired is a matter considered as an abnormal cause for the first time after the start of energization. These abnormal causes are unlikely to occur as the second or third abnormal cause after the start of energization. Therefore, when the information stored in the outdoor storage unit 61 is the first abnormality, it is only necessary to check the information corresponding to the abnormality of the first abnormality out of a vast number of all abnormal causes. Thereby, the cause of the abnormality that has occurred in the outdoor unit 6 can be easily specified.
[0081]
Note that the outdoor unit-side control unit 60 can recognize whether an initial abnormality has not occurred or has already occurred when power is being supplied from the indoor unit 2. However, since the power supply from the indoor unit 2 may be interrupted, the outdoor unit-side control is not performed until the information is periodically transmitted from the indoor unit-side control unit 20 after the power supply to the outdoor unit 6 is restarted. The unit 60 cannot recognize whether the first abnormality has not occurred or has already occurred. Therefore, when examining the cause of the first abnormality, the information stored in the indoor storage unit 21 is referred to, and when examining the cause of the second or subsequent abnormality, the information stored in the outdoor storage unit 61 is referred to. refer.
[0082]
<Acquisition of information from remote locations>
Also, a system schematic diagram showing a flow of acquiring information on the air conditioner from a remote place (
As shown in FIG. 11), a communication terminal 25 for home automation capable of reading information such as an abnormality history is connected to the indoor unit-side control unit 20 of the indoor unit 2.
This communication terminal 25 is connected to the communication terminal adapter 19. The communication terminal adapter 19 includes a recognition device 19a. The recognition device 19a performs authentication means for permitting or prohibiting access to the air conditioner by a service engineer or the like. As described above, the service engineer or the like accesses the air conditioner via the communication terminal adapter 19, but at this time, only a person specified by being authorized by the recognition device 19a of the communication terminal adapter 19 can access the air conditioner. The service engineer can obtain information on the air conditioner even remotely. The communication terminal adapter 19 can be connected to home appliances such as a refrigerator 26a and a television 26b in addition to the air conditioner, and can transmit information to the remote management device 18 of the remote monitoring center 17, respectively. The permission by the recognition device 19a may be a permission only for the air conditioner. When a service engineer or the like is on standby at the service station 16, information on an air conditioner or the like can be obtained from the remote management center 17 by communicating with the remote management center 17 using a personal computer or a mobile phone. It has become. Thereby, before the service engineer or the like repairing the abnormal part arrives at the site, the information of the abnormal history can be confirmed using the personal computer or the mobile phone. Therefore, the service engineer or the like can sufficiently prepare beforehand the parts to be repaired before going to the site.
[0083]
The communication terminal 25 connected to the indoor unit-side control unit 20 reads the history of abnormalities from the indoor storage unit 21. This communication terminal 25 is connected to the indoor unit-side control unit 20 and the outdoor unit-side control unit. Since it is also connected to the outdoor storage section 61 via the communication line 49 between the external storage section 60 and the external storage section 60, it is possible to read the history of abnormalities stored in the outdoor storage section 61.
[0084]
<Features of the air conditioner according to the present embodiment>
(1)
Here, even in the case of the outdoor unit 6 whose power supply may be interrupted, the integrated operation time when an abnormality occurs can be stored in the outdoor storage unit 61. Thereby, since it is possible to know how much time has elapsed since the start of energization to the indoor unit 2 and the abnormality has occurred, it is possible to easily identify the cause of the abnormality that has occurred in the work of identifying the cause of the abnormality that will be performed later. Become like
[0085]
In addition, the life of the components constituting the apparatus is unique to each component. Therefore, by examining the possibility of the life of the component from the stored integrated operation time, the cause of the abnormality that has occurred can be easily specified. Become like
(2)
In the present embodiment, even in the case of the outdoor unit 6 in which the power supply may be interrupted, the abnormality information is stored so that the cause of the abnormality can be easily specified, and the outdoor unit 6 is not equipped with a high-cost function. It is superior to a conventional air conditioner in that it satisfies both requirements.
(3)
Even in the case of the outdoor unit 6 whose power supply may be interrupted, information indicating whether an abnormality has occurred for the first time after the power supply to the indoor unit 2 is started can be stored in the outdoor storage unit 61. It is possible to consider the cause of the abnormality related to the occurring abnormality, and to easily identify the cause of the abnormality that has occurred.
<Modification>
(1)
In the above embodiment, when an abnormality occurs in the outdoor unit 6, the outdoor unit-side control unit 60 notifies the indoor unit-side control unit 20 of the occurrence of the abnormality. After the indoor unit-side control unit 20 receives this notification, Various information is transmitted to the outdoor unit-side control unit 60 by periodic transmission performed in the next round. However, instead of performing the transmission after waiting for the periodic transmission as described above, the notification may be transmitted to the outdoor unit-side control unit 60 immediately upon receiving the notification of the occurrence of the abnormality of the outdoor unit 6. Accordingly, the outdoor unit-side control unit 60 can more accurately recognize the integrated operation time when an abnormality occurs, and the outdoor storage unit 61 can store the more accurate integrated operation time.
(2)
In the above-described embodiment, the integrated operation time stored in the indoor storage unit 21 is the total of the operation times counted from when the energization to the indoor unit 2 is first started, but this information is stored in the indoor storage unit 21. In addition to this, it is also possible to store the operation time counted from the time when the energization to the indoor unit 2 is interrupted and the time when the energization is restarted.
[0086]
In the conventional storage device of an air conditioner, even if a part where an abnormality has occurred can be found, the part operates in cooperation with multiple other parts, or the parts cooperate with each other. It is difficult to identify such an operation or a component that causes the occurrence of an abnormality when a component group that performs the above is provided.
Here, the time required for the operation performed by the components of each device is unique to each operation.
For this reason, the time at which the abnormality occurs differs depending on the time required for the operation of each component. For example, when the accumulated operation time stored in the outdoor storage unit 61 is long, the occurrence of the abnormality is due to the fact that a component having a longer operation time is more likely than a component having a shorter operation time. Is more likely.
[0087]
For this reason, it is only necessary to investigate the cause of the abnormality, from among a huge variety of causes of the abnormality, only those parts that perform operations requiring a time corresponding to the integrated operation time. Thus, the cause of the abnormality that has occurred in the outdoor unit 6 can be easily specified.
Since the time required for the life of the component is usually longer than the time required for the operation of the component, etc., if the accumulated operation time when an abnormality occurs is considerably long, the abnormality during the operation of It is more likely that the cause of the abnormality is the life of the component rather than the cause.
[0088]
As described above, in the present modified example, since the operation time counted from the time when the power supply to the indoor unit 2 is interrupted and the power supply is started again is stored, the time required for the operation performed by the components of each device is considered. By doing so, it becomes easier to identify the cause of the abnormality.
(3)
In the above embodiment, the indoor unit-side control unit 20 sends the information on the integrated operation time and the information on whether or not the first abnormality has occurred after the energization to the indoor unit 2 to the outdoor unit-side control unit 60 every minute. However, the interval may be narrowed and transmitted every 30 seconds, 10 seconds or 1 second, or the interval may be extended and transmitted every 30 minutes or 1 hour.
(4)
In the above-described embodiment, since the indoor unit-side control unit 20 and the outdoor unit-side control unit 60 include the indoor storage unit 21 and the outdoor storage unit 61, each of which is a non-volatile memory including an indoor EEPROM, Although it is possible to store each information at the time of occurrence, it is also possible to store each information at the time of occurrence of abnormality in these recording media by providing a drive of a magnetic disk or a flash memory.
(5)
In the above embodiment, the indoor unit-side control unit 20 notifies the outdoor unit-side control unit 60 of information on whether or not the abnormality is the first abnormality after the start of energization of the indoor unit. Further, the outdoor unit-side control unit 60 independently recognizes the information that the first abnormality has already occurred after the start of energization of the indoor unit. However, the outdoor unit-side control unit 60 can independently store the information that the first abnormality has already occurred after the start of energization of the indoor unit in the outdoor storage unit 60. In this case, when the outdoor unit-side control unit 60 stores the information of the abnormality in the outdoor storage unit 61, the outdoor unit-side control unit 60 detects the first abnormality after the start of energization to the indoor unit recognized by the outdoor unit-side control unit 60. This can be done based on information that has already occurred. Therefore, when the abnormality history is stored in cooperation with the indoor unit-side control unit 20 and the outdoor unit-side control unit 60, the transmission delay between the indoor unit-side control unit 20 and the outdoor unit-side control unit 60 is delayed. Thereby, it is possible to suppress erroneous information that an abnormality for the first time after the start of energization of the indoor unit 2 has not yet occurred.
[0089]
<Other embodiments>
In the above embodiment, the outdoor unit-side control unit 60 causes the outdoor storage unit 61 to store the operation information of each unit of the outdoor unit 6 at the time of occurrence of the abnormality, the information of the integrated operation time, and the information of whether or not the abnormality is the first time. However, such information may be stored in the indoor storage unit 21 by the indoor unit-side control unit 20 (see FIG. 12).
[0090]
When an abnormality occurs in the outdoor unit 2, the outdoor unit-side control unit 60 notifies the indoor unit-side control unit 20 of the occurrence of the abnormality. When the notification is received, the integrated operation measured by the indoor unit-side control unit 20 is performed. By storing the time in the indoor storage unit 21, it is possible to secure an integrated operation time when an abnormality occurs.
Further, since the indoor unit-side control unit 20 can recognize the information on whether or not it is the first abnormality similarly to the above-described embodiment, it can be stored in the indoor storage unit 21 when each abnormality is notified. .
[0091]
The operation information of each unit of the outdoor unit 6 at the time of occurrence of the abnormality is information recognized by the outdoor unit-side control unit 60. Therefore, as indicated by an arrow in FIG. 12, the outdoor unit-side control unit 60 communicates with the notification of the occurrence of the abnormality via the communication line 49 or thereafter to the indoor unit-side control unit 20 at the time of occurrence of the abnormality. Is transmitted, the indoor unit-side control unit 20 can recognize the driving information. Thereby, the indoor unit-side control unit 20 can cause the indoor storage unit 21 to store the operation information of each unit of the outdoor unit 6 at the time of occurrence of the abnormality.
[0092]
As shown in FIG. 12, a communication terminal 25 for home automation capable of reading information such as an abnormality history is connected to the indoor unit-side control unit 20 of the indoor unit 2. This communication terminal 25 is connected to the communication terminal adapter 19. The communication terminal adapter 19 includes a recognition device 19a. The recognition device 19a performs authentication means for permitting or prohibiting access to the air conditioner by a service engineer or the like. In this manner, access to the air conditioner by a service engineer or the like can be restricted to access by only a specified person by being permitted to the recognition device 19a of the communication terminal adapter 19, and the service engineer can be remotely accessed. Etc. can obtain information on the air conditioner. The communication terminal adapter 19 can be connected to home appliances such as a refrigerator 26a and a television 26b in addition to the air conditioner, and can transmit information to the remote management device 18 of the remote monitoring center 17, respectively. A service engineer or the like standing by at the service station 16 can also obtain information on the air conditioner and the like from the remote management center 17 by communicating with the remote management center 17 using a personal computer or a mobile phone. ing.
[0093]
The other configuration is the same as in the above embodiment.
<Features of an air conditioner according to another embodiment>
(1)
Here, by storing the abnormality information in the indoor storage unit 21, the air conditioner can be provided at low cost without mounting an expensive EEPROM or the like in the outdoor unit, and the cause of the abnormality can be easily specified. It is superior to conventional air conditioners in that it can also be used.
(2)
Here, the accumulated operation time can be stored in the indoor storage unit 21 and it is possible to know how long after the start of energization to the indoor unit 2 the abnormality has occurred. Thus, the cause of the generated abnormality can be easily specified.
(3)
Here, since information on whether or not the first abnormality is present can be stored in the indoor storage unit 21, by taking into account the cause related to the first abnormality, it is possible to determine the abnormality that has occurred in the later work of identifying the cause of the abnormality. Can be easily identified.
(4)
Here, the time required from the occurrence of the abnormality to the time of performing the storage operation is only the time required for notifying the occurrence of the abnormality from the outdoor unit-side control unit 60 to the indoor unit-side control unit 20 at the time of the occurrence of the abnormality. . As a result, the time required from the occurrence of the abnormality to the time when the indoor unit-side control unit 20 recognizes the abnormality is shortened, and the indoor unit-side control unit 20 can more accurately calculate the integrated operation time when the abnormality occurs. Can be obtained.
(5)
Here, the access to the air conditioner by the service engineer or the like is permitted by the recognition device 19a of the communication terminal adapter 19, so that the service engineer or the like can obtain information on the air conditioner from a remote place. ing. A service engineer or the like standing by at the service station 16 can also obtain information on the air conditioner and the like from the remote management center 17 by communicating with the remote management center 17 using a personal computer or a mobile phone. ing. Therefore, before the service engineer or the like repairing the abnormal part arrives at the site, the information of the abnormality history can be confirmed in advance using a personal computer or a mobile phone. Accordingly, it is not necessary to directly operate the indoor storage unit 21 in the room, and the service engineer or the like can directly repair the abnormal portion of the outdoor unit installed outside the room without entering the room.
[0094]
【The invention's effect】
In the air conditioner according to claim 1, the outdoor unit-side control unit stores the accumulated operation time in the outdoor storage unit when an abnormality occurs in the outdoor unit. It can be understood that the event has occurred after the passage of time. Therefore, the cause of the abnormality that has occurred can be easily specified because the cause of the abnormality related to the accumulated operation time can be considered in the work of specifying the cause of the abnormality that will be described later. The indoor unit-side control unit stores the accumulated operation time from the start of energization to the indoor unit in the indoor storage unit and sends the accumulated operation time to the outdoor unit-side control unit. Therefore, the outdoor unit-side control unit can determine the integrated operation time without providing an expensive device such as a storage device with a battery backup function that can store the lapse of time even when the power supply is interrupted. Can be. For this reason, the outdoor unit can be made inexpensive. As described above, the cause of the abnormality that has occurred in the outdoor unit can be easily specified, and an inexpensive air conditioner can be realized.
[0095]
In the air conditioner according to the second aspect, the indoor storage unit is nonvolatile. For this reason, even if the power supply to the indoor unit is interrupted, the integrated operation time until the power supply is interrupted is stored, and when the power supply is restarted, the stored integrated operation time is stored. Counting can be restarted from time.
In the air conditioner according to claim 3, when an abnormality occurs in the outdoor unit, the notification of the occurrence of the abnormality is received by the indoor unit-side control unit from the outdoor unit-side control unit. It becomes possible to recognize the time of occurrence of an abnormality every time the error occurs. For this reason, by receiving the notification of the occurrence of the abnormality when the abnormality occurs in the outdoor unit in the indoor unit-side control unit, it is determined whether or not the occurred abnormality is the abnormality that has occurred for the first time since the power was supplied to the indoor unit. Can be recognized by the indoor unit side control unit.
[0096]
In the air conditioner according to the fourth aspect, only the indoor unit-side control unit recognizes the information as to whether or not the generated abnormality is the first time after the start of energization to the indoor unit. Therefore, by sending this information to the outdoor unit-side control unit, the outdoor unit-side control unit can also recognize whether or not the occurred abnormality is the first time after the start of energization to the indoor unit. .
[0097]
In the air conditioner according to claim 5, even when a continuous abnormality having a short time interval occurs when the indoor unit-side control unit and the outdoor unit-side control unit store the abnormality history in cooperation with each other. In addition, it is possible to suppress erroneous information that an abnormality for the first time after the start of energization to the indoor unit has not yet occurred due to transmission delay between the indoor unit-side control unit and the outdoor unit-side control unit. .
[0098]
In the air conditioner according to claim 6, when the outdoor unit-side control unit stores the information of the abnormality in the outdoor storage unit, the first abnormality after the start of energization to the indoor unit stored in the outdoor unit has already occurred. Can be performed based on the information that Therefore, in the case where the indoor unit-side control unit and the outdoor unit-side control unit store the abnormality history in cooperation with each other, the transmission delay between the indoor unit-side control unit and the outdoor unit-side control unit causes the transmission to the indoor unit to be stopped. Erroneous information that the first abnormality has not yet occurred after the start of power supply can be suppressed.
[0099]
In the air conditioner according to claim 7, the outdoor unit-side control unit stores information on whether or not the abnormality occurred in the outdoor unit is the first time after the start of energization of the indoor unit in the outdoor storage unit. . Therefore, in the work of specifying the cause of the abnormality that will be described later, it is possible to narrow down, from various possible causes of the abnormality, to the cause of the abnormality that is related to the abnormality that occurs only after the power supply to the indoor unit is started. Therefore, the cause of the abnormality can be more easily specified.
[0100]
In the air conditioner according to claim 8, by storing operation information at the time of occurrence of an abnormality of the outdoor unit in the outdoor storage unit, the value of each unit of the outdoor unit at the time of occurrence of an abnormality and the value of each unit of the outdoor unit at the time of standard operation are stored. It is easy to find out the portion where the abnormality has occurred by comparing with. For this reason, the cause of the abnormality described later can be more easily specified.
In the air conditioner according to the ninth aspect, the indoor unit-side control unit receives a notification of occurrence of abnormality notified from the outdoor unit-side control unit when an abnormality occurs in the outdoor unit, and stores the integrated operation time at the time of reception. , It is possible to know how much accumulated operation time has elapsed after the occurrence of the abnormality. Therefore, the cause of the abnormality related to the integrated operation time can be considered in the work of specifying the cause of the abnormality later, and the cause of the abnormality that has occurred can be easily specified. The indoor unit-side control unit stores, in the indoor storage unit, the accumulated operation time from the start of energization to the indoor unit, and a notification of the occurrence of an abnormality notified from the outdoor unit-side control unit when an abnormality occurs in the outdoor unit. And the accumulated operation time is stored in the indoor storage unit at the time of receipt. Therefore, even in the outdoor unit-side control unit of the outdoor unit in which power supply may be interrupted, it is necessary to provide an expensive device such as a storage device with a battery backup function capable of storing the lapse of time, or to reduce the accumulated operation time. This eliminates the need to secure the capacity of a storage device or the like for receiving and storing from the indoor unit side control unit. For this reason, the outdoor unit can be made inexpensive. As described above, the cause of the abnormality that has occurred in the outdoor unit can be easily specified, and a more inexpensive air conditioner can be realized.
[0101]
In the air conditioner according to claim 10, the indoor storage unit is non-volatile. For this reason, even if the power supply to the indoor unit is interrupted, the integrated operation time until the power supply is interrupted is stored, and when the power supply is restarted, the stored integrated operation time is stored. The counting can be restarted from.
In the air conditioner according to the eleventh aspect, the indoor unit-side control unit stores information on whether or not the abnormality occurred in the outdoor unit is the first time after the start of energization of the indoor unit in the indoor storage unit. . Therefore, in the work of identifying the cause of the abnormality that will be described later, it is possible to narrow down from various possible causes of the abnormality to those that are related to the abnormality that occurs only after the power supply to the indoor unit is started. Therefore, the cause of the abnormality can be more easily specified.
[0102]
In the air conditioner according to claim 12, by storing operation information at the time of occurrence of an abnormality of the outdoor unit in the indoor storage unit, the value of each unit of the outdoor unit at the time of occurrence of the abnormality and the value of each unit of the outdoor unit at the time of standard operation It is easy to find out the portion where the abnormality has occurred by comparing with. For this reason, the cause of the abnormality described later can be more easily specified.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an external configuration of an air conditioner.
FIG. 2 is an explanatory diagram illustrating an example of a refrigerant circuit.
FIG. 3 is a system schematic diagram of an indoor unit-side control unit and an outdoor unit-side control unit.
FIG. 4 is a block diagram showing a configuration of an indoor unit-side control unit.
FIG. 5 is a block diagram showing a configuration of an outdoor unit-side control unit.
FIG. 6 is a schematic diagram of electric wiring of an indoor unit and an outdoor unit.
FIG. 7 is a flowchart of the operation of the indoor unit-side control unit when performing power supply stop control.
FIG. 8 is a flowchart of the operation of the outdoor unit-side control unit when performing power supply stop control.
FIG. 9 is a flowchart of the operation of the outdoor unit-side control unit when power supply restart control is performed.
FIG. 10 is an information transmission / reception diagram when an abnormality continuously occurs in the outdoor unit.
FIG. 11 is a system schematic diagram showing a flow of acquiring information on an air conditioner from a remote place.
FIG. 12 is a system schematic diagram showing a flow of acquiring information on an air conditioner from a remote place according to another embodiment.
[Explanation of symbols]
2 indoor units
6 outdoor units
20 Indoor unit side control unit
21 Indoor memory
60 Outdoor unit side control unit
61 Outdoor storage unit

Claims (12)

An indoor unit (2) having an indoor unit-side control unit (20),
An outdoor unit (6) having an outdoor unit-side control unit (60) and operating by receiving power supply from the indoor unit (2);
With
The indoor unit-side control unit (20) is connected to an indoor storage unit (21) that stores an accumulated operation time from when power is first supplied to the indoor unit, and stores the accumulated operation time in the outdoor unit. To the side control unit (60),
The outdoor unit-side control unit (60) is connected to a nonvolatile outdoor storage unit (61), and stores the integrated operation time in the outdoor storage unit (61) when an abnormality occurs in the outdoor unit. ,
Air conditioner. The indoor storage unit (21) is nonvolatile.
The air conditioner according to claim 1. The outdoor unit-side control unit (60) sends a notification of occurrence of abnormality to the indoor unit-side control unit (20) when an abnormality occurs in the outdoor unit.
The air conditioner according to claim 1. When an abnormality occurs in the outdoor unit, the indoor unit-side control unit (20) sends information on whether or not the abnormality is the first time after the start of energization to the indoor unit. Send to
The air conditioner according to claim 3. The outdoor unit-side control unit (60) receives an electric power from the indoor unit (2) and operates while the outdoor unit-side control unit (60) is operating. After that, the information that the first abnormality has already occurred after the energization of the indoor unit (2) has been started is recognized,
The air conditioner according to claim 4. After the occurrence of an abnormality in the outdoor unit (6), the outdoor unit-side control unit (60) transmits information indicating that the first abnormality has already occurred after the start of energization to the indoor unit (2). Stored in the storage unit (61),
The air conditioner according to claim 4. The outdoor unit-side control unit (60) causes the outdoor storage unit (61) to store information on whether or not the abnormality occurred in the outdoor unit is the first time after the start of energization.
The air conditioner according to claim 4. The outdoor unit-side control unit (60) causes the outdoor storage unit (61) to store operation information when an abnormality occurs in the outdoor unit when an abnormality occurs in the outdoor unit.
The air conditioner according to claim 1. An indoor unit (2) having an indoor unit-side control unit (20),
An outdoor unit (6) having an outdoor unit-side control unit (60) and operating by receiving power supply from the indoor unit (2);
With
The indoor unit-side control unit (20) is connected to an indoor storage unit (21) that stores an integrated operation time from when power is first supplied to the indoor unit, and the outdoor unit-side control unit (60). ) Is received when an abnormality occurs in the outdoor unit, and the integrated operation time is stored in the indoor storage unit (21) at the time of the reception.
Air conditioner. The indoor storage unit (21) is nonvolatile.
The air conditioner according to claim 9. The indoor unit-side control unit (20) causes the indoor storage unit (21) to store information on whether an abnormality occurred in the outdoor unit is the first time after the start of energization of the indoor unit.
The air conditioner according to claim 10. The indoor unit-side control unit (20) receives operation information at the time of occurrence of an abnormality in the outdoor unit from the outdoor unit-side control unit (60), and stores the operation information in the indoor storage unit (21).
The air conditioner according to claim 9.

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