JP3984945B2 - Air conditioner system - Google Patents

Description

  The present invention relates to an air conditioner that is rationally configured using a network, and that is suitable for cost reduction, maintenance such as maintenance management, and improvement in operability.

Conventionally, an air conditioner has a control program mounted on a printed board at the time of manufacture, and in a multi-air conditioner system, a plurality of indoor units are connected to an outdoor unit via connection wiring. Patent Documents 1 and 2 disclose systems in which a local area network (LAN) is built in a building, centrally managed using the local area network, and an operation unit of an air conditioner in the building is digitally controlled by the terminal. Are listed.
Furthermore, Patent Document 1 describes an example of downloading a program via a LAN.

JP-A-4-340150

JP-A-61-212941

  In the above prior art (Patent Document 2), sufficient consideration is given to rationally wiring indoor units, outdoor units, etc., performing fine control of room temperature, etc., and reducing the number of indoor units, outdoor units, etc. Was not. Moreover, in the said prior art (patent document 1), when the change of a specification is requested by the user of an air conditioner (for example, the set temperature range is changed from 17 ° C. to 30 ° C. to 20 ° C. to 26 ° C.) The specific configuration for changing the control program has not been described in detail.

The object of the present invention is to solve the above-mentioned problems of the prior art, reduce the wiring, simplify the construction and reduce the cost, and share the wiring necessary for a network including, for example, a personal computer as other OA equipment. An object of the present invention is to provide an air conditioner that can effectively use a network of air conditioners.
Another object of the present invention is to provide an air conditioner that improves controllability and operability as an air conditioner and is suitable for maintenance such as maintenance management.

To achieve the above object, the present invention includes a plurality of air conditioner, the indoor unit comprising an electronic expansion valve, and an outdoor unit having a compressor in the air conditioner system connected with the liquid pipe and the gas pipe ,
The indoor unit or the outdoor unit is connected to a network, and the indoor unit or the outdoor unit includes a storage device that stores a control program for controlling the capacity of the compressor of the air conditioner or the opening of the electronic expansion valve,
Before SL becomes a control program for controlling the capacity or the degree of opening of the electronic expansion valve of a compressor of an air conditioner is provided with a plurality for each application, one control program among the plurality of control programs through the network It is transmitted to some or all of the indoor unit or outdoor unit together with the identification code,
The control unit of the indoor unit or the outdoor unit to which the one control program is transmitted recognizes the transmitted identification code and determines whether or not the control program is for the self unit. The control program stored in the storage device is changed by the transmitted control program ,
When receiving a response to the operating state of the air conditioner, the controller controls the capacity of the compressor or the opening of the electronic expansion valve based on the changed control program,
In addition, the indoor unit or the outdoor unit in which the one control program is not a self-directed control program and is not changed is controlled by a control program different from the air conditioner in which the control program is changed .
Further, in the above, it is preferable that the network is connected to a public line network, and the control program is transmitted to the indoor unit or a storage device of the outdoor unit via the public line network .

Further, in the above, it is preferable that the plurality of control programs include a hospital or school control program.
Further, in the above, it is preferable that the computer network is connected to a public network and the control program is loaded into the air conditioner from a remote location.

  Further, the present invention provides an air conditioner in which an indoor unit and an outdoor unit including a compressor are connected by a liquid pipe and a gas pipe, the indoor unit and the outdoor unit connected to a computer network, and the air conditioner. A central control device that controls the apparatus, and transmits response information about room temperature to the central control device via the computer network, the central control device transmitting the response information about the room temperature, and the air conditioner The operation control is performed based on the operation data.

ADVANTAGE OF THE INVENTION According to this invention, the controllability and operativity as an air conditioner are improved, maintenance, such as maintenance management, and the air conditioning apparatus system suitable for various system expansion | deployment are provided.

An embodiment of the present invention will be described below with reference to FIGS.
FIG. 1 shows the connection of components to a local area network (LAN) of an air conditioner system according to an embodiment of the present invention. FIG. 5 shows a basic configuration of a refrigeration cycle that is a component of the air conditioner system.

  In FIG. 1 for exchanging control signals and the like, the LAN 1 is managed by a centralized control device 5 provided with a network operating system (OS). 2 to 128 indoor units 3A and 3B and 1 to 16 outdoor units 4A are connected to the centralized control device 5 via the LAN 1. For this connection, for example, 10BASE-T (twisted pair Ethernet (registered trademark) is used. The OS of the centralized control device 5 has a multitasking function, and each of the indoor units 3A and 3B and the outdoor unit 4A is a terminal. Etc. can be recognized by ID, and the right to use the terminal can be set.

  As shown in the refrigeration cycle of FIG. 5, each of the outdoor units 4A and 4B has its opening degree changed in order to vary the amount of refrigerant with respect to the compressor 7, the four-way valve 8 for switching between heating and cooling, the outdoor heat exchanger 9, and the outdoor heat exchanger 9. The receiver 12 and the accumulator 11 are adjusted. The indoor units 3A, 3B, 3C, and 3D have an indoor heat exchanger 13 and an electronic expansion valve 14 with a variable opening. Next, an example of the operation during operation will be described.

  During cooling, the high-temperature and high-pressure gas discharged from the compressor 7 of the outdoor unit 4A passes through the four-way valve 8 and is heat-exchanged by the outdoor heat exchanger 9 to become liquid refrigerant. Here, the electronic expansion valve 10 is fully open. The liquid refrigerant passes through the receiver 12 and the common liquid pipe 15 and is diverted to the liquid pipe of each indoor unit. The liquid refrigerant is decompressed by the electronic expansion valve 14 and is heat-exchanged with the indoor air by the indoor heat exchanger 13 to become low-pressure gas. The low-pressure gas merges into the common gas pipe 16, passes through the gas pipe of the outdoor unit, returns to the compressor 7 through the four-way valve 8 and the accumulator 11, becomes compressed high-temperature high-pressure refrigerant gas, and is discharged again.

  At the time of heating, the high-temperature and high-pressure gas discharged from the compressor 7 of the outdoor unit 4A passes through the four-way valve 8 and merges with the common gas pipe 16, and heat is exchanged with the indoor air in the indoor heat exchanger 13 to become liquid refrigerant. Here, the electronic expansion valve 14 is fully open. The liquid refrigerant merges into the common liquid pipe 15, passes through the receiver 12 of the outdoor unit, is depressurized by the electronic expansion valve 10, and exchanges heat with outdoor air by the outdoor heat exchanger 9 to become a low-pressure gas, and the four-way valve 8 and the accumulator 11. Then, it returns to the compressor 7 and is discharged again.

  In any of the above cooling or heating operations, the electronic expansion valve 14 of the indoor unit that needs to be stopped in response to a request in the room needs to be closed. Further, the plurality of outdoor units are required to be operated in the total number or one set in accordance with the required capacity. Further, when the operating capacity of the compressor or the two outdoor heat exchangers 9 are configured, the switching is necessary.

The above selection and combination according to the required cooling or heating load, especially the compressor capacity control, is performed by the centralized control device 5. Here, the centralized control device 5 controlling the capacity of the compressor may be determining the number of operating outdoor units, or controlling the compressor 7 of each outdoor unit using a variable frequency power source (inverter). It is also possible to command the capacity and directly control the capacity.
In addition, the central control device 5 controlling the refrigerant flow rate means that at least the opening degree of the electronic expansion valve 14 of each indoor unit is determined so that the refrigerant is properly distributed to each indoor unit according to each indoor load. To do.

  As described above, since the centralized control device 5 includes the network operating system (OS) for managing the LAN, its maintenance management becomes easy. In addition, since the refrigerant flow distribution to each indoor unit is determined and the required operating capacity of the compressor of the outdoor unit is determined, management of the indoor unit, outdoor unit model, capacity, etc. becomes easy and common Can be planned.

Next, another embodiment of the present invention will be described with reference to FIG.
FIG. 2 shows connection of components to the LAN of the air conditioner system of the present invention. Reference numeral 1 denotes a LAN similar to the example of FIG. 1, and a plurality of personal computers 6A and 6B are connected as OA devices. The OA device to be connected is a printer or the like normally used in an office in a building, and may be other equipment such as a disaster prevention system or a security system.

  The refrigeration cycle as a multi-air conditioner is the same as that described with reference to FIG. 1, and the central control device 5 determines the distribution of the refrigerant flow rate to each of the indoor units 3A and 3B, and the necessary compressor 7 of the outdoor unit 4A. Determine the operating capacity. In addition, an ice heat storage unit or the like is connected as another component device. In this embodiment, the in-building wiring of the OA equipment and the wiring between the indoor and outdoor units necessary for the air conditioner can be shared, and the labor saving is promoted.

Still another embodiment will be described with reference to FIGS. 3 and 4 and FIGS.
FIG. 3 is a block diagram showing the configuration of an indoor unit 3A that is one of the components of the multi-air conditioner system. FIG. 4 is a block diagram similarly showing the configuration of the outdoor unit 4A. FIG. 6 is a list showing examples of unique numbers stored in each component device, and FIG. 7 is a list of refrigerant numbers and group numbers of indoor units and outdoor units determined at the time of system design. Are message formats transmitted by the central control apparatus or loader to the LAN, and FIGS. 9 to 12 show examples of messages.

  The connection of the constituent devices to the LAN of the air conditioner system is the same as the configuration of FIG. 1 or FIG. 2 already described. The refrigeration cycle is the same as that described in FIG.

  The indoor unit 3A requires a relatively high speed at a basic part of the indoor unit. Although not illustrated, for example, a control unit 3-3 mainly performing detection of indoor temperature, driving of a fan motor, and the like, The storage device 3-2 and a transmission unit 3-1 for communicating with other components via the LAN 1 are provided. The storage device 3-2 has an initial program loader (IPL) for confirming that the control program has been transmitted.

  Similarly, the outdoor unit 4A also requires relatively high speed or constant monitoring. Although not shown, for example, a control unit 4-3 that mainly detects discharge and suction pressure, drives a compressor, and the like, and a storage device 4 -2 and transmission means 4-1 for communicating with other components via the LAN 1.

Other indoor units and outdoor units have the same configuration, and the centralized control device 5 similarly has a storage device and transmission means, and further includes a loader that transmits a control program to the LAN 5. Here, the loader may be provided separately from the central control device 5.
The indoor units 3A and 3B, the outdoor unit 4A, and the centralized control device 5 store a production number that is a unique number when manufacturing the device. That is, as shown in FIG. 6, a 10-digit manufacturing number is stored, and this number can be transmitted on the LAN 1 by a request signal from another device.

  In addition, the refrigerant system number and group number are determined as shown in FIG. 7 at the time of system design. At the time of construction, the central control device 5 reads the manufacturing numbers of the indoor units 3A, 3B, etc. and the outdoor unit 4A, and corresponds to each. The refrigerant system number and the group number are transmitted and stored in the storage devices 3-2 and 4-2 such as the indoor units 3A and 3B and the outdoor unit 4A.

As shown in FIG. 8, the message format to be transmitted has a header part. By specifying the information of the header part, the control program for each indoor unit and outdoor unit can be transmitted on the LAN 1, and the serial number can be specified. For example, a control program for only a specific indoor unit or outdoor unit can be transmitted.
Each indoor unit 3A, 3B, outdoor unit A, etc. receives a message on LAN 1 via transmission means 3-1, 4-1 and discriminates a message directed to itself by control units 3-3, 4-3. Then, only the self-oriented message is read into the storage device 4-2.

  For example, the central control apparatus 5 or its loader transmits the message shown in FIG. 9 in which the indoor control program is installed. The indoor units 3A and 3B receive the message of FIG. 9 via the transmission means 3-1, and recognize the identification number = 1 of the header part in the control unit 3-3, and determine that the message is directed to itself. Then, the indoor control program is loaded into the storage device 3-2.

  On the other hand, the outdoor unit 4A similarly receives the message of FIG. 9 via the transmission means 4-1, recognizes the identification code = 1 of the header section in the control section 4-3, and determines that the message is not intended for itself. Discard this message.

  As described above, the indoor control program can be loaded into the indoor units 3A, 3B, etc. simultaneously. As another message example, a case will be described in which the group number 1 is used as a cooling only machine and the other groups 2 to 5 are used as heat pump machines.

  First, the cooling control outdoor control program is set in the central control device 5 or its loader, and the message shown in FIG. As described above, only the outdoor unit 4A recognizes it as a message for itself and loads the cooling-only outdoor control program into the storage device 4-1.

  Next, the heat pump outdoor control program is set in the centralized control device 5 or its loader, and the message shown in FIG. 11 is transmitted. Similarly, although the heat pump outdoor control program is not shown, the storage device 4-1 of the outdoor unit 4B is shown. To load.

  Next, the indoor control program is set in the centralized control device 5 or its loader, and the message shown in FIG. 12 is transmitted. Similarly, the indoor control program is loaded into the storage device 3-1 such as the indoor units 3A and 3B.

  In the above description, the control program is set in the central control device 5 or its loader. However, a load switch is provided in one of the air conditioners on the LAN 1 or in the devices constituting the air conditioner, for example, the indoor unit 3A. When this switch is pressed, the indoor unit 3A can transmit the control program stored in the storage device 3-2 upward in the same message format as described above.

  As described above, the control program required for each component device can be easily and reliably changed in accordance with the change in the system specification. In particular, when a combination of indoor unit capacities is mixed, control of the operating capacity of the compressor can be changed. Further, since a specific group can be selected and a control program can be loaded in a batch, the program can be changed efficiently.

FIG. 14 shows an example in which a group of air conditioners is connected via gateways 20 and 21, whereby risk distribution can be achieved when a failure occurs in one group. Alternatively, a device that can be connected to the public line network is connected to the LAN 1, and a control program for the air conditioner on the LAN 1 or the equipment that constitutes the air conditioner may be loaded remotely via this device.
Furthermore, although the central control apparatus 5 has been described as a server personal computer in the above embodiment, a loader may be simply provided separately.

  FIG. 13 shows still another embodiment in which a file server 17 is provided separately from that of FIG.

The file server 17 is provided with a plurality of application-specific control programs or a plurality of programs necessary for detection by various sensors. Further, from the indoor units 3A, 3B, the outdoor unit A, etc., the operating frequency, suction pressure, and discharge pressure of the compressor, the open / close state of each expansion valve, the temperature of each part such as the suction temperature, the discharge temperature, the outside air temperature, etc. Is transmitted to the file server 17 via the LAN 1 and stored. On the other hand, the reference value of the operation data is separately stored in the file server 17, and a failure diagnosis is performed by comparing the two with the analysis software provided in the central control device 5.
Further, a plurality of client personal computers, such as 6A and 6B, are connected as OA devices, and are installed in the same room as at least one indoor unit 3A.

  From the personal computers 6A and 6B, for example, a response indicating that the room temperature is high can be input, and the information is transmitted to the server personal computer 5 which is a central control device. The server personal computer 5 controls the operation state by comprehensively judging the response to the operation state of the multi-air conditioner system as described above and the values of the temperature sensors provided in the indoor units 3A and 3B. This makes it possible to control the compressor capacity, the amount of refrigerant, and the like optimally so as to increase the room temperature, for example, by concentrating only where there is a reaction that the room temperature is high.

  In the above embodiment, when the number of indoor units connected to the LAN is 2 to 128 units and the number of outdoor units is 1 to 16 units, the system capacity can be increased from about 84 KW (30 horsepower) by integrating with one system of refrigerant piping. Corresponding deployment becomes possible. Moreover, it is a convenient scale for constructing an air conditioner system with a small-scale LAN that can be inexpensively as high as a personal computer.

  Furthermore, in the above, it is possible to change at least an outdoor unit control program, for example, a control program for giving an opening command of an expansion valve provided in the indoor unit, through a small-scale LAN. Therefore, the indoor unit does not need a means for controlling the opening degree of the expansion valve, and at least has a drive unit, so that the indoor unit can be shared.

In addition, since the centralized control device determines distribution of the refrigerant flow rate to at least each indoor unit and performs control to determine the operating capacity of the compressor of the outdoor unit, management of the indoor unit, outdoor unit model, capacity, etc. This makes it easy to standardize and standardize indoor units and outdoor units, and reduce the number of models.
Moreover, since OA equipment is connected to the LAN, wiring can be shared with equipment equipment such as OA equipment, disaster prevention and security systems that are usually installed in buildings, and effective use thereof can be achieved.
Furthermore, since the control program required for the components of the multi-air conditioner system is loaded from the loader to the storage device via the LAN and the transmission means, the control program required for each component can be changed in accordance with the change of the specifications. It becomes easy.

Furthermore, since the outdoor control program required for the outdoor unit of the multi-air conditioner system is transferred from the loader to the outdoor storage device via the LAN and the outdoor transmission means, the control program required for the outdoor unit is changed according to changes in specifications, etc. Easy to do. In particular, the fact that the control program for the outdoor unit can be changed makes it possible to finely change the control of the operating capacity of the compressor in response to a case where the combination of indoor units is changed by mixing large and small capacities.
Further, in the above, a specific group is selected from a plurality of component devices, and the control programs necessary for the group are loaded into the storage device of the component devices at a time. The control program can be transmitted efficiently and in a short time by dividing the system so that it is used only as a heat pump machine.

Furthermore, since there are multiple control programs for different applications and one can be selected, the air conditioner can be controlled gently with relatively little temperature change for hospitals, for example, and to improve learning efficiency for schools. The temperature can be lowered and changed for the purpose of active control.
Furthermore, if a plurality of application-specific control programs are provided in the loader and one can be selected, the air conditioner can be changed depending on the application, for example, for hospitals or for schools. In particular, in this example, rather than centrally controlling a plurality of component devices, the control is distributed to each component device, and the discharge pressure, the suction pressure, the outside air temperature, etc. are constantly detected by individual component devices. In this case, it is suitable for changing a program necessary for the program.

  Further, in the above, for example, a serial number is stored as a unique number for the indoor unit and the outdoor unit, and the serial number can be sent to the LAN. Therefore, the centralized control device or the loader determines the serial number. Only the control program corresponding to it can be transmitted. Therefore, it is possible to improve the controllability as a multi-air conditioner system, such as an improved version of the program for each serial number, and maintenance management becomes easy.

  Furthermore, the storage device of the multi-air conditioner system and the component equipment and OA device provided with the transmission means are connected to the LAN, and the operating system (OS) for managing the LAN and the storage device are loaded with the control program of the component device in the central control device. As a result, it becomes easy to change the control program required for each component device according to the change of specifications, etc., and the wiring of OA devices such as personal computers and printers usually installed in buildings It can be shared and used effectively.

  Further, since the operation data of the indoor unit and the external unit is transmitted to the central control device in the above, if the operation data is, for example, the suction pressure of the compressor, the discharge pressure, the temperature of each part, the data is recorded. Analyzing the operation data can reveal the cause of equipment failure. Further, the operation state can be diagnosed by comparing the operation data with the reference value.

In addition, a centralized control device equipped with an OS that manages the LAN and an indoor unit, outdoor unit, and OA device are connected to the LAN, and a response such as a high room temperature is input as the operating state of the multi-air conditioner system from the OA device. Therefore, it is possible not only to control the operation state by the temperature sensor but also to control the operation state in consideration of the reaction to the operation state at the place where the indoor unit is installed.
Thereby, controllability and operability as an air conditioner are improved.

Furthermore, since the LAN has a personal computer for a server provided with an OS for connecting and managing 2 to 128 indoor units, 1 to 16 outdoor units, and a client personal computer. A system can be constructed with a small-scale LAN that can be installed in one system of refrigerant piping and can be installed in correspondence with a system capacity of up to about 84 KW, and can be made inexpensively with a personal computer.
Therefore, in a building or the like, the capacity can be set in small increments according to each room, and a system design such as selecting an outdoor unit of an appropriate scale according to the deployment of each indoor unit can be performed.

  In addition, since it includes an outdoor unit connected to the LAN, a plurality of client personal computers connected to the LAN, and a server personal computer provided with a server OS for managing the LAN, it is inexpensive. It is possible to change at least an outdoor unit control program, for example, a control program for giving an opening command of an expansion valve provided in the indoor unit, through a small LAN that can be used. Therefore, the indoor unit does not need a means for controlling the opening degree of the expansion valve, the indoor unit can be made common, and the number of models can be reduced.

It is a block diagram which shows the connection of the component apparatus to the local area network (LAN) of the air conditioner system of one Example. It is a block diagram which shows the connection of the component apparatus to LAN of the air conditioner system by another Example. It is a block diagram which shows the structure of the indoor unit which is one of the components of a multi air-conditioning system. It is a block diagram which shows the structure of an outdoor unit. It is a block diagram which shows the basic composition of the refrigerating cycle which is a component apparatus of an air conditioner system. It is a list figure which shows the example of the unique number memorize | stored in each component apparatus. It is the list of the refrigerant | coolant system number and group number of the indoor unit and outdoor unit which were decided at the time of system design. It is a list figure of the message format which a centralized control apparatus or a loader transmits to LAN. It is a list figure which shows the example of a message. It is a list figure which shows the example of a message. It is a list figure which shows the example of a message. It is a list figure which shows the example of a message. It is a block diagram which shows the connection of the component apparatus to LAN of the air conditioner system which showed the further Example and provided the file server separately with respect to the thing of FIG. Still another embodiment is shown, and an example in which a group of air conditioners is connected via a gateway to that of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Local area network (LAN), 3A-3Z ... Indoor unit, 4A-4F ... Outdoor unit, 5 ... Central control apparatus or server personal computer, 6A-6B ... OA apparatus or client personal computer, 3-1, 4-1 ... Transmission means, 3-2, 4-2 ... Storage device, 3-3, 4-3 ... Control unit, 7 ... Compressor, 10, 14 ... Electronic expansion valve.

Claims (2)

A plurality of air conditioner, the indoor unit comprising an electronic expansion valve, the air conditioner system and an outdoor unit are connected by a liquid pipe and the gas pipe provided with a compressor,
The indoor unit or the outdoor unit is connected to a network, and the indoor unit or the outdoor unit includes a storage device that stores a control program for controlling the capacity of the compressor of the air conditioner or the opening of the electronic expansion valve,
Before SL becomes a control program for controlling the capacity or the degree of opening of the electronic expansion valve of a compressor of an air conditioner is provided with a plurality for each application, one control program among the plurality of control programs through the network It is transmitted to some or all of the indoor unit or outdoor unit together with the identification code,
The control unit of the indoor unit or the outdoor unit to which the one control program is transmitted recognizes the transmitted identification code and determines whether or not the control program is for the self unit. The control program stored in the storage device is changed by the transmitted control program ,
When receiving a response to the operating state of the air conditioner, the controller controls the capacity of the compressor or the opening of the electronic expansion valve based on the changed control program,
In addition, the indoor unit or the outdoor unit in which the one control program is not a self-directed control program and is not changed is controlled by a control program different from the air conditioner in which the control program is changed. Air conditioning system . 2. The air conditioner system according to claim 1, wherein the network is connected to a public line network, and the control program is transmitted to the storage unit of the indoor unit or the outdoor unit via the public line network. Air conditioner system .

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