JP2020070943A - Refrigeration system - Google Patents

Abstract

To provide a refrigeration system capable of utilizing operation information of each refrigeration device among the refrigerant devices without using a centralized control device complicated in data management.SOLUTION: A refrigeration system includes a plurality of refrigeration devices 1A, 1B and 1C communicable with each other, and an operation apparatus 2 connected with at least one of the plurality of refrigeration devices 1A, 1B and 1C and having an input portion 2a and an output portion 2b, and a control device 4. The input portion 2a accepts an instruction for comparing the operation information of one of the refrigeration devices connected with the operation apparatus 2 with the operation information of the other refrigeration device, the control device 4 acquires a prescribed comparison result by comparing the operation information of one refrigeration device with the operation information of the other refrigeration device acquired by mutual communication with the one refrigeration device, and the output portion 2b outputs the result of the comparison.SELECTED DRAWING: Figure 1

Description

  The present disclosure relates to refrigeration systems.

BACKGROUND ART An air conditioning system (refrigeration system) that includes a plurality of air conditioners as refrigeration devices and a centralized control device that centrally controls the plurality of air conditioners is known (see, for example, Patent Document 1).
In this air conditioning system, each air conditioner and the central control device are configured to be able to communicate with each other by a communication slave unit connected to each air conditioner and a communication master unit connected to the central control device. .. The centralized control device can perform an operation and a state check for each air conditioner by communicating with each air conditioner. The central control device can also store the history of operations performed on the indoor unit or the abnormality that occurred in the indoor unit by communicating with each air conditioner.

JP 2002-349940 A

  In the air conditioning system described in Patent Document 1, since various data such as operation data, state data, operation history data, and abnormality data are stored in the centralized control device, a large-capacity storage device is required and data preservation The system construction for such things is very complicated.

  An object of the present disclosure is to provide a refrigeration system in which operating information in each refrigeration system can be mutually used between the refrigeration systems without using a centralized control device that complicates the system construction.

(1) The refrigeration system of the present disclosure is
A plurality of refrigeration devices that can communicate with each other,
An operating device connected to at least one of the plurality of refrigerating apparatuses and having an input unit and an output unit,
And a control device,
The input unit accepts an instruction to compare the operation information of one refrigeration apparatus to which the operation device is connected and the operation information of another refrigeration apparatus,
The control device, by the instruction of the comparison, compares the operation information of the one refrigerating device and the operation information of the other refrigerating device acquired by mutual communication with the one refrigerating device, and a predetermined value. Get the comparison result,
The output unit outputs the comparison result.

  With such a configuration, it is possible to compare the operation information between one refrigeration apparatus and another refrigeration apparatus, obtain the comparison result, and output the comparison result. That is, it becomes possible to mutually use the operation information in each refrigeration system between the refrigeration systems.

(2) Preferably, the refrigeration system includes a storage unit that stores the operation information.
With such a configuration, the operation information stored in the storage unit of each refrigeration system can be mutually used.

(3) Preferably, the storage unit stores information about the comparison result.
With such a configuration, the comparison results stored in the storage unit of each refrigeration system can be mutually used.

(4) Preferably, the operation information includes operation information regarding a malfunction of the refrigeration system,
The comparison result includes information about the cause of the failure and / or the coping method of the failure.
With such a configuration, it is possible to compare operation information relating to a defect between one refrigerating device and another refrigerating device, and as a result of the comparison, obtain information on a cause of the defect and / or a coping method for the defect. You can

(5) Preferably, the operation information includes operation information regarding power consumption of the refrigeration apparatus,
The comparison result includes information about the improvement of the power consumption.
With such a configuration, it is possible to compare operation information regarding power consumption between one refrigeration apparatus and another refrigeration apparatus, and as a result of the comparison, information regarding improvement in power consumption can be acquired.

(6) Preferably, the operation information includes model data.
According to this configuration, since the operation information includes the model data, it is possible to easily compare the operation information of the one refrigeration apparatus and the operation information of the other refrigeration apparatus of the same model as the one refrigeration apparatus. it can.

(7) Preferably, the driving information includes driving state data.
According to this configuration, since the operation information includes the operation state data, it is possible to compare the operation state data of one refrigeration apparatus and the operation state data of another refrigeration apparatus and obtain the comparison result.
Note that the operating state data refers to, for example, measurement data of a temperature sensor, a pressure sensor, an electric power sensor, etc., equipment control data such as the number of revolutions of a compressor, the number of revolutions of a fan, and the operating time of a refrigeration system.

(8) Preferably, the output unit has a higher degree of coincidence with the operation information of the one refrigerating device among the operation information of the other refrigerating device that is compared with the operation information of the one refrigerating device. The comparison result in the other refrigerating apparatus having the above is preferentially output.
According to this configuration, since the other refrigeration apparatus having the operation information having a high degree of coincidence with the operation information of the one refrigeration apparatus are likely to be in the same operating condition, the comparison result in the other refrigeration apparatus is given priority. By outputting to, it is possible to utilize more appropriate comparison results.

(9) Preferably, the output unit outputs a plurality of comparison results in descending order of the degree of coincidence.
According to this configuration, by outputting the plurality of comparison results in the order of high matching, it is possible to select and utilize a more appropriate comparison result from the plurality of comparison results.

(10) Preferably, the output unit preferentially outputs the manufacturer-provided information related to the input instruction.
According to this configuration, since the information provided by the maker of the refrigeration apparatus is highly likely to be important, the information can be transmitted to the maintenance worker etc. without fail by preferentially outputting the information.

It is a schematic block diagram which shows one Embodiment of a refrigeration system. It is a schematic block diagram which shows the refrigerant circuit of a refrigerating device. It is a block diagram of a control apparatus. It is a flow chart which shows a processing procedure of information use for resolution of a malfunction. It is a flow chart which shows a processing procedure of information use for energy saving. It is explanatory drawing which shows the comparison result of power consumption.

[Refrigeration system configuration]
FIG. 1 is a schematic configuration diagram showing an embodiment of a refrigeration system. FIG. 2 is a schematic configuration diagram showing a refrigerant circuit of a refrigeration system.
The refrigeration system of this embodiment has a plurality of refrigeration apparatuses 1A to 1C. Each of the refrigeration systems 1A to 1C is, for example, a separate type air conditioner including an indoor unit 21 and an outdoor unit 22. As shown in FIG. 2, the refrigerating apparatuses 1A to 1C connect the compressor 30, the four-way switching valve 32, the outdoor heat exchanger 31, the expansion valves 34, 24, and the indoor heat exchanger 25 with the refrigerant pipe 23. The heat pump type refrigerant circuit 11 is provided.

  The refrigerant circuit 11 sends the high-temperature and high-pressure refrigerant discharged from the compressor 30 to the outdoor heat exchanger 31 via the four-way switching valve 32 during the cooling operation and is condensed in the outdoor heat exchanger 31. A refrigeration cycle is performed in which the refrigerant is decompressed by the expansion valve 24 and then evaporated in the indoor heat exchanger 25 to be sucked into the compressor 30. Further, during the heating operation, the refrigerant circuit 11 sends the high-temperature and high-pressure refrigerant discharged from the compressor 30 to the indoor heat exchanger 25 via the four-way switching valve 32 and condenses in the indoor heat exchanger 25. A refrigeration cycle is performed in which the refrigerant is decompressed by the expansion valve 34, evaporated in the outdoor heat exchanger 31, and then sucked into the compressor 30. An air flow is supplied to each heat exchanger 25, 31 by a fan 26, 33.

  Various sensors are provided in the refrigeration systems 1A to 1C. For example, in the refrigeration systems 1A to 1C, an air temperature sensor 27 that detects the suction temperature (indoor temperature), refrigerant temperature sensors 35a and 35b that detect the temperature of the refrigerant in the discharge pipe and the suction pipe of the compressor 30, and the compressors. Pressure sensors 36a and 36b that detect the suction pressure and the discharge pressure of 30 and a power sensor that detects the power consumption of the refrigeration systems 1A to 1C are provided. The measurement data obtained by these sensors is stored in the storage unit 6 of the control device 4 described later. The operation of various devices such as the compressor 30, the fans 26 and 33, the expansion valves 24 and 34 is controlled by the control device 4. Data used for this control, for example, operating data of the compressor 30 and the fans 26 and 33, and control data such as the opening of the expansion valves 24 and 34 are also stored in the storage unit 6 of the control device 4.

  Each of the refrigeration systems 1A to 1C further includes a communication device 3 and a control device 4. The refrigerating apparatuses 1A to 1C are connected to each other via a communication device 3 so that they can communicate with each other. The communication device 3 of each of the refrigerating devices 1A to 1C has a storage unit that stores address information of the communication device 3 of the other refrigerating devices 1A to 1C. As the communication device 3, for example, a wireless or wired LAN adapter that connects to a LAN (local area network) built in the facility where the refrigeration devices 1A to 1C are installed can be adopted. In this case, the refrigerating apparatuses 1A to 1C are communicably connected to each other via a LAN.

  The communication device 3 may be one that connects the refrigeration devices 1A to 1C to each other so that they can communicate with each other via an external network such as the Internet via a router installed in the LAN. Further, the communication device 3 may be a device that connects the respective refrigeration devices 1A to 1C to each other via an external network by a 3G line or an LTE line. The communication device 3 may be built in the refrigeration devices 1A to 1C or externally attached.

FIG. 3 is a configuration diagram of the control device 4.
The control device 4 of each of the refrigeration systems 1A to 1C controls the operation of the internal devices of the refrigeration systems 1A to 1C. The control device 4 is composed of a control board on which various electronic components are mounted. The control device 4 includes a computing unit 5 having a CPU and the like, a storage unit 6 including a RAM, a ROM, a flash memory and the like. In the present embodiment, the control board constituting the control device 4 is housed in an electrical component box provided in the housing of the indoor unit 21 or the outdoor unit 22 of the air conditioner, for example. However, the control board constituting the control device 4 may be arranged not only inside the electrical component box but also outside.

  The control device 4 exerts a predetermined function by the arithmetic unit 5 executing the application program stored in the storage unit 6. In particular, the control device 4 of the present embodiment has a function as a comparison unit 5a that compares the operation information of the plurality of refrigeration devices 1A to 1C and acquires the comparison result.

  The storage unit 6 stores, as operation information, measurement data of various sensors, control data of various devices, and operation state data such as operation time. The storage unit 6 also stores model data such as model numbers of the refrigerating apparatuses 1A to 1C as operation information. Further, the storage unit 6 stores data (hereinafter, also referred to as “defect data”) regarding a defect that has occurred in the refrigeration systems 1A to 1C.

  This defect data is data on a defect that has occurred in the past and has already been investigated for its cause and some countermeasure has been taken. Specifically, the failure data includes "cause data" for identifying the cause of the failure and "handling data" for eliminating the failure. Further, the defect data may include countermeasure data provided by the manufacturer for solving the defect. The operation data related to the failure is associated with the failure data. The operation information related to a failure is, for example, operation information that characterizes a failure such as a large change or an abnormal value when the failure occurs.

  The control device 4 further includes an input / output interface 7. The input / output interface 7 is used to connect the external terminal 2 such as a notebook type or tablet type personal computer. The control device 4 performs a predetermined process based on the information input via the external terminal 2, and further transmits the result of the process to the external terminal 2. In this respect, the external terminal 2 constitutes an operating device that performs an operation for causing the control device 4 to perform a predetermined process. The external terminal 2 has an input unit 2a that receives input of predetermined information and an output unit 2b that outputs the processing result. The input unit 2a is composed of a keyboard, a touch panel, a pointing device, or the like, and can accept input of information through a human operation. The output unit 2b includes a display unit such as a display, and can output information by displaying. Further, the external terminal 2 includes a control unit 2c having an arithmetic unit such as a CPU and a memory such as a RAM or a ROM. The control device 2c of the external terminal 2 performs a process for transmitting the information input from the input unit 2a to the control device 4, a process for causing the output unit 2b to output the information received from the control device 4, and the like.

In the present embodiment, a refrigeration system is constructed by a plurality of refrigeration devices 1A to 1C including the communication device 3 and the external terminal 2 connected to the refrigeration devices 1A to 1C. Then, the plurality of refrigerating apparatuses 1A to 1C can mutually use information held by the respective refrigerating apparatuses 1A to 1C by communicating with each other through the communication device 3. Specifically, the refrigerating apparatuses 1A to 1C of this embodiment are configured to mutually use information for the following two purposes.
(1) Use of information to solve problems (2) Use of information to save energy

Hereinafter, each use of information will be described in detail.
<Use of information to resolve defects>
FIG. 4 is a flowchart showing a processing procedure for using information for solving a problem.
In general, when some trouble occurs in the refrigeration systems 1A to 1C, a maintenance worker acquires operation information of the refrigeration systems 1A to 1C, investigates the cause of the defect and takes action to eliminate the problem from the operation information. .. For example, the maintenance worker connects the external terminal 2 to the input / output interface 7 of the control device 4 and acquires the operation information of the refrigeration systems 1A to 1C at the external terminal 2. The operation information is, for example, model data (model number) of the refrigeration systems 1A to 1C, measurement data of various sensors, control data of equipment such as a compressor, and the like. Then, the maintenance worker grasps the operating state of the refrigerating apparatuses 1A to 1C from the obtained operating information, refers to the operating state from the operating state, investigates the cause of the occurrence of the defect, and takes measures to resolve the defect.

  On the other hand, in the present embodiment, when a failure occurs in one refrigeration system (for example, the refrigeration system 1A), the maintenance worker connects to the external terminal 2 connected to the control device 4 of the refrigeration system 1A. , Enter the status of the defect. For example, the maintenance worker inputs the status of the malfunction such as "the room does not cool" during the cooling operation, "the room does not warm" during the heating operation, "abnormal noise occurs", and "the operation has stopped". This input serves as an instruction for comparing the operation information among the refrigeration systems 1A to 1C as described later. As a form of inputting an instruction, a form in which a maintenance worker directly inputs specific contents may be adopted, or a plurality of items of failure examples may be displayed on the display unit 2b of the external terminal 2 and A form in which the maintenance worker selects one of these items may be adopted. Further, the external terminal 2 may require the maintenance worker to input the authentication information (ID, password, etc.) for permitting access to the refrigeration apparatus 1A before accepting the input of the instruction. As a result, it is possible to prevent access to the refrigerating apparatus 1A by a person who does not have the access authority, and enhance the security of the refrigerating system.

When the input terminal 2a accepts the status of the malfunction (step S1 in FIG. 4), the external terminal 2 transmits the information to the control device 4 of one refrigeration apparatus 1A (step S2).
The control device 4 of the first refrigerating apparatus 1A determines whether or not the information on the status of the defect has been received from the external terminal 2 (step S11), and when the information is received, the operation information related to the defect. Is inquired to the other refrigerating apparatuses 1B and 1C (step S12). The operation information related to the failure is stored as the operation information associated with the failure data in the storage unit 6 of each of the refrigeration systems 1A to 1C as described above. Further, the operation information to be inquired includes model data of the other refrigeration systems 1B and 1C.

  When the control device 4 of the one refrigerating apparatus 1A receives the operation information and model data related to the malfunction from the other refrigerating apparatuses 1B and 1C (step S13), it compares the operation information with its own operating information. (Step S14). Then, the control device 4 obtains the operation information of the other refrigeration devices 1B and 1C having the highest degree of coincidence with its own operation information, and the defect data associated with this operation information, that is, the cause data of the defect and the coping data. It is specified (step S15). Then, the control device 4 transmits the defect data to the external terminal 2 (step S16).

  In addition, "matching" between the driving information of its own and the driving information of other refrigerating devices means perfect matching or matching with a predetermined range. For example, when the values indicated by the operation information of the other refrigeration apparatuses 1B and 1C are included within a range of ± several% of the value indicated by the own operation information, it can be determined as “match”. Further, the “coincidence degree” refers to the proportion of matching driving information among all driving information to be compared.

The external terminal 2 determines whether or not the defect data is received from the control device 4 (step S3), and when the defect data is received, outputs the defect data to the display unit (output unit) 2b (step S4). ).
Therefore, when the maintenance worker who operates the external terminal 2 inputs the status of the failure, as a result, the cause of the failure and the content of the countermeasure can be obtained as an output. The cause of the malfunction output and the content of the countermeasure are related to the malfunction that actually occurred in the past in the other refrigeration system, and other operation information having a high degree of agreement with the operation information of one refrigeration system. Since it belongs to the refrigeration system, there is a high possibility that it is the same as the problem that occurred in one refrigeration system. Therefore, there is a high possibility that the maintenance worker can eliminate the problem by taking the action in accordance with the output content of the countermeasure. In addition, by taking corrective action according to the output of the outputted countermeasure, it is possible to promptly deal with the defect.

  Then, by the processing of the control device 4 and the external terminal 2 as described above, the operation information can be suitably mutually used among the plurality of refrigeration devices 1A to 1C. Therefore, even if the centralized control device is not provided as in the related art (see Patent Document 1), it is sufficient to manage the operation information and the information about the malfunction in each refrigeration device, and the information management becomes easy. The storage capacity can also be reduced. Further, in the prior art, since the centralized control device controls all refrigeration devices, the load of the centralized control device becomes enormous, but in the present embodiment, the processing is performed by distributing the load in each of the refrigeration devices 1A to 1C. It becomes possible.

  It should be noted that the causes of general malfunctions include breakdown of devices such as the compressor 30, the fans 26 and 33, the valves 32, 24 and 34, sensors, lack of refrigerant, and contamination of the heat exchangers 25 and 31. The contents of the countermeasures against the malfunction include the replacement of the device, the supplement of the refrigerant, the cleaning of the heat exchangers 25 and 31, and the like.

  In step S15 of FIG. 4, the control device 4 may transmit, to the external terminal 2, fault data regarding the operation information of the plurality of other refrigeration devices 1B and 1C, which has a high degree of coincidence with its own operation information. Then, the external terminal 2 can output a plurality of pieces of defect data in descending order of coincidence. In this case, the maintenance worker can select an appropriate one from a plurality of defect data and take a more appropriate countermeasure.

  In addition, when the models of the refrigeration system are the same, there is a high possibility that the operating state will be the same when a failure occurs. Therefore, by including the model data in the operation information to be compared between the one refrigerating apparatus 1A and the other refrigerating apparatuses 1B and 1C, the one refrigerating apparatus 1A and the other refrigerating apparatuses 1B and 1C of the same model have occurred. The defect data can be easily specified. Further, the control device 4 may preferentially specify the defect data of the other refrigerating devices 1B and 1C having the same model data as the one refrigerating device 1A, and may transmit the defective data to the external terminal 2.

  Note that, as described above, the defect data includes the coping data provided by the manufacturer in order to eliminate the defect. Then, the handling data provided by the manufacturer may be preferentially output to the external terminal 2. This is because the coping information provided by the manufacturer is likely to be important and likely to indicate an appropriate coping method.

<Use of information for energy saving>
Next, the use of information for energy saving will be described.
As described above, the refrigeration systems 1A to 1C are provided with a power sensor or the like for detecting power consumption, and the measurement data thereof is stored in the storage unit 6 of the control device 4. The refrigeration system of this example compares the power consumption among the plurality of refrigeration apparatuses 1A to 1C, and outputs information for improving the power consumption as a result of the comparison.

FIG. 5 is a flowchart showing a processing procedure for using information for energy saving.
For example, in the case of trying to improve the power consumption and reduce the electricity charge of one refrigerating machine (for example, the refrigerating machine 1A) having a large monthly electricity bill, the maintenance worker or the like may use the one refrigerating machine. An instruction to compare power consumption is input to the external terminal 2 connected to 1A. As a form of inputting this instruction, a form in which the maintenance worker directly inputs “comparison of power consumption” may be adopted, or an item “comparison of power consumption” may be displayed on the display unit 2 b of the external terminal 2. Alternatively, a mode may be adopted in which the item is displayed on the display and the maintenance worker selects the item.

When the input terminal 2a receives an instruction for power consumption comparison (step S21), the external terminal 2 transmits information on the instruction to the control device 4 of one refrigeration apparatus 1A (step S22).
The controller 4 of the one refrigerating apparatus 1A determines whether or not the instruction information is received from the external terminal 2 (step S31), and when the information is received, the other refrigerating apparatuses 1B and 1C consume power. Is inquired (step S32). For example, the control device 4 inquires about the power consumption during the latest 0:00 to 24:00 when the inquiry is made.

  When the controller 4 of the one refrigerating apparatus 1A receives the power consumption data from the other refrigerating apparatuses 1B and 1C (step S33), the controller 4 compares the power consumption with its own power consumption (step S34). For example, the control device 4 compares the average value of the power consumption during 0:00 to 24:00. Then, the control device 4 identifies the other refrigerating devices 1B and 1C having power consumption lower than its own power consumption (step S35). For example, the control device 4 then transmits the power consumption data of the identified refrigeration devices 1B and 1C to the external terminal 2 (step S36).

The external terminal 2 determines whether or not it has received the power consumption data from the control device 4 (step S23), and when receiving the data, compares the power consumption data with its own power consumption. To output to the display unit (output unit) 2b (step S24).
FIG. 6 is an explanatory diagram showing the result of power consumption comparison. In FIG. 6, the change in the power consumption of one refrigeration system 1A and the change in the power consumption of the other refrigeration systems 1B and 1C are shown in a graph on the display unit 2b. Therefore, the difference in power consumption between the one refrigerating apparatus 1A and the other refrigerating apparatuses 1B and 1C can be grasped at a glance. Then, it becomes possible to refer to the changes in the power consumption of the other refrigeration systems 1B and 1C to help improve the power consumption of the one refrigeration system 1A. For example, in a time zone in which the power consumption of another refrigeration apparatus is lower than that of the other refrigeration apparatus (for example, a time zone hatched in FIG. 6), the power consumption of the one refrigeration apparatus is likely to be reduced. Therefore, it is conceivable that the operation of one refrigeration system during the relevant time period is subject to review.

[Operation and effect of this embodiment]
(1) The refrigeration system of the present embodiment includes a plurality of refrigeration apparatuses 1A to 1C capable of communicating with each other, and an input section 2a and an output section 2b connected to at least one of the plurality of refrigeration apparatuses 1A to 1C. A terminal (operating device) 2 and a control device 4 are provided. Then, the input unit 2a receives an instruction to compare the operation information of the one refrigeration apparatus to which the external terminal 2 is connected with the operation information of another refrigeration apparatus, and the control device 4 receives the instruction of the comparison by the instruction of the comparison. Of the refrigerating apparatus and the operation information of the other refrigerating apparatus acquired through mutual communication with the one refrigerating apparatus are compared to obtain a predetermined comparison result, and the output unit 2b displays the comparison result. Output. With such a configuration, it is possible to compare the operation information between one refrigeration apparatus and another refrigeration apparatus, obtain the comparison result, and output the comparison result. Therefore, it becomes possible to mutually use the operation information of the refrigeration systems 1A to 1C among the refrigeration systems 1A to 1C.

  (2) The refrigerating apparatuses 1A to 1C of the present embodiment include the storage unit 6 that stores operation information. Therefore, the operation information stored in the storage unit 6 of each of the refrigerating apparatuses 1A to 1C can be mutually used.

  (3) Further, the storage unit 6 stores information about the comparison result. Therefore, the comparison results stored in the storage unit 6 of each of the refrigerating apparatuses 1A to 1C can be mutually used.

  (4) In the present embodiment, the operation information of each of the refrigeration systems 1A to 1C includes the operation information regarding the malfunction of the refrigeration systems 1A to 1C, and the acquired comparison result indicates the cause of the malfunction and / or the coping method of the malfunction. Including information about. When a failure occurs in one refrigeration apparatus and the operation information of the refrigeration apparatus matches the operation information regarding the failure that occurred in another refrigeration apparatus to a predetermined degree, the failure of the one refrigeration apparatus is determined to be the other refrigeration apparatus. It is likely to be the same as the problem that occurred in the device. Therefore, by outputting the cause of the failure that has occurred in the other refrigerating apparatus and the coping method of the failure as the comparison result, the comparison result can be used for solving the failure of the one refrigerating apparatus.

  (5) In the present embodiment, the operation information of each of the refrigeration systems 1A to 1C includes the operation information regarding the power consumption of the refrigeration systems 1A to 1C, and the acquired comparison result includes the information about the improvement of the power consumption. There is. Therefore, for example, by comparing the power consumption of one refrigerating device with other refrigerating devices that consume less power and outputting information about the improvement of power consumption as the comparison result, the comparison result is It can be useful for improving the power consumption of the device.

(6) In the present embodiment, the operation information of each refrigeration system 1A to 1C includes model data.
When a failure occurs in one refrigerating apparatus, the same operating state is likely in the same model as the one refrigerating apparatus, and the necessary coping method is also likely to be the same. Therefore, by including the model data in the operation information, it is possible to easily compare the operation information of one refrigeration apparatus and the operation information of another refrigeration apparatus of the same model as the one refrigeration apparatus. By outputting the cause of the failure that occurred in the refrigeration system, the coping method, and the like as the comparison result, the comparison result can be used for solving the failure in the one refrigeration system.

  (7) In the present embodiment, the operation information of each refrigeration system 1A to 1C includes operation state data. If a failure occurs in the refrigeration system, some changes will appear in the operating condition data such as the air outlet temperature and the pressure of the compressor, so if a failure occurs in one refrigeration system, the operating status data of the one refrigeration system And the operating state data when a failure occurs in another refrigeration system, and when both match a predetermined degree, the comparison result of the cause of the failure occurred in the other refrigeration system and the coping method, etc. By outputting as, it is possible to utilize the comparison result for solving the problem in one refrigeration system.

  (8) The output unit 2b in the present embodiment has the operation information having a higher degree of coincidence with the operation information of the one refrigerating device among the operation information of the other refrigerating devices to be compared with the operation information of the one refrigerating device. The comparison result in the other refrigeration system is preferentially output. Other refrigeration apparatus having the operation information having a high degree of coincidence with the operation information of the one refrigeration apparatus is likely to be in the same operating condition, so by preferentially outputting the comparison result in the other refrigeration apparatus, More appropriate comparison results can be utilized.

  (9) The output unit 2b in the present embodiment outputs a plurality of comparison results in descending order of coincidence. Therefore, by outputting a plurality of comparison results in descending order of coincidence, it is possible to select and utilize a more appropriate comparison result from the plurality of comparison results.

  (10) The output unit 2b in the present embodiment preferentially outputs the manufacturer-provided information related to the input instruction. Therefore, since the information provided by the manufacturer of the refrigerating apparatus is highly likely to be important, by preferentially outputting the information, the information can be transmitted to the maintenance worker and the like without exception.

The present disclosure is not limited to the embodiments described above, and various modifications can be made within the scope of the claims.
For example, in the above-described embodiment, the status of the malfunction is input to the external terminal 2, but in addition to this, the maintenance worker inputs the operation information used for comparison of the operation status data acquired in advance to the external terminal 2. May be.

  The output unit 2b of the external terminal 2 is not limited to a display unit such as a display, and may be output by paper or by data communication such as electronic mail. The external terminal 2 may be connected to at least one of the plurality of refrigerating apparatuses 1A to 1C.

  The control device 2c of the external terminal 2 may compare the operation information of the plurality of refrigerating devices 1A to 1C. That is, the control device 2c of the external terminal 2 may have the function of the comparison unit as described above. In this case, the operating information of one refrigerating device and the operating information of the other refrigerating device are transmitted to the external terminal 2, and the control device 2c of the external terminal 2 compares the operating information and obtains the result of the comparison. .. In addition, the operation device having the input unit and the output unit may be configured by a remote controller provided in the indoor unit 21 of the refrigerating apparatus, an operation panel housed in the indoor unit 21 or the outdoor unit 22, or the like. You can also

  The plurality of refrigerating apparatuses 1A to 1C may be installed in the same facility such as a building or a shopping center, or may be installed in different facilities at remote locations. ..

1A, 1B, 1C: Refrigerating device 2: External terminal (operating device)
2a: Input unit 2b: Output unit 2c: Control device 4: Control device 6: Storage unit

Claims (10)

A plurality of refrigerating devices (1A, 1B, 1C) that can communicate with each other,
An operating device (2) connected to at least one of the plurality of refrigerating apparatuses (1A, 1B, 1C) and having an input section (2a) and an output section (2b),
And a control device (4, 2c),
The input unit (2a) receives an instruction to compare operation information of one refrigerating apparatus to which the operating device (2) is connected with operation information of another refrigerating apparatus,
The control device (4, 2c) compares the operation information of the one refrigerating device with the operation information of the other refrigerating device acquired by mutual communication with the one refrigerating device according to the instruction of the comparison. And get the predetermined comparison result,
The said output part (2b) is a refrigeration system which outputs the said comparison result.   The refrigeration system according to claim 1, wherein the refrigeration apparatus (1A, 1B, 1C) includes a storage unit (6) that stores the operation information.   The refrigeration system according to claim 2, wherein the storage unit (6) stores information about the comparison result. The operation information includes operation information regarding a malfunction of the refrigeration system (1A, 1B, 1C),
The refrigeration system according to any one of claims 1 to 3, wherein the comparison result includes information on a cause of a malfunction and / or a coping method for the malfunction. The operation information includes operation information regarding power consumption of the refrigeration system (1A, 1B, 1C),
The refrigeration system according to any one of claims 1 to 4, wherein the comparison result includes information on improvement of the power consumption.   The refrigeration system according to any one of claims 1 to 5, wherein the operation information includes model data.   The refrigeration system according to any one of claims 1 to 6, wherein the operation information includes operation state data.   The output unit (2b) has operation information having a higher degree of coincidence with the operation information of the one refrigerating device among the operation information of the other refrigerating device that is compared with the operation information of the one refrigerating device. The refrigeration system according to any one of claims 1 to 7, which preferentially outputs a comparison result in another refrigeration apparatus.   The refrigeration system according to claim 8, wherein the output unit (2b) outputs a plurality of comparison results in descending order of the degree of coincidence. The refrigeration system according to any one of claims 1 to 9, wherein the output unit (2b) preferentially outputs the manufacturer-provided information related to the input instruction.