JP2017180989A - Coordination control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a coordination control system for an open show case and an air conditioner capable of realizing an early recovery of a temperature in a display room after operation of a defrosting work for the open show case while leveling a total power consumption.SOLUTION: An open show case 2 comprises an evaporator 11; and a show case side control device 20 for controlling an off-cycle defrosting operation for stopping supply of refrigerant to the evaporator on the basis of a time limit means. An inside part of a display room is cooled by the show case side cooling device including the evaporator and at the same time, an air conditioner 3 comprises a cooling device configured independently from the open show case and an air conditioning side control device 30 for controlling the cooling device on the basis of the temperature of inside of the shop. The air conditioning side control device executes a super-cooling operation for decreasing the set temperature in the shop before a prescribed time for starting the defrosting operation at the open case in coordinate with the show case side control device during the cooling operation.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a cooperative control system that controls an open showcase installed in a store such as a convenience store and an air conditioner that performs air conditioning in the store in cooperation.

  Conventionally, a plurality of showcases are installed in a store such as a convenience store or a supermarket, and the temperature in the store is adjusted by an air conditioner. In each showcase, frosting occurs in the evaporator installed inside by the cooling operation of the cooling device, so the defrosting operation is performed several times a day to melt and remove the frost adhering to the evaporator. ing. As this defrosting method, conventionally, off-cycle defrosting that stops the flow of refrigerant into the evaporator and distributes the air into the cold air duct where the evaporator is installed, or installed near the evaporator Heater defrosting by energizing the heater, hot gas defrosting that causes high-temperature refrigerant to flow into the evaporator, and the like are employed.

  Even if any defrosting method is adopted, the cooling operation is stopped while the defrosting operation is being performed, and thus the temperature inside the showcase tends to increase. In particular, when an open showcase with a large opening on the front or upper surface performs a defrosting operation, it greatly affects the air conditioning in the store by the air conditioner. When the temperature in the display room of the showcase rises due to the execution of the defrosting operation of the showcase, and the store interior temperature rises following this, the air conditioner performs control to increase the cooling capacity. At this time, if the timing at which the air conditioner increases the cooling capacity and the timing at which the open showcase finishes the defrosting operation and starts the pull-down operation to restart the cooling operation overlap, the consumption of power supplied from the commercial system will be reduced. There is a problem that the predetermined target level is temporarily exceeded and the power consumption cannot be leveled.

  Thus, for example, Patent Document 1 discloses an air conditioner that aims to obtain a sufficient energy saving effect when a low-temperature showcase performs a defrosting operation (defrosting operation). That is, Patent Document 1 includes an indoor unit provided in a store where an open type low-temperature showcase (hereinafter referred to as an open showcase) is installed, and an outdoor unit connected to the indoor unit by a refrigerant pipe. It is an air conditioner provided, and the temperature in the store is lowered by a predetermined temperature before the inside temperature of the open showcase reaches the defrost setting temperature in accordance with the defrosting operation of the open showcase. At the same time, it is disclosed that after the defrosting operation is completed, the temperature inside the store is restored after the inside temperature of the open showcase has returned to the set temperature inside the store. Specifically, in Patent Document 1 described above, after the defrosting operation of the open showcase is started, the air load set temperature is lowered to temporarily reduce the thermal load around the open showcase, thereby opening the open showcase. The time required for the internal temperature of the case to return from the defrost setting temperature at which the defrosting operation is completed to the normal internal temperature is reduced.

JP 2007-24443

  However, in Patent Document 1, since the air conditioning set temperature remains lowered even after the defrosting operation of the open showcase is completed, the pull-down operation for cooling the open showcase and the cooling operation of the air conditioning are performed simultaneously. As a result, it is difficult to keep the power consumption as a whole low. In addition, even if the air conditioning set temperature is lowered after the start of the defrosting operation, the open showcase is performing the defrosting operation, so the effect of cooling assistance in the store due to cold air leaking from the open showcase is also expected. become unable. Therefore, even if the air conditioning operation is performed with the set temperature of the air conditioning lowered, the cooling load becomes larger than that in the normal cooling operation, and it takes a lot of time until the ambient temperature of the open showcase actually decreases. In particular, as an open showcase defrosting operation, a defrosting operation using a hot gas refrigerant or a heater is often performed, and the defrosting operation of the open showcase is performed while leveling the entire power consumption. It was difficult to return the display room temperature to the normal set temperature early after completion.

  For the above reasons, the market has developed an open showcase and an air conditioner that can achieve an early return of the display room temperature after defrosting operation of the open showcase while leveling out the overall power consumption. Development of a cooperative control system has been demanded.

  Therefore, as a result of intensive research, the inventors of the present invention provide a cooperative control system capable of realizing efficient operation of the open showcase and the air conditioner while realizing leveling of the entire power consumption. It came to.

  That is, the cooperative control system according to the present invention is an open showcase disposed in a store and an air conditioning apparatus cooperative control system for air conditioning the store, the open showcase includes an evaporator, And a showcase-side control device that controls an off-cycle defrosting operation that stops the supply of refrigerant to the evaporator based on a time limit means, and the display room is cooled by a showcase-side cooling device that includes the evaporator, The air conditioner includes an air conditioning side cooling device configured independently of the showcase side cooling device, and an air conditioning side control device that controls the air conditioning side cooling device based on the in-store temperature, the air conditioning side The control device cooperates with the showcase-side control device during the cooling operation, and the store starts the predetermined time before starting the defrosting operation of the open showcase. A supercooling operation of the air-conditioning side cooling device that lowers the set temperature of the inside by a predetermined temperature is performed.

  In the present invention, the showcase-side control device starts a defrosting operation when a predetermined defrosting start time is reached based on the time limit means, and the air-conditioning-side control device is connected to the showcase-side control device. In cooperation, it is preferable to start the supercooling operation when the supercooling start time is a predetermined time before the defrosting start time.

  Moreover, the cooperative control system according to the present invention is an open showcase disposed in a store, and a cooperative control system of an air conditioner that air-conditions the store, the open showcase includes an evaporator, And a showcase-side control device that controls an off-cycle defrosting operation that stops the supply of refrigerant to the evaporator based on a time limit means, and the display room is cooled by a showcase-side cooling device that includes the evaporator, The air conditioner includes an air conditioning side cooling device configured independently of the showcase side cooling device, and an air conditioning side control device that controls the air conditioning side cooling device based on the in-store temperature, the air conditioning side During the cooling operation, the control device cooperates with the showcase-side control device at the same time as the start of the defrosting operation of the open showcase or after the start of the defrosting operation. And executes a supercooling operation of the air-side cooling device a set temperature in the store lowering the predetermined temperature.

  In the present invention, it is preferable that the air-conditioning side control device returns the set temperature in the store to a normal set temperature when the defrosting operation of the open showcase is completed.

  According to the cooperative control system according to the present invention, the air conditioning side control device sets the set temperature in the store to a predetermined time before starting the off cycle defrosting operation of the open showcase in cooperation with the showcase side control device. By performing the supercooling operation of the air conditioning side cooling device for lowering the temperature, it becomes possible to quickly reduce the temperature around the open showcase in response to the defrosting operation of the open showcase. Therefore, when the pull-down operation is performed after the defrosting operation of the open showcase is completed, the open showcase and its surroundings are sufficiently cooled, so the pull-down operation of the open showcase and the supercooling operation of the air conditioner are performed. It becomes difficult to be performed at the same time. Accordingly, it is possible to level the power consumption by combining the power consumption of the open showcase and the power consumption of the air conditioner. In particular, in the open showcase, the power consumption can be further reduced by performing the off-cycle defrosting operation. Further, the temperature around the open showcase is sufficiently cooled, and the display room temperature of the open showcase can be quickly returned to the set temperature by the dehumidifying effect of the overcooling of the air conditioner. Therefore, it becomes possible to realize an efficient cooling operation for the entire store.

  In addition, when the subcooling operation of the air conditioning side cooling device is performed simultaneously with the start of the defrosting operation of the open showcase or after the start of the defrosting operation, the power consumption on the open showcase side is determined by executing the off-cycle defrosting operation In the state where the amount is reduced, the temperature around the open showcase can be lowered by performing the supercooling operation of the air conditioning side cooling device. Therefore, it is possible to obtain the dehumidifying effect around the open showcase where the defrosting operation is performed by the supercooling operation of the air conditioner while leveling the power consumption of the entire open showcase and the air conditioner. Effective defrosting operation becomes possible. Therefore, when the pull-down operation is performed to cool the display room after the defrosting operation of the open showcase is completed, the display room temperature of the open showcase can be quickly returned to the set temperature, and the entire store can be efficiently operated. Cooling operation can be realized.

It is a schematic block diagram of the cooperation control system as one embodiment to which the present invention is applied. It is a control block diagram of the cooperation control system of FIG. 3 is a timing chart for explaining the operation of the present embodiment. It is a figure which shows an example of the change of the power consumption in the case of FIG. It is a timing chart for demonstrating operation | movement of other embodiment. It is a figure which shows an example of the change of the power consumption in the case of FIG.

  Hereinafter, a cooperative control system according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a schematic configuration diagram of a cooperative control system 1 as an embodiment to which the present invention is applied, and FIG. 2 is a control block diagram of the cooperative control system of FIG. The cooperation control system 1 of this Embodiment is comprised from the open showcase 2 installed in stores, such as a convenience store, and the air conditioning apparatus 3 which air-conditions the said store inside. Hereinafter, after describing the open showcase 2 and the air conditioner 3, specific cooperation control between the open showcase 2 and the air conditioner 3 will be described.

  For example, when the open showcase 2 is installed in a store such as a convenience store, the open showcase 2 is provided with a display room having a large opening in the front, and is used as a refrigerated showcase for storing cooked refrigerated foods such as rice balls and sandwiches. It is done. The open showcase 2 in the present invention is not limited to a showcase of a relatively high temperature range of 15 ° C. to 20 ° C. suitable for storing cooked refrigerated foods such as rice balls and sandwiches. You may implement | achieve a temperature range, a freezing temperature range, etc. Further, in the store where the open showcase 2 is arranged, not only the open showcase 2 but also a refrigerated walk-in storage, a closed type reach-in showcase, etc. may be installed, and the layout in the store Is not particularly limited.

  Each open showcase 2 includes decompression means such as an evaporator 11 and an expansion valve 12. Further, in the vicinity of the evaporator 11, there is also provided a cool air circulation blower 18 for supplying cool air exchanged with the evaporator into the display chamber 19. The evaporator 11, the expansion valve 12, and the cool air circulation blower 18 provided in the open showcase 2 constitute a showcase-side cooling device 10 together with a refrigerator 13 installed in a machine room of a store or outdoors. The refrigerator 13 includes a compressor 14, a radiator 15, a radiator fan 16, and the like. The series circuit of the expansion valve 12 and the evaporator 11 of each open showcase 2 is connected in parallel to each other, and is connected to the compressor 14 and the radiator 15 of the refrigerator 13 via the refrigerant pipe 17. Configure.

  A predetermined refrigerant is sealed in a refrigerant circuit constituted by each open showcase 2 and the refrigerator 13. Therefore, when the compressor 14 of the refrigerator 13 is operated, the high-temperature and high-pressure gas refrigerant compressed by the compressor 14 flows into the radiator 15 and is air-cooled by the radiator fan 16. The radiated refrigerant is decompressed by the expansion valve 12 of each open showcase 2 and then flows into each evaporator 11 to evaporate. Thereby, the evaporator 11 exhibits a cooling action, and the cold air exchanged with the evaporator 11 is circulated in the display chamber 19 by the cool air circulation blower 18, and the inside of the display chamber 19 of each open showcase 2 is predetermined. Cooled to a temperature of. Then, the gas refrigerant evaporated in each evaporator 11 of each open showcase 2 repeats circulation that is sucked into the compressor 14 of the refrigerator 13 again.

  On the other hand, the air conditioner 3 includes an indoor unit 31 attached to the ceiling of a store and the like, and an outdoor unit 32 installed outdoors. The indoor unit 31 includes at least a use-side heat exchanger 37, an expansion valve 38 serving as a decompression unit, and an air-conditioning blower 33 that discharges adjusted air heat-exchanged with the use-side heat exchanger 37 from the outlet 34 into the store. It has. The air outlet 34 may be provided with a wind direction adjusting flap 35. The outdoor unit 32 includes at least a heat source side heat exchanger (not shown), a compressor 43, a heat source side blower 44, and the like, and is well known together with a use side heat exchanger 37 and an expansion valve 38 provided in the indoor unit 31. A refrigerant circuit is configured. The compressor 43, the heat source side heat exchanger, the expansion valve 38 as a decompression means, the use side heat exchanger 37, and the like constituting the refrigerant circuit, the air conditioner blower 33, the heat source side blower, etc. A cooling device 30 is configured. The air-conditioning side cooling device 30 is not particularly limited as long as it is configured independently of the above-described showcase side cooling device 10. Further, the indoor unit 31 and the outdoor unit 32 are not limited to one unit, and a plurality of units may be provided.

  Next, control of the cooperative control system according to the present embodiment will be described with reference to the control block diagram of FIG. In the present embodiment, each open showcase 2 and the air conditioner 3 are controlled by a centralized management device 4 that is integrated and managed.

  Specifically, the centralized management device 4 includes a showcase-side control device 20 provided for each open showcase 2, a refrigerator-side control device 24 provided in the refrigerator 13, and an indoor unit of the air conditioner 3. The indoor unit side control device 36 provided in 31 and the outdoor unit side control device 41 provided in the outdoor unit 32 are connected by a communication line or wirelessly. Each control device 20, 24, 36, 41 exchanges information with the central management device 4. Further, the central management apparatus 4 may include a management side control panel 5 for setting a set temperature and various devices. Therefore, the centralized management device 4 controls various devices such as the showcase side control device 20, the refrigerator side control device 24, the indoor unit side control device 36, and the outdoor unit side control device 41.

  The centralized management device 4, the showcase side control device 20, the refrigerator side control device 24, the indoor unit side control device 36, and the outdoor unit side control device 41 are all constituted by general-purpose microcomputers. Each control device may incorporate a memory as a storage means or a timer as a time limit means. However, in the present embodiment, at least the central management device 4 has a memory 21 as a storage means and a timer as a time limit means. 22 is built-in.

  The showcase-side control device 20 includes a display room temperature sensor 23 that detects the temperature in the display room 19 of the open showcase 2, an expansion valve 12 provided in the open showcase 2, and a cool air circulation blower 18. It is connected. The showcase-side control device 20 may be connected to the showcase-side control panel (showcase-side input means) 27 that allows the set temperature in the display room 19 to be input. The management-side control panel 5 and the showcase-side control panel 27 connected to the centralized management device 4 can at least input a set temperature in the display room and set defrost conditions. For example, in the present embodiment, as the defrosting condition, based on the control by the timer 22, a predetermined time in the day, an elapsed time after the last defrosting operation is completed, or the like can be adopted. . In addition, as defrost conditions, it is not limited to this, You may employ | adopt the defrost conditions employ | adopted as the existing freezing apparatus. With this configuration, the central management device 4 controls the expansion valve 12 and the cool air circulation blower 18 based on the temperature detected by the display room temperature sensor 23 via the showcase side control device 20, and based on the timer 22. Then, a predetermined defrosting operation is performed.

  The refrigerator-side control device 24 is connected to at least the compressor 14 provided in the refrigerator 13 and the radiator blower 16. Accordingly, the compressor 14 and the radiator blower 16 provided in each refrigerator 13 are controlled by the centralized management device 3 via the refrigerator-side control device 24. In the present embodiment, the refrigerator control device 24 and the showcase control device 20 of each open showcase 2 are connected to the centralized management device 4, and the centralized management device 4 controls each of them. Although it is set as the structure by which the apparatuses 24 and 20 are controlled, it is not limited to this, The said refrigerator side control apparatus 24 and each showcase side control apparatus 20 exchange information mutually, for example, concentrate. The management device 4 may perform overall integrated management including all the connected open showcases 2 via the refrigerator-side control device 24.

  The indoor unit side control device 36 as the air conditioning side control device is connected to a store temperature sensor 39 that detects the temperature in the store, an expansion valve 38, an air conditioner blower 33, and a wind direction adjusting flap 35. The indoor unit side control device 36 may be connected to an air conditioning side control panel (air conditioning side input means) 40 that allows the set temperature in the store to be input on the indoor unit 31 side. Therefore, the expansion valve 38, the air conditioner blower 33, and the wind direction adjusting flap 35 are based on the set temperature in the store set by the management side control panel 5 or the air conditioning side control panel 40, and the indoor unit side control device 36. Is controlled by the centralized management device 4.

  The outdoor unit side control device 41 as the air conditioning side control device is connected to at least a compressor 43 provided in the outdoor unit 32, a heat source side heat exchanger blower 44, and the like. Therefore, the compressor 43, the heat source side heat exchanger blower 44, and the like are controlled by the centralized management device 4 via the outdoor unit side control device 41.

  In the present embodiment, the showcase side control device 20 or the refrigerator side control device 24 of the open showcase 2 described above and the indoor unit side control device 36 or the outdoor unit side control device 41 are communicably connected. It is possible to control in cooperation with each other. In the present embodiment, the showcase side control device 20 and the indoor unit side control device 36 are communicably connected. However, the present invention is not limited to this, and the open showcase 2 side is connected. The control device and the control device on the air conditioner 3 side, that is, either the indoor unit side control device 36 or the outdoor unit side control device are connected to be able to communicate with each other and can be controlled in cooperation with each other. That's fine.

  In the present embodiment, each showcase-side control device 20, the refrigerator-side control device 24, the indoor-unit-side control device 36 or the outdoor-unit-side control device 41 as the air-conditioning-side control device is connected via the centralized management device 34. Although controlled, the present invention is not limited to this. For example, by directly communicating with the showcase-side control device 20 and the indoor-unit-side control device 36 or the outdoor-unit-side control device 41 as the air-side control device without going through the centralized management device 4, the air-conditioning-side control The device may control each device of the indoor unit 31 and the outdoor unit 32 in cooperation with each showcase-side control device 20.

  Below, with reference to the timing chart for demonstrating operation | movement of FIG. 3, the cooperative control of the open showcase 2 and the air conditioning apparatus 3 as embodiment which concerns on this invention is demonstrated.

  During the normal cooling operation of the open showcase 2, the showcase-side control device 20 determines that the display room temperature is stored in advance in the showcase-side control panel 27 based on the output of the display room temperature sensor 23 that detects the display room temperature. The showcase-side cooling device 10 is controlled so that the display room set temperature is set by input or the like. Specifically, the showcase side control device 20 controls the opening degree of the expansion valve 12 and the cool air circulation blower 18, and the refrigerator side control device 24 constitutes the showcase side cooling device 10. The operation frequency of the compressor 14 is controlled. Thereby, the temperature in the display room 19 is cooled to the display room set temperature.

  And the showcase side control apparatus 20 starts the defrost operation of the said open showcase 2 based on predetermined defrost conditions. In the present embodiment, based on the control by the timer 22, the off-cycle defrosting operation is performed after a predetermined time in the day or after a predetermined time has elapsed since the last defrosting operation was completed. In the off-cycle defrosting operation, the expansion valve 12 is closed and the refrigerant supply to the evaporator 11 is stopped. At this time, the cool air circulation blower 18 may be operated. Thereby, the ambient temperature of the evaporator 11 of the open showcase 2 gradually increases, and the frost attached to the evaporator 11 is gradually melted and removed.

  On the other hand, during the cooling operation of the air conditioner 3, the indoor unit side control device 36 determines that the store temperature is previously input to the air conditioning control panel 40 based on the output of the store temperature sensor 39 that detects the store temperature. Devices such as the compressor 43 of the air-conditioning side cooling device 30 are controlled so that the set temperature in the store is set. Specifically, the centralized management device 4 cooperates with the outdoor unit side control device 41 to control the frequency of the compressor 43 disposed on the outdoor unit 32 side and the refrigerant flowing into the use side heat exchanger 37. Opening control of an expansion valve or the like for adjusting the amount is performed. Thereby, the in-store temperature is cooled to the set temperature in the store.

  And the indoor unit side control apparatus 36 cooperates with the showcase side control apparatus 20 by the side of the open showcase 2, based on the defrost schedule of the said open showcase 2, for example, is predetermined rather than predetermined defrost start time When the supercooling start time before the time comes, the supercooling operation of the air conditioning side cooling device 30 is executed. Specifically, the indoor unit side control device 36 operates the air conditioning side cooling device 30 by changing the current in-store set temperature to a temperature lower by a predetermined temperature during the supercooling operation.

  For example, the set temperature during the supercooling operation is preferably set to a temperature lower by 1 ° C to 5 ° C (1K to 5K) than the current set temperature in the store. In the supercooling operation, the set temperature in the store is set to a temperature lower by 1 ° C. to 5 ° C. (1K to 5K) to sufficiently lower the temperature around the open show case 2 in preparation for the defrost operation of the open show case 2. Because it becomes possible.

  The supercooling operation is preferably performed from 1 minute to 10 minutes before the start of the defrosting operation, although it varies depending on the size of the store and the number of open showcases 2 that simultaneously perform the defrosting operation. The air conditioner performs the supercooling operation 1 minute to 10 minutes before the start of the defrosting operation of the open showcase 2, so that the open showcase 2 can be sufficiently This is because the temperature can be lowered.

  The showcase-side control device 20 ends the defrosting operation when a predetermined defrosting operation end condition is satisfied, and starts a pull-down operation for cooling the display room. An end condition of the defrosting operation may be a condition that a predetermined time has elapsed from the start of the defrosting operation or that the display room temperature has reached a predetermined temperature. When the showcase-side control device 20 includes an evaporator temperature sensor that detects the temperature of the evaporator 11 of the open showcase 2, the showcase-side control device 20 is detected by the evaporator temperature sensor. The end of the defrosting operation may be determined based on the measured temperature. Based on the output of the display room temperature sensor 23 that detects the display room temperature, the showcase side control device 20 reaches the display room set temperature that is set in advance by the input of the showcase side control panel 27 or the like. In this case, the pull-down operation is terminated and the normal cooling operation is resumed.

  On the other hand, the indoor unit side control device 36 cooperates with the showcase side control device 20 on the open showcase 2 side, and when the defrosting operation of the open showcase 2 is completed, the indoor unit side control device 36 supercools the air conditioning side cooling device 30. The operation is terminated, and the current in-store set temperature is returned to the normal in-store set temperature before the supercooling operation is started. Thereafter, the indoor unit side control device 36 shifts to a normal cooling operation.

  As described above, in the present invention, the indoor unit-side control device 36 that is the air-conditioning-side control device cooperates with the showcase-side control device 20 to store the store in a predetermined time before starting the defrosting operation of the open showcase 2. In response to the defrosting operation of the open showcase 2, the temperature around the open showcase 2 is quickly reduced and the dehumidification is performed by executing the supercooling operation of the air conditioning side cooling device 30 that lowers the set temperature inside An effect can be produced. Therefore, when the pull-down operation for cooling the display chamber 19 after the defrosting operation of the open showcase 2 is completed, the temperature around the open showcase 2 is sufficiently cooled and the increase in humidity is suppressed. Therefore, the pull-down operation of the open showcase 2 can be performed efficiently, and the display room temperature can be quickly returned to the display room set temperature. Therefore, it becomes possible to realize an efficient cooling operation for the entire store.

  In particular, according to the present invention, when the defrosting operation of the open showcase 2 is completed, the inside of the store is cooled to the vicinity of the set temperature lowered by the supercooling operation. As shown in the change, the power consumption of the air conditioner 3 is reduced from the time when the supercooling operation is started. Therefore, even if the subcooling operation of the air conditioner 3 is continuously performed even at the end of the defrosting operation of the open showcase 2, the power consumption combined with both the open showcase 2 and the air conditioner 3 is It becomes possible to keep it low compared with the case where cooperation control is not performed.

  In the present embodiment, as described above, when the defrosting operation of the open showcase 2 is finished, the supercooling operation of the air conditioning side cooling device 30 is finished, and the current in-store set temperature is started as the supercooling operation. Return to the previous set temperature in the store. Therefore, since the temperature in the store is sufficiently lower than the set temperature in the store before the start of the supercooling operation when the open showcase 2 starts the pull-down operation, the air-conditioning side cooling device 30 is usually a compressor. Operation of 43 etc. is stopped. Therefore, the pull-down operation of the open showcase 2 and the supercooling operation of the air conditioner 3 are difficult to be performed at the same time, and the power consumption of the open showcase 2 during the pull-down operation of the open showcase 2 as shown in FIG. The peak of the power consumption that combines the amount and the power consumption of the air conditioner 3 can be kept low. Therefore, before and after the defrosting operation of the open showcase 2, it is possible to level the power consumption by combining the power consumption of the open showcase 2 and the power consumption of the air conditioner 3.

  In addition, hereinafter, cooperative control of the open showcase 2 and the air conditioner 3 as another embodiment according to the present invention will be described with reference to a timing chart for explaining the operation of FIG.

  In the other embodiment, the indoor unit side control device 36 cooperates with the showcase side control device 20 on the open showcase 2 side, based on the defrost schedule of the open showcase 2, for example, a predetermined removal When the frost start time comes, the supercooling operation of the air conditioning side cooling device 30 is executed. Specifically, the indoor unit side control device 36 cooperates with the showcase side control device 20 at the same time as the start of the defrosting operation of the open showcase 2 or at a timing after the start of the defrosting operation. The supercooling operation of the air-conditioning side cooling device 30 is executed, and the air-conditioning side cooling device 30 is operated by changing the current in-store set temperature to a temperature lower by a predetermined temperature. Even in this case, it is preferable that the set temperature during the supercooling operation is, for example, a temperature lower by 1 ° C. to 5 ° C. (1K to 5K) than the current in-store set temperature.

  Also in the present embodiment, the showcase-side control device 20 ends the defrosting operation when a predetermined defrosting operation end condition is satisfied, and starts a pull-down operation for cooling the display room. Then, based on the output of the display room temperature sensor 23 for detecting the display room temperature, the showcase side control device 20 sets the display room temperature to the display room set temperature set in advance by the input of the showcase side control panel 27 or the like. When it reaches, the pull-down operation is terminated and the normal cooling operation is resumed.

  On the other hand, the indoor unit side control device 36 cooperates with the showcase side control device 20 on the open showcase 2 side, and when the defrosting operation of the open showcase 2 is completed, the indoor unit side control device 36 supercools the air conditioning side cooling device 30. The operation is terminated, and the current in-store set temperature is returned to the normal in-store set temperature before the supercooling operation is started. Thereafter, the indoor unit side control device 36 shifts to a normal cooling operation.

  As described above, in the present embodiment, the indoor unit side control device 36 that is the air conditioning side control device cooperates with the showcase side control device 20 at the same time or at the start of the defrosting operation of the open showcase 2. By performing the supercooling operation of the air conditioning side cooling device 30 that lowers the set temperature in the store to a predetermined temperature after the start of the frost operation, heater defrosting by energizing the heater installed in the vicinity of the evaporator, high temperature refrigerant to the evaporator Unlike the case where a defrosting method such as hot gas defrosting is employed, the air conditioner side cooling device 30 is supercooled in a state where the power consumption on the open showcase 2 side is reduced, and the periphery of the open showcase 2 The temperature can be lowered. Therefore, as can be understood from the diagram showing the change in power consumption in FIG. 6, the power consumption of the entire open showcase 2 and the air conditioner 3 can be leveled. And by the supercooling operation of the air conditioner 3, the dehumidification effect around the open showcase 2 performing the defrosting operation can be obtained, and an effective defrosting operation becomes possible.

  Also in this case, when the defrosting operation of the open showcase 2 is finished, the supercooling operation of the air conditioning side cooling device 30 is finished, and the current set temperature in the store is set to the set temperature in the store before the start of the supercooling operation. It is preferable to return to. Therefore, since the temperature in the store is sufficiently lower than the set temperature in the store before the start of the supercooling operation when the open showcase 2 starts the pull-down operation, the air-conditioning side cooling device 30 is usually a compressor. Operation of 43 etc. is stopped. Therefore, the pull-down operation of the open showcase 2 and the supercooling operation of the air conditioner 3 are difficult to be performed at the same time, and the power consumption of the open showcase 2 during the pull-down operation of the open showcase 2 as shown in FIG. The peak of the power consumption that combines the amount and the power consumption of the air conditioner 3 can be kept low. Therefore, before and after the defrosting operation of the open showcase 2, it is possible to level the power consumption by combining the power consumption of the open showcase 2 and the power consumption of the air conditioner 3.

  The cooperative control system according to the present invention can efficiently defrost the evaporator 11 even in an off-cycle defrosting operation, and a refrigerated open showcase or air conditioner having a relatively high display room temperature. Can be used particularly effectively in a store such as a convenience store where is installed.

DESCRIPTION OF SYMBOLS 1 Cooperation control system 2 Open showcase 3 Air conditioning apparatus 4 Centralized management apparatus 5 Control side control panel 10 Showcase side cooling device 11 Evaporator 12 Expansion valve (pressure reduction means)
DESCRIPTION OF SYMBOLS 13 Refrigerator 14 Compressor 15 Radiator 16 Blower for radiator 17 Refrigerant piping 18 Blower for cold air circulation 19 Display room 20 Showcase side control device 21 Memory (storage means)
22 Timer (time limit means)
23 display room temperature sensor 24 refrigerator side control device 27 showcase side control panel (showcase side input means)
DESCRIPTION OF SYMBOLS 30 Air conditioning side cooling device 31 Indoor unit 32 Outdoor unit 33 Air conditioning blower 34 Air outlet 35 Wind direction adjustment flap 36 Indoor unit side control device (air conditioning side control device)
37 Use-side heat exchanger 38 Expansion valve 39 In-store temperature sensor 40 Air-conditioning control panel (air-conditioning input means)
41 Outdoor unit side control device 43 Compressor 44 Blower for heat source side heat exchanger

Claims (4)

An open showcase disposed in a store and an air conditioning apparatus for air conditioning the interior of the store,
The open showcase includes an evaporator, and a showcase-side control device that controls an off-cycle defrosting operation for stopping the supply of refrigerant to the evaporator based on a time limit means, and includes a showcase-side cooling including the evaporator The display room is cooled by the device,
The air conditioner includes an air conditioning side cooling device configured independently of the showcase side cooling device, and an air conditioning side control device that controls the air conditioning side cooling device based on the in-store temperature,
The air conditioning side control device cooperates with the showcase side control device during the cooling operation to reduce the set temperature in the store by a predetermined temperature before a predetermined time for starting the defrosting operation of the open showcase. A cooperative control system characterized by executing a supercooling operation of a cooling device.   The showcase-side control device starts a defrosting operation when a predetermined defrosting start time is reached based on the time limit means, and the air-conditioning-side control device cooperates with the showcase-side control device, The cooperative control system according to claim 1, wherein the supercooling operation is started when a supercooling start time that is a predetermined time before the defrosting start time is reached. An open showcase disposed in a store and an air conditioning apparatus for air conditioning the interior of the store,
The open showcase includes an evaporator, and a showcase-side control device that controls an off-cycle defrosting operation for stopping the supply of refrigerant to the evaporator based on a time limit means, and includes a showcase-side cooling including the evaporator The display room is cooled by the device,
The air conditioner includes an air conditioning side cooling device configured independently of the showcase side cooling device, and an air conditioning side control device that controls the air conditioning side cooling device based on the in-store temperature,
In the cooling operation, the air-conditioning side control device sets the set temperature in the store at the same time as the start of the defrosting operation of the open showcase or after the start of the defrosting operation in cooperation with the showcase side control device. A cooperative control system that performs a supercooling operation of an air conditioning side cooling device that lowers the temperature.   The said air-conditioning side control apparatus returns the preset temperature in the said store to a normal preset temperature, when the defrost operation of the said open showcase is complete | finished. Cooperation control system.

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