WO2020241358A1 - 空調システム - Google Patents
空調システム Download PDFInfo
- Publication number
- WO2020241358A1 WO2020241358A1 PCT/JP2020/019656 JP2020019656W WO2020241358A1 WO 2020241358 A1 WO2020241358 A1 WO 2020241358A1 JP 2020019656 W JP2020019656 W JP 2020019656W WO 2020241358 A1 WO2020241358 A1 WO 2020241358A1
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- WIPO (PCT)
- Prior art keywords
- air
- temperature
- treatment device
- outside air
- air conditioner
- Prior art date
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F3/00—Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems
- F24F3/06—Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the arrangements for the supply of heat-exchange fluid for the subsequent treatment of primary air in the room units
- F24F3/065—Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the arrangements for the supply of heat-exchange fluid for the subsequent treatment of primary air in the room units with a plurality of evaporators or condensers
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
- F24F11/80—Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air
- F24F11/81—Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air by controlling the air supply to heat-exchangers or bypass channels
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0003—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station characterised by a split arrangement, wherein parts of the air-conditioning system, e.g. evaporator and condenser, are in separately located units
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/64—Electronic processing using pre-stored data
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/65—Electronic processing for selecting an operating mode
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/65—Electronic processing for selecting an operating mode
- F24F11/67—Switching between heating and cooling modes
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
- F24F11/72—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure
- F24F11/74—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling air flow rate or air velocity
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
- F24F11/80—Control systems characterised by their outputs; Constructional details thereof for controlling the temperature of the supplied air
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/89—Arrangement or mounting of control or safety devices
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F3/00—Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems
- F24F3/12—Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling
- F24F3/14—Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by humidification; by dehumidification
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
- F24F2110/10—Temperature
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
- F24F2110/50—Air quality properties
- F24F2110/65—Concentration of specific substances or contaminants
- F24F2110/70—Carbon dioxide
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/70—Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating
Definitions
- This disclosure relates to an air conditioning system.
- the temperature of the target space (SP1, SP2) is adjusted by the outside air treatment device (10) and the air conditioner (20).
- the control unit (30) changes the air conditioning capacity of the other as compared with the case where both are in the temperature control state.
- the control unit (30) changes the air conditioning capacity of the air conditioner (20) when the outside air treatment device (10) is in the non-temperature control state.
- the operation state of the other is changed to the operation state when both are in the temperature control state. Be returned. As a result, unnecessary power consumption can be suppressed.
- the control unit (30) determines the air volume of the outside air treatment device (10) when the increase in the air volume of the outside air treatment device (10) is effective from the viewpoint of temperature adjustment with respect to the target space (SP1, SP2). To increase. On the other hand, even if the air volume of the outside air treatment device (10) is increased, it may have an adverse effect on the temperature adjustment of the target space (SP1, SP2). In such a case, the control unit (30) does not increase the air volume of the outside air processing device (10). As a result, the optimum air volume control of the outside air treatment device (10) can be performed.
- control unit (30) is described when the air conditioner (20) is in the non-temperature adjustment state. It is characterized in that at least one of the supply air temperature and the air volume of the outside air treatment device (10) is changed so that the temperature of the target space (SP1 and SP2) approaches the temperature target value.
- the control unit (30) controls the outside air treatment device (10) so as to prioritize the heating capacity over the humidification capacity.
- the control unit (30) controls the outside air treatment device (10) so as to prioritize the heating capacity over the humidification capacity.
- the operating state of the air conditioner (20) is changed to both the outside air treatment device (10) and the air conditioner (20). It is returned to the operating state when the temperature is adjusted. As a result, unnecessary power consumption can be suppressed.
- the outdoor unit (21) is placed outside the target space (SP1, SP2) (in this example, outside the building (BL)).
- the outdoor unit (21) mainly has a compressor (21a), a four-way switching valve (21b), an outdoor heat exchanger (21c), an outdoor expansion valve (21d), and an outdoor fan (21e).
- the compressor (21a) is a device that compresses the low-pressure refrigerant in the refrigeration cycle to a high pressure.
- the four-way switching valve (21b) is a flow path switching means for switching the flow direction of the refrigerant in the refrigerant circuit (20a).
- the air conditioning system (100) in the common operation operation, one of the outside air treatment device (10) and the air conditioner (20) is in the temperature control state and one of the outside air treatment device (10) and the air conditioner (20) is in the temperature control state.
- the operation mode is different from that in the non-temperature adjusted state.
- the temperature adjustment state is a state in which the temperature of the target space (SP1, SP2) is adjusted
- the non-temperature adjustment state is a state in which the temperature of the target space (SP1, SP2) is not adjusted (or can be performed). Not).
- the air conditioning system (100) has an operating capacity (10) of the outside air treatment device (10) and the air conditioning device (20) when the outside air treatment device (10) and the air conditioner (20) are in the temperature control state in the common operation operation. Air conditioning of the target space (SP1, SP2) is performed by adjusting the air conditioning capacity as appropriate. At this time, the air conditioning system (100) can maximize its load processing capacity as needed.
- step ST2 the control device (30) obtains the load processing capacity of the air conditioner (20) before starting the defrost operation (load processing capacity of the air conditioner (20) in the temperature adjusted state). This load processing capacity is obtained as the amount of heat processed by the air conditioner (20) before the start of defrost operation. Then, the process proceeds to step ST3.
- step ST6 the control device (30) determines whether or not the value obtained by adding the increment ⁇ to the current air supply temperature of the outside air processing device (10) is equal to or less than the upper limit value of the supply air temperature of the outside air processing device (10). Is determined. If the former value is equal to or less than the latter value, the process proceeds to step ST7, otherwise the process proceeds to step ST8.
- step ST7 the control device (30) stores the value obtained by adding the increment ⁇ to the current air supply temperature of the outside air processing device (10). Then, the process proceeds to step ST9.
- step ST8 the control device (30) stores the upper limit value of the supply air temperature of the outside air processing device (10). Then, the process proceeds to step ST9.
- step ST9 the control device (30) stores the current target value of the supply air temperature of the outside air processing device (10). Then, the process proceeds to step ST10.
- step ST10 the control device (30) changes the target value of the supply air temperature of the outside air processing device (10) to the value stored in step ST7 or step ST8. Then, the process proceeds to step ST11.
- step ST11 the control device (30) determines whether or not the end condition of the defrost operation of the air conditioner (20) is satisfied. If the end condition of the defrost operation is not satisfied, step ST11 is repeated. On the other hand, if the end condition of the defrost operation is satisfied, the process proceeds to step ST12.
- step ST14 the control device (30) changes the target value of the supply air temperature of the outside air processing device (10) to the value stored in step ST9 (the value before the change). In other words, the control device (30) returns the air conditioning capacity of the outside air treatment device (10) to the air conditioning capacity before the change after the non-temperature adjustment state of the air conditioner (20) is completed.
- the control device (30) is in the outside air before the state change. Obtain the load processing capacity of the processing device (10).
- the control device (30) increases the evaporation temperature (specifically, the target value of the evaporation temperature) in the indoor heat exchanger (22a) in order to increase the air conditioning capacity of the air conditioner (20) by the above increase amount. ) Is lowered.
- the control device (30) stores the target value of the evaporation temperature before the change.
- the control device (30) returns the target value of the evaporation temperature to the target value of the evaporation temperature before the change.
- the difference ( ⁇ T) between the air temperature (room temperature) in the target space (SP1 and SP2) and the temperature target value is the predetermined temperature threshold value (Th).
- the target value of the evaporation temperature may be kept lowered until the difference ( ⁇ T) becomes less than the temperature threshold (Th).
- control device (30) does not increase the air conditioning capacity of the air conditioner (20) when the room temperature is lower than the temperature target value by a predetermined value (for example, 0 to 3 ° C.) or more. Specifically, when the indoor temperature is lower than the temperature target value by a predetermined value or more, the control device (30) processes the target value of the evaporation temperature of the indoor heat exchanger (22a) and the air volume of the indoor fan (22c) with the outside air. Do not change from the one when the device (10) was in the temperature control state.
- a predetermined value for example, 0 to 3 ° C.
- the mixed operation operation is an operation operation in which the outside air treatment device (10) and the air conditioner (20) execute one and the other of the cooling operation and the heating operation.
- the outside air treatment device (10) performs the cooling operation and the air conditioner (20) performs the heating operation, or the outside air treatment device (10) performs the heating operation and the air.
- the harmonizer (20) performs the cooling operation.
- the air conditioner (20) changes from the temperature adjusted state to the non-temperature adjusted state. The operation in the case of becoming will be described.
- control device (30) lowers the supply air temperature of the outside air treatment device (10) in order to reduce the air conditioning capacity of the outside air treatment device (10) by the above reduction amount.
- control device (30) stores the supply air temperature of the outside air processing device (10) before the change.
- control device (30) replaces or adds to the change of the supply air temperature of the outside air treatment device (10).
- the air volume may be reduced.
- the control device (30) is in the outside air before the state change. Obtain the load processing capacity of the processing device (10).
- control device (30) obtains the current load processing capacity of the heat source unit (outdoor unit (21)) of the air conditioner (20).
- the smaller of the load processing capacity of the outside air treatment device (10) before the state change and the current load processing capacity of the air conditioner (20) is the air conditioning capacity of the air conditioner (20). Set as the reduction amount of.
- control device (30) reduces the air conditioning capacity of the air conditioner (20) by the above reduction amount, so that the condensation temperature (specifically, the target value of the condensation temperature) in the indoor heat exchanger (22a) is reduced. ) Is lowered.
- the control device (30) stores the target value of the condensation temperature before the change.
- the control device (30) returns the target value of the condensation temperature to the target value of the condensation temperature before the change. Even after the non-temperature adjustment state of the outside air treatment device (10) is completed, the difference ( ⁇ T) between the air temperature (room temperature) in the target space (SP1 and SP2) and the temperature target value is the predetermined temperature threshold value (Th). ), The target value of the condensation temperature may be kept lowered until the difference ( ⁇ T) becomes less than the temperature threshold (Th).
- control device (30) replaces or in addition to changing the target value of the condensation temperature of the indoor heat exchanger (22a), and the indoor fan (22c) ) May be reduced.
- the air conditioning system (100) of the present embodiment includes an outside air treatment device (10) that adjusts the temperature and humidity of the taken-in outside air to supply air to the target space (SP1, SP2), and the target space (SP1, SP2).
- an outside air treatment device (10) that adjusts the temperature and humidity of the taken-in outside air to supply air to the target space (SP1, SP2), and the target space (SP1, SP2).
- the outside air treatment device (10) When one of the air conditioner (20) that adjusts the temperature of the air, the outside air treatment device (10), and the air conditioner (20) is in a non-temperature control state in which the temperature of the air is not adjusted, the outside air
- the other of the outside air treatment device (10) and the air conditioner (20) as compared with the case where the treatment device (10) and the air conditioner (20) are in a temperature adjustment state for performing temperature adjustment of air. It is equipped with a control device (30) that changes the air conditioning capacity.
- the temperature of the target space (SP1, SP2) is adjusted by the outside air treatment device (10) and the air conditioner (20).
- the control device (30) changes the air conditioning capacity of the other as compared with the case where both are in the temperature regulated state.
- the control device (30) changes the air conditioning capacity of the air conditioner (20) when the outside air treatment device (10) is in the non-temperature control state.
- the control device (30) executes the same cooling operation or heating operation by the outside air processing device (10) and the air conditioning device (20).
- the outside air treatment device (10) and the air conditioner (20) are in the temperature control state.
- the air conditioning capacity of the other of the outside air treatment device (10) and the air conditioner (20) is increased. Therefore, when one of the outside air treatment device (10) and the air conditioner (20) is in the non-temperature controlled state, the air conditioning capacity of the other is increased as compared with the case where both are in the temperature controlled state.
- part or all of the air conditioning capacity that is insufficient when one of the outside air treatment device (10) and the air conditioner (20) is in the non-temperature control state is supplemented by the other.
- the control device (30) has completed the non-temperature adjustment state of one of the outside air treatment device (10) and the air conditioner (20)
- the above The air conditioning capacity of the other of the outside air treatment device (10) and the air conditioner (20) is returned to the air conditioning capacity before the change. Therefore, after the non-temperature control state of one of the outside air treatment device (10) and the air conditioner (20) is finished, the operation state of the other is returned to the operation state when both are in the temperature control state. As a result, unnecessary power consumption can be suppressed.
- the control device (30) changes the air conditioning capacity of the outside air treatment device (10)
- the air supply temperature and air volume of the outside air treatment device (10) are changed. Change at least one. Therefore, the air conditioning capacity of the outside air treatment device (10) changes due to a change in at least one of the supply air temperature and the air volume of the outside air treatment device (10).
- the control device (30) executes the same cooling operation or heating operation by the outside air processing device (10) and the air conditioning device (20).
- the air conditioner (20) is in the non-temperature regulated state
- the air conditioner (10) and the air conditioner (20) are compared with the air conditioner (20) in the temperature adjusted state.
- the air conditioning capacity of the outside air treatment device (10) is increased so as to compensate for the smaller of the load processing capacity in the temperature adjusted state of 20) and the surplus capacity of the outside air treatment device (10). Therefore, if the load processing capacity of the air conditioner (20) in the temperature-controlled state is smaller than the surplus capacity of the outside air conditioner (10), the air conditioning capacity of the outside air conditioner (10) is that of the air conditioner (20).
- the air conditioning capacity of the outside air treatment device (10) is that of the outside air treatment device (10). Increased to make up for surplus capacity. As a result, it is possible to avoid applying an excessive load to the outside air processing device (10).
- the air conditioning system (100) of the present embodiment is described in the case where the control device (30) is in the non-temperature control state when one of the outside air treatment device (10) and the air conditioner (20) is in the non-temperature control state.
- the difference ( ⁇ T) between the temperature of the target space (SP1, SP2) and the temperature target value is equal to or greater than the predetermined temperature threshold (Th)
- the outside air treatment device (10) and the outside air treatment device (10) until the difference ( ⁇ T) between the temperature of the target space (SP1, SP2) and the temperature target value becomes less than the temperature threshold (Th).
- the other air conditioning capacity of the air conditioner (20) remains unchanged.
- the difference ( ⁇ T) between the temperature of the target space (SP1, SP2) and the temperature target value is large even after the non-temperature adjustment state of one of the outside air treatment device (10) and the air conditioner (20) is completed.
- the other air conditioning capacity remains unchanged until the difference ( ⁇ T) is less than the predetermined temperature threshold (Th).
- the temperature of the target space (SP1, SP2) can be brought closer to the temperature target value in a short time after the non-temperature adjustment state of one of the outside air treatment device (10) and the air conditioner (20) is completed.
- the temperature of the target space (SP1, SP2) is the temperature. At least one of the supply air temperature and the air volume of the outside air treatment device (10) is changed so as to approach the target value. Therefore, the temperature of the target space (SP1, SP2) can be brought closer to the temperature target value by changing at least one of the supply air temperature and the air volume of the outside air treatment device (10). For example, when the temperature of the target space (SP1, SP2) is lower than the temperature target value, it is conceivable to raise the supply air temperature of the outside air treatment device (10).
- the air conditioning system (100) of the present embodiment when the control device (30) executes the same cooling operation or heating operation by the outside air processing device (10) and the air conditioning device (20).
- the air conditioner (10) and the air conditioner (20) are compared with the air conditioner (20) in the temperature control state. 20) Increase the air conditioning capacity. Therefore, when the outside air treatment device (10) is in the non-temperature regulated state, the air conditioning of the air conditioner (20) is compared with the case where both the outside air treatment device (10) and the air conditioner (20) are in the temperature control state. Capacity increases.
- the air conditioner (20) supplements part or all of the air conditioning capacity that is insufficient when the outside air treatment device (10) is put into the non-temperature control state.
- the air conditioning capacity of the air conditioner (20) is increased. Return to the air conditioning capacity before the increase. Therefore, after the non-temperature control state of the outside air treatment device (10) is finished, the operating state of the air conditioner (20) is such that both the outside air treatment device (10) and the air conditioner (20) are in the temperature control state. It is returned to the operating state in some cases. As a result, unnecessary power consumption can be suppressed.
- the air conditioner (20) uses the indoor heat exchanger (22a) and the air in the target space (SP1, SP2) in the indoor heat exchanger (22a).
- the indoor fan (22c) is provided, and the control device (30) changes at least one of the evaporation temperature or the condensation temperature in the indoor heat exchanger (22a) and the air volume of the indoor fan (22c). This will increase the air conditioning capacity of the air conditioner (20). Therefore, a change in at least one of the evaporation or condensation temperature of the indoor heat exchanger (22a) and the air volume of the indoor fan (22c) increases the air conditioning capacity of the air conditioner (20).
- the control device (30) executes the same cooling operation or heating operation by the outside air processing device (10) and the air conditioning device (20).
- the outside air treatment device (10) is compared with the case where the outside air treatment device (10) and the air conditioner (20) are in the temperature control state.
- the air conditioning capacity of the air conditioner (20) is increased so as to compensate for the smaller of the load processing capacity in the temperature adjusted state and the surplus capacity of the air conditioner (20). Therefore, if the load processing capacity of the outside air treatment device (10) in the temperature-controlled state is smaller than the surplus capacity of the air conditioner (20), the air conditioning capacity of the air conditioner (20) is that of the outside air treatment device (10).
- the air conditioning capacity of the air conditioner (20) is that of the air conditioner (20). Increased to make up for surplus capacity. As a result, it is possible to avoid applying an excessive load to the air conditioner (20).
- the control device (30) has the temperature of the target space (SP1, SP2) when the outside air treatment device (10) is in the non-temperature adjustment state.
- the difference ( ⁇ T) from the temperature target value is equal to or greater than the predetermined temperature threshold (Th)
- the temperature of the target space (SP1, SP2) even after the non-temperature adjustment state of the outside air treatment device (10) ends.
- the air conditioning capacity of the air conditioner (20) is kept increased until the difference ( ⁇ T) between the temperature and the temperature target value becomes less than the temperature threshold (Th).
- the difference ( ⁇ T) between the temperature of the target space (SP1 and SP2) and the temperature target value is large even after the non-temperature adjustment state of the outside air treatment device (10) is completed, the difference ( ⁇ T) is predetermined.
- the air conditioning capacity of the air conditioner (20) remains increased until it falls below the temperature threshold (Th).
- the temperature of the target space (SP1, SP2) can be brought closer to the temperature target value in a short time after the non-temperature adjustment state of the outside air treatment device (10) is completed.
- the temperature target value is obtained. If it is lower than a predetermined value, the air conditioning capacity of the air conditioner (20) is not increased. Therefore, when the target spaces (SP1 and SP2) are properly air-conditioned, the air-conditioning capacity of the air conditioner (20) is not increased even if the outside air treatment device (10) is in the non-temperature control state. As a result, it is possible to prevent the target space (SP1, SP2) from being excessively cooled or heated.
- the control device (30) executes one and the other of the cooling operation and the heating operation by the outside air processing device (10) and the air conditioning device (20).
- the outside air treatment device (10) and the air conditioner (20) are in the temperature control state.
- the air conditioning capacity of the other of the outside air treatment device (10) and the air conditioner (20) is reduced. Therefore, when one of the outside air treatment device (10) and the air conditioner (20) is in the non-temperature controlled state, the air conditioning capacity of the other is reduced as compared with the case where both are in the temperature controlled state.
- the target space (SP1, SP2) from being excessively cooled or heated when one of the outside air treatment device (10) and the air conditioner (20) is in the non-temperature control state.
- the control device (30) executes one and the other of the cooling operation and the heating operation by the outside air processing device (10) and the air conditioning device (20).
- the air conditioner (20) when the air conditioner (20) is in the non-temperature control state, the outside air treatment device (10) and the air conditioner (20) are in the temperature control state as compared with the case where the outside air treatment device (10) is in the temperature control state. While reducing the air-conditioning capacity of (10), the air-conditioning capacity of the outside air treatment device (10) is returned to that before the reduction after the non-temperature adjustment state of the air conditioner (20) is completed.
- the air conditioning of the outside air conditioner (10) is compared with the case where both the outside air treatment device (10) and the air conditioner (20) are in the temperature control state. Capacity is reduced.
- the air conditioning capacity of the outside air treatment device (10) is restored.
- the air conditioning capacity of the outside air treatment device (10) when the air conditioning capacity of the outside air treatment device (10) is reduced, the supply air temperature of the outside air treatment device (10) is changed, or the outside air treatment device (10) is used. 10) Reduce the air volume. Therefore, the air conditioning capacity of the outside air treatment device (10) is reduced by changing the supply air temperature of the outside air treatment device (10) or reducing the air volume.
- the control device (30) executes one and the other of the cooling operation and the heating operation by the outside air processing device (10) and the air conditioning device (20).
- the air conditioner is compared with the case where the outside air treatment device (10) and the air conditioner (20) are in the temperature control state. While reducing the air-conditioning capacity of (20), the air-conditioning capacity of the air conditioner (20) is returned to that before the reduction after the non-temperature adjustment state of the outside air treatment device (10) is completed.
- the air conditioning of the air conditioner (20) is compared with the case where both the outside air treatment device (10) and the air conditioner (20) are in the temperature control state. Capacity is reduced.
- the air conditioning capacity of the air conditioner (20) is restored.
- the air conditioner (20) uses the indoor heat exchanger (22a) and the air in the target space (SP1, SP2) in the indoor heat exchanger (22a).
- the indoor fan (22c) is provided, and the control device (30) changes at least one of the evaporation temperature or the condensation temperature in the indoor heat exchanger (22a) and the air volume of the indoor fan (22c). This reduces the air conditioning capacity of the air conditioner (20). Therefore, a change in at least one of the evaporation or condensation temperature of the indoor heat exchanger (22a) and the air volume of the indoor fan (22c) reduces the air conditioning capacity of the air conditioner (20).
- the control device (30) has the ability to adjust the temperature of the outside air treatment device (10) with respect to the target space (SP1, SP2) more than when the control device (30) does not increase the air volume by increasing the air volume of the outside air treatment device (10).
- the air volume of the outside air treatment device (10) is increased when the cooling load or heating load of the target space (SP1, SP2) can be increased.
- the differences from the first embodiment will be mainly described.
- the air conditioner (20) changes from the temperature regulated state to the non-temperature regulated state in the common operation operation in which the outside air treatment device (10) and the air conditioner (20) execute the heating operation. It is a flowchart for demonstrating a specific operation.
- the initial state is the state in which the outside air treatment device (10) and the air conditioner (20) are in the temperature adjustment state.
- steps ST5 to ST9 of the flowcharts of FIGS. 4 and 5 it is determined whether or not the air volume of the outside air processing device (10) should be increased. It should be noted that steps ST1 to ST4 in FIGS. 4 and 5 correspond to steps ST1 to ST4 in FIG. 3, and steps ST10 to ST18 in FIGS. 4 and 5 correspond to steps ST6 to ST14 in FIG. Omit.
- step ST5 the control device (30) obtains the increment ⁇ 1 of the supply air temperature of the outside air processing device (10) when the air volume of the outside air processing device (10) is not changed. This increment ⁇ 1 is obtained based on the amount of increase in the air conditioning capacity of the outside air treatment device (10) set in step ST4 and the current air volume of the outside air treatment device (10). Then, the process proceeds to step ST6.
- step ST6 the control device (30) obtains the increment ⁇ 2 of the supply air temperature of the outside air processing device (10) when the air volume of the outside air processing device (10) is increased.
- This increment ⁇ 2 is the amount of increase in the air conditioning capacity of the outside air treatment device (10) set in step ST4, the current air volume of the outside air treatment device (10), the rated air volume of the outside air treatment device (10), and the outside air treatment device. It is obtained based on the supply air temperature of (10) and the outside air temperature.
- step ST7 the control device (30) determines whether the product of the increment ⁇ 1 and the current air volume of the outside air treatment device (10) is smaller than the product of the increment ⁇ 2 and the rated air volume of the outside air treatment device (10). To judge. In order to make the normal air supply temperature about the same as the room temperature, the product of the increment ⁇ 1 and the current air volume and the product of the increment ⁇ 2 and the rated air volume are proportional to the heating capacity to heat above the room temperature. If the value is not less than the latter value, the process proceeds to step ST8, otherwise the process proceeds to step ST9.
- step ST8 the control device (30) sets the target value of the air volume of the outside air treatment device (10) as the current air volume of the outside air treatment device (10), and increases the supply air temperature of the outside air treatment device (10). Let ⁇ be the increment ⁇ 1. Then, the process proceeds to step ST10.
- step ST9 the control device (30) sets the target value of the air volume of the outside air treatment device (10) as the rated air volume of the outside air treatment device (10), and sets the air supply temperature of the outside air treatment device (10). Let the increment ⁇ be the increment ⁇ 2. Then, the process proceeds to step ST10.
- the outside air treatment device (10) is more than when the control device (30) does not increase the air volume by increasing the air volume of the outside air treatment device (10).
- the control device (30) increases the air volume of the outside air treatment device (10) when the increase in the air volume of the outside air treatment device (10) is effective from the viewpoint of temperature control for the target space (SP1, SP2). ..
- the control device (30) does not increase the air volume of the outside air processing device (10). As a result, the optimum air volume control of the outside air treatment device (10) can be performed.
- the above embodiment may have the following configuration.
- the control device (30) may operate the outside air processing device (10) by the return air temperature control or the room temperature control when the air conditioner (20) is in the non-temperature control state. Both the return air temperature control and the room temperature control control control the air temperature (room temperature) in the target space (SP1 and SP2) by feedback control.
- the control amount is the return air temperature or the room temperature
- the operation amount is the supply air temperature or the air volume of the outside air treatment device (10).
- the control device (30) is an air conditioner when the outside air treatment device (10) executes a heating / humidifying operation (which humidifies in the heating operation) and the air conditioner (20) executes a heating operation.
- the humidifying capacity of the outside air treatment device (10) is lowered as compared with the case where the outside air treatment device (10) and the air conditioner (20) are in the temperature controlled state (specifically).
- the amount of water supplied by the humidifier (13) may be reduced) and the air supply temperature of the outside air treatment device (10) may be increased.
- control device (30) controls the outside air treatment device (10) so that the heating capacity is prioritized over the humidification capacity when the air conditioner (20) is in the non-temperature control state.
- the control device (30) controls the outside air treatment device (10) so that the heating capacity is prioritized over the humidification capacity when the air conditioner (20) is in the non-temperature control state.
- the outside air treatment device (10) may include a plurality of heat source units (chiller units).
- the control device (30) does not increase the air conditioning capacity of the outside air treatment device (10) when all the heat source units are in operation, even when the air conditioner (20) is in a non-temperature controlled state.
- the control device (30) does not increase the air conditioning capacity of the outside air treatment device (10), assuming that there is substantially no surplus capacity. As a result, it is possible to avoid applying an excessive load to the outside air processing device (10).
- the air conditioner (20) may be configured to perform a heating / humidifying operation.
- the control device (30) is an outside air treatment device (10) when the outside air treatment device (10) and the air conditioner (20) perform a heating / humidifying operation and the outside air treatment device (10) is in a non-temperature control state.
- the air conditioner (20) are in the above temperature control state, the humidification capacity of the air conditioner (20) is lowered, and the condensation temperature in the indoor heat exchanger (22a) of the air conditioner (20) is lowered. You may raise it.
- the control device (30) controls the air conditioner (20) so that the heating capacity is prioritized over the humidification capacity when the outside air treatment device (10) is in the non-temperature control state.
- the control device (30) controls the air conditioner (20) so that the heating capacity is prioritized over the humidification capacity when the outside air treatment device (10) is in the non-temperature control state.
- the outside air treatment device (10) and the air conditioner (20) adjust the temperature.
- the environmental target value may be changed so that the air conditioning load of the air conditioning system (100) is lower than that in the state.
- the environmental target value is a temperature target value (target value of temperature in the target space (SP1, SP2)), a humidity target value (target value of humidity in the target space (SP1, SP2)), or a carbon dioxide concentration target. It may be a value (target value of carbon dioxide concentration in the target space (SP1, SP2)).
- control device (30) may reduce the cooling load or the heating load of the air conditioning system (100) by changing the temperature target value, or dehumidify the air conditioning system (100) by changing the humidity target value.
- the load or humidification load may be reduced, or the ventilation load of the outside air treatment device (10) may be reduced by increasing the carbon dioxide concentration target value.
- this disclosure is useful for air conditioning systems.
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Abstract
Description
図1に示すように、空調システム(100)は、家屋、ビル、工場、公共施設などの建築物内に含まれる対象空間において、空気調和を実現するシステムである。
外気処理装置(10)は、主として、エアハンドリングユニット(11)(以下、「エアハンユニット」という)と、熱源ユニットとなるチラーユニット(図示せず)とを備える。エアハンユニット(11)は、水方式でもよいし、冷媒方式(直膨エアハン)でもよい。
空気調和装置(20)は、冷媒回路(20a)を含み、冷媒回路(20a)において冷媒を循環させて蒸気圧縮方式の冷凍サイクルを行うことにより、対象空間(SP1,SP2)の冷房、除湿、または暖房などの空気調和を実現する。空気調和装置(20)は、複数の運転モードを有しており、運転モードに応じた運転を行う。具体的に、空気調和装置(20)は、冷房を行う冷房運転、暖房を行う暖房運転、除霜を行うデフロスト運転などの運転を行う。
制御装置(30)は、空調システム(100)の動作を統括的に制御する機能部であり、具体的にはメモリやCPUなどで構成されるコンピュータを備えており、当該コンピュータがプログラムを実行することによって、空調システム(100)の各機能が実施される。プログラムは、コンピュータが読み取り可能な記録媒体、例えばROMなどに記録される。
空調システム(100)の運転動作について説明する。本実施形態の空調システム(100)は、共通運転動作と、混在運転動作とを選択的に実行できる。各運転動作の選択は、制御装置(30)によってなされる。
共通運転動作は、外気処理装置(10)および空気調和装置(20)が冷房運転および暖房運転の同じ方を実行する運転動作である。換言すると、共通運転動作では、外気処理装置(10)および空気調和装置(20)が冷房運転を実行するか、または外気処理装置(10)および空気調和装置(20)が暖房運転を実行する。なお、冷房運転では除湿を行っても行わなくてもよいし、暖房運転では加湿を行っても行わなくてもよい(以下、同様)。
具体例として、外気処理装置(10)および空気調和装置(20)が暖房運転を実行する共通運転動作において、空気調和装置(20)が温度調整状態から非温度調整状態になる場合の動作について、図3を参照して説明する。なお、図3のフローチャートは、外気処理装置(10)および空気調和装置(20)が温度調整状態である状態を初期状態とする。
別の具体例として、外気処理装置(10)および空気調和装置(20)が冷房運転を実行する共通運転動作において、外気処理装置(10)が温度調整状態から非温度調整状態になる場合の動作について説明する。
混在運転動作は、外気処理装置(10)および空気調和装置(20)が冷房運転および暖房運転の一方と他方を実行する運転動作である。換言すると、混在運転動作では、外気処理装置(10)が冷房運転を実行しかつ空気調和装置(20)が暖房運転を実行するか、または外気処理装置(10)が暖房運転を実行しかつ空気調和装置(20)が冷房運転を実行する。
具体例として、外気処理装置(10)が暖房運転を実行しかつ空気調和装置(20)が冷房運転を実行する混在運転動作において、空気調和装置(20)が温度調整状態から非温度調整状態になる場合の動作について説明する。
別の具体例として、外気処理装置(10)が冷房運転を実行しかつ空気調和装置(20)が暖房運転を実行する混在運転動作において、外気処理装置(10)が温度調整状態から非温度調整状態になる場合の動作について説明する。
本実施形態の空調システム(100)は、取り入れた外気の温度および湿度を調整して対象空間(SP1,SP2)に給気する外気処理装置(10)と、上記対象空間(SP1,SP2)の空気の温度を調整する空気調和装置(20)と、上記外気処理装置(10)および上記空気調和装置(20)の一方が、空気の温度調整を実行しない非温度調整状態である場合、上記外気処理装置(10)および上記空気調和装置(20)が、空気の温度調整を実行する温度調整状態である場合に比べて、上記外気処理装置(10)および上記空気調和装置(20)の他方の空調能力を変化させる制御装置(30)とを備える。したがって、外気処理装置(10)と空気調和装置(20)によって対象空間(SP1,SP2)の温度調整がなされる。制御装置(30)は、外気処理装置(10)と空気調和装置(20)の一方が非温度調整状態になると、両方が温度調整状態である場合に比べて、他方の空調能力を変化させる。例えば、制御装置(30)は、外気処理装置(10)が非温度調整状態になると、空気調和装置(20)の空調能力を変化させる。これにより、外気処理装置(10)と空気調和装置(20)の最適な連携制御を行うことができる。
実施形態1の変形例について説明する。本変形例は、制御装置(30)が、外気処理装置(10)の風量を増加させることで風量を増加させないときよりも外気処理装置(10)の対象空間(SP1,SP2)に対する温度調整能力(換言すると、対象空間(SP1,SP2)の冷房負荷または暖房負荷を処理する能力)を上げられる場合に、外気処理装置(10)の風量を増加させる点で上記実施形態1と異なる。以下、上記実施形態1と異なる点について主に説明する。
本変形例の空調システム(100)によっても、上記実施形態1と同様の効果が得られる。
上記実施形態については、以下のような構成としてもよい。
例えば、制御装置(30)は、空気調和装置(20)が非温度調整状態である場合において、外気処理装置(10)を還気温度制御または室内温度制御によって運転してもよい。還気温度制御と室内温度制御は、いずれもフィードバック制御によって対象空間(SP1,SP2)の空気の温度(室内温度)を制御するものである。この場合、例えば、制御量は還気温度または室内温度であり、操作量は外気処理装置(10)の給気温度または風量である。
例えば、制御装置(30)は、外気処理装置(10)が暖房加湿運転(暖房運転において加湿を行うもの)を実行しかつ空気調和装置(20)が暖房運転を実行する場合において、空気調和装置(20)が非温度調整状態であるとき、外気処理装置(10)および空気調和装置(20)が温度調整状態であるときに比べて、外気処理装置(10)の加湿能力を下げ(具体的には、加湿器(13)の給水量を減らし)かつ外気処理装置(10)の給気温度を上げてもよい。この場合、制御装置(30)は、空気調和装置(20)が非温度調整状態になると、外気処理装置(10)を、加湿能力よりも暖房能力を優先するように制御する。これにより、空気調和装置(20)が非温度調整状態になることで対象空間(SP1,SP2)の温度環境が悪化するのを抑止できる。
例えば、外気処理装置(10)は、複数の熱源ユニット(チラーユニット)を備えてもよい。制御装置(30)は、空気調和装置(20)が非温度調整状態である場合でも、全ての熱源ユニットが運転しているときは外気処理装置(10)の空調能力を増大させない。このように、制御装置(30)は、全ての熱源ユニットが運転している場合、外気処理装置(10)の余剰能力が実質的にないものとして、その空調能力を増大させない。これにより、外気処理装置(10)に過度な負荷がかかるのを回避できる。
例えば、空気調和装置(20)は、暖房加湿運転を実行できるように構成されてもよい。制御装置(30)は、外気処理装置(10)および空気調和装置(20)が暖房加湿運転を実行する場合において、外気処理装置(10)が非温度調整状態であるとき、外気処理装置(10)および空気調和装置(20)が上記温度調整状態であるときに比べて、空気調和装置(20)の加湿能力を下げかつ空気調和装置(20)の室内熱交換器(22a)における凝縮温度を上げてもよい。この場合、制御装置(30)は、外気処理装置(10)が非温度調整状態になると、空気調和装置(20)を、加湿能力よりも暖房能力を優先するように制御する。これにより、外気処理装置(10)が非温度調整状態になることで対象空間(SP1,SP2)の温度環境が悪化するのを抑止できる。
例えば、制御装置(30)は、上記外気処理装置(10)および空気調和装置(20)の一方が非温度調整状態である場合、外気処理装置(10)および空気調和装置(20)が温度調整状態である場合に比べて、空調システム(100)の空調負荷が低くなるように環境目標値を変更してもよい。具体的に、環境目標値は、温度目標値(対象空間(SP1,SP2)の温度の目標値)、湿度目標値(対象空間(SP1,SP2)の湿度の目標値)、または二酸化炭素濃度目標値(対象空間(SP1,SP2)の二酸化炭素濃度の目標値)であってもよい。例えば、制御装置(30)は、温度目標値を変更することで空調システム(100)の冷房負荷または暖房負荷を低めてもよいし、湿度目標値を変更することで空調システム(100)の除湿負荷または加湿負荷を低めてもよいし、または二酸化炭素濃度目標値を上げることで外気処理装置(10)の換気負荷を低めてもよい。これにより、外気処理装置(10)および空気調和装置(20)に過度な負荷がかかるのを回避できる。
20 空気調和装置
22a 室内熱交換器
22c 室内ファン
30 制御装置(制御部)
100 空調システム
SP1,SP2 対象空間
Th 温度閾値
ΔT (温度)差
Claims (26)
- 取り入れた外気の温度および湿度を調整して対象空間(SP1,SP2)に給気する外気処理装置(10)と、上記対象空間(SP1,SP2)の空気の温度を調整する空気調和装置(20)とを備える空調システム(100)であって、
上記外気処理装置(10)および上記空気調和装置(20)の一方が、空気の温度調整を実行しない非温度調整状態である場合、上記外気処理装置(10)および上記空気調和装置(20)が、空気の温度調整を実行する温度調整状態である場合に比べて、上記外気処理装置(10)および上記空気調和装置(20)の他方の空調能力を変化させる制御部(30)を備える
ことを特徴とする空調システム。 - 請求項1において、
上記制御部(30)は、上記外気処理装置(10)および上記空気調和装置(20)が冷房運転または暖房運転の同じ方を実行する場合において、上記外気処理装置(10)および上記空気調和装置(20)の一方が上記非温度調整状態であるとき、上記外気処理装置(10)および上記空気調和装置(20)が上記温度調整状態であるときに比べて、上記外気処理装置(10)および上記空気調和装置(20)の他方の空調能力を増大させる
ことを特徴とする空調システム。 - 請求項1または2において、
上記制御部(30)は、上記外気処理装置(10)および上記空気調和装置(20)の一方の上記非温度調整状態が終わった後に、上記外気処理装置(10)および上記空気調和装置(20)の他方の空調能力を変化前の空調能力に戻す
ことを特徴とする空調システム。 - 請求項1~3のいずれか1項において、
上記制御部(30)は、上記外気処理装置(10)の空調能力を変化させる場合、上記外気処理装置(10)の給気温度および風量の少なくとも一方を変化させる
ことを特徴とする空調システム。 - 請求項4において、
上記制御部(30)は、上記外気処理装置(10)の風量を増加させることで該風量を増加させないときよりも上記外気処理装置(10)の上記対象空間(SP1,SP2)に対する温度調整能力を上げられる場合に、上記外気処理装置(10)の風量を増加させる
ことを特徴とする空調システム。 - 請求項1~5のいずれか1項において、
上記制御部(30)は、上記外気処理装置(10)および上記空気調和装置(20)が冷房運転または暖房運転の同じ方を実行する場合において、上記空気調和装置(20)が上記非温度調整状態であるとき、上記外気処理装置(10)および上記空気調和装置(20)が上記温度調整状態であるときに比べて、上記空気調和装置(20)の上記温度調整状態での負荷処理能力と上記外気処理装置(10)の余剰能力とのうち小さい方を補うように上記外気処理装置(10)の空調能力を増大させる
ことを特徴とする空調システム。 - 請求項1~6のいずれか1項において、
上記制御部(30)は、上記外気処理装置(10)および上記空気調和装置(20)の一方が上記非温度調整状態である場合において、上記対象空間(SP1,SP2)の温度と温度目標値との差(ΔT)が所定の温度閾値(Th)以上であるとき、上記外気処理装置(10)および上記空気調和装置(20)の一方の上記非温度調整状態が終わっても、上記対象空間(SP1,SP2)の温度と上記温度目標値との差(ΔT)が上記温度閾値(Th)未満になるまで上記外気処理装置(10)および上記空気調和装置(20)の他方の空調能力を変化させたままにする
ことを特徴とする空調システム。 - 請求項1~7のいずれか1項において、
上記制御部(30)は、上記空気調和装置(20)が上記非温度調整状態である場合、上記対象空間(SP1,SP2)の温度が温度目標値に近づくように上記外気処理装置(10)の給気温度および風量の少なくとも一方を変化させる
ことを特徴とする空調システム。 - 請求項1~8のいずれか1項において、
上記制御部(30)は、上記外気処理装置(10)が暖房加湿運転を実行しかつ上記空気調和装置(20)が暖房運転を実行する場合において、上記空気調和装置(20)が上記非温度調整状態であるとき、上記外気処理装置(10)および上記空気調和装置(20)が上記温度調整状態であるときに比べて、上記外気処理装置(10)の加湿能力を下げかつ上記外気処理装置(10)の給気温度を上げる
ことを特徴とする空調システム。 - 請求項1~9のいずれか1項において、
上記外気処理装置(10)は、複数の熱源ユニットを備え、
上記制御部(30)は、上記空気調和装置(20)が上記非温度調整状態である場合でも、全ての上記熱源ユニットが運転しているときは上記外気処理装置(10)の空調能力を増大させない
ことを特徴とする空調システム。 - 請求項1において、
上記制御部(30)は、上記外気処理装置(10)および上記空気調和装置(20)が冷房運転または暖房運転の同じ方を実行する場合において、上記外気処理装置(10)が上記非温度調整状態であるとき、上記外気処理装置(10)および上記空気調和装置(20)が上記温度調整状態であるときに比べて、上記空気調和装置(20)の空調能力を増大させる
ことを特徴とする空調システム。 - 請求項11において、
上記制御部(30)は、上記外気処理装置(10)の上記非温度調整状態が終わった後に、上記空気調和装置(20)の空調能力を増大前の空調能力に戻す
ことを特徴とする空調システム。 - 請求項11または12において、
上記空気調和装置(20)は、室内熱交換器(22a)と、該室内熱交換器(22a)に上記対象空間(SP1,SP2)の空気を送る室内ファン(22c)とを備え、
上記制御部(30)は、上記室内熱交換器(22a)における蒸発温度または凝縮温度と、上記室内ファン(22c)の風量との少なくとも一方を変化させることで上記空気調和装置(20)の空調能力を増大させる
ことを特徴とする空調システム。 - 請求項11~13のいずれか1項において、
上記制御部(30)は、上記外気処理装置(10)および上記空気調和装置(20)が暖房加湿運転を実行する場合において、上記外気処理装置(10)が上記非温度調整状態であるとき、上記外気処理装置(10)および上記空気調和装置(20)が上記温度調整状態であるときに比べて、上記空気調和装置(20)の加湿能力を下げかつ上記空気調和装置(20)の凝縮温度を上げる
ことを特徴とする空調システム。 - 請求項11~14のいずれか1項において、
上記制御部(30)は、上記外気処理装置(10)および上記空気調和装置(20)が冷房運転または暖房運転の同じ方を実行する場合において、上記外気処理装置(10)が上記非温度調整状態であるとき、上記外気処理装置(10)および上記空気調和装置(20)が上記温度調整状態であるときに比べて、上記外気処理装置(10)の上記温度調整状態での負荷処理能力と上記空気調和装置(20)の余剰能力とのうち小さい方を補うように上記空気調和装置(20)の空調能力を増大させる
ことを特徴とする空調システム。 - 請求項11~15のいずれか1項において、
上記制御部(30)は、上記外気処理装置(10)が上記非温度調整状態である場合において、上記対象空間(SP1,SP2)の温度と温度目標値との差(ΔT)が所定の温度閾値(Th)以上であるとき、上記外気処理装置(10)の上記非温度調整状態が終わっても、上記対象空間(SP1,SP2)の温度と上記温度目標値との差(ΔT)が上記温度閾値(Th)未満になるまで上記空気調和装置(20)の空調能力を増大させたままにする
ことを特徴とする空調システム。 - 請求項11~16のいずれか1項において、
上記制御部(30)は、上記対象空間(SP1,SP2)の温度が暖房時に温度目標値よりも所定値以上高い場合または冷房時に温度目標値よりも所定値以上低い場合には、上記空気調和装置(20)の空調能力を増大させない
ことを特徴とする空調システム。 - 請求項1において、
上記制御部(30)は、上記外気処理装置(10)および上記空気調和装置(20)が冷房運転および暖房運転の一方と他方を実行する場合において、上記外気処理装置(10)および上記空気調和装置(20)の一方が上記非温度調整状態であるとき、上記外気処理装置(10)および上記空気調和装置(20)が上記温度調整状態であるときに比べて、上記外気処理装置(10)および上記空気調和装置(20)の他方の空調能力を低減させる
ことを特徴とする空調システム。 - 請求項18において、
上記制御部(30)は、上記外気処理装置(10)および上記空気調和装置(20)が冷房運転および暖房運転の一方と他方を実行する場合において、上記空気調和装置(20)が上記非温度調整状態であるとき、上記外気処理装置(10)および上記空気調和装置(20)が上記温度調整状態であるときに比べて、上記外気処理装置(10)の空調能力を低減させる一方、上記空気調和装置(20)の上記非温度調整状態が終わった後に、上記外気処理装置(10)の空調能力を低減前の空調能力に戻す
ことを特徴とする空調システム。 - 請求項18または19において、
上記外気処理装置(10)の空調能力を低減させる場合、上記外気処理装置(10)の給気温度を変化させるか、または上記外気処理装置(10)の風量を低減する
ことを特徴とする空調システム。 - 請求項18において、
上記制御部(30)は、上記外気処理装置(10)および上記空気調和装置(20)が冷房運転および暖房運転の一方と他方を実行する場合において、上記外気処理装置(10)が上記非温度調整状態であるとき、上記外気処理装置(10)および上記空気調和装置(20)が上記温度調整状態であるときに比べて、上記空気調和装置(20)の空調能力を低減させる一方、上記外気処理装置(10)の上記非温度調整状態が終わった後に、上記空気調和装置(20)の空調能力を低減前のものに戻す
ことを特徴とする空調システム。 - 請求項21において、
上記空気調和装置(20)は、室内熱交換器(22a)と、該室内熱交換器(22a)に上記対象空間(SP1,SP2)の空気を送る室内ファン(22c)とを備え、
上記制御部(30)は、上記室内熱交換器(22a)における蒸発温度または凝縮温度と、上記室内ファン(22c)の風量との少なくとも一方を変化させることで上記空気調和装置(20)の空調能力を低減させる
ことを特徴とする空調システム。 - 請求項1~22のいずれか1項において、
上記制御部(30)は、上記外気処理装置(10)および上記空気調和装置(20)の一方が上記非温度調整状態である場合、上記外気処理装置(10)および上記空気調和装置(20)が上記温度調整状態である場合に比べて、上記空調システム(100)の空調負荷が低くなるように環境目標値を変更する
ことを特徴とする空調システム。 - 請求項23において、
上記環境目標値は、温度目標値であり、
上記制御部(30)は、上記外気処理装置(10)および上記空気調和装置(20)の一方が上記非温度調整状態である場合、上記外気処理装置(10)および上記空気調和装置(20)が上記温度調整状態である場合に比べて、暖房運転時には上記温度目標値を下げる一方、冷房運転時には上記温度目標値を上げる
ことを特徴とする空調システム。 - 請求項23において、
上記環境目標値は、湿度目標値であり、
上記制御部(30)は、上記外気処理装置(10)および上記空気調和装置(20)の一方が上記非温度調整状態である場合、上記外気処理装置(10)および上記空気調和装置(20)が上記温度調整状態である場合に比べて、加湿運転時には上記湿度目標値を下げる一方、除湿運転時には上記湿度目標値を上げる
ことを特徴とする空調システム。 - 請求項23において、
上記環境目標値は、二酸化炭素濃度目標値であり、
上記制御部(30)は、上記空気調和装置(20)が上記非温度調整状態である場合、上記外気処理装置(10)および上記空気調和装置(20)が上記温度調整状態である場合に比べて、上記二酸化炭素濃度目標値を上げる
ことを特徴とする空調システム。
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