JP2004085011A - Energy-saving control device, control method, and control system for air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an energy-saving control device, a control method, and a control system for an air conditioner capable of letting a heat storage type air conditioner 1 perform sufficient heat storage operation while performing energy-saving control of the air conditioner including the heat storage type air conditioner 1 efficiently. <P>SOLUTION: Control devices 61, 62, 63 for saving energy by suppressing operation capacity of air conditioner group 2 including the heat storage type air conditioner 1 are provided with a heat storage type air conditioner distinguishing means 3 and a suppression reducing means 4. The heat storage type air conditioner distinguishing means 3 obtains information from the heat storage type air conditioner 1 and distinguishes the heat storage type air conditioner 1 based on the information. The suppression reducing means 4 reduces suppression control of operation capacity of the heat storage type air conditioner 1 when the heat storage type air conditioner 1 is operated by heat storage in a time zone when operation capacity of the air conditioner group 2 is suppressed and controlled. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a control device, a control method, and a control system for suppressing and controlling the operation capability of an air conditioner in order to save energy of the air conditioner.
[0002]
[Prior art]
As a technique for suppressing and controlling the operating capacity of the air conditioner group to save energy, a technique for fixing the operating frequency of the compressor to 50% (for example, see Patent Literature 1) and a technique for compressing against a temperature change are disclosed. There is a technique for changing the operating frequency of the machine (for example, see Patent Document 2).
[0003]
[Patent Document 1]
JP-A-11-223373 (page 2)
[0004]
[Patent Document 2]
JP-A-06-159773 (page 2-3, FIG. 1)
When these technologies are applied to an air conditioner group including the regenerative air conditioner 1 as shown in FIG. 1, the suppression control unit 20 of the control device controls the regenerative air conditioner 1 and the non- The operation capacity of the compressors 21a and 22a built in the outdoor units 21 and 22 of the regenerative air conditioner 5 is suppressed and controlled.
[0005]
[Problems to be solved by the invention]
By the way, the non-thermal storage type air conditioner 5 shown in FIG. 1 is a standard type air conditioner that performs only air conditioning operation. On the other hand, the heat storage type air conditioner 1 performs not only the air conditioning operation but also the heat storage operation. Generally, it takes about 10 hours for the regenerative air conditioner 1 to sufficiently store heat, even when using 100% operating capacity. Further, in a building or the like in which a tenant or the like is located, air conditioning may be performed from about 6:00 to about 24:00, and during that time, the air conditioner group 2 is controlled to suppress energy consumption of the building. . That is, in order for the regenerative air conditioner 1 to perform a sufficient heat storage operation, the regenerative air conditioner 1 needs to perform the heat storage operation while overlapping the time zone in which the air conditioner group 2 is controlled to be suppressed. However, if the regenerative air conditioner 1 performs a heat storage operation in such a state, the regenerative air conditioner 1 is suppressed and controlled during a time period overlapping with the suppression control time period. Has a problem that the heat cannot be sufficiently stored. Further, if the operation capability of the regenerative air conditioner 1 is not controlled to suppress at all in order to avoid this problem, the power consumption when the regenerative air conditioner 1 performs the air conditioning operation cannot be reduced, and the energy saving effect cannot be obtained. The problem of reduction occurs.
[0006]
An object of the present invention is to provide an energy-saving air conditioner energy saving control device that allows a heat storage type air conditioner to perform a sufficient heat storage operation while efficiently performing energy saving control of an air conditioner including a heat storage type air conditioner, It is to provide a control method and a control system.
[0007]
[Means for Solving the Problems]
An energy-saving control device for an air conditioner according to claim 1 is a control device for suppressing the operating capacity of a group of air conditioners including a regenerative air conditioner to achieve energy saving, wherein the regenerative air conditioner is identified. Means and suppression mitigation means. The regenerative air conditioner identification means identifies the regenerative air conditioner based on information obtained from the regenerative air conditioner. Here, the “information” may be information input by the air conditioner setting means or information collected via a network with the regenerative air conditioner. Further, the heat storage type air conditioner may be configured to include a heat storage controller having a schedule function, and the information may be collected from the heat storage controller. The suppression mitigation means relaxes the control for suppressing the operation capability of the regenerative air conditioner when the regenerative air conditioner is operated to perform heat storage during a time period in which the operation capability of the air conditioner group is suppressed and controlled. Here, “relax” includes the meaning of lowering the suppression control level and not transmitting the suppression control command.
[0008]
Here, the control device identifies the type of each air conditioner, and when performing the heat storage operation of the heat storage type air conditioner during a time period in which the operation capability of the air conditioner group is suppressed and controlled, the control device of the heat storage type air conditioner Relieve the control of driving capacity.
In this way, the control device reduces the operating capacity of the regenerative air conditioner when the regenerative air conditioner performs the thermal storage operation even when the operating capacity of the air conditioner group is controlled to be suppressed. In addition, the heat storage type air conditioner can perform a sufficient heat storage operation. When the regenerative air conditioner is operated in the air conditioner, the control device does not relax the control for suppressing the operation capability of the regenerative air conditioner, so that the energy saving effect can be prevented from decreasing. it can.
[0009]
An energy saving control device for an air conditioner according to a second aspect is the control device according to the first aspect, further comprising a first suppression schedule unit and a second suppression schedule unit. The first suppression schedule means sets a time zone in which the operation capacity of the non-thermal storage type air conditioner is suppressed and controlled. The second suppression schedule means sets a time zone in which the operation capacity of the regenerative air conditioner is suppressed and controlled.
[0010]
Here, the suppression control time of the non-thermal storage type air conditioner is set by the first suppression schedule means. Then, the time zone in which the regenerative air conditioner is controlled to be suppressed by the second suppression schedule means coincides with the time zone in which the regenerative air conditioner is operated in air conditioning. Then, the heat storage type air conditioner 1 can perform the heat storage operation without receiving the suppression control in a time zone other than the time zone.
[0011]
As described above, since the control device is configured to independently set the suppression control time zone of the non-thermal storage type air conditioner and the thermal storage type air conditioner, Optimal settings can be made for each of the heat storage type air conditioners.
An energy saving control device for an air conditioner according to a third aspect is the control device according to the first aspect, further comprising a heat storage operation schedule unit. The heat storage operation schedule means sets a time zone in which the heat storage type air conditioner is operated for heat storage.
[0012]
Here, the suppression mitigation means performs the suppression control of the operation capacity of the regenerative air conditioner during a time period in which the time period for suppressing and controlling the operation performance of the air conditioner group and the time period set by the heat storage operation schedule means overlap. ease.
As described above, when the heat storage operation time period and the suppression control time period overlap, the suppression mitigation means automatically reduces the operation capability of the heat storage air conditioner. By simply setting the heat storage operation time zone, the operation capacity of the heat storage type air conditioner can be suppressed and relaxed in the overlapping time zone.
[0013]
An energy-saving control apparatus for an air conditioner according to a fourth aspect is the control apparatus according to the first aspect, further comprising an operation mode monitoring unit. The operation mode monitoring means monitors an operation mode of the regenerative air conditioner.
Here, the suppression mitigation means performs the suppression control of the operation capability of the regenerative air conditioner when the operation mode of the regenerative air conditioner is the thermal storage operation during the time period in which the operational capability of the air conditioner group is suppressed and controlled. ease.
[0014]
As described above, since the suppression mitigation means is configured to automatically react to the operation mode of the regenerative air conditioner, the setting operator does not need to set a schedule for the regenerative air conditioner. This is simpler than the control device according to the second and third aspects.
According to a fifth aspect of the present invention, there is provided a control method for controlling an operation capacity of an air conditioner group including a regenerative air conditioner having at least two operation modes of an air conditioner operation and a heat storage operation to thereby save energy. The method comprises a regenerative air conditioner identification step and a suppression mitigation step. In the regenerative air conditioner identification step, the regenerative air conditioner is identified based on information obtained from the regenerative air conditioner. In the suppression mitigation step, the suppression control of the operation capability of the regenerative air conditioner is relaxed in the case where the regenerative air conditioner is operated for heat storage during the time period in which the operation capability of the air conditioner group is suppressed and controlled.
[0015]
When this control method is executed, the type of each air conditioner is identified in the type identification step. Then, in the suppression mitigation step, when the regenerative air conditioner performs the heat storage operation during the time period in which the operating capacity of the air conditioner group is suppressed and controlled, the control for suppressing the operating capacity of the regenerative air conditioner is relaxed.
In this way, the control method reduces the operating capacity of the regenerative air conditioner when the regenerative air conditioner is operated for thermal storage, even when the operating capacity of the air conditioner group is controlled to be suppressed. In addition, the thermal storage type air conditioner can perform a sufficient thermal storage operation. When the regenerative air conditioner is operated in the air conditioner, the control for suppressing the operation capability of the regenerative air conditioner is not relaxed, so that the energy saving effect can be prevented from decreasing.
[0016]
An energy saving control system for an air conditioner according to claim 6 includes a control device and a remote setting unit. The control device is the control device according to any one of claims 2 to 4. The remote setting means sets the control device via the network.
Here, since the remote setting means takes a form of setting the control device via the network, the setting operator can set the control device from a remote place.
[0017]
Further, for example, even when there are a plurality of control devices to be set, if the control devices are connected to the remote setting device via a network, the setting can be performed by the remote setting device. For this reason, the setting change of a plurality of control devices can be performed from one place.
An energy saving control system for an air conditioner according to a seventh aspect includes a control device and a weather information collecting unit. The control device is the control device according to any one of claims 2 to 4. The weather information collecting means collects weather information. Then, the control device is set based on the weather information collected by the weather information collecting means.
[0018]
Here, for example, in the case of a cool night when a load is not applied to the air conditioner group more than usual, if a setting to change the heat storage operation start time based on the information can be made to the control device, Since the heat storage type air conditioner can perform the heat storage operation with a low load, power consumption can be reduced, and a sufficient heat storage operation time can be provided for the heat storage type air conditioner.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
<First embodiment>
FIG. 2 shows a use mode, a structure, and a control mode of the energy-saving control device 61 for an air conditioner according to the first embodiment of the present invention.
[Usage mode of energy saving control device 61 for air conditioner]
Here, an energy-saving control device (hereinafter, referred to as a control device) 61 of the air conditioner is connected to the non-thermal storage type air conditioner 5 and the compressors 21a and 22a of the heat storage type air conditioner 1. Further, the control device 61 is connected to the identification code storage unit 22b and the operation mode switching unit 22c of the regenerative air conditioner 1. The identification code storage unit 22b stores the identification code of the regenerative air conditioner 1. The operation mode switching unit 22c switches the operation mode of the regenerative air conditioner 1.
[0020]
[Structure of the energy-saving control device 61 of the air conditioner]
The control device 61 illustrated in FIG. 2 includes the regenerative air conditioner identification unit 3, the operation mode monitoring unit 9, the suppression control unit 20, and the suppression relaxation unit 4. The heat storage type air conditioner identification unit 3 receives the identification code from the identification code storage unit 22b of the heat storage type air conditioner 1. The operation mode monitoring unit 9 receives an operation mode signal from the operation mode switching unit 22c of the regenerative air conditioner 1. The suppression control unit 20 sets a time zone in which the operation frequency of the compressors 21a and 22a of the air conditioner group 2 is controlled to be suppressed. Then, when the suppression control time period comes, the suppression control unit 20 transmits a command for controlling the operation frequency of the compressors 21a and 22a of the air conditioner group 2 to be suppressed. When the operation mode of the regenerative air conditioner 1 is the heat storage operation during the suppression control time zone, the suppression relieving unit 4 does not transmit the suppression control command to the regenerative air conditioner 1.
[0021]
[Control form of the energy-saving control device 61 of the air conditioner]
Here, the control mode of the control device 61 shown in FIG. 2 will be described with reference to the flowcharts shown in FIGS. Here, FIG. 3 shows a flow of the initial setting of the control device 61. FIG. 4 shows a flow of control of the compressors 21 a and 22 a of the air conditioner group 2 by the control device 61.
[0022]
In the flowchart shown in FIG. 3, in step S1, the regenerative air conditioner identification unit 3 receives the identification code of the regenerative air conditioner 1 from the identification code storage unit 22b of the regenerative air conditioner 1. In step S2, the suppression control unit 20 sets a time period in which the operation frequencies of the compressors 21a and 22a of the air conditioner group 2 are suppressed and controlled.
In the flowchart shown in FIG. 4, in step S3, the suppression control unit 20 checks whether the time is in the suppression control time zone. As a result of the confirmation in step S3, if the time is not within the suppression control time zone, the suppression control unit 20 causes the air conditioner group 2 to operate normally in step S4. As a result of the confirmation in step S3, if the time is in the suppression control time zone, in step S5, the suppression control unit 20 controls the operation frequency of the compressor 21a of the non-thermal storage type air conditioner. In step S6, the operation mode monitoring unit 9 receives and confirms the operation mode from the operation mode switching unit 22c of the regenerative air conditioner 1. As a result of the confirmation in step S6, when the operation mode is the heat storage operation, in step S7, the suppression relaxation unit 4 causes the heat storage air conditioner 1 to perform the normal operation. As a result of the confirmation in step S6, when the operation mode is the air-conditioning operation, the suppression control unit 20 controls the operation frequency of the compressor 22a of the regenerative air conditioner 1 in step S8.
[0023]
[Characteristics of control form of energy saving control device 61 of air conditioner]
Here, the control device 61 includes, in addition to the conventional suppression control unit 20, the regenerative air conditioner identification unit 3, the operation mode monitoring unit 9, and the suppression relaxation unit 4. The regenerative air conditioner identification unit 3 can detect the regenerative air conditioner 1 from the air conditioner group 2. When the operation mode acquired from the operation mode monitoring unit 9 during the suppression control time period acquired from the suppression control unit 20 is the heat storage operation, the suppression relaxation unit 4 does not transmit the suppression control command to the heat storage air conditioner 1. Is possible. For this reason, the control device 61 can cause the regenerative air conditioner 1 to perform a sufficient heat storage operation even in a time zone in which the air conditioner group 2 is controlled to be suppressed. Further, when the regenerative air conditioner 1 is performing the air conditioning operation, the control device 61 transmits the suppression control command, so that it is possible to prevent a decrease in the energy saving effect. Further, since the control device 61 is configured to automatically react to the operation mode of the regenerative air conditioner, the setting operator does not need to set a schedule for the regenerative air conditioner, and The problem can be easily overcome.
[0024]
<Extended example of the first embodiment>
FIG. 5 shows an extended example of the energy-saving control device 61 for an air conditioner according to the first embodiment of the present invention.
The control device 61 is connected to the computer 11 installed in the remote monitoring center 26 via the network 25. Further, the computer is connected to the weather information collection unit 12.
[0025]
Here, the weather information collecting unit 12 transmits the collected weather information to the computer 11. Then, the computer 11 automatically creates a suppression control schedule based on the weather information, and transmits the suppression control schedule to the control device 61 via the network 25.
In this manner, since the suppression control schedule is automatically created by the computer 11 based on the weather information, the setting work is not required, and the labor cost required for the setting work can be reduced. Further, for example, when it is a cool night when a load is not applied to the air conditioner group 2 more than usual, if the setting for changing the heat storage operation start time can be made to the control device 61 based on the information, it becomes more usual. Since the thermal storage type air conditioner 1 can perform the thermal storage operation with a low load, the power consumption can be reduced, and the thermal storage type air conditioner 1 can be provided with a sufficient thermal storage operation time. Further, since the suppression control schedule is transmitted from the computer 11 to the control device 61 via the network 25, the setting operator does not need to go to the place where the control device 61 is installed, so that travel costs can be reduced. . Further, for example, even when there are a plurality of control devices 61 to be set, if the control devices 61 are connected to the computer 11 via the network 25, the setting can be performed by the computer 11. The setting change of one control device 61 can be performed from one place.
[0026]
<Modification of First Embodiment>
(A) Modification of inputting identification code to regenerative air conditioner identification unit 3
In the first embodiment, in order to input the identification code of the regenerative air conditioner 1 to the regenerative air conditioner identification unit 3, the identification code storage unit 22 b of the regenerative air conditioner 1 uses the regenerative air conditioner identification unit. Although the form of transmitting the identification code to the regenerative air conditioner 3 has been adopted, a form in which the identification code of the regenerative air conditioner 1 is manually input to the regenerative air conditioner identification unit 3 may be used instead.
(B) Modification of suppression control target
In the first embodiment, the control device 61 suppresses and controls the operation capability of the air conditioner group 2 by controlling the compressor operation frequency. However, the operation capability of the air conditioners is controlled by the outdoor units 21 and 22. The suppression control can also be performed by adjusting the power consumption.
[0027]
Therefore, in the structure of the first embodiment, instead of connecting the control device 61 to the compressors 21a and 22a of the air conditioner group 2, the control device 61 is connected to the power consumption management units 21d and 22d to operate the outdoor units 21 and 22. It is conceivable to suppress and control the above.
(C) Modified example of suppression relaxation section 4
In the control mode of the first embodiment, when the operation mode of the regenerative air conditioner 1 is the heat storage operation in the suppression control time zone, the suppression moderating unit 4 controls the regenerative air conditioner 1. Although the command is not transmitted, instead of this, the suppression alleviating unit 4 performs the control of the heat storage air conditioner 1 when the operation mode of the heat storage type air conditioner 1 is the heat storage operation in the suppression control time zone. It is conceivable to lower the suppression control level and control the heat storage type air conditioner 1 to perform a sufficient heat storage operation while maintaining a high energy saving efficiency by performing a slight suppression control.
[0028]
<Second embodiment>
FIG. 6 shows a use mode, a structure, and a control mode of the energy-saving control device 62 for an air conditioner according to the second embodiment of the present invention.
[Usage mode of energy-saving control device 62 for air conditioner]
Here, the control device 62 is connected to the power consumption management units 21d and 22d of the non-heat storage type air conditioner 5 and the heat storage type air conditioner 1.
[0029]
[Structure of energy saving control device 62 of air conditioner]
The control device 62 illustrated in FIG. 6 includes the regenerative air conditioner identification unit 3, the suppression control unit 20, and the suppression relaxation unit 23. The identification code of the regenerative air conditioner 1 is manually input to the regenerative air conditioner identification unit 3. The suppression control unit 20 includes a first suppression schedule unit 6. The first suppression schedule unit 6 sets a time zone in which the power consumption of the non-thermal storage type air conditioner 5 is suppressed and controlled. Then, when the time zone set by the first suppression schedule unit 6 comes, the suppression control unit 20 transmits a command for controlling the power consumption to the non-thermal storage type air conditioner 5. The suppression alleviation unit 23 includes the second suppression schedule unit 7. The second suppression schedule unit 7 sets a time zone in which the power consumption of the regenerative air conditioner 1 is controlled to be suppressed according to the scheduled air conditioning operation time zone of the regenerative air conditioner 1. Then, when the time zone set by the second suppression schedule unit 7 comes, the suppression relaxation unit 23 transmits a command for controlling the power consumption to the regenerative air conditioner 1.
[0030]
[Control form of the energy-saving control device 62 of the air conditioner]
Here, the control mode of the control device 62 shown in FIG. 6 will be described with reference to the flowcharts shown in FIGS. 7, 8, and 9. Here, FIG. 7 shows a flow of the initial setting of the control device 62. FIGS. 8 and 9 show the control flow of the non-heat storage type air conditioner 5 and the power consumption management units 21d and 22d of the heat storage type air conditioner 1 by the control device 62, respectively.
[0031]
In the flowchart shown in FIG. 7, in step S9, the identification code of the regenerative air conditioner 1 is manually input to the regenerative air conditioner identification unit 3. In step S10, the first suppression schedule unit 6 sets a time period in which the power consumption of the non-thermal storage type air conditioner 5 is controlled to be suppressed. In step S11, the second suppression schedule unit 7 sets a time zone in which the power consumption of the regenerative air conditioner 1 is controlled to be controlled in accordance with the scheduled air conditioning operation time zone of the regenerative air conditioner 1.
[0032]
In the flowchart shown in FIG. 8, in step S12, the suppression control unit 20 checks whether the time is in the first suppression time zone. As a result of the check in step S12, if the time is not in the first suppression control time zone, the suppression control unit 20 causes the non-thermal storage type air conditioner 5 to operate normally in step S13. As a result of the check in step S12, if the time is in the first suppression control time zone, the suppression control unit 20 performs suppression control of the power consumption management unit 21d of the non-thermal storage type air conditioner 5 in step S14.
[0033]
In the flowchart shown in FIG. 9, in step S15, the suppression alleviation unit 23 checks whether the time is in the second suppression time zone. As a result of the confirmation in step S15, if the time is not in the second suppression control time zone, in step S16, the suppression relaxation unit 23 causes the regenerative air conditioner 1 to operate normally. As a result of the confirmation in step S15, if the time is the second suppression control time zone, in step S17, the suppression alleviation unit 23 performs the suppression control of the power consumption management unit 22d of the regenerative air conditioner 1.
[0034]
[Characteristics of control form of energy saving control device 62 of air conditioner]
Here, the control device 62 includes the regenerative air conditioner identification unit 3 and the suppression relaxation unit 23 in addition to the conventional suppression control unit 20. The regenerative air conditioner identification unit 3 can detect the regenerative air conditioner 1 from the air conditioner group 2. The suppression control unit 20 can set the suppression control time zone of the non-thermal storage type air conditioner 5 in the first suppression schedule unit 6. The suppression alleviation unit 23 can set the suppression control time zone of the regenerative air conditioner 1 in the second suppression schedule unit 7 in accordance with the air conditioning operation of the regenerative air conditioner 1. Therefore, the suppression alleviating unit 23 enables the suppression control command not to be transmitted to the heat storage air conditioner 1 during the heat storage time zone. For this reason, the control device 62 can cause the regenerative air conditioner 1 to perform a sufficient heat storage operation even during the time period in which the air conditioner group 2 is controlled to be suppressed. Further, when the regenerative air conditioner 1 is performing the air-conditioning operation, the control device 62 transmits the suppression control command, so that it is possible to prevent a decrease in the energy saving effect. Furthermore, since the control device 62 is configured to independently set the suppression control time zone of the non-thermal storage type air conditioner 5 and the thermal storage type air conditioner 1, the setting operator needs to set the non-thermal storage type air conditioner. 5 and the regenerative air conditioner 1 can be set optimally.
[0035]
<Third embodiment>
FIG. 10 shows a use mode, a structure, and a control mode of the air conditioner energy saving control device 63 according to the third embodiment of the present invention.
[Usage condition of energy-saving control device 63 for air conditioner]
Here, the control device 63 is connected to the non-thermal storage type air conditioner 5, the compressors 21a and 22a of the thermal storage type air conditioner 1, and the like. The control device 63 is connected to the identification code storage unit 22b of the regenerative air conditioner 1. The identification code storage unit 22b stores the identification code of the regenerative air conditioner 1.
[0036]
[Structure of the energy-saving control device 63 of the air conditioner]
The control device 63 illustrated in FIG. 10 includes the regenerative air conditioner identification unit 3, the suppression control unit 20, the heat storage operation schedule setting unit 8, and the suppression relaxation unit 24. The heat storage type air conditioner identification unit 3 receives the identification code from the identification code storage unit 22b of the heat storage type air conditioner 1. The suppression control unit 20 sets a time zone in which the operating frequencies of the compressors 21a and 22a of the air conditioner group 2 are controlled to be suppressed. Then, when the suppression control time period comes, the suppression control unit 20 transmits a command for controlling the operation frequency of the compressors 21a and 22a of the air conditioner group 2 to be suppressed. The heat storage operation schedule setting unit 8 sets a time period during which the heat storage air conditioner 1 performs the heat storage operation. Then, when the heat storage operation time zone comes, the heat storage operation schedule setting unit 8 transmits a command to the heat storage air conditioner 1 to perform the heat storage operation. The suppression alleviation unit 24 searches for an overlapping time zone between the time zone data received from the suppression control unit 20 and the time zone data received from the heat storage operation schedule setting unit 8. Then, the suppression alleviating unit 24 does not transmit the suppression control command to the regenerative air conditioner 1 during the overlapping time zone.
[0037]
[Control form of the energy-saving control device 63 of the air conditioner]
Here, the control mode of the control device 63 shown in FIG. 10 will be described using the flowcharts shown in FIG. 11 and FIG. Here, FIG. 11 shows a flow of the initial setting of the control device 63. FIG. 12 shows a flow of control of the compressors 21a and 22a of the air conditioner group 2 by the control device 63.
[0038]
In the flowchart shown in FIG. 11, in step S18, the regenerative air conditioner identification unit 3 receives the identification code of the regenerative air conditioner 1 from the identification code storage unit 22b of the regenerative air conditioner 1. In step S19, the suppression control unit 20 sets a time period in which the operation frequencies of the compressors 21a and 22a of the air conditioner group 2 are controlled to be suppressed. In step S20, the heat storage operation schedule unit 8 sets a time zone in which the heat storage type air conditioner 1 is to perform the heat storage operation.
[0039]
In the flowchart shown in FIG. 12, in step S21, the suppression control unit 20 checks whether the time is within the suppression control time zone. As a result of the confirmation in step S21, if the time is not within the suppression control time zone, the suppression control unit 20 causes the air conditioner group 2 to operate normally in step S22. If the result of the check in step S21 indicates that the time falls within the suppression control time zone, the suppression control unit 20 controls the operation frequency of the compressor 21a of the non-thermal storage type air conditioner 5 in step S23. In step S24, the suppression alleviation unit 24 checks whether the time is in the heat storage operation time zone. If the result of the check in step S24 indicates that the time is in the heat storage operation time zone, in step S25, the suppression mitigation unit 24 causes the heat storage air conditioner 1 to perform normal operation. As a result of the confirmation in step S24, if the time is not within the heat storage operation time zone, the suppression control unit 20 controls the operation frequency of the compressor 22a of the heat storage air conditioner 1 in step S26.
[0040]
[Characteristics of control mode of energy saving control device 63 of air conditioner]
Here, the control device 63 includes, in addition to the conventional suppression control unit 20, the regenerative air conditioner identification unit 3, the heat storage operation schedule unit 8, and the suppression relaxation unit 24. The regenerative air conditioner identification unit 3 can detect the regenerative air conditioner 1 from the air conditioner group 2. The suppression alleviation unit 24 does not transmit a suppression control command to the heat storage air conditioner 1 when the suppression control time obtained from the suppression control unit 20 and the heat storage operation time zone obtained from the heat storage operation schedule unit 8 overlap. Is possible. For this reason, the control device 63 can cause the regenerative air conditioner 1 to perform a sufficient heat storage operation even during the time period in which the air conditioner group 2 is controlled to be suppressed. Further, when the regenerative air conditioner 1 is performing the air conditioning operation, the control device 63 transmits the suppression control command, so that a reduction in the energy saving effect can be prevented. Further, when the control device 63 sets a heat storage operation time zone, when the time zone and the suppression control time zone of the air conditioner group 2 overlap, the operation capability of the heat storage air conditioner 1 is automatically reduced. Therefore, the setting operator can simply set the heat storage operation time zone, and in that time zone, the operating capacity of the heat storage air conditioner 1 can be suppressed and relaxed.
[0041]
【The invention's effect】
In the energy saving control device for an air conditioner according to claim 1, the control device identifies the type of each air conditioner, and stores the heat storage type air conditioner during a time period in which the operation performance of the air conditioner group is suppressed and controlled. In the case where the air conditioner is operated, the control for suppressing the operation capacity of the regenerative air conditioner is relaxed. Therefore, even when the operation capacity of the air conditioner group is suppressed and controlled, the control device reduces the operation capacity of the heat storage type air conditioner when performing the heat storage operation of the heat storage type air conditioner, The air conditioner can perform sufficient heat storage operation. When the regenerative air conditioner is operated in the air conditioner, the control device does not relax the control for suppressing the operation capability of the regenerative air conditioner, so that the energy saving effect can be prevented from decreasing. it can.
[0042]
In the energy saving control apparatus for an air conditioner according to claim 2, the first suppression schedule means sets the suppression control time of the non-thermal storage type air conditioner. Then, the time zone in which the regenerative air conditioner is controlled to be suppressed by the second suppression schedule means coincides with the time zone in which the regenerative air conditioner is operated in air conditioning. Then, the heat storage type air conditioner 1 can perform the heat storage operation without receiving the suppression control in a time zone other than the time zone. As described above, since the control device is configured to independently set the suppression control time zone of the non-thermal storage type air conditioner and the thermal storage type air conditioner, the setting operator has the non-thermal storage type air conditioner and Optimum settings can be made for each regenerative air conditioner.
[0043]
In the energy saving control device for an air conditioner according to claim 3, the control device performs the heat storage type operation in a time period in which the time period for suppressing and controlling the operation performance of the air conditioner group and the time period set by the heat storage operation schedule means overlap. Relieve the control to suppress the operation capacity of the air conditioner. As described above, when the heat storage operation time zone is set, the control device automatically reduces the operation capacity of the heat storage air conditioner when the time zone and the suppression control time zone of the air conditioner group overlap. Therefore, by simply setting the heat storage operation time zone, the setting operator can suppress and relax the operation capability of the heat storage air conditioner in that time zone.
[0044]
In the energy-saving control device for an air conditioner according to claim 4, the control device stores heat when the operation mode of the regenerative air conditioner is a heat storage operation during a time period in which the operation performance of the air conditioner group is suppressed and controlled. Alleviates the suppression control of the operating capacity of the air conditioner.
As described above, since the suppression / mitigation means is configured to automatically react to the operation mode of the regenerative air conditioner, it is not necessary to set a schedule for the regenerative air conditioner. This is simpler than the control device described in item 3.
[0045]
In the energy saving control method for an air conditioner according to claim 5, in the identification step, the type of each air conditioner is identified. Then, in the suppression mitigation step, in the case where the regenerative air conditioner performs the heat storage operation during the time period in which the operation capacity of the air conditioner group is suppressed and controlled, the suppression control of the operation capacity of the regenerative air conditioner is relaxed.
Therefore, this control method, even when the operation capacity of the air conditioner group is controlled to suppress, if the regenerative air conditioner is to perform heat storage operation, the operating capacity of the regenerative air conditioner is reduced, A sufficient heat storage operation can be performed by the heat storage type air conditioner. When the regenerative air conditioner is operated in the air conditioner, the control for suppressing the operation capability of the regenerative air conditioner is not relaxed, so that the energy saving effect can be prevented from decreasing.
[0046]
In the energy-saving control system for an air conditioner according to claim 6, since the computer has a configuration in which the setting can be performed on the control device via the network, the setting operator can set the control device from a remote place. Can be applied.
Also, for example, even when there are a plurality of control devices to be set, if those control devices are connected to a computer via a network, the settings can be made on the computer side. Can be changed from one place.
[0047]
In the energy-saving control system for an air conditioner according to claim 7, for example, in the case of a cool night when a load is not applied to the air conditioner more than usual, the heat storage operation start time is advanced based on the information to increase the heat storage operation time. If the controller can be extended, the heat storage air conditioner can be operated with heat load with a lower load than usual, so that power consumption can be reduced, and sufficient heat storage operation for the heat storage air conditioner can be achieved. Can provide time.
[Brief description of the drawings]
FIG. 1 is a diagram showing a use mode, a structure, and a control mode of a conventional energy-saving control apparatus for an air conditioner.
FIG. 2 is a diagram showing a use mode, a structure, and a control mode of the energy saving control device for the air conditioner according to the first embodiment of the present invention.
FIG. 3 is a flowchart illustrating a flow of an initial setting according to the first embodiment;
FIG. 4 is a flowchart showing a flow of compressor control of the air conditioner group by the control device of the first embodiment.
FIG. 5 is an extended example of the energy-saving control device for an air conditioner according to the first embodiment.
FIG. 6 is a diagram showing a use mode, a structure, and a control mode of an energy saving control device for an air conditioner according to a second embodiment of the present invention.
FIG. 7 is a flowchart illustrating a flow of initial setting according to the second embodiment;
FIG. 8 is a flowchart showing a flow of control of a power consumption management unit of the non-thermal storage type air conditioner by the control device of the second embodiment.
FIG. 9 is a flowchart illustrating a flow of control of a power consumption management unit of the regenerative air conditioner by the control device of the second embodiment.
FIG. 10 is a diagram showing a use mode, a structure, and a control mode of an energy-saving control apparatus for an air conditioner according to a third embodiment of the present invention.
FIG. 11 is a flowchart illustrating a flow of an initial setting according to the third embodiment;
FIG. 12 is a flowchart showing a flow of compressor control of the air conditioner group by the control device of the third embodiment.
[Explanation of symbols]
1 Thermal storage type air conditioner
2 air conditioners
3. Thermal storage type air conditioner identification unit (thermal storage type air conditioner identification means)
4,23,24 Suppression mitigation part (suppression mitigation means)
5 Non-heat storage type air conditioner
6 1st suppression schedule part (1st suppression schedule means)
7 2nd suppression schedule part (2nd suppression schedule means)
8 Thermal storage operation schedule section (thermal storage operation schedule means)
9 Operation mode monitoring unit (operation mode monitoring means)
11 Computer (remote setting means)
12 Meteorological information collecting unit (meteorological information collecting means)
20 Suppression control unit
21 Non-storage type air conditioner outdoor unit
21a Compressor for non-heat storage type air conditioner
21d Power management unit of non-heat storage type air conditioner
22 Outdoor unit of regenerative air conditioner
22a Compressor for regenerative air conditioner
22b Storage unit for identification code of regenerative air conditioner
22c Operation mode switching unit of regenerative air conditioner
22d Power consumption management unit of regenerative air conditioner
25 Network
26 Remote Monitoring Center
61, 62, 63 Energy saving control device

Claims (7)

Energy saving of an air conditioner for suppressing energy consumption by suppressing the operating capacity of an air conditioner group (2) including a regenerative air conditioner (1) having at least two operation modes of an air conditioner operation and a heat storage operation A control device (61, 62, 63) for recognizing the regenerative air conditioner (1) based on information obtained from the regenerative air conditioner (1). 3) and
In the case where the regenerative air conditioner (1) is operated for heat storage during a time period in which the operating capacity of the air conditioner group (2) is suppressed and controlled, the control for suppressing the operating capacity of the regenerative air conditioner (1) is relaxed. (4, 23, 24)
An energy saving control device for an air conditioner (61, 62, 63) comprising: First suppression schedule means (6) for setting a time zone for suppressing and controlling the operation capacity of the non-thermal storage type air conditioner (5);
Second suppression schedule means (7) for setting a time zone for controlling the operation capability of the regenerative air conditioner (1);
The energy saving control device (62) for an air conditioner according to claim 1, further comprising: A heat storage operation schedule means (8) for setting a time zone in which the heat storage type air conditioner (1) is operated for heat storage;
The suppression alleviation means (24) performs the heat storage in a time zone in which a time zone for suppressing and controlling the operation performance of the air conditioner group (2) and a time zone set by the heat storage operation scheduling means (8) overlap. To reduce the control of the operation capacity of the air conditioner (1),
The energy saving control device (63) for an air conditioner according to claim 1. Operating mode monitoring means (9) for monitoring an operating mode of the regenerative air conditioner (1),
In the case where the operation mode of the regenerative air conditioner (1) is a heat storage operation, the suppression moderating means (4) is in a time zone in which the operation performance of the air conditioner group (2) is suppressed and controlled. Relaxes the control for suppressing the operation capability of the regenerative air conditioner (1);
The energy saving control device (61) for an air conditioner according to claim 1. Energy saving of an air conditioner for suppressing energy consumption by suppressing the operating capacity of an air conditioner group (2) including a regenerative air conditioner (1) having at least two operation modes of an air conditioner operation and a heat storage operation A control method,
A regenerative air conditioner identifying step of identifying the regenerative air conditioner (1) based on information obtained from the regenerative air conditioner (1);
In the case where the regenerative air conditioner (1) is operated for heat storage during a time period in which the operating capacity of the air conditioner group (2) is suppressed and controlled, the control for suppressing the operating capacity of the regenerative air conditioner (1) is relaxed. A suppression mitigation step to
An energy-saving control method for an air conditioner, comprising: Energy saving of an air conditioner for suppressing energy consumption by suppressing the operating capacity of an air conditioner group (2) including a regenerative air conditioner (1) having at least two operation modes of an air conditioner operation and a heat storage operation A control system,
A control device according to any one of claims 2 to 4,
Remote setting means (11) connected to the control device via a network (25);
With
The control device is set by the remote setting means (11) via a network (25).
Energy saving control system for air conditioners. Energy saving of an air conditioner for suppressing energy consumption by suppressing the operating capacity of an air conditioner group (2) including a regenerative air conditioner (1) having at least two operation modes of an air conditioner operation and a heat storage operation A control system,
A control device according to any one of claims 2 to 4,
Weather information collecting means (12) for collecting weather information;
With
The control device is set based on weather information collected by the weather information collecting means (12).
Energy saving control system for air conditioners.

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