JP3940848B2 - Interlocking control device, interlocking control system, and interlocking control method - Google Patents

Description

  The present invention relates to an interlock control device, an interlock control system, and an interlock control method.

Conventionally, an interlock control device that performs interlock control on a plurality of devices via a network has been proposed (see, for example, Patent Document 1).
JP-A-2005-110168 (page 1-29, FIG. 1-21)

However, in the technique of Patent Document 1, the operation of the interlocking destination is controlled when the condition relating to the start / stop state of the interlocking source in the interlocking control is met. As a result, the degree of freedom of the interlock control is limited, and it tends to be difficult to perform the interlock control while considering the efficiency.
An object of the present invention is to provide an interlock control device, an interlock control system, and an interlock control method capable of performing interlock control while considering efficiency.

The interlock control device according to the first aspect of the present invention is an interlock control device that performs interlock control over a plurality of devices via a network, and includes an interlock source input unit, an interlock condition input unit, and a first storage unit. The link source identification information is input to the link source input unit. The link source identification information is information for identifying a device that is a link source in the link control. The interlock condition is input to the interlock condition input section. The interlocking condition is a condition under which interlocking control is performed on a plurality of devices. The first storage unit stores first association information. The first association information is information in which the association source identification information and the association condition are associated with each other. The interlocking condition includes a condition related to either the number of starting / stopping devices or the starting / stopping ratio of the source device.
The interlock control device further includes an interlock destination input unit, an interlock operation input unit, a second storage unit, a third storage unit, and a control unit. Link destination identification information is input to the link destination input unit. The linkage destination identification information is information for identifying a device that is a linkage destination in the linkage control. The interlocking operation is input to the interlocking operation input unit. The interlocking operation is an interlocking destination operation in the interlocking control. The second storage unit stores second association information. The second association information is information in which the association destination identification information and the association operation are associated with each other. The third storage unit stores third association information. The third association information is information in which the linkage source identification information and the linkage destination identification information are associated with each other. When it is determined that the interlocking condition is established based on the first association information, the control unit causes the interlocking destination to perform an interlocking operation based on the second association information.
Further, in the interlock control device, the device as the interlock source includes an air conditioner. Equipment to be linked includes ventilation equipment. A control part stops a ventilation apparatus, when it is judged that either the operation | working number of air conditioning apparatuses and an operation ratio are more than a 1st threshold value.

  In this interlock control device, interlock source identification information is input to the interlock source input unit. The first storage unit can receive the link source identification information. The interlocking condition is input to the interlocking condition input part. The interlocking condition includes a condition related to either the number of starting / stopping devices or the starting / stopping ratio of the source device. The first storage unit can receive information on the interlocking condition. The first storage unit stores first association information. The first association information is information in which the association source identification information and the association condition are associated with each other. Based on this first association information, it is possible to determine whether or not the interlocking condition is satisfied with respect to either the number of starting / stopping devices or the starting / stopping ratio of the device that is to be interlocked.

Thereby, for example, when the number of operating devices (operating ratio) of the interlocking source is large, the operating device of the interlocking source can be improved by stopping the interlocking device. Alternatively, for example, when the number of operating devices (operating ratio) of the interlocking source is small, the energy consumption efficiency can be improved (energy saving) by limiting the capability of the interlocking device.
In this way, interlocking control can be performed while considering efficiency.
In this interlock control device, the control unit can receive the first association information. The control unit can determine whether the interlocking condition is satisfied based on the first association information. Also, the link destination identification information is input to the link destination input unit. The second storage unit can receive the link destination identification information. The interlocking operation is input to the interlocking operation input unit. The second storage unit can receive information on the interlocking operation. The second storage unit stores second association information. The second association information is information in which the association destination identification information and the association operation are associated with each other. The third storage unit can receive the link destination identification information. The third storage unit can also receive interlocking source identification information. The third storage unit stores third association information. The third association information is information in which the linkage source identification information and the linkage destination identification information are associated with each other. The control unit can further receive the second association information and the third association information. When it is determined that the interlocking condition is satisfied based on the first association information, the control unit causes the interlocking destination to perform an interlocking operation based on the second association information and the third association information.
Thereby, for example, when the number of operating devices (operating ratio) of the interlocking source is large, the operating device of the interlocking source can be improved by stopping the interlocking device. Alternatively, for example, when the number of operating devices (operating ratio) of the interlocking source is small, the energy consumption efficiency can be improved (energy saving) by limiting the capability of the interlocking device.
In this way, interlocking control can be performed while considering efficiency.
Furthermore, in this interlock control device, the device that is the interlock source includes an air conditioner. As a result, the interlocking condition can include a condition related to either the number of started / stopped air conditioners or the start / stop ratio. In addition, the device to be linked includes a ventilation device. Thereby, the start / stop operation of the ventilation device can be included in the interlocking operation.
The control unit can receive information on the start / stop state from the air conditioner via the network. The control unit can calculate either the number of operating air conditioners or the operating ratio. A control part stops a ventilation apparatus, when it is judged that either the operation | working number of air conditioning apparatuses and an operation ratio are more than a 1st threshold value.
As described above, when it is determined that either the number of operating units or the operating ratio of the air conditioning devices is equal to or greater than the first threshold and it is estimated that the difference between the set temperature of the air conditioning devices and the temperature of the target space is large, the air conditioning device The air conditioning efficiency can be improved.

The interlock control device according to the second aspect of the present invention is an interlock control device that performs interlock control over a plurality of devices via a network, and includes an interlock source input unit, an interlock condition input unit, and a first storage unit. The link source identification information is input to the link source input unit. The link source identification information is information for identifying a device that is a link source in the link control. The interlock condition is input to the interlock condition input section. The interlocking condition is a condition under which interlocking control is performed on a plurality of devices. The first storage unit stores first association information. The first association information is information in which the association source identification information and the association condition are associated with each other. The interlocking condition includes a condition related to either the number of starting / stopping devices or the starting / stopping ratio of the source device.
The interlock control device further includes an interlock destination input unit, an interlock operation input unit, a second storage unit, a third storage unit, and a control unit. Link destination identification information is input to the link destination input unit. The linkage destination identification information is information for identifying a device that is a linkage destination in the linkage control. The interlocking operation is input to the interlocking operation input unit. The interlocking operation is an interlocking destination operation in the interlocking control. The second storage unit stores second association information. The second association information is information in which the association destination identification information and the association operation are associated with each other. The third storage unit stores third association information. The third association information is information in which the linkage source identification information and the linkage destination identification information are associated with each other. When it is determined that the interlocking condition is established based on the first association information, the control unit causes the interlocking destination to perform an interlocking operation based on the second association information.
Furthermore, the device that is the link source includes a lighting device. The device to be linked includes an air conditioner. A control part restrict | limits the capacity | capacitance of an air conditioning apparatus, when it is judged that either the operation | working number of lighting apparatuses and an operation ratio are below a 2nd threshold value.

In this interlock control device, interlock source identification information is input to the interlock source input unit. The first storage unit can receive the link source identification information. The interlocking condition is input to the interlocking condition input part. The interlocking condition includes a condition related to either the number of starting / stopping devices or the starting / stopping ratio of the source device. The first storage unit can receive information on the interlocking condition. The first storage unit stores first association information. The first association information is information in which the association source identification information and the association condition are associated with each other. Based on this first association information, it is possible to determine whether or not the interlocking condition is satisfied with respect to either the number of starting / stopping devices or the starting / stopping ratio of the device that is to be interlocked.
Thereby, for example, when the number of operating devices (operating ratio) of the interlocking source is large, the operating device of the interlocking source can be improved by stopping the interlocking device. Alternatively, for example, when the number of operating devices (operating ratio) of the interlocking source is small, the energy consumption efficiency can be improved (energy saving) by limiting the capability of the interlocking device.
In this way, interlocking control can be performed while considering efficiency.
In this interlock control device, the control unit can receive the first association information. The control unit can determine whether the interlocking condition is satisfied based on the first association information. Also, the link destination identification information is input to the link destination input unit. The second storage unit can receive the link destination identification information. The interlocking operation is input to the interlocking operation input unit. The second storage unit can receive information on the interlocking operation. The second storage unit stores second association information. The second association information is information in which the association destination identification information and the association operation are associated with each other. The third storage unit can receive the link destination identification information. The third storage unit can also receive interlocking source identification information. The third storage unit stores third association information. The third association information is information in which the linkage source identification information and the linkage destination identification information are associated with each other. The control unit can further receive the second association information and the third association information. When it is determined that the interlocking condition is satisfied based on the first association information, the control unit causes the interlocking destination to perform an interlocking operation based on the second association information and the third association information.

Thereby, for example, when the number of operating devices (operating ratio) of the interlocking source is large, the operating device of the interlocking source can be improved by stopping the interlocking device. Alternatively, for example, when the number of operating devices (operating ratio) of the interlocking source is small, the energy consumption efficiency can be improved (energy saving) by limiting the capability of the interlocking device.
In this way, interlocking control can be performed while considering efficiency.
Furthermore, in this interlock control device, the device that is the interlock source includes a lighting device. Thereby, the interlocking conditions can include a condition related to either the number of starting / stopping lighting devices or the starting / stopping ratio. In addition, the device to be linked includes an air conditioner. Thereby, it can be made to include restrict | limiting the capability of an air-conditioning apparatus in interlocking operation.
The control unit can receive information on the start / stop state from the lighting device via the network. The control unit can calculate either the number of operating lighting devices or the operating ratio. A control part restrict | limits the capacity | capacitance of an air conditioning apparatus, when it is judged that either the operation | working number of lighting apparatuses and an operation ratio are below a 2nd threshold value.
As described above, when it is determined that either the number of operating lighting devices or the operating ratio is less than or equal to the second threshold and the number of people existing in the target space is estimated to be small, the energy consumption efficiency is improved (energy saving). Can).

The interlock control device according to a third aspect of the present invention is the interlock control device of the first aspect , wherein the device as the interlock source further includes a lighting device. The device to be linked further includes an air conditioner. A control part restrict | limits the capacity | capacitance of an air conditioning apparatus, when it is judged that either the operation | working number of lighting apparatuses and an operation ratio are below a 2nd threshold value.
In the interlock control device, the device that is the interlock source further includes a lighting device. Thereby, the interlocking conditions can include a condition related to either the number of starting / stopping lighting devices or the starting / stopping ratio. In addition, the device to be linked further includes an air conditioner. Thereby, limiting the capability of the air conditioning equipment can be further included in the interlocking operation.

The control unit can further receive information on the start / stop state from the lighting device via the network. The control unit can calculate either the number of operating lighting devices or the operating ratio. A control part restrict | limits the capacity | capacitance of an air conditioning apparatus, when it is judged that either the operation | working number of lighting apparatuses and an operation ratio are below a 2nd threshold value.
As described above, when it is determined that either the number of operating lighting devices or the operating ratio is less than or equal to the second threshold and the number of people existing in the target space is estimated to be small, the energy consumption efficiency is improved (energy saving). Can).
The interlock control device according to the fourth invention is the interlock control device of the first invention or the third invention, and the air conditioner is started and stopped by a command from the remote controller. A control part stops a ventilation apparatus, when it is judged that either the operation | use number of air-conditioning apparatuses and an operation ratio which start / stop according to operation of a remote control are more than a 1st threshold value.
Here, when the air conditioner is started and stopped by a command from the remote controller, the control unit determines that either the number of operating air conditioners or the operation ratio to be started or stopped according to the operation of the remote controller is equal to or greater than the first threshold. If so, it is possible to stop the ventilation equipment.
The interlock control device according to a fifth aspect of the present invention is the interlock control device of the first or third aspect, wherein the device that is the interlock source includes a plurality of air conditioning devices. The device to be linked includes one ventilation device. A control part stops one ventilation apparatus, when it is judged that either the operation number of several air-conditioning apparatus and an operation ratio are more than a 1st threshold value.
Here, the control unit can stop one ventilation device when it is determined that either the number of operating units or the operating ratio of the plurality of air conditioning devices is equal to or more than the first threshold value.

The interlock control system according to a sixth aspect of the present invention includes the interlock control device according to the first to fifth aspects of the present invention and a network. The network connects the interlock control device, the interlock source, and the interlock destination.
In this interlock control system, the network connects the interlock control device, the interlock source, and the interlock destination. When the interlock control device receives information from the interlock source via the network and determines that the interlock condition is satisfied, the interlock control device can cause the interlock destination to perform the interlock operation via the network.

As a result, for example, when the number of operating devices (operating ratio) of the interlocking source is large, the operating device of the interlocking source can be improved by stopping the interlocking device via the network. Alternatively, for example, when the number of operating devices (operating ratio) of the interlocking source is small, it is possible to limit the capability of the interlocking device via the network to improve energy consumption efficiency (to save energy).
In this way, interlocking control can be performed while considering efficiency.

  In this way, interlocking control can be performed while considering efficiency.

In the interlock control device according to the first aspect of the invention, the interlock control can be performed while considering the efficiency. In addition, when it is determined that either the number of operating air conditioners or the operation ratio is equal to or greater than the first threshold and the difference between the set temperature of the air conditioner and the temperature of the target space is estimated to be large, the air conditioning of the air conditioner is performed. Efficiency can be improved.
In the interlock control device according to the second aspect of the invention, the interlock control can be performed while considering the efficiency. In addition, when it is determined that either the number of operating lighting devices or the operating ratio is less than or equal to the second threshold value and it is estimated that the number of people existing in the target space is small, the energy consumption efficiency is improved (to save energy). be able to.
In the interlock control device according to the third aspect of the present invention, it is determined that either the number of operating air conditioners or the operating ratio is greater than or equal to the first threshold value, and the difference between the set temperature of the air conditioner and the temperature of the target space is estimated to be large. In this case, the air conditioning efficiency of the air conditioner can be improved. Furthermore, when it is determined that either the number of operating lighting devices or the operating ratio is less than or equal to the second threshold and the number of people existing in the target space is estimated to be small, the energy consumption efficiency is improved (to save energy). be able to.

In the interlock control device according to the fourth aspect of the invention, it is possible to stop the ventilation device when it is determined that either the number of operating units or the operating ratio of the air conditioning devices that start and stop according to the operation of the remote controller is equal to or greater than the first threshold value. It is.
In the interlock control device according to the fifth aspect of the present invention, it is possible to stop one ventilation device when it is determined that either the number of operating units or the operating ratio of the plurality of air conditioning devices is equal to or greater than the first threshold value.
In the interlocking control system according to the sixth aspect of the invention, interlocking control can be performed while considering efficiency.

<First Embodiment>
The block diagram of the interlocking control system which concerns on 1st Embodiment of this invention is shown in FIG.
(Schematic configuration of the interlock control system)
The interlock control system 1 mainly includes an interlock control device 30, a network 10, an indoor unit group 60 (61, 62,...) And a Ventiere 70.
The interlock control device 30 and the indoor unit group 60 (61, 62,...) Are connected by a network 10. The interlock control device 30 and the Ventiere 70 are also connected by the network 10.

(Schematic operation of the interlock control system)
The interlock control device 30 receives information from the indoor unit group 60 (61, 62,...) Via the network 10. The interlock control device 30 receives the information and stores it as necessary.
The interlock control device 30 transmits necessary information to the Ventiere 70 via the network 10.

(Detailed configuration of indoor units)
The indoor unit group 60 (61, 62,...) Includes an indoor unit 61, an indoor unit 62, an indoor unit 63, an indoor unit 64,. The indoor units 61 of the indoor unit group 60 are connected to each other via the network 10 and are also connected to the interlock control device 30 via the network 10.
In addition, each indoor unit 61 of the indoor unit group 60 is also connected to an outdoor unit (not shown) via the network 10.

(Detailed operation of indoor units)
Each indoor unit 61,... In the indoor unit group 60 is started and stopped by a command from a remote controller or the like. And each indoor unit 61 ... of the indoor unit group 60 transmits the identification information and the information of a start / stop state to the interlocking control apparatus 30 via the network 10. Here, the identification information is information for identifying the indoor units 61,.

(Detailed configuration of interlock control device)
As shown in FIG. 2, the interlock control device 30 mainly includes a transmission / reception unit 31, a control unit 32, a link source input unit 33, a link condition input unit 34, a link destination input unit 35, a link operation input unit 36, and a first memory. Unit 37, second storage unit 38, and third storage unit 39.
The transmission / reception unit 31 is connected to the network 10 and is also connected to the control unit 32. The interlock source input unit 33, the interlock condition input unit 34, the interlock destination input unit 35, the interlock operation input unit 36, the first storage unit 37, the second storage unit 38, and the third storage unit 39 are connected to the control unit 32. Yes.

(Detailed operation of the interlock control device)
The link source identification information is input to the link source input unit 33. Here, the link source identification information is information for identifying a device that is a link source in the link control. The first storage unit 37 receives the link source identification information from the link source input unit 33 via the control unit 32. The interlock condition is input to the interlock condition input unit 34 in association with the interlock source identification information. The interlocking condition is a condition under which interlocking control is performed on a plurality of devices, and includes a condition regarding the number of devices that are the source of interlocking. The first storage unit 37 receives the interlocking condition information from the interlocking condition input unit 34 via the control unit 32. The first storage unit 37 stores first association information 41. The first association information 41 is information in which the association source identification information and the association condition are associated with each other (see FIG. 3).

  Link destination identification information is input to the link destination input unit 35 in association with link source identification information. Here, the linkage destination identification information is information for identifying a device that is a linkage destination in the linkage control. The second storage unit 38 receives the link destination identification information from the link destination input unit 35 via the control unit 32. The interlocking operation input unit 36 receives the interlocking operation in association with the interlocking destination identification information. Here, the interlocking operation is an operation of the interlocking destination in the interlocking control. The second storage unit 38 receives information on the linked operation from the linked operation input unit 36 via the control unit 32. The second storage unit 38 stores second association information 42. The second association information 42 is information in which the interlocking destination identification information is associated with the interlocking operation (see FIG. 4).

The third storage unit 39 receives the link source identification information from the link source input unit 33 via the control unit 32, and receives the link destination identification information from the link destination input unit 35 via the control unit 32. The third storage unit 39 stores third association information 43. The third association information 43 is information in which the linkage source identification information and the linkage destination identification information are associated with each other (see FIG. 5).
The transmission / reception unit 31 receives the identification information and the information on the start / stop state from the indoor unit group 60 (61, 62,...) Via the network 10. The control unit 32 receives the identification information and the start / stop state information from the transmission / reception unit 31, and calculates the number of operating indoor units 61,... Based on the identification information and the start / stop state information. In addition, the control unit 32 receives the first association information 41 from the first storage unit 37 via the control unit 32. The control unit 32 determines whether the interlocking condition is satisfied based on the information on the number of operating indoor units 61,... And the first association information 41.

  The control unit 32 receives the second association information 42 from the second storage unit 38 and receives the third association information 43 from the third storage unit 39. When it is determined that the interlocking condition is established based on the identification information, the on / off state information, and the first association information 41, the control unit 32 is based on the second association information 42 and the third association information 43. To generate an instruction for causing the interlocking destination to perform the interlocking operation. The transmission / reception unit 31 transmits the information of the command to the Ventiere 70 that is the link destination via the network 10.

(Detailed configuration of Benthier)
The ventire 70 is a ventilation device. That is, the ventire 70 opens and closes the room and the outside to ventilate or stop ventilation.
In addition, the ventier 70 is connected to the interlock control device 30 via the network 10.

(Detailed operation of Bentiel)
The ventire 70 receives information on a command for causing the link destination to perform a link operation from the link control device 30 via the network 10. Based on the command, the ventier 70 opens and closes between the room and the outside to ventilate or stop ventilation.
(Detailed configuration of first association information)
The first association information 41 is information in which the association source identification information and the association condition are associated with each other. As shown in FIG. 3, the first association information 41 mainly includes a linkage source identification information column 411 and a linkage condition column 412. The link source identification information column 411 corresponds to the link source identification information, and the link condition column 412 corresponds to the link condition.

In the linkage source identification information column 411, linkage source identification information is recorded. The link source identification information is information for identifying a device that is a link source in the link control. In the interlocking condition column 412, interlocking conditions are recorded. The interlocking condition is a condition under which interlocking control is performed on a plurality of devices, and includes a condition regarding the number of devices that are the source of interlocking.
By referring to the first association information 41, it can be understood what linkage condition is applied to which linkage source. Specifically, by referring to the link source identification information column 411 and the link condition column 412, the link condition for the indoor units 61,.

For example, it can be seen that the interlock condition for “indoor unit 61”, “indoor unit 62”, “indoor unit 63”, and “indoor unit 64” is “two or more units ON”.
That is, by referring to the interlocking source identification information column 411 and the interlocking condition column 412, whether the interlocking condition is satisfied based on the information on the number of operating units of each indoor unit 61,. Can be judged.

(Detailed configuration of second association information)
The second association information 42 is information in which the association destination identification information and the association operation are associated with each other. As shown in FIG. 4, the second association information 42 mainly includes a linkage destination identification information column 421 and a linkage operation column 422. The link destination identification information column 421 corresponds to the link destination identification information, and the link operation column 422 corresponds to the link operation.

In the linkage destination identification information column 421, linkage destination identification information is recorded. The linkage destination identification information is information for identifying a device that is a linkage destination in the linkage control. An interlocking operation is recorded in the interlocking operation column 422. The interlocking operation is an interlocking destination operation in the interlocking control.
By referring to the second association information 42, it can be understood what interlocking operation is applied to which interlocking destination. Specifically, by referring to the interlocking destination identification information column 421 and the interlocking operation column 422, the interlocking operation for the indoor units 61,.

For example, it can be seen that the interlocking operation with respect to “Bentiel 70” is “stop”.
That is, by referring to the link destination identification information column 421 and the link operation column 422, the link operation to be performed when it is determined that the link condition is satisfied is specified.
(Detailed configuration of the third association information)
The third association information 43 is information in which the linkage source identification information and the linkage destination identification information are associated with each other. As shown in FIG. 5, the third association information 43 mainly includes a linkage source identification information column 431 and a linkage destination identification information column 432. The link source identification information column 431 corresponds to the link source identification information, and the link destination identification information column 432 corresponds to the link destination identification information.

In the linkage source identification information column 431, linkage source identification information is recorded. In the linkage destination identification information column 432, linkage destination identification information is recorded.
By referring to the third association information 43, it can be understood which interlocking destination is interlocked with respect to which interlocking source. Specifically, by referring to the link source identification information column 431 and the link destination identification information column 432, the link destination for the indoor units 61,.

For example, it can be seen that the interlocking destination for “indoor unit 61”, “indoor unit 62”, “indoor unit 63”, and “indoor unit 64” is “Bentiere 70”.
That is, by referring to the link source identification information column 431 and the link destination identification information column 432, the link destination when it is determined that the link condition is satisfied is specified.
(Processing flow in which the interlock control system performs interlock control over multiple devices via a network)
A flow of processing in which the interlock control system performs interlock control on a plurality of devices via a network will be described with reference to a flowchart shown in FIG.

In step S1, linkage source identification information is input. That is, the linkage source identification information is input to the linkage source input unit 33 of the linkage control device 30. Here, the link source identification information is information for identifying a device that is a link source in the link control. The first storage unit 37 receives the link source identification information from the link source input unit 33 via the control unit 32.
In step S2, an interlocking condition is input. That is, the interlock condition is input to the interlock condition input unit 34 of the interlock control device 30 in association with the interlock source identification information. The interlocking condition is a condition under which interlocking control is performed on a plurality of devices, and includes a condition regarding the number of devices that are the source of interlocking. The first storage unit 37 receives the interlocking condition information from the interlocking condition input unit 34 via the control unit 32. The first storage unit 37 stores first association information 41. The first association information is information in which the association source identification information and the association condition are associated with each other (see FIG. 3).

In step S3, linkage destination identification information is input. That is, the linkage destination identification information is input to the linkage destination input unit 35 of the linkage control device 30 in association with the linkage source identification information. Here, the linkage destination identification information is information for identifying a device that is a linkage destination in the linkage control. The second storage unit 38 receives the link destination identification information from the link destination input unit 35 via the control unit 32.
In step S4, an interlocking operation is input. That is, the linked operation is input to the linked operation input unit 36 of the linked control device 30 in association with the linked destination identification information. Here, the interlocking operation is an operation of the interlocking destination in the interlocking control. The second storage unit 38 receives information on the linked operation from the linked operation input unit 36 via the control unit 32. The second storage unit 38 stores second association information 42. The second association information 42 is information in which the interlocking destination identification information is associated with the interlocking operation (see FIG. 4).

The third storage unit 39 receives the link source identification information from the link source input unit 33 via the control unit 32, and receives the link destination identification information from the link destination input unit 35 via the control unit 32. The third storage unit 39 stores third association information 43. The third association information 43 is information in which the linkage source identification information and the linkage destination identification information are associated with each other (see FIG. 5).
In step S5, it is determined whether or not the interlocking condition is satisfied. That is, each indoor unit 61,... In the indoor unit group 60 is started and stopped by a command from a remote controller or the like. And each indoor unit 61 ... of the indoor unit group 60 transmits the identification information and the information of a start / stop state to the interlocking control apparatus 30 via the network 10. Here, the identification information is information for identifying the indoor units 61,.

  The transmission / reception unit 31 of the interlock control device 30 receives the identification information and the start / stop state information from the indoor unit group 60 (61, 62,...) Via the network 10. The control unit 32 receives the identification information and the on / off state information from the transmission / reception unit 31, and calculates the number of operating units based on the identification information and the on / off state information. In addition, the control unit 32 receives the first association information 41 from the first storage unit 37 via the control unit 32. Based on the identification information, the on / off state information, and the first association information 41, the control unit 32 determines whether the interlocking condition is satisfied. That is, by referring to the interlocking source identification information column 411 and the interlocking condition column 412, the indoor units 61,... Based on the information on the number of operating units of each indoor unit 61,. It is determined whether the number of operating units is equal to or greater than a first threshold (for example, two).

If it is determined that the interlocking condition is satisfied, the process proceeds to step S6. If it is determined that the interlocking condition is not satisfied, the process proceeds to step S5.
In step S6, an interlocking operation is performed. That is, the control unit 32 of the interlock control device 30 receives the second association information 42 from the second storage unit 38 via the control unit 32, and receives the third association information 43 from the third storage unit 39 via the control unit 32. receive. Based on the second association information 42 and the third association information 43, the control unit 32 generates a command for causing the interlocking destination to perform the interlocking operation. That is, by referring to the link destination identification information column 421 and the link operation column 422, the link operation to be performed when it is determined that the link condition is satisfied is specified. Further, by referring to the link source identification information column 431 and the link destination identification information column 432, the link destination when it is determined that the link condition is satisfied is specified. Then, information of a command for causing the specified interlocking destination to perform the interlocking operation is generated. The transmission / reception unit 31 transmits the information of the command to the Ventiere 70 that is the link destination via the network 10.

The ventire 70 receives information on a command for causing the link destination to perform a link operation from the link control device 30 via the network 10. Based on the command, the ventier 70 opens and closes between the room and the outside to ventilate or stop ventilation.
(Features related to the interlock control system)
(1)
Here, the link source identification information is input to the link source input unit 33 of the link control device 30. The first storage unit 37 receives the link source identification information from the link source input unit 33 via the control unit 32. The interlocking condition is input to the interlocking condition input unit 34. The interlocking condition includes a condition related to the number of starting and stopping devices that are interlocking sources. The first storage unit 37 receives the interlocking condition information from the interlocking condition input unit 34 via the control unit 32. The first storage unit 37 stores first association information 41. The first association information 41 is information in which the association source identification information and the association condition are associated with each other (see FIG. 3). Based on the first association information 41, it can be determined whether the interlocking condition is satisfied. The control unit 32 receives the first association information 41 from the first storage unit 37. Based on the first association information 41, the control unit 32 determines whether or not the interlocking condition is satisfied with respect to the number of starting and stopping devices that are interlocking sources.

  Further, the link destination identification information is input to the link destination input unit 35. The second storage unit 38 receives the link destination identification information from the link destination input unit 35 via the control unit 32. The interlocking operation is input to the interlocking operation input unit 36. The second storage unit 38 receives information on the linked operation from the linked operation input unit 36 via the control unit 32. The second storage unit 38 stores second association information 42. The second association information 42 is information in which the interlocking destination identification information is associated with the interlocking operation (see FIG. 4).

The third storage unit 39 receives the link source identification information from the link source input unit 33 via the control unit 32. The third storage unit 39 receives the link destination identification information from the link destination input unit 35 via the control unit 32. The third storage unit 39 stores third association information 43. The third association information 43 is information in which the linkage source identification information and the linkage destination identification information are associated with each other (see FIG. 5). The control unit 32 further receives the second association information 42 and the third association information 43. When determining that the interlocking condition is established based on the first association information 41, the control unit 32 causes the interlocking destination to perform an interlocking operation based on the second association information 42 and the third association information 43.
As a result, when the number of operating devices serving as the linkage source is large, the device serving as the linkage destination can be stopped, and the operating efficiency of the device serving as the linkage source can be improved. For this reason, interlocking control can be performed while considering efficiency.

(2)
Here, the devices that are the linkage sources include the indoor units 61,... Of the air conditioning system. Thereby, the conditions regarding the number of start and stop of the indoor units 61, ... are included in the interlocking conditions. In addition, the device that becomes the link destination includes the ventier 70. As a result, the interlocking operation includes the start / stop operation of the ventier 70.

The control unit 32 receives information on the start / stop state from the indoor units 61,. The control unit 32 calculates the number of operating indoor units 61,. When the control unit 32 determines that the operating number of the indoor units 61,... Is equal to or greater than the first threshold value, the control unit 32 stops the ventire 70. Here, the first threshold value is two, for example.
As described above, when the number of operating indoor units 61,... Is determined to be greater than or equal to the first threshold, and it is estimated that the difference between the set temperature of the indoor units 61,. The air conditioning efficiency of the indoor units 61, ... is improved.

(Modification of the first embodiment)
The interlocking condition may include a condition relating to the start / stop ratio of the interlocking source device, instead of including a condition regarding the number of starting / stopping units of the interlocking source device. That is, in the interlock condition column 412 of the first association information 41 stored in the first storage unit 37 of the interlock control device 30, a condition related to the start / stop ratio of the device that is the interlock source may be recorded. , “50% or more is ON” may be recorded. At this time, the control unit 32 calculates the operating ratio of the indoor units 61,. In addition, when the control unit 32 determines that the operation ratio of the indoor units 61,... Is equal to or greater than a first threshold value (for example, 50%), the control unit 32 stops the ventire 70.

Second Embodiment
The block diagram of the interlock control system which concerns on 2nd Embodiment of this invention is shown in FIG.
The interlock control system 100 has the same basic configuration as that of the first embodiment, but includes an interlock control device 130 instead of the interlock control device 30, and an indoor unit group 60 (61, 62,...). In that the lighting group 180 (181, 182,...) Is provided instead of the first embodiment, and the indoor unit group 160 (161, 162,...) Is provided in place of the Bentier 70. Different.

(Detailed configuration of interlock control device)
As shown in FIG. 8, the interlock control device 130 includes a control unit 132 instead of the control unit 32, a first storage unit 137 instead of the first storage unit 37, and a second storage unit 38 instead of the second storage unit 38. 2 storage unit 138, and a third storage unit 139 instead of the third storage unit 39.
Other points are the same as in the first embodiment.

(Detailed operation of the interlock control device)
The first storage unit 137 stores first association information 141. The first association information 141 is information in which the association source identification information and the association condition are associated with each other (see FIG. 9).
The second storage unit 138 stores second association information 142. The second association information 142 is information in which the association destination identification information and the association operation are associated with each other (see FIG. 10).

The third storage unit 139 stores third association information 143. The third association information 143 is information in which the association source identification information and the association destination identification information are associated with each other (see FIG. 11).
The transmission / reception unit 31 receives the identification information and the information on the start / stop state from the illumination group 180 (181, 182,...) Via the network 10. The control unit 132 receives the identification information and the on / off state information from the transmission / reception unit 31, and calculates the number of operating lights 181.

  The control unit 132 receives the second association information 142 from the second storage unit 138 and receives the third association information 143 from the third storage unit 139. When the control unit 132 determines that the interlocking condition is established based on the information on the number of operating lights 181,... And the first association information 141, that is, the number of operating lights 181,. When it is determined that the value is equal to or less than a threshold value (for example, two), a command for causing the interlocking destination to perform the interlocking operation is generated based on the second correlation information 142 and the third correlation information 143. The transmission / reception unit 31 transmits the information of the command to the indoor unit group 160 (161, 162,...) That is the link destination via the network 10.

(Features related to the interlock control system)
When determining that the interlocking condition is established based on the first association information 141, the control unit 132 causes the interlocking destination to perform an interlocking operation based on the second association information 142 and the third association information 143. Is the same as in the first embodiment. As a result, when the number of operating devices as the linkage source is small, the capability of the device as the linkage destination can be limited, and the energy consumption efficiency can be improved (energy saving). Therefore, even with such an interlock control system 100, interlock control can be performed while considering efficiency.

Moreover, the apparatus used as an interlocking | linkage contains illumination 181, .... Thereby, the conditions regarding the number of starting / stopping of the lights 181... Are included in the interlocking conditions. Moreover, the apparatus used as an interlocking destination contains the indoor units 161, ... of an air conditioning system. Thereby, limiting the capability of the indoor units 161,... Of the air conditioning system is included in the interlocking operation.
The control unit 132 of the interlock control device 130 receives information on the start / stop state from the lighting 181,. The control unit 132 calculates the number of operating lights 181. When the control unit 132 determines that the number of operating lights 181,... Is less than or equal to the second threshold, the control unit 132 limits the capacity of the indoor units 161,. Here, the second threshold value is two, for example.

  As described above, when it is determined that the number of operating lights 181,... Is less than or equal to the second threshold value and it is estimated that the number of persons existing in the room is small, the energy consumption efficiency is improved (energy saving is achieved). .

  The interlock control device, the interlock control system, and the interlock control method according to the present invention have the effect that the interlock control can be performed while considering efficiency, and are useful as the interlock control device, the interlock control system, the interlock control method, and the like. is there.

The block diagram of the interlocking control system which concerns on 1st Embodiment of this invention. The block diagram of the interlocking control apparatus in 1st Embodiment of this invention. The figure which shows the structure of 1st matching information. The figure which shows the structure of 2nd matching information. The figure which shows the structure of 3rd matching information. The flowchart which shows the flow of the process in which an interlocking control system performs interlocking control with respect to a some apparatus via a network. The block diagram of the interlocking control system which concerns on 2nd Embodiment of this invention. The block diagram of the interlocking control apparatus in 2nd Embodiment of this invention. The figure which shows the structure of 1st matching information. The figure which shows the structure of 2nd matching information. The figure which shows the structure of 3rd matching information.

Explanation of symbols

1,100 interlock control system 10 network 30 interlock control devices 32, 132 control unit 33 interlock source input unit 34 interlock condition input unit 35 interlock destination input unit 36 interlock operation input units 37, 137 first storage unit 38, 138 second storage Units 39, 139 Third storage unit 61, etc. Indoor unit 70, Ventiere 161, etc. Indoor unit 181, etc. Lighting

Claims (6)

An interlock control device (30) that performs interlock control over a plurality of devices (61, ..., 70, 181, ..., 161, ...) via the network (10),
A link source input unit (33) to which link source identification information, which is information for identifying the devices (61,..., 181,...) Serving as link sources in the link control, is input;
Interlocking condition input unit (34) to which an interlocking condition that is a condition for performing the interlocking control on the plurality of devices (61,..., 70, 181,... 161,...) Is input. )When,
A first storage unit (37, 137) for storing first association information that is information in which the interlocking source identification information and the interlocking condition are associated with each other;
With
The interlocking condition, see contains the conditions for any of the chronograph coupling number and start-stop ratio of the device serving as the linkage source (61, ..., 181, ...),
A linkage destination input unit (35) to which linkage destination identification information that is information for identifying the device (70, 161,...) That is a linkage destination in the linkage control is input;
An interlock operation input unit (36) to which an interlock operation that is the operation of the interlock destination in the interlock control is input;
A second storage unit (38, 138) that stores second association information that is information in which the linkage destination identification information and the linkage operation are associated with each other;
A third storage unit (39, 139) for storing third association information that is information in which the linkage source identification information and the linkage destination identification information are associated with each other;
When determining that the interlocking condition is satisfied based on the first association information, a control unit that causes the interlocking destination to perform the interlocking operation based on the second association information and the third association information ( 32, 132)
Further comprising
The device (61,...) Serving as the interlock source includes an air conditioner,
The device (70) to be linked to includes a ventilation device,
The control unit (32, 132) stops the ventilation device when it is determined that either the number of operating units or the operating ratio of the air conditioning devices is equal to or greater than a first threshold.
Interlocking control device (30).   An interlock control device (30) that performs interlock control over a plurality of devices (61, ..., 70, 181, ..., 161, ...) via the network (10),
  A link source input unit (33) to which link source identification information, which is information for identifying the devices (61,..., 181,...) Serving as link sources in the link control, is input;
  Interlocking condition input unit (34) to which an interlocking condition that is a condition for performing the interlocking control on the plurality of devices (61,..., 70, 181,... 161,...) Is input. )When,
  A first storage unit (37, 137) for storing first association information that is information in which the interlocking source identification information and the interlocking condition are associated with each other;
With
  The interlocking condition includes a condition relating to any of the number of start / stop devices and start / stop ratios of the devices (61,.
  A linkage destination input unit (35) to which linkage destination identification information that is information for identifying the device (70, 161,...) That is a linkage destination in the linkage control is input;
  An interlock operation input unit (36) to which an interlock operation that is the operation of the interlock destination in the interlock control is input;
  A second storage unit (38, 138) that stores second association information that is information in which the linkage destination identification information and the linkage operation are associated with each other;
  A third storage unit (39, 139) for storing third association information that is information in which the linkage source identification information and the linkage destination identification information are associated with each other;
  When determining that the interlocking condition is satisfied based on the first association information, a control unit that causes the interlocking destination to perform the interlocking operation based on the second association information and the third association information ( 32, 132)
Further comprising
  The device (181,...) That is the linkage source includes a lighting device,
  The device (161,...) That is the linkage destination includes an air conditioner,
  The control unit (32, 132) limits the capacity of the air conditioning device when it is determined that either the number of operating devices or the operating ratio of the lighting devices is equal to or less than a second threshold value.
Interlocking control device (30).   The device (181,...) That is the linkage source further includes a lighting device,
  The device (161,...) That is the linkage destination further includes an air conditioner,
  The control unit (32, 132) further restricts the capacity of the air conditioner when it is determined that either the number of operating devices or the operating ratio of the lighting devices is equal to or less than a second threshold.
The interlock control device (30) according to claim 1.   The air conditioner is started and stopped by a command from a remote controller,
  The control unit (32, 132) stops the ventilation device when it is determined that either the number of operating units or the operating ratio of the air conditioning devices that start and stop according to the operation of the remote controller is equal to or greater than a first threshold value. ,
The interlock control device (30) according to claim 1 or 3.   The device (61,...) Serving as the linkage source includes a plurality of air conditioning devices,
  The device (70) to be linked to includes one ventilation device,
  When the control unit (32, 132) determines that any of the number of operating units and the operating ratio of the plurality of air conditioners is equal to or higher than the first threshold, the one ventilation device is stopped.
The interlock control device (30) according to claim 1 or 3. The interlock control device (30) according to any one of claims 1 to 5 ,
A network (10) connecting the interlock control device (30), the interlock source, and the interlock destination;
With
Interlocking control system.

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