WO2015083359A1 - Operation control device, cooling/heating control system, and regional cooling/heating control system - Google Patents

Abstract

In order to control the operation of a cooling/heating device disposed in a predetermined region in accordance with the power use conditions in the region, this operation control device (305) is connected to a network (400), controls the operation of at least one cooling/heating device (100), associates the cooling/heating device (100) to a sensor (200) that acquires information of the space in which the cooling/heating device (100) is disposed and records the result, acquires operation information pertaining to the operation of the cooling/heating device (100), sensor information acquired by the sensor (200), and power limit information limiting the operation of the cooling/heating device (100) in accordance with the power use conditions, and on the basis of the information, controls the operation of the cooling/heating device (100) including power temperature control that controls the temperature of a space in accordance with the power use conditions.

Description

Operation control device, air conditioning control system, and district air conditioning control system

The present invention relates to an operation control apparatus and an air conditioning control system that control the operation of an air conditioning apparatus, and more particularly to an operation control system for an air conditioning apparatus that responds to local power usage.

冷 Air conditioning units such as air conditioners automatically adjust the room temperature according to the settings.

Furthermore, Patent Document 1 discloses an air conditioning environment adjustment system and an air conditioning environment adjustment method that acquire weather data through a network and automatically adjust indoor temperature and humidity.

Patent Document 1 acquires one of measured weather data or weather forecast information based on the weather data through a network, and adjusts the air-conditioning environment based on the acquired information and the measured indoor temperature and humidity. Means are disclosed.

JP 2013-140523 A

In general, an air-conditioning apparatus such as an air conditioner has a limited operating time period, such as summer daytime in Japan or winter nighttime. In particular, during summer daytime (peak hours) when many air conditioners are in operation, there is a risk that the amount of power used may exceed the amount supplied, and power companies have called for power saving through the media based on weather forecast information.

However, it is unclear how much power the user should save individually, and even if cooperating with power saving, the usage amount could exceed the supply amount, resulting in a large-scale power outage.

Patent Document 1 acquires weather data through a network and can optimally adjust the indoor air-conditioning environment individually, but cannot adjust the air-conditioning environment according to the local power usage.

In view of these, an object of the present invention is to provide an operation control device, an air conditioning control system, and a district air conditioning control system capable of controlling the operation of an air conditioning device installed in the area according to the power usage situation in a predetermined area. Is to provide.

The operation control device of the present invention is connected to a network, controls the operation of one or more air-conditioning devices, stores the air-conditioning device and a sensor that acquires information about a space in which the air-conditioning device is installed, and stores the information, The operation information regarding the operation of the air conditioner, the sensor information acquired by the sensor, and the power restriction information for restricting the operation of the air conditioner according to the power usage status are obtained, and based on these information, the temperature of the space is determined. An operation control unit is provided that controls the operation of the air conditioning apparatus including power temperature control that is controlled according to the power usage state.

The air-conditioning control system of the present invention is connected to a network, controls operation of one or more air-conditioning apparatuses, stores the air-conditioning apparatus and a sensor that acquires information about a space in which the air-conditioning apparatus is installed, and stores the information The operation information regarding the operation of the air conditioner, the sensor information acquired by the sensor, and the power restriction information for restricting the operation of the air conditioner according to the power usage status are obtained, and based on these information, the temperature of the space is determined. An operation control device including an operation control unit that controls the operation of the air-conditioning apparatus including power temperature control that is controlled according to the power usage state, a temperature sensor for each space in which the air-conditioning apparatus is installed, or A sensor including at least one of the human sensor.

The district heating / cooling control system of the present invention is a district heating / cooling control system that controls the operation of an air conditioning apparatus installed in a predetermined area, is connected to a network, stores power limit information, and the power limit information is transmitted through the network. A power restriction information providing device that provides the operation control device and a plurality of networks connected to the network, controlling the operation of one or more air conditioning devices, and acquiring information on the space in which the air conditioning device and the air conditioning device are installed The sensor is stored in association with each other, the operation information regarding the operation of the air conditioning apparatus, the sensor information acquired by the sensor, and the power restriction information for restricting the operation of the air conditioning apparatus according to the power usage state are acquired, and these information On the basis of the electric power temperature control for controlling the temperature of the space according to the power usage state. Comprising a driving control device including a driving control unit, and the operation control device for each of the air conditioning apparatus, for each space where the air conditioner is installed, a sensor including at least one of a temperature sensor or motion sensor, a to.

According to the present invention, it is possible to control the operation of the air conditioner installed in the area according to the power usage situation in the predetermined area.

It is a figure which shows the structural example of an air conditioning control system. 3 is a diagram illustrating a configuration example of an operation control apparatus 300. FIG. It is a figure which shows the example of the data memorize | stored in the memory | storage part. 4 is a flowchart illustrating a processing example of an operation control unit 305. It is a figure which shows the example of an electric power control temperature limit. It is a figure which shows the example of an electric power control temperature limit. It is a figure which shows the structural example of an air conditioning control system. 3 is a diagram illustrating a configuration example of an operation control apparatus 300. FIG. It is a figure which shows the example of the data memorize | stored in the memory | storage part. 4 is a flowchart illustrating a processing example of an operation control unit 305. 3 is a diagram illustrating a configuration example of an operation control apparatus 300. FIG. It is a figure which shows the example of the data memorize | stored in the memory | storage part. 4 is a flowchart illustrating a processing example of an operation control unit 305. 4 is a flowchart illustrating a processing example of an operation control unit 305. It is a figure which shows the structural example of a district cooling / heating control system. It is a figure which shows the structural example of a district cooling / heating control system.

Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. However, the embodiments described below have technically preferable limitations for carrying out the present invention, but do not limit the scope of the invention.

FIG. 1 is a diagram showing a configuration example of an air conditioning control system according to a first embodiment of the present invention.

The air conditioning control system 10 according to the present embodiment includes an air conditioning apparatus 100, a sensor terminal 200 that acquires information on the space A (A1 to An) in which the air conditioning apparatus 100 is installed, and an operation control that controls the operation of the air conditioning apparatus 100. The apparatus 300 is comprised.

The air conditioner 100 is an electric air conditioner such as an air conditioner, and controls the temperature of the space A so as to be a predetermined temperature. One or more air conditioners 100 can be installed in one space A according to the size and shape of the space A.

The sensor terminal 200 is a terminal including one or more sensors such as a temperature sensor that measures temperature and a human sensor that detects the location of a person. The sensor terminal 200 can be a sensor terminal (200A) in which only one type of sensor is arranged in one space A, or a sensor terminal (200B) in which a plurality of types of sensors are arranged. Moreover, according to the magnitude | size, shape, etc. of space A, one or more sensor terminals can be installed with respect to one space A, and it is not limited to the combination of a kind and quantity. Furthermore, some or all of the sensors can be arranged in the cooling / heating device 100 or the operation control device 300.

The operation control apparatus 300 is an apparatus that is connected to a network, acquires information through the network, acquires information from the air conditioning apparatus 100 and the sensor terminal 200, and controls the operation of the air conditioning apparatus 100 based on the acquired information. . The operation control device 300 can be built in the cooling / heating device 100 or can be externally attached by wire. In addition, the air conditioner 100 includes a communication port such as a LAN (Local Area Network) and a wireless terminal with a USB (Universal Serial Bus) connector, and the operation control device 300 is configured with a personal computer, an HGW (Home Gateway), and the like. Can do. For example, by installing a control program for the air conditioner 100, a personal computer, an HGW, or the like can control the air conditioner 100 through a network. Further, by attaching a wireless terminal with a USB connector to the USB port, a personal computer, an HGW, or the like can control the air conditioning apparatus 100 via the wireless terminal. Similarly, the sensor terminal 200 includes a USB connector, an antenna, a LAN communication port, and the like, so that a personal computer, an HGW, and the like can acquire data from the sensor terminal 200 through a wired, wireless, or network.

Details of the operation control device 300 will be described.

FIG. 2 is a diagram illustrating a configuration example of the operation control apparatus 300.

This apparatus includes a communication port 301, a sensor IF unit 302, a cooling / heating IF unit 303, a storage unit 304, and an operation control unit 305 for controlling them.

The communication port 301 is an interface unit with the network.

The sensor IF unit 302 is an interface unit with various sensors.

The cooling / heating IF unit 303 is an interface unit with the cooling / heating device 100.

The storage unit 304 is a memory or the like, and is a part that stores a control program of the air conditioning apparatus 100, acquired information, and the like. For example, as shown in FIG. 3, the storage unit 304 stores the air conditioning apparatus 100, a space restriction code that restricts the operation of the air conditioning apparatus 100 according to the space A, the sensor terminal 200, and the like.

The operation control unit 305 is a part that controls the air conditioning apparatus 100 and the operation control apparatus 300, and includes a sensor information acquisition unit 3051, an operation information acquisition unit 3052, a power restriction information acquisition unit 3053, and a sensor operation start unit 3054. Have

Sensor information acquisition unit 3051 is a unit that acquires sensor information acquired by a human sensor or a temperature sensor from each sensor terminal 200 and stores it in the storage unit 304.

The operation information acquisition unit 3052 is a unit that acquires operation information related to the operation of the air conditioner 100 from the air conditioner 100 and stores it in the storage unit 304.

The power limitation information acquisition unit 3053 is a unit that acquires, through the network, power limitation information for limiting the operation of the cooling and heating apparatus according to the power usage state such as a power usage rate and a power usage amount, and stores the power limitation information in the storage unit 304. .

Sensor operation start means 3054 is a means for instructing the air conditioning apparatus 100 to start operation, for example, to turn on the operation switch, when the sensor measurement temperature measured by the temperature sensor reaches the operation start temperature. The operation start temperature is stored in the storage unit 304 in association with the air conditioner 100, and an example thereof is shown in FIG.

The operation of the air conditioning control system according to this embodiment will be described. It is an example of the control of the driving | operation start by the sensor with respect to the air conditioning apparatus 100, and the control during driving | operation. The description of this operation is targeted for the case where the sensor terminal 200 includes only the temperature sensor.

FIG. 4 is a flowchart showing a processing example in the operation control unit 305.

The operation control unit 305 repeats this process in a predetermined cycle (time interval). The predetermined period is stored in the storage unit 304.

The operation control unit 305 acquires sensor information acquired by the sensor from the sensor and stores it in the storage unit 304 during a predetermined period, that is, from the previous process to the current process. Here, the sensor measurement temperature measured by the temperature sensor is stored in the storage unit 304. The sensor measured temperature can store the maximum temperature (summer) or the minimum temperature (winter) in a predetermined cycle.

When the timing set in the above-mentioned cycle comes, the operation control unit 305 acquires operation information related to the operation of the air conditioning device 100 from the air conditioning device 100 and confirms it (S11). The operation information here includes at least an operation status indicating whether the air conditioning apparatus 100 is operating or stopped, and a space control temperature that is a target for the operating air conditioning apparatus 100 to control the space A to a predetermined temperature. It is out. The space control temperature indicates the range of the target temperature of the space.

The operation control unit 305 confirms whether the air conditioning apparatus 100 is operating or stopped (S12), and if it is stopped, the operation control unit 305 confirms whether the sensor measurement temperature satisfies the operation start temperature. (S13) If satisfied, the air conditioning apparatus 100 is instructed to start operation (S14). The sensor measured temperature can be obtained from the temperature sensor when determining.

If the cooling / heating apparatus 100 is in operation, the operation control unit 305 acquires power restriction information through the network (S15). The power limit information includes a power control temperature limit, and an example thereof is shown in FIG. In addition, the operation control unit 305 acquires the latest power usage status together with the power control temperature limit shown in FIG. 6, and the operation control unit 305 sets the power control temperature limit according to the latest power usage status and the space restriction code. Judgment can be made.

The operation control unit 305 determines whether the space control temperature is within the power control temperature limit range or not (S16). If the space control temperature is out of the power control temperature limit range, the operation control unit 305 is within the power control temperature limit range. The air conditioning apparatus 100 is instructed to change the space control temperature (S17). Note that the space control temperature to be changed is stored in the storage unit 304. Further, the space control temperature to be changed can be acquired through a network and stored in the storage unit 304.

As described above, according to the present embodiment, the power restriction information can be acquired through the network, and the operation of the air conditioner can be restricted accordingly.

Next, a second embodiment will be described.

FIG. 7 is a diagram showing a configuration example of an air conditioning control system according to the embodiment of the present invention.

The difference from the first embodiment is that a human sensor is added.

FIG. 8 is a diagram illustrating a configuration example of the operation control apparatus 300.

The difference from the first embodiment is that a sensor operation stop means 3055 is added to the operation control unit 305.

The sensor operation stop means 3055 stops the operation of the air conditioning apparatus 100 when the human sensor installed in the space A targeted by the operating air conditioning apparatus 100 does not detect the location of the person, for example, the operation switch OFF. (Off). If the operation stop setting is valid, the operation is stopped. As shown in FIG. 9, whether this setting is valid or invalid is stored in the storage unit 304 in association with the cooling / heating device 100.

The operation of the air conditioning control system according to this embodiment will be described.

Compared to the first embodiment, in this embodiment, control for stopping the operation of the cooling / heating apparatus 100 is added.

FIG. 10 is a flowchart showing an example of processing in the operation control unit 305.

The difference from the first embodiment is that a broken line SA (steps S21 to S23) is added.

As in the first embodiment, the operation control unit 305 acquires sensor information acquired by the sensor from the sensor and stores it in the storage unit 304 during a predetermined period. Here, further, human detection information for the human sensor to detect the location of the person is stored in the storage unit 304. The person detection information is, for example, a person detection flag indicating that the person has been detected. When the human sensor detects the presence of a person during a predetermined period, the operation control unit 305 sets a human detection flag. The operation control unit 305 resets the human detection flag after instructing operation stop or obtaining the power control temperature information.

As in the first embodiment, the operation control unit 305 acquires and confirms operation information from the air conditioner 100 when a predetermined period is reached, and confirms whether the air conditioner 100 is operating or stopped.

The operation control unit 305 confirms the presence / absence of human detection information during a predetermined period if the air conditioning apparatus 100 is in operation (S21).

If there is no person detection information, the operation control unit 305 confirms whether the operation stop setting is valid or invalid (S22), and if valid, instructs the cooling / heating device 100 to stop the operation (S23). The operation stop setting becomes valid in S22 in the following two cases. One is a case where the absence of human detection information is counted and stored, and a predetermined number of times is reached. The other is a case where the time at which the sensor information is acquired is stored, and a predetermined time has passed since the time when there is no human detection information.

If there is human detection information (Y in S21), the operation control unit 305 acquires the power control temperature limit through the network (S15) as in the first embodiment, and the space control temperature is within the range of the power control temperature limit. Judge whether in or out of range. If it is outside the range of the power control temperature limit, the air conditioning apparatus 100 is instructed to change the space control temperature so as to be within the range of the power control temperature limit (S17).

As described above, according to the present embodiment, in addition to the effect of the first embodiment, there is also an effect that it is possible to stop the operation of the air conditioner when there is no person.

Next, a third embodiment will be described.

FIG. 11 is a diagram illustrating a configuration example of the operation control apparatus 300 according to the present embodiment.

The difference from the first embodiment is that a timer operation start means 3056 is further added to the operation control unit 305.

The timer operation start means 3056 is a means for instructing the air conditioner 100 to start operation when a preset operation start time elapses or the operation start time comes. As illustrated in FIG. 12, the timer setting is stored in the storage unit 304 in association with the air conditioning apparatus 100. Here, the setting of the operation start time means, for example, a setting for starting the operation one hour after the current time (1:00:00), like the air conditioner 100A of FIG.

The operation of the air conditioning control system according to this embodiment will be described.

In this embodiment, control of the operation start by the timer for the air conditioning apparatus 100 is added.

FIG. 13 is a flowchart showing an example of processing in the operation control unit 305.

The difference from the second embodiment is that broken lines SB (steps S31 and S32) and SC (steps S33 and S34) are added.

The broken line part SB (steps S31 and S32) will be described.

As in the first and second embodiments, when the operation control unit 305 reaches a predetermined period, the operation information is acquired from the air conditioner 100 and confirmed, and it is confirmed whether the air conditioner 100 is operating or stopped.

If the air conditioner 100 is stopped, the operation control unit 305 checks whether or not the operation start time (or operation start time) has elapsed (S31), and if it has elapsed, the operation stop setting is invalidated. In step S32, the air conditioning apparatus 100 is instructed to start operation. If not, the operation control unit 305 confirms whether or not the sensor measurement temperature satisfies the operation start temperature (S13) as in the first embodiment. The start is instructed (S14).

The broken line portion SC (steps S33 and S34) will be described.

As in the second embodiment, the operation control unit 305 confirms the presence / absence of the human detection information if the air conditioner 100 is in operation.

If there is human detection information, the operation control unit 305 checks whether the operation stop setting is valid or invalid (S33), and if invalid, the operation stop setting is validated (S34). If it is valid, the power restriction information is acquired (S15).

As in the first and second embodiments, the operation control unit 305 acquires the power control temperature limit through the network, and determines whether the space control temperature is within or outside the power control temperature limit range. If it is outside the range of the power control temperature limit, the air conditioning apparatus 100 is instructed to change the space control temperature so as to be within the range of the power control temperature limit.

Here, the timer operation start means 3056 can be provided not in the operation control unit 305 but in the air conditioning apparatus 100, and a flowchart in this case is shown in FIG.

A dashed line SD (steps S41 to S43) is added to the first and second embodiments, and the operation information further includes an operation start time (or operation start time) compared to the first and second embodiments. Contains.

The cooling and heating apparatus 100 stores the operation start time (or operation start time), and starts operation by the timer operation start means 3056 when a preset operation start time (or operation start time) has elapsed.

Operation control part 305 will acquire operation information from air-conditioning equipment 100, and will judge the existence of timer setting by the existence of operation start time (or operation start time), when it becomes a predetermined cycle (S41). If there is a timer setting, it is checked whether or not the operation start time (or operation start time) has elapsed (S42), and if it has elapsed, the operation stop setting is invalidated (S43).

As described above, according to the present embodiment, in addition to the effects of the first and second embodiments, air conditioning can be performed only during the time zone set by the timer, and operation is not performed during the time zone where cooling / heating is unnecessary. It has the effect that it can be made.

Next, a fourth embodiment will be described.

FIG. 15 is a diagram showing a configuration example of the district heating / cooling control system according to the embodiment of the present invention.

This is an example in which the air conditioning control system 10 according to the first to third embodiments is expanded to a predetermined area.

The district air conditioning control system according to the present embodiment includes a plurality of air conditioning control systems 10, a network 400, and a power restriction information providing apparatus 500 that provides power restriction information through the network 400.

The network 400 is a LAN (Local Area Network) in the home or company, the Internet, or a combination thereof.

The power restriction information providing apparatus 500 is a server or the like connected to the network 400 and is managed by an electric power company or the like, and at least a power control temperature limit is given to the operation control apparatus 300 through the network 400 according to the power usage situation in the area. Means to provide for. Moreover, the power control temperature limit can be stored for each operation control device, and a different power control temperature limit can be provided for each operation control device.

As described above, according to the present embodiment, the power restriction information is acquired through the network according to the power usage state of the predetermined area, and the operation of the air conditioning apparatus is restricted to the predetermined area based on the power restriction information. Can do.

Next, a fifth embodiment will be described.

FIG. 16 is a diagram illustrating a configuration example of a regional air conditioning control system according to the fifth embodiment.

This embodiment is an application example of the fourth embodiment, and is an example of managing a plurality of power limit information providing apparatuses 500.

For example, it can be assumed that a power limit information providing apparatus 500 is installed in a condominium with a condominium of a predetermined number or more as one area, and a power company or the like manages the power limit information management apparatus 700. The electric power company provides the power control temperature limit to the power restriction information providing device 500 through the network 400 and further to the operation control device 300 through the network 600 (600A to 600x) in the apartment according to the power usage situation in the area. Can be considered.

The network 400 can be a dedicated network between the power limit information providing apparatus 500 and the power limit information management apparatus 700.

The network 600 is a network in a condominium or the like, and is a network having a narrower range than the network 400.

The power limitation information management device 700 is a server or the like connected to the network 600, and has means for providing a power control temperature limit to the plurality of power limitation information providing devices 500 (500A to 500x).

As described above, according to the present embodiment, in addition to the effects of the fifth embodiment, the operation of the air conditioning apparatus in the area is controlled in consideration of the power restriction information based on the power usage situation in a wider area. Can do.

The present invention has been described above using the above-described embodiment as an exemplary example. However, the present invention is not limited to the above-described embodiment. That is, the present invention can apply various modes that can be understood by those skilled in the art within the scope of the present invention.

This application claims priority based on Japanese Patent Application No. 2013-248971 filed on December 2, 2013, the entire disclosure of which is incorporated herein.

DESCRIPTION OF SYMBOLS 10 Air conditioning control system 100 Air conditioning apparatus 200 Sensor terminal 300 Operation control apparatus 301 Communication port 302 Sensor IF part 303 Cooling / heating IF part 304 Memory | storage part 305 Operation control part 400 Network 500 Power restriction information provision apparatus 600 Network 700 Power restriction information management apparatus

Claims (10)

1. An operation control device that is connected to a network and controls the operation of one or more air conditioning units,
   Storing the air conditioner and the sensor for acquiring information of the space in which the air conditioner is installed in association with each other;
   The operation information related to the operation of the air conditioning apparatus, the sensor information acquired by the sensor, and the power restriction information that restricts the operation of the air conditioning apparatus according to the power usage status are acquired, and based on these information, the temperature of the space A driving | operation control apparatus provided with the driving | operation control part which controls the driving | operation of the said air conditioning apparatus containing the electric power temperature control which controls this according to the said electric power usage condition.
2. The operation information includes a space control temperature at which the air conditioner in operation controls the space to a predetermined temperature,
   The power restriction information includes a power control temperature limit that is a limit of the space control temperature according to the power usage state,
   The operation control unit confirms the operation information and the power restriction information in a fixed period, and the power control is performed when the space control temperature is out of a range of the power control temperature limit according to the power usage state. The operation control device according to claim 1, wherein the air conditioning device is instructed to change the space control temperature so as to be within a temperature limit range.
3. Further, a space restriction code for restricting the operation of the air conditioner according to the space is stored in association with the air conditioner,
   The operation control device according to claim 2, wherein the power control temperature limit is different for each of the air conditioning units based on the space restriction code.
4. The operation information further includes an operation status indicating whether the air conditioner is operating or stopped,
   The sensor information includes a sensor measurement temperature measured by a temperature sensor,
   Further, an operation start temperature for instructing the air conditioner to start operation is stored in association with the air conditioner, and the operation control unit is stopped when the sensor measurement temperature reaches the operation start temperature. The operation control device according to any one of claims 1 to 3, wherein an operation start is instructed to the operation.
5. The sensor information further includes human detection information indicating that the human sensor has detected the location of the person,
   Further, when there is no human detection information, the operation stop setting for instructing operation stop to the air conditioner in operation is stored in association with the air conditioner,
   The said operation control part instruct | indicates an operation stop with respect to the said air-conditioning apparatus, when the said person detection information does not exist and the said operation stop setting is effective. The operation control device described.
6. Further, the operation start time or operation start time for instructing the air conditioning device to start operation is stored in association with the air conditioning device,
   The said operation control part instruct | indicates an operation start with respect to the said air-conditioning apparatus which has stopped, if the said operation start time or the said operation start time passes. Operation control device.
7. The operation control device according to any one of claims 1 to 6,
   A sensor including at least one of a temperature sensor or a human sensor for each space in which the air conditioner is installed, and one or more air conditioners;
   An air conditioning control system that controls the operation of the air conditioning apparatus.
8. A district heating / cooling control system for controlling operation of one or more air conditioning units installed in a predetermined area,
   7. The operation control according to claim 1, wherein the operation control device is connected to a network, stores power limitation information, and provides the power limitation information to the operation control device through the network. Equipment,
   A cooling / heating device for each operation control device;
   A sensor including at least one of a temperature sensor or a human sensor for each space in which the air conditioner is installed;
   District heating and cooling control system comprising.
9. The district heating and cooling control system according to claim 8, wherein the power limitation information providing device stores the power limitation information for each of the operation control devices, and provides the power limitation information different for each of the operation control devices. .
10. The region according to claim 8, further comprising a power limit information management device connected to the network and providing the power limit information to the plurality of power limit information providing devices through the network. Air conditioning control system.

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