JP2010181078A - Air conditioning control device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce electric power consumption by equipment while securing comfortable indoor environment in an air conditioning control device for controlling an air conditioner and a heat exchanger. <P>SOLUTION: The air conditioning control device 10 includes an air conditioning controller 24 for controlling the air conditioner 14 and the heat exchanger 16 based on indoor temperature detected by an indoor temperature sensor 20, outside air temperature detected by an outside air temperature sensor 22 and indoor set temperature. When the outside air temperature is between the indoor temperature and the set temperature, the air conditioning controller 24 controls the air conditioner 14 and the heat exchanger 16 based on a temperature difference between the set temperature and the outside air temperature. This control can reduce electric power consumption by the equipment while securing comfortable indoor environment. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an air conditioning control device that controls an air conditioner and a heat exchanger, and more particularly, to control for reducing power consumption of equipment.

  Conventionally, in order to ensure an indoor environment in which people can comfortably work, an air conditioner that cools and heats the room and a heat exchanger that ventilates the room and exchanges heat between the outside air and the room air are provided. An air-conditioning control device that controls these devices based on temperature and set temperature is known.

  Patent Document 1 below discloses an air conditioner that cools and heats a room, a heat exchange type ventilation unit that ventilates a room and exchanges heat between the outside air and room air, and an air conditioner and a heat exchange type ventilation based on room temperature. A ventilation air conditioner having control means for controlling the unit is disclosed. In this ventilation air conditioner, when the room temperature reaches the set temperature, the control means continues the operation of the heat exchange type ventilation unit with the air flow set to be weak and continues the operation of the air conditioner. Therefore, for example, it is possible to prevent cold air from blowing into the room in winter and to secure a comfortable indoor environment.

  The following Patent Document 2 discloses an entrance / exit management system that manages entrance / exit using authentication by an IC card, and controls to start an air conditioner when the IC card is authenticated. It is disclosed.

JP 2005-326047 A Japanese Patent Laid-Open No. 2008-192095

  In the ventilation air conditioner disclosed in Patent Document 1, a comfortable indoor environment is ensured by controlling the control means to continue the operation of the air conditioner and the heat exchange type ventilation unit even when the room temperature reaches the set temperature. is doing. However, in order to ensure a comfortable indoor environment, the operation of the equipment must be continued, which increases the power consumption of the equipment, which hinders energy-saving activities that companies are working on in recent years. There is.

  The objective of this invention is providing the air-conditioning control apparatus which can reduce the power consumption of an apparatus in the air-conditioning control apparatus which controls an air conditioner and a heat exchanger, ensuring a comfortable indoor environment.

  The present invention can switch between an air conditioner that cools and heats the room, a ventilation operation that exchanges outside air and room air, and a heat exchange operation that exchanges heat between the outside air and room air while exchanging outside air and room air. Heat exchanger, indoor temperature sensor for detecting indoor temperature, outdoor air temperature sensor for detecting outdoor air temperature, indoor temperature detected by the indoor temperature sensor, outdoor air temperature detected by the outdoor air temperature sensor, And an air conditioning controller that controls the air conditioner and the heat exchanger based on the set temperature, and the air conditioner controller detects a temperature difference between the set temperature and the outside air temperature when the outside air temperature is between the room temperature and the set temperature. Based on this, the air conditioner and the heat exchanger are controlled.

  Moreover, the air conditioning controller can stop the air conditioner and operate the heat exchanger when the temperature difference is less than the first predetermined value.

  Further, the air conditioning controller can switch the heat exchanger to the ventilation operation when the temperature difference is equal to or larger than a second predetermined value set lower than the first predetermined value.

  Further, the air conditioning controller can switch the heat exchanger to the heat exchange operation when the temperature difference is less than the second predetermined value.

  In addition, the air conditioning controller can operate the air conditioner by switching the heat exchanger to the heat exchange operation when the temperature difference is equal to or greater than the first predetermined value.

  In addition, when the entrance / exit management unit determines that there is no user in the room, the air conditioning controller detects the room temperature detected by the room temperature sensor and the outside air. The air conditioner and the heat exchanger can be stopped regardless of the outside air temperature detected by the temperature sensor and the indoor set temperature.

Also, it has a human sensor that is placed in the room and senses the user,
The entrance / exit management unit can determine whether there is a user in the room based on the detection result of the human sensor.

  In addition, the information reading unit is arranged outside the living room and reads information stored in a storage medium held by the user. The entrance / exit management unit is based on information from the information reading unit. It can be determined whether or not there is.

  According to the air conditioning control device of the present invention, in the air conditioning control device that controls the air conditioner and the heat exchanger, it is possible to reduce the power consumption of the equipment while ensuring a comfortable indoor environment.

It is a figure which shows the structure of the air-conditioning control apparatus of this embodiment. It is a figure which shows the relationship between operation | movement of an apparatus, and temperature in the summer. It is a figure which shows the relationship between operation | movement of the apparatus and temperature in winter. It is a flowchart which shows the control action of the air-conditioning control apparatus in summer. It is a flowchart which shows the control action of the air-conditioning control apparatus in winter.

  Hereinafter, an embodiment of an air-conditioning control device according to the present invention will be described with reference to the drawings. FIG. 1 is a diagram illustrating a configuration of an air conditioning control device 10 of the present embodiment.

  The air-conditioning control apparatus 10 includes an air machine 14 that cools and heats the interior of the living room 12 and a heat exchanger 16 that ventilates the interior of the living room 12 and exchanges heat between outside air and room air.

  The living room 12 is a room used by the user, for example, an office space or a meeting room of a building such as a building. The living room 12 is provided with a door 18 serving as a doorway for the user. The living room 12 is not limited to one and can be a plurality of rooms.

  The air conditioner 14 incorporates a fan and a coil (not shown). The air sent from the fan cooled or heated by the coil into the living room 12 causes the air conditioner 14 to cool or heat the living room 12. An operation unit (not shown) for operating the air conditioner 14 is connected to the air conditioner 14. The operation unit is a remote controller, a centralized controller that operates a plurality of air conditioners, and the like. The operation unit can operate and stop the air conditioner 14, adjust the set temperature Tset in the living room 12, adjust the wind direction and the wind speed, and the like. In addition, the number of the air conditioners 14 corresponding to the living room 12 is not limited to one and can be plural.

  The heat exchanger 16 includes a fan for supplying and exhausting air and a heat exchanging unit (not shown). The air supply fan sends outside air into the room 12 and the exhaust fan sends room air to the outside of the room 12, so that the heat exchanger 16 exchanges outside air and room air to ventilate the room 12. . In addition, the heat exchanger 16 exchanges heat between the outside air and the room air by switching the air path so that the outside air and the room air pass through the heat exchange unit. Thus, the heat exchanger 16 can perform a ventilation operation for exchanging outside air and room air, and a heat exchanging operation for exchanging heat between the outside air and the room air while exchanging heat between the outside air and the room air, These operations can be switched. An operation unit (not shown) for operating the heat exchanger 16 is connected to the heat exchanger 16. The operation unit is a remote controller, a centralized controller that operates a plurality of heat exchangers, and the like. The operation unit can perform operation and stop of the heat exchanger 16, switching between ventilation operation and heat exchange operation, adjustment of wind speed, and the like. The heat exchange unit built in the heat exchanger 16 may be a total heat exchange unit that exchanges total heat including sensible heat and latent heat, or may be a sensible heat exchange unit that exchanges only sensible heat. .

  The air-conditioning control device 10 includes an indoor temperature sensor 20 that detects a temperature (hereinafter referred to as an indoor temperature) Tin in the living room 12, an outdoor air temperature sensor 22 that detects an outdoor air temperature (hereinafter referred to as an outdoor air temperature) Tout, Based on the indoor temperature Tin, the outside air temperature Tout, and the set temperature Tset, the air conditioner 14 and the air conditioner controller 24 that controls the heat exchanger 16 are provided.

  The room temperature sensor 20 is installed in the living room 12. An air conditioning controller 24 is connected to the room temperature sensor 20. The room temperature sensor 20 outputs the detected room temperature Tin to the air conditioning controller 24.

  The outside air temperature sensor 22 is installed outside the building where the living room 12 is located. An air conditioning controller 24 is connected to the outside air temperature sensor 22. The outside air temperature sensor 22 outputs the detected outside air temperature Tout to the air conditioning controller 24.

  The air conditioner 14 and the heat exchanger 16 are connected to the air conditioning controller 24. The air conditioning controller 24 acquires the indoor temperature Tin from the indoor temperature sensor 20 and acquires the outdoor air temperature Tout from the outdoor air temperature sensor 22. In addition, the air conditioning controller 24 acquires the set temperature Tset from the air conditioner 14. The air conditioning controller 24 can also acquire the set temperature Tset from the control unit of the air conditioner 14.

  In the present embodiment, the air conditioning controller 10 is configured such that when the outside air temperature Tout is between the indoor temperature Tin and the set temperature Tset, the air conditioner 14 is based on the temperature difference between the set temperature Tset and the outside air temperature Tout. The heat exchanger 16 is controlled. Hereinafter, a specific control method of the air conditioning controller 24 will be described in detail for the summer and winter. Here, the summer season is generally the time when the air conditioner performs cooling operation, during which the room temperature rises above the comfortable temperature required by the user due to the external and internal environment. Therefore, the set temperature of the air conditioner is set lower than the room temperature. On the other hand, the winter season is generally a period when the air conditioner performs heating operation, and in this period, the room temperature falls below the comfortable temperature requested by the user due to the influence of the external environment. Therefore, the set temperature of the air conditioner is set higher than the room temperature.

  In the summer, when the outside air temperature Tout is, for example, 28 ° C., the indoor temperature Tin is, for example, 32 ° C., and the set temperature Tset is, for example, 24 ° C., the outside air temperature Tout is between the indoor temperature Tin and the set temperature Tset. In this state, since the outside air temperature Tout (28 ° C.) is lower than the room temperature Tin (32 ° C.), the room temperature Tin can be lowered by introducing the outside air into the room as it is. That is, when the heat exchanger 16 performs the ventilation operation, the same effect as the cooling operation of the air conditioner 14 can be obtained. Therefore, the air conditioner 14 can be stopped and the power consumption of the air conditioner 14 can be reduced. However, since only the ventilation operation of the heat exchanger 16 can reduce the indoor temperature Tin to only the outside air temperature Tout, it cannot reach the set temperature Tset required by the user, and a comfortable indoor environment is not necessarily obtained. You may not be able to get it.

  Therefore, as shown in FIG. 2, the temperature difference between the set temperature Tset and the outside air temperature Tout is provided with two threshold values, that is, a first predetermined value T1 and a second predetermined value T2 set lower than these threshold values. The air conditioner 14 and the heat exchanger 16 are controlled based on the relationship between the predetermined values T1 and T2 and the outside air temperature Tout. In the present embodiment, the first predetermined value T1 is set to 5 ° C. That is, since the set temperature Tset is 24 ° C., the first predetermined value T1 is located at 29 ° C. In the present embodiment, the second predetermined value T2 is set to 1 ° C. That is, since the set temperature Tset is 24 ° C., the second predetermined value T2 is located at 25 ° C. The first and second set values T1 and T2 are not limited to the above-described temperatures, and other temperatures can be set.

  Specifically, the air-conditioning controller 24, when the temperature difference between the set temperature Tset and the outside air temperature Tout is greater than or equal to the first predetermined value T1, that is, the outside air temperature Tout is higher than the first predetermined value T1 shown in FIG. If it is, the air conditioner 14 is operated, and the heat exchanger 16 is operated for heat exchange. This is because when the temperature difference between the set temperature Tset and the outside air temperature Tout is large, priority is given to obtaining a comfortable indoor environment rather than reducing the power consumption of the device.

  Further, the air conditioning controller 24 determines that the temperature difference between the set temperature Tset and the outside air temperature Tout is not less than the second predetermined value T2 and less than the first predetermined value T1, that is, the outside air temperature Tout is the first temperature shown in FIG. When the position is lower than the predetermined value T1 and higher than the second predetermined value T2, the air conditioner 14 is stopped and the heat exchanger 16 is switched to the ventilation operation to be operated. When the temperature difference between the set temperature Tset and the outside air temperature Tout becomes small, the heat exchanger 16 performs the ventilation operation, so that the same effect as the cooling operation of the air conditioner 14 can be obtained. And since a user's sensible temperature falls from the actual indoor temperature Tin by the wind sent out from the heat exchanger 16, even if the indoor temperature Tin lowered by the ventilation operation of the heat exchanger 16 is higher than the set temperature Tset, it is used. The person can feel that the indoor temperature Tin has reached the set temperature Tset, and can obtain a comfortable indoor environment. Moreover, since the air conditioner 14 stops, power consumption can be reduced.

  The air conditioning controller 24 performs air conditioning when the temperature difference between the set temperature Tset and the outside air temperature Tout is less than the second predetermined value T2, that is, when the outside air temperature Tout is lower than the second predetermined value T2 shown in FIG. The machine 14 is stopped, and the heat exchanger 16 is switched to the heat exchange operation. This is because when the temperature difference between the set temperature Tset and the outside air temperature Tout is further reduced, the heat exchanger 16 performs a heat exchange operation so that the influence of the outside air temperature Tout is not directly given to the indoor temperature Tin.

  In the winter, when the outside air temperature Tout is, for example, 15 ° C., the indoor temperature Tin is, for example, 10 ° C., and the set temperature Tset is, for example, 24 ° C., the outside air temperature Tout is between the indoor temperature Tin and the set temperature Tset. In this state, since the outside air temperature Tout (15 ° C.) is higher than the room temperature Tin (10 ° C.), the room temperature Tin can be increased by introducing the outside air into the room as it is. That is, when the heat exchanger 16 performs the ventilation operation, the same effect as the heating operation of the air conditioner 14 can be obtained. Therefore, the air conditioner 14 can be stopped and the power consumption of the air conditioner 14 can be reduced. However, since only the ventilation operation of the heat exchanger 16 can raise the indoor temperature Tin only to the outside air temperature Tout, it cannot reach the set temperature Tset required by the user, and a comfortable indoor environment is not necessarily obtained. You may not be able to get it.

  Therefore, as shown in FIG. 3, the temperature difference between the set temperature Tset and the outside air temperature Tout is provided with two threshold values, that is, a first predetermined value T1 and a second predetermined value T2 set lower than these, The air conditioner 14 and the heat exchanger 16 are controlled based on the relationship between the predetermined values T1 and T2 and the outside air temperature Tout. In the present embodiment, the first predetermined value T1 is set to 5 ° C. That is, since the set temperature Tset is 24 ° C., the first predetermined value T1 is located at 19 ° C. In the present embodiment, the second predetermined value T2 is set to 1 ° C. That is, since the set temperature Tset is 24 ° C., the second predetermined value T2 is located at 23 ° C. In addition, 1st and 2nd predetermined value T1, T2 is not limited to the temperature mentioned above, Other temperature can be set.

  Specifically, the air-conditioning controller 24, when the temperature difference between the set temperature Tset and the outside air temperature Tout is greater than or equal to the first predetermined value T1, that is, the outside air temperature Tout is lower than the first predetermined value T1 shown in FIG. If it is, the air conditioner 14 is operated, and the heat exchanger 16 is operated for heat exchange. This is because when the temperature difference between the set temperature Tset and the outside air temperature Tout is large, priority is given to obtaining a comfortable indoor environment rather than reducing the power consumption of the device.

  Further, the air conditioning controller 24 determines that the temperature difference between the set temperature Tset and the outside air temperature Tout is not less than the second predetermined value T2 and less than the first predetermined value T1, that is, the outside air temperature Tout is the first temperature shown in FIG. When it is at a position higher than the predetermined value T1 and lower than the second predetermined value T2, the air conditioner 14 is stopped and the heat exchanger 16 is switched to the ventilation operation to be operated. When the temperature difference between the set temperature Tset and the outside air temperature Tout becomes small, the heat exchanger 16 performs the ventilation operation, so that the same effect as the heating operation of the air conditioner 14 can be obtained. And since a user's sensible temperature rises from the actual indoor temperature Tin by the wind sent out from the heat exchanger 16, even if the indoor temperature Tin raised by the ventilation operation of the heat exchanger 16 is higher than the set temperature Tset, it is used. The person can feel that the indoor temperature Tin has reached the set temperature Tset, and can obtain a comfortable indoor environment. Moreover, since the air conditioner 14 stops, power consumption can be reduced.

  The air conditioning controller 24 performs air conditioning when the temperature difference between the set temperature Tset and the outside air temperature Tout is less than the second predetermined value T2, that is, when the outside air temperature Tout is higher than the second predetermined value T2 shown in FIG. The machine 14 is stopped, and the heat exchanger 16 is switched to the heat exchange operation. This is because when the temperature difference between the set temperature Tset and the outside air temperature Tout is further reduced, the heat exchanger 16 performs a heat exchange operation so that the influence of the outside air temperature Tout is not directly given to the indoor temperature Tin.

  Thus, when the outside air temperature Tout is between the indoor temperature Tin and the set temperature Tset, the air conditioning controller 24 controls the air conditioner 14 and the heat exchanger 16 based on the temperature difference between the set temperature Tset and the outside air temperature Tout. By doing so, it is possible to reduce the power consumption of the device while ensuring a comfortable indoor environment.

  Returning to FIG. 1, the air-conditioning control device 10 further includes an entrance / exit management unit 28 that monitors the entrance / exit of the user to / from the living room 12, and a human feeling that is disposed in the living room 12 and senses the user in the living room 12. Sensor 30. An entrance / exit management unit 28 is connected to the human sensor 30, and the human sensor 20 outputs the detected user information to the entrance / exit management unit 28.

  An air conditioning controller 24 is connected to the entrance / exit management unit 28. The entrance / exit management unit 28 determines whether there is a user in the living room 12 based on the detection result of the human sensor 30. Then, the entrance / exit management unit 28 outputs the determination result to the air conditioning controller 24.

  When the entrance / exit management unit 28 determines that there is no user in the room 12, the air conditioning controller 24 switches the air conditioner 14 and the heat exchanger 16 regardless of the indoor temperature Tin, the outside air temperature Tout, and the set temperature Tset. Stop. Thereby, forgetting to turn off the air conditioner 14 and the heat exchanger 16 can be prevented, and the power consumption of these devices can be reduced.

  Next, an example of the control operation of the air conditioning control device 10 will be described with reference to FIGS. FIG. 4 is a flowchart showing the control operation of the air conditioning control device 10 in the summer, and FIG. 5 is a flowchart showing the control operation of the air conditioning control device 10 in the winter. In summer, the set temperature Tset is set lower than the room temperature Tin, and in the winter, the set temperature Tset is set higher than the room temperature Tin.

  First, the control operation of the air conditioning control device 10 in summer will be described. In step S <b> 101, the indoor temperature sensor 20 detects the indoor temperature Tin, and the outdoor air temperature sensor 22 detects the outdoor air temperature Tout. In step S102, the entrance / exit management unit 28 determines whether there is a user in the living room 12. When it is determined that there is a user in the living room 12, the process proceeds to step S103. On the other hand, if it is determined that there is no user in the living room 12, the process proceeds to step S108.

  In step S103, it is determined whether or not the outside air temperature Tout is lower than the room temperature Tin. When the outside air temperature Tout is lower than the room temperature Tin, that is, when the outside air temperature Tout is between the room temperature Tin and the set temperature Tset, the process proceeds to step S104. On the other hand, if the outside air temperature Tout is equal to or higher than the room temperature Tin, the process proceeds to step S109.

  In step S104, it is determined whether or not the temperature difference between the outside air temperature tout and the set temperature Tset is less than a first predetermined value T1. When the temperature difference between the outside air temperature tout and the set temperature Tset is less than the first predetermined value T1, the process proceeds to step S105. On the other hand, if the temperature difference between the outside air temperature tout and the set temperature Tset is equal to or greater than the first predetermined value T1, the process proceeds to step S109.

  In step S105, it is determined whether or not the temperature difference between the outside air temperature tout and the set temperature Tset is equal to or greater than a second predetermined value T2. When the temperature difference between the outside air temperature tout and the set temperature Tset is equal to or larger than the second predetermined value T2, the process proceeds to step S106, where the air conditioning controller 24 stops the air conditioner 14 and switches the heat exchanger 16 to the ventilation operation. Let On the other hand, when the temperature difference between the outside air temperature tout and the set temperature Tset is less than the second predetermined value T2, the process proceeds to step S107, where the air conditioning controller 24 stops the air conditioner 14 and puts the heat exchanger 16 into the heat exchange operation. Switch to drive.

  In step S108, the air conditioning controller 24 stops the air conditioner 14 and the heat exchanger 16. This is because if there is no user in the living room 12 and the air conditioner 14 and the heat exchanger 16 are operated, power is wasted. In step S109, the air conditioning controller 24 operates the air conditioner 14, and switches the heat exchanger 16 to the heat exchange operation. This is because in this situation, priority is given to ensuring a comfortable indoor environment rather than to reduce the power consumption of the device.

  Next, the control operation of the air conditioning control device 10 in winter will be described. In step S201, the room temperature Tin is detected by the room temperature sensor 20, and the outside temperature Tout is detected by the outside temperature sensor 22. In step S202, the entrance / exit management unit 28 determines whether there is a user in the living room 12. If it is determined that there is a user in the living room 12, the process proceeds to step S203. On the other hand, if it is determined that there is no user in the living room 12, the process proceeds to step S208.

  In step S203, it is determined whether or not the outside air temperature Tout is higher than the room temperature Tin. When the outside air temperature Tout is higher than the room temperature Tin, that is, when the outside air temperature Tout is between the room temperature Tin and the set temperature Tset, the process proceeds to step S204. On the other hand, if the outside air temperature Tout is equal to or lower than the room temperature Tin, the process proceeds to step S209.

  In step S204, it is determined whether or not the temperature difference between the set temperature Tset and the outside air temperature tout is less than a first predetermined value T1. When the temperature difference between the set temperature Tset and the outside air temperature tout is less than the first predetermined value T1, the process proceeds to step S205. On the other hand, when the temperature difference between the set temperature Tset and the outside air temperature tout is equal to or greater than the first predetermined value T1, the process proceeds to step S209.

  In step S205, it is determined whether or not the temperature difference between the set temperature Tset and the outside air temperature tout is equal to or greater than a second predetermined value T2. When the temperature difference between the set temperature Tset and the outside air temperature tout is equal to or greater than the second predetermined value T2, the process proceeds to step S206, where the air conditioning controller 24 stops the air conditioner 14 and switches the heat exchanger 16 to the ventilation operation. Let On the other hand, when the temperature difference between the set temperature Tset and the outside air temperature tout is less than the second predetermined value T2, the process proceeds to step S207, where the air conditioning controller 24 stops the air conditioner 14 and puts the heat exchanger 16 into the heat exchange operation. Switch to drive.

  In step S208, the air conditioning controller 24 stops the air conditioner 14 and the heat exchanger 16. This is because if there is no user in the living room 12 and the air conditioner 14 and the heat exchanger 16 are operated, power is wasted. In step S209, the air conditioning controller 24 operates the air conditioner 14 and switches the heat exchanger 16 to the heat exchange operation. This is because in this situation, priority is given to ensuring a comfortable indoor environment rather than to reduce the power consumption of the device.

  In this embodiment, although the case where the entrance / exit management part 28 judges whether there is a user in the living room 12 based on the detection result of the human sensitive sensor 30 was demonstrated, it is not limited to this structure. The air-conditioning control apparatus 10 has an information reading unit that is arranged outside the living room 12 and reads information stored in a storage medium held by a user, and the entrance / exit management unit 28 is based on information from the information reading unit. Thus, it can be determined whether there is a user in the living room 12. Here, the storage medium is, for example, an IC card, and the information reading unit is, for example, a card reader. Moreover, the door 18 of the living room 12 is provided with an electric lock, and the entrance / exit management unit 28 can control locking and unlocking of the door 18 of the living room 12 based on information from the information reading unit.

  DESCRIPTION OF SYMBOLS 10 Air-conditioning control apparatus, 12 Living room, 14 Air conditioner, 16 Heat exchanger, 18 Door, 20 Indoor temperature sensor, 22 Outside temperature sensor, 24 Air conditioning controller, 28 Entrance / exit management part, 30 Human sensor.

Claims (8)

An air conditioner that heats and cools the room;
A heat exchanger capable of switching between a ventilation operation for exchanging outside air and room air, and a heat exchange operation for exchanging heat between outside air and room air while exchanging outside air and room air;
An indoor temperature sensor for detecting the indoor temperature;
An outside temperature sensor for detecting the outside temperature;
An air conditioning controller that controls the air conditioner and the heat exchanger based on the indoor temperature detected by the indoor temperature sensor, the outdoor air temperature detected by the outdoor air temperature sensor, and the indoor set temperature;
With
The air conditioning controller controls the air conditioner and the heat exchanger based on the temperature difference between the set temperature and the outside air temperature when the outside air temperature is between the room temperature and the set temperature.
An air conditioning control device characterized by that. In the air-conditioning control device according to claim 1,
The air conditioning controller, when the temperature difference is less than the first predetermined value, stops the air conditioner and operates the heat exchanger.
An air conditioning control device characterized by that. In the air-conditioning control device according to claim 2,
The air conditioning controller switches the heat exchanger to a ventilation operation when the temperature difference is equal to or greater than a second predetermined value set lower than the first predetermined value.
An air conditioning control device characterized by that. In the air-conditioning control device according to claim 3,
The air conditioning controller switches the heat exchanger to the heat exchange operation when the temperature difference is less than the second predetermined value.
An air conditioning control device characterized by that. In the air-conditioning control device according to any one of claims 2 to 4,
When the temperature difference is equal to or greater than the first predetermined value, the air conditioning controller operates the air conditioner and switches the heat exchanger to the heat exchange operation,
An air conditioning control device characterized by that. In the air-conditioning control device according to any one of claims 1 to 5,
Furthermore, it has an entrance / exit management section that manages the entrance and exit of users,
When the entrance / exit management unit determines that there is no user in the room, the air conditioning controller relates to the indoor temperature detected by the indoor temperature sensor, the outdoor air temperature detected by the outdoor air temperature sensor, and the indoor set temperature. Without stopping the air conditioner and heat exchanger,
An air conditioning control device characterized by that. In the air-conditioning control device according to claim 6,
It has a human sensor that is placed indoors and senses the user.
The entrance / exit management unit determines whether there is a user in the room based on the detection result of the human sensor,
An air conditioning control device characterized by that. In the air-conditioning control device according to claim 6,
An information reading unit that is arranged outside the room and reads information stored in a storage medium held by the user,
The entrance / exit management unit determines whether there is a user in the room based on the information from the information reading unit,
An air conditioning control device characterized by that.

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