JP2000088316A - Set temperature determining device, air conditioner and program recording medium - Google Patents

Abstract

(57) [Summary] Conventionally, it has not been possible to continue operating an air conditioner with energy consumption substantially minimized in consideration of the air conditioning effect. Kind Code: A1 A human sensor for detecting a person entering or exiting a dining room, a set temperature determining unit installed in an indoor unit 1 of an air conditioner installed in the dining room,
The apparatus includes a solar radiation measuring means 8 for measuring the amount of solar radiation from the bay window 7 to the dining room, and a thermometer for measuring the outside air temperature. The information is input as information including the number of persons performing the air conditioning. Based on the information, the information on the amount of insolation from the insolation measuring means 8 and the information on the outside air temperature from the thermometer, the air conditioning installed in the dining room is input. The set temperature of the indoor unit 1 of the device is determined.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a set temperature determining device for determining a set temperature of an air conditioner installed in a living space.

[0002]

2. Description of the Related Art In recent years, air conditioning has been performed in a plurality of rooms in one house. At this time, when a single air conditioner having an outdoor unit is installed in each room and used at the same time, the energy consumption increases.

Therefore, an air conditioner is installed in a plurality of rooms, and one outdoor unit for branching the refrigerant is installed in the plurality of air conditioners, so that the energy consumption when each air conditioner is used simultaneously is minimized. Air conditioners are currently being used. Then, when the user uses the room where the air conditioner is installed,
The set temperature of the room is set to the air conditioner and operated.

[0004] On the other hand, in recent years, it has been emphasized to keep the indoor temperature constant by reducing the exchange of heat with the outside air, and is called a highly airtight and highly insulated house. In such a house, ventilation is required, a ventilation device is installed, fresh outside air is taken into the room, and congested air is sent from the room to the outside.

[0005]

As described above, when a user uses a room in which an air conditioner is installed,
When the air conditioner is operated and not used, the operation of the air conditioner is stopped. By the way, it is known that the energy consumption when starting the air conditioner is very large. Therefore, if the stoppage time of the air conditioner is short, the energy consumption is generally smaller when the air conditioner is continuously used without being stopped than when the air conditioner is frequently started and stopped.

However, even when the air conditioners in each room are continuously operated, for example, in the case of cooling in the summer, the lower the set temperature is, the larger the difference from the outside air temperature is, so that the energy consumption increases. If the set temperature is increased to reduce the energy consumption, the difference from the outside air temperature is reduced, and the cooling effect is reduced.

In view of the above, the present invention provides a set temperature determining method for determining a set temperature to be set in an air conditioner so as to substantially minimize energy consumption in consideration of an air conditioning effect when the air conditioner is continuously operated. It is intended to provide a device.

[0008]

Means for Solving the Problems The first invention (claim 1)
Corresponds to) a human sensor for detecting the entrance of a person into and out of a predetermined closed space, and information about the presence of a person in the closed space from the human sensor, and inputs the information to the closed space based on the information. A set temperature determining means for determining a set temperature of the installed air conditioner.

According to a second aspect of the present invention (corresponding to claim 2), the first aspect
In the set temperature determination device of the present invention, when the human sensor detects the presence of a person in the closed space, the number of persons present in the closed space is detected, and the set temperature determining unit is A set temperature determining device, wherein the set temperature of the air conditioner is determined based on information on the number of people present in the closed space from the human sensor.

According to a third aspect of the present invention (corresponding to claim 3), a human sensor for detecting whether a person enters or exits a predetermined closed space, and information about the presence of a person in the closed space from the human sensor is provided. Input, presence pattern prediction means for predicting the future presence pattern of the person in the closed space based on the information, and input the information of the presence pattern from the presence pattern prediction means, to the information of the presence pattern A set temperature determining means for determining a set temperature of the air conditioner installed in the closed space based on the set temperature.

A fourth aspect of the present invention (corresponding to claim 4) is the third aspect of the present invention.
In the set temperature determination device of the present invention, the human sensor detects the number of people present in the closed space when detecting the presence of a person in the closed space, and the presence pattern predicting means includes: A set temperature determining device for predicting a future presence pattern of the person in the closed space based on information on the number of people existing in the closed space from the human sensor.

According to a fifth aspect of the present invention (corresponding to claim 5), the first aspect
In the set temperature determining apparatus according to any one of the fourth to fourth aspects of the present invention, the closed space is provided with a window, and further includes a solar radiation measuring unit that measures the solar radiation from the window to the closed space, The set temperature determining unit determines the set temperature of the air-conditioning apparatus also using information on the amount of solar radiation from the window to the closed space from the solar radiation measuring unit. Device.

According to a sixth aspect of the present invention (corresponding to claim 6), the first aspect
To the set temperature determining apparatus according to any of the fifth to fifth aspects of the present invention, further comprising an outside air temperature measuring means for measuring an outside air temperature,
The set temperature determining device is characterized in that the set temperature determining means determines the set temperature of the air conditioner also using information on the outside air temperature from the outside air temperature measuring means.

According to a seventh aspect of the present invention (corresponding to claim 7), the first aspect
To a set temperature determining apparatus according to any one of the first to sixth aspects of the present invention, a compressor for compressing the working medium, a condenser for condensing the working medium, and an evaporator for vaporizing the working medium. It is an air conditioner.

According to an eighth aspect of the present invention (corresponding to claim 8), the first aspect
A program recording medium storing a program for causing a computer to execute all or some of the functions of each component of the set temperature determining apparatus according to any one of the first to sixth aspects of the present invention.

The following first to sixth ventilation air flow rate determining devices will be described as devices related to any one of the above-described first to sixth setting temperature determining devices of the present invention.

The first ventilating air flow rate determining device inputs a human sensor for detecting whether a person enters or exits a predetermined closed space, and information on the presence of a person in the closed space from the human sensor, and inputs the information. Ventilation air flow rate determining means for determining a ventilation air flow rate of a ventilation device installed in the closed space based on the air flow.

A second ventilating air volume determining device is the first ventilating air volume determining device according to the first ventilating air volume determining device, wherein when the human sensor detects the presence of a person in the closed space, the number of persons present in the closed space is reduced. And the ventilation air volume determination means, wherein the ventilation air volume determination device determines the ventilation air volume of the ventilation device based on information on the number of people present in the closed space from the human sensor. is there.

The third ventilating air volume determining device inputs a human sensor for detecting whether a person enters or exits a predetermined closed space, and information on the presence of a person in the closed space from the human sensor, and inputs the information. Presence pattern prediction means for predicting the future presence pattern of the person in the closed space based on the information of the presence pattern from the presence pattern prediction means, and the closed space based on the information of the presence pattern. And a ventilation air flow rate determining means for determining a ventilation air flow rate of the ventilation device installed in the ventilation air flow apparatus.

A fourth ventilation air volume determining device is the third ventilation air volume determining device, wherein the human sensor detects the number of people in the closed space when detecting the presence of a person in the closed space. Detecting the presence pattern of the future person in the closed space based on information on the number of people present in the closed space from the human sensor from the presence sensor. It is a ventilation air volume determining device to be used.

[0021] The fifth ventilation air flow rate determining device includes the first to fourth ventilation air flow rate determining devices.
In any one of the ventilation air volume determination devices, the closed space is provided with a window, and further includes a solar radiation amount measurement unit that measures the amount of solar radiation from the window to the closed space, wherein the ventilation air volume determination unit is A ventilation air volume determining device for determining the ventilation air volume of the ventilator using information on the amount of solar radiation from the window to the closed space from the solar radiation amount measuring means.

[0022] The sixth ventilation air flow rate determining device comprises
In any one of the ventilation air flow rate determination devices, further comprising an internal temperature measurement means for measuring the temperature of the closed space, wherein the ventilation air flow rate determination means also receives information on the temperature of the closed space from the internal temperature measurement means. A ventilating air volume determining device characterized in that the ventilating air volume of the ventilating device is determined by utilizing the same.

The following ventilating apparatus is described as an apparatus related to any of the first to sixth ventilating air volume determining apparatuses described above.

The ventilator includes one of the first to sixth ventilation air flow rate determining devices, a suction port for sending air in a predetermined closed space out of the closed space, and a ventilating device for air outside the closed space. A ventilator, comprising: an air outlet to be taken into a closed space; and a regulator that adjusts an air volume of air that the air outlet takes into the closed space based on an instruction from the ventilation air volume determining device. is there.

The following program recording medium is described as a program recording medium related to any one of the first to sixth ventilation air volume determining devices described above.

The program recording medium includes first to sixth programs.
A program recording medium storing a program for causing a computer to execute all or some of the functions of each component of any one of the ventilation air volume determination devices.

[0027]

Embodiments of the present invention will be described below with reference to the drawings.

(Embodiment 1) The configuration of a set temperature determining apparatus according to Embodiment 1 of the present invention will be described with reference to FIGS. FIG. 1 shows a configuration of a ventilation air flow rate determining device related to the set temperature determining device according to the first embodiment of the present invention.
The operation will be described with reference to FIGS.

FIG. 1 is a floor plan of a standard detached house on the first floor. In the house of FIG. 1, an indoor unit 1 of an air conditioner is installed in a dining room and a Japanese-style room. The air conditioner uses a method in which refrigerant is branched from one outdoor unit to indoor units 1 in a plurality of rooms to air-condition each room. FIG. 2 shows an installation location of the outdoor unit 3. FIG. 2 includes the outdoor unit 3 and the connection piping between the outdoor unit 3 and the indoor unit 1 together with the indoor unit 1 and the like shown in FIG. 1 described above. Note that, for the sake of simplicity, FIG. 1 does not show a connection pipe for connecting the indoor unit 1 and the outdoor unit 3. Also, each indoor unit 1 is assumed to be mounted on the ceiling. Also, it is assumed that each indoor unit 1 is provided with a set temperature determining unit of the set temperature determining device according to the first embodiment of the present invention. Further, in FIG. 1, a human sensor 2 of the set temperature determining device according to the first embodiment of the present invention is installed on the ceiling inside the doors of the dining room and the Japanese-style room. The motion sensor 2 senses the passage of a person through the door, and can determine the occupancy status including the number of people in each room.

Further, in the house shown in FIG. 1, a ventilation outlet 4 is installed in a dining room, a Japanese-style room, and a kitchen, and a ventilation inlet 5 is installed in a corridor. The outlet 4 is means for sending air outside the house of FIG. 1 to the room. As shown in FIG. 2, each room has a regulator for adjusting the air volume of the outside air sent to the room by the outlet 4. 6 are installed. FIG. 2 shows the blowout port 4 of FIG.
It also includes a connection pipe between the outlet 4 and the controller 6 as well as the suction port 5. Further, the controller 6 is provided with a ventilation air volume determining device for controlling the controller 6. The suction port 5 is a means for sending out the air inside the house shown in FIG. 1 to the outside of the house, and a person enters and exits a door, a dining room, a Japanese-style room, and a door between a kitchen and a corridor. At last, the air leaking into the corridor is sent out of the house.

Further, there are windows 7 in the dining room and the Japanese-style room, which are not shown in FIG. 1. Inside these windows 7, there is a solar radiation measurement for measuring the solar radiation coming from outside the house. Means are in place. Further, a thermometer as an internal temperature measuring means for measuring the temperature of the room is installed inside the window 7. In addition, a thermometer as an outside air temperature measuring means for measuring the temperature outside the house is installed on the outer wall surface of the house.

Next, the air conditioning and ventilation of a dining room, a Japanese-style room and a kitchen will be described by taking the air conditioning and ventilation of a dining room as an example. Here, FIG. 3 shows a perspective view of a part of the interior of the dining room. FIG. 4 is a perspective view of a part of the outside of the dining room. As shown in FIG.
Inside, a solar radiation measuring means 8 and a thermometer 9 as an internal temperature measuring means for measuring the temperature of the room are installed. A thermometer 10 is installed on the outer wall near the bay window 7 as an outside air temperature measuring means.

For the sake of simplicity, the operation of the set temperature determining apparatus according to the first embodiment of the present invention will be described with reference to an example of an operation during air conditioning or cooling in summer. In this case, the outside air temperature is assumed to be 32 ° C.

At this time, first, the user sets the air conditioning mode of the indoor unit 1 of the dining room to the cooling mode in advance, and sets the set temperature of the indoor unit 1 to 25 ° C. in advance when there is one person in the dining room. Keep it. In such a situation, the human sensor 2 determines the presence of a person in the dining room, and the set temperature determining means of the set temperature determining device installed in the indoor unit 1 detects the presence of the person in the dining room. Information about the presence of a person, including the number of persons inside, is input, and the set temperature of the indoor unit 1 is changed. As described above, in the case of air conditioning, if there is one person in the dining room, the setting temperature is changed to 25 ° C. If there are two people, the setting temperature is changed to 24 ° C. If there is no person, the setting temperature is changed to 29 ° C. The setting is changed. Power consumption is 24.2 kW per day when the set temperature is 25 ° C. when no one is present.
h and the set temperature when no one is present is 29 ° C
Since the calculation result that the power consumption in the case of 18.3 kWh per day is obtained, if the set temperature when no one is present is set to 29 ° C. instead of 25 ° C., 20
% Energy saving effect. Further, when there is no person, the indoor unit 1 is temporarily stopped, and after that, it is confirmed by the human sensor 2 that a person has entered the room where the indoor unit 1 is installed. When started, 1
It has been calculated that energy consumption of more than 19 kWh per day is required, so if the time during which nobody is alone is short, the indoor unit 1 will not be stopped and the set temperature will be used, for example, at 29 ° C. If you continue to do so, you will consume less energy overall.

Up to this point, the air conditioning in summer, that is, cooling, has been described.
That is, heating will be described. The outside temperature in that case is 8 ℃
And

At this time, first, the user sets the air conditioning mode of the dining room to the heating mode in advance, and sets the set temperature of the indoor unit 1 to 22 ° C. in advance when there is one person in the dining room. . In such a situation, the human sensor 2 determines the presence of a person in the dining room, and the set temperature determining means of the set temperature determining device installed in the indoor unit 1 detects the presence of the person in the dining room. Information about the presence of a person, including the number of persons inside, is input, and the set temperature of the indoor unit 1 is changed. As described above, in the case of heating, if the dining room has one person, the setting temperature is 22 ° C. If there are two people, the setting temperature is changed to 23 ° C. If there are no people, the setting temperature is 17 ° C. The setting is changed. As described above, even in the case of heating, if the indoor unit 1 is stopped when no one is present, a large amount of energy is required when the indoor unit 1 is started thereafter.
If the time during which there are no people is short, it is better not to stop the indoor unit 1 but to keep using it at a set temperature of, for example, 17 ° C., so that energy consumption is generally reduced.

In the case of heating in winter, for example, the set temperature determining means of the set temperature determining device provided in the indoor unit 1 is provided by the solar radiation measuring means 8 provided inside the bay window 7 of the dining room. If the amount information is input and the amount of solar radiation is larger than a preset amount, it is determined that the temperature inside the dining room will rise due to the greenhouse effect of sunlight, and the set temperature is set lower.
In this way, less energy is consumed.

The set temperature determining means inputs information from a thermometer 10 installed on the outer wall near the bay window 7. For example, in the case of heating in winter, if the outside temperature is high, the indoor unit 1 is installed. Set the temperature lower. Alternatively, if the outside air temperature is high, for example, in early spring, the operation of the indoor unit 1 is stopped.

Up to this point, the air conditioning, that is, cooling and heating has been described. Next, the operation of the room ventilation, that is, the operation of the ventilation air volume determining device will be described. Also in this case, description will be made by taking the ventilation of the dining room as an example.

The above-mentioned motion sensor 2 is used not only for controlling the set temperature of the indoor unit 1 but also for determining the ventilation air volume. At this time, the motion sensor 2 determines the presence of a person in the dining room, and the ventilation air volume determining device according to the first embodiment of the present invention, which is installed in the adjuster 6, detects the presence of the person in the dining room from the motion sensor 2. Enter information about the existence of people, including the number of people,
The ventilation air volume adjusted by the controller 6 is determined. For example, when there is one person in the dining room, the ventilation air volume is determined so that a wind having an air volume of 15 m ³ / h is introduced into the dining room from outside. When there are two people in the dining room, the ventilation air volume is determined so that a wind having an air volume of, for example, 20 m ³ / h is taken into the dining room from outside the house. Further, when there is no person, the ventilation air volume is determined so that a wind having an air volume of, for example, 10 m ³ / h is taken into the dining from outside the house.

The set temperature determining means inputs information from a thermometer 9 installed inside the bay window 7 and, for example, in winter, the outside temperature is not high, but the use of the indoor unit 1 and the amount of solar radiation are low. When the temperature inside the dining room becomes high due to the greenhouse effect, the indoor unit 1 is stopped, and the ventilation air volume of the dining room is controlled so as to increase, and the outside air can be introduced to lower the room temperature. It is.

(Embodiment 2) The configuration of a set temperature determining apparatus according to Embodiment 2 of the present invention will be described with reference to FIGS. FIG. 1 shows a configuration of a ventilation air flow rate determining device related to the set temperature determining device according to the second embodiment of the present invention.
The operation will be described with reference to FIGS.

The set temperature determining apparatus according to the second embodiment of the present invention includes an existence pattern predicting means in addition to the set temperature determining means and the human sensor 2 described in the first embodiment. The prediction means is installed in the indoor unit 1. In addition, the ventilation air volume determination device includes an existence pattern prediction unit in addition to the ventilation air volume determination unit and the human sensor 2 described in the first embodiment, and the existence pattern prediction unit is installed in the controller 6. Is done.

As described in the first embodiment, the motion sensor 2 in the second embodiment detects the presence of a person in each room, including the number of people. And
Presence pattern predicting means of the set temperature determination device and the ventilation air flow rate determination device inputs information on the presence of a person from the human sensor 2 and checks, for example, the usage status of the room in units of one week, and Predict the existence pattern of a person.
Since the daily life pattern of each person is considered to have a small variation if weekdays and holidays are distinguished, the existence pattern predicting means can predict the future person's existence pattern in each room. The presence pattern of the person thus predicted is, for example, as shown in FIG. FIG. 5 shows that the dining room is used from 6:30 to 15:00 and from 17:10 to 23:00. In FIG. 5, the number surrounded by a circle is
It represents the number of people present in the dining room.

The set temperature determining means of the set temperature determining apparatus determines, based on the presence pattern of the person in the room, predicted by the presence pattern prediction means, for example, from 6:30 to 7:00 in the case of summer dining. Predicts that two persons are present, sets the set temperature of the indoor unit 1 to 24 ° C., and operates the indoor unit 1. In addition, it is predicted that one person will be present from 7:30 to 15:00, and the set temperature of the indoor unit 1 is set to 2
Set to 5 ° C. Furthermore, for example, from 15:00 to 17:10
It is predicted that no one is present until the minute, and the set temperature of the indoor unit 1 is set to 29 ° C. Thus, there is a reason for operating the indoor unit 1 even when the user is absent. That is, if the operation of the indoor unit 1 is stopped when the user is absent, the time until the indoor unit 1 starts up at the next operation becomes uncomfortable for a person. Further, as described in the first embodiment, it is preferable that the indoor unit 1 be continuously operated because the energy consumption at the start-up of the indoor unit 1 when the indoor unit 1 is stopped once and then operated is large.

Further, the ventilation air volume determining means of the ventilation air volume determining device, based on the presence pattern of the person in the room, predicted by the presence pattern prediction device, for example, in the case of a dining room, from 2:30 to 7 o'clock. It is predicted that there is a person, and the ventilation air volume is determined so that a wind having an air volume of 20 m ³ / h is taken into the dining from outside the house. Also, it is predicted that one person will be present from 7:30 to 15:00, and the ventilation air volume is determined so that a wind having an air volume of 15 m ³ / h can be taken into the dining from outside the house. Further, for example, it is predicted that no one is present from 15:00 to 17:10, and the ventilation air volume is determined so that a wind having an air volume of 10 m ³ / h is taken into the dining from outside the house.

As described above, by using the predicted presence pattern, the set temperature and the ventilation air volume can be changed immediately before the absence is changed to the presence, so that the user does not become uncomfortable. However, it is not always the case that a person exists in each room at the time predicted by the presence pattern.
If the room detects no people in the room,
As described in the first embodiment, it is assumed that the set temperature and the ventilation airflow are changed to those in the absence of a person even if a predicted presence pattern indicates that a person is present. Conversely, even if the predicted presence pattern indicates that no person is present, if the presence of a person is detected by the human sensor 2, the set temperature and ventilation air volume will vary according to the number of people present in the room. Suppose it is changed.

Before the presence pattern is predicted, the set temperature of the indoor unit 1 and the ventilation air volume are determined as described in the first embodiment.

In the first and second embodiments described above, the set temperature determining means of the set temperature determining device inputs information on the presence of a person including the number of persons in the room from the human sensor 2 and outputs the information. However, the set temperature determination means inputs information on the presence of a person in the room from the motion sensor 2 and determines whether a person is present regardless of the number of people. The set temperature in the room may be changed depending on the situation. In this case, the human sensor 2 only needs to detect the presence or absence of a person.

Similarly, in the first and second embodiments described above, the ventilation air volume determining means of the ventilation air volume determining device inputs information on the presence of a person including the number of persons in the room from the human sensor 2. The ventilation air volume in the room is changed according to the number of people.
, Information about the presence of a person in the room may be input, and the ventilation air volume in the room may be changed depending on whether or not the person is present regardless of the number of people. In this case, the human sensor 2 only needs to detect the presence or absence of a person.

In the first and second embodiments, all or some of the components of the set temperature determining device and the ventilation air volume determining device have been described as being hardware. All or a part of each component of the ventilation air volume determination device can be replaced with software having the same function as the corresponding function of the above-described hardware.

The air conditioner of the present invention according to claim 7 includes at least the set temperature determining device of the first or second embodiment, a compressor for compressing the working medium, and a condenser for condensing the working medium. And an evaporator for vaporizing the working medium.

The ventilating apparatus according to the first and second embodiments includes at least the ventilation air volume determining apparatus according to the first or second embodiment, the suction port 5 for sending out the air inside the house to the outside of the house, The air outlet 4 that takes in outside air into the room, and a controller 6 that adjusts the air volume of the air that the air outlet 4 takes into the room based on an instruction from the ventilation air volume determining device may be provided. .

Further, the present invention according to claim 8 stores a program for causing a computer to execute all or some of the functions of each component of the set temperature determining apparatus according to any one of claims 1 to 6. A program recording medium characterized by the following. Similarly, in the first embodiment described above,
Alternatively, a program recording medium characterized by storing a program for causing a computer to execute all or some of the functions of each component of the second ventilation air flow rate determining device may be considered.

[0055]

As is apparent from the above description, the present invention provides an air conditioner that can minimize the energy consumption in consideration of the air conditioning effect when the air conditioner is continuously operated. A set temperature determination device that determines a set temperature to be set can be provided.

[Brief description of the drawings]

FIG. 1 is a floor plan of a single-family house used in Embodiments 1 and 2 of the present invention.

FIG. 2 is a floor plan of a single-family house used in Embodiments 1 and 2 of the present invention, which is different from FIG.

FIG. 3 is a perspective view of a part of the interior of the dining area of the detached house used in the first and second embodiments of the present invention shown in FIG.

FIG. 4 is a perspective view of a part of the outside of the dining of the detached house used in the first and second embodiments of the present invention shown in FIG.

FIG. 5 is a diagram showing a person's presence pattern in a dining room of a detached house used in Embodiment 2 of the present invention.

[Explanation of symbols]

 Reference Signs List 1 indoor unit of air conditioner 2 occupancy sensor 3 outdoor unit of air conditioner 4 outlet of ventilator 5 inlet of ventilator 6 regulator of ventilator 7 window, bay window 8 solar radiation measurement means 9, 10 thermometer

Continuing on the front page (72) Inventor Nagamitsu Sayo 1006 Kazuma Kadoma, Osaka Prefecture Matsushita Electric Industrial Co., Ltd. Terms (reference) 3L060 AA06 CC03 CC11 DD05 DD08 EE01

Claims (8)

[Claims] 1. A human sensor for detecting whether a person enters or exits a predetermined closed space, and information about the presence of a person in the closed space from the human sensor is input to the closed space based on the information. A set temperature determining device for determining a set temperature of the installed air conditioner. 2. The human sensor according to claim 1, wherein when detecting the presence of a person in the closed space, the number of persons existing in the closed space is detected. The set temperature determining device according to claim 1, wherein the set temperature of the air conditioner is determined based on information on the number of people existing in the closed space. 3. A human sensor for detecting whether a person enters or exits a predetermined closed space, and information about the presence of a person in the closed space from the human sensor is input, and based on the information, the information in the closed space is input. Presence pattern prediction means for predicting the presence pattern of the person in the future; and information on the presence pattern from the presence pattern prediction means, and air conditioning installed in the closed space based on the information on the presence pattern. A set temperature determining device for determining a set temperature of the device. 4. The human sensor detects the number of people present in the closed space when detecting the presence of a person in the closed space, and the presence pattern predicting means detects the presence pattern from the human sensor. 4. The set temperature determination device according to claim 3, wherein a future presence pattern of the person in the closed space is predicted based on the information on the number of people existing in the closed space. 5. The closed space is provided with a window, further comprising: a solar radiation measuring means for measuring the amount of solar radiation from the window to the closed space; From the means,
The set temperature determining device according to any one of claims 1 to 4, wherein the set temperature of the air conditioner is determined using information on the amount of solar radiation from the window to the closed space. 6. An outside air temperature measuring means for measuring an outside air temperature, wherein said set temperature determining means determines a set temperature of said air conditioner also using information of an outside air temperature from said outside air temperature measuring means. The set temperature determining apparatus according to claim 1, wherein the set temperature is determined. 7. A set temperature determining device according to claim 1, a compressor for compressing a working medium, a condenser for condensing said working medium, and an evaporator for vaporizing said working medium. An air conditioner comprising: 8. A program recording for storing a program for causing a computer to execute all or some of the functions of each component of the set temperature determining apparatus according to claim 1. Medium.