JPH05248683A - Operation controller for air conditioner - Google Patents

Abstract

PURPOSE:To improve comfortableness of individual user by detecting and outputting warm/cold feeling near an installed part of each of a plurality of computers, and air conditioning the users of the respective computers in an operation controller for an air conditioner for conditioning a room in which the plurality of computers are installed. CONSTITUTION:A network 1 of an office, laboratories, etc., has a plurality of computers 4, 41,... installed in rooms. The computers 4, 41,... are connected to a host computer 3 through a network cable 11. A plurality of air conditioners 5 are installed in the room 2, and a plurality of work stations 4 or personal computers 41 are respectively installed in air conditioned areas. An air conditioning computer 6 is also connected to the cable 11. Warm/cold feeling sensors are respectively attached to the computers 4, 41, their output signals are fetched together with installing position data as network information to the computer 6, and the conditioners are so controlled that the vicinities of installed parts of the computers 4, 41 become predetermined air conditioning conditions.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an operation control device for an air conditioner that air-conditions a room in which a plurality of computers are installed, and more particularly to an air-conditioning control measure near each computer.

[0002]

2. Description of the Related Art Conventionally, in an air conditioner, a control gain of a compressor capacity or the like is corrected according to an air conditioning load to control an air conditioning capacity. The control gain correction target is, for example, Japanese Patent Laid-Open No. 2-3060.
As disclosed in Japanese Patent Laid-Open No. 41, there is a device which is provided with a human detection sensor to detect an occupant in a room and control the capacity of the compressor to improve comfort.

[0003]

However, in the air conditioner described above, since no consideration is given to the thermal sensation in the vicinity of the occupants, it is not possible to perform individual air conditioning for each occupant. There was a problem of poor comfort.

Therefore, it is conceivable to provide a thermal sensation sensor in the remote control, but this cannot satisfy the thermal sensation of each occupant when there are a large number of occupants, and the sensor is provided in the remote control. Another problem is that dry batteries cannot supply power to the thermal sensation sensor for a long time.

In particular, in recent years, various kinds of information have been processed by computers, and many rooms have many computers installed therein. When air-conditioning such a room, the above-mentioned air conditioner does not consider the heat production amount of the computer at all, and cannot perform air-conditioning for each user of the computer, resulting in lack of comfort. there were.

The present invention has been made in view of the above points, and an object thereof is to improve comfort by individually air-conditioning each user of a computer.

[0007]

Means for Solving the Problems In order to achieve the above-mentioned object, the means taken by the present invention is that each computer of a network is provided with a thermal sensation detecting means for individual air conditioning.

Specifically, as shown in FIG. 1, the means implemented by the invention according to claim 1 is first connected to a network (1) having a plurality of computers (4, 41, ...). The target is an operation control device for an air conditioner that controls the operation of the air conditioner (5).

Then, each computer (4, 41,
...) is provided with a data storage means (31) for preliminarily inputting the installation position data and storing the installation position data, while each of the computers (4, 41, ...) Has a corresponding computer (4, 41 ,. ), The thermal sensation detecting means (72) for detecting the thermal sensation near the installed portion, and the thermal sensation information of the thermal sensation detecting means (72) connected to the thermal sensation detecting means (72) is output. The information output means (73) for Furthermore, an information fetching means (61) for fetching information of the network (1) is provided. In addition, based on the thermal sensation information of the thermal sensation detecting means (72) extracted from the network information of the information capturing means (61) and the installation position data of the data storage means (31), each computer (4, 41, ...) is provided with an air conditioning control means (63) for controlling the air conditioner (5) so that the vicinity of each installation part has a predetermined air conditioning condition.

The means taken by the invention according to claim 2 is the air-conditioning control means (63) in the invention according to claim 1.
In place of the above, individual information input means (8) for inputting individual data of thermal sensation required for each installation area of each computer (4, 41, ...) And storing the individual data; Based on the thermal sensation information of the thermal sensation detecting means (72) extracted from the network information of the means (61) and the installation position data of the data storage means (31), the vicinity of the installation part of each computer (4, 41, ...). Control amount derivation means (64) for deriving the control amount of the air conditioner (5) so that each of them becomes a predetermined air conditioning condition, and the control amount corresponding to the individual data of the individual information input means (8). Derivation means (6
The control amount of 4) is corrected and the correction control means (65) for controlling the operation of the air conditioner (5) is provided.

Further, in the means taken by the invention according to claim 3, the individual information input means (8) in the invention according to claim 2 is replaced by a data storage means (31) for each computer (4, 41, ...). ) Installation position data and individual data of the thermal sensation required for each vicinity of the installation part of each computer (4, 41, ...) Are input in advance and stored.

[0012]

With the above structure, in the invention according to claim 1,
First, in the network (1), computers (4, 41, ...) Such as workstations and personal computers send and receive information to and from the host computer, while the air conditioner (5) sets the room temperature to the target temperature. The capacity of the compressor is controlled.

Each computer (4, 41, ...)
The thermal sensation detecting means (72) mounted on each detects the temperature, humidity, etc. near the installation portion of the computer (4, 41, ...). Then, the information output unit (73) outputs the thermal sensation information of the thermal sensation detection unit (72) as network information.

Further, the computer (4, 41, ...)
The installation position data of is stored in the data storage means (31) in advance.

On the other hand, the information fetching means (61) fetches network information, and the information fetching means (6)
The air conditioning control means (63) retrieves the thermal sensation information of the thermal sensation detection means (72) and the installation position data of the data storage means (31) from the network information captured in 1). Then, the air-conditioning control means (63) causes each computer (4, 41, ...) To have a predetermined air-conditioning condition near the installation portion of each computer (4, 41, ...) Based on the thermal sensation information. ), The amount of air blown out is controlled to individually air-condition the users of the computers (4, 41, ...).

According to the second aspect of the invention, the individual data required near the installation portion of each computer (4, 41, ...), That is, the personal information of the user of the computer (4, 41, ...) In the invention according to claim 3, the individual information input means (8) stores the individual data in the data storage means (31), and the control amount deriving means (64) is stored by the individual data. The correction control means (65) corrects the derived control amount to control the operation of the air conditioner (5).

[0017]

Therefore, according to the invention of claim 1,
Since the thermal sensation near the installation portion of each computer (4, 41, ...) Is detected and output as network information, it is possible to perform air conditioning for each user of each computer (4, 41, ...). Therefore, the comfort of each user can be improved, and the air conditioning of the wasted space can be reduced, so that the energy saving can be achieved.

In particular, since the thermal sensation detecting means (72) is provided in the computer (4, 41, ...), the thermal sensation in the vicinity of the user can be reliably detected, and the air conditioning can be performed with high accuracy. It can be performed. Further, since the computer (4, 41, ...) Is provided with the thermal sensation detecting means (72), the power of the thermal sensation detecting means (72) can be taken from the computer (4, 41, ...). Therefore, the thermal sensation can be continuously detected without considering the power supply.

According to the second aspect of the present invention, since the thermal sensation required by each individual is inputted, the air conditioning corresponding to the preference of each user of each computer (4, 41, ...). As a result, it is possible to improve comfort.

According to the third aspect of the invention, since the personal information is stored in the data storage means (31) such as a database, the user of each computer (4, 41, ...) From the network information. Since air conditioning can be performed according to each taste, comfort can be further improved by simple information processing.

[0021]

Embodiments of the present invention will now be described in detail with reference to the drawings.

FIG. 2 shows an embodiment of the invention according to claim 1. (1) is a network in an office, a laboratory, etc., where a plurality of computers ( 4, 41, ...).

In the network (1), a host computer (3) is connected to a network cable (11), a workstation (4) equipped with a computer, a terminal server (42), and a plurality of personal computers (hereinafter referred to as a personal computer). , Called a personal computer.) (41, 4
1, ...) are connected to each other. The terminal server (42) has a plurality of personal computers (4
1, 41, ...) are connected to each of the above personal computers (4
, 41, ...) and the like exchange information with the host computer (3) via the network cable (11).

Further, the host computer (3) has a data storage section (31) storing a database.
Is provided, and the data storage unit (31) stores various information of the personal computers (41, 41, ...) And the workstation (4).
1, 41, ...) And the installation position data of the workstation (4) are preset and constitute a data storage means for storing the data.

On the other hand, in the room (2), the room (2)
A plurality of air conditioners (5, 5, ...) For air conditioning are installed. For example, as shown in FIG. 3, four air conditioners (5, 5 ,. In the air-conditioned area where the air conditioners (5, 5, ...) Are air-conditioned, workstations (4, 4, ...) Or personal computers (41, 41, ...
…) Are installed four each. An air conditioning computer (6) is connected to the air conditioners (5, 5, ...) And the air conditioning computer (6) is connected to the network cable (11).

On the other hand, the workstations (4, 4,
, And the personal computers (41, 41, ...) Are provided with a keyboard (7) as shown in FIG. 4, and the keyboard (7) is provided with a plurality of keys (71, 71, ...). , Thermal sensation sensor (72) and information output unit (73)
Is provided. The thermal sensation sensor (72) is a thermal sensation detecting means including a temperature sensor, a radiation sensor, a humidity sensor and a wind speed sensor, and is a workstation (4).
4, ...) or a personal computer (41, 41, ...) Main body. The thermal sensation sensor (72) includes a workstation (4, 4, ...) And a personal computer (41,
41, ...) The thermal sensation near the installation part is detected, that is, the thermal sensation near the users of the workstations (4, 4, ...) And the personal computers (41, 41, ...) Is detected. It has become.

The information output unit (73) is connected to a thermal sensation sensor (72) and outputs thermal sensation information of the thermal sensation sensor (72) to the network cable (11) as network information. It constitutes information output means.

The air conditioning computer (6)
(6) is provided with an information capturing section (61), an identifying section (62) and an air conditioning control section (63), and the information capturing section (61) is connected to a network cable (11). The host computer (3) and each personal computer (4
1, 41, ...) (41, 43, ...)

The identification unit (62) indicates the personal computers (41, 41, ...) And workstations (4, 4, ...) Working from the network information captured by the information capture units (61) (62). It constitutes an identification means for identification. That is, between the personal computer (41, 41, ...) And the workstation (4, 4, ...) And the host computer (3) directly connected to the network cable (11), the personal computer (41, 41 ,. ) And the workstations (4, 4, ...) (4) are pre-assigned with node names, the identification unit (62) uses a predetermined command to send a personal computer (41, 41, ...) to each node name. Will be identified as to whether or not it is in the on-state.
The personal computers (41, 41, ...) Connected to the terminal server (42) are connected to the terminal server (4).
Since it is connected to each port of 2) by hardware, the identification unit (62) is in an operating state in which the personal computer (41, 41, ...) Connected to any port by a predetermined command is turned on. Whether or not it will be identified. And
The identification unit (62) is a workstation (4, 4, ...)
, And the personal computers (41, 41, ...) Are turned on to identify the users of the workstations (4, 4, ...) And the personal computers (41, 41, ...).

Further, the air conditioning control unit (63) uses the network information captured by the information capturing unit (61) to determine the thermal sensation information of the thermal sensation sensor (72) and the installation position data of the data storage unit (31). In addition, the operation information of the identification unit (62) is received, and the vicinity of the installation part of each workstation (4, 4, ...) or personal computer (41, 41, ...) where the user is located is set to a predetermined air conditioning condition. The air conditioning control means for controlling the operation of the air conditioners (5, 5, ...) Is constituted. That is, each of the air conditioners (5, 5, ...)
Workstations (4, 4,
...) or the personal computer (41, 41, ...) based on the thermal sensation information so that the vicinity of the workstation (4, 4, ...) or the installation part of the personal computer (41, 41, ...) becomes a predetermined air conditioning condition. Further, the temperature of blown air in the direction of each workstation (4, 4, ...) Or the personal computer (41, 41, ...) Is controlled.

Next, the operation control operation of the air conditioner (5) will be described based on the block diagram of FIG. 5 and the control flow diagram of FIG.

First, in the network (1), workstations (4, 4, ...) And personal computers (41, 41,) directly connected to the network cable (11).
...) sends and receives information to and from the host computer (3) via the network cable (11), while the personal computers (41, 4) connected to the terminal server (42).
, 1) exchanges information with the host computer (3) via the network cable (11) by the terminal server (42).

On the other hand, as shown in FIG. 5, the workstations (4, 4, ...) And the personal computers (41, 41, ...)
...) is turned on, power is supplied to the thermal sensation sensor (72), and the thermal sensation sensor (72) is installed in the workstations (4, 4, ...) And the personal computers (41, 41, ...). The environment in the vicinity, that is, the temperature and the like will be detected. The air-conditioning computer (6) is connected to each workstation (4, 4, ...) And personal computer (41, 41,
...) and the personal computer (41, 4) so that the vicinity of the installation section of the (...)
41, ...) The amount of air blown out is controlled.

Therefore, the control operation of the air conditioner (5, 5, ...) Based on the thermal sensation information of the thermal sensation sensor (72) will be described in detail based on the control flow of FIG.

First, in step ST1, workstations (4, 4, ...) And personal computers (41, 41, ...)
...) when the power of the workstations (4, 4, ...) And the personal computer (41, 41, ...) Are mounted on the workstations (4, 4, ...). ...) and personal computers (41, 41, ...) Near the installation temperature and humidity are detected. Next, in step ST2, the information output unit (73) outputs the thermal sensation information of the thermal sensation sensor (72) to the network cable (11) as network information.

On the other hand, in step ST3, the workstations (4, 4, ...) And the personal computers (41, 4).
The installation position data of (1, ...) Is previously stored in the data storage section (31) of the host computer (4, 41, ...).

Then, in step ST4, the information taking-in section (61) of the air conditioning computer (6) takes in network information, and the identifying section (62) is obtained from the network information taken in by this information taking-in section (61). ) Is turned on, the workstations (4, 4, ...) And the personal computers (41, 41, ...) Read out the node names and the like, while the air conditioning control unit (63) receives the node names and the like and fetches the above information. The thermal sensation information of the thermal sensation sensor (72) and the data storage section (3) based on the network information captured by the section (61).
The installation position data of 1) will be extracted. continue,
In step ST5, the air conditioning control unit (63) causes the workstations (4, 4, 4) to operate based on the thermal sensation information.
...) and the personal computers (41, 41, ...) so that the vicinity of the installation portion is under a predetermined air conditioning condition, the amount of air blown toward the workstations (4, 4, ...) and the personal computers (41, 41, ...). Etc. will be controlled.

That is, the workstation (4,
4, ...) and the personal computers (41, 41, ...) By detecting the ON state of the personal computers (4, ...)
, 41) of the personal computer (41, 41, ...) Which is the air-conditioning direction is detected by detecting the presence of a user such as 1, 41 ,. The users such as personal computers (41, 41, ...) Are individually air-conditioned based on the cooling sensation information.

Therefore, the workstation (4,
, ...) and personal computers (41, 41, ...) Detect the thermal sensation near the installation part and output it as network information.
4, ...) and personal computers (41, 41, ...) Can be air-conditioned for each user, so that the comfort of each user can be improved and the air-conditioning of useless space is reduced. Therefore, energy saving can be achieved.

In particular, since the thermal sensation sensor (72) is provided on each keyboard (7), the thermal sensation near the user can be reliably detected, and accurate air conditioning can be performed. it can. Furthermore, the above personal computer (41, 41, ...)
Since the thermal sensation sensor (72) is provided in the computer, the electric power of the thermal sensation sensor (72) can be taken from the personal computer (41, 41, ...) It is possible to detect the thermal sensation.

FIG. 7 shows an embodiment of the invention according to claim 2, in which an individual information input section (8) which is an individual information input means is provided and an air conditioning computer (6) is provided.
In place of the air conditioning control unit (63), the control amount derivation unit (6
4) and a correction controller (65) are provided.

The individual information input section (8) includes the workstations (4, 4, ...) And the personal computers (41, 41,).
...) individual data of the required thermal sensation is input and stored in the vicinity of the installation part of the personal computer, that is, individual users of the workstations (4, 4, ...) And personal computers (41, 41, ...). The individual data of the taste of is stored, and the individual data of the individual information input unit (8) is input to the air conditioning computer (6).

The control amount deriving unit (64) also stores the thermal sensation information of the thermal sensation sensor (72) extracted from the network information of the information capture unit (61) and the data storage unit (3).
Based on the installation position data of 1), each computer (4,
(41, ...) Configures a control amount deriving means for deriving the control amount of the air conditioner (5, 5, ...) In such a manner that the vicinity of the installation portion of each of the air conditioners 41, ...

On the other hand, the correction control section (65) receives the individual data from the individual information input section (8) and receives the control amount deriving section (6).
Compensation control means for compensating the control amount of 4) to control the operation of the air conditioner (5, 5, ...) Is constituted, that is, the workstation (4, 4, ...) And the personal computer (41, 4.
41, ...) is configured to correct and control the control amount according to the preference of the user.

Therefore, the control operation of the air conditioner (5, 5, ...) Based on the thermal sensation information of the thermal sensation sensor (72) will be described in detail based on the control flow of FIG.

First, in step ST11, workstations (4, 4, ...) And personal computers (41, 41, ...)
...) when the power of the workstations (4, 4, ...) And the personal computer (41, 41, ...) Are mounted on the workstations (4, 4, ...). ..) and personal computers (41, 41, ...) Near the temperature and humidity near the installation part, and the information output part (73) outputs the thermal sensation information to the network cable (11) as network information.

On the other hand, in step ST12, the workstations (4, 4, ...) And the personal computers (41, 4).
1, ...) The individual data of the user is input to the individual information input unit (8) in advance, and in step ST13,
The installation position data of the workstations (4, 4, ...) And the personal computers (41, 41, ...) Are previously stored in the data storage section (31) of the host computer (4, 41, ...).

After that, in step ST14, the information taking-in section (61) of the air-conditioning computer (6) takes in network information, and this information taking-in section (61)
From the network information taken in by the identification unit (62), the workstations (4, 4, ...) And the personal computers (41, 41, ...) With the ON state read out the node name and the like, while the control amount derivation unit (64) , Receiving the node name and the like, and extracting the thermal sensation information of the thermal sensation sensor (72) and the installation position data of the data storage unit (31) from the network information captured by the information capture unit (61), Each of the above workstations (4, 4, ...) And a personal computer (41, 41,
...) and the personal computer (41, 4) so that the vicinity of the installation section of the (...)
41, ...) Derives a control amount such as the amount of blown air.
Then, the control amount of the control amount deriving unit (64) is received by the correction control unit (65), and the individual data of the individual information input unit (8) is received by the correction control unit (65).
Moving to 15, the correction control unit (65) installs the workstations (4, 4, ...) And the personal computers (41, 41, ...) on the basis of the thermal sensation information in consideration of individual tastes. Each of the workstations (4, 4, ...) And the personal computers (41, 41, so that the vicinity thereof has a predetermined air conditioning condition.
The amount of air blown out in the direction of ...) is controlled.

Therefore, since the thermal sensation required by each individual is input, the air conditioning can be performed in accordance with the preference of each user of each personal computer (41, 41, ...) And the like, which is more comfortable. It is possible to improve the sex.

FIG. 9 shows an embodiment of the invention according to claim 3, and, as shown in FIG. 7, an individual information input section (8).
Instead of this, the individual data is stored in the data storage section (31) of the host computer (3). Therefore, the individual information input unit (8) shown in FIG. 7 is not provided, and other configurations are the same as in the previous embodiment.

Therefore, the control operation of the air conditioner (5, 5, ...) Based on the thermal sensation information of the thermal sensation sensor (72) will be described in detail based on the control flow of FIG.

First, in step ST21, workstations (4, 4, ...) And personal computers (41, 41, ...)
() Is turned on, the thermal sensation sensor (72) causes the workstation (4, 4, ...) And the personal computer (4).
1, 41, ...) detects the temperature and humidity near the installation part,
The information output unit (73) outputs the thermal sensation information to the network cable (11) as network information.

On the other hand, in step ST22, the workstations (4, 4, ...) And the personal computers (41, 4).
The individual data of the user (1, ...) Is previously stored in the data storage unit (31) of the host computer (4, 41, ...), and in step ST23, the individual data of the data storage unit (31) is read. Workstation (4
4, ...) and personal computers (41, 41, ...) Users are identified. In step ST24, the workstations (4, 4, ...) And the personal computers (41, 41,
...) installation position data is stored in advance in the data storage unit (31) of the host computer (4, 41, ...).

Then, in step ST25, the information taking-in section (61) of the air-conditioning computer (6) takes in network information, and this information taking-in section (61)
From the network information taken in by the identification unit (62), the workstations (4, 4, ...) And the personal computers (41, 41, ...) With the ON state read out the node name and the like, while the control amount derivation unit (64) , Receiving the node name and the like, and extracting the thermal sensation information of the thermal sensation sensor (72) and the installation position data of the data storage unit (31) from the network information captured by the information capture unit (61), Each of the above workstations (4, 4, ...) And a personal computer (41, 41,
...) and the personal computer (41, 4) so that the vicinity of the installation section of the (...)
41, ...) Derives a control amount such as the amount of blown air.
Then, the correction control unit (65) receives the control amount of the control amount derivation unit (64), and corrects the individual data of the data storage unit (31) from the network information captured by the information capturing unit (61). Part (65) receives, step ST
26, the correction control unit (65) sets the work stations (4, 4, ...) And the personal computers (41, 41, ...) on the basis of the thermal sensation information in consideration of individual tastes. Each of the workstations (4, 4, ...) And the personal computers (41, 41, so that the vicinity thereof has a predetermined air conditioning condition.
The amount of air blown out in the direction of ...) is controlled.

Therefore, the data storage section (3
Since personal information is stored in 1), it is possible to perform air conditioning corresponding to the preference of each user of each personal computer (41, 41, ...) From network information, so simple information processing makes it more comfortable. It is possible to improve the sex.

In this embodiment, the thermal sensation sensor (72) and the information output section (73) are provided on the keyboard (7).
Workstations (4, 4, ...) And personal computers (4
1, 41, ...) may be provided in the main body or the like.

Further, the number of air conditioners (5) is not limited to a plurality, but may be one.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of the present invention.

FIG. 2 is a configuration diagram showing a network.

FIG. 3 is a plan view of the room showing the arrangement of a personal computer and the like.

FIG. 4 is a plan view of the keyboard.

FIG. 5 is a block diagram showing control of air conditioning operation.

FIG. 6 is a control flow diagram of air conditioning operation.

FIG. 7 is a configuration diagram showing a network of another embodiment.

FIG. 8 is a control flow chart of air conditioning operation showing a second embodiment.

FIG. 9 is a control flow chart of air conditioning operation showing a third embodiment.

[Explanation of symbols]

 1 network 2 indoor 3 host computer 4 workstation 5 air conditioner 6 air conditioning computer 8 individual information input unit 31 data storage unit 41 personal computer 61 information acquisition unit 62 identification unit 63 air conditioning control unit 64 controlled variable derivation unit 65 correction control unit 72 Thermal sensor 73 Information output section

Claims (3)

[Claims] 1. A plurality of computers (4, 41, ...)
It is an operation control device of an air conditioner connected to a network (1) provided with and controlling operation of an air conditioner (5), wherein installation position data of each computer (4, 41, ...) Is input in advance. Data storage means (31) for storing the installation position data, and a thermal sensation in the vicinity of the installation part of the computer (4, 41, ...) Installed in each computer (4, 41, ...) The thermal sensation detecting means (72) is mounted on each of the computers (4, 41, ...) And is connected to the thermal sensation detecting means (72) so that the temperature of the thermal sensation detecting means (72). Information output means (73) for outputting cooling sensation information, information capturing means (61) for capturing the information of the network (1), and thermal sensation detecting means extracted from the network information of the information capturing means (61). (72) Based on the thermal sensation information and the installation position data of the data storage means (31), the air conditioner (5) is controlled such that the vicinity of the installation part of each computer (4, 41, ...) Has a predetermined air conditioning condition. An air conditioner control unit (63) for controlling the operation of the air conditioner. 2. A plurality of computers (4, 41, ...)
It is an operation control device of an air conditioner connected to a network (1) provided with and controlling operation of an air conditioner (5), wherein installation position data of each computer (4, 41, ...) Is input in advance. Data storage means (31) for storing the installation position data, and a thermal sensation in the vicinity of the installation part of the computer (4, 41, ...) Installed in each computer (4, 41, ...) The thermal sensation detecting means (72) is mounted on each of the computers (4, 41, ...) And is connected to the thermal sensation detecting means (72) so that the temperature of the thermal sensation detecting means (72). The information output means (73) for outputting the cooling sensation information, the information acquisition means (61) for taking in the information of the network (1), and the vicinity of the installation part of each computer (4, 41, ...) Are required. Individual day of warm and cold feeling Is input and stores the individual data, the individual information input means (8), and the thermal sensation information and data storage means (72) of the thermal sensation detection means (72) extracted from the network information of the information acquisition means (61). Control amount deriving means for deriving the control amount of the air conditioner (5) from the installation position data of (31) so that the vicinity of the installation part of each computer (4, 41, ...) Has a predetermined air conditioning condition. 64) and correction control means (65) for correcting the control amount of the control amount deriving means (64) corresponding to the individual data of the individual information input means (8) and controlling the operation of the air conditioner (5). ) An operation control device for an air conditioner, comprising: 3. A plurality of computers (4, 41, ...)
An operation control device of an air conditioner connected to a network (1) including: and controlling operation of an air conditioner (5), comprising: installation position data of each computer (4, 41, ...) And each computer (4). , 41) are individually input with the individual data of the thermal sensation required for each vicinity of the installation portion, and data storage means (31) for storing the respective data, and the computers (4, 41, ...). ), And a thermal sensation detecting means (72) for detecting thermal sensation in the vicinity of the installation part of the computer (4, 41, ...) And also mounted on each computer (4, 41, ...). Information output means (73) connected to the thermal sensation detecting means (72) for outputting thermal sensation information of the thermal sensation detecting means (72), and information for taking in information of the network (1) The capturing means (61) and the information Based on the thermal sensation information of the thermal sensation detecting means (72) extracted from the network information of the capturing means (61) and the installation position data of the data storage means (31), the installation part of each computer (4, 41, ...) Corresponding to the control amount deriving means (64) for deriving the control amount of the air conditioner (5) so that the vicinity has a predetermined air conditioning condition, and the individual data extracted from the network information of the information capturing means (61). Then, the control amount deriving means (6
An operation control device for an air conditioner, comprising: a correction control means (65) for correcting the control amount of 4) and controlling the operation of the air conditioner (5).