JP2003074943A - Method and system for controlling air conditioning - Google Patents

Abstract

PROBLEM TO BE SOLVED: To control the energy being consumed for air conditioned object, e.g. a building, rationally without causing any damage on the comfortableness of residents and without requiring any extra sensor. SOLUTION: The air conditioning system comprises a section 31 for holding the latest weather information of an objective zone collected from a weather company 1 through a network 2, a section 32 for calculating the discomfort index of outer air every hour (or every day) based on the weather information held at the latest weather information holding section 31, a section 33 holding conditions for deciding whether operation of an air conditioner is required or not, a section 34 for making a decision whether operation of an air conditioner is required or not for each zone based on the conditions for deciding whether operation of the air conditioner is required or not held at the section 33 and a discomfort index calculated at the section 32, and a section 35 for receiving decision results from the section 34 and delivering the operational information of the air conditioner to an object through the network 2.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air-conditioning control method and apparatus for rationally controlling air-conditioning energy consumption of a target object such as a building without impairing the comfort of the occupants.

[0002]

2. Description of the Related Art Conventionally, as a method for realizing energy saving by rationally controlling the air-conditioning energy consumption of a target property such as a building without impairing the comfort of the occupants, (1) an index based on experience {For example, PMV (predicted mean thermal sensation report: Predicted Mean Vo
te)} is used to reduce unnecessary air conditioning,
Method for realizing energy saving (Japanese Patent Laid-Open No. 10-14173)
(See Japanese Patent Laid-Open No. 6), (2) A method of deciding on / off of each air conditioner, set temperature, etc. on a daily schedule
000-121126), and (3) a method of determining the start time of the air conditioner using weather information (see Japanese Patent Publication No. 60-24889).

[0003]

When the method (1) is adopted, not only the temperature sensor but also the humidity sensor,
A radiation sensor is required, which not only causes an increase in cost as a whole, but also requires the maintenance of these sensors.

When the method (2) is adopted, since the daily climate change (daily weather) is not taken into consideration at all, there is a possibility that unnecessary air conditioning will be performed depending on the climate of the day. Not only that, there is a possibility that excess and deficiency of heat will occur.

When the method (3) is adopted, the starting time for precooling and residual heat is simply determined, so the operation of the air conditioner should be optimized over the entire range of the air conditioning time zone. I can't.

[0006]

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and does not require a special sensor to reduce the energy consumption of air conditioning of a target object such as a building without impairing the comfort of the occupants. It is an object of the present invention to provide an air-conditioning control method and a device for controlling it reasonably.

[0007]

According to the air conditioning control method of claim 1, the outside air information is collected from a weather company through a network, and the outside air information of the area where the target property to be air-conditioned is present is collected from the collected outside air information. It is a method of extracting the operating information including at least one of the necessity of operating the air conditioner based on the sensation and the set temperature based on the extracted outside air information, and supplying the operating information to the target property.

An air conditioning control method according to a second aspect is a method of generating operation information in a predetermined time unit and supplying the operation information to the target property.

According to a third aspect of the air conditioning control method, after the daily operation information is generated and supplied to the target property, the operation information is generated from the latest outside air information and the daily operation information is updated. Is.

An air conditioning control method according to a fourth aspect is a method of generating operation information instructing that the operation of the air conditioner is unnecessary in response to the outside air discomfort index being within a predetermined range.

A fifth aspect of the air conditioning control method is a method of generating operation information instructing to relax the set temperature of the air conditioner in response to the outside air humidity being equal to or lower than a predetermined humidity.

According to another aspect of the present invention, an air conditioning control device extracts outside air information from a weather company through a network and collects outside air information, and extracts outside air information of an area where the target property to be air-conditioned is present from the collected outside air information. Based on the extracted outside air information, based on the extracted outside air information, operation information generating means for generating operation information including at least one of the necessity of operating the air conditioner based on the sensation and the set temperature, and the generated operation information. It includes a driving information supply means for supplying the target property.

The air conditioning control device according to a seventh aspect of the present invention employs, as the operation information generating means, a device that generates operation information in a predetermined time unit.

According to another aspect of the present invention, the air-conditioning control device, as the operation information generating means, generates operation information in units of one day, and then generates operation information from the latest outside air information to update the operation information in units of one day. The one that adopts the thing.

According to another aspect of the present invention, the air-conditioning control device, as the operation information generating means, generates operation information indicating that the operation of the air conditioner is unnecessary in response to the outside air discomfort index being within a predetermined range. The ones that do are adopted.

According to a tenth aspect of the present invention, the air-conditioning control device, as the operation information generating means, generates operation information instructing to relax the set temperature of the air conditioner in response to the outside air humidity being equal to or lower than a predetermined humidity. The one that adopts the thing.

[0017]

According to the air conditioning control method of claim 1, the outside air information is collected from the weather company through the network, and the outside air information of the area where the target property to be air-conditioned is present is extracted from the collected outside air information and extracted. Based on the outside air information, the operation information including at least one of the necessity of operating the air conditioner and the set temperature based on the sensation is generated and supplied to the target property. Using the outside air information collected from the air conditioner, it is possible to operate the air conditioner in an energy-saving manner without impairing comfort.

According to the air-conditioning control method of claim 2, since the operation information is generated in units of a predetermined time and supplied to the target property, the air-conditioner can be controlled finely in time to achieve the same as in claim 1. The action of can be achieved.

According to the air conditioning control method of claim 3, after the daily operating information is generated and supplied to the target property, the operating information is generated from the latest outside air information to update the daily operating information. Therefore, the operation similar to that of claim 1 can be achieved by updating the daily driving information as necessary.

According to the air conditioning control method of the fourth aspect, since the operating information indicating that the operation of the air conditioner is unnecessary is generated in response to the outside air discomfort index being within the predetermined range. It is possible to significantly reduce the power consumption with the stop of the operation of the air conditioner, and to achieve the same effect as that of any one of claims 1 to 3.

According to the air conditioning control method of the fifth aspect, the operating information is generated in response to the outside air humidity being lower than or equal to a predetermined humidity to instruct to relax the set temperature of the air conditioner. It is possible to significantly reduce the power consumption with the relaxation of the temperature and achieve the same operation as that of any one of claims 1 to 4.

According to the air conditioning control device of claim 6, the outside air information collecting means collects the outside air information from the meteorological company through the network, and the outside air information extracting means collects the outside air information from the collected outside air information of the target property to be air-conditioned. Extract outside air information of existing areas. Then, based on the extracted outside air information, the operation information generating unit generates operation information including at least one of the necessity of operating the air conditioner based on the sensation and the set temperature, and the operation information supplying unit generates the generated operation. Information can be supplied to the target property.

Therefore, it is possible to operate the air conditioner in an energy-saving operation without spoiling comfort by using the outside air information collected from the weather company without providing a special sensor.

In the air-conditioning control device according to the seventh aspect, since the operation information generating means for generating the operation information in a predetermined time unit is adopted, it is possible to finely control the air conditioner in time. The same effect as that of claim 6 can be achieved.

In the air-conditioning control device according to the present invention, the operation information generating means generates the operation information in units of 1 day, and then generates the operation information from the latest outside air information to obtain the operation information in units of 1 day. Since what is updated is adopted, the operation similar to that of claim 6 can be achieved by updating the daily driving information as necessary.

According to the air conditioning control device of claim 9, the operation information generating means, in response to the outside air discomfort index being within a predetermined range, indicates that the operation of the air conditioner is unnecessary. Since the one that generates is used, it is possible to significantly reduce the power consumption when the operation of the air conditioner is stopped, and it is possible to achieve the same operation as that of any one of claims 6 to 8.

According to the air conditioning control device of claim 10, as the operation information generating means, operation information for instructing to relax the set temperature of the air conditioner in response to the outside air humidity being equal to or lower than a predetermined humidity is provided. Since we are using what we generate,
It is possible to significantly reduce the power consumption with the relaxation of the set temperature, and to achieve the same effect as that of any one of claims 6 to 9.

[0028]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of an air conditioning control method and apparatus of the present invention will be described in detail below with reference to the accompanying drawings.

FIG. 1 is a diagram schematically showing the configuration of an air conditioning control system to which the air conditioning control method of the present invention is applied.

This air conditioning control system includes a weather company 1 that distributes weather information (outside air information), a remote monitoring center 3 that collects weather information from the weather company 1 through a network 2 and generates operation information, and at least one. It includes at least one air conditioner, and has at least one target property 4 for controlling the operation of the air conditioner based on the operation information supplied from the remote monitoring center 3 through the network 2.

Examples of the network 2 include a public telephone network and the Internet, which may be wired or wireless.

FIG. 2 is a block diagram showing an example of the remote monitoring center 3 in detail.

The remote monitoring center 3 has the latest weather information (for example, the weather up to 48 hours ahead) collected from the weather company 1 through the network 2 in the target area (for example, the area where any target property exists). Information) and the target area latest weather information storage unit 31 and the time (or day) for calculating the outside air discomfort index for each time (or day) based on the weather information held in the target area latest weather information storage unit 31 ) It is held in the outside air discomfort index calculation unit 32, the air conditioner operation required / unnecessary condition storage unit 33 that holds the condition for determining whether or not the air conditioner needs to be operated, and the air conditioner operating required / unnecessary condition storage unit 33. The conditioner for determining whether or not the air conditioner needs to be operated and the outside air discomfort index calculated by the outside air discomfort index calculator 32 are input to determine whether or not to operate the air conditioner for each region. The necessary / unnecessary determination unit 34 and the air conditioner operation information distribution unit 35 that supplies the operation information of the air conditioner to the target property 4 through the network 2 with the determination result of the regional air conditioner operation required / unnecessary judgment unit 34 as an input. have.

However, when the target property 4 existing in a plurality of target areas is targeted for remote monitoring, the weather information of all the corresponding areas is collected, and the weather information of any one of these areas is collected. Extract and perform processing based on the extracted weather information.

The operation of the above air conditioning control system is as follows.

The meteorological information is collected from the meteorological company 1 through the network 2 and stored in the target area latest meteorological information storage unit 31, and based on this meteorological information, the outside air discomfort index calculation unit 32 calculates the time (or the time) (or the time). Calculate the outdoor air discomfort index for each day.

The air conditioner operation required / unnecessary condition storage unit 3
The condition for determining whether or not to operate the air conditioner held in 3 and the outside air discomfort index calculated by the outside air discomfort index calculation unit 32 are input, and the region-by-region air conditioner operation necessity / non-necessity determination unit 34 determines the area. Whether or not it is necessary to operate the air conditioner is determined, and based on the result of this judgment, the air conditioner operation information distribution unit 35
The operation information of the air conditioner is supplied to the target property 4 via the network 2.

In the target property 4, the operation of the air conditioner may be controlled based on the supplied operation information, and the air conditioning energy consumption of the target property can be controlled rationally without impairing the comfort of the occupants. As a result, energy saving can be realized. Moreover, since it is not necessary to provide a special sensor, it is possible to prevent an increase in cost and eliminate the need for maintenance of the sensor.

Further description will be made.

The outside air discomfort index is within a predetermined range (for example, 6
0 to 70: However, since there is a possibility that it may differ depending on the target property, it is necessary to measure in advance for each property based on the experience. ), Comfort does not deteriorate even if the air conditioner is stopped (see the comfortable range in FIG. 3).
If the value that defines the above-mentioned predetermined range is stored in the air conditioner operation required / unnecessary condition storage unit 33, the air conditioner operation required for each area /
The necessity determination unit 34 can easily determine the necessity of operating the air conditioner. As a result, the operation of the air conditioner can be stopped without impairing the comfort.

FIG. 3 shows a comfortable range. Within this range, no matter whether cooling or heating is performed, the comfortable range is maintained. Therefore, neither cooling nor heating is required. Energy saving can be realized by stopping the operation of the air conditioner.

When the humidity is low, the comfort is not significantly impaired even if the set temperature for cooling is raised to some extent.
In other words, the discomfort index remains approximately constant. Then, energy saving can be realized by increasing the set temperature of cooling.

Further, it is judged whether or not the air conditioner needs to be operated and the set temperature is changed at relatively short predetermined time intervals (for example, 1
If it is performed every hour, it is possible to prevent the occurrence of a situation where the set temperature is exceeded during the heating operation (see FIG. 4). FIG. 4 shows the set temperature, the room temperature, and the outside air temperature. When it is found from the meteorological information collected from the meteorological company 1 that the outside air temperature rises sharply or rises above the set temperature, If the heating operation is continued as it is, the room temperature becomes higher than the set temperature. However, in consideration of the outside air temperature information, it is possible to prevent the room temperature from exceeding the set temperature as shown by the dotted line in FIG. 4 by stopping the heating operation in advance or relaxing the set temperature of the air conditioner. You can In other words, useless power consumption due to overheating can be eliminated.

Although the case where the air-conditioning control is automatically performed has been described above, as shown in FIG. 16, the fact that the energy-saving operation is possible, the time zone in which the set temperature can be relaxed, and the air-conditioning are controlled. It is also possible to distribute the weather information of today and the time when the aircraft can be stopped and display it on the screen so that the person in charge of maintenance of the target property can make operational decisions.

FIG. 5 is a block diagram showing another example of the remote monitoring center 3 in detail.

The remote monitoring center 3 has the latest weather information (for example, the weather up to 48 hours ahead) of the target area (for example, the area where any target property exists) collected from the weather company 1 through the network 2. Information) and the outside temperature and humidity for extracting the outside temperature and the humidity at each time (or every day) based on the weather information held in the latest region weather information storage section 31. Extraction unit 32 ', proper set temperature storage unit 33' for holding a proper set temperature for operating the air conditioner, and proper set temperature and outside air temperature / humidity extraction held in the proper set temperature storage unit 33 ' It is calculated by the set temperature calculation unit 34 ', which calculates the set temperature for operating the air conditioner for each region, using the outside air temperature and humidity extracted by the unit 32' as input, and the set temperature calculation unit 34 '. Setting and supplies the set temperature in the object being 4 through the network 2 Temperature distribution unit 3
5'and.

In the proper set temperature storage unit 33 ', for example, since the proper set temperature is held in correspondence with the outside air temperature and the outside air humidity, the appropriate set temperature corresponding to the outside air temperature and the outside air humidity is read out. be able to. When the outside air temperature and the outside air humidity are not set very finely, the set temperature calculation unit 34 'may perform the interpolation calculation.

The operation of the above remote monitoring center 3 is as follows.

Meteorological information is collected from the meteorological company 1 through the network 2 and held in the target area latest meteorological information storage section 31. Based on this meteorological information, the outside temperature / humidity extraction section 3
2'extracts the outside air temperature and humidity at each time (or every day).

Then, the proper set temperature for operating the air conditioner held in the proper set temperature storage section 33 'and the outside air temperature extracted by the outside air temperature / humidity extraction section 32',
Using the humidity as an input, the set temperature calculation unit 34 'calculates an appropriate set temperature for operating the air conditioner for each area,
An appropriate set temperature for operating the air conditioner is supplied to the target property 4 via the network 2 by the set temperature distribution unit 35 '.

In the target property 4, the operation of the air conditioner may be controlled based on the supplied set temperature, and the air conditioning energy consumption of the target property can be controlled rationally without impairing the comfort of the occupants. As a result, energy saving can be realized. Moreover, since it is not necessary to provide a special sensor, it is possible to prevent an increase in cost and eliminate the need for maintenance of the sensor.

Also in this embodiment, instead of performing the automatic control, as shown in FIG. 16, the energy saving operation is possible, the set temperature can be relaxed, and the air conditioner can be stopped. , And today's weather information,
By displaying the screen, it is possible to use it for the operation judgment of the person in charge of maintenance of the target property.

FIG. 6 is a flow chart for explaining an embodiment of the air conditioning control method of the present invention.

Meteorological information is collected from the meteorological company 1 through the network 2, and in step SP1, the applicable meteorological information (for example, time, temperature, and humidity) is referred to,
In step SP2, the discomfort index for each time is calculated.

The air conditioner operation required / unnecessary condition storage section 3
The operation necessity / unnecessity condition held in 3 is referred to, the operation necessity / unnecessity is determined for each time based on the calculated discomfort index in step SP3, and the operation stop schedule of the air conditioner is determined in step SP4. In step SP5, the operation stop information is distributed to the target property 4 through the network 2, and the series of processing is terminated.

FIG. 7 is a flow chart for explaining the control of the air conditioner in the target property.

In step SP1, the operation stop information is received through the network 2, and in step SP2, in response to the reception of the operation stop information, the operation stop command is supplied to the air conditioner, and the series of processing is terminated. .

Therefore, by performing the processing of the flow charts of FIGS. 6 and 7, the same operation as that of the embodiment of FIG. 2 can be achieved.

Also in this embodiment, instead of performing the automatic control, as shown in FIG. 16, the energy saving operation is possible, the set temperature can be relaxed, and the air conditioner can be stopped. , And today's weather information,
By displaying the screen, it is possible to use it for the operation judgment of the person in charge of maintenance of the target property.

FIG. 8 is a flow chart for explaining another embodiment of the air conditioning control method of the present invention.

The meteorological information is collected from the meteorological company 1 through the network 2, and in step SP1, the applicable meteorological information (for example, time, temperature, and humidity) is referred to,
In step SP2, the temperature and humidity at each time are extracted.

Then, referring to the proper set temperature for the operation of the air conditioner, which is held in the proper set temperature storage section 33 ', in step SP3, setting is made for each time based on the extracted temperature and humidity. Calculate temperature, step S
In P4, a set temperature schedule for the operation of the air conditioner is created, and in step SP5, the set temperature information is distributed to the target property 4 through the network 2, and the series of processes is terminated.

FIG. 9 is a flow chart for explaining the control of the air conditioner in the target property.

At step SP1, the set temperature information is received through the network 2, and at step SP2, the set temperature command is supplied to the air conditioner in response to the reception of the set temperature information, and the series of processing is terminated. .

Therefore, by performing the processing of the flow charts of FIGS. 8 and 9, the same operation as that of the embodiment of FIG. 5 can be achieved.

Also in this embodiment, instead of performing the automatic control, as shown in FIG. 16, the energy saving operation is possible, the set temperature can be relaxed, and the air conditioner can be stopped. , And today's weather information,
By displaying the screen, it is possible to use it for the operation judgment of the person in charge of maintenance of the target property.

By adopting each of the above-mentioned embodiments, it is possible to realize the energy-saving operation of the air conditioner without providing a special sensor. In addition, by using the weather information, it is possible to optimize the set temperature in real time.

In each of the above-described embodiments, the operation information (operation required / unnecessary information, set temperature information) may be distributed every predetermined time (for example, every hour), but a daily schedule is created. Then you may go only once. It is also possible to correct the driving information in real time based on the latest weather information after delivering the daily schedule.

Next, a specific example will be described.

FIGS. 10 and 11 show the case where the set temperature of the air conditioner is relaxed by 1 ° C. and 2 ° C., respectively (in the case of the cooling operation, the set temperature is increased and in the heating operation, the set temperature is lowered) in a certain object. It is a figure which shows the actual measurement data of the change of average power consumption (average power consumption for 1 minute), and achieves a power consumption reduction of about 10% by relaxing the set temperature by 1 ° C and about 20% by relaxing it by 2 ° C. I see what I can do.

FIG. 12 shows the measurement of the absolute humidity of the outside air (see a in the figure) and the absolute humidity of the room (see b in the figure) during the period from August 1, 2000 to August 31, 2000 in this target property. It is a figure which shows a result. The set temperature is 26
The room absolute humidity (see c, d, and e in the figure) that gives a discomfort index of 74.6 at C, 27 C, and 28 C is also shown.

Here, the set temperature is 26 ° C., 27 ° C., 28
The indoor absolute humidity at which the discomfort index becomes 74.6 at ℃ is as shown in Table 1, and the regression line y = 0.3074 * x
The outside air absolute humidity calculated using +0.0058 (y is the indoor absolute humidity, x is the outdoor absolute humidity) is also as shown in Table 1. Therefore, since there is a correlation between the indoor absolute humidity and the outdoor absolute humidity, it is possible to predict the indoor absolute humidity from meteorological information and achieve the optimization of the set temperature based on the predicted indoor absolute humidity. Will be possible.

[0073]

[Table 1]

The frequency of occurrence of the discomfort index when the set temperature is set to 26 ° C. is as shown in FIG. 13, and the discomfort index does not exceed 74.6.
Frequently less than 6. Then, the frequency of occurrence of the discomfort index when the set temperature is set to 27 ° C. is as shown in FIG. 14, and the discomfort index frequently exceeds 74.6. Also, considering the indoor absolute humidity when the set temperature is set to 27 ° C and 28 ° C, the set temperature is set to 2
57% of the time can be set to 7 ° C (1 ° C can be relaxed) and 18% can be set to 28 ° C (2 ° C can be relaxed). Optimizing the set temperature by changing the set temperature in this way In the case of the change, as shown in FIG. 15, the discomfort index does not exceed 74.6, and the discomfort index does not become smaller than 73.8. That is, the discomfort index can be set within an appropriate range, and comfort can be secured.

Here, the discomfort index 75 is known as the comfort limit, but in the above, the discomfort index 74.6 is adopted as the comfort maintenance index with respect to this comfort limit.

When the set temperature is relaxed as described above, the power consumption is 0.093 (= 0.1 * 0.57).
It can be reduced by + 0.2 * 0.18). That is, power consumption can be reduced by about 9.3% as compared with the case where the set temperature is kept fixed at 26 ° C.

When the set temperature is kept fixed at 26 ° C., the power consumption by the air conditioner during the above period is 1475 kW.
If h, the energy saving amount is 137 kWh (=
1475 * 0.093).

[0078]

According to the invention of claim 1, the outside air information collected from the meteorological company is used without providing a special sensor,
It has a unique effect that the air conditioner can be operated in an energy-saving manner without impairing comfort.

The invention according to claim 2 has the same effect as that of claim 1 by controlling the air conditioner finely in time.

The invention of claim 3 achieves the same effect as that of claim 1 by updating the daily driving information as necessary.

According to the invention of claim 4, the power consumption is drastically reduced when the operation of the air conditioner is stopped, and the same effect as that of any one of claims 1 to 3 is achieved.

According to the invention of claim 5, the power consumption is greatly reduced as the set temperature is relaxed, and the same effect as that of any one of claims 1 to 4 is obtained.

The invention according to claim 6 has a peculiar effect that the air conditioner can be operated in an energy-saving manner without spoiling comfort by using outside air information collected from a weather company without providing a special sensor. .

The invention of claim 7 achieves the same effect as that of claim 6 by controlling the air conditioner finely in time.

The invention of claim 8 achieves the same effect as that of claim 6 by updating the daily driving information as necessary.

According to the invention of claim 9, the power consumption is drastically reduced when the operation of the air conditioner is stopped, and the same effect as that of any one of claims 6 to 8 is obtained.

According to the tenth aspect of the invention, the power consumption is greatly reduced with the relaxation of the set temperature, and the same effect as that of any of the sixth to ninth aspects is obtained.

[Brief description of drawings]

FIG. 1 is a diagram schematically showing a configuration of an air conditioning control system to which an air conditioning control method of the present invention is applied.

FIG. 2 is a block diagram showing an example of a remote monitoring center in detail.

FIG. 3 is a diagram schematically showing a comfort range.

FIG. 4 is a diagram illustrating prevention of excessive heating.

FIG. 5 is a block diagram showing another example of a remote monitoring center in detail.

FIG. 6 is a flowchart illustrating an embodiment of the air conditioning control method of the present invention.

FIG. 7 is a flowchart illustrating control of an air conditioner in a target property.

FIG. 8 is a flowchart illustrating another embodiment of the air conditioning control method of the present invention.

FIG. 9 is a flowchart illustrating control of an air conditioner in a target property.

FIG. 10 is a diagram showing reduction in average power consumption by relaxing the set temperature by 1 ° C.

FIG. 11 is a diagram showing reduction in average power consumption by relaxing the set temperature by 2 ° C.

FIG. 12 is a diagram showing an example of measurement of outside air absolute humidity and indoor absolute humidity.

FIG. 13 is a diagram showing the frequency of occurrence of discomfort index when the set temperature is set to 26 ° C.

FIG. 14 is a diagram showing the frequency of occurrence of discomfort index when the set temperature is set to 27 ° C.

FIG. 15 is a diagram showing the frequency of occurrence of discomfort index when the set temperature is optimized.

FIG. 16 is a diagram showing an example of a display screen by the energy saving information providing service.

[Explanation of symbols]

1 Meteorological company 2 Network 4 Target property 31 Target area Latest weather information storage section 34 Area air conditioner operation required / not required determination section 34 'Set temperature calculation unit 35 Air Conditioner Operation Information Distribution Department 35 'Set temperature distribution unit

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Satoshi Hashimoto             2 of 1000 Otani, Okamoto-cho, Kusatsu-shi, Shiga             Daikin System Solution Co., Ltd.             Within the Institute (72) Inventor Tetsuro Iwata             Die, 3-21-3 Tarumi-cho, Suita City, Osaka Prefecture             Kin Kogyo Co., Ltd. Esaka Building F-term (reference) 3L060 AA03 CC03 CC06 CC08 CC19                       DD02 EE22                 3L061 BA05                 5K048 BA08 BA51 EA11 EB02 FC01                       HA01 HA02

Claims (10)

[Claims] 1. Meteorological company (1) to network (2)
The outside air information is collected through the outside air information, and the outside air information of the area where the target property (4) that is the air conditioning control target exists is extracted from the collected outside air information. An air conditioning control method, characterized in that operation information including at least one of necessity and set temperature is generated and supplied to a target property (4). 2. The air conditioning control method according to claim 1, wherein the operation information is generated in a predetermined time unit and supplied to the target property (4). 3. The operation information according to claim 1, wherein after the daily operation information is generated and supplied to the target property (4), the operation information is generated from the latest outside air information to update the daily operation information. Air conditioning control method. 4. The operation information according to any one of claims 1 to 3, wherein operation information is generated in response to the outside air discomfort index being within a predetermined range to instruct that the operation of the air conditioner is unnecessary. Air conditioning control method. 5. The air conditioner according to claim 1, wherein operation information is generated in response to an outside air humidity being lower than or equal to a predetermined humidity to instruct that the set temperature of the air conditioner be relaxed. Control method. 6. A meteorological company (1) to a network (2)
Outside air information collecting means for collecting outside air information through (31)
And outside air information extraction means (31) for extracting outside air information of the area where the target property (4) to be air-conditioning controlled exists from the collected outside air information, and an air conditioner based on the sensation based on the extracted outside air information. Information generating means (34) for generating operation information including at least one of necessity or non-requirement of operation
(34 ') and the operation information supply means (35) (35') which supplies the produced | generated operation information to a target property, The air-conditioning control apparatus characterized by the above-mentioned. 7. The air conditioning control device according to claim 6, wherein the operation information generating means generates operation information in units of a predetermined time. 8. The operation information generating means (34) (3)
The air conditioning control device according to claim 6, wherein 4 ′) is for generating the operating information from the latest outside air information and updating the operating information in the daily unit after the daily operating information is generated. 9. The operation information generating means (34) generates operation information instructing that the operation of the air conditioner is unnecessary in response to the outside air discomfort index being within a predetermined range. The air conditioning control device according to any one of claims 6 to 8. 10. The operation information generating means (34 ′) is
The air conditioning control device according to any one of claims 6 to 9, which generates operation information instructing to relax the set temperature of the air conditioner in response to the outside air humidity being equal to or lower than a predetermined humidity. .