JP5284528B2 - Air conditioning control device, air conditioning system, air conditioning control method, air conditioning control program - Google Patents

Description

Embodiments described herein relate generally to an air conditioning control device , an air conditioning system, an air conditioning control method, and an air conditioning control program .

  About half of the energy consumed by all building equipment such as offices and residences is energy related to air conditioning. Therefore, the promotion of energy saving related to air conditioning control greatly contributes to energy saving of the entire building equipment.

  In view of this, Patent Document 1 discloses a technique using an air conditioning system that performs an air conditioning operation that achieves optimum energy saving in a building facility.

  The technique of this patent document 1 includes the energy consumption of the heat source machine that produces cold / hot water, the energy consumption of the fan that sends out the air heat-exchanged by the air conditioning coil, and the energy consumption of the pump that sends the cold / hot water from the heat source machine By obtaining the coil temperature target value of the air conditioning coil and the cold / hot water temperature target value of the heat source machine so that the required energy consumption for air conditioning is minimized, it is possible to efficiently perform the energy saving air conditioning operation.

JP 2004-69134 A

  While energy conservation is promoted in this way, it is required to ensure so-called comfort in the room subject to air conditioning control in order to satisfy the thermal sensation of the occupants. And “ensuring the comfort of the occupants” are in a trade-off relationship, and the promotion of energy saving often reduces the comfort of the occupants.

Accordingly, the present invention has been made in view of the above circumstances, and an air conditioning control device , an air conditioning system, an air conditioning control method, and an air conditioning capable of efficiently saving energy consumption while considering the comfort of the occupants. An object is to provide a control program .

According to the embodiment for achieving the above object, the air conditioning control device of the present invention includes a measurement value acquisition unit, an index value range storage unit , a wind speed value change unit, a blower fan control unit, and a consumption energy control unit. The measurement value acquisition means acquires a temperature measurement value or a humidity measurement value related to the air conditioning target. The index value range storage means stores a target range of index values related to human thermal sensation . The wind speed value changing means changes the wind speed value to increase when the index value is not within the target range. The blower fan control means controls the blower fan so that the changed wind speed value is obtained. When the index value is not within the target range , the energy consumption control means controls the air conditioning system so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced .

It is a general view which shows the structure of the air-conditioning control system by 1st Embodiment-5th Embodiment of this invention. It is a block diagram which shows the detailed structure of the air-conditioning control system by 1st Embodiment-3rd Embodiment of this invention. It is a sequence diagram which shows operation | movement of the air-conditioning control system by 1st Embodiment-5th Embodiment of this invention. It is a graph which shows the relationship between room temperature and indoor humidity when it is judged that the PMV value utilized in the air-conditioning control system by 1st Embodiment-5th Embodiment of this invention is comfortable. In the air-conditioning control system by 3rd Embodiment of this invention, it is a graph which shows the change by the outside air intake amount of the damper opening for supplying the air to the coil 11 for external air cooling, the coil 12 for return air cooling, and the ventilation fan 13 . It is a block diagram which shows the detailed structure of the air-conditioning control system by 4th Embodiment of this invention. It is a block diagram which shows the detailed structure of the air conditioner of the air-conditioning control system by 5th Embodiment of this invention. It is a conceptual diagram which shows the flow path of the cold water which flows through the coil for external air cooling of the air conditioner by 5th Embodiment of this invention, and the coil for return air cooling.

Embodiments of the present invention will be described with reference to the drawings. Since many recent office buildings have good heat insulation and many PCs and OA devices, they are in the cooling mode throughout the year. Therefore, in the following embodiments, the case where air conditioning control is performed in the cooling mode will be described.

<< First Embodiment >>
<Configuration of air conditioning control system according to the first embodiment>
FIG. 1 shows an overall view of an air conditioning control system 1 according to the first embodiment of the present invention.

  In the case of a large building, since the room is large, the room is divided into a plurality of control zones, and a plurality of air conditioners are installed in a machine room near the room corresponding to each control zone. Even in such a case, hereinafter, each control zone is also referred to as a room for simplicity.

  The air conditioning control system 1 controls the air conditioning in the building A to be air-conditioned, and the air conditioner 10 installed in each room in the building A and the room temperature installed in each room to measure the room temperature. A temperature sensor 20 that transmits a measured value, a humidity sensor 30 that is installed in each room, measures humidity in the room, and transmits the measured value to each air conditioner, and a central heat source device that manages the cold water supplied to each air conditioner 10 40, an air conditioning linkage control device 50 as an air conditioning control device that receives the room temperature measurement value and the indoor humidity measurement value received by each air conditioner 10 and controls the operation of the central heat source device 40 and each air conditioner 10. Have

  Each air conditioner 10 transmits the measurement value acquired from the temperature sensor 20 and the humidity sensor 30 to the air conditioning cooperation control device 50. Further, as shown in FIG. 2, each air conditioner 10 uses the cold water supplied from the central heat source device 40 to dehumidify and cool the outside air, and the cold air supplied from the central heat source device 40. A return air cooling coil 12 that cools sensible heat emitted from indoor return air lighting, OA equipment, a human body, etc., and outside air and return air cooling coil 12 cooled by the outside air cooling coil 11. And a blower fan 13 for blowing air mixed with the cooled air into each room.

  The central heat source device 40 includes a refrigerator 41 that generates cold water, a cooling tower 42 that cools the water that has been cooled by the refrigerator 41 and is cooled with air to reuse, the refrigerator 41, and each air conditioner 10. Or it has the water supply pump 43 which conveys cold water between the cooling towers 42.

  The air conditioning cooperation control device 50 acquires the measurement values of the temperature sensor 20 and the humidity sensor 30 transmitted from each air conditioner 10, and within the range of the comfort index set in advance, the cooling tower 42 of the central heat source device 40. The optimum room temperature setting value in each room so that the total energy consumption of the refrigerator 41, the water pump 43, and the outside air cooling coil 11, the return air cooling coil 12, and the blower fan 13 of the air conditioner 10 is minimized. The humidity set value is calculated and transmitted to each air conditioner 10 and the central heat source device 40.

<Operation of the air conditioning control system according to the first embodiment>
Operation | movement of the air-conditioning control system 1 in this embodiment is demonstrated with reference to the sequence diagram of FIG.

  First, when the air conditioning control in the building A is started, the measured value of the room temperature is measured by each temperature sensor 20, and the measured value of the indoor humidity is measured by each humidity sensor 30. The measurement value measured by each temperature sensor 20 and the measurement value measured by each humidity sensor 30 are transmitted to each indoor air conditioner 10 (S1).

  The measured values transmitted from each temperature sensor 20 and each humidity sensor 30 are received by each air conditioner 10 and further transmitted to the air conditioning cooperation control device 50 (S2).

  In the air conditioning cooperation control device 50, the cooling tower 42 of the central heat source device 40, the refrigerator 41, the water supply pump 43, and the PMV (Predicted Mean Vote) within a comfortable range and the total required energy consumption, The optimal room temperature setting value and humidity setting value in each room are calculated so that the total value of the energy consumption of the outside air cooling coil 11, the return air cooling coil 12, and the blower fan 13 of the air conditioner 10 is minimized (S3). ).

  Here, PMV used for calculation of each value will be described.

  PMV is a variable that affects human thermal sensation against heat and cold. (A) Air temperature, (b) Relative humidity, (c) Average radiation temperature, (d) Air velocity, (e) Activity ( It is a comfort index determined using six of the internal heat generation amount of the human body) and (f) the amount of clothes.

  The amount of heat generated by a person is the sum of the amount of radiation generated by convection, the amount of heat released by radiation, the amount of heat evaporated from the person, the amount of heat released by breathing, and the amount of heat stored. It is a comfortable state that is neither hot nor cold. Conversely, when the thermal balance equation breaks down, the human body feels hot and cold.

  In 1967, Prof. Fanger of the Danish Institute of Technology announced the derivation of the comfort equation, and using this as a starting point, the thermal load of the human body and the thermal sensation of humans were statistically analyzed from questionnaires of a large number of European and American subjects, PMV was proposed. In recent years, this has been taken up by the ISO standard and has recently been used frequently.

  PMV, which is an index of thermal sensation, is expressed as a numerical value based on the following seven-level evaluation scale.

+3: Hot +2: Warm +1: Slightly warm 0: Neither comfortable, -1: Slightly cool -2: Cool -3: Cold Note that the range of comfortable human PMV values is -0.5 to +0.5 is there.

  Of the above six variables, the amount of activity representing work intensity usually uses the unit of metabolic rate met, and the amount of clothing uses the unit of clo.

  The unit met (met) represents the amount of metabolism, and 1 met is represented by the following formula (1) with reference to resting metabolism in a thermally comfortable state.

[Equation 1]
1met = 58.2 W / m ² = 50 kcal / m ² · h
In addition, the unit clo (cloth) represents the thermal insulation of clothes, and 1 clo is a room temperature of 21 ° C, relative humidity 50%, air flow 5cm / s or less, and the amount of heat released from the body surface is balanced with metabolism of 1met. It is a value in such a clothing state, and is expressed by the following formula (2) when converted into a normal thermal resistance value.

[Equation 2]
1clo = 0.155 m ² · ° C / W = 0.18 m ² · h · ° C / kcal
Using the following formula (3), within the comfortable range (−0.5 <PMV <+0.5), the PMV target value is set on the hotter side during cooling and on the colder side during heating. Therefore, the air conditioning load can be reduced and energy saving can be achieved.

[Equation 3]
Where M: activity [kcal / h]
A: Human body surface area [m ² ]
L: Human body heat load [kcal / m ² h] (calculated from Fanger's comfort equation)
Next, calculation of the optimum set value for the air conditioner 10 will be described.

  The total energy consumed in the air conditioning control system 1 is the cooling tower 42 of the central heat source device 40, the refrigerator 41, the water pump 43, and the outside air cooling coil 11 and the return air cooling coil 12 of the air conditioner 10. , The total energy consumption of the blower fan 13.

  As described in Japanese Patent Application No. 2007-070923, an algorithm for calculating the set value of the air conditioner 10 so as to minimize the total energy consumed in the air conditioning control system 1 is used for air conditioning control. Estimate the physical quantities such as the product of the amount of heat generated in the room, the amount of heat generated in the room, the amount of water vapor generated in the room, the overall heat transfer coefficient of the heat exchanger and the heat transfer area, etc. Therefore, there is a technique that enables optimal control with a view of the entire air conditioning system. Further, as described in Japanese Patent Application No. 2007-098551 and the like, a provisional total air conditioning load is calculated from the heat exchange amount between the current heat source machine and the cold water coil in the initial stage, and this total air conditioning load is calculated. Is used as a variable to control the air conditioning system's air conditioning equipment based on the optimal operating state quantity of the air conditioning system, and when the air condition of the air conditioning control target space almost matches the set air conditioning conditions, the true total air conditioning load is calculated and optimized There is a technique that can efficiently operate the air conditioning by determining the operation state quantity and realize energy saving of the air conditioning system.

  In the present embodiment, as described above, the optimum value of the air conditioner 10 is such that the total energy consumption in the air conditioning control system 1 is minimized within the range where the PMV value is in a comfortable range of −0.5 to +0.5. A set value is calculated and transmitted to the air conditioner 10 and the central heat source device 40 (S3).

  When the optimum setting value of the air conditioner 10 is acquired by the central heat source device 40, necessary cold water is supplied to the air conditioner 10 based on this setting value (S4), thereby taking into account the comfort of the occupants. The air thus adjusted is supplied into the air-conditioning control target room (S5).

  Here, the operation of the air conditioner 10 when the adjusted air is supplied into the air-conditioning control target room will be described.

  When the cooling process is performed by the air conditioning control system, the function of dehumidifying and cooling fresh outside air taken into the building for the residents (latent heat cooling load) and the sensible heat generation of the lighting inside the building, OA equipment, human body, etc. Two functions of cooling (sensible heat cooling load) are performed in the air conditioner.

  When performing cooling with a conventional air conditioner, the above two functions were performed simultaneously by mixing outside air and return air. However, only the outside air needs to be dehumidified. The required cold water temperature and flow rate are different, and it is more efficient to perform the above two functions separately.

  Therefore, in the present embodiment, as shown in FIG. 2, the outside air cooling coil 11 for dehumidifying and cooling the outside air and the return air cooling coil 12 for cooling the return air are provided separately, and are suitable for each control. Make sure that cold water of temperature and flow rate is supplied.

  According to the first embodiment described above, the comfort of the occupant is taken into account, the outside air and the indoor return air are adjusted separately, and the total required energy consumption in the system is controlled to be minimum. This makes it possible to efficiently perform air conditioning control that saves energy.

<< Second Embodiment >>
<Configuration of air conditioning control system according to the second embodiment>
Since the configuration of the air conditioning control system 2 according to the second embodiment of the present invention is the same as the configuration of the first embodiment shown in FIGS. 1 and 2, detailed description thereof is omitted.

<Operation of the air conditioning control system according to the second embodiment>
The operation of the air conditioning control system 2 in the present embodiment is the same as that of the first embodiment except for the calculation of the set value of each air conditioner 10 in step S3 of FIG. To do.

  In the present embodiment, the processing when the set value of each air conditioner 10 is calculated in step S3 in FIG. 3 so that the required energy consumption is minimized within the PMV comfortable range will be described. To do.

  In FIG. 4, assuming an office building, when the wind speed is 0.1 m / S, the relationship between room temperature and indoor humidity when the PMV value is 0.3 to 0.5 which is energy-saving and comfortable during cooling. Indicates. FIG. 4 shows that the PMV value is 0.3 to 0.5 when the room temperature and the room humidity are in a range A surrounded by a thick line (the humidity is limited to 20% to 80%). ).

  On the other hand, in order to reduce greenhouse gases, the government recommends setting the temperature of summer air conditioners to 28 ° C ("COOL BIZ" started in the summer of 2005).

  However, as can be seen from FIG. 4, when the room temperature is 28 ° C., no matter how low the humidity is, it will exceed +0.5 which is the upper limit PMV value that is comfortable for humans.

  Here, if the wind speed is 0.5 m / S, the humidity is 40% even when the room temperature is 28 ° C., and the PMV is +0.5 or less (about 0.43).

  Therefore, in this embodiment, air conditioning control is performed from the air blowing portion of the air conditioner 10 so that the wind speed is 0.5 m / s at a maximum around 1 m from the floor, which is the center position of the height of the person. Set to supply to the target room.

  Since the supplied wind is fluctuating, the average wind speed can be set to be smaller than 0.5 m / s, and the room temperature setting is 28 ° C. without greatly increasing the energy consumption of the blower fan 13. Therefore, it is possible to provide comfortable air conditioning control to the occupants.

  According to the second embodiment described above, the optimum setting value of the air conditioner 10 is calculated in consideration of the wind speed blown from the air conditioner 10, so that energy consumption can be more efficiently saved and comfort can be maintained. It becomes possible to perform the air conditioning control aiming at.

<< Third Embodiment >>
<Configuration of air conditioning control system according to the third embodiment>
The configuration of the air conditioning control system 3 according to the third embodiment of the present invention is shown in FIGS. 1 and 2 except that a CO ₂ sensor (not shown) or a human sensor (not shown) is provided in a room subject to air conditioning control. Since it is the same as that of 1st Embodiment, detailed description of the same part is abbreviate | omitted.

The CO ₂ sensor measures the indoor CO ₂ concentration discharged by the occupant and transmits it to the air conditioner 10. The human sensor detects the number of occupants in the room subject to air conditioning control and transmits the detected number to the air conditioner 10.

<Operation of the air conditioning control system according to the third embodiment>
The operation of the air conditioning control system 3 in this embodiment will be described with reference to FIG.

First, when the air conditioning control in the building A is started, each temperature sensor 20 measures a room temperature measurement value, each humidity sensor 30 measures a room humidity measurement value, and a CO ₂ sensor The CO ₂ concentration is measured or the number of people in the room is detected by a human sensor. The measured value measured by each sensor is transmitted to the air conditioner 10 in each room (S1).

  The measured values transmitted from each temperature sensor 20 and each humidity sensor 30 are received by each air conditioner 10 and further transmitted to the air conditioning cooperation control device 50 (S2).

  In the present embodiment, the processing when the optimum setting value of each air conditioner 10 is calculated by the air conditioning cooperation control device 50 so that the required energy consumption is minimized within the range where the PMV is comfortable will be described.

  In the air conditioning cooperation control device 50 of the present embodiment, the damper opening degree for supplying air to the outside air cooling coil 11, the return air cooling coil 12, and the blower fan 13 is controlled according to the graph shown in FIG.

  As shown in FIG. 5, at the time of air conditioning start-up (a), the tamper to the return air cooling coil 12 is fully open and the damper to the outside air cooling coil 11 is fully closed, so that the indoor air is exhausted to the outside air. Is not in the state. When exhausting into the room after a certain period of time, the temperature and humidity of the outside air, and the temperature and humidity of the return air, so that the total energy consumption of each device is minimized. Any point in time from (c) to during maximum outside air (d) is selected, and each tamper opening is controlled.

  When any point in time between the minimum outside air (b), the intermediate outside air (c), and the maximum outside air (d) is selected, the enthalpy of the outside air is lower than the enthalpy of the room when the room is in a cooling request. When it is more effective to introduce outside air, the damper opening is controlled so that outside air is actively introduced, and the amount of cold water supplied to the return air cooling coil 12 is reduced.

Here, when the load of the outside air cooling coil 11 is larger than a certain value, the measured value obtained from the CO ₂ sensor or the human sensor is also taken into account when each damper opening degree is controlled according to FIG. A set value for each device is calculated.

Specifically, when the CO ₂ concentration becomes higher than a certain concentration or when the number of people in the room becomes more than a certain number, the minimum outside air for lowering the CO ₂ concentration below the certain concentration is taken in. Thus, the damper opening is controlled and the CO ₂ concentration is lowered by ventilation, so that ventilation is performed without an excessive load on the outside air cooling coil 11.

Thus, when setting the set value of each air conditioner 10 so that the required energy consumption of each device is minimized, the minimum based on the use of outside air cooling and the indoor CO ₂ concentration or the number of people in the room. It is controlled by taking in the outside air (S3), and the necessary cold water is supplied from the central heat source device 40 to the air conditioner 10 based on this set value (S4), thereby adjusting the comfort of the occupants. The air is supplied to the room subject to air conditioning control (S5).

According to the third embodiment described above, the optimum setting value of the air conditioner is calculated in consideration of the use of outside air cooling and the intake of outside air based on the indoor CO ₂ concentration or the number of people in the room. In addition, it is possible to perform air conditioning control that efficiently saves energy consumption.

<< 4th Embodiment >>
<Configuration of the air conditioning control system according to the fourth embodiment>
The configuration of the air-conditioning control system 4 according to the fourth embodiment of the present invention is the same as that of the first embodiment except that two heat source devices, that is, the central heat source devices 40 and 40 'are installed as shown in FIG. Detailed description of the same part will be omitted.

  In the present embodiment, the central heat source device 40 supplies cold water to the outside air cooling coil 11, and the central heat source device 40 ′ supplies cold water to the return air cooling coil 12.

<Operation of the air conditioning control system according to the fourth embodiment>
The operation of the air conditioning control system 4 in the present embodiment is the same as that of the first embodiment except for the processing when cold water is supplied in step S5 of FIG. .

  In this embodiment, when cold water is supplied to each air conditioner 10 in step S6, cold water is supplied from the central heat source device 40 to the outside air cooling coil 11, and the central heat source device 40 is supplied to the return air cooling coil 12. Cold water is supplied from a central heat source device 40 'which is a separate system.

  The cold water supplied to the cooling coil from the central heat source device in the conventional air conditioning control system is about 7 ° C, but this 7 ° C cold water is needed only when the outside air is dehumidified and cooled, and the air conditioning control When cooling the return air in the target room, it is sufficient that the temperature of the cold water is about 13 ° C. The amount of energy required to dehumidify and cool the outside air (latent heat cooling load) is about 30 to 20% of the total amount of energy required for air conditioning control of cooling. Therefore, the amount of energy (sensible heat cooling load) required when cooling the return air corresponding to 70 to 80% of the total energy amount is wasted due to the use of excessively cooled cold water.

  Therefore, in the present embodiment, two systems of cold water supply sources are provided: a central heat source device 40 that supplies cold water to the outside air cooling coil 11 and a central heat source device 40 ′ that supplies cold water to the return air cooling coil 12. The cold water supplied from the central heat source device 40 to the outside air cooling coil 11 is adjusted to around 7 ° C., and the cold water supplied from the central heat source device 40 ′ to the return air cooling coil 12 is adjusted to around 13 ° C. Set to

  According to the fourth embodiment described above, by providing the two central heat source devices 40 and 40 ', energy waste due to excessively low temperature cold water adjustment can be eliminated, and more efficient energy consumption can be achieved. It becomes possible to perform air conditioning control for energy saving.

<< 5th Embodiment >>
<Configuration of air conditioning control system according to fifth embodiment>
The configuration of the air conditioning control system 5 according to the fifth embodiment of the present invention is the same as the configuration of the air conditioning control system 1 according to the first embodiment shown in FIG. 1, but in each air conditioner 10, the outside air cooling coil 11 and The return air cooling coil 12 is connected in series.

  As shown in FIG. 7, each air conditioner 10 includes a valve 14 that is a first valve that adjusts the amount of cold water taken into the outside air cooling coil 11 from the central heat source device 40 according to the opening degree, and an outside air cooling coil 11. Adjusting the amount of draining the cold water after being used in the valve 15 which is the second valve for adjusting the amount of the cold water after being used in the return air cooling coil 12 and the outside air cooling coil 11 being adjusted. Therefore, in order to adjust the amount of cold water directly taken into the return air cooling coil 12 from the central heat source device 40, the third valve 16 connected in parallel to the return air cooling coil 12 and the outside air cooling coil 11, a valve 15 and a valve 17 which is a fourth valve connected in series to these upstream of the valve 16.

<Operation of the air conditioning control system according to the fifth embodiment>
The operation of the air conditioning control system 5 in the present embodiment is the same as that of the first embodiment except for the processing when cold water is supplied in step S5 of FIG. 3, and thus detailed description of the same parts is omitted. .

  In the present embodiment, when cold water is supplied to each air conditioner 10 in step S <b> 5, 7 ° C. cold water is supplied from the central heat source device 40 to the outside air cooling coil 11, and is used in this outside air cooling coil 11. After that, the cold water is reused in the return air cooling coil 12. As described in the fourth embodiment, the cold water used in the return air cooling coil 12 does not have to be as low as the cold water used in the outside air cooling coil 11, and is therefore used in the outside air cooling coil 11. It can be dealt with by reusing the cold water.

  At this time, the amount of cold water supplied from the central heat source device 40 to the outside air cooling coil 11 is adjusted by the opening degree of the valve 14 and is used by the outside air cooling coil 11 and then supplied to the return air cooling coil 12. The amount of cold water is adjusted by the opening degree of the valve 15 and the valve 16. If the amount of cold water used in the return air cooling coil 12 is not sufficient after the use of the outdoor air cooling coil 11, the cold water is directly supplied from the central heat source device 40 by opening the valve 17. .

  FIG. 8A shows the flow of cold water when the valve 14 and the valve 15 are opened to the same extent so that all the cold water used in the outside air cooling coil 11 is supplied to the return air cooling coil 12. (B) shows that, by opening the valve 14, the valve 15, and the valve 16, a part of the cold water used in the outside air cooling coil 11 is supplied to the return air cooling coil 12 and unnecessary cold water. (C) shows the flow of cold water from the central heat source device 40 and the cold water used in the outside air cooling coil 11 by opening the valve 14, the valve 15, and the valve 17. It is the conceptual diagram which showed the flow of the cold water in case cold water is supplied to the return air cooling coil 12 with the thick line.

  According to the fifth embodiment described above, by connecting the outside air cooling coil 11 and the return air cooling coil 12 in series, the cold water used in the outside air cooling coil 11 is regenerated by the return air cooling coil 12. It can be used, and it is possible to perform air-conditioning control that saves energy more efficiently.

  In addition, in said 1st Embodiment-5th Embodiment, although the case where it had the central heat source apparatus 40 in the building A of air-conditioning control object was demonstrated, the refrigerator 41 and the cooling tower of the central heat source apparatus 40 in each building 42, when air conditioning control is performed by DHC (District Heating and Cooling), cold / hot water is supplied from the outside (however, a water pump 43 that sends cold / hot water to each air conditioner is in the building). In such a case, the total consumed energy in the air conditioning control system is the total value of the consumed energy of the water pump, the outside air cooling coil, the return air cooling coil, and the blower fan.

  Moreover, in said 1st Embodiment-5th Embodiment, the case where the measured value measured by each temperature sensor 20 and each humidity sensor 30 is transmitted to the air-conditioning cooperation control apparatus 50 via the air conditioner 30 is demonstrated. However, it is not limited to this, You may make it transmit to the air-conditioning cooperation control apparatus 50 from each sensor directly.

  Moreover, in said 1st Embodiment-5th Embodiment, although PMV was used as a comfort parameter | index of a human thermal sense, it is not limited to this, Air-conditioning control using standard effective temperature and new effective temperature May be performed.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

DESCRIPTION OF SYMBOLS 1-5 ... Air-conditioning control system 10 ... Air conditioner 11 ... Coil for external air cooling 12 ... Coil for return air cooling 13 ... Blower fan 14-17 ... Valve 20 ... Temperature sensor 30 ... Humidity sensor 40 ... Central heat source apparatus 41 ... Refrigerator 42 ... Cooling tower 43 ... Water pump 50 ... Air conditioning linkage control device

Claims (38)

In an air-conditioning control apparatus that controls an air-conditioning system having a blower fan that blows air toward an air-conditioning target and an air- conditioning coil that cools air, and a heat source unit that supplies a refrigerant to the air-conditioning machine,
A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air conditioning target;
Index value range storage means for storing a target range of index values related to human thermal sensation ;
When the index value calculated by the temperature measurement value or the humidity measurement value and the airflow velocity related to the air-conditioning target is not within the target range stored in the index value range storage unit , the index value Wind speed value changing means for changing the wind speed value of the air blow related to the cooling air from the blower fan related to the air flow speed as a variable ;
A blower fan control means for controlling the blower fan so as to have the changed wind speed value;
When the index value calculated by the temperature measurement value or the humidity measurement value and the air flow velocity related to the air conditioning target is within the target range stored in the index value range storage means , the energy consumption of the air conditioning system Controlling the air conditioning system so that the
Energy consumption control for controlling the air conditioning system so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced when the calculated index value is not within the target range stored in the index value range storage means And an air conditioning control device. In an air conditioning control device that controls an air conditioning system having a blower fan that blows air toward an air conditioning target , an air conditioning coil that cools air , and a heat source unit that supplies refrigerant to the air conditioning coil ,
A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air conditioning target;
Index value range storage means for storing a target range of index values related to human thermal sensation ;
When the index value calculated by the temperature measurement value or the humidity measurement value and the airflow velocity related to the air-conditioning target is not within the target range stored in the index value range storage unit , the index value Wind speed value changing means for changing the wind speed value of the air blow related to the cooling air from the blower fan related to the air flow speed as a variable ;
A blower fan control means for controlling the blower fan to have the changed wind speed value;
An air conditioning control device comprising: energy consumption control means for controlling the air conditioning system so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced . In an air conditioning control device for controlling an air conditioning system having an air conditioning unit having an air conditioning coil for cooling air and a heat source means for supplying a refrigerant for cooling the air to the air conditioning unit,
A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air-conditioning target;
Index value range storage means for storing a target range of index values related to human thermal sensation ;
When the index value calculated by the temperature measurement value or the humidity measurement value and the airflow velocity related to the air conditioning target is not within the target range stored in the index value range storage means , A wind speed value changing means for changing the wind speed value of the wind speed related to the air speed, which is a variable related to the index value, from the blower fan for blowing the cooled air ;
A blower fan control means for controlling the blower fan to have the changed wind speed value;
An air conditioning control device comprising: energy consumption control means for controlling the air conditioning system so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced . An air conditioning system having an air conditioner having a blower fan that blows air toward a room in a building to be air-conditioned or a control zone in the room, and a heat source unit that supplies a refrigerant for cooling the air to the air conditioner is controlled. In the air conditioning control device,
A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value relating to a room of the air-conditioning target building or a control zone in the room;
Index value range storage means for storing a target range of index values related to human thermal sensation ;
When the index value calculated by the temperature measurement value or the humidity measurement value and the airflow velocity related to the air-conditioning target is not within the target range stored in the index value range storage unit , the index value Wind speed value changing means for changing the wind speed value of the air blow related to the cooling air from the blower fan related to the air flow speed as a variable ;
A blower fan control means for controlling the blower fan to have the changed wind speed value;
An air conditioning control device comprising: energy consumption control means for controlling the heat source means so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced . In an air conditioning control device that controls an air conditioning system having an air conditioner having a blower fan that blows air toward an air conditioning target , and a heat source means for supplying a refrigerant for cooling the air to the air conditioner,
A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air conditioning target;
Index value range storage means for storing a target range of index values related to human thermal sensation ;
When the index value calculated by the temperature measurement value or the humidity measurement value and the airflow velocity related to the air-conditioning target is not within the target range stored in the index value range storage unit , the index value Wind speed value changing means for changing the wind speed value of the air blow related to the cooling air from the blower fan related to the air flow speed as a variable ;
A blower fan control means for controlling the blower fan to have the changed wind speed value;
An air conditioning control device comprising: energy consumption control means for controlling the heat source means so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced . In an air conditioning control device for controlling an air conditioning system having an air conditioner having a blower fan for blowing air toward an air conditioning target , and a heat source means for supplying a refrigerant for cooling the air to the air conditioner,
A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air conditioning target;
Index value range storage means for storing a target range of index values related to human thermal sensation ;
Said temperature measurement value or the humidity measurement values, and the index value calculating means for calculating the index value by the air velocity of the air-conditioning target,
When the index value calculated by the index value calculation unit is not within the target range of the index value stored by the index value range storage unit , the air flow related to the air velocity that is a variable related to the index value Blower fan control means for changing and controlling so as to increase the wind speed value of the blown air related to the cooling air from the fan,
An air conditioning control device comprising: energy consumption control means for controlling the heat source means so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced . In an air conditioning control device that controls an air conditioning system having an air conditioning coil and a heat source means for supplying a refrigerant for cooling air to the air conditioning coil ,
A measurement value acquisition means for acquiring a temperature measurement value or humidity measurement value related to the air-conditioning target;
Index value range storage means for storing a target range of index values related to human thermal sensation;
Index value calculation means for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
When the index value calculated by the index value calculation unit is not within the target range of the index value stored by the index value range storage unit, from a blower fan that blows cooling air toward the air conditioning target, A blower fan control means for controlling the change so as to increase the wind speed value of the blow, related to the air speed that is a variable related to the index value;
Energy consumption control means for controlling the air conditioning system so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced;
The air-conditioning control apparatus characterized by having.   In an air conditioning control device for controlling an air conditioning system having an air conditioning coil for cooling air and a heat source means for supplying a refrigerant for cooling the air to the air conditioning coil,
  A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air-conditioning target;
  Index value range storage means for storing a target range of index values related to human thermal sensation;
  Index value calculation means for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
  When the index value calculated by the index value calculation unit is not within the target range of the index value stored by the index value range storage unit, from a blower fan that blows air cooled toward the air-conditioning target A blower fan control means for controlling the change so as to increase the wind speed value of the wind speed related to the airflow speed which is a variable related to the index value;
  Energy consumption control means for controlling at least one of the heat source means and the air conditioning coil so that the energy consumption after the change of the wind speed value is reduced;
The air-conditioning control apparatus characterized by having. In an air conditioning control device for controlling an air conditioning system having an air conditioner and a heat source means for supplying a refrigerant for cooling air to the air conditioner,
A measurement value acquisition means for acquiring a temperature measurement value or humidity measurement value related to the air-conditioning target;
Index value range storage means for storing a target range of index values related to human thermal sensation;
Index value calculation means for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
When the index value calculated by the index value calculation unit is not within the target range of the index value stored by the index value range storage unit, from a blower fan that blows air cooled toward the air-conditioning target A blower fan control means for controlling the change so as to increase the wind speed value of the wind speed related to the airflow speed which is a variable related to the index value;
Energy consumption control means for controlling the heat source means so as to reduce the energy consumption after the change of the wind speed value;
The air-conditioning control apparatus characterized by having.   In an air conditioning control device for controlling an air conditioning system having at least heat source means for supplying a refrigerant for cooling air to an air conditioner,
  A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air-conditioning target;
  Index value range storage means for storing a target range of index values related to human thermal sensation;
  Index value calculation means for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
  When the index value calculated by the index value calculation unit is not within the target range of the index value stored by the index value range storage unit, the air cooled by the air conditioner is directed toward the air conditioning target. Blower fan control means for changing and controlling to increase the wind speed value of the wind speed related to the air speed that is a variable related to the index value from the blower fan that blows air,
  Energy consumption control means for controlling the heat source means so as to reduce the energy consumption after the change of the wind speed value;
The air-conditioning control apparatus characterized by having.   In an air conditioning control device that controls an air conditioning system having an air conditioning coil and a heat source means for supplying a refrigerant for cooling air to the air conditioning coil,
  A measurement value acquisition means for acquiring a temperature measurement value and a humidity measurement value related to the air-conditioning target;
  Index value range storage means for storing a target range of index values related to human thermal sensation;
  Index value calculation means for calculating the index value based on the temperature measurement value, the humidity measurement value, and the air flow velocity related to the air conditioning target;
  When the index value calculated by the index value calculation unit is not within the target range of the index value stored by the index value range storage unit, from a blower fan that blows air cooled toward the air-conditioning target A blower fan control means for controlling the change so as to increase the wind speed value of the wind speed related to the airflow speed which is a variable related to the index value;
  Energy consumption control means for controlling the air conditioning system so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced;
The air-conditioning control apparatus characterized by having.   The index value is a PMV value
The air-conditioning control apparatus according to any one of claims 1 to 11, wherein   An air conditioner having a blower fan for blowing air toward an air-conditioning target and an air-conditioning coil for cooling air;
  Heat source means for supplying refrigerant to the air conditioner;
  A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air conditioning target;
  Index value range storage means for storing a target range of index values related to human thermal sensation;
  When the index value calculated by the temperature measurement value or the humidity measurement value and the airflow velocity related to the air-conditioning target is not within the target range stored in the index value range storage unit, the index value Wind speed value changing means for changing the wind speed value of the air blow related to the cooling air from the blower fan related to the air flow speed as a variable;
  A blower fan control means for controlling the blower fan so as to have the changed wind speed value;
  When the index value calculated by the temperature measurement value or the humidity measurement value and the air flow velocity related to the air conditioning target is within the target range stored in the index value range storage means, the energy consumption of the own air conditioning system Controlling the air conditioning coil and the heat source means so that
When the calculated index value is not within the target range stored in the index value range storage means, the energy consumption control for controlling the air conditioning coil and the heat source means so that the energy consumption after the change of the wind speed value is reduced. Means and
An air conditioning system characterized by comprising:   A blower fan that blows air toward the air-conditioning target;
  An air conditioning coil that cools the air;
  Heat source means for supplying refrigerant to the air conditioning coil;
  A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air conditioning target;
  Index value range storage means for storing a target range of index values related to human thermal sensation;
  When the index value calculated by the temperature measurement value or the humidity measurement value and the airflow velocity related to the air-conditioning target is not within the target range stored in the index value range storage unit, the index value Wind speed value changing means for changing the wind speed value of the air blow related to the cooling air from the blower fan related to the air flow speed as a variable;
  A blower fan control means for controlling the blower fan to have the changed wind speed value;
  Energy consumption control means for controlling the air conditioning coil and the heat source means so that the energy consumption after the change of the wind speed value is reduced;
An air conditioning system characterized by comprising:   An air conditioner having an air conditioning coil for cooling air;
  Heat source means for supplying a refrigerant for cooling the air to the air conditioner;
  A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air-conditioning target;
  Index value range storage means for storing a target range of index values related to human thermal sensation;
  When the index value calculated by the temperature measurement value or the humidity measurement value and the airflow velocity related to the air conditioning target is not within the target range stored in the index value range storage means, A wind speed value changing means for changing the wind speed value of the wind speed related to the air speed, which is a variable related to the index value, from the blower fan for blowing the cooled air;
  A blower fan control means for controlling the blower fan to have the changed wind speed value;
  Energy consumption control means for controlling the air conditioner and the heat source means so that the energy consumption after the change of the wind speed value is reduced;
An air conditioning system characterized by comprising:   An air conditioner having a blower fan for blowing air toward a room in a building to be air-conditioned or a control zone in the room;
  Heat source means for supplying a refrigerant for cooling the air to the air conditioner;
  A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value relating to a room of the air-conditioning target building or a control zone in the room;
  Index value range storage means for storing a target range of index values related to human thermal sensation;
  When the index value calculated by the temperature measurement value or the humidity measurement value and the airflow velocity related to the air-conditioning target is not within the target range stored in the index value range storage unit, the index value A wind speed value changing means for changing the wind speed value of the blown air related to the cooled air from the blower fan, which is related to the airflow speed as a variable;
  A blower fan control means for controlling the blower fan to have the changed wind speed value;
  Energy consumption control means for controlling the heat source means so as to reduce the energy consumption after the change of the wind speed value;
An air conditioning system characterized by comprising:   An air conditioner having a blower fan for blowing air toward an air-conditioning target;
  Heat source means for supplying refrigerant to the air conditioner;
  A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air conditioning target;
  Index value range storage means for storing a target range of index values related to human thermal sensation;
  When the index value calculated by the temperature measurement value or the humidity measurement value and the airflow velocity related to the air-conditioning target is not within the target range stored in the index value range storage unit, the index value Wind speed value changing means for changing the wind speed value of the air blow related to the cooling air from the blower fan related to the air flow speed as a variable;
  A blower fan control means for controlling the blower fan to have the changed wind speed value;
  Energy consumption control means for controlling the heat source means so as to reduce the energy consumption after the change of the wind speed value;
An air conditioning system characterized by comprising: An air conditioner having a blower fan for blowing air toward an air-conditioning target;
Heat source means for supplying a refrigerant for cooling the air to the air conditioner;
A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air conditioning target;
Index value range storage means for storing a target range of index values related to human thermal sensation;
Index value calculation means for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
When the index value calculated by the index value calculation unit is not within the target range of the index value stored by the index value range storage unit, the air flow related to the air velocity that is a variable related to the index value Blower fan control means for changing and controlling so as to increase the wind speed value of the blown air related to the cooling air from the fan ,
Energy consumption control means for controlling the heat source means so as to reduce the energy consumption after the change of the wind speed value;
An air conditioning system characterized by comprising:   An air conditioning coil;
  Heat source means for supplying a refrigerant for cooling air to the air conditioning coil;
  A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air-conditioning target;
  Index value range storage means for storing a target range of index values related to human thermal sensation;
  Index value calculation means for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
  When the index value calculated by the index value calculation unit is not within the target range of the index value stored by the index value range storage unit, from a blower fan that blows cooling air toward the air conditioning target, Blower fan control means for controlling the change so as to increase the wind speed value of the wind speed related to the airflow speed that is a variable related to the index value;
  Energy consumption control means for controlling the air conditioning coil and the heat source means so that the energy consumption after the change of the wind speed value is reduced;
An air conditioning system characterized by comprising:   An air conditioning coil that cools the air;
  Heat source means for supplying a refrigerant for cooling air to the air conditioning coil;
  A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air-conditioning target;
  Index value range storage means for storing a target range of index values related to human thermal sensation;
  Index value calculation means for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
  When the index value calculated by the index value calculation unit is not within the target range of the index value stored by the index value range storage unit, from a blower fan that blows air cooled toward the air-conditioning target A blower fan control means for controlling the change so as to increase the wind speed value of the wind speed related to the airflow speed which is a variable related to the index value;
  Energy consumption control means for controlling at least one of the heat source means and the air conditioning coil so that the energy consumption after the change of the wind speed value is reduced;
An air conditioning system characterized by comprising:   An air conditioner,
  Heat source means for supplying a refrigerant for cooling the air to the air conditioner;
  A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air-conditioning target;
  Index value range storage means for storing a target range of index values related to human thermal sensation;
  Index value calculation means for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
  When the index value calculated by the index value calculation unit is not within the target range of the index value stored by the index value range storage unit, from a blower fan that blows air cooled toward the air-conditioning target A blower fan control means for controlling the change so as to increase the wind speed value of the wind speed related to the airflow speed which is a variable related to the index value;
  Energy consumption control means for controlling the heat source means so as to reduce the energy consumption after the change of the wind speed value;
An air conditioning system characterized by comprising:   Heat source means for supplying a refrigerant for cooling the air to the air conditioner;
  A measurement value acquisition means for acquiring a temperature measurement value or a humidity measurement value related to the air-conditioning target;
  Index value range storage means for storing a target range of index values related to human thermal sensation;
  Index value calculation means for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
  When the index value calculated by the index value calculation unit is not within the target range of the index value stored by the index value range storage unit, the air cooled by the air conditioner is directed toward the air conditioning target. Blower fan control means for changing and controlling to increase the wind speed value of the wind speed related to the air speed that is a variable related to the index value from the blower fan that blows air,
  Energy consumption control means for controlling the heat source means so as to reduce the energy consumption after the change of the wind speed value;
An air conditioning system characterized by comprising:   An air conditioning coil;
  Heat source means for supplying a refrigerant for cooling air to the air conditioning coil;
  A measurement value acquisition means for acquiring a temperature measurement value and a humidity measurement value related to the air-conditioning target;
  Index value range storage means for storing a target range of index values related to human thermal sensation;
  Index value calculation means for calculating the index value based on the temperature measurement value, the humidity measurement value, and the air flow velocity related to the air conditioning target;
  When the index value calculated by the index value calculation unit is not within the target range of the index value stored by the index value range storage unit, from a blower fan that blows air cooled toward the air-conditioning target A blower fan control means for controlling the change so as to increase the wind speed value of the wind speed related to the airflow speed which is a variable related to the index value;
  Energy consumption control means for controlling the air conditioning coil and the heat source means so that the energy consumption after the change of the wind speed value is reduced;
An air conditioning system characterized by comprising:   The index value is a PMV value
The air conditioning system according to any one of claims 13 to 23.   An air conditioning control device that controls an air conditioning system having an air blower that blows air toward an air conditioning target and an air conditioner that has an air conditioning coil that cools air, and a heat source unit that supplies a refrigerant to the air conditioner,
  A measurement value acquisition step of acquiring a temperature measurement value or a humidity measurement value according to the air conditioning target;
  An index value range storage step for storing a target range of index values related to human thermal sensation;
  When the index value calculated by the temperature measurement value or the humidity measurement value and the air flow velocity related to the air conditioning target is not within the target range stored in the index value range storage step, the index value A wind speed value changing step for changing the air speed value of the air blow related to the cooling air from the blower fan related to the air flow speed as a variable, and
  A blower fan control step of controlling the blower fan so as to have the changed wind speed value;
  When the index value calculated by the temperature measurement value or the humidity measurement value and the airflow velocity related to the air conditioning target is within the target range stored in the index value range storage step, the energy consumption of the air conditioning system Controlling the air conditioning system so that the
When the calculated index value is not within the target range stored in the index value range storage step, the energy consumption control is performed to control the air conditioning system so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced. Step and
The air-conditioning control method characterized by having. An air conditioning control device that controls an air conditioning system having a blower fan that blows air toward an air conditioning target, an air conditioning coil that cools air, and a heat source unit that supplies a refrigerant to the air conditioning coil,
A measurement value acquisition step of acquiring a temperature measurement value or a humidity measurement value according to the air conditioning target;
An index value range storage step for storing a target range of index values related to human thermal sensation;
When the index value calculated by the temperature measurement value or the humidity measurement value and the air flow velocity related to the air conditioning target is not within the target range stored in the index value range storage step, the index value A wind speed value changing step for changing the air speed value of the air blow related to the cooling air from the blower fan related to the air flow speed as a variable, and
A blower fan control step for controlling the blower fan so as to have the changed wind speed value;
An energy consumption control step of controlling the air conditioning system so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced;
The air-conditioning control method characterized by having.   An air conditioning control device for controlling an air conditioning system having an air conditioner having an air conditioning coil for cooling air and a heat source means for supplying a refrigerant for cooling the air to the air conditioner,
  A measurement value acquisition step for acquiring a temperature measurement value or a humidity measurement value related to the air-conditioning target;
  An index value range storage step for storing a target range of index values related to human thermal sensation;
  When the index value calculated by the temperature measurement value or the humidity measurement value and the airflow velocity related to the air conditioning target is not within the target range stored in the index value range storage step, A wind speed value changing step for changing the wind speed value of the wind speed related to the air speed, which is a variable related to the index value, from the blower fan for blowing the cooled air;
  A blower fan control step for controlling the blower fan so as to have the changed wind speed value;
  An energy consumption control step of controlling the air conditioning system so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced;
The air-conditioning control method characterized by having.   An air conditioning system having an air conditioner having a blower fan that blows air toward a room in a building to be air-conditioned or a control zone in the room, and a heat source unit that supplies a refrigerant for cooling the air to the air conditioner is controlled. Air conditioning controller
  A measurement value acquisition step for acquiring a temperature measurement value or a humidity measurement value related to a room of the air-conditioning target building or a control zone in the room;
  An index value range storage step for storing a target range of index values related to human thermal sensation;
  When the index value calculated by the temperature measurement value or the humidity measurement value and the air flow velocity related to the air conditioning target is not within the target range stored in the index value range storage step, the index value A wind speed value changing step for changing to increase the wind speed value of the air blow related to the cooled air from the blower fan, which is related to the air flow speed which is a variable;
  A blower fan control step for controlling the blower fan so as to have the changed wind speed value;
  An energy consumption control step of controlling the heat source means so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced;
The air-conditioning control method characterized by having.   An air conditioning control device for controlling an air conditioning system having an air conditioner having a blower fan that blows air toward an air conditioning target, and a heat source means for supplying a refrigerant for cooling the air to the air conditioner,
  A measurement value acquisition step of acquiring a temperature measurement value or a humidity measurement value according to the air conditioning target;
  An index value range storage step for storing a target range of index values related to human thermal sensation;
  When the index value calculated by the temperature measurement value or the humidity measurement value and the airflow velocity related to the air-conditioning target is not within the target range stored in the index value range storage unit, the index value A wind speed value changing step for changing the air speed value of the air blow related to the cooling air from the blower fan related to the air flow speed as a variable, and
  A blower fan control step for controlling the blower fan so as to have the changed wind speed value;
  An energy consumption control step of controlling the heat source means so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced;
The air-conditioning control method characterized by having. An air conditioning control device that controls an air conditioning system having an air conditioner having a blower fan that blows air toward an air conditioning target, and a heat source means for supplying a refrigerant for cooling the air to the air conditioner,
A measurement value acquisition step of acquiring a temperature measurement value or a humidity measurement value according to the air conditioning target;
An index value range storage step for storing a target range of index values related to human thermal sensation;
An index value calculating step for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
When the index value calculated in the index value calculation step is not within the target range of the index value stored in the index value range storage step, the air flow related to the air flow velocity that is a variable related to the index value A blower fan control step for controlling the change so as to increase the wind speed value of the blown air related to the cooling air from the fan ,
An energy consumption control step of controlling the heat source means so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced;
The air-conditioning control method characterized by having.   An air conditioning control device for controlling an air conditioning system having an air conditioning coil and a heat source means for supplying a refrigerant for cooling air to the air conditioning coil,
  A measurement value acquisition step for acquiring a temperature measurement value or a humidity measurement value related to the air-conditioning target;
  An index value range storage step for storing a target range of index values related to human thermal sensation;
  An index value calculating step for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
  When the index value calculated in the index value calculation step is not within the target range of the index value stored in the index value range storage step, from a blower fan that blows cooling air toward the air conditioning target, A blower fan control step for controlling the change so as to increase the wind speed value of the wind speed related to the airflow speed that is a variable related to the index value;
  An energy consumption control step of controlling the air conditioning system so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced;
The air-conditioning control method characterized by having.   An air conditioning control device for controlling an air conditioning system having an air conditioning coil for cooling air and a heat source means for supplying a refrigerant for cooling air to the air conditioning coil,
  A measurement value acquisition step for acquiring a temperature measurement value or a humidity measurement value related to the air-conditioning target;
  An index value range storage step for storing a target range of index values related to human thermal sensation;
  An index value calculating step for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
  When the index value calculated in the index value calculation step is not within the target range of the index value stored in the index value range storage step, the index value from the blower fan that blows air toward the air-conditioning target A blower fan control step for controlling the change so as to increase the wind speed value of the wind speed related to the airflow speed which is a variable related to
  An energy consumption control step of controlling at least one of the heat source means and the air conditioning coil so that the energy consumption after the change of the wind speed value is reduced;
The air-conditioning control method characterized by having.   An air conditioner,
  An air conditioning control device that controls an air conditioning system having a heat source means for supplying a refrigerant for cooling air to the air conditioner,
  A measurement value acquisition step for acquiring a temperature measurement value or a humidity measurement value related to the air-conditioning target;
  An index value range storage step for storing a target range of index values related to human thermal sensation;
  An index value calculating step for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
  When the index value calculated in the index value calculation step is not within the target range of the index value stored in the index value range storage step, from a blower fan that blows air cooled toward the air-conditioning target A blower fan control step for performing change control so as to increase the wind speed value of the wind speed related to the airflow speed which is a variable related to the index value;
  An energy consumption control step for controlling the heat source means so that the energy consumption after the change of the wind speed value is reduced;
The air-conditioning control method characterized by having.   An air conditioning control device for controlling an air conditioning system having at least heat source means for supplying a refrigerant for cooling air to an air conditioner,
  A measurement value acquisition step for acquiring a temperature measurement value or a humidity measurement value related to the air-conditioning target;
  An index value range storage step for storing a target range of index values related to human thermal sensation;
  An index value calculating step for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
  When the index value calculated in the index value calculation step is not within the target range of the index value stored in the index value range storage step, the air cooled by the air conditioner is directed toward the air conditioning target. A blower fan control step for performing change control to increase the wind speed value of the wind speed related to the airflow speed that is a variable related to the index value from the blower fan that blows air,
  An energy consumption control step for controlling the heat source means so that the energy consumption after the change of the wind speed value is reduced;
The air-conditioning control method characterized by having. An air conditioning control device for controlling an air conditioning system having an air conditioning coil and a heat source means for supplying a refrigerant for cooling air to the air conditioning coil,
  A measurement value acquisition step for acquiring a temperature measurement value and a humidity measurement value related to the air-conditioning target;
  An index value range storage step for storing a target range of index values related to human thermal sensation;
  An index value calculating step for calculating the index value based on the temperature measurement value, the humidity measurement value, and the air flow velocity related to the air conditioning target;
  When the index value calculated in the index value calculation step is not within the target range of the index value stored in the index value range storage step, from a blower fan that blows air cooled toward the air-conditioning target A blower fan control step for performing change control so as to increase the wind speed value of the wind speed related to the airflow speed which is a variable related to the index value;
  An energy consumption control step of controlling the air conditioning system so that the energy consumption of the air conditioning system after the change of the wind speed value is reduced;
The air-conditioning control method characterized by having.   The index value is a PMV value
36. The air conditioning control method according to any one of claims 25 to 35, wherein: To an air conditioning control device that controls an air conditioning system having a blower fan that blows air toward an air conditioning target, an air conditioning coil that cools air, and a heat source unit that supplies a refrigerant to the air conditioning coil,
A measurement value acquisition function for acquiring a temperature measurement value or a humidity measurement value related to the air conditioning target;
An index value range storage function for storing a target range of index values related to human thermal sensation;
When the index value calculated by the temperature measurement value or the humidity measurement value and the air flow velocity related to the air conditioning target is not within the target range stored by the index value range storage function, the index value A wind speed value changing function for changing the air speed value of the air blow related to the cooled air from the blower fan, which is related to the air flow speed which is a variable;
A blower fan control function for controlling the blower fan to have the changed wind speed value;
An energy consumption control function for controlling the air conditioning system so as to reduce the energy consumption of the air conditioning system after the change of the wind speed value;
Air conditioning control program that executes To an air conditioning control device that controls an air conditioning system having an air conditioning coil and a heat source means for supplying a refrigerant for cooling air to the air conditioning coil,
  A measurement value acquisition function for acquiring temperature measurement values or humidity measurement values related to air-conditioning targets;
  An index value range storage function for storing a target range of index values related to human thermal sensation;
  An index value calculation function for calculating the index value based on the temperature measurement value or the humidity measurement value, and the air flow velocity related to the air conditioning target;
  When the index value calculated by the index value calculation function is not within the target range of the index value stored by the index value range storage function, from a blower fan that blows cooling air toward the air conditioning target, A blower fan control function for controlling the change so as to increase the wind speed value of the wind speed related to the airflow speed which is a variable related to the index value;
  An energy consumption control function for controlling the air conditioning system so as to reduce the energy consumption of the air conditioning system after the change of the wind speed value;
Air conditioning control program that executes