JP2018173200A - Air-conditioning control system and air-conditioning control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To control supply air dew point temperature constant regardless of a dew point temperature of outside air.SOLUTION: A supply air dew point temperature PID (operation amount to humidifier 2-3) according to difference between a detected supply air dew point temperature DPpv and a set supply air dew point temperature set value DPsp, is obtained from a table TB1. A supply air temperature set value TSsp according to the supply air dew point temperature PID obtained from the table TB1, is obtained from a table TB3. A supply air temperature PID (operation amount to heating coil 2-2) according to the difference between the detected supply air temperature TSpv and the supply air temperature set value TSsp obtained from the table TB3, is obtained from a table TB2. A humidifier operation time ratio γ according to the supply air dew point temperature PID obtained from the table TB1, is obtained from a table TB4.SELECTED DRAWING: Figure 3

Description

  The present invention relates to an air conditioning control system and an air conditioning control method that adjust the temperature and humidity of outside air to supply air to a control target space.

  Conventionally, hotels and the like adjust the temperature and humidity of the outside air to supply air to the room. This air conditioner that adjusts the temperature and humidity of the outside air is called an external air conditioner. In addition, the adjustment of the temperature and humidity of the outside air by the outside air conditioner is performed by the supply air temperature and the supply air dew point temperature constant control for controlling both the temperature and humidity of the indoor supply air to be constant (for example, patents). Reference 1).

JP 2005-156148 A

  However, the conventional constant control of the supply air temperature and supply air dew point temperature has a problem that humidification is insufficient when the dew point temperature of the outside air is low, and hunting of the humidifier occurs when the dew point temperature of the outside air is high. It was.

  This problem will be described with reference to air diagrams shown in FIGS. FIG. 8 shows the movement of the state points on the air diagram when normal, and FIG. 9 shows the movement of the state points on the air diagram when the dew point temperature of the outside air is low (when the humidification request is large). FIG. 10 shows the movement of the state points on the air diagram when the dew point temperature of the outside air is high (when the humidification request is small). As a precondition in this case, the humidification efficiency is 50% (assumed).

  In the normal case, as shown in FIG. 8, the state point P1 of the outside air shifts to the state point P2 by controlling the heating amount to the outside air, and the state point P2 is controlled by the humidification amount to the outside air. As a result, the state point P3 is entered. At this state point P3, the supply air temperature TSpv matches the supply air temperature set value TSsp, and the supply air dew point temperature DPpv matches the supply air dew point temperature set value DPsp. That is, it coincides with the control point state point P0.

  When the dew point temperature of the outside air is low (when the humidification request is large), as shown in FIG. 9, the state point P1 of the outside air shifts to the state point P2 by controlling the amount of heating to the outside air, and this state The point P2 shifts to the state point P3 when the humidification amount to the outside air is controlled. At this state point P3, the supply air temperature TSpv matches the supply air temperature set value TSsp, but the supply air dew point temperature DPpv is lower than the supply air dew point temperature set value DPsp, and humidification is insufficient. That is, the constant supply air temperature control is prioritized over the constant supply air dew point temperature control, and the state point P3 is located below the state point P0 that is the control target, and humidification is insufficient.

  When the dew point temperature of the outside air is high (when the humidification request is small), as shown in FIG. 10, the outside air state point P1 is shifted to the state point P2 by controlling the amount of heating to the outside air. The point P2 shifts to the state point P3 when the humidification amount to the outside air is controlled. At this state point P3, the supply air temperature TSpv coincides with the supply air temperature set value TSsp, but the supply air dew point temperature DPpv is higher than the supply air dew point temperature set value DPsp and is excessively humidified. In other words, the constant supply air temperature control is prioritized over the constant supply air dew point temperature control, resulting in excessive humidification. In this case, depending on the situation, the humidifier repeats ON / OFF and becomes a hunting operation.

  The present invention has been made to solve such a problem, and an object of the present invention is to provide an air conditioning control capable of maintaining constant control of the supply air dew point temperature regardless of the dew point temperature of the outside air. A system and an air conditioning control method are provided.

  In order to achieve such an object, the present invention includes at least a heating coil (2-2) and a humidifier (2-3) that adjust the temperature and humidity of the outside air to supply air to the controlled space. An air conditioner (2), a supply air temperature sensor (8) for detecting the temperature of the supply air from the air conditioner to the control target space as the supply air temperature, and a dew point temperature of the supply air from the air conditioner to the control target space To the air conditioner based on the supply air dew point temperature sensor (9) that detects the supply air dew point temperature, the supply air temperature detected by the supply air temperature sensor, and the supply air dew point temperature detected by the supply air dew point temperature sensor In the air conditioning control system (100) including the air conditioning control device (10) configured to obtain the operation amount of the air conditioning control device, the air conditioning control device is configured to set the supply air dew point temperature and the supply air dew point temperature. The difference between the dew point temperature setting value and the amount of operation to the humidifier. The first table (TB1) that defines the relationship with the supply air dew point temperature control output value, the difference between the supply air temperature and the supply air temperature setting value set for this supply air temperature, and the operation on the heating coil The second table (TB2) that defines the relationship between the supply air temperature control output value that is the amount, and the third table (TB3) that defines the relationship between the supply air dew point temperature control output value and the supply air temperature setting value ), And the supply air dew point detected by the supply air dew point temperature sensor from the first table and the supply air dew point set for the supply air dew point temperature. The supply air dew point temperature control output value (10A) configured to obtain the supply air dew point temperature control output value according to the difference from the temperature set value and the third table, the supply air dew point temperature control output value Supply according to the supply air dew point temperature control output value obtained by the calculator The supply air temperature set value calculation unit (10B) configured to obtain the temperature set value and the supply air temperature detected by the supply air temperature sensor and the supply air temperature set value calculation unit are obtained from the second table. And a supply air temperature control output value calculation unit (10C) configured to obtain a supply air temperature control output value corresponding to the difference from the supply air temperature set value.

  According to the present invention, from the first table, the difference between the supply air dew point temperature detected by the supply air dew point temperature sensor and the supply air dew point temperature setting value set for the supply air dew point temperature is determined. A supply air dew point temperature control output value is obtained. Then, the supply air temperature setting value corresponding to the supply air dew point temperature control output value obtained from the first table is obtained from the third table, and the supply air temperature detected by the air supply temperature sensor is obtained from the second table. A supply air temperature control output value corresponding to the difference between the air temperature and the supply air temperature setting value obtained from the third table is obtained. In the present invention, the supply air dew point temperature control output value obtained from the first table is the operation amount to the humidifier, and the supply air temperature control output value obtained from the second table is the operation amount to the heating coil. It is said.

  In the present invention, the supply air dew point temperature control output value is obtained from the difference between the supply air dew point temperature detected by the supply air dew point temperature sensor and the supply air dew point temperature setting value set for the supply air dew point temperature. A supply air temperature set value is obtained from the obtained supply air dew point temperature control output value. That is, the supply air temperature setting value is changed according to the supply air dew point temperature control output value that is the operation amount to the humidifier (a supply air temperature setting cascade based on the supply air dew point temperature is performed). As a result, when the dew point temperature of the outside air is low (when the humidification request is large), the supply air temperature set value is increased, or when the dew point temperature of the outside air is high (when the humidification request is small), the supply air temperature set value is It is possible to keep the supply air dew point temperature constant control regardless of the dew point temperature of the outside air.

  In the above description, as an example, constituent elements on the drawing corresponding to the constituent elements of the invention are indicated by reference numerals with parentheses.

  According to the present invention, the supply air dew point temperature control output according to the difference between the supply air dew point temperature detected by the supply air dew point temperature sensor and the supply air dew point temperature set value for the supply air dew point temperature. A value is obtained from the first table, a supply air temperature setting value corresponding to the supply air dew point temperature control output value obtained from the first table is obtained from the third table, and the supply air temperature detected by the supply air temperature sensor And the supply air temperature control output value corresponding to the difference between the supply air temperature setting value obtained from the third table and the supply air dew point temperature control output value as the operation amount to the humidifier. Thus, it is possible to keep the supply air dew point temperature constant control regardless of the dew point temperature of the outside air by changing the supply air temperature set value.

FIG. 1 is a diagram showing a main part of an air conditioning control system according to an embodiment of the present invention. FIG. 2 is a diagram showing an outline of the hardware configuration of the external air conditioner control device in this air conditioning control system. FIG. 3 is a functional block diagram of the external air conditioner control device in this air conditioning control system. FIG. 4 is a diagram illustrating a state in which the humidifier is intermittently operated in this air conditioning control system. FIG. 5 is a diagram showing the movement of the state points on the air diagram when the dew point temperature of the outside air is low (when the humidification request is large) in this air conditioning control system. FIG. 6 is a diagram showing the movement of the state points on the air diagram when the dew point temperature of the outside air is high (when the humidification request is small) in this air conditioning control system. FIG. 7 is a diagram showing the movement of the state points on the air diagram when the dew point temperature of the outside air is higher in this air conditioning control system (when the humidification request is smaller). FIG. 8 is a diagram illustrating the movement of the state points on the conventional air diagram when normal. FIG. 9 is a diagram illustrating the movement of the state points on the conventional air diagram when the dew point temperature of the outside air is low (when the humidification request is large). FIG. 10 is a diagram showing the movement of state points on a conventional air diagram when the dew point temperature of the outside air is high (when the humidification request is small).

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a diagram showing a main part of an air conditioning control system 100 according to an embodiment of the present invention.

  The air conditioning control system 100 includes an external air conditioner 2 that adjusts the temperature and humidity of the external air OA to provide an air supply SA to the control target space 1, and an external air damper 3 that is provided in the external air OA introduction path to the external air conditioner 2. A cold water valve 4 provided in the supply path of the cold water CW to the external air conditioner 2, a hot water valve 5 provided in the supply path of the hot water HW to the external air conditioner 2, and humidified water to the external air conditioner 2 The humidifying valve 6 provided in the WH supply path, the outside air temperature sensor 7 for detecting the temperature of the outside air OA to the outside air conditioner 2 as the outside air temperature tout, and the temperature of the air supply SA from the outside air conditioner 2 are supplied. A supply air temperature sensor 8 that detects the temperature TSpv, a supply air dew point temperature sensor 9 that detects the dew point temperature of the supply air SA from the external air conditioner 2 as a supply air dew point temperature DPpv, and the operation of the external air conditioner 2 are controlled. And an external air conditioner control device 10.

  In this air conditioning control system 100, a variable air supply adjustment unit (VAV unit) 11 is provided at the air supply outlet of the control target space 1, and a sensible heat treatment machine (FCU (fan coil) is provided in the control target space 1. Unit)) 12 is provided. An exhaust fan 13 is provided for the control target space 1. In this example, the variable air supply amount adjustment unit 11 is provided at the air supply outlet of the control target space 1, but the variable air supply amount adjustment unit 11 may not be provided.

  In the air conditioning control system 100, the external air conditioner 2 includes a cooling coil 2-1 that is supplied with cold water CW via a cold water valve 4, and a heating coil 2-2 that is supplied with hot water HW via a hot water valve 5. The humidifier 2-3 to which the humidified water WH is supplied via the humidification valve 6 and the fan 2-4 are provided. Further, the sensible heat treatment machine 12 receives the set temperature tsp from the user terminal UT and keeps the temperature in the control target space 1 at the set temperature tsp.

  The outside air conditioner control device 10 uses the outside air temperature tout detected by the outside air temperature sensor 7, the supply air temperature TSpv detected by the supply air temperature sensor 8, and the supply air dew point temperature DPpv detected by the supply air dew point temperature sensor 9. As an input, a supply air temperature control output value (supply air temperature PID (%)) is generated as an operation amount to the heating coil 2-2, or a supply air dew point temperature control output value is operated as an operation amount to the humidifier 2-3. (Supply air dew point temperature PID (%)) is generated, or an inverter output (INV output (%)) is generated as an operation amount to the supply fan 2-4. This external air conditioner control device 10 corresponds to the air conditioning control device referred to in the present invention. The external air conditioner 2 corresponds to the air conditioner referred to in the present invention.

  In the air conditioning control system 100, as shown in FIG. 2, the external controller control device 10 includes a central processing unit (CPU) 10-1, a random access memory (RAM) 10-2, and a read only memory (ROM). ) 10-3, a storage device 10-4 such as a hard disk, input / output interfaces 10-5 and 10-6, and a bus 10-7 connecting them.

  The external air conditioner control device 10 is installed with a temperature / humidity control program as a program unique to the present embodiment. This air temperature / humidity control program is provided in a state where it is recorded on a recording medium such as a CD-ROM, for example, read out from this recording medium, recorded in the storage device 10-4, and used as a usable state. It is installed in the control device 10. The air temperature and humidity control program can also be provided to the external controller control device 10 through a network.

  In the external controller control device 10, the CPU 10-1 processes various input information via the interface 10-5, thereby accessing the RAM 10-2, the ROM 10-3, and the storage device 10-4 while performing external adjustment. It operates according to the air temperature and humidity control program installed in the machine control device 10.

  In this air temperature / humidity control program, the latent heat (supply air dew point temperature) is taken into account, the air supply temperature setting value is made variable (by performing an air supply temperature setting cascade based on the air supply dew point temperature), and Control is performed to protect latent heat (supply air dew point temperature) by intermittently operating the humidifier as necessary.

  Further, in this supply air temperature / humidity control program, the storage device 10-4 defines the relationship between the difference between the supply air dew point temperature DPpv and the supply air dew point temperature set value DPsp and the supply air dew point temperature PID (%). Table TB1, a second table TB2 defining the relationship between the difference between the supply air temperature TSpv and the supply air temperature setting value TSsp and the supply air temperature PID (%), the supply air dew point temperature PID and the supply air temperature setting It is assumed that a third table TB3 that defines the relationship with the value TSsp and a fourth table TB4 that defines the relationship between the supply air dew point temperature PID and the humidifier operating time ratio γ (%) are stored.

  Hereinafter, the processing operation executed by the CPU 10-1 in accordance with the air temperature and humidity control program will be described with reference to the functional block diagram of the external air conditioner control device 10 shown in FIG.

  The external air conditioner control device 10 includes, as processing functions of the CPU 10-1, a supply air dew point temperature control output value calculation unit 10A, a supply air temperature set value calculation unit 10B, a supply air temperature control output value calculation unit 10C, and a humidification A device operation time ratio calculation unit 10D and a humidifier operation permission prohibition determination unit 10E are provided.

  The supply air dew point temperature control output value calculation unit 10A includes a supply air dew point temperature DPpv detected by the supply air dew point temperature sensor 9, and a supply air dew point temperature set value DPsp set for the supply air dew point temperature DPpv. And the supply air dew point temperature PID corresponding to the difference between the input supply air dew point temperature DPpv and the supply air dew point temperature set value DPsp is obtained from the first table TB1.

  The supply air dew point temperature PID obtained by the supply air dew point temperature control output value calculation unit 10A is sent to the humidification valve 6 as an operation amount to the humidifier 2-3. Thereby, the opening degree of the humidification valve 6 is adjusted, and the humidification amount to outside air is adjusted.

  Further, the supply air dew point temperature PID obtained by the supply air dew point temperature control output value calculation unit 10A is supplied to the supply air temperature set value calculation unit 10B, the humidifier operation time ratio calculation unit 10D, and the humidifier operation permission prohibition determination unit 10E. Is also sent.

  The supply air temperature set value calculation unit 10B receives the supply air dew point temperature PID from the supply air dew point temperature control output value calculation unit 10A, and supplies the supply air temperature set value TSsp corresponding to the input supply air dew point temperature PID. It is obtained from the third table TB3.

  In the third table TB3, for example, as a relation that the supply air temperature set value TSsp decreases from 24 ° C. to 16 ° C. in proportion to the decrease in the supply air dew point temperature PID from 100% to 55%, A relationship between the supply air dew point temperature PID and the supply air temperature setting value TSsp is defined.

  The supply air temperature set value TSsp obtained by the supply air temperature set value calculator 10B is sent to the supply air temperature control output value calculator 10C.

  The supply air temperature control output value calculation unit 10C receives and inputs the supply air temperature TSpv detected by the supply air temperature sensor 8 and the supply air temperature set value TSsp from the supply air temperature set value calculation unit 10B. The supply air temperature PID corresponding to the difference between the supply air temperature TSpv and the supply air temperature setting value TSsp is obtained from the second table TB2.

  The supply air temperature PID obtained by the supply air temperature control output value calculation unit 10C is sent to the hot water valve 5 as an operation amount to the heating coil 2-2. Thereby, the opening degree of the hot water valve 5 is adjusted, and the heating amount to the outside air is adjusted.

  The humidifier operation time ratio calculation unit 10D receives the supply air dew point temperature PID from the supply air dew point temperature control output value calculation unit 10A, and calculates the humidifier operation time ratio γ corresponding to the input supply air dew point temperature PID. It is obtained from the fourth table TB4.

  In the fourth table TB4, for example, as the relation that the humidifier operating time ratio γ decreases from 100% to 50% in proportion to the decrease in the supply air dew point temperature PID from 45% to 25%, A relationship between the supply air dew point temperature PID and the humidifier operating time ratio γ is defined.

  The humidifier 2-3 is operated at the humidifier operation time ratio γ determined by the humidifier operation time ratio calculation unit 10D. For example, when the humidifier operation time ratio γ is determined as 50%, as shown in FIG. 4, when the intermittent period (minute) is α and the ON time (minute) is β, β = α × (γ / 100), the humidifier 2-3 is intermittently operated.

  The humidifier operation permission prohibition determination unit 10E receives the supply air dew point temperature PID from the supply air dew point temperature control output value calculation unit 10A, and when the input supply air dew point temperature PID becomes 0%, the humidifier The operation of 2-3 is prohibited (humidification control is prohibited). When the humidifier operation permission prohibition determination unit 10E prohibits the operation of the humidifier 2-3, that is, after the supply air dew point temperature PID becomes 0%, when the supply air dew point temperature PID exceeds 25%, the humidifier The operation of 2-3 is permitted (humidification control is permitted).

  FIG. 5 shows the movements of the state points on the air diagram when the dew point temperature of the outside air is low (when the humidification request is large) in this embodiment, as P1 ', P2', and P3 '. In the figure, P1, P2 and P3 are shown with reference to the change of the conventional state point (see FIG. 9). In this example, it is assumed that the supply air dew point temperature PID is 100%, and the state point P1 'is at a position equal to P1.

  In this case, 24 [deg.] C. is obtained as the supply air temperature set value TSsp corresponding to the supply air dew point temperature PID by the supply air temperature set value calculation unit 10B. In this example, the supply air temperature setting value TSsp is higher than the conventional supply air temperature setting value TSsp. As a result, the outside air state point P1 '(P1) shifts to P2'. And in this state point P2 ′, the supply air dew point temperature PID to the humidifier 2-3 is 100%, and the humidifier operation time ratio γ determined by the humidifier operation time ratio calculation unit 10D is 100%. To state point P3 ′. At this state point P3 ', the supply air temperature TSpv matches the supply air temperature set value TSsp, and the supply air dew point temperature DPpv matches the supply air dew point temperature set value DPsp. That is, it coincides with the state point P0 'as the control target.

  FIG. 6 shows, as P1 ', P2', and P3 ', movements of the state points on the air diagram when the dew point temperature of the outside air is high (when the humidification request is small) in the present embodiment. In the figure, P1, P2 and P3 are shown with reference to the change of the conventional state point (see FIG. 10). In this example, it is assumed that the supply air dew point temperature PID is 50%, and the state point P1 'is at a position equal to P1.

  In this case, 16 [deg.] C. is obtained as the supply air temperature set value TSsp corresponding to the supply air dew point temperature PID by the supply air temperature set value calculation unit 10B. In this example, the supply air temperature setting value TSsp is lower than the conventional supply air temperature setting value TSsp. As a result, the outside air state point P1 '(P1) shifts to P2'. And in this state point P2 ′, the supply air dew point temperature PID to the humidifier 2-3 is 50%, and the humidifier operation time ratio γ determined by the humidifier operation time ratio calculation unit 10D is 100%. To state point P3 ′. At this state point P3 ', the supply air temperature TSpv matches the supply air temperature set value TSsp, and the supply air dew point temperature DPpv matches the supply air dew point temperature set value DPsp. That is, it coincides with the state point P0 'as the control target.

  FIG. 7 shows, as P1 ', P2', and P3 ', movements of state points on the air diagram when the dew point temperature of the outside air is higher (when the humidification request is smaller) in this embodiment. In this example, it is assumed that the supply air dew point temperature PID is 25%.

  In this case, 16 [deg.] C. is obtained as the supply air temperature set value TSsp corresponding to the supply air dew point temperature PID by the supply air temperature set value calculation unit 10B. As a result, the outside air state point P1 'shifts to P2'. And in this state point P2 ′, the supply air dew point temperature PID to the humidifier 2-3 is 25%, and the humidifier operation time ratio γ determined by the humidifier operation time ratio calculation unit 10D is 50%. Therefore, the humidifier 2-3 is intermittently operated at the humidifier operation time ratio γ = 50%, and the state shifts to the state point P3 ′. At this state point P3 ', the supply air temperature TSpv matches the supply air temperature set value TSsp, and the supply air dew point temperature DPpv matches the supply air dew point temperature set value DPsp. That is, it coincides with the state point P0 'as the control target.

  In this case, if the humidifier 2-3 is always operated without intermittent operation, the supply air dew point temperature set value DPsp is exceeded. For this reason, in a region where there is a humidification request but overshoot in the humidifier constant operation, the humidifier operation time ratio γ is narrowed and the humidifier 2-3 is intermittently operated as the supply air dew point temperature PID decreases. As a result, the supply air dew point temperature set value DPsp is maintained and energy saving is achieved.

  Thus, according to the present embodiment, the supply air temperature setting value TSsp is changed according to the supply air dew point temperature PID that is the operation amount to the humidifier 2-3 (the supply air at the supply air dew point temperature). If the dew point temperature of the outside air is low (when the humidification request is large), the supply air temperature set value TSsp is increased, or the dew point temperature of the outside air is high (when the humidification request is small) The supply air dew point temperature constant control can be maintained regardless of the dew point temperature of the outside air by decreasing the supply air temperature setting value TSsp. Further, by performing the supply air temperature setting cascade based on the supply air dew point temperature, the control is strong against disturbance without being restricted by the humidification efficiency. That is, by changing the supply air temperature setting value TSsp, the area in which the humidifier 2-3 can always be turned on increases, and the control is strong against disturbance without being limited by the humidification efficiency.

  In the present embodiment, the supply air temperature setting value TSsp changes, but there is no problem because the sensible heat treatment machine 12 is provided in the control target space 1. That is, even if the supply air temperature set value TSsp changes, the temperature in the control target space 1 is maintained at the set temperature tsp by the sensible heat treatment machine 12.

  Although it is conceivable to vary the supply air temperature setting value depending on the dew point temperature of the outside air, it is not possible to cope with instrumentation with different humidification efficiency or disturbance (change of the humidification efficiency by changing the supply air volume, etc.). For this reason, in the present embodiment, the supply air temperature set value TSsp is changed according to the supply air dew point temperature PID.

[Extension of the embodiment]
The present invention has been described above with reference to the embodiment. However, the present invention is not limited to the above embodiment. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the technical idea of the present invention.

  DESCRIPTION OF SYMBOLS 1 ... Control object space, 2 ... External conditioner, 2-1 ... Cooling coil, 2-2 ... Heating coil, 2-3 ... Humidifier, 2-4 ... Fan, 4 ... Cold water valve, 5 ... Hot water valve, 6 DESCRIPTION OF SYMBOLS ... Humidification valve, 7 ... Outside temperature sensor, 8 ... Supply air temperature sensor, 9 ... Supply air dew point temperature sensor, 10 ... External air conditioner control device, 10-1 ... CPU, 10-2 ... RAM, 10-3 ... ROM DESCRIPTION OF SYMBOLS 10-4 ... Memory | storage device, 10A ... Supply air dew point temperature control output value calculation part, 10B ... Supply air temperature setting value calculation part, 10C ... Supply air temperature control output value calculation part, 10D ... Humidifier operation time ratio calculation part 10E: Humidifier operation permission prohibition determination unit, 100: Air conditioning control system.

Claims (8)

An air conditioner having at least a heating coil and a humidifier that adjusts the temperature and humidity of the outside air to supply air to the control target space, and the temperature of the air supply from the air conditioner to the control target space A supply air dew point temperature sensor that detects a dew point temperature of the supply air from the air conditioner to the control target space as a supply air dew point temperature, and a supply air temperature sensor detected by the supply air temperature sensor. In an air conditioning control system comprising an air conditioning controller configured to obtain an operation amount to the air conditioner based on an air temperature and an air supply dew point temperature detected by the air supply dew point temperature sensor,
The air conditioning control device
The relationship between the difference between the supply air dew point temperature and the supply air dew point temperature setting value set for the supply air dew point temperature and the supply air dew point temperature control output value which is the operation amount to the humidifier was defined. The relationship between the first table, the difference between the supply air temperature and the supply air temperature setting value set for the supply air temperature, and the supply air temperature control output value that is the operation amount to the heating coil. A table storage unit that stores a determined second table, and a third table that defines a relationship between the supply air dew point temperature control output value and the supply air temperature setting value;
From the first table, the supply air dew point according to a difference between a supply air dew point temperature detected by the supply air dew point temperature sensor and a supply air dew point temperature set value set for the supply air dew point temperature. A supply air dew point temperature control output value calculator configured to obtain a temperature control output value;
Supply air temperature setting value calculation configured to obtain the supply air temperature set value according to the supply air dew point temperature control output value obtained by the supply air dew point temperature control output value operation unit from the third table. And
The supply air temperature control output value according to the difference between the supply air temperature detected by the supply air temperature sensor from the second table and the supply air temperature setting value obtained by the supply air temperature setting value calculation unit An air-conditioning control system comprising: a supply air temperature control output value calculation unit configured to obtain In the air-conditioning control system according to claim 1,
The table storage unit further includes:
Storing a fourth table defining a relationship between the supply air dew point temperature control output value and a ratio of an operation time of the humidifier;
The air conditioning control device further includes:
A humidifier operation time configured to obtain a ratio of an operation time of the humidifier according to the supply air dew point temperature control output value obtained by the supply air dew point temperature control output value calculation unit from the fourth table. An air conditioning control system comprising a ratio calculation unit. In the air conditioning control system according to claim 2,
In the fourth table,
When the supply air dew point temperature control output value is within a predetermined range, the supply air dew point temperature control is such that the ratio of the operating time of the humidifier decreases as the supply air dew point temperature control output value decreases. An air conditioning control system characterized in that a relationship between an output value and a ratio of an operation time of the humidifier is defined. In the air-conditioning control system described in any one of Claims 1-3,
The air conditioning control device further includes:
Humidifier operation permission prohibition determination configured to determine whether to permit or prohibit the operation of the humidifier based on the supply air dew point temperature control output value obtained by the supply air dew point temperature control output value calculation unit. An air conditioning control system characterized by comprising a unit. An air conditioner having at least a heating coil and a humidifier that adjusts the temperature and humidity of the outside air to supply air to the control target space, and the temperature of the air supply from the air conditioner to the control target space Applied to an air-conditioning control method comprising: an air-supply temperature sensor that detects as a supply air dew-point temperature sensor that detects an air-supply dew-point temperature as a supply-air dew-point temperature; In an air conditioning control method for obtaining an operation amount to the air conditioner based on a supply air temperature detected by a supply air temperature sensor and a supply air dew point temperature detected by the supply air dew point temperature sensor,
The relationship between the difference between the supply air dew point temperature and the supply air dew point temperature setting value set for the supply air dew point temperature and the supply air dew point temperature control output value which is the operation amount to the humidifier was defined. The relationship between the first table, the difference between the supply air temperature and the supply air temperature setting value set for the supply air temperature, and the supply air temperature control output value that is the operation amount to the heating coil. Storing a defined second table and a third table defining a relationship between the supply air dew point temperature control output value and the supply air temperature setting value;
From the first table, the supply air dew point according to a difference between a supply air dew point temperature detected by the supply air dew point temperature sensor and a supply air dew point temperature set value set for the supply air dew point temperature. Supply air dew point temperature control output value calculation step for obtaining a temperature control output value;
From the third table, a supply air temperature set value calculation step for obtaining the supply air temperature set value according to the supply air dew point temperature control output value obtained by the supply air dew point temperature control output value calculation step;
From the second table, the supply air temperature control output value corresponding to the difference between the supply air temperature detected by the supply air temperature sensor and the supply air temperature setting value obtained by the supply air temperature setting value calculation step An air-conditioning control method comprising: a supply air temperature control output value calculation step for obtaining In the air-conditioning control method according to claim 5,
further,
A step of storing a fourth table defining a relationship between the supply air dew point temperature control output value and a ratio of operating time of the humidifier; and from the fourth table, the supply air dew point temperature control output value calculation step An air conditioning control method comprising: a humidifier operating time ratio calculating step for calculating a ratio of an operating time of the humidifier according to the calculated supply air dew point temperature control output value. In the air-conditioning control method according to claim 6,
In the fourth table,
When the supply air dew point temperature control output value is within a predetermined range, the supply air dew point temperature control is such that the ratio of the operating time of the humidifier decreases as the supply air dew point temperature control output value decreases. An air conditioning control method characterized in that a relationship between an output value and a ratio of an operation time of the humidifier is defined. In the air-conditioning control method described in any one of Claims 5-7,
further,
A humidifier operation permission prohibition determining step of determining whether to permit or prohibit the operation of the humidifier based on the supply air dew point temperature control output value obtained by the supply air dew point temperature control output value calculation step. A characteristic air conditioning control method.