KR100993543B1 - Method and device for managing setting value - Google Patents

Abstract

Energy saving can be realized by resetting the setting values of the thermal environment such as the temperature setting values to the reference setting values. When the predetermined time is reached, it is determined whether the current control mode is the cooling mode or the heating mode. For example, in the case of the cooling mode, the current temperature setpoint tsp is compared with the reference setpoint TCR, and if tsp <TCR, the temperature setpoint tsp is changed to the reference setpoint TCR (reset allowed), and tsp≥TCR If so, the temperature set value tsp remains as it is (reset prohibition). Only when it is judged that there exists an objective for energy saving by this, a change to a reference setting value is performed, and the change of the temperature setting value in the direction to which energy consumption increases is no longer made.

Temperature setpoint, control mode, air conditioning zone, temperature setter, temperature detector

Description

METHOD AND DEVICE FOR MANAGING SETTING VALUE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a set value management method and apparatus for resetting a set value of a thermal environment, such as a temperature set value set for a air-conditioning space, to a predetermined reference set value at a predetermined time or the like.

Background Art Conventionally, in an air conditioning control system such as an office building, for example, a set temperature determined for an air conditioning zone (air-conditioned air space) in each floor is adjusted to a preference of a resident using a temperature setter set in the air conditioning zone. It is possible to change. The upper limit value and the lower limit value are respectively set at the time of cooling and heating at preset temperature. The occupant can freely change the temperature set value within this upper and lower limit.

Fig. 7A shows an example of the temperature setting situation of the previous day in the office building. In this example, in the air conditioning zones Z1, Z2, Z3, and Z4, the temperature set values tsp are 22 ° C, 23 ° C, 23 ° C, and 22 ° C, respectively. In this case, the upper limit value TCH of the set temperature at the time of cooling is set to 26 degreeC, the lower limit value TCL is 22 degreeC, the upper limit value THH of the set temperature at heating is set to 22 degreeC, and the lower limit value THL is set to 18 degreeC. do.

In this type of air conditioning control system, as a method of managing the set value, for example, at a designated time, the current temperature set value defined for the air conditioner zone is reset to a predetermined reference set value. For example, in FIG. 7A, when the reference set value TCR in the cooling mode is 24 ° C. and the reference set value THR in the heating mode is 20 ° C., in the cooling mode at a designated time of the next day. Assuming that the air conditioning control is started, as shown in FIG. 7B, the temperature set values tsp for the air conditioning zones Z1, Z2, Z3, and Z4 are all changed to the reference set value TCR (24 ° C.).

Thereby, at the designated time of the next day, the temperature set value tsp in the air conditioning zones Z1, Z2, Z3, Z4 is set higher than the temperature set value tsp of the previous day, and energy saving can be achieved. In this example, the current temperature set value is reset to the reference set value at the designated time of the next day. However, in a hotel or the like, the temperature set value in the cabin is also reset to the reference set value at the time of checkout. (See Patent Document 1, for example).

[Patent Document 1] Japanese Patent Laid-Open No. 8-121849

However, in the above-described conventional method for managing set values, although the purpose is to save energy, the temperature set values may be reset in a direction contrary to energy saving, that is, in a direction in which energy consumption increases. This problem frequently occurs in the intermediate stage where cooling and heating are mixed.

FIG. 8A shows an example of the temperature setting situation of the previous day of the intermediate period in the office building. In this example, in the air conditioning zones Z1, Z2, and Z3, the temperature set value tsp is 22 ° C, 26 ° C, and 23 ° C by the temperature setting at the day of cooling of the previous day. By this, the temperature set value tsp is 18 ° C.

Here, assuming that air conditioning control in the cooling mode is started at the designated time of the next day, as shown in Fig. 8B, the temperature set values tsp for the air conditioning zones Z1, Z2, Z3, and Z4 are all reference set values TCR. (24 ° C.). In this case, in the air conditioning zone Z2, the energy consumption increases because the temperature set value tsp is set lower than the temperature set value tsp of the previous day.

In the intermediate stage in which air-conditioning is mixed, the temperature set value tsp is often set higher than the reference set value TCR (24 t ° C.) like the temperature set in the air conditioning zone Z2. On the contrary, the temperature setting value tsp is often set lower than the reference setting value THR (20 ° C). In this case, if air-conditioning control in a heating mode is started in the designated time of the next day, energy consumption increases in the temperature set value tsp being set higher than the temperature set value tsp of the previous day.

The upper limit value TCH of the set temperature at the time of cooling may be determined as the reference set value TCR, or the lower limit value THL of the set temperature at the time of heating may be determined as the reference set value THR. Since the value tsp is changed and many residents are dissatisfied at the designated time of the next day, there is a possibility that many claims are generated. For this reason, the reference set value TCR is defined between the upper limit value TCH and the lower limit value TCL of the cooling set temperature and the reference set value THR is set between the upper limit value THH and the lower limit value THL of the heating set temperature.

SUMMARY OF THE INVENTION The present invention has been made to solve such a problem, and an object of the present invention is to provide a setting value management method capable of realizing more energy saving when resetting a setting value of a thermal environment such as a temperature setting value to a reference setting value. It is to provide a device.

In order to achieve this object, the present invention provides a reference set value in a set value management method (set value management device) for resetting a set value of a thermal environment determined for a space to be controlled to a predetermined reference set value. Is instructed to determine whether or not it is intended to save energy to change the setting value of the thermal environment at that time to the reference set value. It is forbidden to change the set value of the reference value to the reference set value, and if it is determined that there is no purpose for saving energy, changing the set value of the thermal environment at that time to the reference set value.

According to the present invention, when a reset to the reference set value is instructed, it is determined whether changing the set value of the thermal environment at that time to the reference set value is intended to save energy. For example, if the set value of the thermal environment is set as the temperature set value, it can be judged whether the purpose of energy saving is to change the temperature set value at that time to the reference set value. Here, if it is determined that the purpose is to save energy, it is permitted to change the temperature set value at that time to the reference set value, and if it is determined that there is no purpose for energy saving, the temperature set value at that time is changed to the reference set value. It is forbidden. Accordingly, only when it is determined that the energy saving purpose is determined, the temperature set value is changed to the reference set value, so that the change in the temperature set value in the direction of increasing energy consumption is eliminated.

In the present invention, it is determined whether changing the set value of the heat environment to the reference set value is intended to save energy, but this determination is made by the following method, for example. When a reset to the reference set value is instructed, the control mode of the current air conditioning control for the air-conditioning space is determined, and the reference value determined according to the control mode is used as the reference set value and the set value of the thermal environment at that time. In comparison, it is determined whether the purpose of energy saving is to change the setting value of the thermal environment at that time to the reference setting value according to the comparison result.

For example, when the control mode of the current air conditioning control is determined to be the cooling mode, the reference set value TCR determined by the cooling mode is compared with the temperature set value tsp at that time, and the temperature set value tsp at that time is set as the reference setting. If it is lower than the value TCR, it is determined that there is a purpose for energy saving. If the temperature set value tsp at that time is higher than the reference set value TCR, it is determined that there is no purpose for energy saving. When it is determined that the control mode of the present air conditioning control is the heating mode, the reference set value THR determined according to the heating mode is compared with the temperature set value tsp at that time, and the temperature set value tsp at that time is larger than the reference set value THR. If it is high, it is determined that there is a purpose for energy saving, and if the temperature set value tsp at that time is lower than the reference set value THR, it is determined that there is no purpose for energy saving.

In this case, it is necessary to determine the control mode of the current air conditioning control, but various methods can be considered as a method of determining this control mode. For example, by viewing the heating and cooling signal of the air conditioner or the operation state of the original refrigerator or boiler, it is determined whether the air conditioner is in the cooling mode or the heating mode. In addition, judging from the control target temperature and the set temperature, judging from the control valve opening degree such as the present day or the previous day, judging by the season (date), or judging by the outside temperature can be considered.

According to the present invention, when the reset to the reference set value is instructed, it is determined whether the purpose of energy saving is to change the setting value of the thermal environment at that time to the reference set value, and thus the purpose is to save energy. If it is determined that the setting value of the thermal environment at that time is changed to the reference setting value, and if it is determined that there is no purpose for saving energy, it is prohibited to change the setting value of the heating environment at that time to the reference setting value. Therefore, only when it is judged that there is a purpose for energy saving, the setting value of the thermal environment is changed to the reference setting value, and the setting value of the thermal environment in the direction of increasing energy consumption is no longer changed. Energy saving can be realized.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail based on drawing. 1 is a system configuration diagram showing an example of an air conditioning control system used for implementing a set value management method according to the present invention.

In the figure, 1 (1-1 to 1-4) is a temperature setter, 2 (2-1 to 2-4) is a temperature detector, and temperature setters 1-1 and temperature detector 2-1 are air conditioning zones. Z1, temperature setter 1-2 and temperature detector 2-2 are in air conditioning zone Z2, temperature setter 1-3 and temperature detector 2-3 are in air conditioning zone Z3, temperature setter 1-4 and temperature detector 2- 4 is installed in the air conditioning zone Z4.

In addition, a VAV unit (variable air volume control unit) 3-1 is installed in the air conditioning zone Z1, a VAV unit 3-2 is installed in the air conditioning zone Z2, and a VAV unit 3-3 is installed in the air conditioning zone Z3. For zone Z4, VAV units 3-4 are installed.

In this air conditioning control system, the temperature setters 1 (1-1 to 1-4), the temperature detectors 2 (2-1 to 2-4), and the VAV units 3 (3-1 to 3-4) are air conditioning control devices. It is connected to (5).

The air conditioning control device 5 controls the temperature setpoints tsp (tsp1 to tsp4) from the temperature setters 1 (1-1 to 1-4) and the room temperature from the temperature detectors 2 (2-1 to 2-4). The air conditioner 6 is set so that the measurement values tpv (tpv1 to tpV4) are input and the room temperature tpv (tpv1 to tpV4) in the air conditioning zones Z (Z1 to Z4) is matched to the temperature set values tsp (tsp1 to tsp4). Temperature of the air supply to the VAV units 3 (3-1 to 3-4), the air supply amount, the damper opening degree in the VAV units 3 (3-1 to 3-4), and the like.

2 schematically shows a hardware configuration of the air conditioning controller 5. In the figure, 5-1 is a CPU, 5-2 is a RAM, 5-3 is a ROM, 5-4 is a storage device such as a hard disk, and 5-5 and 5-6 are interfaces. The CPU 5-1 operates along with the program stored in the ROM 5-3 or the storage device 5-4 while accessing the RAM 5-2. In the storage device 5-4, a set value management program is stored as a program unique to this embodiment. This set value management program is provided in a state of being recorded in a recording medium such as a CD-ROM, for example, and is read from this recording medium and installed in the storage device 5-4.

Hereinafter, with reference to the flowchart shown in FIG. 4, the process operation which CPU5-1 performs according to a setting value management program is demonstrated. Also in this embodiment, in the same manner as in the conventional example, the upper limit TCH of the set temperature at the time of cooling is 26 ° C., the lower limit TCL is 22 ° C., the upper limit THH of the set temperature at heating is 22 ° C., the lower limit THL is 18 ° C., and in the cooling mode. It is assumed that the reference set value TCR of the reference set value TCR is 24 ° C. and the reference set value THR in the heating mode is set to 20 ° C. (see FIG. 3).

When the CPU 5-1 reaches the designated time (YES in step 101), the CPU 5-1 determines that a reset to the reference setting value is instructed, and the control mode of the current air conditioning control for the air conditioning zone Z (Z1 to Z4) is determined. It is determined whether it is the cooling mode or the heating mode (step 102). In this example, the cooling mode / heating mode is determined from the air conditioning signal to the air conditioner 6.

[In the cooling mode]

If the CPU 5-1 determines in step 102 that the control mode of the current air conditioning control is the cooling mode, it compares the temperature set value tsp at that time with the reference set value TCR for each air conditioning zone Z (step 103). ).

If tsp <TCR (NO in step 103), the temperature set value tsp in the air conditioning zone Z is changed to the reference set value TCR (step 104). If tsp &gt; TCR (YES in step 103), the temperature set value tsp in the air conditioning zone Z is not changed, and the current state is set (step 105).

That is, with respect to the air conditioning zone Z of tsp <TCR, it is determined that the change is made in the energy saving direction, and the change of the temperature setting value tsp to the reference set value TCR is allowed (reset allowed), and the air conditioning zone Z of tsp? Is not changed in the energy saving direction, the change of the temperature set value tsp to the reference set value TCR is prohibited (reset prohibited).

In this way, the CPU 5-1 determines for each of the air conditioning zones Z the permission / prohibition of the change to the reference set value TCR of the temperature set value tsp at that time, and the temperature set value tsp only for the allowed air conditioning zone Z. After the change to the reference set value TCR is performed, air conditioning control is started (step 109).

(In heating mode)

When the CPU 5-1 determines in step 102 that the control mode of the current air conditioning control is the heating mode, the temperature set value tsp and the reference set value THR at that time are compared for each air conditioning zone Z (step 106). .

If tsp> THR (NO in step 106), the temperature set value tsp in the air conditioning zone Z is changed to the reference set value THR (step 107). If tsp &lt; THR (YES in step 106), the temperature set value tsp in the air conditioning zone Z is not changed, and the current state is set (step 108).

That is, about the air-conditioning zone Z of tsp> THR, it is judged that it is a change to an energy saving direction, and allows the change of the temperature setting value tsp to the reference setting value THR (reset permitting), and the air conditioning zone Z of tsp <= THR. Regarding this, it is determined that the change is not in the energy saving direction, and the change to the reference set value THR of the temperature set value tsp is prohibited (reset prohibited).

In this way, the CPU 5-1 determines for each of the air conditioning zones Z the permission / prohibition of the change to the reference set value THR of the temperature set value tsp at that time, and the temperature set value tsp only for the allowed air conditioning zone Z. After changing to the reference set value THR, the air conditioning control is started (step 109).

5A shows an example of the temperature setting situation of the day before the intermediate period in the office building. In this example, in the air conditioning zones Z1, Z2, and Z3, the temperature set value tsp is 22 ° C, 26 ° C, and 23 ° C by the temperature setting at the previous day's cooling time. By this, the temperature set value tsp is 18 ° C.

In this case, if it is determined that the control mode of the current air conditioning control is the cooling mode (YES in step 102) at the designated time of the next day (YES in step 101), for each of the air conditioning zones Z1, Z2, Z3, and Z4. At that time, the temperature set value tsp and the reference set value TCR are compared (step 103).

In this example, the reference set value TCR is 24 ° C., and the condition of tsp <TCR is satisfied for the air conditioning zones Z1, Z3, and Z4 (NO in step 103), so that the temperature set value tsp is changed to the reference set value TCR. On the other hand, the condition of tsp≥TCR is satisfied for the air conditioning zone Z2 (YES in step 103), so that the change of the temperature set value tsp to the reference set value TCR is prohibited (step 105). As a result, as shown in FIG. 5B, in the air conditioning zone Z2, the temperature set value tsp is in a 26 ° C. state, and there is no change in the temperature set value in the direction of increasing energy consumption.

6A shows another example of the temperature setting situation of the previous day of the intermediate period in the office building. In this example, in the air conditioning zones Z1, Z2, and Z3, the temperature set value tsp is 21 ° C, 18 ° C, and 22 ° C by the temperature setting at the heating of the previous day, and in the air conditioning zone Z4, the temperature setting at the cooling of the previous day is By this, the temperature set value tsp is 24 ° C.

In this case, if it is determined that the control mode of the current air conditioning control is the heating mode ("heating" in step 102) at the designated time of the next day (YES in step 101), for each of the air conditioning zones Z1, Z2, Z3, and Z4. At that time, the temperature set value tsp and the reference set value THR are compared (step 106).

In this example, the reference set value THR is 20 ° C., and the condition of tsp> THR is satisfied for the air conditioning zones Z1, Z3, and Z4 (NO in step 106), so that the temperature set value tsp is changed to the reference set value THR. This is allowed (step 107). On the other hand, since the condition of tsp≤THR holds for the air conditioning zone Z2 (YES in step 106), the change of the temperature set value tsp to the reference set value THR is prohibited (step 108). Thereby, as shown in FIG. 6B, in air conditioning zone Z2, temperature set value tsp will be 18 degreeC, and the change of the temperature set value in the direction to which energy consumption increases will disappear.

In the above-described embodiment, in step 102, the control mode of the current air conditioning control is determined from the air-conditioning signal to the air conditioner 6, but, for example, when the cold water is generated from the original cold sync or the operating state of the boiler. May be determined in the same manner as the cooling mode and the heating mode at the time of generating hot water. In addition, it may be judged from the control target temperature and the set temperature, judged from the control valve opening degree such as present or previous day, judged by season (date), or judged by outside temperature. For example, it is judged to be a cooling mode in April to September, and a heating mode in October to March. In addition, when the outside temperature is 20 ℃ or more, it is determined that the cooling mode, the heating mode below 20 ℃. In addition, the cooling mode / heating mode may be determined by the combination thereof.

Moreover, in the above-mentioned embodiment, although the intermediate value between the upper limit value TCH and the lower limit value TCL of cooling set temperature is made into the reference set value TCR, the intermediate value between the upper limit value THH and the lower limit value THL of heating set temperature is made into the reference set value THR. It is not necessary to necessarily set the intermediate value of the upper and lower limits of the set temperature as the reference set value. For example, you may set reference | standard set value TCR as 25 degreeC, or reference | standard set value THR as 19 degreeC.

In addition, in the above-mentioned embodiment, although the reset to the reference setting value is performed at the designated time, the reset to the reference setting value may be performed at any timing. For example, in a hotel or the like, the present invention can be applied even when the temperature setting value in the cabin is reset to the reference setting value at the time of checkout.

In addition, in the above-described embodiment, the case where the temperature set value is reset to the reference set value as the set value of the thermal environment has been described as an example. However, for the combination of air temperature, average radiation temperature, air temperature, temperature, wear amount, and metabolic amount, The present invention is also applicable to the case where the PMV (Predicted Mean Vote) showing comfort level is reset to a reference set value.

1 is a system configuration diagram showing an example of an air conditioning control system used for implementing a set value management method according to the present invention.

2 is a block diagram showing an outline of a hardware configuration of an air conditioning control device in this air conditioning control system.

3 is a diagram showing the relationship between the upper and lower limits of cooling set temperature and the upper and lower limits of heating set temperature and reference set values in cooling mode and heating mode.

4 is a flowchart for explaining a processing operation that follows a set value management program executed by a CPU of the air conditioning controller.

FIG. 5 is a diagram showing an example of the temperature setting situation of the previous day in the office building and the reset situation to the reference setting value of the designated time of the next day.

Fig. 6 is a diagram showing another example of the temperature setting situation of the previous day in the office building and the reset situation of the designated time of the designated time of the next day.

7 is a diagram showing an example of a conventional temperature setting situation of the previous day in the office building and a reset situation to the reference setting value of the designated time of the next day.

Fig. 8 is a diagram showing another example of the conventional temperature setting situation of the previous day in the office building, and the reset situation to the reference setting value of the designated time of the next day.

[Description of the code]

Z (Z1-Z4): Air Conditioning Zone 1 (1-1-1-4): Temperature setter

2 (2-1 to 2-4): Temperature detector 3 (3-1 to 3-4): VAV unit

5: HVAC control device 5-1: CPU

5-2: RAM 5-3: ROM

5-4: Memory 5-5, 5-6: Interface

6: air conditioner

Claims (4)

In the set value management method of resetting the set value of the thermal environment determined with respect to the air-conditioning space to a predetermined reference set value, A first step of determining a control mode of a current air conditioning control for the air-conditioned space when a reset to the reference set value is instructed; When it is determined that the cooling mode is determined by the first step, the predetermined reference setting value of the cooling mode is compared with the setting value of the heating environment at that time, and the setting value of the heating environment at that time is determined according to the comparison result. A second step of determining whether the change to the reference setting value is in an energy saving direction; If it is determined by the second step that the reference setting value of the cooling mode is larger than the setting value of the heating environment, and it is determined that changing the setting value of the heating environment at that time to the reference setting value is the energy saving direction. A third step of allowing the setting value of the heating environment at the time to be changed to the reference setting value of the cooling mode; When it is determined by the second step that the reference set value of the cooling mode is smaller than the set value of the warm environment, it is determined that changing the set value of the warm environment at that time to the reference set value is not an energy saving direction. And a fourth step of prohibiting changing the set value of the thermal environment at that time to the reference set value of the cooling mode. In the set value management method of resetting the set value of the thermal environment determined with respect to the air-conditioning space to a predetermined reference set value, A first step of determining a control mode of a current air conditioning control for the air-conditioned space when a reset to the reference set value is instructed; When it is determined that the warm mode is determined by the first step, the predetermined reference set value of the warm mode is compared with the set value of the warm environment at that time, and the set value of the warm environment at that time is determined according to the comparison result. A second step of determining whether the change to the reference setting value is in an energy saving direction; If it is determined by the second step that the reference setting value of the warming mode is smaller than the setting value of the heating environment, and it is determined that changing the setting value of the heating environment at that time to the reference setting value is the energy saving direction. A third step of allowing the setting value of the heating environment at the time to be changed to the reference setting value of the heating mode; When it is determined by the second step that the reference setting value of the warming mode is larger than the setting value of the heating environment, it is determined that changing the setting value of the heating environment at that time to the reference setting value is not an energy saving direction. And a fourth step of prohibiting changing the set value of the thermal environment at that time to the reference set value of the warm mode. In the set value management apparatus which resets the set value of the thermal environment set with respect to the air-conditioning space to a predetermined reference set value, Control mode determining means for determining a control mode of the current air conditioning control for the air-conditioned space when a reset to the reference set value is instructed; When it is determined by the control mode determining means that the cooling mode is determined, the predetermined reference setting value of the cooling mode is compared with the setting value of the heating environment at that time, and the setting value of the heating environment at that time is determined according to the comparison result. Energy saving determination means for determining whether the change to the reference set value is an energy saving direction; When the reference setting value of the cooling mode is larger than the setting value of the heating environment by the energy saving determination means, and it is determined that the setting value of the heating environment at that time is the energy saving direction, Change permission means for allowing the setting value of the thermal environment at that time to be changed to the reference setting value of the cooling mode; When the reference setting value of the cooling mode is smaller than the setting value of the heating environment by the energy saving determination means, and it is determined that changing the setting value of the heating environment at that time to the reference setting value is not the energy saving direction. And change prohibition means for prohibiting changing the set value of the thermal environment at that time to the reference set value of the cooling mode. In the set value management apparatus which resets the set value of the thermal environment set with respect to the air-conditioning space to a predetermined reference set value, Control mode determining means for determining a control mode of the current air conditioning control for the air-conditioned space when a reset to the reference set value is instructed; When it is determined that the heating mode is determined by the control mode determining means, the predetermined reference setting value of the heating mode is compared with the setting value of the heating environment at that time, and the setting value of the heating environment at that time is determined according to the comparison result. Energy saving determination means for determining whether the change to the reference set value is an energy saving direction; When the reference setting value of the warming mode is smaller than the setting value of the heating environment by the energy saving determination means, and it is determined that changing the setting value of the heating environment at that time to the reference setting value is the energy saving direction. Change permission means for allowing the setting value of the heating environment at that time to be changed to the reference setting value of the heating mode; When the reference setting value of the heating mode is larger than the setting value of the thermal environment by the energy saving determination means, and it is determined that the setting value of the heating environment at that time is not the energy saving direction. And change prohibition means for prohibiting changing the set value of the thermal environment at that time to the reference set value of the warm mode.

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