JP2023104534A - Air-conditioning illumination control device - Google Patents

Abstract

To obtain an air-conditioning illumination control device capable of reducing air-conditioning energy.SOLUTION: An air-conditioning illumination control device comprises: an air-conditioning control unit (1) that adjusts an indoor temperature to a target indoor temperature by increasing or decreasing output of an air conditioner (4) during cooling operation or heating operation; an illumination control unit (2) that changes a color temperature of an indoor illumination (5) between a low color temperature at which occupants feel warmth and a high color temperature at which the occupants feel cold; and an interlocking control unit (3) that interlocks the air-conditioning control unit (1) and the illumination control unit (2) to adjust the indoor temperature so that the occupants feel an appropriate temperature, according to thermal sensation information of the occupants and high and low color temperature information of the indoor illumination (5).SELECTED DRAWING: Figure 1

Description

The present invention relates to an air conditioning lighting control device.

As disclosed in Patent Document 1, an air-conditioning system is known in which the color temperature of indoor lighting is switched and the cooling/heating output of an air conditioner is suppressed by the sensible temperature difference to save energy.

JP-A-5-87373

Such an air conditioning system is effective in saving energy, but in recent years there has been an increasing demand for further improvement in energy saving.

In order to solve the above problems, the present invention provides an air conditioning control unit that adjusts the output of the air conditioner during cooling operation or heating operation to a target indoor temperature, and adjusts the color temperature of the indoor lighting so that the occupants can feel the warmth. a lighting control unit for changing a low color temperature perceived by the occupants of the room to a high color temperature perceived by the occupants of the room; and an interlocking control unit that interlocks the lighting control unit and controls such that the occupants of the room feel a suitable temperature.

By utilizing the warmth and cold given to the occupants of the room by the color temperature of the indoor lighting, it is possible to give the occupants a feeling of appropriate temperature while suppressing the output of the air conditioner, thereby saving energy.
By rapidly changing the color temperature of the indoor lighting with the sudden change control part, the change in the sensible temperature of the occupants of the room can be easily felt, and the discomfort due to lack of coolness and warmth can be eliminated.
The gradual change control section gradually changes the color temperature of the interior lighting over time to adapt to the temperature, making it difficult for people in the room to feel changes in the sensible temperature. By increasing the color temperature slowly during heating, it is possible to repeatedly use the change in the sensible temperature due to the color temperature of the room lighting, and it is possible to save energy.

It is a block diagram which shows an example of this invention. 4 is a control flow diagram during cooling operation. FIG. FIG. 4 is a control flow diagram during heating operation;

FIG. 1 shows an embodiment of an air-conditioning and lighting control device of the present invention installed in a room of a building or the like. It consists of a microprocessor (not shown), various sensors, and other control devices.

The air conditioning control unit 1 increases or decreases the output (energy for cooling or heating) of the air conditioner 4 during cooling operation or heating operation to adjust the room temperature to a target room temperature. The air conditioner 4 is a known air-cooled air conditioner, cold/hot water fan coil unit, or the like, and cools or heats air with a refrigerant or hot/cold water in a heat exchanger (not shown) and supplies the air to the room. When the output of the air conditioner 4 during cooling operation is increased, the indoor temperature decreases and energy consumption increases, and when the output is decreased, the indoor temperature increases and energy consumption decreases. Increasing the output during heating operation raises the indoor temperature and increases energy consumption, while lowering the output lowers the indoor temperature and reduces energy consumption.

The lighting control unit 2 changes the color temperature (Kelvin) of the indoor lighting 5 to provide a low color temperature (3000 to 3200 K) at which the occupants feel warm and a high color temperature (5000 to 5500 K) at which the occupants feel cold. ) to adjust the sensible temperature of the room occupants. The Kelvin (K) values of the low color temperature and the high color temperature are an example and are not limited. The indoor lighting 5 is a known LED lighting or the like whose color temperature, illuminance, etc. can be changed.

The interlocking control unit 3 interlocks the air conditioning control unit 1 and the lighting control unit 2 according to the current thermal sensation information of the occupants and the current high and low color temperature information of the indoor lighting 5 so that the occupants feel the appropriate temperature. adjust to The interlocking control unit 3 includes a cooling temperature drop control unit 6, a cooling temperature rise control unit 7, a heating temperature rise control unit 8, a heating temperature drop control unit 9, a sudden change control unit 10, a gradual change control unit 11, and a standby control unit 12. there is The cold sensation information (feels cold) and warm sensation information (feels hot) of the room occupants are input (instructed) to the interlock control unit 3 by a manual switch or the like (not shown).

As shown in FIG. 2 , the cooling temperature drop control unit 6 controls the temperature of the room while maintaining the output of the air conditioner 4 during the cooling operation according to the temperature information of the occupants and the low color temperature information of the room lighting 5 during the cooling operation. The first step of cooling down the lighting 5 from a low color temperature to a high color temperature, and increasing the output of the air conditioner 4 during cooling operation according to the temperature information of the occupants and the high color temperature information of the indoor lighting 5 is the target. and a step of decreasing the temperature of the interior lighting 5 from a high color temperature to a low color temperature while decreasing the interior temperature.

During cooling operation, the cooling temperature rise control unit 7 reduces the output of the air conditioner 4 during cooling operation according to the information on the coldness of the occupant and the information on the low color temperature of the indoor lighting 5 to increase the target indoor temperature while increasing the indoor lighting. 5 from a low color temperature to a high color temperature, and the output of the air conditioner 4 during cooling operation is increased according to the information on the coldness of the occupant and the information on the high color temperature of the indoor lighting 5. and a step of increasing the room temperature while maintaining the room lighting 5 at a high color temperature.

As shown in FIG. 3, during the heating operation, the heating temperature rise control unit 8 maintains the output of the air conditioner 4 during the heating operation according to the information on the cold sensation of the room occupant and the information on the high color temperature of the indoor lighting 5. A first heating temperature raising step for changing the color temperature of the indoor lighting 5 from a high color temperature to a low color temperature, and increasing the output of the air conditioner 4 during the heating operation according to the information on the cold feeling of the occupant and the information on the low color temperature of the indoor lighting 5. and a second heating-time temperature raising step of increasing the target room temperature by increasing the color temperature of the room lighting 5 from the low color temperature to the high color temperature.

During the heating operation, the heating temperature drop control unit 9 reduces the output of the air conditioner 4 during the heating operation according to the temperature information of the occupant and the high color temperature information of the indoor lighting 5 to lower the target room temperature while the indoor lighting 5 is lowered from a high color temperature to a low color temperature; and a step of lowering the temperature during heating in which the indoor lighting 5 is maintained at a low color temperature while lowering the temperature.

In each of the above steps, the target room temperature is increased or decreased by 0.5° C. by increasing or decreasing the output of the air conditioner 4, but it is not limited to this.

The sudden change control unit 10 rapidly changes the color temperature of the indoor lighting 5 (10 to 30 seconds , preferably about 20 seconds). This rapid color temperature change time is an example and is not limited.

The gradual change control unit 11 performs a second cooling temperature decrease step of the cooling temperature decrease control unit 6, a first cooling temperature increase step of the cooling temperature increase control unit 7, and a second heating temperature increase step of the heating temperature increase control unit 8. In the first heating temperature drop step of the heating temperature drop control unit 9, the color temperature of the room lighting 5 is slowly changed (3 to 7 minutes, preferably about 5 minutes). In this way, even if the color temperature changes, the change in the sensible temperature can be suppressed, so the sensible temperature can be further changed only by changing the color temperature of the indoor lighting 5 without increasing the output of the air conditioner 4. can be done. This slow color temperature change time is an example and is not limited.

The standby control unit 12 does not accept subsequent input for a certain period of time (about 5 minutes) even if the input of the occupant's cold/warm sensation information to the interlocking control unit 3 continues.

1 air conditioning control unit 2 lighting control unit 3 interlocking control unit 4 air conditioner 5 indoor lighting 6 cooling temperature decrease control unit 7 cooling temperature increase control unit 8 heating temperature increase control unit 9 heating temperature decrease control unit 10 sudden change control unit 11 gradual change control unit

In order to solve the above problems, the present invention provides an air conditioning control unit that adjusts the indoor temperature to a set temperature by increasing or decreasing the output of the air conditioner during cooling operation or heating operation, a lighting control unit that changes the color temperature between a low color temperature that feels cool and a high color temperature that the occupant feels cold; The most important feature is that it includes an interlocking control unit that interlocks the control unit and the lighting control unit and controls the occupant so that the room occupant feels an appropriate temperature.

The air conditioning control unit 1 adjusts the indoor temperature to the set temperature by increasing or decreasing the output (energy for cooling or heating) of the air conditioner 4 during cooling operation or heating operation. The air conditioner 4 is a known air-cooled air conditioner, cold/hot water fan coil unit, or the like, and cools or heats air with a refrigerant or hot/cold water in a heat exchanger (not shown) and supplies the air to the room. When the output of the air conditioner 4 during cooling operation is increased, the indoor temperature decreases and energy consumption increases, and when the output is decreased, the indoor temperature increases and energy consumption decreases. Increasing the output during heating operation raises the indoor temperature and increases energy consumption, while lowering the output lowers the indoor temperature and reduces energy consumption.

As shown in FIG. 2 , the cooling temperature drop control unit 6 controls the temperature of the room while maintaining the output of the air conditioner 4 during the cooling operation according to the temperature information of the occupants and the low color temperature information of the room lighting 5 during the cooling operation. A first cooling-time cooling step that changes the color temperature of the lighting 5 from a low color temperature to a high color temperature, and increases the output of the air conditioner 4 during the cooling operation according to the temperature information of the occupant and the high color temperature information of the indoor lighting 5 to increase the indoor temperature. a second cooling-time temperature lowering step of lowering the color temperature of the interior lighting 5 from the high color temperature to the low color temperature while lowering the temperature to the set temperature ;

During the cooling operation, the cooling temperature rise control unit 7 reduces the output of the air conditioner 4 during the cooling operation according to the information on the feeling of coldness of the occupant and the information on the low color temperature of the indoor lighting 5 to raise the indoor temperature to the set temperature. A first step of increasing the temperature of the indoor lighting 5 from a low color temperature to a high color temperature during cooling, and increasing the output of the air conditioner 4 during the cooling operation according to the information on the cold feeling of the occupant and the information on the high color temperature of the indoor lighting 5. a second step of increasing the temperature during cooling for maintaining the indoor lighting 5 at a high color temperature while lowering the indoor temperature to the set temperature by using the above steps.

As shown in FIG. 3, during the heating operation, the heating temperature rise control unit 8 maintains the output of the air conditioner 4 during the heating operation according to the information on the cold sensation of the room occupant and the information on the high color temperature of the indoor lighting 5. A first heating temperature raising step for changing the color temperature of the indoor lighting 5 from a high color temperature to a low color temperature, and increasing the output of the air conditioner 4 during the heating operation according to the information on the cold feeling of the occupant and the information on the low color temperature of the indoor lighting 5. a second heating-time temperature raising step of increasing the indoor temperature from the low color temperature to the high color temperature while raising the indoor temperature to the set temperature ;

During the heating operation, the heating temperature drop control unit 9 reduces the output of the air conditioner 4 during the heating operation according to the temperature information of the room occupant and the high color temperature information of the indoor lighting 5 to lower the indoor temperature to the set temperature. A first temperature lowering step during heating, in which the color temperature of the lighting 5 is changed from a high color temperature to a low color temperature, and the output of the air conditioner 4 during the heating operation is lowered according to the information on the warmth of the occupant and the information on the low color temperature of the indoor lighting 5, thereby and a second step of lowering the temperature during heating in which the indoor lighting 5 is maintained at a low color temperature while lowering the temperature to the set temperature.

In each of the above steps, the room temperature is increased or decreased by 0.5° C. by increasing or decreasing the output of the air conditioner 4, but it is not limited to this.

In order to solve the above problems, the present invention provides an air conditioning control unit that adjusts the indoor temperature to a set temperature by increasing or decreasing the output of the air conditioner during cooling operation or heating operation, and adjusts the color temperature of the indoor lighting so that the occupants are warm. a lighting control unit that changes the color temperature between a low color temperature that feels cool and a high color temperature that the occupant feels cold; The most important feature is that it includes an interlocking control unit that interlocks the control unit and the lighting control unit and controls the occupant so that the room occupant feels an appropriate temperature.

Claims (4)

An air conditioning control unit (1) that adjusts the output of an air conditioner (4) during cooling operation or heating operation to a target indoor temperature, and the color temperature of indoor lighting (5) that makes the occupants feel warm. A lighting control unit (2) that changes the color temperature between a low color temperature and a high color temperature that the occupant feels cold, and according to the thermal sensation information of the occupant and the high and low color temperature information of the indoor lighting (5). and an interlocking control unit (3) that interlocks the air conditioning control unit (1) and the lighting control unit (2) to adjust so that the occupants of the room feel an appropriate temperature. Device. The interlocking control unit (3)
During the cooling operation, the indoor lighting (5) is maintained while maintaining the output of the air conditioner (4) during the cooling operation according to the information on the warmth of the person in the room and the information on the low color temperature of the indoor lighting (5). ) from the low color temperature to the high color temperature; a second cooling-time temperature decreasing step from the high color temperature to the low color temperature while increasing the output during the cooling operation to decrease the target indoor temperature. A cooling temperature drop control unit (6) that executes
During the cooling operation, the output of the air conditioner (4) during the cooling operation is lowered according to the information on the feeling of coldness of the person in the room and the information on the low color temperature of the indoor lighting (5) to lower the target room temperature. a first cooling-time temperature raising step of increasing the indoor lighting (5) from the low color temperature to the high color temperature while increasing the temperature; a second cooling-time temperature raising step of increasing the output of the air conditioner (4) during the cooling operation in response to raising the target indoor temperature while maintaining the indoor lighting (5) at the high color temperature; A cooling temperature rise control unit (7) that executes any of the steps of
During the heating operation, the indoor lighting while maintaining the output of the air conditioner (4) during the heating operation according to the cold feeling information of the occupant and the high color temperature information of the indoor lighting (5) (5) is changed from the high color temperature to the low color temperature; and the air conditioner according to the cold feeling information of the occupant and the low color temperature information of the indoor lighting (5). and a second heating-time temperature raising step of (4), in which the indoor lighting (5) is changed from the low color temperature to the high color temperature while increasing the output during the heating operation to raise the target indoor temperature. A heating temperature rise control unit (8) that executes any of the steps;
During the heating operation, the output of the air conditioner (4) during the heating operation is lowered according to the information on the sense of warmth of the person in the room and the information on the high color temperature of the indoor lighting (5) to reduce the target room temperature. a first heating-time temperature lowering step of changing the indoor lighting (5) from the high color temperature to the low color temperature while lowering the temperature; and a second heating temperature lowering step of maintaining the indoor lighting (5) at the low color temperature while lowering the target indoor temperature by reducing the output of the air conditioner (4) during the heating operation accordingly. A heating temperature drop control unit (9) that executes any of the steps;
The air conditioning lighting control device according to claim 1, comprising: The interlocking control unit (3) controls the indoor lighting ( 3. The air conditioning lighting control device according to claim 2, further comprising a sudden change control section (10) for rapidly changing the color temperature of 5). The interlocking control unit (3) controls the indoor lighting ( 4. The air conditioning lighting control device according to claim 2 or 3, further comprising a gradual change control section (11) for slowly changing the color temperature of 5).

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