JP7104122B2 - Air conditioning lighting controller - Google Patents

Description

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

As in Patent Document 1, there is known an air conditioning system that switches the color temperature of indoor lighting and suppresses the sensible temperature difference in the cooling / heating output of the air conditioner to save energy.

Japanese Unexamined Patent Publication No. 5-87373

Such an air conditioning system is effective for energy saving, 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 has an air conditioning control unit that increases or decreases the output of the air conditioner during cooling operation or heating operation to adjust to the target room temperature, and changes the color temperature of the room lighting to experience the occupants. During the cooling operation, the lighting control unit that adjusts the temperature and the air conditioning control unit and the lighting control unit are linked to change the color temperature of the indoor lighting according to the hot / cold feeling information of the occupant. An interlocking control unit that controls the output so as to maintain or raise the target room temperature and controls the output so as to maintain or lower the target room temperature during the heating operation so that the occupant feels at an appropriate temperature. The most important feature is that it is equipped with.

According to the first aspect of the present invention, the warmth and coldness given to the living room by the color temperature of the indoor lighting can be utilized to give the living room a feeling of appropriate temperature while suppressing the output of the air conditioner, and energy saving can be achieved . According to the invention of claim 2 , the energy saving can be further improved by suppressing the output (energy consumption) of the cooling operation or the heating operation of the air conditioner to the allowable temperature of the occupant by utilizing the temperature adaptation of the occupant.

It is a block diagram which shows an example of this invention. It is explanatory drawing of the cooling temperature rise control part. It is explanatory drawing of the cooling temperature lowering control part. It is explanatory drawing of the heating / lowering temperature control unit. It is explanatory drawing of the heating temperature rise control part.

FIG. 1 shows an embodiment of an air conditioner lighting control device of the present invention provided in a building interior or the like, and this air conditioner lighting control device includes an air conditioner control unit 1, a lighting control unit 2, and an interlocking control unit 3. It consists of an abbreviated microprocessor, various sensors, and other control equipment.

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

The lighting control unit 2 changes the color temperature (Kelvin) of the indoor lighting 5 to adjust the sensible temperature of the occupant. The illumination control unit 2 includes a color temperature control unit 6 and a buffer control unit 7. The interior lighting 5 is a known LED lighting or the like that can change the color temperature, illuminance, and the like. The color temperature control unit 6 has a low color temperature (3000K) in which the occupant feels warm, a high color temperature (5500K) in which the occupant feels cold, and an intermediate medium color from a low color temperature to a high color temperature. The color temperature of the room lighting is changed to the temperature (4000K). The buffer control unit 7 gradually changes the color temperature of the indoor lighting 5 over a predetermined time (2 to 4 minutes). The Kelvin (K) value from the low color temperature to the high color temperature and the color temperature change time (2 to 4 minutes) are examples and are not limited.

The interlocking control unit 3 maintains the target room temperature during the cooling operation while changing the color temperature of the indoor lighting 5 by interlocking the air conditioning control unit 1 and the lighting control unit 2 according to the current temperature and cooling sensation information of the occupants. Alternatively, the output is controlled so as to increase the temperature, and the output is controlled so as to maintain or decrease the target room temperature during the heating operation so that the occupants feel the appropriate temperature. The interlocking control unit 3 includes a cooling temperature rise control unit 8, a cooling temperature reduction control unit 9, a heating temperature reduction control unit 10, a heating temperature rise control unit 11, and a temperature compensation unit 12. The cold sensation information (feeling cold) and the warm sensation information (feeling hot) of the occupants are acquired by a manual switch or thermography (not shown).

As shown in FIG. 2, the cooling temperature rise control unit 8 lowers the output of the air conditioner 4 during the cooling operation to reduce the target room temperature when the temperature is raised from the current state according to the cold feeling information of the occupants during the cooling operation. While raising the indoor lighting 5, the indoor lighting 5 is raised from the current low color temperature to the high color temperature in the first cooling step and the output of the air conditioner 4 during the cooling operation is lowered to raise the target indoor temperature. During the third cooling, the indoor lighting 5 is maintained at the current high color temperature while raising the target room temperature by lowering the output during the cooling operation of the air conditioner 4 and the second cooling step of changing from the color temperature to the high color temperature. One of the temperature raising steps is executed based on the current color temperature of the indoor lighting 5.

As shown in FIG. 3, when the cooling temperature lowering control unit 9 lowers the temperature from the current state according to the warmth information of the occupants during the cooling operation, the room lighting 5 is currently used while maintaining the output of the air conditioner 4 during the cooling operation. The temperature of the room lighting 5 is lowered from the current medium color temperature to the high color temperature while maintaining the output during the cooling operation of the first cooling step and the cooling operation of the air conditioner 4. One of the steps and the third cooling step of raising the output of the air conditioner 4 during cooling operation and lowering the target room temperature while lowering the indoor lighting 5 from the current high color temperature to the low color temperature. This is performed based on the current color temperature of the room lighting 5.

As shown in FIG. 4, when the heating / lowering control unit 10 lowers the temperature from the current state according to the warmth information of the occupants during the heating operation, the heating / lowering control unit 10 lowers the output of the air conditioner 4 during the heating operation to lower the target room temperature. The indoor lighting 5 is changed from the current medium color temperature while lowering the target room temperature by lowering the output during the heating operation of the first heating step and the heating operation, which changes the indoor lighting 5 from the current high color temperature to the low color temperature. The second heating lowering step to lower the color temperature and the third heating lowering step to maintain the indoor lighting 5 at the current low color temperature while lowering the target room temperature by lowering the output during heating operation of the air conditioner 4. One of these steps is performed based on the current color temperature of the room heating 5.

As shown in FIG. 5, when the heating temperature rise control unit 11 raises the temperature from the current state according to the cold feeling information of the occupants during the heating operation, the room lighting 5 maintains the output during the heating operation of the air conditioner 4. The second step of changing the temperature from the current high color temperature to the medium color temperature and the second step of changing the indoor lighting 5 from the current medium color temperature to the low color temperature while maintaining the output during the heating operation of the air conditioner 4 and the first heating step. Of the step of raising the temperature during heating and the third step of raising the temperature during heating, which raises the target room temperature by increasing the output of the air conditioner 4 during heating operation and raises the room lighting 5 from the current low color temperature to a high color temperature. Any step is performed based on the current color temperature of the room lighting 5.

In FIGS. 2 to 5, for example, the color temperature change time of the low color temperature ⇔ medium color temperature of the indoor lighting 5 is 2 minutes, the color temperature change time of the medium color temperature ⇔ high color temperature is 2 minutes, and the low color temperature ⇔ high color. The color temperature change time of the temperature is 4 minutes, and the target room temperature is raised or lowered in 0.5 ° C increments up to a maximum of 2 ° C, but is not limited to this. The temperature compensating unit 12 maintains the color temperature of the indoor lighting 5 according to the appropriate temperature feeling information that is neither hot nor cold, and keeps the temperature within the permissible temperature range of the temperature adaptation of the occupants (for example, 2 to 3 ° C.) during the cooling operation. The output is controlled so as to raise the temperature, and the output is controlled so as to lower the room temperature during the heating operation.

1 Air conditioning control unit 2 Lighting control unit 3 Interlocking control unit 4 Air conditioner 5 Indoor lighting 6 Color temperature control unit 7 Buffer control unit 8 Cooling temperature rise control unit 9 Cooling temperature reduction control unit 10 Heating temperature reduction control unit 11 Heating temperature rise control unit 12 Temperature compensator

Claims (2)

An air conditioning control unit that adjusts the target room temperature by increasing or decreasing the output during cooling operation or heating operation of the air conditioner, and a lighting control unit that adjusts the perceived temperature of the occupants by changing the color temperature of the room lighting. The air-conditioning control unit and the lighting control unit are interlocked with each other according to the heating / cooling sensation information of the occupant so as to maintain or raise the target room temperature during the cooling operation while changing the color temperature of the room lighting. It is provided with an interlocking control unit that controls the output and controls the output so as to maintain or lower the target room temperature during the heating operation so that the occupant feels an appropriate temperature.
The lighting control unit sets the low color temperature at which the room occupant feels warm, the high color temperature at which the occupant feels cold, and the intermediate color temperature from the low color temperature to the high color temperature. A color temperature control unit for changing the color temperature is provided.
The interlocking control unit
In the case of raising the temperature according to the cooling sensation information of the occupant during the cooling operation
In the first cooling step, the indoor lighting is changed from the current low color temperature to the high color temperature while lowering the output of the air conditioner during the cooling operation and raising the target room temperature.
In the second cooling step, the indoor lighting is changed from the current medium color temperature to the high color temperature while lowering the output of the air conditioner during the cooling operation and raising the target room temperature.
A third cooling step of lowering the output of the air conditioner during the cooling operation to raise the target room temperature and maintaining the room lighting at the current high color temperature.
A cooling temperature rise control unit that executes any of the above steps based on the current color temperature of the room lighting.
In the case of lowering the temperature according to the warmth information of the occupant during the cooling operation.
In the first cooling step of changing the indoor lighting from the current low color temperature to the medium color temperature while maintaining the output of the air conditioner during the cooling operation.
In the second cooling step of changing the indoor lighting from the current medium color temperature to the high color temperature while maintaining the output of the air conditioner during the cooling operation.
A third cooling step of increasing the output of the air conditioner during the cooling operation and lowering the target room temperature while changing the room lighting from the current high color temperature to the low color temperature.
A cooling temperature lowering control unit that executes any of the above steps based on the current color temperature of the indoor lighting.
In the case of lowering the temperature according to the warmth information of the occupant during the heating operation
In the first heating lowering step, the indoor lighting is changed from the current high color temperature to the low color temperature while lowering the output of the air conditioner during the heating operation to lower the target room temperature.
In the second heating lowering step, the indoor lighting is changed from the current medium color temperature to the low color temperature while lowering the output of the air conditioner during the heating operation to lower the target room temperature.
With the third heating lowering step of maintaining the indoor lighting at the current low color temperature while lowering the target room temperature by lowering the output of the air conditioner during the heating operation.
A heating / lowering control unit that executes any of the above steps based on the current color temperature of the indoor lighting.
In the case of raising the temperature according to the cooling sensation information of the occupant during the heating operation
In the first heating heating step of changing the indoor lighting from the current high color temperature to the medium color temperature while maintaining the output of the air conditioner during the heating operation.
A second heating temperature raising step of changing the room lighting from the current medium color temperature to the low color temperature while maintaining the output of the air conditioner during the heating operation.
In the third heating temperature raising step, the indoor lighting is changed from the current low color temperature to the high color temperature while raising the target room temperature by raising the output of the air conditioner during the heating operation.
A heating temperature rise control unit that executes any of the above steps based on the current color temperature of the indoor lighting.
An air-conditioning lighting control device characterized by being equipped with . The interlocking control unit controls the output so as to raise the room temperature during the cooling operation within the allowable temperature range of the temperature adaptation of the occupant while maintaining the color temperature of the room lighting, and during the heating operation. The air-conditioning lighting control device according to claim 1 , further comprising a temperature compensating unit that controls the output so as to lower the room temperature .

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