JP2017067413A - Temperature adjustment system and building - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a temperature adjustment system in which a heat radiation panel does not occupy an effective space in an indoor space.SOLUTION: A temperature adjustment system includes, in an underfloor space 3 as an indoor space of a building 1, an air conditioner 4 as a blowout type air conditioner, and heat radiation panels 5, 5. The air conditioner 4 is installed on a ceiling of the underfloor space 3. The heat radiation panels 5, 5 are installed at an upper part of a wall in the underfloor space 3. The air conditioner 4 and the heat radiation panels 5, 5 have arrangement relationship such that adjusted air discharged from the air conditioner 4 collides with surfaces of the heat radiation panels 5, 5 on which heat is radiated.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a building temperature control system and a building equipped with the temperature control system.

  Conventionally, a temperature control system for controlling the temperature of an indoor space in a building by heating or cooling with a blow-out type air conditioner and a heat radiation panel has been known and put into practice (see, for example, Patent Document 1). .

JP 2014-95490 A

  However, in the conventional temperature control system such as Patent Document 1 described above, a heat radiation panel having a large height from the floor surface side to the ceiling surface side and a large thickness is used. There has been a problem that a considerable space is occupied for a person to move or to place furniture.

  Accordingly, an object of the present invention is to provide a temperature control system in which a thermal radiation panel does not occupy an effective space in an indoor space, and a building including the temperature control system.

  In order to achieve the above object, the temperature control system of the present invention includes a blowout type air conditioner and a heat radiation panel in an indoor space of a building, and the blowout type air conditioner has a ceiling in the indoor space. Or it is installed in the upper part of the wall, the thermal radiation panel is installed in the ceiling of the indoor space or the upper part of the wall, and the blowout type air conditioner and the thermal radiation panel are from the blowout type air conditioner. The temperature-controlled air that is blown out has a positional relationship that corresponds to the surface for performing thermal radiation of the thermal radiation panel.

  Here, the blowout type air conditioner may be a ceiling embedded type embedded in the ceiling.

  Further, the blowout air conditioner and the heat radiation panel may be of a heat pump type.

  Furthermore, the blowout type air conditioner and the heat radiation panel may be connected to a common heat pump device.

  Further, the blowout type air conditioner may be controlled so as to blow out the temperature-controlled air only for a predetermined time when the thermal radiation panel starts up.

  The building of the present invention is provided with the above-described temperature control system of the present invention.

  Such a temperature control system of the present invention includes a blowout type air conditioner and a heat radiation panel in an indoor space of a building, and the blowout type air conditioner is installed on the ceiling or wall of the indoor space. The thermal radiation panel is installed on the ceiling of the indoor space or the upper part of the wall. The blowout type air conditioner and the thermal radiation panel are the temperature-controlled air blown from the blowout type air conditioner. It is set as the arrangement | positioning relationship which hits the surface for performing thermal radiation.

Since it is an above-mentioned composition, since a heat radiation panel is installed in the ceiling of an indoor space, or the upper part of a wall, a heat radiation panel does not occupy the effective space in an indoor space.
In addition, since the temperature-controlled air blown out from the blowout air conditioner hits the surface for heat radiation of the heat radiation panel, heat radiation from the heat radiation panel is promoted to increase the heat radiation amount, and the temperature control of the indoor space Can be shortened.

  Here, when the blowout type air conditioner is a ceiling-embedded type embedded in the ceiling, the blowout type air conditioner is not exposed to the indoor space, so that the design appearance is good.

  Moreover, since the heat pump is used when the blowout type air conditioner and the heat radiation panel are of a heat pump type, they can be excellent in energy saving performance.

  Furthermore, since the blowout type air conditioner and the heat radiation panel are connected to a common heat pump device, the common heat pump device is used, so that the control structure can be simplified.

  In addition, when the blowout type air conditioner is controlled to blow out the temperature-controlled air only for a predetermined time at the start of operation of the heat radiation panel, the temperature-controlled air is blown out only for a predetermined time at the start of operation of the heat radiation panel. There is almost no discomfort due to the feeling of airflow.

  Such a building of the present invention is configured to include the above-described temperature control system of the present invention.

  Since it is an above-mentioned structure, it can be set as the building which show | plays the effect of the above-mentioned temperature control system of this invention.

It is explanatory drawing which shows schematic structure of the building provided with the temperature control system of an Example. In the temperature control system of an Example, it is explanatory drawing which shows the state at the time of a heat radiation panel operation start-up. In the temperature control system of an Example, it is explanatory drawing which shows the state after the driving | running start of a thermal radiation panel. It is explanatory drawing which shows schematic structure of the building provided with the temperature control system of another Example.

  DESCRIPTION OF EMBODIMENTS Hereinafter, modes for carrying out the present invention will be described based on examples shown in the drawings.

First, the configuration of the embodiment will be described.
FIG. 1 shows a schematic configuration of a building 1 provided with the temperature control system of the embodiment.

The building 1 includes a foundation bottom concrete 1b, a foundation side wall concrete 1c erected on the side edge thereof, an outer wall portion 1d erected thereon, and a ceiling portion 1e that closes the upper end opening of the outer wall portion 1d. And is composed mainly of.
In the space surrounded by the ceiling portion 1e and the outer wall portion 1d, an underfloor space 2 and an above-floor space 3 as an indoor space such as a living room are partitioned by a floor portion 1a as a floor.

Here, an air conditioner 4 as a blow-out type air conditioner with a ceiling embedded is installed in the approximate center of the ceiling in the floor space 3 as an indoor space.
Further, thermal radiation panels 5 are respectively installed on the upper left and right walls in the floor space 3.
In addition, the surface of these thermal radiation panels 5 and 5 is made to incline toward the center part of the floor space 3 so that the center part of the floor space 3 may be temperature-controlled more particularly.

The air conditioner 4 and the heat radiation panel 5 as the blowout type air conditioner are of a heat pump type, and are connected to a common heat pump device 6 installed outside the building 1 via heat medium circulation pipes 41 and 51, respectively. It is connected.
Although the heat medium circulation pipes 41 and 51 are actually an outward path pipe and a return path pipe, only one pipe is shown for easy viewing.
Further, an alternative chlorofluorocarbon is used for the heat medium in the heat medium circulation pipe 41, and water is used for the heat medium in the heat medium circulation pipe 51.

  Further, although not shown, the air conditioner 4 is provided with an outlet so that temperature-controlled air (warm air or cold air) is blown out in the lateral direction.

  Then, when the operation is started by operating the controller 7, as shown in FIG. 2, the temperature-controlled air (warm air or cold air) is only supplied for a predetermined time (for example, 10 minutes) when the heat radiation panels 5 and 5 are started. Control is performed by a control unit (not shown) so as to hit the surface of the blowout and thermal radiation panels 5 and 5.

  After that, as shown in FIG. 3, the floor space 3 as an indoor space is temperature-controlled (heating or cooling) only by heat (heat or cold) radiated from the heat radiation panels 5 and 5.

The temperature control system of this embodiment is based on an operation mode in which the temperature is controlled only by the air conditioner 4 and the air conditioner 4 so as to meet the needs of the person who likes the airflow feeling of the air conditioner 4 as the blowout type air conditioner. There is also an operation mode that combines temperature control and temperature control by the thermal radiation panels 5 and 5.
These operation modes can be switched by operating the controller 7.

Next, functions and effects of the embodiment will be described.
The temperature control system of such an embodiment includes an air conditioner 4 as a blow-out type air conditioner and heat radiation panels 5 and 5 in a floor space 3 as an indoor space of a building 1. Are installed on the ceiling of the floor space 3, and the heat radiation panels 5, 5 are installed on the upper part of the wall of the floor space 3. The air conditioner 4 and the heat radiation panels 5, 5 are the air conditioner 4. The temperature-controlled air blown out from the heat radiation panels 5 and 5 has a configuration in which the temperature-controlled air hits the surface for performing heat radiation.

Since it is an above-mentioned composition, since heat radiation panels 5 and 5 are installed in the upper part of the wall of floor space 3 as indoor space, heat radiation panels 5 and 5 may occupy the effective space in floor space 3. Absent.
In addition, since the temperature-controlled air blown out from the air conditioner 4 as the blow-out type air conditioner hits the surface for heat radiation of the heat radiation panels 5 and 5, heat radiation from the heat radiation panels 5 and 5 is promoted. The amount of heat radiation is increased, and the rise time of the temperature control of the floor space 3 as the indoor space can be shortened.

Here, the air conditioner 4 as a blow-out type air conditioner is a ceiling embedded type embedded in a ceiling.
For this reason, since the air conditioner 4 as a blow-out type air conditioner is hardly exposed to the floor space 3 as an indoor space, the design appearance is good.

Moreover, the air conditioner 4 and the thermal radiation panels 5 and 5 as a blowing type air conditioner are of a heat pump type.
For this reason, since a heat pump is used, it can be excellent in energy saving performance.

Further, the air conditioner 4 and the heat radiation panels 5 and 5 as the blowout type air conditioner are connected to a common heat pump device 6.
For this reason, since the common heat pump device 6 is used, the control structure can be simplified.

Further, the air conditioner 4 as the blowout type air conditioner is controlled to blow out the temperature-controlled air only for a predetermined time when the heat radiation panels 5 and 5 are started up.
For this reason, since the temperature-controlled air is blown out only for a predetermined time when the heat radiation panels 5 and 5 are started up, there is almost no discomfort due to the feeling of airflow.

  The building 1 of such an example is configured to include the temperature control system of the above-described example.

  Since it is an above-mentioned structure, it can be set as the building which show | plays the effect of the temperature control system of an above-described Example.

  As mentioned above, although the form for implementing this invention was explained in full detail based on the Example with reference to drawings, the concrete structure is not limited to this Example, and is a grade which does not deviate from the summary of this invention. Design changes are included in the present invention.

For example, in the above-described embodiment, the air conditioner 4 as the blowout type air conditioner is embedded and installed in the ceiling. However, the present invention is not limited to this. It may be installed and implemented.
That is, the air conditioner 4 as the blowout type air conditioner and the heat radiation panels 5 and 5 are arranged so that the temperature-controlled air blown out from the air conditioner 4 hits the surface for heat radiation of the heat radiation panels 5 and 5. It only has to be.

  Moreover, in the above-mentioned Example, although the thermal radiation panels 5 and 5 were installed and implemented in the upper part of a wall, it is not limited to this, You may install and implement on a ceiling.

  Furthermore, in the above-described embodiment, the thermal radiation panel 5 is installed one by one on the upper part of the left and right walls so as to simplify the explanation. However, the present invention is not limited to this and is actually necessary. Implemented by setting the number of sheets.

  Moreover, although the case where it implemented in the floor space 3 as a comparatively large indoor space was shown in the above-mentioned Example, in the narrower floor space 3, as shown in FIG. 4, the thermal radiation panel 5 was shown only on one side. You may install and implement.

DESCRIPTION OF SYMBOLS 1 Building 1a Floor part 1b Foundation bottom concrete 1c Foundation side wall concrete 1d Exterior wall part 1e Ceiling part 2 Floor space 3 Floor space (indoor space)
4 Air conditioner (Blow-out type air conditioner)
41 Heat medium circulation pipe 5 Heat radiation panel 51 Heat medium circulation pipe 6 Heat pump device 7 Controller

Claims (6)

In the indoor space of the building, it has a blow-out type air conditioner and a heat radiation panel,
The blowout air conditioner is installed on the ceiling or wall of the indoor space,
The thermal radiation panel is installed on the ceiling or wall of the indoor space,
The blowout type air conditioner and the thermal radiation panel are characterized in that temperature-controlled air blown out from the blowout type air conditioning apparatus has an arrangement relationship corresponding to a surface for performing thermal radiation of the thermal radiation panel. Temperature control system.   The temperature control system according to claim 1, wherein the blowout type air conditioner is a ceiling embedded type embedded in the ceiling.   The temperature control system according to claim 1 or 2, wherein the blow-out type air conditioner and the heat radiation panel are of a heat pump type.   The temperature control system according to claim 3, wherein the blowout type air conditioner and the heat radiation panel are connected to a common heat pump device.   The temperature control system according to any one of claims 1 to 4, wherein the blow-out type air conditioner is controlled so as to blow out temperature-controlled air only for a predetermined time when the thermal radiation panel starts operation. .   A building comprising the temperature control system according to any one of claims 1 to 5.