JP2016003813A - Radiation type air conditioning system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technology capable of securing a degree of freedom for positions to install devices on an indoor surface without impairing the appearance at a side of the indoor surface in a view from an indoor side while implementing comfortable air conditioning in a radiation type air conditioning system.SOLUTION: The radiation type air conditioning system includes a radiation panel 1 which is laid along the indoor surface and performs air conditioning within a room R by circulating a heat medium in a heat medium pipeline L provided in the radiation panel 1. The radiation panel 1 is configured by providing in parallel a plurality of radiation mold materials 10 and device fitting mold materials 20. The radiation mold material 10 is formed from a high heat conductivity material and extends along a pipe axis direction of the heat medium pipeline L while linearly providing the heat medium pipeline L. The device fitting mold material 20 is extended and formed in a belt shape while providing a device fitting surface part 21 to which devices K can be fitted, at a front face side.

Description

  The present invention relates to a radiation type air conditioning system that performs indoor air conditioning by thermal radiation.

In recent years, in response to energy saving and comfort needs, radiant air-conditioning is used for air conditioning indoors by transferring thermal energy (hereinafter referred to as "thermal radiation") without blowing cold air or hot air directly into the room. The system is drawing attention.
In such a radiation type air conditioning system, a radiation panel provided with a heat medium pipe line is laid along a room surface such as a ceiling surface, and a heat medium such as hot water or cold water is allowed to flow through the heat medium pipe line. The panel is configured to heat and cool indoors by performing heat radiation to the room and heat exchange with room air (see, for example, Patent Documents 1 and 2).

Furthermore, the radiation panel of the radiation type air conditioning system described in Patent Documents 1 and 2 is made of a material having good heat conductivity (low thermal resistance) such as aluminum, and the heat medium pipe is provided in a straight line, and the heat medium pipe A plurality of long radiating molds (see “Radiation panel unit 6” in Patent Document 1 and “Panel body 1” in Patent Document 2) formed in parallel along the tube axis direction of It is configured.
Specifically, a plurality of radiating molds are arranged in parallel at equal intervals in a state where they are close to each other, and the plurality of radiating molds arranged in parallel with each other is defined as a longitudinal direction intersecting the extending direction of the molds The rail member (see “cross member 5” in Patent Document 1) and the ceiling base are fixed.

JP 2010-190444 A Japanese Patent Laid-Open No. 07-019533

The radiation panel of such a conventional radiation type air conditioning system is integrated in a state where a plurality of radiation mold materials are arranged in parallel with each other, and between adjacent radiation mold materials, for example, Although there are cases where parts for connecting the radiating molds are provided, other parts are not configured to be installed. Further, in order to perform comfortable air conditioning, it is desired to lay a radiation panel over as wide a range as possible on the indoor surface.
However, because it is necessary to install various fixtures such as lighting fixtures in addition to such a radiation panel on the indoor surface such as the ceiling, the conventional radiation panel avoids interference with the installation location of the fixtures. Had to be laid in the area. Therefore, the installation location of appliances on the indoor surface is limited, or the appearance of the radiant panel becomes an inconsistent shape that avoids the installation location of appliances, and the aesthetics of the indoor surface side viewed from the indoor side are impaired. There has been a problem that it is impossible to lay a radiant panel over the entire indoor surface, making it impossible to realize comfortable air conditioning in the entire room.

  In view of this situation, the main problem of the present invention is that in a radiation-type air conditioning system that performs indoor air conditioning by thermal radiation, while realizing comfortable air conditioning, the indoor surface side viewed from the indoor side is not impaired. It is in the point of providing the technique which can ensure the freedom degree of the installation location of the instrument in the surface.

The first characteristic configuration of the present invention is:
A radiation type air conditioning system that includes a radiation panel laid along the indoor surface, and performs indoor air conditioning by passing a heat medium through a heat medium pipe line provided in the radiation panel,
The radiation panel is configured by arranging a plurality of radiation molds and instrument mounting molds in parallel,
The radiation mold material is a mold material formed of a good heat conductive material and the heat medium pipe line is provided in a straight line and extends along the pipe axis direction of the heat medium pipe line,
The instrument mounting mold material is a mold material in which an instrument mounting surface portion to which instruments can be mounted is provided on the front surface side and is extended in a band shape.

  According to this characteristic configuration, the radiation panel laid along the room facing the room is provided with a plurality of radiation molds and instrument mounting molds in parallel, in addition to the radiation molds. Therefore, the above-mentioned fixture mounting mold material is arranged at an appropriate location of the radiation panel according to the indoor situation, and the fixture mounting surface portion provided on the front side (side toward the center of the room) of the fixture mounting mold material Instruments can be attached to the.

  That is, when laying the radiation panel along the indoor surface, it is not necessary to consider interference with the installation location of the appliances even when the appliances are arranged at an appropriate location according to the indoor situation. Therefore, the external appearance of the radiant panel can be set freely to improve the aesthetics of the indoor surface viewed from the indoor side, and moreover, the radiant panel is laid out over the widest possible area of the indoor surface. Air conditioning can be realized.

  Therefore, according to the present invention, in a radiation type air conditioning system that performs indoor air conditioning by heat radiation, installation of appliances on the indoor surface without impairing the aesthetics of the indoor surface viewed from the indoor side while realizing comfortable air conditioning. It is possible to provide a technique capable of securing the degree of freedom of the place.

The second characteristic configuration of the present invention is:
The radiation panel has a configuration in which a plurality of the radiation molds are arranged side by side and one or a plurality of the instrument mounting molds are interposed between adjacent radiation molds.

  According to this characteristic configuration, in the radiation panel, it is possible to appropriately secure the arrangement interval of the plurality of radiation mold materials in a form in which the fixture mounting mold material is interposed between the adjacent panels. Therefore, in the radiation panel, it is possible to make the density of the radiation mold material appropriate while widening the installation area of the radiation mold material as much as possible. Then, it is possible to further improve the comfort of air conditioning by performing a wide range and appropriate heat radiation on the entire room.

The third characteristic configuration of the present invention is:
The fixture mounting mold material is made of a good heat conductive material,
In the radiation panel, heat radiation can be conducted between the radiation mold material adjacent to each other and the instrument mounting mold material.

  According to this characteristic configuration, heat radiation can be performed not only in the radiation mold material provided with the heat medium pipe line but also in the fixture mounting material made of the adjacent good heat conductive material. it can. Therefore, in the radiant panel, the effective area capable of radiating heat to the room (hereinafter sometimes referred to as “radiation area”) can be made as wide as possible. Then, it is possible to further improve the comfort of air conditioning by performing thermal radiation with a wide range and moderate intensity over the entire room.

The fourth characteristic configuration of the present invention is:
In the radiation panel, a heat conductive spacer of a good heat conductive material is interposed between the radiation mold material and the fixture mounting mold material adjacent to each other.

  According to this characteristic configuration, in order to configure heat conduction between the radiation mold material and the fixture mounting mold material adjacent to each other, a heat conductive spacer of a good heat conductive material is interposed between both mold materials. Thereby, the adhesiveness with respect to the radiation | emission mold material and the instrument attachment mold material can be improved, and favorable heat conduction can be realized between the radiation mold material and the instrument attachment mold material.

The fifth characteristic configuration of the present invention is:
The radiation mold material includes a pipe part provided with the heat medium pipe line, a support part protruding from the pipe part to the front side, and a radiation surface part extending in the width direction from the tip of the support part. And configured with
In the radiation panel, the fixture mounting mold and the pipe section of the radiation mold are adjacent to each other.

  According to this characteristic configuration, in the radiation mold material, the pipe portion provided with the heat medium pipe through which the heat medium flows is passed through the support portion protruding from the pipe section to the front side. The radiation surface portion that extends in the width direction from the tip of the support portion is connected in a heat exchangeable state. Therefore, heat radiation can be performed in a relatively wide range with respect to the room at the radiation surface portion.

  Furthermore, since the fixture mounting mold material is disposed adjacent to the pipe section provided with the heat medium pipe through which the heat medium flows, the pipe section and the instruments can be mounted. The heat conduction distance between the mold materials can be shortened as much as possible to reduce the thermal resistance, and even in the mold materials for mounting instruments, good heat radiation can be performed to the room.

The sixth characteristic configuration of the present invention is:
The radiation mold material includes a pipe part provided with the heat medium pipe line, a support part protruding from the pipe part to the front side, and a radiation surface part extending in the width direction from the tip of the support part. And configured with
In the radiation panel, the instrument mounting surface portion of the instrument mounting mold material is disposed at a position retracted from the radiation surface portion provided on the front side of the radiation mold material.

  According to this characteristic configuration, the instrument mounting surface portion of the tool mounting mold material is disposed at a position retracted from the radiation surface portion at the position protruding to the front side of the radiation mold material. The equipment attached to the can be arranged so that it does not protrude to the indoor side from the radiation surface part, and the protruding amount of the equipment can be made as small as possible, so the aesthetics of the indoor surface side seen from the indoor side is improved be able to.

  Furthermore, if the width of the radiation surface part is set to be larger than the width of the pipe line part in the radiation mold material, the gap formed between the adjacent fixture mounting mold materials is covered by the radiation surface part, and from the indoor side. The aesthetics seen can be further improved.

The seventh characteristic configuration of the present invention is:
In the radiation panel, the radiation mold material and the fixture mounting mold material are fixed to a rail member crossing a rear surface side of the mold material.

  According to this characteristic configuration, in a radiation panel in which a plurality of radiation mold materials and fixture mounting mold materials are arranged in parallel, the radiation panels are integrated by fixing the mold materials to the rail member disposed on the rear surface side. The construction of the radiation panel can be simplified on the indoor surface by, for example, supporting and fixing the radiation panel previously unitized to the indoor surface.

The perspective view which shows the laying state of a radiation panel Elevated cross section of radiant panel Enlarged view of the vertical section of the radiation panel Explanatory drawing explaining the fixing method with respect to the rail member of the radiation | emission mold material The figure which shows the attachment or detachment state of the panel part of a radiation panel Elevated cross-sectional view showing the arrangement of the large fixture mounting mold on the radiation panel The top view seen from the room of the radiation panel shown in FIG.

An embodiment of a radiation air-conditioning system according to the present invention will be described with reference to the drawings.
The radiation air-conditioning system of this embodiment is provided with the radiation panel 1 laid along the ceiling surface (an example of an indoor surface) which faces the room R, as shown in FIG.1 and FIG.2.

  This radiation panel 1 has a pair of fixing portions 52 with respect to the lower surface of a field edge 51B (an example of a ceiling base) suspended by a suspension bolt 50 suspended from a ceiling slab (not shown) via a field edge receiver 51A. , 53. Specifically, in the fixing portion 52 on one side, a claw portion 52a that is fixed to the upper surface of the rail member 30 provided on the upper surface side (rear surface side) of the radiation panel 1 and extends in the horizontal direction is formed on the lower surface of the field edge 51B. The bracket portion 53a fixed to the upper surface of the rail member 30 of the radiation panel 1 and the bracket portion 53b fixed to the lower surface of the field edge 51B in the other fixing portion 53 are then screwed into the formed groove portion 52b. It is fixed.

In this way, in the radiation panel 1 laid along the ceiling surface, a heat medium pipe L through which a heat medium such as hot water or cold water heated or cooled by a separately installed heat source machine (not shown) flows. Is provided. By causing the heat medium to flow through the heat medium pipe L, the radiation panel 1 performs heat radiation to the room R and heat exchange with the air in the room R, thereby cooling and heating the room R.
In the present embodiment, the heat medium pipe L is provided as a pipe formed inside a flexible heat medium pipe P that snakes over the upper surface side of the radiation panel 1.

  And this radiation air-conditioning system adopts the structure of the characteristic radiation panel 1 and realizes comfortable air-conditioning, without impairing the beauty of the ceiling surface side seen from the room R side. It is possible to secure the degree of freedom of the installation location of the class, and the features will be described below.

  As shown in FIG. 2, the radiation panel 1 is configured by arranging a plurality of radiation molds 10 and instrument mounting molds 20 in parallel, and the radiation molds 10 and 10 arranged side by side as described above are arranged. The fixture mounting mold 20 is fixed to a rail member 30 that traverses the upper surfaces of the molds 10 and 20, so that the radiation panel 1 is unitized as an integral structure. That is, the radiation panel 1 is unitized, so that the installation of the radiation panel 1 is simplified by supporting and fixing the radiation panel 1 previously unitized with respect to the ceiling surface.

As shown in FIGS. 2 and 3, the radiation mold 10 is made of aluminum, which is a good heat conductive material, and the heat medium pipe L is provided in a straight line so that the pipe shaft of the heat medium pipe L is provided. It is composed of an extrusion mold material extending along the direction (depth direction in FIGS. 2 and 3).
Specifically, the radiation mold 10 includes a pipe part 11 provided with the heat medium pipe L, a support part 12 protruding from the pipe part 11 to the lower surface side, and a width from the tip of the support part 12. And a radiation surface portion 13 extending in the direction (left-right direction in FIGS. 2 and 3).

  The pipe section 11 has a U-shaped pipe holding section in which a heat medium pipe P that forms the heat medium pipe L is inserted from the upper surface side and an upper surface that externally fits the heat medium pipe P is opened. It is formed as a portion having a groove 11a on the upper surface. Furthermore, the support part 12 and the radiation surface part 13 are formed as a reverse umbrella-shaped part that extends downward from the lower surface of the pipe line part 11 and extends in the width direction from the extended end. Further, the lower surface of the radiation surface portion 13 is formed as a radiation surface 13a that is curved in a convex shape, and thereby the solid angle of heat radiation from the radiation surface 13a is expanded.

  In the radiation mold 10 configured in this way, the radiation surface 13a of the radiation surface portion 13 is connected to the conduit portion 11 provided with the heat medium conduit L through the support portion 12 in a heat exchangeable state. Will be. Therefore, in performing radiation type air conditioning, heat radiation is performed in a relatively wide range with respect to the room R on the radiation surface 13a.

The radiation mold 10 is fixed to the rail member 30 by a predetermined fixing member 40, and the details of the fixing method will be described below with reference to FIGS.
The fixing member 40 includes a plate-like flange portion 41, a bolt portion 42 that is welded and fixed to the center portion of the flange portion 41 and extends in the normal direction of the flange portion 41, and is screwed to the bolt portion 42. The nut 43 is made of.
In addition, a pair of locking grooves 11b having a width slightly larger than the thickness of the flange portion 41 is formed at both edges of the pipe holding groove 11a of the radiation mold member 10, while the rail member 30 has A U-shaped cutout portion 31 is formed at a position corresponding to the center portion of the pipe holding groove 11a and cut out along the extending direction of the pipe holding groove 11a.
The flange portion 41 is formed in a parallelogram, and the distance between the pair of long sides in the parallelogram is sufficiently smaller than the width of the pipe holding groove 11a (FIG. 4A). On the other hand, the distance between the pair of short sides in the parallelogram is larger than the width of the pipe holding groove 11a and slightly smaller than the distance between the bottoms of the pair of locking grooves 11b. (See FIG. 4B.)

In fixing the radiation mold 10 to the rail member 30, first, as shown in FIG. 4A, in the pipe holding groove 11 a, the opening portion side is closer to the notch portion 31 of the rail member 30. The flange portion 41 of the fixing member 40 is inserted into the spaced position in such a posture that the longitudinal direction of the flange portion 41 is along the extending direction of the pipe holding groove 11a.
Next, as shown in FIG. 4 (b), the flange portion 41 of the inserted fixing member 40 is rotated about the axis of the bolt portion 42, and a pair of short sides in the flange portion 41 are connected to the pipe. As shown in FIG. 4C, the pair of short sides of the flange portion 41 are inserted into the pair of locking grooves 11b while being inserted into the pair of locking grooves 11b formed at both edges of the holding groove 11a. In this state, the fixing member 40 is slid to the notch 31 side of the rail member 30, and the bolt part 42 is inserted into the notch 31. In this state, the nut 43 is screwed to the bolt part 42. .
Then, in a state where the flange portion 41 of the fixing member 40 locked in the pair of locking grooves 11b formed in the radiation mold material 10 is pulled toward the notch portion 31 side of the rail member 30, the radiation mold material 10 is The rail member 30 is fixed.
4 shows that the rotation of FIG. 4B is performed prior to the slide of FIG. 4C, conversely, the fixing member 40 may be rotated after being slid.

  Further, a spacer 70 made of an elastic material is interposed in a compressed state between the flange portion 41 locked in the locking groove 11b and the upper surface of the heat medium pipe P inserted in the pipe holding groove 11a. ing. As a result, the heat medium pipe P is biased against the pipe holding groove 11a, so that the adhesion between the outer surface of the heat medium pipe P and the inner surface of the pipe holding groove 11a is improved, and the gap between them is increased. Heat conduction will be promoted.

As shown in FIGS. 2 and 3, the fixture mounting mold material 20 is also made of an extruded mold material made of aluminum, which is a good heat conductive material, like the radiation mold material 10.
Specifically, the fixture mounting mold member 20 includes a pair of flange portions 22 standing in the vertical direction, and a fixture mounting surface portion 21 provided between the pair of flange portions 22 and extending in the horizontal direction. It is comprised as a mold material consisting of. In addition, although the tool attachment mold material 20 of the present embodiment is a mold material having an H-shaped cross section, the cross-sectional shape is not limited to an H shape and can be appropriately modified.

In the fixture mounting mold 20 configured as described above, the lower surface of the fixture mounting surface portion 21 is open to the room R, and therefore the lighting fixture K1 and the air supply / exhaust port are provided on the fixture mounting surface portion 21. Various instruments K that need to be provided on the ceiling surface, such as K2, can be attached by various fixing means such as screws and screws.
That is, since the fixtures K can be attached to the fixture mounting mold material 20 of the radiation panel 1 laid along the ceiling surface, the interference between the installation location of the fixtures K and the radiation panel 1 is taken into consideration. There is no need, the appliances K can be attached to appropriate locations, and the appearance of the radiant panel 1 does not become a shape with no sense of unity that avoids the locations where the appliances K are attached. .
Therefore, there is no problem that the aesthetic appearance of the ceiling surface on which the radiation panel 1 is laid is viewed from the room R side, and further, the room R Comfortable air conditioning will be realized.

Similarly to the radiation mold 10, the fixture mounting mold 20 is fixed to the rail member 30 by a predetermined fixing member 45.
That is, the flange portion 46 of the fixing member 45 locked in the pair of locking grooves 23 formed on the upper surface of the fixture mounting mold member 20 is a nut against the bolt portion 47 extending from the flange portion 46. By screwing 48, the fixture mounting mold 20 is fixed to the rail member 30 in a state of being pulled toward the notch 31 of the rail member 30.
In this embodiment, a hexagon bolt is used as the fixing member 45, and the head of the hexagon bolt functions as the flange portion 46.

In the radiation panel 1, a plurality of radiation molds 10 and instrument mounting molds 20 are alternately arranged. In other words, a plurality of radiation mold members 10 are arranged side by side, and one instrument mounting mold member 20 is interposed between the radiation mold members 10 adjacent to each other.
Thereby, the arrangement interval of the plurality of radiation mold members 10 is appropriately secured, the installation area of the radiation mold members 10 is widened, and the density of the radiation mold members 10 is moderate. Therefore, a wide range and appropriate heat radiation is performed on the entire room R, and the comfort of air conditioning is further improved.
Further, similarly, the arrangement interval and the installation area can be appropriately set for the fixture mounting mold 20, so that the fixture K attached to the fixture mounting mold 20 can be used in a situation such as the number of people in the room R. Can be arranged accordingly.

In the radiation panel 1 configured as described above, as shown in FIG. 3, the instrument mounting surface portion 21 to which the instrument K is mounted in the instrument mounting mold 20 is wide from the tip of the support section 12 in the radiation mold 10. It arrange | positions in the position retreated to the upper surface side (rear surface side) rather than the radiation surface part 13 extended in the direction.
Specifically, the flange portions 22 provided at both ends of the fixture mounting surface portion 21 in the fixture mounting die 20 and the both side walls of the pipe portion 11 arranged on the uppermost surface side in the radiation mold 10 are provided. In the horizontal direction, they are arranged to face each other.
Thus, the appliances K attached to the appliance attachment surface portion 21 can be arranged so as not to protrude downward from the radiation surface portion 13, and the amount of projection of the appliances K can be made as small as possible. The beauty of the ceiling side is improved.

Further, as shown in FIG. 2, in the radiation panel 1, between the radiation mold 10 and the fixture mounting mold 20 adjacent to each other, specifically, the flange portion 22 of the fixture mounting mold 20, and the radiation A heat conductive spacer 60 made of a good heat conductive material is appropriately provided between the pipe member 11 of the mold member 10 and the pipe member 11 so as to be appropriately heat conductive.
Thus, heat radiation to the room R is not performed only by the radiation mold 10 provided with the heat medium pipe L, but heat radiation to the room R is also performed by the adjacent fixture mounting mold 20. Thus, a wide range and appropriate intensity of heat radiation is realized for the entire room R.
The material of the heat conductive spacer 60 may be a good heat conductive metal such as aluminum, but it is a relatively flexible material in which a good heat conductive filler such as a ceramic filler is highly filled in an elastomer such as resin or silicone. By using a material having high properties, adhesion to the radiation mold 10 and the fixture mounting mold 20 can be improved, and heat conduction between the molds 10 and 20 can be improved.

  If the gap 65 is formed between the radiation mold 10 and the fixture mounting mold 20 without providing the heat conducting spacer 60, the gap 65 functions as a ventilation path, and the upper side of the radiation panel 1. Air conditioning by convection between the side space and the lower room R is promoted.

Furthermore, as shown in FIG. 5, the radiation panel 1 in the present embodiment includes a radiation mold 10 </ b> A, a fixture mounting mold 20 </ b> A in the panel portion 1 </ b> A in a partial region, and a rail member 30 </ b> A to which they are fixed. By configuring separately from members in other regions, only the panel portion 1A can be configured to be detachable in the radiation panel 1. Thus, by removing the panel portion 1A in a part of the area from the radiation panel 1, an opening is formed through which the heat medium pipe P arranged on the upper surface side is exposed to the room R side, and the opening is interposed through the opening. Thus, the attachment / detachment of the connecting portions of the heat medium pipes P arranged continuously, other maintenance, and the like can be performed.
Moreover, in the area | region which removed the panel part 1A, as shown in FIG.6 and FIG.7, for example, as shown in FIG.6 and FIG.7, the large instrument attachment mold material 25 wider than the normal instrument attachment mold material 20 is used with the fixing tool 25a. It is also possible to attach a relatively large instrument K such as a fire sensor K3 to the instrument mounting surface portion 26 of the large instrument mounting mold 25.

[Another embodiment]
(1)
In the said embodiment, although the radiation panel 1 was laid along the ceiling surface as an indoor surface, you may lay the radiation panel 1 along the side wall surface which faces the room R as an indoor surface separately.

(2)
In the said embodiment, although the lighting fixture K1, the air supply / exhaust port K2, and the fire sensor K3 were illustrated as the fixture K attached to the molds 20 and 25 for fixture attachment, other fixtures K, such as an acoustic fixture and a sprinkler nozzle, are shown. You can attach it.
Further, when attaching the appliances K to the appliance attachment surfaces 21 and 26 of the appliance attachment mold members 20 and 25, the appliances K are attached to the surface of the appliance attachment surfaces 21 and 26 on the room R side. Although the whole may be exposed to the room R, for example, as shown in FIG. 6, the fixtures K are fixed in a state where the fixtures K are inserted into holes formed in the fixture mounting surface portions 21 and 26. If a necessary portion is exposed to the room R and other unnecessary portions are hidden by the fixture mounting surface portions 21 and 26, the aesthetics of the ceiling surface viewed from the room R side can be improved.

(3)
In the above embodiment, in one radiation panel 1, a plurality of radiation molds 10 and instrument mounting molds 20 are alternately arranged. For example, a plurality of instruments are provided between two radiation molds 10 adjacent to each other. The arrangement method of the radiation-use mold material 10 and the appliance-attachment mold material 20 can be modified as appropriate, such as arranging the kind-attachment mold material 20.

  The present invention is suitable for a radiant air conditioning system capable of ensuring the degree of freedom of the installation location of the appliances on the indoor surface without impairing the aesthetics of the indoor surface viewed from the indoor side while realizing comfortable air conditioning. Available to:

1: Radiation panel 10: Radiation mold material 11: Pipe line part 12: Support part 13: Radiation surface part 13a: Radiation surface 20, 25: Instrument attachment mold material 21: Instrument attachment surface part 30: Rail member 60: Thermal conduction spacer K: Instruments L: Heat medium pipe R: Indoor

Claims (7)

A radiation type air conditioning system that includes a radiation panel laid along the indoor surface, and performs indoor air conditioning by passing a heat medium through a heat medium pipe line provided in the radiation panel,
The radiation panel is configured by arranging a plurality of radiation molds and instrument mounting molds in parallel,
The radiation mold material is a mold material formed of a good heat conductive material and the heat medium pipe line is provided in a straight line and extends along the pipe axis direction of the heat medium pipe line,
The radiation type air conditioning system, wherein the fixture mounting mold material is a mold member that is provided with a fixture mounting surface portion on which a fixture can be mounted on the front side and is formed in a band shape.   2. The radiation according to claim 1, wherein the radiation panel includes a plurality of the radiation molds arranged side by side, and one or a plurality of instrument mounting molds are interposed between adjacent radiation molds. Air conditioning system. The fixture mounting mold material is made of a good heat conductive material,
The radiation type air conditioning system according to claim 1 or 2, wherein the radiation panel is configured to be capable of conducting heat between the radiation mold and the appliance mounting mold adjacent to each other.   The radiation type air conditioning system according to claim 3, wherein in the radiation panel, a heat conductive spacer made of a highly heat conductive material is interposed between the radiation mold material adjacent to each other and the fixture mounting mold material. The radiation mold material includes a pipe part provided with the heat medium pipe line, a support part protruding from the pipe part to the front side, and a radiation surface part extending in the width direction from the tip of the support part. And configured with
The radiation type air conditioning system according to claim 3 or 4, wherein in the radiation panel, the fixture mounting mold material and the pipe line portion of the radiation mold material are disposed adjacent to each other. The radiation mold material includes a pipe part provided with the heat medium pipe line, a support part protruding from the pipe part to the front side, and a radiation surface part extending in the width direction from the tip of the support part. And configured with
The said radiation panel WHEREIN: The instrument attachment surface part of the said instrument attachment type | mold material is arrange | positioned in the position retreated rather than the radiation surface part provided in the front side of the said radiation | emission mold member. The radiation type air conditioning system described in the paragraph.   The radiation type according to any one of claims 1 to 6, wherein in the radiation panel, the radiation mold material and the fixture mounting mold material are fixed to a rail member crossing a rear surface side of the mold material. Air conditioning system.

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