JPH02178536A - Building ceiling provided with cooling and heating function by radiation panel - Google Patents

Abstract

PURPOSE:To easily perform attaching lighting fixtures and to make radiation panels larger in size by a method wherein a radiation panel is provided with a planar radiation part and liquid paths for heat carrier, and a detachable lighting fixture with a groove which opens facing downward is attached between two radiation panels by a hanger. CONSTITUTION:A radiation plate 2 of a radiation panel 1 is composed of aluminum extruded moldings, and a recessed pipe fitting part 8 having a semicircular cross section is provided in the middle of each extruded molding. A protruding joint part 9 is provided on one edge of the radiation plate and a recessed joint part 10 on the other edge. The radiation part of the radiation panel 1 is composed of three radiation plates 2. Water paths 4 through which cold water flows are formed zigzag. The straight parts of the water paths 4 are fitted into the recessed pipe fitting parts 8 of the radiating plates 2. A hanger 12 is attached to a horizontal part of a beam 11, outwardly protruding parts 15 are provided at the lower ends of the vertical parts on the right and left side of the hanger 12, and the edges on the right and left sides of the radiation panel 1 are supported on the outwardly protruding parts 15. A lighting fixture 6 has an inverted U shaped, and its horizontal part 6a is fixed to the hanger 12 by screws 18.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application This invention relates to the ceiling of a building equipped with heating and cooling functions using radiant panels.

BACKGROUND OF THE INVENTION Conventionally, ceilings of buildings equipped with a cooling function using radiant panels have been known, and band-shaped heat radiating plates having a required width and having water pipes on the back side have been installed over almost the entire surface of the ceiling.

Problems to be Solved by the Invention However, in such conventional ceilings, the radiant panels are installed after installation, and the lighting fixtures are directly attached to the bottom surface of the heat sink of the radiant panel. Not only is this extremely troublesome and time-consuming, but the lighting equipment blocks the radiant surface and prevents uniform radiation, resulting in low radiant efficiency and poor cooling performance.

In addition, if the radiant panel is installed over the entire surface of the ceiling, it is not possible to perform maintenance on the piping in the ceiling, so it is necessary to install the radiant panel while leaving a part of the periphery of the ceiling. There was a problem in that the cooling efficiency decreased accordingly.

The purpose of the present invention is to solve the above-mentioned problems of the prior art,
Lighting equipment can be installed very easily on a ceiling equipped with a radiant panel, the radiant panel can be made larger, and therefore construction is easy, and the heat dissipation part of the radiant panel is not obstructed. Since the lighting equipment can be positioned at the same level as the radiant panel, the radiation is uniform and the radiation efficiency is extremely high.In addition, maintenance of pipes in the ceiling can be done freely.
To provide a ceiling of a building equipped with a heating and cooling function using a radiant panel, which can increase cooling and heating efficiency by attaching the radiant panel to almost the entire surface of the ceiling without leaving the peripheral part of the ceiling, etc.

Means for Solving the Problems In order to achieve the above object, the present invention includes a plate-shaped heat radiating section and a fluid passage provided on the back surface of the heat radiating section through which a cooling or heating heat medium flows. Multiple radiant panels
A cross section that is attached to a beam in parallel via a hanging member, with a gap between at least two radiant panels, and a concave groove for storing lighting equipment that opens downward between both radiant panels. A lighting fixture mounting member with an approximately inverted U shape is arranged to close the gap, and the lighting fixture mounting member is removably attached to the beam via a hanging member.Equipped with heating and cooling functions using a radiant panel. The gist is the ceiling of the building.

Example Next, embodiments of the present invention will be described based on the drawings.

In Figures 1 to 4, the ceiling of a building equipped with a cooling function using the radiant panel of the present invention includes a heat sink (2) made of three extruded aluminum sheets and a heat sink (2) installed on the back side of the heat sink (2). Four radiant panels (1) with serpentine water pipes (4) are attached to the beam (11) via hanging members (I2).
) are installed in parallel. A gap (5) is created between the adjacent radiant panels (1) (1), and a downwardly opened recess 1iIff (7) for storing lighting equipment is provided between both the radiant panels (1) (1). The lighting fixture mounting member (6), which has a substantially inverted U-shaped cross section, is connected to the gap (5).
A lighting fixture mounting member (6) is attached to the beam (11) via a hanging member (12).

The heat dissipation plate (2) of the radiant panel (1) is made of three aluminum extrusions, and as shown in Figure 4, each extrusion has a water pipe fitting recess (8) with a circular cross section in the center. At the same time, a fitting protrusion (10) with a cross-sectional opening shape is provided on the negative side edge, and a fitting recess (10) with a cross-sectional opening shape is provided on the other side edge. The heat dissipation section of the radiant panel (1) is constituted by the shaped material.

On the other hand, the water pipe (4) is made of a copper vibrator and has a meandering shape when viewed from above, through which cold water is flowed as a cooling heat medium. The three straight pipe portions (4a) of this water pipe (4) are fitted into the four water pipe fitting portions (8) of the heat sink (2) and caulked. Meandering water pipe (
4) One end is connected to the header pipe (13) for cold water introduction, and the other end is connected to the header pipe (14) for cold water discharge.
)It is connected to the.

The hanging member (12) has a substantially rectangular shape when viewed from the front, and the central part of the horizontal part is connected to the bolt/nut (2).
It is attached to the horizontal part of a beam (11) made of angled material. Outer convex portions (15) (15) are provided at the lower ends of the left and right vertical portions of each hanging member (12).

The left and right edges of the radiant panel (1) are connected to the outward convex portions (15) of the hanging members (12) (12) arranged opposite to each other.
) (15). Also, each radiant panel (
The intermediate required part of 1) is a screw (
18) is stopped.

The lighting fixture mounting member (6) is made of extruded aluminum and has an approximately inverted U-shape in cross section, with its horizontal portion (6a
) is attached to the hanging member (12) by screws (18). Therefore, the lighting fixture mounting member (6) is screwed (
It can be easily removed by loosening 18).

The left and right vertical parts (eb) of this lighting fixture mounting member (6)
The lower end of (Gb) is provided with cross-sectional and "shaped"-shaped overhangs (6c) (6c), and these overhangs ((ic) ties) extend the outside of the hanging member (12). Convex portions (15) (15) and heat sink (2) of radiant panel (1)
It is covered from the side edges or do.

Note that a heat insulating material (I9) is laid on the back side of each radiant panel (1).

A lighting fixture (20) is installed on the ceiling having the above configuration.
As shown in the figure, the concave groove (7) of the lighting fixture mounting member (6)
) and can be installed inside.

Therefore, installation of the lighting fixture (20) becomes extremely simple, and the large radiant panel (1) can be installed as a unit, making construction easy.

Moreover, since the lighting fixture (20) is housed in the groove (7), the lighting fixture (20) can be placed on the same level as the radiant panel (1) without blocking the heat sink (2) of the radiant panel (1). Because it can be positioned at any position, the radiation is uniform and the radiation efficiency is extremely high.

Further, by loosening the setscrew (I8) of the lighting fixture mounting member (G) and removing the member (6), maintenance of the piping in the attic, etc. can be performed freely.

Note that the heat dissipation plate (2) of the radiation panel (1) is, for example, the fifth
As shown in the figure, even if it is made of a tube-on-sheet, it is composed of a heat sink (2) made of an aluminum coil material and a water pipe (4) made of a copper pipe with a passage (3). good.

FIG. 6 shows another arrangement of the radiant panel (1). Here, the difference from the above embodiment is that the meandering water pipe (4) of each radiant panel (1) has four straight parts (4a), and this water pipe (4) has four sheets. The heat dissipation plate (2) is attached.

Therefore, in the above embodiment, as shown in FIG.
Two radiant panels (1) are arranged in parallel with gaps (5) of a predetermined width between each other, and each of the certification device mounting members ( 6) are fitted and attached, whereas in Fig. 6, three radiant panels (1) are arranged in parallel, with a total of two gaps (5) between adjacent radiant panels (1).
) are each fitted with a lighting fixture mounting member (8).

In addition, in FIGS. 3 and 6 above, since the water pipe (3) has a meandering shape, the two ends of the water pipe (3) for one radiant panel (1) are connected to the header pipe (t).
a) It is only connected to (14) by welding. Therefore, in the case of a unit consisting of four radiant panels (1) and three lighting fixture mounting members (6) shown in Fig. 3,
There are a total of eight connection points for water pipes (3), and in the case of a unit consisting of three radiant panels (1) and two lighting fixture mounting members (6) as shown in Figure 6, there are a total of eight connection points for water pipes (3). The number of connection points in 3) becomes six in total, which is further reduced.

By the way, in a conventional ceiling equipped with a cooling function using a radiant panel, one heat sink is attached to one straight water pipe.

Therefore, for one heat sink, there are two places to connect the water pipe end to the header pipe by welding, and for example, if there are 12 heat sinks (2) in total as shown in Figure 3, the water pipe end will be welded to the header pipe. There are 24 connection points, which not only requires a lot of effort to connect the pipes, but also poses a risk of water leakage.

On the other hand, according to the above two embodiments, the radiant panel <
Since 1) is large and the water pipe (3) has a meandering shape, there are very few connection points at the end of the water pipe (3) to the header pipe, which makes pipe connection work very easy. At the same time, there is an advantage that the risk of water leakage is significantly reduced.

In addition, in the above embodiment, a water pipe (4) is attached to the back surface of the heat sink (2) of each radiant panel (1), but a heat pipe may be attached instead of the water pipe (4). . In this case, an appropriate cooling means such as cold water is brought into contact with the end of the heat pipe.

Such a heat vibrator may be a straight tube in which a working fluid such as fluorocarbon is sealed as a heating medium and closed at both ends, or it may be an aluminum roll bond panel having passages in a desired pattern. The heat pipe may be a temporary heat pipe in which a working fluid such as fluorocarbon is sealed. In addition, the radiant panel (1) is made of aluminum.
In addition to the roll-bonded panel, it may also be made by joining two aluminum plates on which fluid passage recesses have been previously formed by press working.

Note that the metal constituting the radiation panel (1) is not limited to aluminum or copper, and other metals may of course be used.

In the above embodiment, a ceiling equipped with a cooling function using a radiant panel (1) has been described, but a heat medium such as hot water, for example, may be supplied to the passage (3) of the water pipe (4) of the radiant panel (1). The ceiling may be provided with a heating function by flowing the water.

Furthermore, in the above embodiment, all adjacent radiant panels (1
)(1) A gap (5) is made between the comrades, and the lighting fixture mounting member (6) is fitted, but there are at least two radiant panels (1) on the ceiling. Gap between (5)
is drilled and at least one luminaire mounting member (
6) should be installed.

Effects of the Invention As described above, the ceiling of a building equipped with heating and cooling functions using a radiant panel according to the present invention includes a plate-shaped heat radiating section and a fluid passage provided on the back surface of the heat radiating section through which a cooling or heating heat medium flows. A plurality of radiant panels are attached to the beam in parallel via hanging members, and a gap is provided between at least two radiant panels, and a downward opening is provided between both radiant panels. A lighting fixture mounting member having a substantially inverted U-shaped cross section and having a lighting fixture storage concave groove is arranged to close the gap, and the lighting fixture mounting member is removably attached to the beam via a hanging member. Since a lighting fixture mounting member is built into the ceiling, it is only necessary to attach the lighting fixture to this, and therefore, the installation of the lighting fixture is very simple.

In addition, it is possible to increase the size of the radiant panel, and
Construction is easy because large radiant panels can be installed as a unit.

Moreover, since the lighting equipment is housed in the groove, the lighting equipment can be positioned at the same level as the radiant panel without blocking the heat dissipation plate of the radiant panel, resulting in uniform radiation and extremely high radiation efficiency. expensive.

Furthermore, the set screw (18) of the lighting fixture mounting member (6)
By loosening and removing the member (6), maintenance of the piping in the attic, etc. can be performed freely. Furthermore, since the radiant panel can be attached to almost the entire surface of the ceiling without leaving the peripheral edges of the ceiling, it is possible to increase the efficiency of heating and cooling.

[Brief explanation of the drawing]

The drawings show an embodiment of the present invention; FIG. 1 is a cross-sectional view of a ceiling of a building according to the present invention, FIG. 2 is a vertical cross-sectional view of the same portion, and FIG. 4 is a perspective view of the radiant panel, FIG. 5 is a perspective view of a modified example of the radiant panel, and FIG. 6 is a plan view showing another arrangement of the radiant panel. (1)...Radiation panel, (2)...Plate heat dissipation part, (
3)...Fluid passage, (4)...Gap, (5)...
Concave groove for storing lighting equipment, (6)... Member for mounting lighting equipment, (11)... Beam, (12)... Hanging member. that's all

Claims (1)

[Claims] A plurality of radiant panels (1) each having a plate-shaped heat dissipating section (2) and a fluid passage (3) provided on the back side of the heat dissipating section (2) and through which a cooling or heating heat medium flows, are suspended. Parts (12
) are attached to the beam (11) in parallel, with a gap (5) between at least two radiant panels (1).
) is opened, and a lighting fixture mounting member (6) having a substantially inverted U-shaped cross section and having a downwardly opening concave groove (7) for storing a lighting fixture is provided between the two radiant panels (1) (1). The lighting fixture mounting member (6) is arranged so as to close the gap (5).
) is removably attached to a beam (11) via a hanging member (12), and the ceiling of a building is equipped with a heating and cooling function using a radiant panel.