KR200225226Y1 - Steel construction of radiator - Google Patents

Abstract

The present invention relates to a heat sink installation structure that can be used to install the heat sink without removing the installation of the ceiling finish material already installed to reduce the construction period and cost according to the installation of the heat sink.

The heat sink installation structure in the related art is configured by installing each of the above regeneration devices in the enclosure of each device to be installed indoors, which is a problem that excessive installation cost, and to install the regeneration device The inconvenience is that you have to remove all the existing ceiling finish material and its installation.

The present invention is a plurality of rails (10) to which the ceiling finishing material (1) is coupled, the support (11) coupled to the upper surface of the rail orthogonal to the rail 10, and is coupled to the support and one end is fixed to the ceiling (2) In addition to the ceiling installation structure consisting of the anchor bolt 20 to be coupled to the support means of the heat sink (5) by the reinforcing material (3) coupled to the support (11), and the coupler (4) coupled to the reinforcement (3) And a plurality of heat dissipation fins 55 on upper and lower surfaces of the heat dissipation plate, brackets 52 coupled to the rails 10 on both sides of the heat dissipation plate 5, and coupling portions 50 at ends of the heat dissipation plate 5. ) And coupling holes 51 to allow the coupling holes 4 to penetrate and suspend the heat sinks 5 through the coupling holes of adjacent heat sinks. In the installation, it is used to remove the installation of the ceiling finishing material already installed By installing the heat sink, it is possible to reduce the installation air and cost of the heat sink.

Description

Heat sink installation structure {Steel construction of radiator}

The present invention relates to an installation structure of a heat sink that absorbs indoor heat and releases it to the outside, and more particularly, it is possible to install a heat sink using the same, without removing an installation hole of a ceiling finish material already installed. It relates to a heat sink installation structure that can reduce the construction period and cost according to.

In general, the temperature of a room where a mechanical device such as a communication repeater is installed is high in temperature due to heat generated from the device.

Since such high heat in the room causes a fatal error in the device, much effort has been made to keep the room temperature at an appropriate level.

When using a mechanical freezer to keep the indoor temperature at an appropriate level, it is difficult to control the humidity in the room due to the consumption of a lot of energy and condensate generated during the operation of the freezer. There is a problem that is malfunctioning.

In order to solve this problem, a passive air conditioning system has been provided. (Korean Patent Publication No. 2000-53552)

The principle of the manual air conditioner is to contact the liquid phase change material stored in the room with the working liquid cooled by the outside air at night when the outdoor temperature is lower than the set temperature of the room to give out the heat of fusion and solidify the outdoor temperature. During rising days, the rising room heat dissolves the solidified phase change material and absorbs the heat to keep the room temperature at an appropriate level.

A device applying this principle is called a regenerator, and the latent heat of the heat storage medium has the advantage of being smaller in volume and superior in performance compared to a regenerator using ordinary sensible heat.

However, the present invention is to be configured by installing each of the above playback devices in the housing of each device installed in the room, which is a problem that excessive installation cost, and installed in order to install the playback device There is an inconvenience to remove both the ceiling finishing material and its installation.

The present invention is devised to solve the above problems, the present invention is to install a heat sink to absorb the heat of the room and release it to the outside, the heat sink using the same without removing the installation of the ceiling finish material already installed The purpose is to provide a heat sink installation structure that can be installed to reduce the construction period and cost according to the installation of the heat sink.

The present invention is configured as follows to achieve the above object. That is, the present invention is added to the ceiling installation structure consisting of a plurality of rails to which the ceiling finishing material is coupled, a support coupled to the upper surface of the rail perpendicularly to the rail, and an anchor bolt coupled to the support and fixed at one end to the ceiling surface. To form a support means for the heat sink with a reinforcing material coupled to the support and a coupler coupled to the reinforcing material, and to form a coupling portion and a coupling hole at the end of the heat sink, the coupling holes penetrate the coupling holes of the adjacent heat sink to suspend the heat sink. It is configured to be possible.

1 is a perspective view showing a heat sink according to the present invention

2 is a perspective view showing a state in which the heat sink of the present invention is installed on the ceiling surface

3 is a cross-sectional view showing the installation of the subject innovation

Figure 4 is a perspective view of the main portion of the installation port of the subject innovation

<Explanation of symbols for main parts of the drawings>

1. Ceiling finishing material 2. Ceiling

3. Stiffener 4. Coupling

5. Heatsink 10. Rail

30. Nut 40. Bolt

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view illustrating a heat sink according to the present invention, FIG. 2 is a perspective view showing a state where a heat sink of the present invention is installed on a ceiling surface, and FIG. 3 is a cross-sectional view showing an installation tool of the present invention, and FIG. 4 is a perspective view showing the main portion of the installation of the subject innovation.

As shown in Figures 1 to 4, the subject innovation is a plurality of rails (10) to which the ceiling finishing material (1) is coupled, a support (11) coupled to the upper surface of the rail orthogonal to the rail (10), and a support Reinforcement (3) coupled to the support 11 in addition to the ceiling installation structure consisting of an anchor bolt 20 is fixed to the ceiling (2) and fixedly coupled to the ceiling (2), and a coupler coupled to the reinforcement (3) 4) to form the support means of the heat sink (5), to form a plurality of heat radiation fins 55 on the upper and lower surfaces of the heat sink, and to form a coupling portion 50 and the coupling hole 51 at the end of the heat sink (5) The sphere 4 is configured to penetrate and suspend the heat sink 5 through the coupling holes 51 of the adjacent heat sink 5, and brackets coupled to the rails 10 on both sides of the heat sink 5 ( 52) is formed and configured.

In addition, the coupling parts 50 of the heat sink 5 are preferably formed at both ends of the heat sink in an uneven shape so that adjacent heat sinks 5 are coupled to each other.

In addition, the coupler 4 is preferably composed of a bolt 40, in this case is formed by forming a bolt hole 33 through which the bolt 40 is coupled to the reinforcing material (3).

The present invention configured as described above separates the ceiling finish material 1 at the position where the heat sink 5 is to be installed from the rail 10, and couples one end of the bolt 40 to the ceiling corresponding to the coupling hole 51. Another end of the penetrating bolt hole 33 formed in the reinforcing material (3) is fixed by the nut 30, the tip of the bolt 40 penetrating the reinforcing material (3) is the coupling portion of the heat sink (5) Tighten with the nut 30 through the coupling hole 51 formed in the (50).

Subsequently, the brackets 52 formed on both sides of the heat sink 5 are coupled to the rail 10 from which the ceiling finish material 1 is separated to couple and suspend the heat sink 5.

The present invention is not limited to the above-described embodiments and can be carried out in various modifications within the range allowed by the technical idea of the present invention.

As described above, according to the present invention, in installing a heat sink that absorbs indoor heat and releases it to the outside, the installation of the heat sink is performed according to the installation of the heat sink using the same, without removing the installation hole of the ceiling finishing material. The cost can be reduced.

Claims (1)

A plurality of rails 10 to which the ceiling finishing material 1 is coupled, a support 11 coupled to the upper surface of the rail orthogonal to the rail 10, and an anchor coupled to the support and having one end fixed to the ceiling 2. In addition to the ceiling mounting structure composed of bolts 20 to form a support means of the heat dissipation plate (5) by a reinforcing material (3) coupled to the support (11) and a coupling hole (4) coupled to the reinforcement (3), A plurality of heat sink fins 55 are formed on the upper and lower surfaces of the heat sink, brackets 52 coupled to the rails 10 are formed on both sides of the heat sink 5, and the coupling part 50 is coupled to the ends of the heat sink 5. A heat sink mounting structure, characterized in that the hole (51) is formed so that the coupler (4) can penetrate and suspend the heat sink (5) through the coupling hole of the adjacent heat sink.