KR200200971Y1 - Clipbar for heat absorption pipelay - Google Patents

Abstract

The present invention relates to a clip bar for endothermic pipe piping (CLIP BAR), more specifically endothermic underground embedded in the building structure in order to use the semi-permanent underground heat maintained in the building structure as the heating and cooling energy of the ground building structure The present invention relates to an endothermic pipe tubing clip bar for facilitating pipe installation.

In the endothermic pipe piping clip bar of the present invention, in order to use the semi-permanent underground heat retained in the building underground structure as the heating and cooling energy of the ground building structure, in the structure of the endothermic pipe embedded in the building structure, a predetermined A plurality of clips 12 are formed at a predetermined interval on the bar 11 having a length, and a fixing hole 13 is formed in the bar between the clip and the clip.

With the above configuration, the installation of the endothermic pipe is stable and easy, so that the construction is simple and the working time can be reduced, and the endothermic pipe interval can be uniformly installed according to the designer's intention. As design and construction are possible, efficient energy is secured from underground building structures.

Description

Clip Bar for Endothermic Pipe Piping {CLIPBAR FOR HEAT ABSORPTION PIPELAY}

The present invention relates to a clip bar for endothermic pipe piping (CLIP BAR), more specifically endothermic underground embedded in the building structure in order to use the semi-permanent underground heat maintained in the building structure as the heating and cooling energy of the ground building structure The present invention relates to an endothermic pipe tubing clip bar for facilitating pipe installation.

The air conditioning system of a general building is mainly a central air-conditioning system. When heating in winter, the central heating system or the central heating system is individually controlled. In the summer, the air-conditioning system is cooled by the central cooling system or individual package air conditioners.

However, since the conventional heating and cooling system is made fluid in consideration of the change in the outside temperature, it becomes impossible to maintain stable and continuous heat management. Accordingly, there is a lot of unnecessary waste of energy, which leads to economic burden and environmental pollution. There is this.

For example, in Korea, the change in outside temperature varies greatly with the season (35 ° C in summer and -12 ° C in winter), whereas the ground (underground) temperature is relatively stable around 12 ° C in the year. If you use the two temperature difference (outside temperature-ground temperature), you can get a considerable amount of energy.

According to the actual report, which measured the winter temperature distribution from 1.2m to 18m underground in a specific area of the metropolitan area, the distribution is 7 ~ 9 ℃ within 1 ~ 2m underground, but it is almost 14 ~ below 6m below regardless of the season. It turned out that it shows a constant distribution of about 16 degreeC.

Therefore, if the semi-permanent underground temperature is used for heating and cooling, the heating and cooling load can be reduced, and thus the capacity of the cooling and heating equipment can be reduced, thereby ensuring considerable economic feasibility, and at the same time, replacing energy imports by saving energy. It can be expected that the environmental protection effect can be expected greatly.

Referring to Figs. 1 to 3, the conventional method of using underground heat is as follows.

As shown in the related art, the heating and cooling system of a building using underground heat is a building pile such as concrete piles, underground continuous walls, building foundations having excellent geothermal absorption and heat preservation, but a heat absorption pipe inside the concrete of the building structure 1 on the ground ( 2) Pipeline and forcibly circulate the fluid filled in the inside with a circulation pump to release the heat of water or antifreeze flowing in the pipe in the summer and the heat of the ground in winter in the pipe. Through the process of absorbing the fluid flowing in the water to be used as cooling and heating energy, or water or antifreeze flowing in the endothermic pipe (2) is to be used as the cooling water and heating water of the air conditioning air conditioner.

At this time, the endothermic pipe (2), as shown in Figure 2 to 3, after laying about 50mm of concrete on the foundation floor after earthwork, and reinforce the lower reinforcement (3), the lower reinforcement (3) The endothermic pipe 2 was fixed by using a binding line 4 such as a wire.

In addition, the reinforcement lower reinforcement (3) to maintain the predetermined height by the spacer (5) to facilitate the binding operation.

However, in the conventional binding method of the endothermic pipe (2), due to the nature of the construction work, it is difficult for the endothermic pipe (2) to be uniformly constructed as shown in the drawing as the worker works on the lower reinforcing bar (3) as well as the construction period. There were several closures, such as the need to recheck and reinforce the bottom of the reinforcement, which had been stretched and completed.

In addition, there is a problem that it is difficult to secure more efficient energy from the underground building structure because the construction is not made as the designer intended.

The present invention is devised to solve the above-described problems, the object of the present invention is to embed in the building structure to use the heat of the semi-permanent underground that is maintained in the building underground structure as the heating and cooling energy of the ground building structure The installation of endothermic pipes can be done stably and easily, so that the construction is simple, the working time can be reduced, and the endothermic pipe intervals can be installed evenly according to the designer's intention. As design and construction are possible, it is to provide a clip bar for endothermic pipe piping that can efficiently secure energy from underground construction structures.

The endothermic pipe pipe clip bar of the present invention for achieving the above object, a plurality of clips are formed in the bar having a predetermined length so that the endothermic pipe can be easily fixed, the clip bar itself to be fixed to the floor structure It is characterized in that it provides a clip bar for the endothermic pipe pipe formed with fixing holes for concrete nails at regular intervals in the bar.

1 is a perspective cross-sectional view showing a state in which an endothermic pipe is piped to an underground structure;

Figure 2 is a partial perspective cross-sectional view showing a conventional endothermic pipe fixing structure,

Figure 3 is a front sectional view showing a conventional endothermic pipe fixing structure,

Figure 4 is an installation cross-sectional view showing the installation and use of the clip bar according to the present invention,

5 is a plan view of a clip bar according to the present invention,

6 is a plan view of a clip bar according to another embodiment of the present invention.

<Description of the code | symbol about the principal part of drawing>

1: building structure 2: endothermic pipe

3: bottom rebar 4: ties

5: spacer 10,10 ': clip bar

11: bar 12: clip

13, 15: fixing hole 14: fixing piece

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

Figure 4 is an installation cross-sectional view showing the installation and use of the clip bar according to the present invention, Figure 5 is a plan view of the clip bar according to the present invention, Figure 6 is a plan view of a clip bar according to another embodiment of the present invention.

As shown in the endothermic pipe piping clip bar 10 of the present invention, a plurality of clips 12 are formed at a predetermined interval on the bar 11 having a predetermined length, the fixing hole in the bar between the clip and the clip (13) was formed.

The bar 11 may be made of a flat plate, a pipe, a round bar, and the like, and the clip 12 may have a function of an elastic clip having an open top.

In addition, although the fixing hole 13 is formed in the bar 11 itself, as shown in FIG. 6, the fixing piece 14 may be installed in the bar 11 to form the fixing hole 15. .

Reference numeral 16 is a concrete nail.

It describes the effect of the present invention configured as described above.

After the earthwork, about 30mm of concrete is poured on the base surface, and then first, the clip bar 10 is fixed to the concrete floor surface.

That is, the plurality of clip bars 10 are arranged at predetermined intervals and then fixed using the concrete nail 16 to the fixing holes 13 or the fixing holes 15 formed in the respective clip bars.

Next, the endothermic pipe 2 bent in a zigzag shape to each of the clip bars 10 installed is inserted and fixed through the respective clips 12 formed in the clip bars 10.

When the endothermic pipe 2 is inserted, the clip 12 of the clip bar is elastically opened to allow easy insertion. After the endothermic pipe 2 is inserted, the endothermic pipe is elastically retracted. Will be fixed stably.

When the fixing work of the endothermic pipe is completed, concrete is poured on it.

As described above, in the endothermic pipe piping clip bar of the present invention, a plurality of clips are formed on the bar having a predetermined length so that the endothermic pipe can be easily fixed, and the clip bar itself can be fixed to the floor structure. By constructing the endothermic pipe piping clip bar with fixed holes for concrete nails at regular intervals, the installation of the endothermic pipe is stable and easy, simplifying construction, reducing work time, and evenly installing the endothermic pipe gap as the designer intended. In addition, the accurate design and construction of the underground heat absorbing pipe considering the heat transfer performance of the underground soil layer enables the efficient energy security from the underground architectural structure.

The present invention is not limited to the embodiments described, it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or modifications will have to belong to the utility model registration claims of the present invention.

Claims (1)

In constructing a fixture of an endothermic pipe embedded in a building structure in order to use the semi-permanent underground heat maintained in the building underground structure as cooling and heating energy of the ground building structure, A plurality of elastic clips 12 are attached to the bar 11 having a predetermined length at regular intervals, and a fixing piece 14 having a fixing hole 13 is attached to the bar between the clip and the clip. Clip bar for endothermic pipe piping.