KR100394401B1 - Heating system using hot water and method of constructing a heating pipe for the system - Google Patents

Abstract

A construction method of a hot water heating system and a heating hot water pipe for the system is disclosed. The construction method includes the step of pouring an insulating layer on the underlying structure. Subsequently, a continuous S-shaped heating hot water pipe is disposed on the heat insulation layer. Then, pipe spacing fixtures are disposed on both bends of the heating hot water pipe, and both ends thereof are fixed to the side structure. Finally, a heat storage layer is placed on the heat insulation layer, and the pipe spacing fixture and the heating hot water pipe are embedded in the heat storage layer. The bottom of the pipe spacing fixture is preferably provided with a clip for each position corresponding to the pipe spacing of the heating hot water pipe.

Description

Construction method of hot water heating system and heating hot water pipe for this system {HEATING SYSTEM USING HOT WATER AND METHOD OF CONSTRUCTING A HEATING PIPE FOR THE SYSTEM}

The present invention relates to a hot water heating system and a method of constructing a heating hot water pipe for the system, and more particularly, to firmly support a system using a heating hot water pipe for heating with hot water, and a heating hot water pipe used in the system. It relates to a construction method for.

Currently, the heating method of apartments or private houses is the mainstream of the hot water ondol method by laying a hot water pipe. The hot water ondol method is a method of embedding a coiled heating hot water pipe in a lower layer and placing an upper layer on the upper layer, and heating the upper layer with hot water flowing along the heating hot water pipe. Referring to Figures 1 and 2 schematically described as follows. 1 is a longitudinal cross-sectional view, and FIG. 2 is a plan view.

First, as shown in FIG. 1, a heat insulating layer 2 is poured on top of the lower structure 1, which is typically a slab layer. The heat insulation layer 2 is concrete in which a plurality of Styropol grains are embedded therein (this is called bubble concrete in the construction industry), and the Styropol grains exhibit an insulating effect.

Then, the continuous S-shaped heating hot water pipe 5 shown in FIG. 2 is disposed on the heat insulation layer 2, before which the pipe spacing fixture 3 is first disposed on the heat insulation layer 2 and then heated. The hot water pipe 5 is installed on the pipe spacing fixture 3. The pipe spacing fixture 3 is in the form of an elongated rod, and a clip 4 into which each heating hot water pipe 5 is fitted is formed at an upper portion thereof.

As shown in FIG. 2, the pipe spacing fixture 3 of this shape is arranged to support both bent portions of the heating hot water pipe 5 having a continuous S-shape from below. The reason why the pipe spacing fixture 3 is arranged so as to support both curved portions of the heating hot water pipe 5 from the bottom is that the curved heating hot water pipe 5 is formed in an S shape so that the curved portion returns to the original straight shape. This is due to the propensity to try. If the bent portion of the heated hot water pipe 5 is not supported by the pipe spacing fixture 3, the bent portion is lifted up due to its return tendency, and then the hot water flowing along the heated hot water pipe 5 stagnates at the bent portion. There is a concern. Hot water stagnation greatly reduces the overall heating effect.

Subsequently, the heat storage layer 6, which is a mortar layer, that is, a layer that receives heat from the heating hot water pipe 5 and heats the room, is placed on the heat insulation layer 2, so that the heating hot water pipe 5 is the heat storage layer 6. To be reclaimed.

By the way, the conventional construction method described above has the following serious problems. Since the pipe spacing fixture is simply placed on the insulating layer without support, when the bent portion of the heating hot water pipe deforms to its original shape, the pipe spacing fixture is often lifted together with the bent portion when the bent portion of the heating hot water pipe is deformed. In addition, there is a problem that the heating hot water pipe is separated from the clip due to the elastic weakening of the clip.

On the other hand, if the heat storage layer is installed immediately after the installation of the heating hot water pipe, the above-mentioned problem is solved. However, in the case of a large-scale apartment construction, the heating water pipe is installed in each individual household, and then the heat storage layer. Since the batch is poured in a batch, the time interval therebetween becomes considerable. This requires very cumbersome additional work at the actual apartment construction site.

Further work is a work to support the lower layer by fastening a separate clip from above to various parts of at least one pipe spacing fixture. This extra work is not very cumbersome for any one heating hot water pipe, but in the case of the above-mentioned large-scale apartment construction, the number of additional work is considerable, it is very cumbersome for the workers, and the additional clip causes an increase in construction cost and It is a factor of longer period.

In particular, the clip cannot be fixed to the heat insulation layer. The reason is that the heat insulation layer is, as described above, foamed concrete with Schiropol grains embedded therein, so its strength is very weak. Therefore, if the clip is fixed only to the heat insulating layer, there is a high risk of clip detachment. As a result, this additional work requires excessive labor on the operator since the clips must be fastened to reach the substructure through the insulation layer.

The present invention has been made to solve the problems of the above-described conventional construction method, the hot water heating system and the hot water for heating the system that can eliminate the additional work that causes the increase in the construction cost while the above-mentioned The purpose is to provide a method of constructing the tube.

1 and 2 are a longitudinal sectional view and a plan view showing a heating hot water pipe installed according to the conventional construction method.

3 and 4 are a longitudinal sectional view and a plan view showing a heating hot water pipe installed in accordance with the construction method of the present invention.

<Description of Symbols for Main Parts of Drawings>

10; Substructure 11; Side structures

20; Heat insulation layer 30; Piping spacing fixture

31; Clip 32; Fixed end

50; Heating hot water pipe 60; Heat storage layer

In order to achieve the above object of the present invention, the hot water heating system according to the present invention includes a heat insulating layer cast on the lower structure. A continuous S-shaped heating hot water pipe is disposed on the insulation layer. The heated hot water pipe is supported from above by a pipe spacing fixture. The pipe spacing fixture is preferably two arranged on both sides of the heating hot water pipe, more preferably has a clip into which both sides of the pipe are fitted. In addition, it is preferable that both ends of the pipe spacing fixture are fixed to the side structure extending vertically from the lower structure. The heat storage layer is poured into the heat insulation layer, and the heating hot water pipe and the pipe spacing fixture are embedded in the heat storage layer.

Method for constructing a hot water heating system consisting of the above configuration is as follows. Pouring an insulating layer on the underlying structure. Subsequently, a continuous S-shaped heating hot water pipe is disposed on the heat insulation layer. Then, a pipe spacing fixture is disposed on both bent portions of the heating hot water pipe, and both ends of the heating hot water pipe are fixed to the side structure. Finally, a heat storage layer is placed on the heat insulation layer, and the pipe spacing fixture and the heating hot water pipe are embedded in the heat storage layer.

Hereinafter, although a hot water heating system according to a preferred embodiment of the present invention will be described in detail with reference to the drawings, the present invention is not limited or limited by the following examples.

Figure 3 is a longitudinal sectional view showing a state in which the heating hot water pipe is installed by the construction method according to the invention, Figure 4 is a plan view showing a state in which the pipe spacing fixture is disposed on the heating hot water pipe.

First, as shown in FIG. 3, the side structure 11 is vertically formed from the lower structure 10, which is a slab layer, so that, for example, each room and living room of the apartment are partitioned by the side structure 11.

In this state, the heat insulation layer 20 is poured on the lower structure 10. As the heat insulation layer 20 is a bubble concrete mentioned in the prior art, it is a structure in which a plurality of Schiropol grains exhibiting a thermal insulation effect is embedded in the concrete. Due to the styropol grains, the strength of the heat insulating layer 20 becomes somewhat weak.

Subsequently, the heating hot water pipe 50 having the continuous S-shape shown in FIG. 4 is disposed on the heat insulation layer 20. That is, the difference between the present invention and the conventional method is that the heating hot water pipe 50 is disposed before the pipe spacing fixture without first placing the pipe spacing fixture.

Then, the pipe spacing fixture 30 is placed on the heating hot water pipe 50 so as to support the heating hot water pipe 50 by pressing the pipe spacing fixture 30 from above. It is preferable that a plurality of clips 31 are formed at the bottom surface of the pipe spacing fixture 30 at positions corresponding to the pipe spacings of the heating hot water pipes 50 so that the heating hot water pipes 50 are fitted into the respective clips 31. Do. In particular, it is more preferable to arrange two pipe spacing fixtures 30 on both curved portions of the heating hot water pipe 50 in which the deformation force is severe.

On the other hand, if the pipe spacing fixture 30 is selected as a rigid material that can bear the deformation force of the heating hot water pipe 50, for example, steel, it can prevent the lifting phenomenon of the heating hot water pipe 50 by its own weight. There is. However, since such a heavy material has a disadvantage that it is very difficult for the worker to handle first and is expensive, as shown in FIG. 3, both ends of the pipe spacing fixture 30 are firmly fixed to the side structure 11. It is preferable to make it. That is, it is preferable that the fixed end part 32 is integrally formed in the both ends of the pipe space | interval fixture 30, and this fixed end part 32 is fastened to the side structure 11 by the concrete nail 70.

In this way, since the heating hot water pipe 50 is supported from above by the pipe spacing fixture 30 which is firmly fixed to the side structure 11, the phenomenon in which the pipe spacing fixture 30 is lifted is fundamentally caused. Is prevented. Therefore, a phenomenon in which hot water is stagnated at the heated heating hot water pipe 50 part and the heating effect is lowered is also prevented. In addition, the additional work of fixing the pipe spacing fixture 30 to the lower structure 10 with a separate clip is also excluded.

Finally, a mortar heat storage layer 60 is placed on the heat insulation layer 20, and the pipe spacing fixture 30 and the heating hot water pipe 50 are embedded in the heat storage layer 60. The heat storage layer 60 receives heat from hot water flowing along the heating hot water pipe 50, accumulates this heat and radiates it into the room, thereby heating the room.

The final structure of the hot water heating system completed through this process will be described in detail. An insulating layer 20, which is foam concrete, is poured on the lower structure 10. A continuous S-shaped heating hot water pipe 50 is disposed on the heat insulation layer 20. A pipe spacing fixture 30 is disposed on the heating hot water pipe 50 so that the heating hot water pipe 50 is pushed from above by the pipe spacing fixture 30 to be supported. The pipe spacing fixture 30 is disposed on both bends of the heating hot water pipe 50, and in particular, the pipe spacing fixture 30 has a clip 31 into which both bends are fitted. The fixed end 32 formed upward at both ends of the pipe spacing fixture 30 is firmly fixed to the side structure 11 with a concrete nail 70. The heat storage layer 60 is poured on the heat insulation layer 20 so that the pipe spacing fixture 30 and the heating hot water pipe 50 are embedded in the heat storage layer 60.

The hot water heating system having such a structure is different from the conventional system in that the pipe spacing fixture 30 is disposed above the heating hot water pipe 50 as described above. Therefore, the heating hot water pipe 50 is supported from above by the pipe spacing fixture 30.

As described above, since the heating hot water pipe is supported by the pipe spacing fixture from above, the phenomenon that the heating hot water pipe is lifted up is basically prevented. Therefore, the hot water stagnates at the excited heating hot water pipe part, and the factor which hinders the heating effect is reliably removed.

In addition, since both ends of the pipe spacing fixture are fixed to the side structure, cumbersome additional work of fastening the pipe spacing fixture to the lower structure by using a separate clip as in the prior art is omitted. Therefore, there is an advantage that the burden on the worker can be reduced, construction cost can be prevented, and construction period can be shortened.

As described above, the preferred embodiments of the present invention have been described in detail, but the present invention is not limited to the above embodiments, and the present invention belongs without departing from the gist of the present invention as claimed in the following claims. Anyone of ordinary skill in the art would be able to make various changes.

Claims (9)

An insulating layer cast on the lower structure; A continuous S-shaped heating hot water pipe disposed on the heat insulation layer; It is disposed on the heating hot water pipe, press the support of the heating hot water pipe from above, and has a clip to which the heating hot water pipe is fitted, the fixed end portion is formed at both ends upwards, the fixed end portion is formed vertically from the lower structure A pipe spacing fixture fixed to the structure by fastening with concrete nails; And And a heat storage layer installed on the heat insulation layer such that the pipe spacing fixture and the heating hot water pipe are embedded therein, and receive heat from the heating hot water pipe to heat the room. delete The hot water heating system according to claim 1, wherein the pipe spacing fixtures are a pair disposed on both bent portions of the continuous S-shaped heating hot water pipe in which the lifting phenomenon occurs most severely. delete delete Pouring an insulating layer on the underlying structure; Arranging a continuous S-shaped heating hot water pipe on the insulation layer; A pipe spacing fixture is arranged on the heating hot water pipe, and a pair of pipe spacing fixtures are arranged on both curved portions of the continuous S-shaped heating hot water pipe in which the lifting phenomenon is most severe, and the heating hot water pipe is arranged in the pipe spacing fixture. Pressing on a furnace to support it; Fastening both ends of the pipe spacing fixtures with concrete nails to the side structures extending upward from the lower structure; And And placing a heat storage layer on the heat insulation layer, and embedding the heating hot water pipe and the pipe spacing fixture in the heat storage layer. delete delete delete