KR102634136B1 - Ultra slim capillary tube floor cooling and heating system using pipe stand - Google Patents

Abstract

The present invention is configured to include a pipe fixture for fixing cooling and heating pipes installed inside the floor structure of a building, so that the relatively large diameter main pipe among the cooling and heating pipes is positioned lower than the capillary pipes using the pipe fixture. Since it can be fixed to a sufficient thickness of the covering layer surrounding the main pipe, the thickness of the floor structure is not increased, so there is an advantage in realizing a slimmer floor structure. In addition, the pipe fixture includes a main pipe support portion where at least a portion of the upper surface has an inclined surface, so there is an advantage in that it is easy to place the main pipe and the capillary pipe at different heights. In addition, the pipe fixture has the advantage of making it easier to fix the main pipe since the pipe holder that fixes the main pipe is removably coupled. In addition, the pipe fixture is installed to be detachable from the floor structure, which has the advantage of making construction very easy.

Description

Ultra slim capillary tube floor cooling and heating system using pipe stand}

The present invention relates to an ultra-slim capillary tube floor cooling and heating system using a pipe fixture. More specifically, the pipe fixture installed inside the floor structure is used to fix the relatively large diameter main pipe among the heating pipes at a lower position than the capillary tubes. This relates to an ultra-slim capillary tube floor cooling and heating system using a pipe fixture that can realize an ultra-slim floor structure by minimizing the thickness of the floor structure while ensuring sufficient covering thickness of the main pipe by arranging it.

In general, the floor cooling and heating system of a residential building is structured by installing heating pipes through which hot water passes on a concrete slab, pouring mortar on the heating pipes, and stacking flooring materials on the mortar layer.

The heating pipe is made of a circular pipe, and in order to completely cover the outside, the covering thickness must be secured beyond the diameter of the heating pipe. That is, as the diameter of the heating pipe increases, the coating thickness increases, and thus the thickness of the mortar layer poured on the heating pipe increases. Due to the increase in the thickness of the mortar layer, the mortar pouring time and cost increase, and there is a problem that the ceiling height cannot be increased due to the increase in the thickness of the floor structure.

Korean Patent No. 10-2020593

The purpose of the present invention is to provide an ultra-slim capillary tube floor cooling and heating system using a pipe fixture that can realize an ultra-slim floor structure by ensuring a sufficient coating thickness of the main pipe while minimizing the thickness of the floor structure.

The ultra-slim capillary tube floor cooling and heating system using a pipe fixture according to the present invention is installed on the floor structure of a building, and includes a main pipe for supplying or returning hot and cold water, and a plurality of pipes branched from the main pipe and having a diameter smaller than the main pipe. Heating and cooling piping including capillary tubes; A pipe fixture is detachably installed on the floor structure to fix the cooling and heating pipes, and has a portion supporting the capillary pipes higher than a portion supporting the main pipe so that the main pipe is disposed at a lower position than the capillary pipes. Includes.

The pipe fixture includes a base part installed on a slab among the floor structures, a capillary tube support part that protrudes upward from the base part at a position spaced a predetermined distance away from the side wall of the building, and is formed to support the capillary tubes at a set height; The main pipe is formed to connect the base portion and the capillary tube support portion to support the main pipe, and has at least a portion of its upper surface formed lower than the height of the capillary tube support portion to support the main pipe at a lower position than the capillary tube support portion. It includes a support portion, a pipe holder provided on at least one of the base portion and the main pipe support portion to secure the main pipe, and a fastening member that fastens and detachably fastens the base portion to the slab.

The pipe fixture includes a base part installed on a buffer layer laminated on a slab among the floor structures, a foamed concrete layer that protrudes upward on the base part at a position spaced a predetermined distance away from the side wall of the building, and is laminated on the buffer layer; A capillary tube support part is formed to partition between the side walls and support the capillary tubes at a set height, and is formed to connect the base part and the capillary tube support part to support the main tube, wherein the main tube is connected to the capillary tubes. a main pipe support portion with at least a portion of its upper surface formed lower than the height of the capillary tube support portion to support it at a lower position; a pipe holder provided on at least one of the base portion and the main pipe support portion to secure the main pipe; It includes a fastening member that fastens and detachably fastens the base portion to the cushioning material layer.

The main pipe support portion includes at least a portion of an upper surface inclined upward in a direction toward the capillary pipe support portion.

The pipe fixture further includes a sealing portion that protrudes from a lower outer side of the capillary tube support portion and seals between the capillary tube support portion and the floor structure.

The upper surface of the sealing portion is formed to be inclined downward.

The pipe fixture further includes a plurality of holder coupling holes formed in at least one of the base portion and the main pipe support portion to which the pipe holder is detachably coupled.

The main pipe includes a supply pipe for supplying cold and hot water supplied from the outside to the capillary tubes, and a return pipe for recovering cold and hot water from the capillary tubes.

The pipe holder is detachably coupled to the base, and includes a first pipe holder formed in a ring shape with one side open to surround an outer peripheral surface of at least one of the supply pipe and the water return pipe, and a first pipe holder that is detachably coupled to the main pipe support portion. It is coupled so as to include a second pipe holder formed in a ring shape with one side open to surround the outer peripheral surface of the remaining one of the supply pipe and the water return pipe.

The pipe holder is detachably coupled to the main pipe support portion and includes a first pipe holder formed in a ring shape with one side open to surround an outer peripheral surface of at least one of the supply pipe and the water return pipe, and the main pipe support portion. It includes a second pipe holder that is detachably coupled to the first pipe holder at a predetermined distance apart and is formed in a ring shape with one side open to surround the outer peripheral surface of the remaining one of the supply pipe and the water return pipe.

An ultra-slim capillary tube floor cooling and heating system using a pipe fixture according to another aspect of the present invention includes a buffer layer, a mortar layer, and a flooring material stacked on a slab of a building, and a cooling/heating pipe and a pipe fixture are provided between the slab and the mortar layer. In the ultra-slim capillary tube floor cooling and heating system, the cooling and heating pipes include a main pipe disposed adjacent to the side wall of the building for supplying or returning hot and cold water, and a plurality of pipes branched from the main pipe and having a diameter smaller than the main pipe. It includes capillary pipes, wherein the main pipe includes a supply pipe for supplying cold and hot water supplied from the outside to the capillary pipes, and a water return pipe for recovering cold and hot water from the capillary pipes, and the pipe fixture includes the A base portion installed on a slab, a capillary tube that protrudes upward from the base portion at a predetermined distance from the side wall of the building, defines a space between the side wall and the side of the buffer layer, and has an upper end supporting the capillary tubes. A support part is formed to connect the base part and the capillary tube support part to support the main tube, and at least a portion of the upper surface is inclined lower than the height of the capillary tube support part to support the main tube at a lower position than the capillary tube support part. A main pipe support portion formed, a pipe holder provided on at least one of the base portion and the main pipe support portion to secure the main pipe, and a pipe holder provided on at least one of the base portion and the main pipe support portion, the pipe holder being detachable. It includes a plurality of holder coupling holes that can be coupled to each other, and a fastening member that fastens and detachably attaches the base to the slab.

In an ultra-slim capillary tube floor cooling and heating system using a pipe fixture according to another aspect of the present invention, a buffer layer, a foamed concrete layer, a mortar layer, and a flooring material are stacked on the slab of a building, and cooling and heating pipes are provided between the buffer layer and the mortar layer. In the ultra-slim capillary tube floor cooling and heating system equipped with a pipe fixture, the cooling and heating pipes include a main pipe disposed adjacent to the side wall of the building to supply or return hot and cold water, and a main pipe branched from the main pipe and extending further than the main pipe. It includes a plurality of capillary tubes formed with small diameters, wherein the main pipe includes a supply pipe for supplying cold and hot water supplied from the outside to the capillary tubes, and a return pipe for recovering cold and hot water from the capillary tubes, The piping fixture has a base portion installed on the buffer layer, protrudes upward on the base portion at a position spaced a predetermined distance away from the side wall of the building, and partitions between the side wall and the side of the foamed concrete layer, and the upper end portion is the A capillary tube support part formed to support capillary tubes, and a capillary tube support part formed to connect the base part and the capillary tube support part to support the main tube, wherein at least a portion of the upper surface is formed to support the main tube at a lower position than the capillary tube. A main pipe support portion inclined lower than the height of the capillary tube support portion, a pipe holder provided on at least one of the base portion and the main pipe support portion to secure the main pipe, and at least one of the base portion and the main pipe support portion. It includes a plurality of holder coupling holes formed in the pipe holder to be detachably coupled thereto, and a fastening member for detachably fastening and fixing the base portion to the cushioning material layer.

The present invention is configured to include a pipe fixture for fixing cooling and heating pipes installed inside the floor structure of a building, so that the relatively large diameter main pipe among the cooling and heating pipes is positioned lower than the capillary pipes using the pipe fixture. Since it can be fixed to a sufficient thickness of the covering layer surrounding the main pipe, the thickness of the floor structure is not increased, so there is an advantage in realizing a slimmer floor structure.

In addition, the pipe fixture includes a main pipe support portion where at least a portion of the upper surface has an inclined surface, so there is an advantage in that it is easy to place the main pipe and the capillary pipe at different heights.

In addition, the pipe fixture has the advantage of making it easier to fix the main pipe since the pipe holder that fixes the main pipe is removably coupled.

In addition, the pipe fixture is installed to be detachable from the floor structure, which has the advantage of making construction very easy.

Figure 1 is a cross-sectional view schematically showing the structure of an ultra-slim capillary tube floor cooling and heating system using a pipe fixture according to the first embodiment of the present invention.
FIG. 2 shows an example of the heating pipe shown in FIG. 1.
Figure 3 is a front perspective view of a pipe fixture according to the first embodiment of the present invention.
Figure 4 is a rear perspective view of the pipe fixture according to the first embodiment of the present invention.
Figure 5 is a cross-sectional view schematically showing the structure of an ultra-slim capillary tube floor cooling and heating system using a pipe fixture according to a second embodiment of the present invention.
Figure 6 is a front perspective view of a pipe fixture according to a third embodiment of the present invention.
Figure 7 is a rear perspective view of a pipe fixture according to a third embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the attached drawings.

Figure 1 is a cross-sectional view schematically showing the structure of an ultra-slim capillary tube floor cooling and heating system using a pipe fixture according to the first embodiment of the present invention.

Referring to FIG. 1, the ultra-slim capillary tube floor cooling and heating system according to the first embodiment of the present invention includes a cooling and heating pipe 30 and a pipe fixture 40 installed inside the floor structure 10 of a building.

The floor structure 10 is explained as an example in which a slab 11, a buffer layer 12, a mortar layer 13, and a floor material 14 are sequentially stacked.

The cooling and heating pipes 30 are installed in the floor structure 10. In this embodiment, the heating and cooling pipe 30 is described as being disposed between the slab 11 and the mortar layer 13.

FIG. 2 shows an example of the heating pipe shown in FIG. 1.

Referring to FIG. 2, the cooling and heating pipe 30 includes a main pipe 31 for supplying or returning cold water or hot water, is branched into a plurality of pipes from the main pipe 31, and has a diameter larger than that of the main pipe 31. It includes a plurality of small capillary tubes 32. The main pipe 31 and the capillary pipes 32 are each pipes with a circular cross section.

The main pipe 31 includes a supply pipe 31a for supplying cold and hot water to the capillary pipes 32 from an external source such as an air conditioner, and a return pipe 31b for recovering cold and hot water from the capillary pipes 32. Includes. That is, the supply pipe 31a serves as an inlet header, and the return pipe 31b serves as an outlet header. The main pipe 31 is fixed at a lower position than the capillary pipes 32 by the pipe fixture 40.

The capillary tubes 32 are disposed on the upper surface of the buffer layer 12 by the pipe fixture 40.

Figure 3 is a front perspective view of the pipe fixture according to the first embodiment of the present invention, and Figure 4 is a rear perspective view of the pipe fixture according to the first embodiment of the present invention.

Referring to Figures 3 and 4, the pipe fixing stand 40 is detachably installed on the slab 11 and fixes the cooling and heating pipe 30.

The pipe fixture 40 includes a portion supporting the main pipe 31 and the capillary pipes 31 so that the main pipe 31 is disposed at a lower position than the capillary pipes 32 among the cooling and heating pipes 30. The heights of the parts supporting (32) are formed differently.

The pipe fixture 40 includes a base portion 41, a capillary tube support portion 42, a main pipe support portion 43, a pipe holder 44, a holder coupling hole 45, a fastening member 46, and a sealing portion ( 47).

The base portion 41 has the shape of a horizontal panel installed horizontally on the slab 41. The base portion 41 is formed to be long along the longitudinal direction (x) of the main pipe 31. One end of the base portion 41 is installed adjacent to the side wall 20 of the building or the side wall cushioning material 21 provided on the side wall 20. Hereinafter, in this embodiment, one end of the base portion 41 will be described as an example in which one end is installed in close contact with the side wall cushioning material 21. However, it is not limited to this, and the installation position of the base portion 41 can be changed in various ways.

The capillary tube support portion 42 is shaped like a vertical panel protruding from the other end of the base portion 41 in an upward direction (y) perpendicular to the base portion 41. That is, the capillary tube support portion 42 is provided at a position spaced a predetermined distance away from the side wall cushioning material 21 and partitions between the side wall cushioning material 21 and the cushioning material layer 11. The height of the capillary tube support portion 42 may be preset according to the height difference between the main tube 31 and the capillary tubes 32 or the thickness of the cushioning layer 11.

The main pipe support portion 43 is a panel formed to connect the base portion 41 and the capillary tube support portion 42. The main pipe support portion 43 is provided in plural pieces spaced apart at predetermined intervals along the longitudinal direction (x) of the main pipe 31.

The main pipe support portion 43 is described as being formed from a point spaced a predetermined distance d from one end 41a of the base portion 41 to the capillary pipe support portion 42.

The main pipe support part 43 has at least a portion of its upper surface formed to be lower than the height of the capillary tube support part 42 so as to support the main tube 31 at a lower position than the capillary tubes 32. In this embodiment, an example will be given in which the entire upper surface of the main tube support part 43 is formed to form an inclined surface 43a that is inclined upward in the direction toward the capillary tube support part 42. That is, the cross-section of the main pipe support portion 43 is described as a triangular fixture. However, it is not limited to this, and the upper surface of the main pipe support portion 43 may be at least partially inclined, at least partially stepped, or at least partially curved so that the main pipe is seated. That is, the shape of the main pipe support portion 43 is such that the height of at least a portion of the main pipe support portion 43 is formed to be lower than the height of the capillary tube support portion 42, so that the main pipe 31 is connected to the capillary tubes. (32) If the shape can be supported at a lower position, it can be changed and applied in various ways.

The pipe holder 44 is a holder provided on at least one of the base portion 41 and the main pipe support portion 43 and fixes the main pipe 31. The pipe holder 44 is formed in a ring shape with one side open to surround the outer peripheral surface of the main pipe 31, and is detachably coupled to the holder coupling hole 45. The pipe holder 44 is explained as an example in which the main pipe 31 is first placed and then inserted from the outside of the main pipe 31 to be coupled to the holder coupling hole 45. The connection method of the pipe holder 44 and the holder coupling hole 45 can be applied in various ways, such as press-fitting or hooking. In addition, one end of the pipe holder 44 is fixed and the other end is detachably coupled, so it is of course possible to open and close the pipe holder 44.

The pipe holder 44 will be described as an example of being coupled to the base portion 41 and the main pipe support portion 43, respectively. That is, the pipe holder 44 includes a first pipe holder 44a detachably coupled to the base portion 41 and a second pipe holder 44b detachably coupled to the main pipe support portion 43. ) includes. The first pipe holder (44a) fixes one of the supply pipe (31a) and the water return pipe (31b), and the second pipe holder (44b) holds one of the supply pipe (31a) and the water return pipe (31b). The remaining one can be fixed.

The holder coupling hole 45 is formed in the base portion 41 and the main pipe support portion 43, respectively. The holder coupling holes 45 are formed in a pair so that both ends of the ring-shaped pipe holder 44 with one side open are inserted into them.

The fastening member 46 fastens and detachably attaches the base portion 41 to the slab 11. The fastening member 46 is explained as an example of a fastening screw. The fastening member 46 is fastened between the plurality of main pipe supports 43.

The sealing part 47 protrudes from the lower outer side of the capillary tube support part 42 and seals between the capillary tube support part 42 and the slab 11. The sealing part 47 blocks the cushioning material filled on the outside of the capillary tube support part 42 from flowing into the gap between the capillary tube support part 42 and the slab 11. The upper surface of the sealing portion 47 is inclined downward to facilitate sealing.

The installation method of the ultra-slim capillary tube floor cooling and heating system using the pipe fixture according to the first embodiment of the present invention configured as described above will be described as follows.

The pipe fixture 40 is placed at a preset position on the slab 11 and fastened and fixed with the fastening member 46.

At this time, one end of the base portion 41 of the pipe fixture 40 may be placed in close contact with the side wall cushioning material 21.

Accordingly, the pipe fixture 40 is installed on the same layer as the buffer layer 12 between the slab 11 and the mortar layer 12.

After placing the main pipe 31 on the base part 41 and the main pipe support part 43, the main pipe 31 is fixed using the pipe holder 44.

As shown in FIG. 1, among the cooling and heating pipes 30, the main pipe 31 is disposed on the base portion 41 and the main pipe support portion 43, and the capillary tubes 32 are located in the capillary tube 32. It is placed on the top of the pipe support portion 42.

The outside of the pipe fixture 40 is filled with a cushioning material to form the cushioning material layer 12. An example will be given in which foam is filled between the inside of the pipe fixture 40 and the side wall cushioning material 21. That is, the main pipe 31 is covered with foam, and the height of the coating layer covering the main pipe 31 is the same as the height of the buffer layer 12.

As described above, the main pipe 31 and the capillary pipe 32 can be placed at different heights by the pipe fixture 40. That is, the main pipe 30, which has a larger diameter than the capillary pipe 32, is disposed in the space between the side wall cushioning material 21 and the cushioning layer 12, and the capillary pipe 32 is located in the cushioning material layer ( By being disposed above 12), the main pipe 30 is disposed at a lower position than the capillary pipe 32.

Therefore, even if the coating thickness of the main pipe 30 is sufficiently secured, the height of the coating layer covering the main pipe 30 is less than the height of the buffer layer 12, so in order to secure the coating thickness of the main pipe 30, There is an advantage that there is no need to increase the thickness of the floor structure 10.

When the height of the main pipe 30 is the same as or higher than the height of the capillary pipes 32, the diameter of the main pipe 30 is much larger, so that the outside of the main pipe 30, which is a circular pipe, is covered. In order to do this, mortar must be poured with a thickness greater than the diameter of the main pipe 30 to create a flat layer, and since a mortar layer with a preset thickness must be formed on it, the thickness of the floor structure 10 is bound to increase. does not exist. On the other hand, in this embodiment, by using the pipe fixture 40, the height of the main pipe 30 is placed lower than the height of the capillary tubes 32, making construction of the pipe fixture 40 easy. However, it is possible to prevent an increase in the thickness of the floor structure 10. Since the thickness of the floor structure 10 can be minimized, sufficient indoor ceiling height can be secured.

In addition, there is an advantage that the pouring height of the mortar can be accurately known by the height of the pipe fixture 40.

In addition, since separate beveling follow-up work is not required, there are advantages in improving constructability and securing quality.

Meanwhile, Figure 5 is a cross-sectional view schematically showing the structure of an ultra-slim capillary tube floor cooling and heating system using a pipe fixture according to the second embodiment of the present invention.

Referring to Figure 5, in the ultra-slim capillary tube floor heating and cooling system according to the second embodiment of the present invention, the floor structure 100 of the building includes a slab 101, a buffer layer 102, a foamed concrete layer 103, and mortar. The layer 104 and the flooring material 105 are stacked sequentially, so that the heating/cooling pipe 30 and the pipe fixture 40 are placed between the cushioning material layer 102 and the mortar layer 104 and the foamed concrete layer 103. It is different from the first embodiment in that it is installed on the same floor, and other configurations and operations are similar, so the following description will focus on the different configurations and detailed descriptions of similar configurations will be omitted.

The base portion 41 of the pipe fixture 40 is fastened to the cushioning material layer 102 by the fastening member 46.

The capillary tube support portion 42 of the pipe fixture 40 partitions between the side wall cushioning material 21 and the foamed concrete layer 103.

An example will be given in which mortar is poured between the side wall cushioning material 21 and the capillary tube support part 42 to cover the main tube 31. Even if the main pipe 31 is covered with mortar, the height of the covering layer is the same as the height of the foamed concrete layer 103, so there is an advantage that the thickness of the floor structure 100 does not increase.

As described above, the main pipe 31 and the capillary pipe 32 can be placed at different heights by the pipe fixture 40. That is, the main pipe 30, which has a larger diameter than the capillary pipe 32, is disposed in the space between the side wall cushioning material 21 and the foamed concrete layer 103, and the capillary pipe 32 is disposed in the space between the foamed concrete layer 103. By being placed on the upper side of the layer 103, the main pipe 30 can be placed at a lower position than the capillary pipe 32.

Therefore, even if the covering thickness of the main pipe 30 is sufficiently secured, the height of the covering layer covering the main pipe 30 is less than the height of the foamed concrete layer 103, making it difficult to secure the covering thickness of the main pipe 30. There is an advantage that there is no need to increase the thickness of the floor structure 10 for this purpose.

Meanwhile, Figure 6 is a front perspective view of the pipe fixture according to the third embodiment of the present invention, and Figure 7 is a rear perspective view of the pipe fixture according to the third embodiment of the present invention.

Referring to Figures 6 and 7, the pipe fixture 140 according to the third embodiment of the present invention includes a base portion 141, a capillary tube support portion 142, a main pipe support portion 143, and a pipe holder 144. , It includes a holder coupling hole 145, a fastening member 146, and a sealing portion 147, but is different from the first embodiment in that the pipe holder 144 is provided in the main pipe support portion 143. , Since the remaining configurations and operations are similar, the following description will focus on different configurations and detailed descriptions of similar configurations will be omitted.

The main pipe support portion 143 is formed to connect the capillary tube support portion 142 from one end of the base portion 141.

The pipe holder 144 includes a first pipe holder 144a detachably coupled to the inclined surface 143a of the main pipe support portion 143, and a first pipe holder 144a attached to the inclined surface 143a of the main pipe support portion 143. It includes a first pipe holder (144a) and a second pipe holder (144b) detachably coupled to a position spaced apart from each other by a predetermined distance.

The first pipe holder 144a fixes one of the supply pipe 31a and the water return pipe 31b, and the second pipe holder 144b holds the supply pipe 31a and the water return pipe 31b. The remaining one can be fixed.

The pipe fixture 140 according to the third embodiment of the present invention is provided with both the first and second pipe holders 144a and 144b on the inclined surface of the main pipe support portion 143, thereby forming the base portion 141. The length becomes shorter, which has the advantage of being easier to install in narrower spaces.

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true scope of technical protection of the present invention should be determined by the technical spirit of the attached patent claims.

10: floor structure 11: slab
12: Buffer layer 13: Mortar layer
14: Flooring 20: Side wall
21: Side wall cushioning material 30: Cooling and heating panel piping
31: main pipe 32: capillary pipe
40: Piping fixture 41: Base portion
42: Capillary tube support 43: Main tube support
44: Piping holder 45: Holder coupling hole
46: fastening member 47: sealing part

Claims (12)

delete A heating and cooling pipe installed in the floor structure of a building, including a main pipe for supplying or returning cold and hot water, and a plurality of capillary pipes branching from the main pipe and having a diameter smaller than the main pipe;
A pipe fixture is detachably installed on the floor structure to fix the cooling and heating pipes, and has a portion supporting the capillary pipes higher than a portion supporting the main pipe so that the main pipe is disposed at a lower position than the capillary pipes. Including,
The pipe fixture,
Among the floor structures, a base portion installed on a slab,
a capillary tube support portion that protrudes upward on the base portion at a predetermined distance from the side wall of the building and is formed to support the capillary tubes at a set height;
The main pipe is formed to connect the base portion and the capillary tube support portion to support the main pipe, and has at least a portion of its upper surface formed lower than the height of the capillary tube support portion to support the main pipe at a lower position than the capillary tube support portion. support part,
a pipe holder provided on at least one of the base portion and the main pipe support portion to secure the main pipe;
Comprising a fastening member that fastens and secures the base portion to the slab in a detachable manner,
Ultra-slim capillary tube floor cooling and heating system using piping fixtures. A heating and cooling pipe installed in the floor structure of a building, including a main pipe for supplying or returning cold and hot water, and a plurality of capillary pipes branching from the main pipe and having a diameter smaller than the main pipe;
A pipe fixture is detachably installed on the floor structure to fix the cooling and heating pipes, and has a portion supporting the capillary pipes higher than a portion supporting the main pipe so that the main pipe is disposed at a lower position than the capillary pipes. Including,
The pipe fixture,
Among the floor structures, a base portion installed on a buffer layer laminated on a slab,
A capillary tube support part that protrudes upward on the base part at a position spaced apart from the side wall of the building by a predetermined distance, partitions between the side wall and the foamed concrete layer stacked on the buffer layer, and is formed to support the capillary tubes at a set height; ,
The main pipe is formed to connect the base portion and the capillary tube support portion to support the main pipe, and has at least a portion of its upper surface formed lower than the height of the capillary tube support portion to support the main pipe at a lower position than the capillary tube support portion. support part,
a pipe holder provided on at least one of the base portion and the main pipe support portion to secure the main pipe;
Comprising a fastening member that fastens and secures the base portion to the cushioning material layer in a detachable manner,
Ultra-slim capillary tube floor cooling and heating system using piping fixtures. In claim 2 or claim 3,
The main pipe support part,
At least a portion of the upper surface includes an inclined surface inclined upward in a direction toward the capillary tube support,
Ultra-slim capillary tube floor cooling and heating system using piping fixtures. In claim 2 or claim 3,
The pipe fixture,
Further comprising a sealing part that protrudes from a lower outer side of the capillary tube support part and seals between the capillary tube support part and the floor structure,
Ultra-slim capillary tube floor cooling and heating system using piping fixtures. In claim 5,
The upper surface of the sealing portion is formed to be inclined downward,
Ultra-slim capillary tube floor cooling and heating system using piping fixtures. In claim 2 or claim 3,
The pipe fixture,
Further comprising a plurality of holder coupling holes formed in at least one of the base portion and the main pipe support portion, to which the pipe holder is detachably coupled.
Ultra-slim capillary tube floor cooling and heating system using piping fixtures. In claim 2 or claim 3,
The main pipe is,
Comprising a supply pipe for supplying cold and hot water supplied from the outside to the capillary tubes, and a return pipe for recovering cold and hot water from the capillary tubes,
Ultra-slim capillary tube floor cooling and heating system using piping fixtures. In claim 8,
The pipe holder is,
A first pipe holder detachably coupled to the base and formed in a ring shape with one side open to surround an outer peripheral surface of at least one of the supply pipe and the water return pipe;
A second pipe holder is detachably coupled to the main pipe support and formed in a ring shape with one side open to surround the outer peripheral surface of the remaining one of the supply pipe and the water return pipe,
Ultra-slim capillary tube floor cooling and heating system using piping fixtures. In claim 8,
The pipe holder is,
A first pipe holder detachably coupled to the main pipe support and formed in a ring shape with one side open to surround an outer peripheral surface of at least one of the supply pipe and the water return pipe;
A second pipe holder is detachably coupled to the main pipe support portion at a predetermined distance from the first pipe holder and is formed in a ring shape with one side open to surround the outer peripheral surface of the remaining one of the supply pipe and the water return pipe. containing,
Ultra-slim capillary tube floor cooling and heating system using piping fixtures. In the ultra-slim capillary tube floor cooling and heating system in which a buffer layer, a mortar layer and a flooring material are stacked on the slab of a building, and a cooling and heating pipe and a pipe fixture are provided between the slab and the mortar layer,
The cooling and heating pipe includes a main pipe disposed adjacent to the side wall of the building for supplying or returning cold and hot water, and a plurality of capillary pipes branching from the main pipe and having a smaller diameter than the main pipe,
The main pipe includes a supply pipe for supplying cold and hot water supplied from the outside to the capillary tubes, and a return pipe for recovering cold and hot water from the capillary tubes,
The pipe fixture,
A base portion installed on the slab,
A capillary tube support portion that protrudes upward on the base portion at a predetermined distance from the side wall of the building, defines a space between the side wall and the side of the buffer layer, and has an upper end configured to support the capillary tubes;
The main pipe is formed to connect the base portion and the capillary tube support portion to support the main pipe, and at least a portion of the upper surface is formed to be inclined lower than the height of the capillary tube support portion to support the main pipe at a lower position than the capillary tube support portion. support part,
a pipe holder provided on at least one of the base portion and the main pipe support portion to secure the main pipe;
A plurality of holder coupling holes formed in at least one of the base portion and the main pipe support portion and coupled to the pipe holder so that the pipe holder is detachable;
Comprising a fastening member that fastens and secures the base portion to the slab in a detachable manner,
Ultra-slim capillary tube floor cooling and heating system using piping fixtures. In the ultra-slim capillary tube floor cooling and heating system in which a buffer layer, a foamed concrete layer, a mortar layer and a flooring material are stacked on the slab of a building, and a cooling and heating pipe and a pipe fixture are provided between the buffer layer and the mortar layer,
The cooling and heating pipe includes a main pipe disposed adjacent to the side wall of the building for supplying or returning cold and hot water, and a plurality of capillary pipes branching from the main pipe and having a smaller diameter than the main pipe,
The main pipe includes a supply pipe for supplying cold and hot water supplied from the outside to the capillary tubes, and a return pipe for recovering cold and hot water from the capillary tubes,
The pipe fixture,
A base portion installed on the buffer layer,
a capillary tube support portion that protrudes upward from the base portion at a predetermined distance from the side wall of the building, defines a space between the side wall and the side of the foamed concrete layer, and has an upper end portion supporting the capillary tubes;
The main pipe is formed to connect the base portion and the capillary tube support portion to support the main pipe, and at least a portion of the upper surface is formed to be inclined lower than the height of the capillary tube support portion to support the main pipe at a lower position than the capillary tube support portion. support part,
a pipe holder provided on at least one of the base portion and the main pipe support portion to secure the main pipe;
A plurality of holder coupling holes formed in at least one of the base portion and the main pipe support portion and coupled to the pipe holder so that the pipe holder is detachable;
Comprising a fastening member that fastens and secures the base portion to the cushioning material layer in a detachable manner,
Ultra-slim capillary tube floor cooling and heating system using piping fixtures.