KR20150095462A - Double structure of floor with hot water heating system and method for constructing the same - Google Patents

Abstract

The present invention is intended to provide a hot water heating double bottom structure which is excellent in soundproof performance even if the installation space of the heat insulating material tube 42 having a large diameter is not provided on the bottom (base) panel 25.
A plurality of support legs 5 are installed upright on the upper surface of the floor slab 1 of the building and a floor panel 15 is mounted on the support plate 10 of the plurality of support legs 5 . A floor bottom panel 25 is constructed on the floor panel 15 and a hot water floor heating panel 30 in which a hot water pipe 33 is accommodated is mounted on the bottom floor panel 25. Between the upper surface of the floor slab 1 and the floor panel 15 is disposed a heat insulating material tube 42 for supplying and discharging hot water from the heat source 46. A through hole 28 penetrating through the bottom panel 15 and the bottom floor panel 25 is formed and the through hole 28 is connected to the hot water pipe 33 of the hot water floor heating panel 30, And is connected to the attachment tube 42 via connection joints 45 and 49. The forward path side and backward side connection pipes 41 and 41 are inserted.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a double-

The present invention relates to a hot water heating double bottom structure and a construction method thereof.

Conventionally, as shown in Patent Document 1, there has been proposed a structure in which a plurality of hot water floor heating panels having a plate material (plate material) having concave grooves formed on the surface thereof and a hot water pipe accommodated in the concave groove of the plate material, Floor heating structure is known.

On the other hand, as shown in Patent Document 2, a plurality of support legs are erected on the upper surface of a floor slab of a building, a floor panel is mounted on the plurality of support legs, A double bottom structure is known in which a floor finish is installed through a bottom floor panel. The support leg comprises a cushion member made of an elastic body mounted on the upper surface of the bottom slab, a support column erected on the cushion member, and a support plate connected to the upper portion of the support, The floor panel is constructed.

Further, as shown in Patent Document 3, a plurality of support legs are erected on the upper surface of a floor slab of a building, a floor panel is mounted on a plurality of support legs, and a hot water floor heating panel It is also known that the double bottom structure is constructed. This is a combination of a floor heating structure with a heated floor heating panel and a supporting leg, and it has a floor structure that not only has floor heating function but also has soundproof performance.

[Prior Art Literature]

[Patent Literature]

Patent Document 1: Korean Patent Registration No. 10-0835231

Patent Document 2: Korean Patent Registration No. 10-1070742

Patent Document 3: Korean Patent Registration No. 10-1170017

In the hot water floor heating panel, it is necessary to connect a tube extending from a heat source (heat source machine) to supply and discharge hot water to the hot water pipe. In order to suppress the heat radiation from the hot water, the one with the heat insulating material enclosed with the heat insulating material is used.

However, the tube with the heat insulating material is large in diameter by the thickness of the heat insulating material. Therefore, when the tube having a large diameter is installed on the upper side of the bottom floor panel like the hot water floor heating panel, the installation space becomes large.

It is an object of the present invention to provide a hot water heating double bottom structure which is excellent in soundproofing performance even if the installation space of the heat insulating material having a large diameter is not formed on the upper side of the bottom floor panel.

In order to achieve the above object, in the present invention, in the construction of the hot water floor heating panel on the floor panel of the double bottom structure by the support leg, the hot floor heating panel is provided between the floor slab and the floor panel, And the hot water pipe of the hot water floor heating panel located above the floor bottom material is connected through the through hole penetrating the bottom panel and the bottom floor panel.

Specifically, the hot water heating double bottom structure of the first invention comprises a floor slab of a building having a cushion member made of an elastic body, a support column erected on the cushion member, and a support plate connected to the upper portion of the support A plurality of support legs are installed upright, and a floor panel is mounted on the support plates of the plurality of support legs. A bottom floor panel is constructed on the floor panel, and a hot water floor heating panel in which a hot water pipe flowing hot water is accommodated is mounted on the bottom floor panel.

Further, between the upper surface of the floor slab and the floor panel, a tube with a heat insulating material, which surrounds a tube for supplying and discharging hot water from a heat source to the hot water pipe of the hot water floor heating panel, is disposed. A through-hole is formed through the bottom panel and the bottom floor panel. The through-hole is connected to the hot water pipe of the hot water floor heating panel and connected to the heat insulating material tube via the connecting joint. And a return pipe side connection pipe are inserted.

In the first invention, a plurality of support legs provided with a cushion member, a support, and a support plate are erected on the upper surface of the floor slab of the building, and a floor panel is mounted on the plurality of support leg support plates, A floor heating panel is installed on the bottom floor panel. Accordingly, the floor impact sound can be reduced by the double bottom structure by the support legs to improve the soundproofing performance, and the floor heating can be performed by the hot water floor heating panel constructed on the bottom floor panel. Therefore, both sound insulation effect and floor heating effect can be obtained.

In addition, the hot water heating double bottom structure can be constructed by a dry process, not by a wet process requiring drying of a material mixed with water. As a result, the construction can be facilitated, the air (construction period) can be shortened, the construction time and effort can be reduced, and maintenance after the construction can be facilitated.

In addition, a through hole is formed through the bottom panel and the bottom floor panel. The through-hole is connected to the hot water pipe of the hot water floor heating panel and is connected to the heat insulating material tube via the connecting joint. A connecting pipe is inserted. With this structure, a heat insulating material-attaching tube is disposed between the floor slab and the floor panel, and the heat insulating material-attaching tube is connected to the hot water pipe of the hot water floor heating panel above the floor- . Thereby, it is not necessary to arrange the heat insulating material tube having a large diameter on the upper side of the bottom floor panel, and this space for installation can be eliminated. Even if the heat insulating material tube is installed in the space between the bottom panel and the upper surface of the floor slab, the piping connection of the hot water floor heating panel to the tube is not made. Connection can be performed, and the operation is facilitated.

A second aspect of the present invention is the hot water heating double bottom structure of the first aspect of the present invention, wherein a plurality of leg portions are formed on the periphery of the upper surface of the floor slab, each of the leg portions including a cushion member made of an elastic body, And a plurality of boundary girder members for mounting and supporting the periphery of the floor panel are disposed on the boundary girders. A space is formed between the end portions of the boundary lines of the boundary joist members of the adjacent boundary joist members. Further, the heat insulating material tube is disposed in a space between the boundary wire end portions of the boundary wire member at a position away from the end portion.

In the second invention, even when the height between the boundary lines of the plurality of boundary girder members disposed on the periphery of the upper surface of the bottom slab and the upper surface of the bottom slab is lower than the diameter of the heat insulating material tube having a larger diameter, It is possible to dispose the heat insulating material tube in the space between the end portions without interfering with the boundary girder member. In addition, since the heat insulating tube does not come into contact with the end portion of the boundary line, it is possible to prevent the floor impact sound from propagating to the upper surface of the bottom slab through the boundary line and the heat insulating tube and improve the soundproofing performance.

The third invention is the hot water heating double bottom structure according to the first or second invention, wherein a plurality of sound absorbing materials are arranged between the upper surface of the floor slab and the floor panel and spaced apart from the floor panel side , And a tube with a heat insulating material is disposed in a space between the sound absorbing members.

According to the third invention, since a plurality of sound absorbing materials are disposed between the upper surface of the floor slab and the floor panel with a space in a plan view, a sound absorbing material and a space therebetween are arranged and arranged in a space between the upper surface of the floor slab and the floor panel . The space between the sound absorbing members can secure a space through which air is blown during the bottom vibration, thereby improving the soundproofing performance.

Further, since the tube with the heat insulating material is disposed in the space between the sound absorbing members, the space between the sound absorbing members can be effectively used. Further, the sound-absorbing material is pressed by the heat-insulating-material-adhering tube, so that the sound-insulating performance can be prevented from deteriorating.

A fourth invention is characterized in that, in the hot water heating double bottom structure according to any one of the first to third aspects, a sound insulating sheet of a high specific gravity resin is interposed between the floor panel and the bottom floor panel.

In the fourth invention, since the sound insulating sheet of the high-boiling resin excellent in the sound insulating performance is interposed between the floor panel and the bottom floor panel, the soundproofing performance can be further enhanced.

According to a fifth aspect of the present invention, in the method of constructing the hot water heating double bottom structure of the first invention, a plurality of support legs and a tube with a heat insulating material which surrounds the hot water pipe of the hot water floor heating panel A floor panel is laid on the pedestal of the plurality of support legs, and a floor bottom panel is laid on the floor panel, respectively, and through-holes penetrating through the panels are formed on the floor panel and the bottom floor panel. The tube of the tube with the heat insulating material is inserted into the through hole, and the tip of the tube is drawn out onto the bottom floor panel. Then, a hot water floor heating panel is installed on the bottom floor panel, and the passenger side and back side connection pipes connected to the hot water pipe are connected to the upper end of the tube by connection seams. Thereafter, And the tube is returned between the bottom panel and the bottom floor panel while inserting the side connecting pipe into the through hole.

In the fifth invention, when the hot water heating double bottom structure is constructed, first, a plurality of support legs and a tube with a heat insulating material are arranged on the upper surface of the floor slab, and then a floor panel is provided on the support plates of the plurality of support legs, A bottom floor panel is laid on the floor panel, and a through hole penetrating both the panels is formed on the floor panel and the bottom floor panel. A tube end of a tube with a heat insulating material is inserted into the through hole, and a female (male) joint (connection joint) is attached to the tip of the tube. Thereafter, a hot water floor heating panel is installed on the bottom floor panel. At this time, the passenger side and the back side pipe of the hot water floor heating panel are connected to the front end of the tube by connecting seams. Then, the forward path side and the backward side connecting pipe are inserted into the through holes, and the tube is returned between the bottom panel and the bottom floor panel. As a result, the hot water heating double bottom structure can be easily constructed.

As described above, according to the present invention, a plurality of support legs constituted by a cushion member, a support and a support plate are erected on the upper surface of a floor slab of a building, a floor panel is laid on the support plate of the plurality of support legs, A hot water floor heating panel is installed on a floor panel through a bottom floor panel and a heat insulating material tube connected to the heat source is disposed between the floor slab and the floor panel, A through hole is formed in the through hole and a through hole and a back side connecting pipe connecting the hot water pipe of the hot water floor heating panel and the heat insulating material tube are inserted into the through hole so that the floor impact sound is reduced by the double bottom structure by the support leg The floor heating can be performed by the hot water floor heating panel installed on the bottom floor panel. In addition, the construction can be facilitated, the air can be shortened, the time and effort for construction can be reduced, and the maintenance after the construction can be facilitated. Further, it is not necessary to dispose the heat insulating material tube having a large diameter on the upper side of the bottom floor panel, and this space for installation can be eliminated. Moreover, even if the heat insulating material tube is installed on the lower side of the floor panel, piping connection of the hot water floor heating panel to the tube can be easily performed from the upper side of the floor bottom panel.

1 is a sectional view showing a hot water heating double bottom structure according to an embodiment of the present invention.
Fig. 2 is a perspective view showing a part of the hot water heating double bottom structure broken. Fig.
3 is a plan view showing a hot water heating double bottom structure.
4 is a perspective view of the support leg.
5 is a cross-sectional view of a support leg.
6 is a perspective view of the boundary wire member.
Fig. 7 is a cross-sectional view showing a main portion of the boundary wire member. Fig.
8 is a perspective view showing the construction of the boundary wire member.
9 is a plan view of a hot water floor heating panel.
10 is a sectional view of a hot water floor heating panel.
11 is a cross-sectional view of a heat insulating material tube.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. 1 to 3 show a hot water heating double bottom structure according to an embodiment. (1) is the floor slab of the building and (2) is the wall. A plurality of support legs 5 are installed upright on the upper surface of the floor slab 1 at predetermined intervals and a plurality of floor panels 15, 15, ...) to form a double bottom surface.

The floor slab 1 may be a slab made of reinforced concrete when the building is initially installed, but it is also possible that the floor heating system is installed by a wet method by embedding a hot water pipe on the slab, Structure (in this structure, two slabs of a reinforced concrete slab and a slab of a mortar layer or the like are formed), when the hot water heating double bottom structure of the present invention is applied for reforming, A mortar layer or the like may be used as the bottom slab 1.

4 and 5, each of the support legs 5 includes a cushion member 6 made of an elastic body mounted on the upper surface of the bottom slab 1, pillars 7 provided on the cushion member 6, And a support plate 10 connected to an upper portion of the support column 7. [ The cushion member 6 is a columnar member made of rubber or the like and has a concave portion 6a formed at the center of the lower surface thereof and a columnar insertion portion 6b formed at the center of the upper surface thereof with a concave portion 6a It is formed concave in the image (concentric). A lower end portion of the cushion member 6 corresponding to the peripheral wall of the concave portion 6a is formed in a semicircular arc shape with a downwardly inflated cross section. As a result, the ground surface of the cushion member 6 to the bottom slab 1 becomes a circular ring shape, and transmission of vibration to the bottom slab 1 is suppressed.

The column 7 is made of, for example, metal, and includes a bolt portion 7a having a screw thread formed on the outer circumference thereof, an insert portion 7b which is concentrically connected to the lower end of the bolt portion 7a, And a flange portion 7c integrally formed between the bolt portion 7a and the insertion portion 7b. The pillars 7 and the cushion members 6 are inserted into the pillars 6b of the cushion member 6 so that the insertion portions 7b of the pillars 7 are prevented from slipping out and the flange portions 7c and the upper surface of the cushion member 6 by interposing a plain washer 8 therebetween.

The base plate 10 is, for example, a rectangular plate made of a particle board or a plywood, and a nut insertion hole 10a is formed through the center thereof. A nut member 11 made of a metal or a resin is inserted and fixed to the nut insertion hole 10a in a state in which the nut member 11 is prevented from slipping off. The nut member (11) is screwed to the bolt (7a) of the strut (7). The support plate 10 is connected to the upper portion of the support 7 and the support 7 is rotated from above the support plate 10 to change the screwing position of the nut member 11 with respect to the bolt portion 7a, The height of the base 10 can be adjusted.

Each of the floor panels 15 is made of a particle board having a thickness of 20 mm and is mounted on a portion of the support plate 5 of the support leg 5 except the nut insertion hole 10a As shown in FIG.

As shown in Fig. 8, a plurality of boundary element members 17, 17, ... are arranged on the peripheral edge of the upper surface of the floor slab 1 (the boundary portion of the wall 2). 6 and 7, each of the boundary element wire members 17 is formed by combining one boundary wire 18 and a plurality of (three in the illustrated example) leg portions 20, 20,... The boundary lines 18 are made of a rectangular material having a predetermined length and nut insertion holes 18a in the vertical direction are arranged at a predetermined interval at a plurality of portions including both ends And a nut member 19 is inserted and fixed to each nut insertion hole 18a. Each of the leg portions 20 is formed of a cushion member 21 made of an elastic body and a strut 22 standing upright on the cushion member 21. The cushion member 21 is made of rubber or the like similar to the cushion member 6 of the support leg 5 but has a shape different from that of the cushion member 6 and has a truncated cone shape. The column 22 has a bolt portion 22a similar to the column 7 of the support leg 5. The bolt portion 22a of the strut 22 is screwed to each of the nut members 19 of the boundary wire 18. Thereby, the boundary line 18 is connected to the upper part of the column 22 and the column 22 is rotated from the upper side of the boundary line 18 to change the screwing position of the nut member 19 with respect to the bolt part 22a , The height of the boundary line 18 can be adjusted.

8, the peripheral edges of the floor panels 15, 15, ... are arranged on the boundary lines 18, 18, ... of the plurality of boundary element members 17, 17, . The boundary line members 17 and 17 (left and center in FIG. 8) of the plurality of boundary line members 17, which are adjacent to each other, (For example, 66 mm) when the two heat insulating material-adhering tubes 42 and 42 are arranged as shown in FIG. do.

A cushioning member 23 is attached to a surface of the boundary line 18 of each boundary element member 17 opposite to the wall 2 (frame). This prevents the transmission of vibration from between the boundary line 18 and the wall 2 by the cushioning member 23.

On the floor panels 15, 15, ... flooring panels 25, 25, ... are constructed. Each bottom floor panel 25 is made of, for example, a 12 mm thick plywood.

Also, between the bottom floor panel 25 and the floor panel 15, a sound insulating sheet 26 made of high-purity resin is adhered to one side. As the high-boiling sound-insulating sheet 26, for example, an asphalt pad having a specific gravity of 1.4 to 3.0 and a thickness of 4 to 12 mm, a thickness 4 of an inorganic filler filled with a specific gravity of 1.4 to 3.0 A resin sheet of ~ 12 mm is used. Thus, a double floor structure having excellent sound insulation performance can be obtained.

Specifically, the resin sheet is filled in an inorganic filler at a ratio of, for example, about 100 to 1000% by weight based on 100% by weight of the vinyl chloride resin, kneaded, and then extruded in a calender . When the amount of the filled inorganic filler is small, the specific gravity is lightened and the sound insulating performance is low. On the other hand, if the amount of the inorganic filler is too large, it becomes difficult to form the sheet. Instead of the vinyl chloride resin, a rubber-based resin or an olefin-based resin may be used. As the inorganic filler, for example, carbonic acid (calcium carbonate), barium sulfate, silica, alumina, carbon black, metal powder, metal oxide and the like are used.

10, through-holes 28 for inserting pipes that pass through the entirety of the floor panel 15, the sound insulating sheet 26 and the bottom floor panel 25 of the high- . The pipe insertion through-holes 28 are formed by connecting pipes 41 and 41 on the forward side and the back side to be described later, tubes 43 and 43 of the heat insulator attachment tubes 42 and 42, 45, 45, 49, 49 (connection joint).

A plurality of hot water floor heating panels 30 and 30 and a plurality of border panels 48 and 48 having the same thickness as the hot water floor heating panels 30 are disposed on the sound insulating sheet 26 of the high- ...) are listed. These border panels 48, 48, ... are arranged on a portion corresponding to the periphery of the upper surface of the floor slab 1.

9 and 10, each of the hot water floor heating panels 30 has a plate 31 on which a receiving concave groove 32 is formed on the surface (or the back surface), and the receiving concave groove 32, A hot water pipe 33 through which hot water flows is accommodated. A heat transfer sheet 34 such as an aluminum foil for transferring the heat of the hot water pipe 33 to the entire surface of the plate member 31 is provided on the surface (or back surface) of the plate member 31 to close the opening of the accommodating concave groove 32 Whereby the hot water pipe 33 is accommodated in the plate 31 in a state of being embedded.

The plate 31 may be made of a wood plate such as a wood fiber board or a particle board such as general plywood, insulation board, MDF and hard board, an inorganic plate such as rock wool and glass wool, a resin foam sheet such as polyethylene, polypropylene or polystyrene is used. Considering moldability, heat insulation, workability, etc., resin foam board and low-density fiberboard are suitably used. At this time, the plate 31 is provided with a plurality of small joist members 35, 35, ... arranged in parallel to each other to maintain the strength in the thickness direction thereof, A gap member (36) for disposing the pipe (33) is integrally arranged.

The accommodating concave groove 32 is formed by hot pressing, cutting, or the like. In the thermoforming, for example, it is thermoformed by a mold having a molding surface for forming a desired accommodating concave groove 32 in advance.

The depth and width of the accommodating concave groove 32 may be appropriately selected. For example, it is preferable that the opening side half portion has a substantially square shape in section and an inner half portion in a semicircular shape in cross section with a depth and width of about 7 to 9 mm It is common. A metal thin film such as an aluminum foil for the purpose of cracking is disposed in the accommodating concave groove 32 so as to follow the groove shape.

In the illustrated example, the hot water pipes 33 are divided into two systems. As the hot water pipe 33, a pipe made of a crosslinked (polyethylene) polyethylene is most preferably used in consideration of workability, thermal conductivity, durability and the like. It is also preferable that the drawing pipe 39, the connecting pipe 41, and the tube 43 of the heat insulating material attaching tube 42, which will be described later, are made of the same material.

The header member 38 is disposed at the end of the plate member 31 and both ends of the two hot water pipes 33 and 33 are connected to the hot water pipe side connecting portion of the header member 38. One end of the two outgoing pipes 39, 39 on the forward side and the back side are detached and connected to the outgoing pipe side connecting portion of the header member 38, respectively. The other ends of the drawing pipes 39 and 39 are connected to the forward path side and backward direction connecting pipes 41 and 41 via elbow joints 40 and 40, respectively. These connection pipes 41 and 41 are inserted into the pipe insertion through holes 28 and extend in the vertical direction and the tips thereof are connected to the extraction pipes 39 and 39 via the elbow joints 40 and 40 . At the front end of each connecting pipe 40, a female joint 45 is mounted in advance. The female joint 45 has a fitting recess made of a cylindrical hole having a bottom which receives a fitting convex portion 49a of a male type joint 49, which is not shown, And communicates with the connection pipe 40.

A male joint 49 connected to the female joint 45 at the tip of the connecting pipes 41 and 41 is provided at each end between the upper surface of the floor slab 1 and the floor panel 15. [ And a pair of heat insulating material attachment tubes 42, As shown in Fig. 11, each of the heat-insulating attachment tubes 42 is made by wrapping the tubes 43 with a heat insulating material 44 such as high-yield polyethylene, and has an outer diameter of, for example, 33 mm. The two heat insulating material attachment tubes 42, 42 are detachably joined to each other at the outer peripheral portion of the respective heat insulating materials 44, 44. One end of each of the heat insulator attachment tubes 42 and 42 is removed from the heat insulator 44 to become only the tube 43 and the male joint 49 is mounted on the tube 43. The heat insulating material adhering tubes 42 and 42 are mounted and fixed on the upper surface of the bottom slab 1 so that the aligned directions are horizontal. At this time, the outer circumferential end portions of the heat insulating material attachment tubes 42, 42 are separated from the bottom panel 15. Thus, it is possible to prevent the floor impact sound from propagating to the upper surface of the floor slab 1 through the heat insulating material attachment tube 42, and to improve soundproofing performance.

The male joint 49 has a cylindrical fitting projection 45a fitted into the fitting concave portion of the female joint 45. The inside of the fitting projection 45a communicates with the tube 43. [ Sealing 49b and 49b are mounted on the outer periphery of the fitting protrusion 45a so that the fitting protrusion 45a is fitted into the fitting recess of the female joint 45 and is sealed by the sealing rings 49b and 49b The male joint 49 is connected to the female joint 45 so as to allow circulation of hot water. These male joints 49 and female joints 45 are prevented from being dislocated by clips other than those shown in the state of being connected to each other. The connecting joint is constituted by the male joint 49 and the female joint 45.

The other end of the heat insulating material attachment tubes 42 and 42 is connected to a heat source 46 such as a boiler or a heat pump device outside the building. Water is circulated between the heat source 46 and the hot water pipe 33 of each hot water floor heating panel 30 so that the hot water heated by the heat source 46 is heated by the heat insulating material Water is supplied to the hot water pipe 33 of each hot water floor heating panel 30 through the tube 42, the connecting joint, the forward path connecting pipe 41, the forward path side draw pipe 39 and the header member 38, Floor heating is done. On the other hand, hot water heated down by the floor heating is supplied from the hot water pipe 33 to the header member 38, the backward-side drawing pipe 39, the backward-side connecting pipe 41, (42) to return to the heat source (46).

As shown in Fig. 8, the portion (intermediate portion) passing through the position of the boundary element member 17 out of the two heat insulating material-adhering tubes 42, 42 is a boundary between the adjacent boundary element members 17, (Not in contact with) the end portion in a space 24 formed between the end portions of the joist lines 18 and 18, as shown in Fig.

A plurality of floor finishing panels 50 are formed on the heated floor heating panel 30 by rabbit jointing the adjacent floor finishing panels 50 and 50 with each other. The bottom finishing panel 50 may be any of a variety of materials such as plywood (such as a softwood plywood, a tropical wood re-plywood, a raw water plywood, a wood plywood, etc.), a single plate laminate, a wood fiber board (insulation board, MDF, hard board, And inorganic base materials such as wood wool, etc., inorganic fiber boards, gypsum boards, wooden wool cement boards, resin base materials such as linoleum, olefin and vinyl chloride, An integrated cosmetic material is put on the surface by attaching a decorative sheet such as paper, a resin impregnated toilet paper, a resin decorative sheet, or a stone publication.

The bottom finishing panel 50 has a thickness of about 1 mm to 15 mm, preferably about 3 to 12 mm.

10, reference numeral 47 denotes a cover member for covering the drawing pipe 39 and the pipe insertion through-hole 29.

2 and 3, a plurality of sound absorbing members 53, 53 are provided at positions avoiding the support legs 5, 5, ... between the upper surface of the floor slab 1 and the floor panels 15, 53, ... are arranged. Each sound absorbing material 53 is made of glass wool or the like in the form of a continuous rectangular plate having a predetermined thickness and is arranged in series in the longitudinal direction of the sound absorbing material 53 in a state where two sheets are overlapped on the upper surface of the floor slab 1 Respectively. These sound absorbing materials 53, 53, ... are not formed on the entire upper surface of the bottom slab 1 but are arranged in a space 54 (space) equivalent to one row, for example, Are listed. The upper surfaces of the two sound absorbing materials 53, 53, ... are overlapped with the lower surface of the floor panel 15. The two heat insulating material attachment tubes 42, 42 are disposed in any one of the spaces 54 between the rows of the sound absorbing materials 53, 53, ....

The floor panel 15, the bottom floor panel 25, the sound insulating sheet 26 of the heavy-weight resin, the floor heating panel 30 (the border panel 48), and the floor finish panel 50, So that the vibration of the bottom surface is not transmitted to the wall surface. 1 and 2, reference numeral 55 denotes a base.

Next, a construction method of the hot water heating double bottom structure will be described. First, the boundary element members 17, 17, ... are installed on the periphery of the upper surface of the floor slab 1 of the building. At this time, with respect to the adjacent boundary element members 17 and 17, spaces 24 are formed at predetermined intervals between the end portions of the boundary element members 18 and 18, respectively.

Next, a plurality of support legs 5, 5, ... are arranged at predetermined positions on the upper surface of the floor slab 1, and two sound absorbing members 53, 53 Arrange the columns at a spacing from the plane. Heat insulating material attachment tubes 42, 42 connected to the heat source 46 are arranged and fixed in a space between the heat absorbing materials 53, 53. The heat insulating materials 44 and 44 at the end portions of the heat insulating material attachment tubes 42 and 42 on the outward side and the backward side are removed to expose the tubes 43 and 43 and the male joints 49 and 49 are attached to the ends, And these male type joints 49 and 49 are placed at predetermined positions.

At this time, if there is a portion passing through the position of the bottom joist member 17 for connection with the heat source 46, the heat insulating material attachment tubes 42, Are arranged and fixed to the space 24 between the end portions of the boundary lines 18 and 18 of the adjacent boundary element members 17 and 17 so as not to come into contact with the end portion of the boundary line 18. [ The diameter of the heat insulating material tube 42 is increased by the thickness of the heat insulating material 44 and becomes larger than the height between the boundary line 18 of the boundary element member 17 and the upper surface of the bottom slab 1 It is possible to arrange the heat insulating material tubes 42 and 42 in the space 24 between the end portions of the boundary lines 18 and 18 without interfering with the boundary wire member 17. [ Since the insulation adhering tube 42 does not contact the end of the boundary line 18, the floor impact sound propagates to the upper surface of the bottom slab 1 via the boundary line 18 and the heat insulating attachment tube 42 So that the soundproof performance can be improved.

Thereafter, a plurality of bottoms (10, 10, ...) of the boundary lines (18, 18, ...) of the boundary line members (17, 17, ...) and a plurality of support legs Panels 15, 15, ... are laid. The floor panels 15 located at the middle portion of the upper surface of the floor slab 1 support the respective peripheral edges thereof with the support plates 10, 10, ... of the support legs 5, 5,. The edge portions of the floor panels 15 are supported by the boundary lines 18, 18, ... of the boundary line members 17, 17, ... at the periphery of the upper surface of the floor slab 1. Each of the floor panels 15 is fixed to the floor plate 10 and the bottom floor line 18 in a free-standing manner.

The level adjustment of the horizontal surfaces of the floor panels 15 is performed by turning the bolts 7a and 22a of the supporting legs 5 and the supporting pillars 7 and 22 of the respective boundary line members 17 And the height of the boundary line 18 are changed.

When the floor panels 15, 15, ... are thus constructed, the bottom floor panels 25, 25, ... are sandwiched by the sound insulating sheets 26, 26, ..., 25, ...). Subsequently, the waterproof sheet 26 and the floor bottom panel 25 are passed through the bottom panel 15, the sound insulating sheet 26, and the bottom floor panel 25 at predetermined positions (the positions of the male and female joints 49 and 49 at the ends of the tubes 43 and 43) And a through hole 28 for pipe insertion is formed. The tubes 43 and 43 with the male joints 49 mounted thereon are inserted into the through holes 28 from the bottom of the bottom floor panel 15 and the male joints 49 and 49 of the front ends are inserted into the bottom floor panel 25, 25, ...).

Thereafter, the hot water floor heating panel 30 is placed on the bottom floor panels 25, 25, ..., and the border panels 48, 48, At the same time as this construction is carried out, it is mounted in advance on the ends of the forward and backward connection pipes 41, 41 extending from the header member 38 of each hot water floor heating panel 30. Female joints 45 and 45 are connected to male joints 49 and 49 at the leading ends of the tubes 43 and 43 at the forward and backward sides, respectively. Thus, the hot water pipe 33 and the heat source 46 of each hot water floor heating panel 30 are connected to circulate hot water. The tube 43 is then returned to the lower side of the floor panel 15 through the pipe insertion hole 28 with the female and male joints 45 and 49 (connection joint) Is inserted into the through hole 28 for pipe insertion.

At this time, the male joints 49, 49 of the tubes 43, 43 are connected by the pipe insertion through-holes 28 penetrating the floor panel 15, the sound insulating sheet 26 of the heavy-weight resin, 49 are drawn out to the upper side of the bottom floor panels 25 and 25 so that the male type joints 49 and 49 are connected to the upper side of the hot water pipe 33, 25 are connected to the female joints 45, 45 connected to the connecting pipes 41, 41 of the hot water floor heating panel 30, Only connecting the drawn male joint 49 to the female joint 45 on the side of each hot water floor heating panel 30 on the upper side of the floor panels 25, 25, And the upper and lower sides of the bottom floor panels 25, 25,... Are different from each other.

Thereafter, floor finishing panels 50, 50, ... are installed on the hot water floor heating panels 30, 30, ... and the border panels 48, 48, .... As described above, the hot water heating double bottom structure can be easily constructed.

Therefore, in this embodiment, a plurality of support legs 5, 5, ... provided with the cushion member 6, the support pillars 7, and the support plate 10 are installed upright on the upper surface of the floor slab 1, The floor panels 15, 15, ... are mounted on the floor panels 15, 15, ... of the plural supporting legs 5, 5, The hot water floor heating panel 30 is installed through the panels 25, 25, .... Thus, not only the floor impact sound can be reduced by the double bottom structure by the support legs 5, 5, ... to improve the soundproofing performance, but also the floor heating panels (25, 25, ...) The floor heating can be performed by the heating unit 30. That is, both sound insulation effect and floor heating effect can be obtained.

In addition, the hot water heating double bottom structure can be constructed by a dry method, unlike a wet method requiring drying such as mortar mixed with water. As a result, the construction can be facilitated, the air can be shortened, the time and effort for construction can be reduced, and the maintenance after the construction can be facilitated.

A through hole 28 for inserting a pipe penetrating through the floor panel 15, the sound insulating sheet 26 of the heavy-weight resin and the bottom floor panel 25 is formed. In this through hole 28, The heat insulating material attachment tubes 42 and 42 are disposed between the floor slab 1 and the floor panel 15 because the forward path side and backward side connection pipes 41 and 41 connected to the floor panels 42 and 42 are inserted, The heat insulating material tubes 42 and 42 can be connected to the hot water pipe 33 of the hot water floor panel 30 above the bottom floor panel 25 via the connecting pipes 41 and 41. Thereby, it is not necessary to arrange the heat insulating material tubes 42, 42 having a large diameter on the upper side of the bottom floor panel 25, and the installation space need not be formed.

Two upper and lower sound absorbing members 53 and 53 are arranged in series in the longitudinal direction between the upper surface of the floor slab 1 and the floor panels 15 and 15, The sound absorbing members 53 and 53 and the space 54 between them are alternately arranged and arranged in a space between the upper surface of the floor slab 1 and the floor panel 15, A space in which the air is emitted at the time of vibration of the floor is secured by the space 54, and soundproof performance can be improved.

In addition, since the heat insulating material adhering tubes 42 and 42 are disposed in the space 54 between the sound absorbing materials 53, 53, ..., the space 54 between the sound absorbing materials 53, 53, ... can be effectively used.

Further, since the sound insulating sheet 26 made of high-boiling resin having excellent sound insulating performance is interposed between the floor panels 15, 15, ... and the floor bottom panels 25, 25, ..., .

[Industrial applicability]

The present invention is advantageous in that it is not necessary to dispose the heat insulating material tube having a large diameter on the upper side of the bottom floor panel and to eliminate the installation space and also to prevent the installation of the hot water floor heating panel Can be easily performed on the upper side of the bottom floor panel, which is very useful.

1: floor slab 2: wall
5: support leg 6: cushion member
7: Support 10:
15: floor panel 17: boundary member member
18: boundary line 20:
21: cushion member 22: holding member
24, 54: space 25: bottom floor panel
26: Sound insulating sheet of high-purity resin 28: Through-hole for pipe insertion
30: Heated floor heating panel 31: Plate
32: accommodating concave groove 33: hot water pipe
41: connecting pipe 42: tube with insulating material
43: Tube 44: Insulation
45: Female joint (connection joint) 46: Heat source
49: male joint (connecting joint) 50: bottom finishing panel
53: Sound absorbing material

Claims (5)

A plurality of support legs provided with a cushion member made of an elastic body, a support column erected on the cushion member, and a support plate connected to the upper portion of the support are erected on the upper surface of the floor slab of the building,
A floor panel is mounted on the support plates of the plurality of support legs,
A bottom floor panel is installed on the floor panel, a hot water floor heating panel in which a hot water pipe through which hot water flows is installed on the floor bottom panel,
A heat insulating material tube is disposed between the upper surface of the floor slab and the floor panel to surround the hot water pipe of the hot water floor heating panel with a heat insulating material for supplying and discharging hot water from the heat source,
A through hole penetrating the bottom panel and the bottom floor panel is formed,
Wherein the passageway-side connecting pipe is connected to the hot water pipe of the hot water floor heating panel and connected to the heat insulating pipe through the connecting joint. The method according to claim 1,
A plurality of leg portions formed by a cushion member made of an elastic body and a column provided upright on the cushion member and one boundary line connected to a top portion of the leg portion of the leg portion on the peripheral edge portion of the upper surface of the bottom slab, A plurality of boundary line members for mounting and supporting the peripheral edge portion of the floor panel are disposed on the boundary lines,
A space is formed between the boundary line ends of the boundary line member parts of the adjacent boundary line member,
Wherein the heat insulating material tube is disposed in a space between the boundary line ends of the boundary acoustic wave elements so as to be separated from the end portions. The method according to claim 1 or 2,
A plurality of sound absorbing materials are disposed between the upper surface of the floor slab and the floor panel so as to be spaced apart from the floor panel side in a plan view,
And a heat insulating material tube is disposed in a space between the sound absorbing materials. The method according to any one of claims 1 to 3,
Wherein a sound insulating sheet of a high-boiling resin is interposed between the floor panel and the floor bottom panel. The method according to claim 1,
A plurality of support legs on the upper surface of the floor slab and a tube with a heat insulating material which surrounds the hot water pipe of the hot water floor heating panel and which surrounds the heat pipe,
A floor panel is laid on the pedestal of the plurality of support legs and a floor floor panel is laid on the floor panel,
A through hole penetrating the both panels is formed on the bottom panel and the bottom floor panel,
A tube of the tube with the heat insulating material is inserted into the through hole and the tip of the tube is drawn out onto the bottom floor panel,
The hot water floor heating panel is installed on the bottom floor panel and the forward side and back side connection pipes connected to the hot water pipe are connected to the front end of the tube by joints,
And then the tube is returned between the bottom panel and the bottom floor panel while inserting the forward and backward connection pipes into the through holes.

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