KR19980074637A - Insulation boat for construction - Google Patents

Abstract

The present invention relates to a thermal insulation thermal insulation board for building used as a thermal insulation insulating material for the inner wall insulation of the building and hot water distribution. The purpose of the polystyrene foam is to increase the strength while maintaining the physical properties of the polystyrene foam, to prevent shrinkage settlement caused by external pressure, to prevent chemical erosion by mortar, foam concrete, and waterproofing agent, and to prevent moisture flow after heating piping. By heat-sealing the polystyrene sheets 102a, 102b, 202a, and 202b on both sides of the polystyrene foam boards 101 and 201 having at least one surface, the strength and durability are increased. It is an inner wall heat insulating material which makes both surfaces planar, and is used as a bottom heat insulating material when forming the piping material fixing protrusion 204 which has the X-shaped groove | channel 203 in one side continuously. In the latter case, U-shaped channels 205a and 205b and inverted U-shaped channels 206a and 206b are formed on all sides, thereby preventing assembly and leakage.

Description

Insulation boat for construction

The present invention relates to an insulating heat insulating board used as an inner heat insulating material and a heat insulating heat insulating material for hot water pipes of a building, in particular, a structural heat insulating board having a polystyrene foam as a main material.

In general, when the construction of residential buildings such as houses, apartments, etc. wants to receive thermal protection from the external weather, or to prevent heat loss toward the sleeve sleeve of the floor heating piping work is known as a thermal insulation material There is a polystyrene foam called Styrofoam. This polystyrene foam is relatively inexpensive and is widely used for thermal insulation, insulation, sound insulation, and light weight of buildings, such as insulation of interior walls and floors.

In the case of inner wall insulation, it is constructed to be inserted into a concrete or brick, or to be formed to form an inner wall of the room, and floor insulation is constituted by a predetermined construction method between the slab and the floor. It is divided into Styrofoam hot water pipe installation method and dry method Styrofoam insulation board installation method.

Polystyrene foam is mainly composed of polystyrene foam as a heat insulator. Among them, the styrofoam hot water pipe installation method, which is representative of the dry method, places pus sand or foamed concrete on the floor slab and assembles the hot water pipe on it. After arranging it, the hot water pipe is fixed on the protrusion attached to the hot water pipe plate itself, and finally, the mortar is poured on the hot water pipe plate and the hot water pipe to form a floor. Styrofoam thermal insulation board installation method, which is the representative method of wet method, places pus sand or foam concrete on the floor slab, arranges thermal insulation boat side by side, and re-pours foam concrete on top of the thermal insulation board to cure. After curing, the heating tube was arranged on it, and finally, it was finished with mortar to form the floor.

However, in the case of the polystyrene foam used for the insulation of the inner wall, since the inner and outer surfaces are made of the polystyrene foam itself at the time of foaming, forming a wall of the interior using such polystyrene foam has a relatively high thermal insulation effect, but it is impacted by furniture. There was a problem of easily crushing the inside with the wallpaper when under an external pressure.

In addition, in the case of polystyrene foam used for floor insulation, the effects of heat insulation, soundproofing, and insulation, which are inherent to the polystyrene foam, can be expected in any of the above methods. When pressure and impact are caused by the contraction and settlement, cracks in the floor occur, and polystyrene foam is assembled while forming a plane, so water leaks into the floor slab when water leaks from the heating pipe.

In addition, even if the floor slab is waterproofed, the polystyrene foam described above is made of a single material as it is at the time of foaming, and thus the chemical change is contained in the chemicals contained in the waterproofing agent, foam concrete, and mortar that are encountered during construction. It causes a damage, such as erosion caused by this, and eventually had a problem of weakening the strength of the floor.

An object of the present invention is to prevent shrinkage phenomena due to external pressure by increasing the strength while maintaining the physical properties of the polystyrene foam when used as building insulation and floor insulation.

Another object of the present invention is to prevent chemical erosion by mortar, foam concrete, and waterproofing agent when used as a building inner wall and floor insulation.

Still another object of the present invention is to prevent water from penetrating toward the floor slab through the board and the board, even if a leak occurs in the heating pipe when used as a building floor insulation, and prevents moisture from rising from the floor slab side.

1 is a perspective view of a sheet heat-sealing board of which both surfaces of the first embodiment of the present invention form a plane.

Figure 2 is a perspective view of the sheet heat-sealing board, both sides of the second embodiment of the present invention form a plane and irregularities, respectively.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a cross-sectional view taken along the line B-B in FIG.

5 is an enlarged partial plan view of the projection according to the second embodiment;

Explanation of symbols on the main parts of the drawings

11, 21: sheet heat-sealed board

101, 201: Polystyrene Foam Board

102a, 102b, 202a, 202b: Polystyrene Sheet

203: X groove

204: protrusion for fixing the piping material

205a, 205b: U-shaped channel

206a, 206b: Inverted U-channel

31: piping material

In order to achieve the above object, the present invention is to heat-bond a polystyrene sheet on both sides of a polystyrene foam board having at least one surface.

In the method of thermally fusion bonding the polystyrene sheet on both sides of the polystyrene foam board, the two polystyrene sheets heated and stretched by the heater apparatus are supplied to both sides of the pair of rollers. The polystyrene sheet supplied to both sides of a roller is wound by the winding roll, respectively. In this way, the polystyrene foam board to be subjected to heat fusion is supplied by the conveyor between the two polystyrene sheets supplied between the pair of rollers. The surface of each roller includes a plane and an unevenness. The distance between the rollers is made slightly smaller than the sum of the thickness of the polystyrene sheet drawn by heating and the thickness of the polystyrene foam board. This is for a pair of rollers to pressurize the outer surface of the stretched polystyrene sheet by heating so that the polystyrene sheet is pressed against the outer surface of the polystyrene foam board.

No heat is applied to the polystyrene board, only about 150 ° to the polystyrene sheet. Beyond this temperature, the thermal fusion of the polystyrene sheet is disturbed, and the polystyrene board is deformed. Moreover, when it becomes less than this temperature, a polystyrene sheet will not fuse uniformly to the surface of a polystyrene board. This is particularly severe in the case of a board having irregularities described later. Moreover, although the titer thickness of such a polystyrene sheet differs slightly according to a use, about 0.3-0.6 mm is suitable. Only by maintaining this thickness, heat fusion is preferably achieved within the above temperature range.

The polystyrene foam board includes both sides forming a plane, and one side forming a plane and the other side forming an uneven surface.

Sheet heat-sealing boards, which are planar on both sides, are used to insulate the interior walls of buildings. In addition, sheet heat-sealing boards having one surface forming a plane and the other surface forming irregularities are used for floor insulation of a building.

The unevenness serves to fix the piping material when constructing the hot water pipe, to provide the heat transfer material for transferring the heat of the piping material to the four sides of the sheet heat-sealing board, and the mortar that is poured on the upper surface of the sheet heat-fusion board is cured. It serves to be able to adhere closely afterwards. The unevenness is a space in which the heat transfer material can be installed in a lattice shape, a space in which the pipe material can be installed in an S shape or a U shape on the heat transfer material, and a space in which the heat transfer material and the pipe material do not pass in the form of a groove. Should be able to form Therefore, it is preferable that the unevenness | corrugation makes a circular protrusion protrude continuously in all directions, maintaining a constant space | interval and height.

The polystyrene sheet may be thermally fused by the thermal fusion method as described above on both sides of the polystyrene foam board molded in a separate mold to have irregularities. The irregularities make up the upper surface. Then, the polystyrene sheet is melted and stretched by the heated roller and uniformly fused to the uneven outer surface of the polystyrene foam board including the groove and the protrusion.

Embodiments of the present invention will now be described with reference to the accompanying drawings.

FIG. 1 shows a sheet heat-sealing board 11 having a planar surface on both sides as a first embodiment. Two sheets of polystyrene sheets 102a are drawn on both sides of the polystyrene foam board 101 and are heated and melted at 150 °. , 102b) is obtained by cutting a molded article heat-sealed by a polar to a certain rectangular size, and is used as an interior wall of a building interior.

2 to 5 show a sheet heat-sealing board 21 having one surface flat and the other surface uneven as a second embodiment, and basically heat-sealing the polystyrene sheets 202a and 202b, respectively. Here, the surface of the concave-convex projections 204 for the pipe member fixing projections having the X-shaped grooves 203 are continuously projected at a predetermined height in all directions, and the X-shaped grooves 203 and the respective pipe member fixing projections 204 The space between) is made of a gap that can be fitted in the piping material 31 passing in the horizontal and vertical and diagonal directions.

That is, the pipe material fixing protrusion 204 is for the shape of a cylinder formed with the X-shaped groove 203, as shown in Figure 5 pipe material fixing projections 204 and pipe material fixing projections 204. interval of to and t ₁ and the distance t ₂ of the X-shaped groove 203 of the respective piping fixing protrusions 204 are the same, the to and t ₁ and t ₂ between the both piping 31 is matched to the outer diameter do.

Accordingly, the piping material 31 is straight or smooth U-shaped or S along the X-shaped groove 203 of the piping material fixing protrusion 204 as well as between the pipe material fixing protrusion 204 and the pipe material fixing protrusion 204. It is fitted in a shape. At the time of piping construction, mortar is poured on the sheet heat-sealing board 21 on which the piping material 31 is installed. At this time, the above-mentioned piping fixing protrusion 204 increases the adhesive force with the mortar. In addition, the fused polystyrene sheets 202a and 202b and the pipe member fixing protrusion 204 reinforce the strength of the polystyrene foam board 201 so as not to settle due to external pressure, and because the density is high, the polystyrene foam board 201 To block direct penetration of chemicals and moisture into

Further, in order to be able to continuously assemble in four directions, the sheet heat-sealing board 21 constituting the second embodiment of the four sides of the sides corresponding to each other of the channel forming the U-shape integrally with the body (205a) , 206b) is formed in the longitudinal direction, and the opposite side is formed with the inverted U-shaped channels 206a and 206b in the longitudinal direction at the edge of the body. Therefore, the two sides forming one corner of the four sides to form a U-shaped channel (205a, 206b), and the two sides that meet the corner opposite to the corner diagonally opposite the U-shaped Consisting channels 206a and 206b are formed.

Accordingly, in assembly, the inverted U-shaped channels 206a and 206b may be covered and joined on the U-shaped channels 205a and 205B of the two sheet heat-sealing boards 21 to be assembled with each other. Since the coupling portion of the combined sheet heat-sealed board 21 is U-shaped coupled to prevent water from seeping into the floor slab where the sheet heat-sealed board 21 is disposed even if the leakage of the piping material 31 after construction .

The present invention, when used as a building inner wall and floor insulation material, while maintaining the physical properties of the polystyrene foam as it is high strength to prevent shrinkage settlement due to external pressure, when used as a building wall and floor insulation material mortar, foam concrete , And prevents chemical erosion by the waterproofing agent, and prevents water from seeping into the floor slab through the board and between the boards, even if water leaks from the heating pipe when used as a building floor insulation. It has the effect of preventing it.

Claims (5)

A thermal insulation thermal insulation boat for building, characterized in that the polystyrene sheet is heat-sealed on both sides of at least one surface of the polystyrene foam board. According to claim 1, wherein the polystyrene foam board, both sides of the building insulation thermal insulation boat, characterized in that the plane. According to claim 1, One side of the polystyrene board is a building insulation thermal insulation boat, characterized in that the plane is formed on the opposite surface. The convex-concave surface of claim 3, wherein the convex-concave surface is provided with a pipe-shaped fixing projection having an X-shaped groove and protrudes continuously in all directions, and the space between the X-shaped groove and each of the piping-material fixing projections has a horizontal cross section. Thermal insulation thermal insulation boat, characterized in that consisting of intervals that can be inserted in the longitudinal and diagonal passage. The polystyrene board of claim 3, wherein one side of the sides corresponding to each other among four sides of the polystyrene board forms a U-shaped channel integrally with the body in a longitudinal direction, and the opposite side forms a channel having an inverted U-shape at the edge of the body. Insulation boat for construction, characterized in that formed in the longitudinal direction.