KR100666810B1 - Thermal insulation wall - Google Patents

Abstract

A thermal insulation wall for construction is provided to minimize the time and labor required for construction by minimizing the use of a bracket for connecting unit panels, to improve thermal insulating efficiency by forming an air layer in an unit panel and to supply in large quantities at low price without lowering of function by mixing low-priced materials and high-priced materials in the appropriate ratio. A thermal insulation wall for construction comprises: many unit panels(10) having a wall composed of an external wall(22) having spaces(22a) to form an air layer inward, many vertical partition walls(24) connecting an upper wall and a lower wall of the spaces and many horizontal partition walls(26) connecting the vertical partition wall with the inside of the external wall, a C-shaped top hanger formed on the top of the wall to couple a bottom hanger of another thermal insulation wall strongly not to be separated and an inverse C-shaped bottom hanger(40) formed on the bottom of the wall to couple a top hanger of another thermal insulation wall strongly not to be separated; and a T-shaped bracket(50) coupling neighboring unit panels using a vertical piece(51) and a horizontal piece(52). Hereon the unit panel is made with 70~80 weight percent low-priced PVC and 30~20 weight percent high-priced noncombustible materials to lower down the price in contrast to the existing urethane and not to emit poisonous gas in a fire.

Description

Thermal insulation wall

1 is a view illustrating a combined state of a conventional building insulation wall

2 is an exploded perspective view of a building insulation wall according to the present invention

Figure 3 is a longitudinal cross-sectional view of the bonded state of the building insulation wall according to the invention

Figure 4 is a cross-sectional view of the bonded state of the building insulation wall according to the present invention

<Explanation of symbols for the main parts of the drawings>

10 unit panel 20 wall part

22: outer wall 22a: space part

24: vertical bulkhead 26: horizontal bulkhead

30: upper hook part 40: lower hook part

50: bracket 52: horizontal piece

54: vertical piece

The present invention relates to a heat insulating wall for building, in particular, to form a ring-shaped connection at the upper and lower ends of each unit panel so that it can be connected firmly and easily when connecting between the unit panels, by forming an air layer inside the unit panel insulation The present invention relates to a building insulation wall which is characterized in that it is possible to supply a product at a lower price than a conventional non-combustible panel by mixing the material of the unit panel with a relatively low-cost PVC and an expensive non-combustible material.

The heat insulating wall mainly used these days is urethane material. The strength of urethane material is that it is 42 ~ 49 times more effective than cement brick or concrete, and it has excellent nonflammable effect that is equivalent to 3rd class flame retardant, so it can prevent the spread of fire in case of fire. Compatibility is recognized as a material.

However, the urethane insulation wall is expensive compared to the functionality, and does not burn well, but once burned has a problem that toxic gas is released.

In addition, the above-described urethane insulation wall including the urethane insulation wall is fixed to the H-shaped bracket (2) on the two sides to four sides of the unit panel (1) as shown in Figure 1 when connecting the unit panel constituting it In order to connect the different unit panels (1´) in a separate state, there is a problem that requires a lot of time and labor to connect each unit panel.

Accordingly, the present invention has been made to solve the conventional problems as described above, the main object of the present invention is to connect the unit panel while minimizing the use of the bracket to enable the connection, it is possible to minimize the construction time and labor To provide a building insulation wall.

Another object of the present invention is to provide a building insulation wall that can be supplied at a low price without functional degradation compared to existing products by properly mixing a low-cost material and an expensive material.

The present invention for achieving the above object, having a space to form an air layer in the interior of the outer wall, a vertical partition formed vertically in the space portion, and a plurality of mutually arranged alternately while connecting the vertical partition and the outer wall A unit wall including a wall portion having a horizontal partition wall, a C-shaped upper hook portion integrally formed at an upper end of the wall portion, and an inverted C-shaped lower hook portion integrally formed at a lower end of the wall portion; And a T-shaped bracket connecting the unit wall and another unit wall positioned next to the unit wall.

Here, the unit wall is mixed with PVC 70 ~ 80 (% by weight) and non-combustible material 30 ~ 20 (% by weight), the non-flammable material is powdered concrete, stone, brick, tile, asbestos plate, steel, aluminum, glass, cement mortar It is preferable to become one of the meetings.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described based on attached drawing.

Attached Figure 2 is an exploded perspective view of the building insulation wall according to the invention, Figure 3 is a longitudinal cross-sectional view of the bonded state of the building insulation wall according to the invention, Figure 4 shows a cross-sectional view of the combined state of the building insulation wall according to the invention. have.

As shown in the accompanying drawings, the building insulation wall of the present invention is composed of a plurality of unit panels 10 and a bracket 50 for coupling both sides of each unit panel.

The unit panel 10 has a vertical outer wall 22 having a space portion 22a therein so as to form an air layer, and a single or multiple vertical lines connecting the upper wall and the lower wall of the space portion 22a. It has a vertical bulkhead 24 and a wall portion 20 composed of a plurality of horizontal bulkheads 26 connecting the vertical bulkhead and the inner surface of the outer wall 22.

The horizontal bulkheads 26 are staggered from each other to reinforce the rigidity of the outer wall 22 and to prevent the outer wall from being concave and deformed toward the space portion 22a. Thus, the vertical bulkhead 24 and the plurality of horizontal bulkheads 26 are formed inside the wall portion 20, so that the strength can be sufficiently maintained even if the wall portion 20 has the space portion 22a.

In addition, a space portion through which air flows is formed between each of the partition walls 24 and 26 to form an air layer inside the wall portion 20. The air layer serves to improve the insulation function by blocking the temperature of the outdoor side from conducting to the indoor side.

On the upper end of the wall portion 20, a C-shaped upper hook portion 30 is integrally molded. In order to accurately describe the upper hook portion 30, it is like a vortex shape, so that the lower hook portion of the other insulation wall disposed above is firmly coupled when combined to prevent detachment.

In addition, an inverted C-shaped lower end hook portion 40 is integrally formed at the lower end of the wall portion 20. Like the upper hook portion 30, the lower hook portion 40 also has a vortex shape, so that when the upper hook portion of the other insulation wall disposed below is coupled firmly, it can be prevented from being detached arbitrarily. .

In this way, when the upper hook portion 30 and the lower hook portion 40 form a vortex shape, when each hook portion of the other insulation wall is coupled to each hook portion of one insulation wall, it is coupled by sliding in the longitudinal direction of the insulation wall. Should be. In this way, when the insulation wall is joined in the vertical direction, the bracket is not required separately, so the effect of component reduction can be seen compared to the existing one, and the fitting structure is simpler and simpler than the method of fixing with a piece.

As shown in FIG. 4, the A unit wall (not separately given) and the B unit wall adjacent to the A unit wall (not given separately) are formed using a T-shaped bracket 50. To combine. That is, a gap is generated between the A unit wall and the B unit wall, and the gap is inserted into the vertical piece 51 in the drawing of the T bracket, and the horizontal piece 52 in the drawing is formed in each unit wall and the piece p. It is fixed as.

On the other hand, each of the unit walls is bonded as a piece and the concrete wall surface facing it.

In addition, the material of each unit wall should be made of a material that does not burn toxic gas even if burned at any temperature, and at the same time low price. In order to satisfy these conditions, the unit wall is mixed with a relatively inexpensive material PVC and an expensive material nonflammable material to reduce the price compared to the existing urethane, and also because the nonflammable material is mixed, even if burned without burning toxic gas. It was not released.

Here, the mixing ratio of the PVC and the non-flammable material is preferably 70 to 80 (% by weight): 30 to 20 (% by weight). It can be seen that the mixing ratio was calculated based on the nonflammable material rather than PVC. Nonflammable materials should be mixed as little as possible because the price is relatively high, but an appropriate amount must be mixed in order to function properly. Such mixing ratio is about 30 to 20 (% by weight). In other words, this content ratio is the minimum content ratio that the unit wall can perform nonflammable function while reducing the price as much as possible. When the content ratio of the nonflammable material is determined, the remaining content may be filled with PVC.

In this case, the non-combustible material, any one of powdery concrete, stone, brick, tile, asbestos, steel, aluminum, glass, cement mortar, ash, etc. can be used, even if it is not listed in the physical properties that can be replaced Of course, it can be applied if the material having.

As described above, the present invention can minimize the use of the bracket in connecting the unit panel while allowing the connection can be minimized construction time and labor.

In addition, by mixing the low-cost materials and expensive materials properly, there is an advantage that can be supplied in large quantities at a low price without functional degradation compared to existing products.

Claims (2)

A wall portion having a space portion so as to form an air layer inside the outer wall, the vertical partition wall formed vertically in the space portion, and a plurality of horizontal partition walls arranged to cross each other while connecting the vertical partition wall and the outer wall; A unit wall consisting of a C-shaped upper hook portion integrally formed at the upper end of the portion and an inverted C-shaped lower hook portion integrally formed at the lower end of the wall portion; And a T-shaped bracket connecting the unit wall and another unit wall positioned next to the unit wall. The method of claim 1, The unit wall is mixed with PVC 70 ~ 80 (% by weight) and non-combustible material 30 ~ 20 (% by weight), the non-flammable material is powdered concrete, stone, brick, tile, asbestos plate, steel, aluminum, glass, cement mortar, ash Insulation wall for building, characterized in that any one.

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