KR20190058108A - Complex insulator and insulating method using the same - Google Patents

Abstract

The present invention relates to insulation and complex insulation for a thermal insulating method using hard insulation and an insulating method using the same, which use the hard insulation such as foamed polystyrene having excellent thermal insulation to be possible to be wound in a roll shape so that transportation, treatment and insulation construction are simple. According to the present invention, the insulation for a thermal insulating method includes: a sheet layer capable of being wound in the roll shape; and a hard foamed polystyrene block layer fixed to one surface of the sheet layer, wherein the hard foamed polystyrene block layer has a shape where hard foamed polystyrene blocks, in a shape narrower on a upper side than a lower side connected to the sheet layer and longer in a width direction of the sheet layer, are repeatedly arranged and connected in a longitudinal direction of the sheet layer.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat insulating material, a composite insulating material,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat insulating material installed on an outer wall or an inner wall of a building, and more particularly, to a heat insulating material using a heat insulating material such as foamed polystyrene having excellent heat insulation, And a heat insulating method using the heat insulating material and the composite heat insulating material.

BACKGROUND OF THE INVENTION [0002] Heat insulation materials such as foamed polystyrene or urethane foam such as foamed polystyrene insulation known as styropol or styrofoam or foamed polystyrene on one side of a gypsum board have been widely used as conventional insulation materials.

These heat insulating materials are advantageous in that they are light in weight and easy to handle, and have excellent heat insulation performance. However, since the volume of the heat insulating material is large during transportation, there is a limit to load products. .

In addition, when the insulation is applied to the outer wall of a building which is several tens of meters long, it is generally formed to have a length of about 1.8 meters for the convenience of molding, transportation, storage, etc., and the board-shaped rigid foamed polystyrene or urethane foam, There is a problem in that it is necessary to attach a plurality of sheets to the wall surface, and a separate finishing work must be performed using adhesive components or silicone to the end portions in order to insulate.

Due to such a problem, a sheet-like heat insulating material having excellent workability as shown in Fig. 7 has recently been preferred. This sheet-shaped heat insulating material is formed by molding a soft heat insulating material such as polyethylene foam into a long sheet form, and it is supplemented with a low heat insulating property by adhering a thin heat reflecting film or the like formed with a metal heat reflecting layer such as aluminum on one surface or both surfaces thereof. Since this type of heat insulating material has excellent flexibility, it is advantageous in that it can be wound in a roll form to be stored, transported, and constructed.

Particularly, the heat insulating sheet wound in the form of a roll is remarkably excellent in workability because it is possible to construct a length of several tens of meters at a time by spreading a roll after fixing the uppermost end of the outer wall at the time of heat insulation. Therefore, .

However, since the soft insulating material including polyethylene foam is not only less heat-insulating than rigid heat insulating materials such as expanded polystyrene and urethane foam in which fine pores are uniformly distributed with a large pore size, but also has a high combustibility and is difficult to fire, There is a problem.

The heat insulating material such as hard urethane foam or phenol foam has a relatively excellent flame retardancy. The foamed polystyrene is formed by forming a flame retardant coating layer on the surface of the pre-expanded particles, So that the flame retardancy can be improved. Therefore, it is also necessary to use a hard foamed insulating material to prevent fire propagation.

In this way, the hard insulation material is superior to the sheet-type insulation material using polyethylene foam in terms of reducing the fire damage and improving the thermal insulation. However, in the construction site where the labor shortage is high and the labor cost is high, the problem that the sheet type insulation material using the polyethylene foam is preferred have.

KR 10-0633249 B1 KR 10-0716553 B1 KR 10-0741951 B1

The present invention has been made to solve the limitations and problems of the heat insulating materials used in the heat insulating method such as the outer wall of the building as described above. It is based on a hard insulating material having excellent performance in terms of heat insulating property and flame resistance, Which can be easily handled and improved in workability, and to provide an adiabatic method having excellent workability using the same.

According to an aspect of the present invention, there is provided a heat insulating material for an insulating method,

A sheet layer capable of winding in a roll form;

And a hard foamed heat insulating material block layer fixed on one surface of the sheet layer,

Characterized in that the rigid foamed heat insulating material block layer is a form in which a plurality of rigid foamed heat insulating material blocks which are narrower on the lower side than the lower side joined to the sheet layer and longer in the width direction of the sheet layer are arranged in the longitudinal direction of the sheet layer do.

In the composite insulation according to the present invention,

The first material of the heat insulating material for the heat insulating method according to the present invention;

And a second material of the heat insulating material according to the present invention having the hard foamed heat insulating material block layer having a shape corresponding to the hardened foamed heat insulating material block layer of the first material,

The first material of the heat insulating material for the heat insulating method and the blocks of the hard foamed heat insulating material block layer of the second material are interlockingly engaged with each other.

In the adiabatic method according to the present invention,

A primary adhering step of adhering the heat insulating material first material of the composite heat insulating material according to the present invention to the wall surface to be adiabatically adhered while the sheet layer is adhered;

The second material of the composite heat insulating material according to the present invention having the hard foamed heat insulating material block layer having the shape corresponding to the hardened foamed heat insulating material block layer of the first material is used as the hard foamed heat insulating material block layer And a second adhering step in which the blocks of the two rigid foamed heat insulating material block layers sandwich and adhere to each other.

Since the composite thermal insulation material for an insulation method according to the present invention can be wound around the sheet layer by repeatedly arranging the hard and foamed heat insulating material blocks long in the width direction of the sheet layer on the sheet layer capable of being wound in a roll form, Which is supplied in the shape of a long board, can be manufactured into a long sheet type that can be transported and constructed by winding it in a roll form which is convenient for handling and construction work.

Since the hard foamed insulating material used in the present invention is superior in heat insulating property and flame retardancy to soft foamed heat insulating material such as polyethylene foam, it is expected that the polyethylene insulating material sheet used for the conventional workability can be substituted.

1 is a view showing a heat insulating material for an insulation method according to an embodiment of the present invention;
2 to 5 are sectional views of various embodiments of a composite insulation for an insulation method according to the present invention;
FIG. 6 is a schematic view showing a construction process of an external insulation method using a composite insulation for an insulation method according to the present invention; FIG.
7 is a photograph showing an example of a commercially available heat-reflective PE foam that can be wound in a roll form.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

Fig. 1 shows a heat insulating material for an insulation method according to an embodiment of the present invention. Fig. 1 (a) shows a state when it is unfolded, Fig. 1 (b) shows a state when it is wound in a roll form, Sectional view of various embodiments of the composite insulation for an insulation method according to the present invention.

Referring to FIG. 1, the heat insulating material 1 for an insulation method according to the present invention comprises a sheet layer 10 and a hard foamed heat insulating material block layer 20 formed on one surface of the sheet layer.

The sheet layer 10 is a planar material having durability that is less susceptible to damage such as tearing or breakage, at least capable of winding into a roll form, and has a predetermined width and is elongated in the longitudinal direction.

As the material of the sheet layer 10, a heat reflecting film, a nonwoven fabric, a woven fabric, a glass fiber sheet, a fibrous web, or the like, which is a resin film coated with an aluminum foil or the like used in conventional heat- , And is not particularly limited.

However, a heat reflecting film can be used to improve the heat insulating property. In order to facilitate attachment of the cement mortar or the like, a fiber product such as a nonwoven fabric is preferably used, and various materials suitable for other purposes can be used.

Although the sheet layer 10 is shown as a single layer in the drawing, the sheet layer does not necessarily have to be a single layer, and may be formed by forming a plurality of sheet layers in order to perform a complex function or by laminating It is also possible to form a sheet layer using a sheet having a multilayer structure.

The hard foamed heat insulating material block layer 20 fixed to one surface of the sheet layer 10 includes a plurality of hard foamed heat insulating material blocks 21 repeatedly arranged in the longitudinal direction L of the sheet layer 10 .

The rigid foamed heat insulating material block 21 is formed by molding or cutting rigid foamed heat insulators such as rigid urethane foam and hard phenol foam as well as hard foamed polystyrene in a block shape, The upper portion 22b is narrower than the lower portion 21a and has a longer shape in the width direction W of the sheet layer.

Such a shape may be a triangle having an equilateral triangle or an equilateral triangle as shown in FIGS. 2 and 3, a one having a trapezoidal cross-sectional shape as shown in FIG. 4, but the present invention is not limited thereto. It may be a form that can be fitted and fixed. For example, as shown in Fig. 5, it is also possible to fit different types of blocks having a corresponding shape to each other.

However, in the case of a rectangular cross section having the same bottom side and the top side, bumps, friction, and the like are generated when fitting them into engagement with each other, which is not easy and damage to the block may occur.

The rigid foamed heat insulating material blocks 21 may be fixed to the sheet layer 10 by using an adhesive 30 or the like as shown in FIG. The adhesive 30 may be applied or impregnated to the sheet layer 10 or may be applied to the lower surface 21a of the blocks 21 and may be applied between the sheet layer 10 and the block 21, Of the adhesive component. Further, even if an adhesive is not used, the lower surface of the block 21 may be melted and fused.

As described above, the fixing method between the sheet layer 10 and the hard foam insulator block 21 is not particularly limited, and there is no problem that the sheet layer 10 is rolled up in a roll form, and the hard foam insulator block 21 It may be fixed by a method which does not deteriorate the heat insulation and does not hinder other characteristics as a whole.

As shown in Fig. 1 (a), the heat insulating material 1 for an insulation method according to the present invention is rolled up into a roll shape as shown in Fig. 1 (b) It is possible to treat it as a form. Particularly, in the case of winding in the form of a roll, the restriction on the length becomes very small, and compared with a rigid foaming insulating board which is usually cut to a length of about 1.8 m for the convenience of handling, It is advantageous in that it can be manufactured in a much longer length and can be transported and constructed.

2, 2 '', 2 '' ') for thermal insulation method using the hard insulating material according to the present invention is formed by the first insulating material (1A, 1'A, 20 ", 20" A, 20 "'A of the first member and the rigid foamed heat insulating material block layer 20B, 20' 'having a shape corresponding to the rigid foamed heat insulating material block layer 20A, B, 1 " B, 1 " B, and 1 " " B) for the thermal insulation method according to the present invention.

The first material and the second material of the heat insulating material are the same as those of the block of the hard foamed heat insulating material block layer 20A, 20'A, 20'A, 20''A and 20B, 20'B, 20'B and 20''B (21A, 21'A, 21 "A, 21" 'A and 21B, 21'B, 21 "B, 21' 'B) are interdigitated to each other to form a composite thermal insulation material.

Such a composite thermal insulation material for an insulation method has a sheet layer on both outer sides and a hard foamed thermal insulation material layer inside.

As described above, in the first material and the second material of the heat insulating material for an insulating method constituting the composite thermal insulating material for insulation, the hard foamed thermal insulating material block layers are formed of the same equilateral triangle, , Or a trapezoidal block. However, as shown in FIG. 5, a pair of adiabatic heat insulating layers having a foam insulating block layer having two different cross-sectional shapes in a shape corresponding to each other It can also be made up of a combination of thermal insulation for construction.

FIG. 6 is a schematic diagram showing a construction process of an external insulation method using a composite insulation for an insulation method according to the present invention.

Referring to FIG. 6, when an insulation method is applied to a wall surface of a building using the above-described composite insulation material 2 according to the present invention, one insulation material first material The sheet layer 10 of the first insulation material 1A is fixed on the top of the wall surface W of the building to be constructed and then extended downward along the wall surface to fix the required portion to form a single long heat insulating composite material 1A) is firstly attached to the wall surface.

Then, secondarily, a composite insulation material No. 2 for an insulation method having a hard foamed insulation material block layer 20B having a shape corresponding to the hardened foamed insulation material block layer 20A of the heat insulating material first material adhered to the first wall surface The wind roll of the ash material 1B is placed on the adhered first insulating material 1A of the heat insulating method on the wall surface to be applied and the blocks 21A and 21B of the hard foamed insulating material block layers 20A and 20B are engaged with each other So that two integrated heat insulating materials 1A and 1B for the heat insulating process integrated with each other are fixedly attached to the wall surface to be installed.

In this way, the construction work is much easier and labor is greatly reduced, compared with the conventional construction of a hard insulation material to which a board-shaped insulation material having a length of about 1.8 m is connected and attached.

On the other hand, even if the roll of the heat insulating material second material 1B for the heat insulating method, which is secondarily attached at the middle portion of the heat insulating material first material 1A for the heat insulating method, So that there is no problem in construction, and since the heat insulating material 1A adhering to the first part still continues, a gap is not generated in the connecting part of the heat insulating material, and in order to prevent deterioration of the heat insulating property The convenience of construction is much higher than that of a conventional board on which a finishing treatment is required between the heat insulating materials.

  Although not shown, a cement mortar may be applied to the outside of the thus-installed composite heat insulating material 2, or various external plates may be attached to the exterior.

1: Insulation for insulation method
1A: Insulation material 1
1B: Insulation material 2nd material
2: Composite insulation
10: sheet layer
20: Hard foam insulation layer
21: Block

Claims (7)

A sheet layer capable of winding in a roll form;
And a hard foamed heat insulating material block layer fixed on one surface of the sheet layer,
Characterized in that the rigid foamed heat insulating material block layer has a shape in which blocks of the rigid foamed thermal insulating material having a shape narrower on the lower side than the lower side joined to the sheet layer and longer in the width direction of the sheet layer are repeatedly arranged in the longitudinal direction of the sheet layer Insulation for Insulation Method Using Hard Insulation. The heat insulating material according to claim 1, wherein the sheet layer is formed of a sheet selected from a heat reflecting film, a nonwoven fabric, a woven fabric, a glass fiber sheet, and a fibrous web. The heat insulating material according to claim 1, wherein the blocks of the rigid foamed heat insulating material forming the rigid foamed heat insulating material block layer have a triangular or trapezoidal cross section. The heat insulating material according to claim 1, wherein the rigid foamed insulation material forming the rigid foamed heat insulating material block layer is selected from the group consisting of rigid expanded polystyrene, rigid urethane foam, and rigid phenol foam. 5. The thermal insulation material of claim 4, wherein the rigid expanded polystyrene is a flame retarded expanded polystyrene having flame retardant partition walls formed between the expanded polystyrene particles constituting the rigid expanded polystyrene. A heat insulating material for an insulation method according to any one of claims 1 to 5;
And a heat insulating material second material for an insulation method according to any one of claims 1 to 5, having a rigid foamed heat insulating material block layer having a shape corresponding to the rigid foamed heat insulating material block layer of the first material,
And the blocks of the first layer of the heat insulating material for the heat insulating method and the blocks of the hard foamed insulating block layer of the second material are engaged with each other and engaged with each other to form a composite heat insulating material. A first adhering step of adhering the heat insulating material first material of the composite heat insulating material according to claim 6 to the wall surface to be adiabatically adhered while the sheet layer is adhered;
The heat insulating material second material in the composite heat insulating material according to claim 6 having a hard foamed heat insulating material block layer having a shape corresponding to the hardened foamed heat insulating material block layer of the first material is laminated to the hardened foamed heat insulating material block layer And a second adhering step in which the blocks of the hard foamed thermal insulating material block layer of the second material are interdigitated and attached to each other.

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