KR20160121902A - Mold form using adiabatic material panel - Google Patents

Abstract

The present invention relates to a tie horizontal assembly (hereinafter referred to as " tie ") assembly for horizontally assembling a Eurofoam panel P using a tie T in a state of facing a Eurofoam panel P having a plurality of standard tie- To a heat insulating foam panel. Such a heat insulating foam panel includes panel bodies 11 and 111 facing the Eurofoam panel P and a plurality of standard tie grooves H formed along the edges of the panel bodies 11 and 111 And a first tie groove (12) (112).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat insulating foam panel, and more particularly, to a heat insulating foam panel that is assembled horizontally and horizontally and can be assembled by using a pair of euro foam panels and a tie.

Generally, it is a process of constructing a building wall. Gang form. Concrete panels and plywood panels are used to install and assemble the formwork, then concrete is poured, then after the curing is completed, the formwork is dismantled and the insulation is applied to one side of the wall.

However, in order to attach the insulating material to the cured concrete wall, it is difficult and additional cost to attach the insulating material with the adhesive mortar first and to fix the anchor to prevent the insulating material from falling off in the wind. In addition, if the wind pressure is applied, the concrete surface and the surface of the heat insulating material may be peeled off and the heat insulating material portion may fall off.

In the process of assembling the form, a heat insulation material is installed inside the Eurofoam panel. In such a construction method, a lot of gaps are formed between the heat insulation materials. Further, in the process of removing a flat tie tap after the form disassembly So that the heat insulating property is deteriorated due to too much heat insulating material breakage.

In order to solve such a problem, a technique using a heat insulating material as a form has been filed in the patent application No. 10-2011-00143323 entitled " Method of constructing a heat insulating wall of a building and a heat insulating wall constructed by this construction ". This prior art is a method of fixing a plurality of flat ties to reinforcing bars and then fixing the heat insulating material to flat tie from both sides of the reinforcing bars. However, it is difficult to withstand the lateral pressure of the concrete installation process.

In addition to the above-mentioned prior arts, there are prior arts such as the block type heat insulating formwork of the patent 10-1137218, and in the case of all the prior art using the heat insulating material as the material of the mold till now, the strength of the heat insulating material itself is weak, Therefore, it is frequently occurred that the heat insulating material itself is blown out during the concrete pouring process.

In addition, since the mold is weak, the safety is low and it is exposed to the risk of safety accidents. Since the vibration (vibration) operation can not be performed properly after the concrete is poured, a lot of pomace layer occurs on the surface of the concrete layer after curing, It is not uniform, and after the curing, the structural strength of the concrete layer is weakened and the waterproofing is not performed properly.

In addition, the thermal bridge between the flat tie and the flattened tie is generated as it is, or the fragile part of the insulation is thinned, resulting in a fragile part of the insulation. In addition, an excessive amount of flat tie is used to fix the insulation panel And thus the efficiency of construction is lowered.

Due to these problems, the experienced people who used the insulation material in the construction site are not using it again.

The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a horizontal flat panel It is an object of the present invention to provide an assembled heat insulating foam panel.

In order to achieve the above object, a tie horizontal self-assembled heat insulating foam panel according to the present invention includes a tie plate (P) having a plurality of standard tie grooves (H) A panel body 11 and a panel body 11 facing the Eurofoam panel P and an edge of the panel body 11 And a plurality of first tie grooves (12) (112) formed corresponding to the plurality of standard tie grooves (H).

The present invention further includes a corner foam panel (15) having a cross section of "a" shape for connecting the panel body (11) and another panel body (11 ') at right angles, and the corner foam panel The corner tie grooves 16 corresponding to the first tie grooves 12 are formed on the side surfaces of the blades 15a and 15b of the first tie grooves 12. [

In the present invention, the size of the panel body 111 is an integral multiple of the Eurofoam panel P; The panel body 111 is formed along the edge and has a plurality of first tie grooves H corresponding to the plurality of standard tie grooves H formed at the edges of a plurality of mutually connected Euroform panels P 112 corresponding to the assembled standard tie grooves H 'between the euro foam panel P and the other Euro foam panel P', which are formed in the lateral direction or the longitudinal direction inside the panel body 111, And a tie groove (113).

In the present invention, When the tie T has a circular cross section, the first tie groove 112 'has a semicircular section and the second tie groove 113' has a circular section.

The present invention further includes a corner foam panel 115 for connecting the panel body 111 and the other panel body 111 'at right angles and having a " The corner tie grooves 116 corresponding to the first tie grooves 112 are formed in the blades 115a and 115b of the first tie grooves 115. [

In the present invention, between the panel bodies 11 and 111 and the other panel bodies 11 'and 111', a urethane foam adhering step U, which is realized by injecting one-component urethane foam and hardening, .

In the present invention, the surface of the panel body (11) (1111) is provided with a plurality of concavo-convex voids (11a) or straight grooves for enhancing the adhesive force with the concrete layer.

According to the present invention, the first tie grooves and / or the second tie grooves corresponding to the standard tie grooves and / or the standard standard tie grooves of the Eurofoam panel are formed in advance and / or on the inner side of the heat insulating foam panel, The first and second tie grooves and / or the standard tie grooves and / or the second tie grooves are horizontally inserted into the standard tie grooves and / or the standard tie grooves and / or the second tie grooves.

In addition, in the process of constructing the building wall, the heat-insulating foam panel is integrated with the concrete layer, thereby omitting the process of installing the heat insulating material such as adhering the heat insulating material to the concrete layer, The phenomenon can be avoided and the adiabatic effect can be maximized.

It is also possible to eliminate the cause of gaps by improving the work efficiency for installing the formwork and minimizing the joints when the insulation panel is used several times larger than the regular eurofoam panel.

In addition, it is possible to realize a large irregular pore on the surface of the heat insulating foam panel and a horizontal straight groove on the concrete adhesion surface, so that the heat insulating foam panel is not separated from the concrete layer in any case. have.

1 is a view for explaining standardized standard tie grooves in a Euroform panel,
FIG. 2 is a view illustrating a first embodiment of a tie horizontal self-assembled thermal insulation foam panel according to the present invention and a Eurofoam panel facing each other;
FIG. 3 is a view for explaining a cross-section of a first trench in a heat insulating foam panel of FIG. 2, in which a flat tie is fitted to form a square flat groove,
FIG. 4 is a view for explaining the connection between the heat insulating foam panel and the corner foam panel of FIG. 2;
Fig. 5 is a view for explaining that a surface of a heat insulating foam panel of Fig. 2 is formed with a concavo-convex void larger than a normal heat insulating material surface,
6 is a view illustrating a second embodiment of a tie horizontal self-assembled thermal insulation foam panel according to the present invention and a mutually connected Eurofoam panel disposed opposite to each other,
7 is a view for explaining the depths of the first tie grooves formed on the panel body and the second tie grooves formed on the inner side of the panel body of Fig. 6,
Fig. 8 is a view for explaining a cross section of a first trench in a heat insulating foam panel shown in Fig. 6, in which a flat tie is flat to fit the flat tie, and a second tie groove has a rectangular shape;
FIG. 9 is a view for explaining the connection between the heat insulating foam panel insulating foam panel and the corner foam panel of FIG. 6;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a tie horizontal self-assembled thermal insulation foam panel according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view for explaining standardized standard tie grooves H in a Euroform panel.

The tie horizontal self-assembled heat insulating foam panel of the present invention is characterized in that a tie is formed between a euro-form panel P and a horizontally straight mold P in a state of being opposed to a Euro-form panel P having a plurality of standard tie- For assembly.

The Eurofoam panel (P) is easy to install and dismantle in any type of reinforced concrete structure and can be reused repeatedly. The euro foam panel has a standard tie groove H arranged at regular intervals along a frame formed on the edge of a flat panel and a plurality of reinforcing frames provided inside the rear of the panel. The size of the Euroform panel and the standard tread groove H are used as a common standard throughout the world.

The heat insulating foam panel of the present invention has the same size or an integral multiple, preferably 2 to 6 times the size of the euro foam panel.

FIG. 2 is a cross-sectional view of a heat insulating foam panel according to a first embodiment of the present invention, and FIG. 3 is a cross-sectional view of a heat insulating foam panel of FIG. FIG. 4 is a view for explaining the connection between the heat insulating foam panel and the corner foam panel of FIG. 2; FIG. And FIG. 5 is a view for explaining that a surface of the heat insulating foam panel of FIG. 2 is formed with a concavo-convex void larger than a normal heat insulating material surface.

As shown in the drawing, the first embodiment of the tie horizontal self-assembled heat insulating foam panel 10 of the present invention has the same size as the Eurofoam panel P. The heat insulating foam panel 10 is formed along the edge of the panel body 11 and faces a Euroform panel P having a plurality of standard tie grooves H standardized on the edges thereof. Includes a plurality of first tie grooves (12) corresponding to a plurality of standard tie grooves (H).

That is, the first embodiment of the heat insulating foam panel 10 comprises a panel body 11 having the same size as the Eurofoam panel P and a plurality of standard tie grooves H formed on the edge of the Eurofoam panel P And a first tie groove 12 of a first tie.

The first tie grooves 12 are semicircular in cross section in order to fit a settler T to be connected to a semiconductor tie which is a kind of tie, that is, one side of a heat insulating foam panel 10.

However, it is needless to say that the first tie groove 12 'may have a flat rectangular cross-section in order to fit a flat tie, which is another kind of tie, as shown in FIG.

On the other hand, the heat insulating foam panel 10 is for connecting the panel body 11 and the other panel body 11 'at right angles to each other as shown in FIG. 4, and has a corner foam panel 15 ). ≪ / RTI > In this case, corner foam trenches 16 corresponding to the first trenches 12 are formed on the side surfaces of the vanes 15a and 15b of the corner foam panel 15.

The heat insulating foam panel 10 and the corner foam panel 15 may be made of a phenol resin based semi-fireproofing material such as a PF board, a flame retardant insulating material such as a hard urethane board, an extruded material such as polystyrene, urethane board, It is the one selected from the group consisting of the legal insulation. The heat-insulating foam panel 10 and the corner foam panel 15 have a high density and a thickness of 50 mm or more, more preferably 100 mm or more.

As shown in FIG. 5, on the surface of the panel body 11 in the heat insulating foam panel, a plurality of uneven porosities 11a or straight grooves are formed in order to increase the adhesive force with the concrete layer. For example, in the case of the EPS thermal insulation foam panel, the cutting speed is increased while adjusting the temperature to a temperature higher than the normal cutting temperature to cut the heat-insulating foam base material into a panel shape, thereby forming a large unevenness porosity 11a do. Or a phenol resin-based flame-retardant heat-insulating foam panel, a linear groove (not shown) is formed horizontally on the adhesive surface to be adhered to the concrete to enhance the adhesive function with the concrete layer.

In the heat insulating foam panel, a urethane foam adhesive end U is formed between the panel body 11 and the other panel body 11 '. The urethane foam adhering end U is realized by injecting one-component urethane foam between the panel body 11 and another panel body 11 'and then hardening. This urethane foam adhering end U can prevent gaps between the panel body 11 and the other panel body 11 'and increase the heat insulation efficiency.

FIG. 6 is a view showing a second embodiment of a tie horizontal self-assembled heat insulating foam panel according to the present invention and a mutually connected Eurofoam panel disposed opposite to each other, FIG. 7 is a cross- And FIG. 8 is a cross-sectional view of the heat insulating foam panel of FIG. 6, in which the cross section of the first trench is in the form of a square flattened to fit the flat tie, FIG. 9 is a view for explaining the connection between the heat insulating foam panel heat insulating foam panel and the corner foam panel of FIG. 6; FIG.

As shown, the second embodiment of the tie horizontal self-assembled thermal insulation foam panel 110 of the present invention has an integral multiple, preferably 2 to 6 times the size of the Eurofoam panel P used in the first embodiment I have. That is, the horizontal or vertical length of the second embodiment of the heat insulating foam panel 110 is two to three times the width or length of the corresponding euro foam panel P.

The heat insulating foam panel 110 faces the assembly where the Euro foam panels P and P 'having a plurality of normal standard trenches H formed on the edges thereof are connected to each other. The Euro foam panels P' And a plurality of standard tie grooves H formed at the edges of a plurality of Euroform panels P and P 'assemblies which are formed along the edges of the panel body 111 and connected to each other, A plurality of corresponding first tie grooves 112 and an assembled standard tie groove formed between the euro foam panel P and the other Euro foam panel P 'formed in the transverse direction or the longitudinal direction inside the panel body 111 H ') corresponding to the second tie grooves 113.

The assembling standard tie grooves H 'are formed such that standard tie grooves H of the respective euro foam panels are aligned with each other when the euro foam panel P and the other euro foam panels P' are connected to each other. 7, the depth D1 of the second tie groove 113 corresponding to the standard tie groove H 'corresponds to the depth of the first tie groove 112 corresponding to the standard tie groove H1 (D2).

That is, the second embodiment of the heat insulating foam panel 110 comprises a panel body 111 having an integral multiple of the Eurofoam panel P and a plurality of standards (not shown) formed at the edges of the plurality of Eurofoam panels P A plurality of first tie grooves 112 corresponding to the tie grooves H and a plurality of third tie grooves H 'corresponding to the assembled standard tie grooves H' between a plurality of mutually connected Euroform panels P And a groove 113. As shown in FIG.

The first tie groove 112 has a semi-circular cross-section in order to fit a serpentine T coupled to a dicron D which is in close contact with one side of a septum tile, that is, a heat insulating foam panel 110 shown in FIG. The second tie grooves 113 have a circular section in cross section so that the serpentine T can pass therethrough. However, the first tie grooves 112 'and the second tie grooves 113' are formed in a square groove or a square having a flat cross-section in order to insert or penetrate a flat tie, which is another type of tie, Of course, be formed into a shape.

9, the heat insulating foam panel 110 is used to connect the panel body 111 and the other panel body 111 'at right angles to each other, and the corner foam panel 115 having a " ). ≪ / RTI > In this case, corner foam trenches 116 corresponding to the first tread grooves 112 are formed on the side surfaces of the vanes 115a and 115b of the corner foam panel 115.

The heat insulating foam panel 110 and the corner foam panel 115 may be made of a phenol resin based semi-fireproofing material such as a PF board, a flame retardant insulating material such as a hard urethane board, an extrusion such as polystyrene, urethane board, It is the one selected from the group consisting of the legal insulation. The heat-insulating foam panel 110 and the corner foam panel 115 are dense and have a thickness of 50 mm or more, more preferably 100 mm or more.

As shown in FIG. 5, on the surface of the panel body 111 in the heat insulating foam panel, a plurality of uneven pores 111a or straight grooves are formed to increase the adhesive force with the concrete layer. For example, in the case of an EPS insulating foam panel, the heat insulating foam base material is cut into a panel form while adjusting the cut hot wire to a temperature higher than a normal cutting temperature, thereby forming a large uneven porosity 111a on the surface larger than the normal heat insulating material surface. Or in the case of a phenolic resin-based semi-incombustible thermal insulation foam panel, a straight groove (not shown) is formed horizontally on the adhesive surface to be adhered to the concrete.

In the heat insulating foam panel, a urethane foam adhesive end U is formed between the panel body 111 and the other panel body 111 '. The urethane foam adhering end U is realized by injecting one-component urethane foam between the panel body 111 and another panel body 111 'and then hardening. Such a urethane foam adhering step U can prevent gaps between the panel body 11 and the other panel body 111 'and increase the heat insulation efficiency.

With the structure of the heat insulating foam panels 10 and 110, the tie T is moved in the horizontal direction in a state in which the mutually connected Euroform panel P (P ') assembly and the heat insulating foam panel 110 are disposed to face each other And can be assembled by being sandwiched between the standard tie groove H and the first and second tie grooves 112 and 113.

Next, the usage of the tie horizontal self-assembled thermal insulation foam panel of the present invention will be described.

The first tie grooves 12 (112) formed on the panel body 11 (11) and the first tie grooves 12 (112 ') formed on the opposite sides of the panel body 11 And the second tie grooves 13 and 113 and the standard tie groove H and the standard standard tie groove H 'of the Euroform panel P are opposed in the horizontal direction. In this state, the first and second tie grooves 12 and 112, the second tie grooves 13 and 113, and the tie T to the standard tie groove H and the standard tie groove H ' The heat insulating foam panels 10 and 110 and the euro foam panel P 'are connected to each other in a state where they are spaced apart from each other. At this time, the tie T includes a standard tie groove H and an assembling standard tie groove H 'already formed in the Eurofoam panel P (P') and a first tie groove 12 previously formed in the heat insulating foam panel, (112) and the second tie grooves (13) (113) in the horizontal direction, so that assembly is very easy.

When a tie plate (not shown) and a wedge pin (not shown) are joined to the tongue of the tie T protruding outside the heat insulating foam panels 10 and 110 and the Euro foam panel P ' do.

According to the first and second embodiments of the heat insulating foam panel according to the present invention, the standard tie grooves H of the Eurofoam panel P are formed at the edges and / or inside of the heat insulating foam panels 10, The first tie groove 12) 112 and / or the second tie groove 113 corresponding to the standard tie groove H 'and / or the standard tie groove H' And / or the assembling standard tread grooves H 'and the first tread grooves 12) 112 and / or the second tread grooves 113 in the horizontal direction, The efficiency is improved.

In addition, in the process of constructing the building wall, the heat insulating foam panel is integrated with the concrete layer, so that a separate heat insulating material installation work such as adhering the heat insulating material to the concrete layer with the adhesive mortar for the heat insulating construction is omitted, Insulation Foam panels are not lifted between the panels, so the insulation effect can be maximized.

In addition, when the insulation panel is made several times larger than regular Eurofoam panel, it is possible to improve the work efficiency of the formwork and to minimize the connection part, thereby eliminating the cause of the gap.

And the surface of the heat insulating foam panel implements fine irregular voids (11a) (111a) or makes a straight groove horizontally on the concrete bonding surface, so that the heat insulating foam panel is not separated from the concrete layer in any case.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

P, P '... Euroframe
H ... Standard tie grooves
H '... assembly standard tie grooves
10 ... First Embodiment of Insulating Foam Panel
11 ... panel body
11a ... uneven porosity
12: a first tie groove having a flat cross-
12 '... a first tie groove having a semicircular cross section
15 ... corner foam panel
16 ... corner form tie groove
110 ... second embodiment of the heat insulating foam panel
111 ... panel body
112 ... a first tie groove having a flat cross-
112 '... a first tie groove having a flat cross-
113 ... a second tie groove having a semicircular cross section
113 '... a second tie groove having a circular cross section
115 ... Corner Foam Panel
116 ... corner foam tie grooves

Claims (7)

(P) by using a tie (T) in a state of facing a Euroform panel (P) having a plurality of standard tie grooves (H)
A plurality of first tie grooves H corresponding to the plurality of standard tie grooves H and formed along edges of the panel bodies 11 and 111, And a tie groove (12) (112). The method according to claim 1,
Further comprising a corner foam panel (15) having a cross-section "a" shape for connecting the panel body (11) and another panel body (11 ') at right angles, And a corner tie groove (16) corresponding to the first tie groove (12) is formed on a side surface of the first tie groove (15b). The method according to claim 1,
The size of the panel body 111 is an integer multiple of the Eurofoam panel P;
The panel body 111 is formed along the edge and has a plurality of first tie grooves H corresponding to the plurality of standard tie grooves H formed at the edges of a plurality of mutually connected Euroform panels P 112 corresponding to the assembled standard tie grooves H 'between the euro foam panel P and the other Euro foam panel P', which are formed in the lateral direction or the longitudinal direction inside the panel body 111, And a tie groove (113). The method of claim 3,
When the tie T has a circular cross section, the first tie groove 112 'has a semicircular cross section and the second tie groove 113' has a circular cross section. Tie horizontal self assembled thermal insulation foam panel. The method of claim 3,
Further comprising a corner foam panel (115) having a cross section of "a" shape for connecting the panel body (111) and another panel body (111 ') at right angles, 115a) 115b are formed with corner tie grooves 116 corresponding to the first tie grooves 112. The foam panel according to claim 1, The method according to claim 1,
The present invention further includes a urethane foam adherend (U) formed by injecting a one-pack type urethane foam and hardening between the panel bodies 11 and 111 and the other panel bodies 11 'and 111' Tie horizontal horizontal assembled insulation panel. The method according to claim 1,
Wherein a plurality of uneven voids (11a) or straight grooves are formed on the surface of the panel body (11) (1111) for enhancing the adhesive strength to the concrete layer.

Images