KR101169904B1 - Insulating Panel Joint and Forming Method thereof - Google Patents

Abstract

Insulating panel joint portion according to an embodiment of the present invention, the insulation panel is installed spaced apart a predetermined interval to form a filling space, the foaming material is filled and filled in the filling space, and covers the filling space and coupled to the insulating panel Including the finishing material is to minimize the heat loss at the junction where the insulation panels are bonded to each other and at the same time improve the work efficiency of the insulation panels.

Description

Insulating Panel Joint and Forming Method

The present invention relates to a method for forming a joint of a thermal insulation panel and a joint of a thermal insulation panel, and more particularly, a joint of a thermal insulation panel capable of preventing heat loss at a joint where the thermal insulation panels are bonded to each other and improving work efficiency of an operator. It relates to a method of forming a heat insulation panel joint.

The largest proportion of the building's energy consumption is the heat loss through the building's exterior walls. Therefore, in order to save energy in buildings, proper design and construction of building materials, insulation materials and exterior materials are required.

In general, insulation materials such as styrofoam, urethane foam, glass wool, rock wool, and polyester foam are mainly used in buildings. Such insulation is generally attached to the outer wall of the building to block heat transferred through the outer wall by conduction and convection. In fact, the use of such insulation can prevent significant heat losses.

On the other hand, such a heat insulating material is generally produced in a plate shape having a predetermined size. When attaching such a plate-shaped heat insulating material to an outer wall, a heat insulating material is generally attached to an outer wall using an adhesive agent. In addition, by attaching another insulation to the insulation attached to the outer wall continuously to wrap the outer wall of the building with insulation.

As described above, when the insulation is continuously pasted along the outer wall, the ends of the insulation materials adjacent to each other are attached to each other. However, no matter how closely the neighboring insulation is attached, there is a gap between the insulation.

As such, the gap present in the junction of the heat insulator may serve as a passage through which heat is transferred, which may be a major cause of heat loss in a building. Thus, in order to eliminate the gap which exists in the junction part of a heat insulating material, it is necessary to improve the joint part of a heat insulating material.

The present invention is to solve the above problems, an object of the present invention is to minimize the heat loss flowing out through the joints in which the insulation panels are bonded to each other by eliminating gaps generated in the joint portion where the plate-shaped insulation panels are bonded to each other. It is to provide a heat insulation panel joint and a method for forming a heat insulation panel joint.

In addition, to provide a method for forming a heat insulation panel joint and a heat insulation panel joint that can improve the work efficiency of attaching the heat insulation panel to the outer wall.

Insulation panel joint according to an embodiment of the present invention for achieving the above object is a thermal insulation panel is installed spaced apart a predetermined interval to form a filling space, the foaming material is filled in the filling space and the filling space It covers and includes a finish coupled to the insulation panel.

At this time, the finishing material is formed in the longitudinal direction of the filling space and has a cover portion covering the filling space, and a fixing portion extending from the cover portion to fix the finishing material to the insulating panel.

The fixing part includes a protrusion protruding to one side from both ends of the cover part, and a hook provided at an end of the protrusion to prevent the protrusion inserted into the heat insulating panel from being separated from the heat insulating panel.

On the other hand, the length of the protrusion is formed to 1/3 or less of the thickness of the insulation panel.

Insulating panel joint portion according to an embodiment of the present invention for achieving the above object and the insulating panel is installed to be spaced apart a predetermined interval to form a filling space, and covering the filling space and the finishing material coupled to the insulating panel, Attached to the lower end of the finishing material and includes a foam bag with a foam member built therein.

In this case, the foam bag may be formed of a material having elasticity.

The finishing material has a cover part formed in the longitudinal direction of the filling space to cover the filling space, and a fixing part extending from the cover part to fix the finishing material to the insulating panel.

In addition, the method for forming a thermal insulation panel joint according to an embodiment of the present invention comprises the steps of forming a filling space by installing a pair of thermal insulation panels spaced apart from each other, filling the foam with the filling space, and the insulation panel and Covering the finishing material to be coupled to the upper portion of the filling space.

Or installing a pair of insulating panels spaced apart from each other to form a filling space, forming a foaming space in a foaming bag integrally formed with a finishing material and having a foaming liquid therein, and placing the foaming bag in the filling space. And inserting the finishing material into the insulating panel.

According to the method of forming the insulation panel junction and the insulation panel junction according to an embodiment of the present invention, the filling space is formed between the insulation panels and the foam space is filled in the filling space so as to be integrated with the insulation panels. You can eliminate the gap. Therefore, the heat loss at the junction where the heat insulation panels are joined to each other can be minimized.

In addition, the use of the finishing material covering the filling space can prevent the overflow of the filling space when the foam is foamed to improve the work efficiency of the worker.

In addition, since the finishing material can be used as a member to which the interior material, such as gypsum board, is fixed, the interior material can be firmly fixed.

1 is a perspective view showing a state before forming a heat insulation panel joint according to an embodiment of the present invention.
Figure 2 is a flow chart illustrating a method of forming a thermal insulation panel junction according to an embodiment of the present invention.
3 is a cross-sectional view of the insulating panel junction formed in accordance with the flow chart shown in FIG.
Figure 4 is a perspective view showing a state before forming the insulation panel joint according to another embodiment of the present invention.
Figure 5 is a flow chart illustrating a method of forming a thermal insulation panel joint according to another embodiment of the present invention.
6 is a cross-sectional view of the insulation panel joint formed in accordance with the flow chart shown in FIG.

Hereinafter will be described in detail with reference to the accompanying drawings, a method for forming a thermal insulation panel junction and a thermal insulation panel junction according to an embodiment of the present invention.

1 is a perspective view showing a state before forming a heat insulation panel joint according to an embodiment of the present invention.

As shown in FIG. 1, the thermal insulation panel joint portion according to the exemplary embodiment of the present invention is foamed and filled in the thermal insulation panel 100 and spaced apart from the predetermined space so as to form the filling space 110. It is provided with a foam member 120 and the finishing material 200 which covers the filling space 120 and is coupled to the insulating panel 100.

The heat insulation panel 100 is formed such that styrofoam, urethane foam, glass wool, rock wool, and polyester foam generally used have a predetermined size.

In an embodiment of the present invention, when the insulation panel 100 is attached to the outer wall 10, the filling space 110 is formed by separating the insulation panels 100 adjacent to each other, and the filling space 110 is about 20 mm. It can be formed to have a width of.

As such, the reason for forming the filling space 110 by separating the adjacent insulating panels 100 from each other is that the filling space 110 is filled with a foam material 120 of the same material as the insulating panel 100 and the insulating panel ( This is to eliminate the gap generated in the joint portion of the heat insulation panel 100 by integrating with 100).

Meanwhile, as the foam member 120 filled in the filling space 110, the same material as that of the insulation panel 100 is used, such as polyurethane.

When the foam member 120 is filled in the filling space 110, the foam member 120 is integrated while being in close contact with the insulating panels 100 on both sides while foaming. In this way, the foam member 120 is integrated while being in close contact with the heat insulating panel 100, thereby eliminating gaps occurring in the joints of the adjacent heat insulating panels 100. Therefore, it is possible to reduce the heat lost through the junction of the insulating panel 100.

On the other hand, since the foam 120 is foamed and its volume increases, it is preferable to fill only about 85% of the volume of the filling space 110 when the foam 120 is foamed in the filling space 110.

When the filling member 120 is filled in the filling space 110, the foam member 120 may be foamed and leak onto the surface of the insulation panel 100. As such, when the foam member 120 leaks and hardens on the surface of the insulation panel 100, it is difficult to attach an interior material such as a gypsum board to the insulation panel 100. As such, the finishing material 200 coupled to the insulating panel 100 and covering the filling space 110 is used to prevent the foam member 120 from leaking onto the surface of the insulating panel 100. The finish 200 may be formed of a metal material such as aluminum or a resin material such as PVC.

The finishing material 200 is formed in the longitudinal direction of the filling space 110 to cover the filling space 110 and 210, extending from the end of the cover portion 210 so that the finishing material 200 It is provided with a fixing part 220 to be fixed to the insulating panel 100.

The cover portion 210 may have a width capable of sufficiently covering the filling space 110, for example, 1.5 to 3 times the width of the filling space 110.

The fixing part 220 is a protrusion 221 protruding from one end of the cover portion 210 to one side, and a protrusion 221 provided at the end of the protrusion 221 and inserted into the heat insulation panel 100. It is provided with a hook 222 to prevent the separation from the insulation panel 100.

As illustrated in FIG. 1, the protrusion 221 may be continuously formed along the longitudinal direction of the cover portion 210 or may be discontinuously formed at regular intervals.

A wedge 222a is formed at the front end of the hook 222 and a locking step 222b is formed at the rear end of the hook 222. Therefore, the protrusion 221 is easily inserted into the heat insulation panel 100 by the wedge 222a, and the protrusion 221 is inserted into the heat insulation panel 100 by the locking step 222b. ) Is prevented from falling out of the insulation panel 100.

Meanwhile, the length of the protrusion 221 may be formed to be 1/3 or less of the thickness of the heat insulation panel 100. As such, the reason for forming the length of the protrusion 221 to be 1/3 or less of the thickness of the heat insulation panel 100 is that when the length of the protrusion 221 is too long, the medium through which the protrusion 221 transfers heat is provided. Because it can be.

2 is a flowchart illustrating a method of forming a thermal insulation panel joint according to an embodiment of the present invention.

As shown in FIG. 2, the method of forming a heat insulation panel joint according to an embodiment of the present invention includes forming a filling space 110 by installing a pair of heat insulation panels 100 spaced apart from each other (S110). Filling the foam member 120 in the filling space 110 (S120), and covering the finishing material 200 is coupled to the insulating panel 100 on the top of the filling space 110 (S130) do.

3 is a cross-sectional view of the insulating panel junction formed in accordance with the flow chart shown in FIG.

When the insulation panel joint is formed in the order shown in FIG. 2, the foamed material 120 foamed in the filling space 110 is in close contact with the insulation panels 100 on both sides. When the foam member 120 is hardened, the foam member 120 is integrated with the insulation panels 100 on both sides. Therefore, the gap which arises in the junction part of the heat insulation panel 100 can be eliminated.

On the other hand, since the foam member 120 does not leak out of the filling space 110 by the finishing material 200, the outer surface of the insulation panel 100 may be neatly finished. In this way, since the outer surface of the insulation panel 100 is neatly finished, it becomes easy to match the horizontal and vertical of the interior materials such as gypsum board.

On the other hand, the interior material, such as gypsum board can be fixed to the finishing material 200 having a predetermined strength, it is possible to more firmly fix the interior material.

Figure 4 is a perspective view showing a state before forming the insulation panel joint according to another embodiment of the present invention.

Hereinafter, in describing the bonding structure of the insulating panel according to another embodiment of the present invention, the same configuration as the above-described embodiment uses the same reference numerals and detailed description thereof will be omitted.

As shown in FIG. 4, the bonding structure of the heat insulation panel according to the embodiment of the present invention covers the heat insulation panel 100 and spaced apart from each other to form the filling space 110, and the filling space 110. And it has a finishing member 200 is coupled to the insulating panel 100, and a foam bag 300 is attached to the lower end of the finishing member 200, the foam member 310 is built therein.

The finishing material 200 is formed in the longitudinal direction of the filling space 110 to cover the filling space 110 and 210, extending from the end of the cover portion 210 so that the finishing material 200 It is provided with a fixing part 220 to be fixed to the insulating panel 100.

In the finishing material 200, the foam bag 300 provided under the cover part 210 is formed of a material having elasticity, and the foam member 310 is embedded in the foam bag 300. The foam member 310 is formed of a reaction solution 312 to cause the foaming solution 311 is foamed when mixed with the foaming solution 311 and the foaming solution (311).

The reaction solution 312 is stored in the same place as the ampoule, and when the user bursts the ampoule, the reaction solution 312 flows out of the ampoule and reacts with the foaming solution 311 so that the foaming solution 311 is foamed. Therefore, the foam bag 300 is expanded to fill the filling space while being in close contact with the side surface of the heat insulation panel 100.

5 is a flowchart illustrating a method of forming a junction of an insulation panel according to another exemplary embodiment of the present invention.

In step S210 of forming a filling space 110 by installing a pair of insulating panels 100 spaced apart from each other (S210), and formed integrally with the finishing material 200, in the foam bag 300, the foam solution 311 is built-in Step (S220) and the foam bag 300 is inserted into the filling space 110 (S230), and the finishing material 200 is coupled to the insulating panel 100 to the foaming liquid 311 is foamed. It includes a step (S240).

6 is a cross-sectional view of the insulation panel joint formed in accordance with the flow chart shown in FIG.

When the insulation panel joint is formed in the order shown in FIG. 5, the foam bag 300 in which the foaming liquid 311 is embedded is expanded in the filling space 110 to be in close contact with the insulation panel 100 on both sides.

On the other hand, since the foam bag 300 is formed of a material having elasticity, the foam bag 300 is in close contact with the heat insulating panel 100 on both sides. Therefore, the gap which arises in the junction part of the heat insulation panel 100 can be eliminated.

In addition, by using the foam bag 300 in which the foam member 310 is embedded, the foam member 310 may be easily filled in the filling space 110 even if the skilled person is not skilled.

In addition, since the foaming liquid 311 is expanded inside the foamed bag 300 and does not leak to the outside, the outer surface of the insulation panel 100 may be neatly finished.

In the above described the formation method of the insulation panel junction and the insulation panel junction according to an embodiment of the present invention, the spirit of the present invention is not limited to the embodiment presented herein. And those skilled in the art to understand the spirit of the present invention can easily suggest other embodiments by the addition, modification, deletion, addition, etc. within the scope of the same idea, but this also falls within the scope of the invention something to do.

100: insulation 110: filling space
120: foam 200: finish
210: cover portion 220: fixed portion
300: foam bag 310: foam member

Claims (9)

delete delete delete delete An insulation panel installed at predetermined intervals to form a filling space;
A finishing material covering the filling space and coupled to the insulating panel;
Attached to the lower end of the finishing material and the thermal insulation panel junction, characterized in that it comprises a foam bag with a foam member embedded therein. 6. The method of claim 5,
Foam foam bag is a thermal insulation panel junction, characterized in that formed from a material having elasticity. 6. The method of claim 5,
The finishing material is formed in the longitudinal direction of the filling space and the cover portion covering the filling space;
And a fixing part extending from the cover part to fix the finishing material to the insulating panel. delete Forming a filling space by installing a pair of insulating panels spaced apart from each other;
Forming the foaming liquid in a foaming bag in which the foaming liquid is embedded and formed integrally with the finishing material;
Inserting the foam bag into the filling space;
Forming a thermal insulation panel junction comprising the step of coupling the finish with the thermal insulation panel.

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