KR101484044B1 - An insulating panel that combine heat reserving pin and manufacturing method of it - Google Patents

Abstract

The present invention relates to an insulation panel integrated with heat-retaining pins that can prevent the heat-retaining pin from being detached from an insulation material, regardless of change in surrounding temperature, and a manufacturing method thereof. An insulation panel for use in a curtain wall method for constructing a high-rise building includes a body cutting a rectangular plate to serve as a lid of a hollow rectangular box; a heat-retaining pin of an elongated rod shape which is engaged to the inner bottom surface of the body at one end thereof; and a rectangular insulation material filled in the inner space of the body, in which the heat-retaining pin penetrates top and bottom surfaces. The method includes the steps of: (a) cutting each corner of a rectangular plate in an L-shape; (b) cutting the corner in a rectangular shape, with a seaming member of a rod shape in a diagonal direction from an apex being left; (c) bending the cut portion of each corner formed at the step (b) at a right angle in a box shape; outwardly bending the cut portion formed at the step (a) at a right angle to form a joint portion; (e) pressing the seaming member to each corner of the body formed at the step (c) to stop up a gap of each corner of the body; (f) engaging a heat-retaining pin of an elongated rod shape to the inner bottom surface of the body at one end; and (g) filling a rectangular insulation material in the inner space of the body as top and bottom surfaces are penetrated by the heat-retaining pin.

Description

[0001] The present invention relates to a heat insulating panel having a heat insulating fin and a manufacturing method thereof,

The present invention relates to a heat insulating panel to which a heat insulating fin is coupled. More particularly, the present invention relates to a heat insulating panel having a quadrangular body formed by a press working, wherein the heat insulating fin is coupled to an inner surface of the body.

As the industry develops and the architectural technology becomes more advanced, the buildings are becoming higher or higher tiers to meet people's needs. Therefore, there are limitations in building high-rise buildings with traditional techniques, and many architects are doing research.

Recently, a curtain wall method is proposed as a method of building a high-rise building. If a building having a height of 100 m or more is difficult to assemble the scaffold to the outside, a method of lifting and attaching the outer wall panel manufactured in advance is often used. Because it is manufactured in the factory, mass production is possible, and the panel is standardized and unified. Therefore, the appearance of the building also shows a new industrial structure. In high-rise buildings, lightweight materials are used for curtain walls in order to reduce the weight, because the weight of the building has a large effect on the thickness of columns and beams. Metal plates such as stainless steel, aluminum, bronze, and enameled iron plate are generally used as the finishing material for the outer surface, and lightweight and high efficiency such as rock wool and glass wool is used as the heat insulation material. There are many windows in the openings (openings), but generally there are many buildings that control the air in the rooms. The glass used is double glass or heat ray absorbing glass to prevent heat loss, and there are many methods of permanently (permanently) cleaning the outside.

In order to install a heat insulating material such as rock wool or glass wool, a heat insulating material has conventionally been installed by providing a heat insulating fin on an outer wall and then placing the heat insulating material on a heat insulating fin.

However, there is a case where the heat insulating material does not play a role due to the problem that the insulated pin provided on the outer wall drops due to the influence of ambient temperature. In other words, it influences the grounding surface of the insulated pin attached to the outer wall according to the change of the surrounding temperature, so that the insulated pin easily falls and the heat insulating material does not play a role.

In addition, in the case of inserting the insulated pin on the site, it is impossible to expect a certain quality in the construction of the insulator, and there is a problem that the construction period is lengthened and the overall air is increased.

Korean Patent Publication No. 10-2006-0011647

It is an object of the present invention to overcome the above-mentioned problems, and it is an object of the present invention to provide a heat insulating panel that can be used as a heat insulating material, And to reduce the overall air flow by reducing the work process of installing the insulating panel.

According to an aspect of the present invention, there is provided a heat insulating panel for use in a curtain wall forming method for building a high-rise building, comprising: a body made of a lid of a hollow square box cut by a rectangular plate; And a heat insulator joined to the inner bottom surface of the body, and a heat insulator formed by inserting the upper and lower surfaces of the insulator in a quadrangular shape into the inner space of the body through the insulated fin.

(A) cutting each corner portion of the rectangular plate into an a-shape; (b) a step of cutting the corner portion of the rectangular plate into a ' A step of cutting the edge portion into a square shape again, leaving the narrow bar-shaped sealing member in a diagonal direction at the vertex of the corner, and then aligning the cut portion of each corner cut in step (c) (C) folding the bag into a box shape so as to form a box-shaped body; (d) folding the bag to the outside at 90 degrees along the cut portion in step (a) (F) joining the insulated fins to the inner bottom surface of the body at one end in a thin rod shape, and (g) bonding the insulated fins to the inner bottom surface of the body in a rectangular shape However, The surface through by the insulating pin provides the insulating pin is a method of producing a heat-insulating panel, characterized in that coupling consisting of filling the insulating material into the inner space of the body.

The present invention has the following features.

First, the present invention is characterized in that a heat insulating fin is welded to a body of a heat insulating panel so that the heat insulating material can play a role regardless of the ambient temperature change.

Secondly, since a heat insulating panel combined with a heat insulating fin and a heat insulating fin is manufactured in a factory, a certain quality heat insulating panel can be manufactured.

Thirdly, since the insulation panel is manufactured in the factory, the work process in the field is reduced, and the overall air of the building can be shortened.

1 is a perspective view showing a heat insulating panel of the present invention.
2 is an exploded perspective view of FIG.
3 is a photograph showing a working procedure for making the insulating panel of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of a heat insulating panel and a method of manufacturing the same according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a heat insulating panel of the present invention, and FIG. 2 is an exploded perspective view of FIG. 1. FIG.

The present invention relates to a heat insulating panel (10) to which a heat insulating fin (200) is coupled, and more particularly to a heat insulating panel used in a curtain wall forming method for building a high-rise building, A heat insulating fin 200 having a thin rod shape and one end connected to an inner bottom surface of the body 100 and a lower body having a rectangular shape and having upper and lower surfaces penetrated by a heat insulating fin 200, And a heat insulating material (300) filling the inner space of the heat sink (100).

1 and 2, the present invention comprises a body 100, a heat insulating fin 200, and a heat insulating material 300. The heat insulating panel 300 is made of glass, 10).

As the industry develops and the architectural technology becomes more advanced, the buildings are becoming higher or higher tiers to meet people's needs. Therefore, there are limitations in building high-rise buildings with traditional techniques, and many architects are doing research.

Recently, a curtain wall method is proposed as a method of building a high-rise building. If a building having a height of 100 m or more is difficult to assemble the scaffold to the outside, a method of lifting and attaching the outer wall panel manufactured in advance is often used. Because it is manufactured in the factory, mass production is possible, and the panel is standardized and unified. Therefore, the appearance of the building also shows a new industrial structure. In high-rise buildings, lightweight materials are used for curtain walls in order to reduce the weight, because the weight of the building has a large effect on the thickness of columns and beams. Metal plates such as stainless steel, aluminum, bronze, and enameled iron plate are generally used as the finishing material for the outer surface, and lightweight and high efficiency such as rock wool and glass wool is used as the heat insulation material. There are many windows in the openings (openings), but generally there are many buildings that control the air in the rooms. The glass used is double glass or heat ray absorbing glass to prevent heat loss, and there are many methods of permanently (permanently) cleaning the outside.

In order to install a heat insulating material such as rock wool or glass wool, a heat insulating material has conventionally been installed by providing a heat insulating fin on an outer wall and then placing the heat insulating material on a heat insulating fin.

However, the insulator may fail to function due to a problem that the insulated pin installed on the outer wall drops due to the influence of ambient temperature. In other words, it influences the grounding surface of the insulated pin attached to the outer wall according to the change of the ambient temperature, so that the insulated pin can not easily fall and the insulator can not play a role.

In addition, in the case of inserting the insulated pin on the site, it is impossible to expect a certain quality in the construction of the insulator, and there is a problem that the construction period is lengthened and the overall air is increased.

It is an object of the present invention to overcome the above-mentioned problems, and it is an object of the present invention to provide a heat insulating panel that can be used as a heat insulating material, And to reduce the overall air flow by reducing the work process of installing the insulating panel. That is, according to the present invention, since the heat insulating fin 200 is welded to the body 100 of the heat insulating panel 10 so that the heat insulating material can play a role regardless of the ambient temperature change, Since the heat insulating panel 10 to which the heat insulating material 300 is coupled is manufactured in the factory, it is possible to manufacture the heat insulating panel 10 of a certain quality, and the heat insulating work of a certain quality can be made using the same. In addition, since the insulation panel 10 is manufactured in a factory, the present invention can reduce the work process in the field and shorten the overall air of the building

The body 100 is constructed in the form of a lid of a rectangular box hollowed out by a rectangular plate. That is, the body 100 has a rectangular box shape with one side open. The body 100 is formed by cutting a rectangular plate, and can be cut into various shapes. For example, the corners of a rectangle can be cut into squares, and each side (4 sides) can be bent vertically along the cut to form a hollow square box. In the second example, the corner portions of the rectangular plate are cut into 'a' shapes, and then the corner portions are cut into a square shape, and the narrow bar-shaped suture members 110 are left in the diagonal direction at the corners of the corners, It can be bent into a square box with a 90 degree bend along the cut edge of each corner.

The body 100 can be used as a heat insulating panel 10, and various materials can be used as long as the body 100 can be bent to form a box shape.

The sealing member 110 may further include a sealing member 110 which is coupled to a lower edge of a corner of the body 100 so as to be bent along a corner thereof and which has one side thereof coupled to an edge thereof to close a gap in a corner portion. The sealing member 110 has a length of about the length of the side surface of the body 100 in a narrow and long plate shape. The sealing member 110 serves to remove unintentional defects caused by pressing the corners of each corner by pressing the corners of the body 100 with a crimping machine without using welding to cause heat to the body 100 . The sealing member 110 is made of the same material as the body 100.

The body 100 and the sealing member 110 may be connected by various methods such as welding. Preferably, a compression roller is used to join the body 100 and the sealing member 110 by compressing each other.

The heat-insulating fin 200 is a member having a thin rod shape and one end thereof coupled to the inner bottom surface of the body 100. At least one heat-insulating fin 200 may be coupled to the inner bottom surface of the body 100, preferably two. Various methods may be used for the connection between the heat insulating fin 200 and the body 100 so long as the heat insulating fin 200 does not fall off regardless of the surrounding temperature. A variety of materials can be used as long as the heat insulating fin 200 can be coupled to the body 100 and penetrate the heat insulating material 300 described later.

The heat insulating material 300 is a member which has a quadrangular shape and the upper and lower surfaces are penetrated by the heat insulating fin 200 to fill the internal space of the body 100. The heat insulating material 300 may be various materials that are filled in the body 100 and serve as a heat insulating material to fill the body 100 and serve as a heat insulating material.

3 is a photograph showing a working procedure for making the insulating panel of the present invention.

The present invention relates to a method of manufacturing a heat insulating panel (10) to which a heat insulating fin (200) is coupled, and more particularly to a method of manufacturing a heat insulating panel used in a curtain wall forming method for building a high - (B) cutting the corner portion into a square shape after the step (a), leaving the narrow bar-shaped sealing member 110 in the diagonal direction at the vertex of the corner, (C) folding the cut portion of each corner cut at 90 degrees to form a box-shaped body 100; (d) folding the cut portion in step (a) (E) pressing the sealing member 110 to each corner of the body 100 formed in step (c) by pressing the sealing member 110 to the body 100, Closing the clearance of each corner portion of the thin bar, (f) (G) a step of inserting the upper and lower surfaces of the upper and lower surfaces of the body 100 in a rectangular shape into the inner space of the body 100, And filling the heat insulating material (300).

As shown in FIG. 3, the present invention comprises steps (a) through (g), and relates to a method of manufacturing a heat insulating panel 10 to be installed for insulation of a building to be built. In the present invention, since the heat insulating panel 10 is manufactured in the factory by the above-described steps, it is possible to manufacture the heat insulating panel 10 of a certain quality, and by using the heat insulating panel 10, . In addition, since the insulation panel 10 is manufactured in a factory, the present invention can reduce the work process in the field and shorten the overall air of the building

The parts which are not described here are described in the section for explaining the above-mentioned insulating panel 10.

(a) through (c) are steps for making the body 100 of the thermal insulation panel. That is, in the steps (a) to (c), each corner portion of the rectangular plate is cut into 'a' shape, and the corner portion is cut into a square shape, and the narrow bar- 110 and then bent at 90 degrees along the cut edges of the angled corners to form a box-shaped body 100. In this case, The steps (a) to (c) are steps for illustrating a method of cutting a rectangular plate, and are divided for explanatory purposes only.

In the step (d), the coupling part 120 is formed by bending it 90 degrees outward along the cut part in step (a). The joining part 120 is configured such that when the plurality of the heat insulating panels 10 are adjacent to each other, the joining parts 120 overlap each other and the heat insulating panel 10 can be installed. Bolt holes may be provided in the joint portion 120 to facilitate coupling.

In the step (e), the sealing member 110 is pressed on each corner portion of the body 100 formed in the step (c) by a crimping machine to block the gap of each corner of the body 100. It is possible to eliminate unintentional defects caused by pressing the corners of the corners of the body 100 by pressing the corners of the body 100 with the squeezing machine using the sealing member 110 without using welding,

(f) is a step in which the heat insulating fin 200 is coupled to the inner bottom surface of the body 100 in a thin rod shape. In the step (f), the heat insulating fin 300 is coupled to the body 100 to prevent the heat insulating material 300 from being easily released to the outside according to the impact or the temperature change of the outside. The insulating pins 200 may be coupled to the body 100 in a variety of ways, but welds are used to join them.

In step (g), the upper and lower surfaces of the upper and lower surfaces pass through the insulating fin 200 in a rectangular shape, thereby filling the interior space of the body 100 with the heat insulating material 300. (g) is a step of filling the inner space of the body 100 with the heat insulating material 300 to improve the heat insulating performance of the heat insulating panel 10. [ The heat insulating material 300 is filled in the inner space of the body 100 so that various heat insulating materials 300 can be used to exhibit the heat insulating performance.

While the preferred embodiments of the present invention have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, The scope of the technical idea of the present invention is not limited to or limited by the description with reference to the drawings or the drawings. It will also be appreciated by those skilled in the art that the concepts and embodiments of the invention set forth herein may be used as a basis for modifying or designing other structures for carrying out the same purposes of the present invention It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims and their equivalents. And various changes, substitutions, and alterations can be made without departing from the scope of the invention.

10: Insulation panel
100: Body
110: seal member 120: engaging portion
200: Insulating pin
300: Insulation

Claims (3)

In a heat insulating panel used in a curtain wall method for building a high-rise building,
A body (100) made in the form of a lid of a rectangular box hollowed out of a rectangular plate;
An insulated pin (200) having a thin rod shape and having one end coupled to an inner bottom surface of the body (100); And
And a heat insulating material (300) penetrating the upper and lower surfaces in a rectangular shape by the heat insulating fin (200) to fill the internal space of the body (100). The method according to claim 1,
And a sealing member (110) which is coupled to a lower edge of the body (100) so that one end of the sealing member (110) is folded along the edge of the body (100) This combined insulation panel. A method for manufacturing a heat insulating panel used in a curtain wall method for building a high-rise building,
(a) cutting each corner portion of a rectangular plate into an 'a'shape;
(b) cutting the corner portion into a rectangular shape again after the step (a), leaving the narrow bar-shaped sealing member 110 diagonally at the corner vertex;
(c) bending the cut portion of each of the corners cut at the step (b) at 90 degrees to form a box-shaped body 100;
(d) bending outwardly along the cut portion in the step (a) to make the engaging portion 120;
(e) pressing the sealing member 110 to the corner portions of the body 100 formed in the step (c) by a squeezing machine so as to block the gaps in the corner portions of the body 100;
(f) joining the insulated pin (200) to the inner bottom surface of the body (100) at one end in a thin rod shape; And
(g) a step of filling the heat insulating material (300) in the inner space of the body (100) by passing the upper and lower surfaces in a rectangular shape by the heat insulating fin (200) Lt; / RTI >

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