KR20200088693A - Insulation material with core material and insulation wall construction using it - Google Patents

Abstract

The present invention relates to an insulation material with a core material and an insulation wall construction method using the same, which can fix an interior material and an exterior material to the core material by a fixing member in a state of attaching and fixing the insulation material with the core material to a wall surface so that insulation performance and insulation effects can be improved. Also, the core material is embedded in the insulation material so that heat conductivity from the outside to the wall surface is minimized, thereby preventing dew condensation. The core material is embedded in the insulation material so that strength of the insulation material can be reinforced.

Description

Insulation material with core material and insulation wall construction using it

The present invention relates to an insulating material with a core material and a method of constructing an insulating wall using the same, and more specifically, to fix the interior material and the exterior material with a core material and a fixing member in a state where the insulating material with the core material is fixed to the wall surface, thereby providing thermal insulation performance. And a heat-insulating material having a core material capable of improving the heat insulating effect, and a method for constructing an insulating wall using the same.

In general, on the inner and outer walls of concrete structures, non-combustible exterior panels such as terracotta, marble, granite, and cement board are used to finish the exterior walls of curtain walls in order to make them look beautiful and to prevent fire. Is shown.

That is, by attaching an insulating material and an interior material or an exterior material to the wall surface of the building, it is possible to obtain insulation and decorative effects as well as protecting the exterior wall of the building.

In addition, by using an anchor bolt installed on the wall surface to fix the insulating material, and using an installation method of closing the outer wall by fixing the exterior material to an angle or the like coupled to the front end of the anchor bolt.

A clip for fixing an interior material has been disclosed in Korean Patent Publication No. 10-2017-0018147 as a prior art for fixing the interior material to a wall surface.

The published patent consists of a first clip member installed on a wall or a frame installed on the wall to support and fix the lower end of the interior material, and a second clip member to support and fix the top of the interior material.

However, the previously published patent has a problem in that the heat insulation effect is lowered from the outside to the inside of the wall through the fixing clip protruding with the interior material.

In addition, when the fixing clip is installed on a frame installed on the wall, there is a problem in that the space between the interior material and the wall surface is difficult, so that the close construction of the interior material is difficult and the insulation performance is poor.

Republic of Korea Patent Publication No. 10-2017-0018147

The present invention has been devised to solve the above problems, and provides a heat-insulating material having a core material capable of improving heat-insulating performance by closely installing heat-insulating material on a wall surface, and a method of constructing an insulating wall using the same.

In addition, the present invention is to provide a heat-insulating material with a built-in core material that can prevent bending deformation of the heat insulating material by embedding a core material in the heat insulating material and a method for constructing an insulating wall using the same.

Insulating material in which the core material of the present invention is embedded,

insulator; And

Includes; a plurality of core material embedded in the heat insulating material,

The core material

A first horizontal portion;

A second horizontal portion which is horizontally symmetrical with the first horizontal portion and is vertically spaced apart at regular intervals; And

And a connecting portion connecting the first horizontal portion and the second horizontal portion.

The connection part is connected such that the first horizontal part and the second horizontal part are orthogonal or connected at an angle.

A through hole is penetrated inside the connection part.

It further includes a non-slip portion protruding from the end of the first horizontal portion or the second horizontal portion.

The connection part

A first vertical portion bent at the first horizontal portion;

A second vertical portion bent at the second horizontal portion; And

It includes; a horizontal connecting portion connecting the first vertical portion and the second vertical portion.

It further includes a display unit displayed on the surface of the heat insulating material so as to check the position of the core material embedded in the heat insulating material.

The display unit may display the first horizontal unit and the second horizontal unit in lines or in different colors.

In addition, the method for constructing an insulating wall using an insulating material having a core material embedded therein,

Attaching and fixing the insulating material having the core material therein to the wall surface;

Forming an installation hole in the heat insulating material, the core material, and the wall surface through the display portion displayed on the surface of the heat insulating material;

After inserting a fixing member into the installation hole, fixing the fixing member to the installation hole;

Fastening a nut member to a fixing member fixed to the installation hole, and pressing a heat insulator with a fastening force of the nut member to closely adhere to the wall surface;

After coupling one end of the first stone bracket to the end of the fixing member to which the nut member is fastened, fixing the first stone bracket and the fixing member with a nut member;

Placing one end of the second stone bracket on the other end of the first stone bracket to fasten with a bolt/nut;

And repeating the step of seating the stone on the protrusion protruding from the other end of the second stone bracket.

In addition, the method for constructing an insulating wall using an insulating material having a core material embedded therein,

Attaching and fixing the insulating material having the core material therein to the wall surface;

Forming an installation hole in the heat insulating material, the core material, and the wall surface through the display portion displayed on the surface of the heat insulating material;

After inserting a fixing member into the installation hole, fixing the fixing member to the installation hole;

Fastening a nut member to a fixing member fixed to the installation hole, and pressing a heat insulator with a fastening force of the nut member to closely adhere to the wall surface;

Adhering the lightweight exterior material to the heat insulating material;

And fastening and fixing the lightweight exterior material and the core material embedded in the heat insulating material with a fixing member.

According to the present invention, the heat insulating material is closely installed on the wall surface, thereby improving the heat insulation performance and the heat insulation effect.

In addition, according to the present invention, since the core material is embedded in the heat insulating material to reinforce the strength, there is an effect of preventing bending deformation of the heat insulating material.

In addition, according to the present invention, the core material is embedded in the heat insulating material to minimize heat conduction to the wall surface through the exterior material, thereby preventing condensation from occurring.

1 is a perspective view showing a heat insulating material with a built-in core material to which the present invention is applied
Figure 2 is a cross-sectional plan view of a first embodiment of a heat insulating material with a built-in core material to which the present invention is applied
Figure 3 is a plan view and a perspective view showing an embodiment of the first embodiment of the core material to which the present invention is applied
4 is a plan view and a perspective view showing another embodiment of the first embodiment of the core material to which the present invention is applied
Figure 5 is a plan view and a perspective view showing another embodiment of the first embodiment of the core material to which the present invention is applied
Figure 6 is a plan view and a perspective view showing another embodiment of the first embodiment of the core material to which the present invention is applied
7 is a plan view and a perspective view showing another embodiment of the first embodiment of the core material to which the present invention is applied
8 is a plan view and a perspective view showing another embodiment of the first embodiment of the core material to which the present invention is applied
9 is a cross-sectional plan view of a second embodiment of a heat insulating material having a core material to which the present invention is applied.
10 is a plan view and a perspective view showing an embodiment of a second embodiment of a core material to which the present invention is applied
11 is a plan view and a perspective view showing another embodiment of the second embodiment of the core material to which the present invention is applied
12 is a plan view and a perspective view showing another embodiment of the second embodiment of the core material to which the present invention is applied
13 is a plan view and a perspective view showing another embodiment of the second embodiment of the core material to which the present invention is applied
14 is a plan view and a perspective view showing another embodiment of the second embodiment of the core material to which the present invention is applied
15 is a plan view and a perspective view showing another embodiment of the second embodiment of the core material to which the present invention is applied
16 to 17 is a cross-sectional view showing a heat insulating wall of the first embodiment formed by using the present invention, Figure 16 is a cross-sectional plan view, Figure 17 is a cross-sectional side view.
18 to 19 are cross-sectional views showing a heat insulating wall of the first embodiment formed using the present invention.
20 to 21 are cross-sectional views showing a partition of the first embodiment formed using the present invention, FIG. 20 is a plan view, and FIG. 21 is a sectional view.
22 is a cross-sectional view showing a partition of the first embodiment formed using the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains can easily practice. However, the present invention can be implemented in many different forms and is not limited to the embodiments described herein.

1 is a perspective view showing a heat insulating material with a core material to which the present invention is applied, and FIG. 2 is a cross-sectional plan view of a first embodiment of a heat insulating material with a core material to which the present invention is applied.

The present invention, the insulation material 100 is built-in core material is installed on the wall surface 10 of the building to block the heat exchange between the wall surface 10 and the outside air, the insulation material 110, the core material 120 Includes.

The heat insulating material 110 is installed on the wall surface 10 of the building to block heat exchange between the wall surface 10 and external air, and is preferably a heat insulating material, but includes a building interior material.

3 to 4, the core material 120 is built in a plurality of predetermined intervals in the heat insulating material 110 to reinforce the strength of the heat insulating material 110, to guide the installation of the fixing member 200, It includes a first horizontal portion 121, a second horizontal portion 122, a connecting portion 123.

The first horizontal portion 121 has a constant width, and a length is formed to be embedded in the heat insulating material 110.

The second horizontal portion 122 is formed to have a constant width and a length to be embedded in the heat insulating material 110.

The first horizontal portion 121 and the second horizontal portion 122 may be formed in the same manner, but the first horizontal portion 121 or the second horizontal portion 122 may also be formed in different sizes. .

In addition, the connection part 123 is configured to connect the first horizontal part 121 and the second horizontal part 122, and is preferably connected or inclined to be orthogonal to the horizontal parts 121 and 122. , It can also be connected to bend to increase the strength against bending deformation by increasing the contact area, there is a through hole that can reduce the thermal conductivity to a minimum while increasing the bonding strength of the heat insulating material 110 and the core 120 (123') is pierced in plural.

In addition, as shown in Figures 5 to 6, the first horizontal portion 121 or the second horizontal portion 122 further includes an anti-skid portion 124 protruding to prevent sliding of the fixing member 200' The non-slip portion 124 protrudes in the opposite direction to the second horizontal portion 122 at the end of the first horizontal portion 121, and opposite to the first horizontal portion 121 at the end of the second horizontal portion 122. It is preferable to protrude in the direction.

In addition, the connection portion 123a includes a first vertical portion 123a-1, a second vertical portion 123a-2, and a horizontal connection portion 123a-3, as shown in FIG. 7.

The first vertical portion 123a-1 is configured to be bent from the first horizontal portion 121 to the second horizontal portion 122.

The second vertical portion 123a-2 is a configuration that is bent in the direction of the first horizontal portion 121 in the second horizontal portion 122.

The horizontal connection part 123a-3 is configured to connect the first vertical part 123a-1 and the second vertical part 123a-2, and the vertical part 123a-1 and 123a-2 It is preferable to connect orthogonally or inclinedly, but it may be connected to be curved to further reinforce the strength against bending deformation by increasing the contact area, and therein, the bonding strength of the heat insulating material 110 and the core material 120 is connected. Through hole 123', which can reduce thermal conductivity to a minimum while increasing, is penetrated.

In addition, as shown in Figure 8, the first horizontal portion 121 or the second horizontal portion 122 further includes an anti-skid portion 124 protruding to prevent the fixing member 200' from slipping, wherein the The non-slip portion 124 protrudes from the end of the first horizontal portion 121 in the opposite direction to the second horizontal portion 122, and protrudes from the end of the second horizontal portion 122 in the opposite direction to the first horizontal portion 121. It is desirable to be.

The core material 120 presses a plate body of a predetermined size with a press to bend the first horizontal portion 121 and the second horizontal portion 122 on both sides of the connection portion 123, wherein the first horizontal portion 121 and the first 2 The horizontal portion 122 may be formed by bending in opposite directions so as not to be symmetrical, or may be formed by injecting a hard plastic material.

In addition, FIG. 9 is a plan view in cross section of a second embodiment of a heat insulating material having a core material embedded therein, and the core material 120 ′ is embedded in the heat insulating material 110 in a plurality of predetermined intervals, as shown in FIGS. 10 to 11. Reinforcing the strength of (110), the configuration to guide the installation of the fixing member 200, and includes a first horizontal portion 121, a second horizontal portion 122, a connecting portion (123).

The first horizontal portion 121 has a constant width, and a length is formed to be embedded in the heat insulating material 110.

The second horizontal portion 122 is formed to have a constant width and a length to be embedded in the heat insulating material 110.

In addition, the connecting portion 123 is configured to connect the first horizontal portion 121 and the second horizontal portion 122, and therein, while increasing the bonding strength between the heat insulating material 110 and the core material 120'. A plurality of through holes 123' capable of reducing thermal conductivity to a minimum are penetrated.

Here, the first horizontal portion 121 and the second horizontal portion 122 is preferably formed to correspond to the connecting portion 123, it may be formed by bending in multiple stages to reinforce the connecting portion 123.

In addition, as shown in FIGS. 12 to 13, the first horizontal portion 121 or the second horizontal portion 122 further includes a reinforcement rib 124' that reinforces the strength of the core 120' bent at the end. .

The reinforcing ribs 124' may be formed in at least two or more multi-stages as shown in FIGS. 14 to 15.

The core material 120 ′ presses a plate body of a predetermined size with a press to bend the first horizontal portion 121 and the second horizontal portion 122 on both sides of the connection portion 123, and the first horizontal portion 121 and It may be formed by bending the reinforcing rib 124' at the end of the second horizontal portion 122, or may be formed by injecting a hard plastic material.

In addition, a display unit 130 displayed on the surface of the heat insulating material 110 may be further included to check the position of the core 120 embedded in the heat insulating material 110.

The display unit 130 displays the first horizontal portion 121 and the second horizontal portion 122 in lines.

The display unit 130 displays the first horizontal portion 121 and the second horizontal portion 122 in different colors.

The following describes the manufacturing process of the present invention configured as described above.

First, a heat insulating material 110 that is installed on the wall surface 10 of a building and blocks heat exchange between the wall surface 10 and external air is manufactured according to a design drawing. A plurality of core materials 120 are provided inside the heat insulating material 110. It is embedded at regular intervals.

The first horizontal part 121 and the second horizontal part 122 are connected to the connection part 123, and a heat insulating material is located in the connection part 123 through a plurality of through holes 123' penetrated therein. 110) can increase the bonding strength of the core 120 and minimize the thermal conductivity.

Here, the length of the connecting portion 123 may be formed differently depending on the thickness of the heat insulating material 110.

In addition, on the surface of the heat insulating material 110, a display unit 130 capable of confirming the positions of the first horizontal portion 121 and the second horizontal portion 122 of the core material 120 is displayed, and the display unit 130 The first horizontal portion 121 and the second horizontal portion 122 may be displayed as a line on the same line, and the first horizontal portion 121 and the second horizontal portion 122 may be displayed in different colors. You may.

And the first horizontal portion 121 and the second horizontal portion 122 may be further formed a non-slip portion 124 to prevent the sliding of the fixing member 200' at the ends, the anti-slip portion 124 Is protruding from the end of the first horizontal portion 121 in the opposite direction to the second horizontal portion 122, and protruding in the opposite direction from the end of the second horizontal portion 122 to the first horizontal portion 121, the fixing member 200 ') can prevent the phenomenon of being pushed outward.

When explaining the construction method of the insulating material 100 with a built-in core material produced by the above process, the insulating material 100 with the built-in core material is attached to the wall surface 10 of the building, as shown in FIGS. 16 to 17, The insulating material 110 is attached with an adhesive so that the first horizontal portion 121 attached to the wall surface 10 faces the wall surface 10.

When the heat insulating material 110 is attached to the wall surface 10, drill to be orthogonal to the display part 130 displayed on the surface of the heat insulating material 110, that is, the part marking the through hole 122' of the second horizontal part 122. While the tool is operated in the state where the same tool is positioned, the second horizontal part is again passed through the through-hole 122' of the second horizontal part 122 through the insulating material 110 at the tip of the second horizontal part 122. (122) After forming the installation hole 210 on the wall surface 10 while penetrating the heat insulating material 110 at the rear end, the operation of the tool is stopped and separated from the heat insulating material 110, wherein the installation hole 210 is the It includes a through hole penetrated through the heat insulating material 110 and a groove formed in the wall surface 10.

When the installation hole 210 is formed through the above process, after inserting the fixing member 200 such as an anchor bolt for concrete into the installation hole 210, rotating the anchor bolt rotates the fixing member such as the anchor bolt for the concrete. As the rear end of the 200 is expanded, it is fixed to the inner surface of the installation hole 210 formed in the wall surface 10.

When the fixing member 200 such as the anchor bolt for concrete is fixed to the installation hole 210, the nut member 220 is fastened to the front end of the fixing member 200, and the nut member 220 is the insulating material. (110) It may be fastened to be in close contact with the surface, or may be fastened to be in close contact with the second horizontal portion 122 while compressing the heat insulating material 110.

Since the heat insulating material 110 is pressed by the fastening force of the nut member 220 fastened to the front end of the fixing member 200, the heat insulating material 110 can be in close contact with the wall surface 10.

In addition, the washer member 230 is coupled to the distal end of the fixing member 200 to which the nut member 220 is fastened, and the washer is coupled to one end of the first stone bracket 240 at the distal end of the fixing member 200. In a state in close contact with the member 230, the nut member 241 is fastened to the front end of the fixing member 200 to fix the washer member 230 and the first stone bracket 240.

Then, after fixing the other end of the first stone bracket 240 and one end of the second stone bracket 250 with a bolt/nut 250a, fix the other end of the second stone bracket 250. It is possible to construct the insulating wall 20 by repeating the process of seating the stone 21 on the installation projection 251 formed in the.

In addition, as shown in FIG. 18, the fixing member 200, such as an anchor bolt for concrete, is fixed to the installation hole 210 by fastening the nut member 220 to the front end of the fixing member 200 to fix it. The nut member 220 may be fastened to be in close contact with the surface of the heat insulating material 110, or may be fastened to be in close contact with the second horizontal portion 122 while compressing the heat insulating material 110.

Since the heat insulating material 110 is pressed by the fastening force of the nut member 220 fastened to the front end of the fixing member 200, the heat insulating material 110 can be in close contact with the wall surface 10.

After the nut member 220 is fastened to the insulating member 110 in a state in which it is fastened to the fixing member 200, the lightweight exterior material 22 is brought into close contact with the core member 120 embedded in the exterior material 20 and the insulation material 110. ) The second horizontal portion 122 is fixed with a fixing member 200 ′ such as a direct connection bolt.

At this time, when the fixing member 200', such as the direct connection bolt, is fastened and fixed to the second horizontal portion 122 via a through hole (not shown) penetrated through the exterior material 20, the fixing member 200' is fixed. When a fastening hole (not shown) to be fastened is not formed, as shown in FIG. 19, the second horizontal portion 122 slides the fastening member 200 ′ according to the rotation of the fastening member 200 ′. It is prevented from the non-slip portion 124 protruding in the direction opposite to the direction of the first horizontal portion 121 at the end of the horizontal portion 122, and is easily fastened, as well as an insulating wall (in accordance with the fastening of the fixing member 200') 20).

In addition, as shown in FIGS. 20 to 21, the exterior material 22 and the second horizontal part in a state in which the exterior material 22 and the interior material 23 are closely adhered to both sides of the heat insulating material 110 in which the core material 120 is embedded. A fixing member 200', such as a direct connection bolt, is fastened and fixed to the fastening hole 122' of the 122, and the direct connection bolt and the fastening hole 121' of the interior member 23 and the first horizontal portion 121 The same fixing member 200' may be fastened and fixed to form the partition 30.

In addition, as shown in FIG. 22, each pipe 40 is in close contact with the surface of the heat insulating material 110 in which the core material 120 is embedded, wherein each pipe 40 has a groove 61 formed therein and each horizontal level of the core material. Fixing such as bolts with the grooves 61 and the fastening holes 121' and 122' in a state in close contact with the fastening holes 121' and 122' penetrating through the parts 121 and 122 The member 200a is fastened and fixed.

At this time, since the fixing member 200a such as the bolt is coupled to the grooves 61 formed inside each pipe 60, it does not protrude outside the respective pipes 60, and the fixing member 200a such as the bolt It is possible to form the partition 30 by fastening and fixing the exterior material 22 or the interior material 23 to each fixed pipe 60 with a fixing member 200 ′, such as a direct connection bolt.

Here, the fixing member 200' is described as a direct connection bolt, but may be fixed by drilling a drill, and fastening a fixing member such as a bolt or a nut to the drilled hole.

As described above, although the present invention has been described by limited embodiments and drawings, the present invention is not limited to the above embodiments, and various modifications and variations can be made from these descriptions by those skilled in the art to which the present invention pertains. Will do

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the claims described below, but also by the claims and equivalents.

100: insulation with a built-in core 110: insulation
120: core 121: first horizontal portion
122: second horizontal portion 123: connecting portion
130: display unit

Claims (8)

insulator; And
Includes; a plurality of core material embedded in the heat insulating material,
The core material
A first horizontal portion;
A second horizontal portion which is horizontally symmetrical with the first horizontal portion and is vertically spaced apart at regular intervals; And
Insulating material having a core material including; a connecting portion connecting the first horizontal portion and the second horizontal portion. The method according to claim 1,
The connecting portion is a thermal insulation material having a core material connected or inclined to connect the first horizontal portion and the second horizontal portion orthogonally. The method according to claim 2,
A heat insulating material having a core material through which a through hole is penetrated inside the connection part. The method according to claim 1,
An insulation material having a core material further comprising a non-slip portion protruding from the end of the first horizontal portion or the second horizontal portion. The method according to claim 1, wherein the connecting portion
A first vertical portion bent at the first horizontal portion;
A second vertical portion bent at the second horizontal portion; And
A heat insulating material including a core material including; a horizontal connection portion connecting the first vertical portion and the second vertical portion. The method according to claim 1,
Further comprising a display unit displayed on the surface of the heat insulating material so as to check the position of the core material embedded in the heat insulating material. Attaching and fixing the insulating material having the core material therein to the wall surface;
Forming an installation hole in the heat insulating material, the core material, and the wall surface through the display portion displayed on the surface of the heat insulating material;
After inserting a fixing member into the installation hole, fixing the fixing member to the installation hole;
Fastening a nut member to a fixing member fixed to the installation hole, and pressing a heat insulator with a fastening force of the nut member to be in close contact with the wall surface;
After coupling one end of the first stone bracket to the end of the fixing member to which the nut member is fastened, fixing the first stone bracket and the fixing member with a nut member;
Placing one end of the second stone bracket on the other end of the first stone bracket to fasten with a bolt/nut;
A method of constructing an insulating wall using an insulating material having a core material, including repeating a process of seating a stone on a protrusion protruding from the other end of the second stone bracket. Attaching and fixing the insulating material having the core material therein to the wall surface;
Forming an installation hole in the heat insulating material, the core material, and the wall surface through the display portion displayed on the surface of the heat insulating material;
After inserting a fixing member into the installation hole, fixing the fixing member to the installation hole;
Fastening a nut member to a fixing member fixed to the installation hole, and pressing a heat insulator with a fastening force of the nut member to be in close contact with the wall surface;
Adhering the lightweight exterior material to the heat insulating material;
A method of constructing an insulated wall using a heat insulating material with a built-in core material, comprising fastening and fixing the light weight exterior material and the core material embedded in the heat insulating material with a fixing member.

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