KR102450453B1 - Bracket for vacuum insulation installation - Google Patents

Abstract

The present invention relates to a bracket for installing a vacuum insulator, and more particularly, to a bracket for installing a vacuum insulator that allows the wall edge portion to be constructed without gaps when the vacuum insulator is installed on a vertical wall surface.
The present invention as a technical means for solving the above problems, a first support surface and a second support surface provided at a position spaced apart from the first support surface and a first connecting one end of the first and second support surface A first fixing clamp of a U-shaped structure consisting of a connection surface; L-shaped insulating block; and a second fixing clamp consisting of a third support surface and a fourth support surface provided at a position spaced apart from the third support surface and a second connection surface connecting one end of the third and fourth support surfaces, One end of the insulating block is coupled to the other side of the second support surface of the first fixing clamp, and the other end is configured to be coupled to one side of the second connection surface.

Description

Bracket for vacuum insulation installation {BRACKET FOR VACUUM INSULATION INSTALLATION}

The present invention relates to a bracket for installing a vacuum insulator, and more particularly, to a bracket for installing a vacuum insulator that allows the wall edge portion to be constructed without gaps when the vacuum insulator is installed on a vertical wall surface.

Vacuum insulation is a high-performance insulation material using the low thermal conductivity of vacuum. Conventionally, a foamable material such as styrofoam or urethane was used as an insulator. However, when using Styrofoam or urethane, there is a problem in that it is difficult to meet recently strengthened regulations or the thickness of the insulating material must be increased. In addition, insulators such as styrofoam or urethane are very vulnerable to fire, and as the thickness of the insulator increases, the indoor space becomes narrower.

Vacuum insulation is an insulation made by putting a glass fiber sheet inside and wrapping it with an outer covering made of synthetic resin, etc., and then decompressing the inside to create a vacuum. It exhibits excellent thermal insulation performance of 0.0002~0.015 (W/mk). However, since the insulation performance is maintained only when the inside of the vacuum insulation material is maintained in a vacuum state, it is very important not to damage the outer sheath material during installation or construction.

In the past, a method of attaching a vacuum insulation to a wall using an adhesive was used. However, in this method, the outer covering material is corroded by the adhesive material, and the installation work is very difficult, and in the installation process, workers with low awareness of the vacuum insulation material were carelessly installed or constructed, and the outer sheath material was torn or damaged in many cases.

On the other hand, in recent years, in order to prevent such a problem, a bracket capable of constructing a vacuum insulator has been used. Korean Patent Publication No. 10-2017-0121098 (hereinafter referred to as 'Prior Art 1') and Republic of Korea Patent No. 10-2133944 (hereinafter referred to as 'Prior Art 2') filed by the applicant of the present invention with this type of construction bracket ), Republic of Korea Patent No. 10-1884849 (hereinafter referred to as prior art 3), and the like.

Prior art 1 and 2 are a method of mounting the vacuum insulator on a wall without a separate fastener by using a dedicated bracket for mounting the vacuum insulator. In addition, even if a bracket for installing a vacuum insulator is used, if the thermal conductivity of the bracket is high, cold air transferred through the bracket may be transferred to the inside of the vacuum insulator to cause condensation, so the prior art may not A method of adding an insulating block to the bracket was used (refer to FIG. 5 of the prior art 3).

However, the above methods do not have any problem in uniformly installing the vacuum insulator on a flat wall surface, but there is a problem in firmly installing the vacuum insulator in the bent corner area without any gaps.

For example, in the case of prior art 1, the corner member 40 was used to construct and fix the vacuum insulation material on the corner of the bent wall surface, but even if the corner member 40 is used, the upper wall surface (with reference to FIG. 2 ) It can be seen that there is a gap between the vacuum insulator 60-1 installed on the one-way indication, and the terms indicating the direction below are used as the same reference) and the vacuum insulator installed on the left side. And there is also a problem in that it is difficult to install and fix the interior material 51 after the vacuum insulation is installed.

Since it is difficult to use fasteners such as nails or anchors on the inside of the vacuum insulation material, the edges must be fixed. It can be easily seen that the bracket according to the prior art is structurally difficult to fix the vacuum insulation material at the corner portion. In addition, the prior art is a technique for constructing a vacuum insulation material on a structure bent on the wall. In the case of installing a vacuum insulation material while partitioning a space without a wall surface or finishing the corner of a rectangular structure using a vacuum insulation material, an internal finishing material However, since the external finishing material must be fixed together with the vacuum insulating material, it is difficult to use the prior art.

In particular, even when the vacuum insulator is fixed at the corner, cold air must be prevented from flowing in or out between the vacuum insulators or through the bracket for fixing the vacuum insulator. A bracket with a structure that can prevent cold air from flowing into the space and condensing is required.

US 10-1884849 B1 US 10-1929513 B1 US 10-2017-0121098 A US 10-2133944 B1

The present invention is to solve the above problems, and an object of the present invention is to provide a bracket capable of mounting a vacuum insulation material and an internal and external finishing material at the same time. In particular, an object of the present invention is to provide a bracket capable of fixing the vacuum insulator to the finishing material without gaps when the wall is formed using a vacuum insulator in a space where there is no concrete wall surface.

The present invention as a technical means for solving the above problems, a first support surface and a second support surface provided at a position spaced apart from the first support surface and a first connecting one end of the first and second support surface A first fixing clamp of a U-shaped structure consisting of a connection surface; L-shaped insulating block; and a second fixing clamp consisting of a third support surface and a fourth support surface provided at a position spaced apart from the third support surface and a second connection surface connecting one end of the third and fourth support surfaces, One end of the insulating block is coupled to the other side of the second support surface of the first fixing clamp, and the other end is configured to be coupled to one side of the second connection surface.

In a preferred embodiment of the present invention, the second support surface is configured to extend in the other direction from the portion where the heat insulating block is coupled, so that one side most leg of the vacuum insulation material is between the second support surface and the third support surface. It can be configured to be mounted.

In a preferred embodiment of the present invention, the insulating block may be configured such that the other end is coupled to one end of the second connection surface in parallel with the third support surface.

In a preferred embodiment of the present invention, the insulating block is made of synthetic resin, and both ends may be configured to be slidably coupled to the second support surface and the second connection surface in a rail manner.

The vacuum insulator installation bracket according to the present invention has the advantage of being able to install the vacuum insulator without any gaps even at the corners bent when the vacuum insulator is installed. In addition, in the case of forming a wall using a vacuum insulation material, there is an advantage that the exterior finishing material and the interior finishing material can be mounted together, as well as construction without a space through which hot or cold air can pass.

1 is a cross-sectional view showing a state in which a wall surface is constructed using a bracket for installing a vacuum insulation material according to the present invention.
2 is a cross-sectional view of a bracket for installing a vacuum insulation material according to the present invention.
3 is an exploded cross-sectional view of a bracket for installing a vacuum insulation material according to the present invention.
4 is a perspective view of a bracket for installing a vacuum insulation material according to the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing a state in which a wall surface is constructed using a bracket for installing a vacuum insulation material according to the present invention, FIG. 2 is a cross-sectional view of a bracket for installing a vacuum insulation material according to the present invention, and FIG. 3 is a bracket for installing a vacuum insulation material according to the present invention is an exploded cross-sectional view of, and FIG. 4 is a perspective view of a bracket for installing a vacuum insulator according to the present invention.

1 to 4, the vacuum insulating material installation bracket according to the present invention is a first fixing bracket 110 and a second fixing bracket 130, and the first fixing bracket 110 and the second fixing bracket 130. It is configured to include an insulating block 150 for connecting the.

The first fixing clamp 110 has a first support surface 113 and a second support surface 115 provided in a direction parallel to the first support surface 113 at a position spaced apart from the first support surface 113 . ) and a first connection surface 117 connecting one end of the first and second support surfaces 113 and 115 . Thus, the overall shape forms a cross section of the U-shaped structure, and the fixing clamps of the above structure are continuously long. The first support surface 113 of the first fixing clamp 110 is made of various known materials if it has a structure that can be fixed while being firmly coupled with the external finishing material 170 while bolts or anchors are fastened as will be described later. can be made In a preferred embodiment of the present invention, the first fixing clamp 110 is made of a metal material, and more preferably, it may be made of aluminum or an aluminum alloy material that is easy to process and is resistant to corrosion.

The width (width in the cross-sectional direction) of the first support surface 113 and the second support surface 115 may be varied as needed, and the length may also be varied according to the area of the installation space. In general, the first fixing clamp 110 may be used by extruding a long metal and cutting it to a required length. However, in a preferred embodiment of the present invention, the width of the first support surface 113 is configured to be wider than that of the second support surface 115 , so that the external finishing material 170 is easily coupled and coupled with the external finishing material 170 . Make sure that the installed bracket can be supported in a wide area.

The insulating block 150 is configured in a L-shaped structure. The insulating block 150 connects the first fixing bracket 110 described above and the second fixing bracket 130 to be described later, and at the same time the heat or cold of the first fixing bracket 110 is released from the second fixing bracket ( 130) serves as an insulator to prevent transmission to. Therefore, the insulating block 150 is preferably composed of a synthetic resin (for example, polyurethane, etc.) of an insulating material, it can be made by extrusion molding the material as described above. The coupling structure of the insulating block 150 and the first fixed clamp 110 and the second fixed clamp 130 will be described later. The length of one side in the width direction of the insulating block 150, particularly the length of the side coupled to the first fixing clamp 110, corresponds to the thickness of the vacuum insulating material 10 mounted on the vacuum insulating material installation bracket according to the present invention. .

The second fixing bracket 130 has a structure similar to that of the first fixing bracket 110 described above. That is, the third support surface 133 and the fourth support surface 135 provided at a position spaced apart from the third support surface 133 and one end of the third and fourth support surfaces 133 and 135 are connected. It is composed of the second connection surface 137 so that the overall shape is a U-shaped structure or a structure similar thereto. However, as described above, the second fixing bracket 130 is connected by the heat insulating block 150, and as will be described later, the first fixing bracket 110 and the second fixing bracket 130 by the coupling structure. And the insulating block 150 has a stepped structure that naturally moves from the first support surface 113 to the fourth support surface 135 in the inner direction of the first connection surface 117 . At this time, since it is preferable that the other ends of the first support surface 113 and the fourth support surface 135 have the same or similar positions, the third and fourth support surfaces 133 and 135 of the second fixing clamp 130 It is preferable that the width is shorter than that of the first support surface 113 of the first fixing clamp 110 . However, the structure as described above merely represents a preferred embodiment of the present invention, and as will be described later, the outer finishing material 170 and the inner finishing material 180 can be mounted, and the second support surface 115 and If the third support surface 133 has a structure capable of mounting the vacuum insulating material 10 between the support surfaces, the lengths of the first, second, third, and fourth support surfaces can be varied as needed.

In the above configuration, one end of the insulating block 150 in the width direction is coupled to the second support surface 115 of the first fixing clamp 110 and the other side (outer surface), and the other end is the second connecting surface 137 ) in one direction so that the overall shape becomes a stepped structure.

At this time, the second support surface 115 is configured to extend a predetermined length in the other direction from the portion to which the heat insulating block 150 is coupled, and the vacuum insulating material 10 is disposed between the second support surface 115 and the third support surface 133 . ) to support one side of the vacuum insulator 10 when it is mounted. In a preferred embodiment of the present invention, the insulating block 150 has the other end coupled to one side of the second connection surface 137 in parallel with the third support surface 133 . This is because when the vacuum insulating material 10 is mounted between the second supporting surface 115 and the third supporting surface 133, the third supporting surface 133 and the other side of the insulating block 150 are formed side by side, so that it is easily It is inserted so as to be widely supported by the third support surface 133 and the heat insulating block 150 .

As for the coupling method of the insulating block 150 and the second support surface 115 and the second connection surface 137, various known methods may be applied. As an example of the present invention, both ends of the insulating block 150 are preferably slidably coupled to the second support surface 115 and the second connection surface 137 in a rail manner. For example, as shown in the drawing, the insertion part 155 having a narrow end and a wide inner side is provided on the second support surface 115 and the second connection surface 137, and both ends of the heat insulating block 150 are It can be configured to have a shape corresponding to the inserting part 155 so that both ends of the insulating block 150 are inserted from the side of the inserting part 155 to be slidably coupled in the longitudinal direction. If necessary, the inserting part 155 is provided on the insulating block 150 side, and the rail corresponding to the inserting part 155 is configured to protrude from the second support surface 115 and the second connection surface 137. Of course, it is also possible to insert the second support surface 115 and the second connection surface 137 into the inserting part 155 to be mounted. However, since the insulating block 150 is made of polyurethane having excellent thermal insulation performance as described above, and the first fixing clamp 110 and the second fixing clamp 130 can be made of a metal material, the inserting part (155) is preferably formed on the second support surface 115 and the second connection surface 137, which are relatively hard materials, in order to increase the overall durability of the bracket.

In the above configuration, referring to FIG. 1, looking at the construction method of the bracket for installing a vacuum insulation material according to the present invention, first, in a continuous planar structure, the vacuum insulation material 10 using the bracket B shown on the right side of FIG. ) to support and fix both sides. The bracket (B) shown on the right side in FIG. 1 is a technology applied and registered by the applicant of the present invention, and a structure in which one plate is added to the I-shaped, wang-shaped or wang-shaped shape may be used. Brackets (B) for I-type, wang-shaped, etc. and a construction method using the same are described in detail in the prior art (Korean Patent Registration Nos. 10-1884849 and 10-1929513) registered by the applicant of the present invention. A detailed description thereof will be omitted. The prior art is a bracket for installing the vacuum insulating material 10, etc. on the inner wall of a building. However, in the prior art, it is difficult to finish the corner portion of the inner wall to be completely insulated, and furthermore, it is difficult to form the corner portion when the vacuum insulation material 10 is installed inside while making a wall such as a partition or an insulation container inside a building. There was a difficult problem.

The bracket for installing a vacuum insulation material according to the present invention is applied to the corner portion when one side of the vacuum insulation material 10 is a corner portion of the wall surface. That is, as shown in the drawing, when the bracket for installing the vacuum insulation material according to the present invention is installed on one side of the bent corner, the end of the bracket becomes a step structure in which the end increases toward the inside. After that, when the bracket for installing the vacuum insulation material according to the present invention is installed on the other side of the adjacent wall surface as a bent edge, the two brackets are in close contact with each other in a step structure. Accordingly, as shown in FIG. 1 , the vacuum insulating material 10 is seamlessly connected at the corners, and the external finishing material 170 is fastened to the first support surface 113 with bolts or rivets, etc. and mounted, and the fourth The support surface 135 is equipped with an inner finishing material 180 to form a wall surface in which the vacuum insulation material 10 is embedded inside the coupling surface. On the other hand, the portion where the vacuum insulating material 10 installed on the two wall surfaces abuts is the insulating block 150 is located, so that the heat or cold air transmitted from the first fixing clamp 110 is not transmitted to the second fixing clamp 130 . . Therefore, it is possible to prevent problems such as condensation or condensation of internal moisture, which can be a problem when a bracket for installing a vacuum insulation material is used. And the first support surface 113 and the second support surface 113 and the second support surface ( 115) and the distance between the third support surface 133 and the fourth support surface 135 is shorter than the distance between the outer finishing material 170 and the inner finishing material 180 in the process of mounting the inner finishing material 170 and the inner finishing material 180 by the fastener. It is possible to prevent the vacuum insulation 10 from being damaged. And when the edge of the outer finishing material 170 is fixed to the first connection surface 117 as shown in FIG. 1 or fixed together to the first support surface of the bracket adjacent to the first connection surface 117, the wall surface and the wall surface It becomes a structure in which both sides of the vacuum insulation material can be firmly fixed.

As such, although specific embodiments have been described in the detailed description of the present invention, various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, and should be defined by the claims and equivalents as well as the claims to be described later.

110: first fixing bracket
113: first support surface
117: first connection surface
130: second fixing bracket
133: third support surface
135: fourth support surface
150: insulation block
155: insert part
170: exterior finishing material
180: inner finishing material

Claims (4)

a first fixing clamp having a U-shape structure including a first support surface and a second support surface provided at a position spaced apart from the first support surface, and a first connection surface connecting one end of the first and second support surfaces;
L-shaped insulating block; and
It consists of a third support surface and a second fixing clamp consisting of a fourth support surface provided at a position spaced apart from the third support surface and a second connection surface connecting one end of the third and fourth support surfaces,
One end of the insulating block is coupled to the other side of the second support surface of the first fixing clamp, and the other end is configured to be coupled to one side of the second connection surface,
The second support surface is configured to extend in the other direction from the portion where the heat insulating block is coupled, and is configured such that one side most leg of the vacuum insulation material is mounted between the second support surface and the third support surface. .
delete The method according to claim 1,
The insulating block is a vacuum insulating material installation bracket configured to be coupled to one end of the second connection surface in parallel with the other end of the third support surface.
delete

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