KR101030952B1 - Method for splicing and connecting structural insulated panels - Google Patents

Abstract

PURPOSE: A method for connecting and joining structural insulating walls is provided to save energy, facilitate construction, improve air-tightness, and minimize heat loss. CONSTITUTION: A method for connecting and joining structural insulating walls comprises following steps. A first joint member(105-1) having a concavo-convex shape is coupled with an insulating wall(103). The opposite surface of the concavo-convex surface of a second joint member(105-2) is coupled with the opposite surface of the concavo-convex surface of the first joint member. The first and second joint members fix each other using a C-shaped clamp(108) as a first fixing unit. Both insulating walls are fixed using a C-shaped clamp(109) as a second fixing unit. A gasket is installed in the contact section between the joint members and the insulating material.

Description

Joint for splicing and connecting structural insulated panels

The present invention relates to the joint and joining method of the structural double-wall insulation wall, using only the steel to be fixed by the c-shaped clamp for the OSB (oriented strand board) joint, which is a separate configuration of the joint member in addition to the ready-made wall for the construction module, the wall joint Also relates to a method of maintaining the heat insulation.

In general, the construction of insulation materials has been common in interior buildings in order to prevent heat loss that may occur inside or outside the room or between floors in residential buildings equipped with heating and cooling facilities such as houses or apartments. Considering the construction cost, so-called styrofoam panels are mainly used. The insulation material made of the styrofoam panel is standardized in a state in which the length and width of the styrofoam panel are constant but differ in thickness only to distinguish the degree of insulation. After the selection, the edges of the panels were brought into contact with each other and then applied to walls or ceilings of a predetermined area.

However, the panel has a problem that even when the edges are brought into contact with each other, the panel has a planar structure that cannot exert a binding force on the contact surface. In addition, the use of a relatively thick panel in the area that requires high heat insulation has the adverse effect that the interior space is reduced as much as the panel occupies, while there is also a problem that can not fundamentally prevent the occurrence of gaps in the joint. .

Structural Insulated Panel (Structural Insulated Panel) design and construction method is hardly known in Korea yet, but the demand for eco-friendly low-energy housing is increasing, and the design of 30% reduction housing compared to the standard house is a new construction condition from 2012. As such, demand is expected to increase. Unlike the existing design and construction method of stacking insulating material on concrete walls or masonry, structural double-walled insulation wall has OSB (oriented strand board) outside of steel frame and high-performance insulation plays the role of web. There is a problem of lack of airtightness in a dry wall configured to perform the behavior of the structure, or in a joint between a wall and a wall, and a joint between a wall and a base joint, for which airtightness is required in a joining and joint method.

Looking at the foreign regulations to maintain the confidentiality of structural insulation walls, the energy efficient building association (EEBA) is required to maintain the confidentiality of less than 0.25cfm per square foot, but there is no domestic regulation. Therefore, only the result value for the heat insulating member necessary for the heat transmission rate is an important judgment factor, and any measures, technical norms, or standard designs regarding the airtight performance are required.

The present invention is to solve the problems of the prior art as described above, using only the hardware to be fixed by the c-shaped bracket for the OSB (oriented strand board) joint that is a separate configuration of the joint member in addition to the ready-made wall for construction modules and wall joints It provides a jointing and joining method of the structural combined heat insulating wall that can maintain the heat insulating part.

The present invention to achieve the above object,

The outer wall is composed of a compressed wood board (OSB), the inside of the compressed wood board is a joint system between the structural combined heat insulating wall filled with a heat insulating material, each wall has an internal heat insulating material formed with an uneven receiving portion at both ends of the joint connected to the other wall The airtight member is hermetically coupled to each other through a joint member having an uneven shape accommodated in the uneven receiving part, and the joint members joined to each of the walls are connected to each other after the uneven surfaces opposite to each other. It is fixed by the fixing means for supporting the two joint members on the basis, and provides a joint method between the structural combined heat insulating wall coupled through the fixing means for supporting both of the heat insulating wall on the basis of the connection line between the heat insulating walls to be coupled.

The joint member is characterized in that the wood material, the fixing means is preferably to use a joint clamp. In addition, the gasket may be inserted into a portion where the joint member and the heat insulating material are in contact with each other to be hermetically coupled.

In addition, in the present invention, the outer wall is composed of a compressed wood board (OSB), and the inside of the compressed wood board is a joint method between the structural combined heat insulating wall filled with a heat insulating material, wherein each of the walls is uneven receiving portion at both ends of the joint connected to the other wall. It has an internal heat insulating material formed, and is coupled between the joints between the two wall to be joined via a joint member having a concave-convex shape at both ends, and coupled through a fixing means for supporting both heat insulating walls based on the connection line between the heat insulating walls to be joined. It provides a joint method between the structure and the heat insulating wall.

The outer surface of the joint member is composed of a compression wood board (OSB), the inner compression wood board is composed of a heat insulating material, it can be hermetically coupled by inserting a gasket in the portion where the joint member and the heat insulating material contact.

In addition, in the present invention, the outer wall is composed of a compressed wood board (OSB), the inside of the compressed wood board is a joining method between the structural combined heat insulating wall and the basic joint filled with a heat insulating material, the heat insulating wall is an internal heat insulating material formed with an uneven receiving portion in the joint portion Has a structure that is joined to the joint member having a concave-convex shape accommodated in the concave-convex accommodation portion, the anchor bolt formed from the base joint portion to support the heat insulating wall through the joint member in the vertical direction It provides a joining method between the combined insulating wall and the foundation joint.

The joint member may use a wood material, and may be hermetically coupled by inserting a gasket into a portion where the compressed wooden board and the base joint are in contact with each other.

In addition, in the present invention, the outer wall is composed of a compressed wood board (OSB), and the inside of the compressed wood board is a joint method between the structural combined heat insulating wall filled with a heat insulating material, wherein each of the walls is uneven receiving portion at both ends of the joint connected to the other wall. In the first heat insulating wall and the second heat insulating wall having a formed inner heat insulating material, and the joint member having a concave-convex shape accommodated in the uneven receiving portion is coupled, the second heat insulating wall is perpendicular to the first heat insulating wall. In addition, it provides a joint method between the structural double-wall insulation wall is supported through the bonding screw nail coupled to the joint member of the second heat insulation wall vertically penetrating the first heat insulating wall.

The joint member may be made of wood, and may be hermetically coupled by inserting a gasket into a portion where the outer wall of the second insulating wall contacts the outer wall of the first insulating wall.

According to the present invention, high heat insulation and high heat insulation design required for low-energy housing, and at the same time, the heat loss through the joints and joints of the structural double-wall insulation wall having the construction and airtightness can be minimized, energy saving effect and construction and airtightness can be obtained. .

In addition, the joints and joints of the structural double-wall insulation wall are assembled on-site with the factory-produced wall and wall joints, so that the construction and easy disassembly are combined with the traditional Korean joint method. Has the effect of improving the airtight performance.

1 is a cross-sectional view showing a joint 100 between a wall and a wall according to an embodiment of the present invention.
2 is a cross-sectional view illustrating a joint method 200 between structural insulating walls having a predetermined thickness or more according to an embodiment of the present invention.
3 is a cross-sectional view showing a joining method between the structural combined heat insulating wall and the foundation joint according to the present invention.
4 is a cross-sectional view showing a bonding method 400 for the edge junction between the wall and the wall according to an embodiment of the present invention.

The terms or words used in this specification and claims are not to be construed as being limited to their ordinary or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best describe their invention. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

First, the joint method between a wall and a wall is demonstrated.

1 is a cross-sectional view showing a joint 100 between a wall and a wall according to an embodiment of the present invention.

Insulating wall according to the present invention is the outer wall 101 is composed of a compressed wood board (OSB), the inside of the compressed wood board uses a structural combined heat insulating wall 103 filled with a heat insulating material 102, which is OSB (oriented) A strand board is a drywall that is configured to act as a flange of a steel frame and to perform the behavior of a structure in which high-performance insulation plays the role of a web. In particular, it is preferable to use high density polystyrene as the material of the heat insulating material 102, but is not necessarily limited thereto.

Referring to FIG. 1, each of the heat insulating walls 103 has an internal heat insulating material 102 having uneven receiving portions 107 formed at both ends A and B of the joint part connected to the other heat insulating walls 104. It is comprised by the 1st joint member 105-1 and the 2nd joint member 105-2 which are accommodated in the accommodating part 107, respectively, and have an uneven shape 106. As shown in FIG.

By using the internal insulation 102 having the uneven receiving portion 107 and the first joint member 105-1 and the second joint member 105-2 having the uneven shape 106 as described above, the wall The airtightness and heat insulation can be improved even in the part joined. As the joining members 105-1 and 105-2, it is preferable to use a joining wood, and a method of fabricating and assembling a size accommodated in the uneven portion is used.

Hereinafter, the combination method will be described.

First, the first joint member 105-1 having the concave-convex shape is coupled to the heat insulating wall 103 serving as a reference, and then the opposite surface of the convex-concave surface of the second joint member 105-2 is coupled. Make contact with the opposite surface of the joint member. Next, it is necessary to fix the first and second joint members 105-1 and 105-2 contacted with each other as described above, wherein each joint is used by using the c-shaped bracket 108 as the first fixing means. The dragon members 105-1 and 105-2 are fixed to the upper and lower portions one by one to be fixed to each other. Thereafter, the other heat insulating wall 104 is coupled to the uneven portion 106 of the second joint member 105-2, and the uneven receiving portion 107 inside the other heat insulating wall 104 is The insulating member 102 and the concave-convex shape of the second joint member 105-2 are coupled to each other so that the insulating walls 103 and 104 are connected to each other. After that, the fixing of the joint members is similarly completed by fixing both heat insulation walls 103 and 104 using the c-shaped clamp 109 as the second fixing means. In addition, the gasket 110 may be installed at a portion where the joint members and the heat insulating material contact with each other to be more hermetically coupled.

In addition to the ready-made wall for the construction module as described above, the joint of the structural double-walled insulation wall that can be used only for the hardware fixed by the OS- (oriented strand board) C-shaped clamps and to maintain the heat insulation in the wall joint And to provide a bonding method.

Next, when the thickness of the structural combined heat insulating wall is larger than 200mm, the joint method 200 between the wall and the wall will be described.

Figure 2 is a cross-sectional view showing a joint method 200 between the structural combined heat insulating wall of a predetermined thickness or more according to an embodiment of the present invention, when the thickness of the structural double insulating wall to increase more than 200mm to improve the energy reduction of low-energy housing In addition, in addition to the ready-made wall for the construction module as shown in FIG. 2 for high airtightness, by adopting a method of using only the hardware to be fixed by the U-shaped clamp for OSB joints and to maintain the heat insulation in the wall joint In addition, the method of minimizing the weakness of insulation was used.

Since the heat insulation wall is the same as that described above, it is omitted.

Each of the heat insulating walls 203 has an internal heat insulating material 202 having an uneven receiving portion 207 formed at both ends A and B of the joints connected to the other heat insulating walls 204, and between the two wall joints to be joined. Fixing means 209 is coupled to the end via a joint member 205 having a concave-convex shape 206 and supports both of the insulating walls based on the connection line 208 between the insulating walls 203 and 204 to be joined. Combined through.

The joint member 205 has the same shape as that of the first joint member 105-1 and the second joint 105-2 integrally formed in the above-described embodiment. It has the same structure, the outer surface is composed of a compressed wood board (OSB), the inside of the compressed wood board is composed of a heat insulating material. However, unlike the joint method of FIG. 1, the joint member has a unitary structure, and is coupled to the uneven portion of one of the heat insulating walls, and has a structure that is directly coupled to the other heat insulating wall without the need for fixing the joint members separately. . However, after being combined as described in FIG. 1, the two insulating walls 203 and 204 are fixed by using the c-shaped clamp 209 as a fixing means, and the portion in which the joint member and the heat insulating material are in contact with each other. Inserting the gasket 210 in the can further increase the airtightness.

Next, a bonding method 300 between a wall and a foundation joint, which is another embodiment of the present invention, will be described.

3 is a cross-sectional view showing a joining method between the structural combined heat insulating wall and the foundation joint according to the present invention.

The heat insulation wall 301 described above has an internal heat insulator 302 having an uneven receiving portion 303 formed in a joint portion, and is bonded through a joint member 304 having an uneven shape accommodated in the uneven receiving portion 303. However, the concrete expansion anchor bolt 306 formed from the bottom surface 305 that is the base joint portion has a structure for supporting the heat insulating wall through the joint member in the vertical direction.

Preferably, the joint member is made of a wood material, and the gasket 307 may be inserted into a portion where the compressed wooden board and the base joint are in contact with each other to be hermetically coupled.

Next, the joining method to the edge junction part between a wall and a wall is demonstrated.

4 is a cross-sectional view showing a bonding method 400 for the edge junction between the wall and the wall according to an embodiment of the present invention.

The outer wall 403 is composed of a compressed wood board (OSB), and the inside of the compressed wood board is a joint system between the structural combined heat insulating wall filled with a heat insulating material 404, the respective wall 401 is connected to the other wall 402. Insulation having an inner heat insulator 404 having an uneven receiving portion formed at both ends of the joint portion, and having a first joint member 405 and a second joint member 406 having an uneven shape accommodated in the uneven receiving portion, respectively. In order to form a corner joint with the wall 401 and the other heat insulating walls 402, the other heat insulating wall 402 is vertically coupled to the heat insulating wall 401, and vertically penetrates the heat insulating wall 401. It is coupled to the structure supported by the bonding screw nail 407 is coupled to the second joint member 406 of the other heat insulating wall 402.

Similarly, the joint members 405 and 406 are preferably made of wood, and the gasket 408 is inserted into a portion where the outer wall of the other insulating wall 402 is in contact with the outer wall of the insulating wall 401. Can be combined.

Although the present invention has been described with reference to one embodiment shown in the accompanying drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Could be. Accordingly, the true scope of protection of the invention should be defined only by the appended claims.

101: outer wall 102: insulation
103: insulation wall 104: other insulation wall
105-1: first joint member 105-2: second joint member
106: irregularities shape 107: irregularities receiving portion
108: first fixing means 109: second fixing means
110: gasket 203: insulating wall
204: other insulation wall 205: joint member
206: uneven shape 207: uneven receiving portion
208: connecting line 209: fixing means
210: gasket 301: insulation wall
302: internal insulation 303: uneven portion
304: joint member 305: bottom surface
306: anchor bolt 307: gasket
401: insulation wall 402: other insulation wall
403: outer wall 404: internal insulation
405: first joint member 406: second joint member
407: screw nail

Claims (13)

delete delete delete delete In the joint system between the structural and heat-insulating wall having an outer wall composed of compressed wood board (OSB) and the inner heat insulating material filled in the inside,
The heat insulating wall and the other heat insulating wall is formed with an uneven receiving portion at both ends of the internal heat insulating material connected to each other,
Concave-convex shapes respectively accommodated in the concave-convex receiving portion is hermetically coupled via the first joint member and the second joint member formed on one side,
The first joint member and the second joint member are integrally formed with an outer wall formed of a compressed wood board (OSB) and a heat insulating material filled in the inside,
After the concave-convex opposite surfaces are in contact with each other, it is fixed by the first fixing means based on the contact surface,
Joint method between the structural combined heat insulating wall, characterized in that coupled via the second fixing means based on the connection line of the heat insulating wall and the other heat insulating wall to be coupled.
delete The method according to claim 5,
A joint system between the structural and thermally insulating wall, characterized in that the gasket is inserted into and coupled to a portion where both ends of the joint member integrally formed and the inner heat insulating material of the insulating wall is in contact with each other.
delete delete delete delete delete delete

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