KR101715025B1 - Insulation system of free curve type - Google Patents

Abstract

The present invention is based on the idea that a basic structure is formed by using a steel material having high thermal conductivity but high rigidity and wood or recycled plastic is applied to the outside and inside of the steel structure to prevent thermal conduction and increase the heat insulation performance, The present invention relates to a heat insulation system of a free-curved type house,
A first central horizontal support frame 10 disposed at one end of a side surface of the free-curved housing and having a rectangular parallelepiped frame arranged in a linear direction; A second central horizontal support frame 20 installed at one end of a side surface of the free-curved housing and spaced apart from the first central horizontal support frame by a predetermined distance, and having a rectangular parallelepiped frame arranged in a straight line; A first lower vertical supporting frame 30 disposed below the first central horizontal supporting frame and vertically supporting the rectangular parallelepiped frame so as to be supported from the lower part of the first central horizontal supporting frame to the ground; A second lower vertical support frame 40 disposed below the second central horizontal support frame and vertically supporting the rectangular parallelepiped frame so as to be supported from the lower portion of the second central horizontal support frame to the ground; An aluminum or steel frame (not shown) coupled to the first central horizontal support frame and the second central horizontal support frame and fixed to the upper surface of the first central horizontal support frame and the upper surface of the second central horizontal support frame in an arch- 50); A first steel frame fixing means (60) coupled to one end of the left side of the aluminum or steel frame and coupled with the first central horizontal support frame to guide the left side of the aluminum or steel frame to be fixed to the first central horizontal support frame; A second steel frame securing means 70 for engaging with the second central horizontal support frame and guiding the right side of the aluminum or steel frame to be fixed to the second central horizontal support frame; A first outer supporting frame (80) installed at an outer side of the aluminum or steel frame to block heat conduction generated from the aluminum or steel frame; A second outer supporting frame 90 attached to and supporting outer peripheries of the first lower vertical supporting frame and the second lower vertical supporting frame; And an inner supporting frame 100 installed on the inner side of the aluminum or steel frame so as to be interposed between the aluminum or steel frame and the inner structure.

Description

{Insulation system of free curve type}

The present invention forms a structure having a heat insulating property on a roof and a wall portion of a free-curved dwelling, and more particularly, to a structure in which a basic structure is formed by using a steel material having high thermal conductivity but high rigidity, Or recycled plastic to prevent heat conduction and increase the heat insulation performance, thereby providing a housing having excellent rigidity and heat insulation performance.

Since a typical roof connects the frame with a screw connection, additional joining members such as bolts, nuts or fasteners are required and the manufacturing process is complicated. Also, as time elapses, there is a problem that the coupling portion rusts and water leaks into the threaded engagement portion and penetrates into the inside.

Therefore, in the case of a general roof, there is a problem of rising manufacturing, repairing and maintenance costs.

Korean Patent Laid-Open No. 10-2010-018749 relates to a residential roof frame, and more particularly to a residential roof frame having a structure capable of installing and demounting a roof frame in a tiled roof structure. An annular anchor bolt which is screwed to an upper element of the tiled roof frame to lift the tiled roof frame by a wire, and a tiled roof frame which has a shape of a tiled roof frame, And a coupling member which is screwed to a lower portion of the roof frame and is coupled to the roof frame.

However, since the tiled roof frame has a surface coated with paint and is assembled by a roof frame and a screw, there are problems such as corrosion of a roof frame due to environmental changes and time lapse, raining through gaps between frames, There is a problem of increased complexity and maintenance cost.

On the other hand, in general, the frame is used as a column or a beam to form a skeleton of a building. Usually, the wood is used as a wooden material, and the steel material is used as a frame separately as an iron material. However, as the social demand for eco-friendly and health-friendly housing has increased in the residential construction field in recent years, much attention has been focused on buildings made of wood and steel, instead of the existing reinforced concrete structure.

Therefore, although the demand for steel frame is expected to increase in the single-family housing part where the demand for the steel frame is relatively low, existing steel houses, wooden houses, and prefabricated houses have various disadvantages by using only wood or steel independently, In case of wood, it is eco-friendly material, it is easy to process, light weight is easy, construction method is easy, excellent insulation performance and smooth surface material do not require separate finishing treatment, and excellent construction Although it is a material, it is weak against fire and durability is low, which is not suitable for a high-rise building or a large building frame, and a long frame can not be manufactured.

Accordingly, it is possible to provide a steel frame structure which has a large strength to compensate for a wooden frame, can reduce a section of the member, has durability, is easy to standardize and control the quality of the product, It is also used.

On the other hand, when a steel-frame type frame such as steel or aluminum is used, the weight is increased and the thermal conductivity of the steel is large, thereby deteriorating the heat insulation effect.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems, and an object of the present invention is to solve the above-mentioned problems by providing a structure in which a steel frame and a low thermal conductivity wood or recycled plastic (plastic foamed and injection molded) The object of the present invention is to fix a steel frame on a wooden frame with a bracket and to use the space as a facility piping passage in a system installation part to simplify the manufacturing and to block the heat conduction to maximize the insulation effect.

As means for achieving the above object,

A first central horizontal support frame 10 disposed at one end of a side surface of the free-curved housing and having a rectangular parallelepiped frame arranged in a straight line; A second central horizontal support frame 20 installed at one end of a side surface of the free-curved housing and spaced apart from the first central horizontal support frame by a predetermined distance, and having a rectangular parallelepiped frame arranged in a straight line; A first lower vertical supporting frame 30 disposed below the first central horizontal supporting frame and vertically supporting the rectangular parallelepiped frame so as to be supported from the lower part of the first central horizontal supporting frame to the ground; A second lower vertical support frame 40 disposed below the second central horizontal support frame and vertically supporting the rectangular parallelepiped frame so as to be supported from the lower portion of the second central horizontal support frame to the ground; An aluminum or steel frame (not shown) coupled to the first central horizontal support frame and the second central horizontal support frame and fixed to the upper surface of the first central horizontal support frame and the upper surface of the second central horizontal support frame in an arch- 50); A first steel frame fixing means (60) coupled to one end of the left side of the aluminum or steel frame and coupled with the first central horizontal support frame to guide the left side of the aluminum or steel frame to be fixed to the first central horizontal support frame; A second steel frame securing means 70 for engaging with the second central horizontal support frame and guiding the right side of the aluminum or steel frame to be fixed to the second central horizontal support frame; A first outer supporting frame (80) installed at an outer side of the aluminum or steel frame to block heat conduction generated from the aluminum or steel frame; A second outer supporting frame 90 attached to and supporting outer peripheries of the first lower vertical supporting frame and the second lower vertical supporting frame; And an inner supporting frame 100 installed on the inner side of the aluminum or steel frame so as to be interposed between the aluminum or steel frame and the inner structure.

The inner support frame 100 is further provided with a plurality of holes 100a for installing the horizontal steel beams 110. [

Further, it is characterized in that a facility pipe passage 100b is further formed between the aluminum or steel frame 50 and the inner support frame 100. [

The passage 100b is further provided with a heat insulating material.

The aluminum or steel frame 50, the first outer frame 80, and the inner frame 100 are each formed in an elliptical, arcuate or irregular shape.

As described above, according to the present invention, it is possible to fix a steel frame and a low thermal conductivity wood or recycled plastic (plastic foamed and injection molded) And the installation part of the system is used as a facility piping passageway by providing a space for the installation of the system, so that the manufacturing is simplified and the heat conduction is blocked to maximize the heat insulation effect.

In addition, the use of the free-curved insulation system bar enables various design implementations, facilitating the production process, shortening the production time and reducing the material cost. You can also use recycled materials to get closer to eco-friendly architecture.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
Figure 2 is another angular view of Figure 1;
3 is a partial enlarged view of the present invention.
4 is a photograph showing an actual installation of the present invention;
5 shows an embodiment of the invention.
FIG. 6 is an external view of the housing after completing the present invention. FIG.
Fig. 7 is another view of the housing after completion of the present invention. Fig.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terms used below are defined in consideration of the functions of the present invention, which may vary depending on the user, intention or custom of the operator. Therefore, the definition should be based on the contents throughout the present invention.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. The configuration is omitted as much as possible, and a functional configuration that should be additionally provided for the present invention is mainly described.

Those skilled in the art will readily understand the functions of the components that have been used in the prior art among the functional configurations that are not shown in the following description, The relationship between the elements and the components added for the present invention will also be clearly understood.

In order to efficiently explain the essential technical features of the present invention, the following embodiments properly modify the terms so that those skilled in the art can clearly understand the present invention, It is by no means limited.

As a result, the technical idea of the present invention is determined by the claims, and the following embodiments are merely illustrative of the technical idea of the present invention in order to efficiently explain the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs. .

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

Figure 2 is another angular view of Figure 1;

3 is a partial enlarged view of the present invention.

4 is a photograph showing an actual installation of the present invention;

5 shows an embodiment of the invention.

FIG. 6 is an external view of the housing after completing the present invention. FIG.

FIG. 7 is a perspective view of another embodiment of the present invention,

The components of the present invention are generally divided into a first central horizontal support frame 10, a second central horizontal support frame 20, a first lower vertical support frame 30, a second lower vertical support frame 40, An aluminum or steel frame 50, a first metal frame fixing means 60, a second metal frame fixing means 70, a first outer frame support frame 80, a second outer frame support frame 90, An inner support frame 100, and a horizontal steel beam 110.

The first central horizontal support frame 10 is installed at one end of a side surface of a free-curved housing, and a rectangular parallelepiped frame is arranged long in a linear direction.

The second central horizontal support frame 20 is installed at one end of the side surface of the free-curved housing and is spaced apart from the first central horizontal support frame by a predetermined distance. The rectangular vertical frame is arranged in a straight line to be.

The first lower vertical support frame 30 is disposed below the first central horizontal support frame, and the rectangular parallelepiped frame is vertically extended to be supported from the lower part of the first central horizontal support frame to the ground.

The second lower vertical support frame 40 is disposed below the second central horizontal support frame, and the rectangular parallelepiped frame is vertically extended to be supported from the lower part of the second central horizontal support frame to the ground.

The aluminum or steel frame 50 is coupled between the first central horizontal support frame and the second central horizontal support frame and arranged in an arcuate fashion from the upper surface of the first central horizontal support frame to the upper surface of the second central horizontal support frame And is fixed.

The first steel frame fixing means 60 is coupled to the left end of the aluminum or steel frame and engages with the first central horizontal support frame to guide the left side of the aluminum or steel frame to be fixed to the first central horizontal support frame.

The second steel frame fixing means 70 is coupled to the right end of the aluminum or steel frame and engages with the second central horizontal support frame to guide the right side of the aluminum or steel frame to be fixed to the second central horizontal support frame.

The first outer support frame 80 is installed at the outer periphery of the aluminum or steel frame to prevent heat conduction generated from the aluminum or steel frame.

The second outer support frame 90 is attached to and supports the outer periphery of the first lower vertical support frame and the second lower vertical support frame.

The inner support frame 100 is installed on the inner side of the aluminum or steel frame so as to overlap the aluminum or steel frame and insulate the inner structure.

In addition, the inner support frame 100 is further provided with a plurality of holes 100a for installing the horizontal steel beams 110 therein.

In addition, a facility pipeline passage 100b is further formed between the aluminum or steel frame 50 and the inner support frame 100. A through hole 100b is formed in the upper portion of the inner support frame 100 to attach the installation pipe 100b to the lower portion of the aluminum or steel frame 50 to manufacture the facility pipe passage 100b.

Hereinafter, the assembly method of the present invention will be described.

The present invention relates to a frame structure comprising a first central horizontal support frame 10, a second central horizontal support frame 20, a first lower vertical support frame 30, a second lower vertical support frame 40, A frame 50, a first metal frame fixing means 60, a second metal frame fixing means 70, a first outer frame support frame 80, a second outer frame support frame 90, A frame 100 and a horizontal steel beam 110. A first lower vertical support frame 30 is provided below the first central horizontal support frame 10 and a second vertical support frame 30 The second lower vertical support frame 40 is installed.

An aluminum or steel frame 50 is disposed in the upper direction of the first central horizontal support frame 10 and the second central horizontal support frame 20 and at the same time, The support frame 10 is fixed by the first metal frame securing means 60. [

In addition, the aluminum or steel frame 50 and the second central horizontal support frame 20 are fixed by the second steel frame securing means 70.

Thereafter, a first outer frame 80 and a second outer frame 90 are provided on the outer periphery of the aluminum or steel frame 50, and a plurality of inner frame 100 are provided.

When the steel structure is completed as described above, the exterior material and the interior material are further installed to complete the housing.

The inner support frame 100 is formed with a plurality of holes 100a through which the horizontal steel beam 110 is inserted or inserted and the inner support frame is interposed between the inner support frame and the aluminum or steel frame 50 And a piping facility 102 is installed.

In addition, it is possible to maximize the heat insulating effect by inserting the heat insulating material 101 on the upper part of the piping system.

The heat insulating material 101 and the aluminum or steel frame 50 may be adhered to each other with adhesives 103 and 104 or the like.

Hereinafter, the operation and effect of the present invention will be described.

An aluminum or iron frame (50) is installed at the center of the aluminum frame frame (50). A first outer frame frame (80) is provided on the outer periphery of the aluminum frame frame (50) The first supporting frame 80 and the inner supporting frame 100 are made of a wood type and the aluminum type or steel frame 50 is excellent in heat insulation efficiency, It is possible to overcome the problem of heat insulation.

In other words, since the aluminum or steel frame 50 is made of steel, if the temperature difference between the inside and the outside is large due to the thermal conductivity of the steel, the aluminum or steel frame 50 has a disadvantage that heat must escape to the outside through the aluminum or steel frame It was not.

However, in the present invention, the aluminum or steel frame 50 is provided with wood or plastic on the inside and outside thereof, and the inside / outside material is installed after the installation, so that heat escaping through the aluminum or steel frame 50 can be blocked.

In addition, the presence of the aluminum or steel frame 50 makes it possible to prevent water droplets from sticking to the body of the aluminum or steel frame 50 due to ambient moisture.

As a result, the present invention provides the advantage of using an aluminum or steel frame 50 to maintain the rigidity of the framework, while at the same time providing an auxiliary support of wood to the interior and exterior of the aluminum or steel frame 50 to maintain insulation .

10: first central horizontal support frame
20: second central horizontal support frame
30: first lower vertical support frame
40: second lower vertical support frame
50: Aluminum or steel frame
60: first metal frame fixing means
70: second steel frame fixing means
80: first outer support frame
90: second outer frame
100: inner supporting frame
110: Horizontal steel beam

Claims (5)

A first central horizontal support frame 10 disposed at one end of a side surface of the free-curved housing and having a rectangular parallelepiped frame arranged in a linear direction;
A second central horizontal support frame 20 installed at one end of a side surface of the free-curved housing and spaced apart from the first central horizontal support frame by a predetermined distance, and having a rectangular parallelepiped frame arranged in a straight line;
A first lower vertical supporting frame 30 disposed below the first central horizontal supporting frame and vertically supporting the rectangular parallelepiped frame so as to be supported from the lower part of the first central horizontal supporting frame to the ground;
A second lower vertical support frame (40) disposed below the second central horizontal support frame and extending in a vertical direction to support the second central horizontal support frame from the bottom to the ground;
And an arcuate aluminum or iron plate having an arcuate shape fixed to the upper surface of the first central horizontal support frame and the upper surface of the second central horizontal support frame by engaging between the first central horizontal support frame and the second central horizontal support frame, A frame 50;
A first steel frame fixing means (60) coupled to one end of the left side of the aluminum or steel frame and coupled with the first central horizontal support frame to guide the left side of the aluminum or steel frame to be fixed to the first central horizontal support frame;
A second steel frame securing means 70 for engaging with the second central horizontal support frame and guiding the right side of the aluminum or steel frame to be fixed to the second central horizontal support frame;
A first outer support frame (80) provided on the outer surface of the aluminum or steel frame to block heat conduction generated from the aluminum or steel frame and made of wood;
A second outer supporting frame 90 attached to and supporting outer peripheries of the first lower vertical supporting frame and the second lower vertical supporting frame;
And an inner supporting frame 100 made of wood, which is installed on the inner side of the aluminum or steel frame so as to insulate between the aluminum or steel frame and the inner structure,
A facility pipe passage 100b is formed between the aluminum or steel frame 50 and the inner support frame 100 and a heat insulating material is installed in the facility pipe passage 100b,
A space is formed between the aluminum or steel frame 50 and the inner support frame 100 to install the piping facility 102 through the space,
The first outer frame 80 and the inner frame 100 are mounted on the inside or the outside of the aluminum or steel frame 50 and the inner frame 100 is installed on the aluminum frame 50, (50) is prevented from being formed at the same time that the heat generated in the aluminum or steel frame (50) is blocked. The method according to claim 1,
Wherein the inner support frame (100) further comprises a plurality of holes (100a) for installing the horizontal steel beams (110). delete delete The method according to claim 1,
Characterized in that the aluminum or steel frame (50), the first outer frame (80), and the inner frame (100) are in the form of any one of elliptical, arcuate or irregularly curved Of the insulation system.

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