KR101297867B1 - ㄷ type unit for prefabricated buildings and constructing method using the same - Google Patents

Abstract

The present invention relates to a unit unit for building a prefabricated building and a construction method of a prefabricated building using the unit, wherein the unit of the present invention is provided with panels only on three sides of the hexahedron, and the units are rotated in a desired direction to each other. By assembling, buildings of various shapes and sizes can be assembled, and the utility of the building can be installed using a space generated by combining frames having a predetermined size.

Description

ㄷ -shaped unit for prefabricated building and construction method of prefabricated house using same {ㄷ type unit for prefabricated buildings and constructing method using the same}

The present invention relates to a U-shaped unit for a prefabricated building and a construction method of a prefabricated building using the same. In particular, the present invention relates to a technology capable of completing a building in various shapes and sizes by assembling the unit in a planar and vertical direction using a unit in which panels are installed only on three sides of a hexahedron.

The building sector accounts for one-third of the national pollution, of which housing and commercial buildings account for 25.7% of the country's energy consumption (as of 2000). Therefore, it is important to reduce the amount of waste by increasing the lifespan through the disposal or renovation of buildings, and to increase the utilization of regeneration. Responding to the goal of 15% GHG reduction by 2020 and the international community's technological development pressure to reduce environmental load in the future, internally, the innovation of building technology will increase the resource circulation which increases the long life and reuse of buildings. It is a necessary time.

The biggest environmental impact in the field of construction is the problem of waste disposal. Generally, waste is landfilled or incinerated. There is a danger of destroying the sea or coastline, and destroying the ecosystem of mountainous soil and groundwater. Also, the chronic shortage of disposal sites and the limit of allowable imports are becoming social issues, especially the illegal dumping of construction waste It is not said. On the other hand the incineration disposal are environmental pollutants, starting with fear, dioxins on global warming due to CO ₂ occurs is strongly questioned mad adverse effects on human health.

As a basic countermeasure against such a waste disposal problem, it is required to suppress the amount of waste generated as much as possible even if it does not discharge the waste or even if it does not discharge the waste. In other words, in the field of construction, interest in 3R for reducing, recycling, recycling and recycling waste materials is increasing.

As part of this effort, prefabricated housing units are being developed. In the case of such a prefabricated housing unit, the box-shaped steel frame is produced at the factory, and in the field, it is a technology that can be completed in a short time with a minimum process.

Looking at the conventional patent technology for the prefabricated house, Korean Patent Registration No. 10-0329714 is a technology related to the box-type unit for the prefabricated house, a screw hole is installed in the corner pillars of the lower box-type unit, the screw pin By tightening, the technology reveals a technology that makes pins easy to center, install and dismantle.

Republic of Korea Patent Registration No. 10-1020213 relates to a mobile assembly housing and a method of assembling, by making the cone and the frame and the outer wall, ceiling, floor surface separately, and tightening the cone and frame to build a skeleton, floor, ceiling, The company unveils the technology of assembling the exterior walls with bolts and decorating the interior for home use.

In the above-described conventional techniques, most of the prefabricated units are simply wall frames, and in the installation of utilities such as pipes, it is very difficult to install them on the lower part of the unit or on the wall. In addition, even in a prefabricated house, it was difficult to change the shape of the house as needed.

Particularly, even if it is a prefabricated type, a unit is manufactured in a factory to be assembled at a site according to a predetermined house type, and the commercial success is achieved by extending only the basic unit and building a desired type of house by a so-called "Lego" type combination. There is no technology.

An object of the present invention is to provide a prefabricated building unit that can be easily assembled to build the desired type of building according to the user's convenience.

Another object of the present invention is to provide a unit that is easy to install a utility such as piping and is not exposed to the outside.

In addition, another object of the present invention to provide a building method of a building using the unit.

In order to achieve the above object, the present invention relates to a unit unit for a prefabricated building in which the panel is installed only on three of six faces of a hexahedron consisting of 12 frames of a constant size, and the overall appearance is "C-shaped". A plurality of panel supports for vertically connecting between two parallel frames of the unit are installed, the panel is installed on one or both sides of the panel support, and the space between the frames in contact with the other units provides utility. It provides a U-shaped unit for prefabricated building, characterized in that it can serve as a space to install.

In particular, the frame, the frame body having a plurality of hollows divided into a plurality of partitions therein, the cross section is square, the appearance of a long bar shape; And it is preferable to include an insertion incision formed in the groove shape is cut in the longitudinal direction on the four sides of the frame body in the same shape.

In particular, it is preferable to have a wider opening in the middle of the insertion incision than the width of the insertion incision.

In particular, the panel support has a vertical reinforcing bar as a central axis, the first horizontal support, the second horizontal support and the third horizontal support is located in parallel, the second horizontal support is the first horizontal support and the second horizontal support It is elongated so as to protrude further, and the overall cross-sectional shape is preferably "王".

In particular, it is preferable that the length between the first horizontal support and the second horizontal support is longer than the length between the second horizontal support and the third horizontal support.

In particular, it is preferable that the protruding sock end of the second horizontal support of the panel support is fitted to the insertion cutout of the frame.

In particular, it is preferable that the heat insulating material is filled in the hollow part of the said frame.

In addition, the present invention is a method of building a prefabricated building using a unit unit for a prefabricated building, in which the panel is installed only on three of six faces of a hexahedron consisting of 12 frames of a constant size, and the overall appearance is "C-shaped". A plurality of panel supports for vertically connecting the two parallel frames are installed, the panel is installed on one or both sides of the panel support, and the space between the frames in contact with the other unit can install the utility The frame may include a frame body having a long bar shape having a rectangular cross section and an insertion incision formed in a groove shape by cutting in the longitudinal direction in the same shape on four sides of the frame body. To prevent the frame of the unit touching each other in the up and down direction from side to side To, using a pin to a vertical projection of the inserts in the two parts of each insertion section of the frames in contact with top and bottom provides a method of construction of prefabricated buildings, characterized in that the fixed installation.

In particular, the frame has a wider opening than the width of the insertion incision in the middle of the insertion incision, the pin is made of a vertical projection and the insertion bracket is installed symmetrically about the lower end of the projection with a central axis After the pin is inserted into the opening, the pin is preferably pushed in the direction of insertion incision.

", "

" 또는 "

"인 것이 바람직하다.
In particular, the cross-sectional shape of the insertion bracket of the pin is "

","

" or "

Is preferred.

In particular, the frame is inserted into the frame of the two units are assembled to each other, by using a joint joint in which both ends are refracted at right angles in the form of a long plate and a frame joint including insertion brackets at each of the bent ends of the joint body. It is preferable to fix the insertion bracket of the frame joint to the part.

", "

" 또는 "

"인 것이 바람직하다.
In particular, the cross-sectional shape of the insertion bracket of the frame joint is "

","

" or "

Is preferred.

Particularly, after joining the frame and the frame between the mutually different units with the frame joint, in order to cover the exposed incision or opening portion that is not coupled to the frame joint, a long plate-shaped opening cover, Or it is preferable to cover with an opening cover in which both ends are refracted in the same direction vertically as a long plate shape.

In particular, the utility is preferably at least one of power supply piping, water piping, gas piping and communication piping.

In particular, the panel support, the first horizontal support, the second horizontal support and the third horizontal support is positioned in parallel with one vertical reinforcement as a central axis, the second horizontal support is the first horizontal support and the second horizontal support It is formed to protrude more than the support, the overall cross-sectional shape is "王", characterized in that the length between the first horizontal support and the second horizontal support is longer than the length between the second horizontal support and the third horizontal support. And, by changing the vertical direction of the panel support, it is preferable to adjust the size of the space in which the utilities between the frame and the frame of the different units can be installed.

In particular, in order to expand the space between the frames that are in contact with different units, it is preferable to further include a utility frame between the frame and the frame.

In particular, the utility frame has the same shape as the frame, it is preferable to have an insertion incision formed in the groove shape by cutting the same on the four surfaces of the utility frame body and the body.

In particular, the insertion cutout of the utility frame is preferably wider than the insertion cutout of the frame.

"형상의 프레임기초지지대바디를 가지며, 상기 프레임기초지지대바디의 일 말단에는 삽입꺽쇠를 가지며, 상기 삽입꺽쇠가 프레임의 삽입절개부에 삽입결합되며, 타 말단은 건축물 기초 구조물에 고정결합되는 것이 바람직하다.
In particular, using the frame foundation support characterized in that the unit is fixed to the foundation structure of the building, the frame foundation support is "

It has a shape of the frame base support body, one end of the frame base support body has an insertion bracket, the insertion bracket is inserted and coupled to the insertion section of the frame, the other end is preferably fixed to the building foundation structure Do.

", "

" 또는 "

"인 것이 바람직하다.
In particular, the cross-sectional shape of the insertion bracket of the frame base support is "

","

" or "

Is preferred.

In particular, at the corner where the three frames meet is provided with a cap-shaped edge finishing material for fixing and finishing the three frames, the edge finishing material can be inserted into each of the three axes orthogonal frame coupled It is preferable to include a frame fitting portion and to have an opening for wiring so that electric wiring and facility piping can pass through each of the frame fitting portions.

In particular, in order to support the panel in a portion adjacent to the edge finishing material, a corner panel support body bent in a c-shape, a straight connection rod formed in the central axis of the bent direction of the corner panel support body, and the connection rod It is preferable to further include a corner panel support including an insertion bracket to be inserted into the center through the opening of the frame and then pushed in the direction of insertion incision.

The "C-shaped unit" of the present invention is a hexahedron-shaped unit unit of which three sides are open and three sides are filled with panels, and the unit units of the present invention are rotated in a desired direction and assembled together to form various types of buildings easily. Can build.

In addition, since the utility can be installed in the space between the frame, the utility line is exposed to the outside in order to install the utility in the prior art, or the space saving compared to the need for a task to secure a separate space for the installation of the utility It has the effect of reducing cost and reducing air.

1 is a view for explaining the "C-shaped unit" 100 of the present invention.
2 is a view illustrating the construction of a building in a desired shape and size by connecting the "c-shaped unit" 100 of the present invention from side to side.
3 is a view showing a method of building a new third building (h3) by connecting the first building (h1) and the second building (h2) built by extending the unit 100 of the present invention.
4 is a view for explaining the connection between the unit 100 and the unit 100 when assembling the unit unit 100 of the present invention.
5A is a perspective view showing the structure of the frame 10 according to the first preferred embodiment of the present invention, and FIG. 5B is a perspective view showing the structure of the frame 10-1 according to the second preferred embodiment of the present invention.
FIG. 6A is a view for explaining a relationship in which the pin 40 of the first embodiment of the present invention is coupled to the frame 10. FIG. 6B is a view showing various insertion brackets (for the pin 40 of the first embodiment of the present invention). Fig. 6C is a cross sectional view of the pin 40-1 of the second embodiment of the present invention.
FIG. 7A is a cross-sectional view after the pin 40 of the first embodiment of the present invention is inserted into the insertion space 14 of the frame 10. FIG. 7B shows the pin 40-1 of the second embodiment of the present invention. It is sectional drawing after bonding to the frame 10-1.
FIG. 8A is a perspective view illustrating the frame joint 50 of the first embodiment of the present invention. FIG. 8B is a cross-sectional view of the frame joint 50 of the present invention in combination. FIG. 8C is a cross-sectional view of the frame joint 50. 8D is a cross-sectional view of the frame joint 50-1 of the second embodiment of the present invention, and FIG. 8E is a frame joint 50-1 of the second embodiment of the present invention. Is a cross-sectional view of the combined state.
Figure 9a is a perspective view of the opening cover 70 is coupled to the frame 10, Figure 9b is a cross-sectional view of the opening cover 70.
10A is a perspective view of the panel support 60, FIG. 10B is a sectional view, and FIG. 10C is a sectional view of two units 100 contacting each other with the panel support 60 installed, and FIG. 10D is a sectional view of the frame foundation support. to be.
FIG. 11A is a cross-sectional view in which a utility frame 70 is further provided between the frames 10 in order to further secure a space between the frames 10 and 10, and FIG. 11B is a utility frame joint ( 80 is a cross-sectional view, and FIG. 11C is a cross-sectional view of various utility frame joints 80.
12A is a perspective view of an edge panel support 60 'according to one embodiment, FIG. 12B is a cross-sectional view of various edge panel support 60', and FIG. 12C is an edge panel support 60 'mounted on the frame 10. FIG. 12D is a plan view after the edge panel support 60 ′ is coupled to the frame 10.
FIG. 13A is a perspective view of the edge finishing material 30 according to one embodiment, FIG. 13B is a plan view, and FIG. 13C is a diagram illustrating the passage of electric wiring.
** Brief description of drawing symbols **
10, 10-1: Frame 11: Frame body
12: opening 13, 13-1: insertion incision
14: insertion space 15: partition
16: central space 20: panel
30: corner finishing material 31: frame fitting
32: wiring opening 33: A-shaped wiring opening
32a, 33a: lid 40, 40-1: pin
41: protrusion 42: insertion bracket
50, 50-1: Frame joint 51: Frame joint body
52: insertion bracket 60: panel support
61: 1st horizontal support 62: 2nd horizontal support
63: third horizontal support 64: vertical reinforcement
60 ': corner panel support 61': corner panel support
61a ', 61b': upper surface, lower surface 62 ': connecting rod
63 ': insertion bracket 70: utility frame 73: insertion section 80: utility frame joint 81: utility frame joint body 82: insertion bracket 83: 1/2 type insertion bracket 90: frame foundation support 91: frame foundation support body 93: Insertion Bracket 100: Unit

Hereinafter, in the present invention, "building" is used in a comprehensive sense including a house, apartment, factory, hospital, and the like. The present invention is characterized in that it is possible to build the building of various forms by assembling each other by changing the direction of the unit unit. For reference, the following description and drawings of the present invention focuses on the first preferred embodiment (frame 10, pin 40, frame joint 50, etc.).

Hereinafter, the present invention will be described with reference to the drawings.

1 is a view for explaining a "C-shaped unit" (hereinafter abbreviated as "unit", 100) of the present invention. The unit of the present invention is based on a cube having 12 sides and 6 faces, in particular a cube. In the case of a conventional prefabricated building unit, as described above, although a unit manufactured in advance in a factory is used, it is a method of pre-fabricating in a factory in a desired size or shape by pre-ordering and only assembling in the field. Almost no technique has been disclosed to produce a desired shape of a building by combining the unit of a single size in a desired direction, but the unit of the present invention uses a cube having the same number of faces with and without a panel to expand and expand vertically. This is characterized by possible. Extending the structure by connecting the panelless and panelless surfaces is the main connection method, but if necessary, the assembly of the paneled and panelless surfaces, the paneled and paneled surfaces, Various types of assembly are possible through the connection of. In addition, in the present invention, since the direction of the single unit 100 of one type can be assembled to each other, unlike the prior art, it is possible to complete one building using only one unit.

The unit 100 of the present invention is based on a cuboid, in particular a cube, and thus 12 frames 10 are located at positions corresponding to 12 sides. The exterior and / or interior panel 20 is installed only on three surfaces, which are half of the six surfaces formed by the frame 10. Since the panel is installed only on three surfaces of the cube, the overall shape is called a "c" shape, so the unit of the present invention is referred to as a "c-shaped unit".

As described above, the unit of the present invention can be various forms by rotating one unit unit as the side of the panel is changed among the six sides as it rotates. Therefore, after one unit is produced in a factory, the building can be completed by rotating the unit and assembling it into a desired shape. Of course, after completing the skeleton of the final form of the building unit using the unit of the present invention, it is natural that the surface without the panel to be left should be finished with a finish such as glass. In addition, it is natural that the interior panel may be further installed in order to divide the empty spaces as needed, and the interior work may be performed.

2 is a view for explaining an example of building a building in the desired shape and size by connecting the "C-shaped unit" of the present invention from side to side. As shown in FIG. 2, the surface without the panel 20 of one unit 100 and the surface without the panel 20 of the other unit 100 may be connected to each other to extend horizontally and vertically. As described above, after the building of the desired shape is finally assembled, the surface without the panel 20 may be filled with various finishing materials including glass to complete the building.

FIG. 3 is a view of a third building (H ₁ ), which is already built using the unit 100 of the present invention, and a second building (H ₂ ), which is already built in a separate place, are interconnected. a diagram illustrating a method of building a ₃ h). Person 1 who lives in the first building (h ₁ ) assembled by building the unit 100 of the present invention and person 2 who lives in the second building (h ₂ ) assembled by building the unit 100 of the present invention are married. In case of, the third building (h ₃ ) can be built by connecting the buildings (h ₁ , h ₂ ) where they lived. This is because the unit 100 of the present invention can be extended by connecting the surface without the panel. In addition, in the case where the part with the panel is to be connected and expanded, the panel part can be removed and then expanded through the surface.

4 is a perspective view illustrating a connection between the unit 100 and the unit 100 when assembling the unit unit 100 of the present invention. For reference, in FIG. 4, the panel 20 is deleted for convenience of description. It is obvious that a technical configuration for coupling is required in the connection portion of the unit 100 and the unit 100, and the following describes the original connection method of the present invention when the unit 100 and the unit 100 are combined. Let's do it.

As shown in FIG. 4, when assembling the unit 100 and the unit 100, the frames 10 of different units 100 should be connected to each other, but the pins 40 and the frame joints are connected to each other when the frames 10 are connected. The frame 10 is fixed through 50. In addition, the eight corners of each unit 100, in order to finish the end of the frame 10, the end surface of the three frame abuts with a normal edge closing lid 30 is closed. Hereinafter, the frame 10, the pin 40, and the frame joint 50 will be described in sequence.

5A is a perspective view showing the structure of the frame 10 according to the first preferred embodiment of the present invention. The frame 10 of the present invention has a plurality of hollows therein, and has a long bar shape having an overall cross section of a square shape, and each surface has the same shape. Frame 10 of the present invention is formed on each side of the above-described frame bar 11 of the rectangular bar form an opening 12 formed by cutting in the center portion, the sides of the opening 12 Into each opening is provided with a narrower narrow opening 13 than the opening 12. In addition, the inner space of the frame 10 is preferably a symmetrical form of the upper and lower sides and the left and right by the partition wall 15, it may be produced not symmetrical. Except for the partition wall 15, the inner space is preferably composed of a plurality of hollow portions. In particular, the above-described opening 12 and the insertion cutout 13 to the pin 40, the frame joint 50 and the frame support 60 to be described later to be fitted, the internal space of the frame 10 It has an insertion space 14. Preferably, the insertion space portion 14 has a hollow cross section, and each of the insertion spaces 14 is provided at a lower portion of the four sides of the frame 10 (see FIG. 5). This is because the four sides of the frame 10 of the present invention have symmetry.

Among the plurality of hollow portions divided by the partition wall 15, it is preferable to have a central space portion 16, which is a cylindrical hollow portion, in the center of the cross section. Since the central space 16 is cylindrical, the pressure applied to the frame 10 is evenly distributed to prevent the external force from being concentrated on a part of the frame 10. In addition, by filling the heat insulating material in a plurality of hollow portions divided by the partition wall 15, a heat insulating effect can be obtained.

In the present invention, the pin 40 and the frame joint 50 are inserted and fitted through the opening 12 and the insertion cutout 13 of the frame 10, and the frame support 60 is inserted into the cutout 13. Fitting through). Preferably, the opening 12 and the two incisions 13 have the same length. The openings 12 are positioned in the lengthwise direction of the frame 10 by a length corresponding to 1/3 of the center, and one-third of the length of the frame 10 to the left and right of the opening 12, respectively. It is preferable that the insertion cutout portion 13 having a length corresponding thereto is provided.

Meanwhile, the width d ₁ of the opening 12 must be wider than the width d ₂ of the insertion cutout 13. This is because the pin 40, the frame joint 50, which will be described later, is inserted through the opening 12 and then moved in the direction of the insertion cutout 13 positioned to the left and right to be fitted to the insertion cutout 13. to be. That is, the width of the insertion brackets 42 and 52 of the pin 40 and the frame joint 5 is equal to or smaller than the width of the opening 12, but is wider than the cut width of the insertion cutout 13. After insertion through the outlet 12, the insertion clamps 42 and 52 are inserted into the insertion space 14 located below the insertion incision 13 by being pushed toward the narrow insertion incision 13. After being fitted, it does not fall out of the incision 13.

5B is a perspective view of the frame 10-1 according to the second preferred embodiment of the present invention. The basic structure is the same as that of the frame 10 according to the first embodiment described above. However, in the case of the frame 10-1 according to the second embodiment, there is no separate opening 12, and the insertion cutout 13-1 is equally opened along the length of the frame 10-1. have. In addition, there is no additional insertion space 14, the groove is dug into the inside of the frame 10-1 in the same width as the cut width of the insertion cutout 13-1, the insertion cutout 13-1 ) Is replaced by the insertion space portion 14 of the first embodiment. Therefore, since the frame 10-1 of the second embodiment has no separate opening and insertion space, the insertion bracket is not required for the pin 40-1 and the frame joint 50-1.

Hereinafter, the coupling relationship will be described with reference to the drawings.

6A is a view for explaining a relationship in which the pin 40 for coupling to the frame 10 according to the first embodiment of the present invention is coupled to the frame 10. 4 and 6A, when the pin 40 of the present invention is assembled and connected to another unit 100 on one unit 100 to the upper part, the unit 100 placed on the upper side is shaken from side to side. It is used to prevent. Two such pins 40 are preferably installed in each of the four frames 10 on the upper panel of the unit 100 located below (see FIG. 4), but the number of these pins 40 is in the field situation. Can be adjusted accordingly.

As shown in the cross-sectional view of the pin 40 of FIG. 6A, the pin 40 includes a thin plate-like protrusion 41 and an insertion bracket 42 symmetrically formed about the protrusion 41. When the protrusion 41 is inserted into the insertion space 14, the protrusion 41 must protrude out of the insertion cutout 13, so that the width d ₄ of the protrusion 41 is the width d of the insertion cutout 13. _It should be less than or equal to ₂ ).

" 이나, 도 6b와 같이 삽입꺾쇠(42)의 단면형상이 "

", 또는 "

" 등도 모두 가능하다. 삽입꺾쇠(42)의 경우 폭(d₃)이 개방구(12)의 폭(d₁)과 같거나 작으며, 삽입절개부(13)의 폭(d₂)보다 커야, 삽입공간부(14)에 끼움결합된 후 삽입절개부(13)를 통하여 밖으로 탈락되지 않는다.
In Fig. 6A, the cross-sectional shape of the insertion bracket 42 is "

Or the cross-sectional shape of the insertion bracket 42 is as shown in FIG.

", or "

And the like. In the case of the insertion bracket 42, the width d ₃ is equal to or smaller than the width d ₁ of the opening 12 and is larger than the width d ₂ of the insertion cutout 13. After being fitted into the insertion space portion 14, it does not fall out through the insertion incision 13.

6C is a cross-sectional view of the pin 40-1 coupled to the frame 10-1 according to the second embodiment of the present invention, and has only the plate-shaped protrusions of FIGS. 6A and 6B described above.

7A is a cross-sectional view after the pin 40 according to the first embodiment of the present invention is inserted into the insertion space 14 of the frame 10. As shown in FIG. 7A, the pin 40 is fitted into the insertion space portion 14 to the surface of the four surfaces of the lower frame 10 that is in contact with the upper frame 10, and out of the insertion cutout 13. The protruding protrusion 41 is fitted into the insertion space 14 of the frame 10 of the unit 100 placed thereon. The unit 100 coupled to the upper portion through the pin 40 is swayed left and right, thereby preventing falling to the ground.

On the other hand, Figure 7b is a cross-sectional view of the state in which the pin 40-1 according to the second embodiment is coupled to the frame 10-1 according to the second embodiment of the present invention. The basic coupling method is the same as in FIG. 7A, but in FIG. 7B, the pin 40-1 of the present invention is inserted and coupled to each insertion cutout 13-1 of two frames 10-1 contacting each other.

8A is a perspective view illustrating the frame joint 50 of the present invention, FIG. 8B is a cross-sectional view of the frame joint 50 of the present invention in a coupled state, and FIG. 8C is a view illustrating the shape of the insertion bracket 52. 8D is a cross-sectional view of the frame joint 50-1 of the second embodiment of the present invention, and FIG. 8E is a cross-sectional view of the state in which the frame joint 50-1 of the second embodiment of the present invention is coupled.

First, referring to FIG. 4 and FIG. 8A, the frame joint 50 of the present invention is used for fixing between frames 10 abutted between two units when different units 100 are assembled and connected. The pin 40 is used to prevent the left and right movement between the unit 100 is assembled up and down, and when the upper and lower units 100 are coupled, the pin 40 is not exposed to the outside, the frame joint 50 is up and down Used for fixing between the unit 100 connected to the unit 100, left and right connected unit 100, unlike the pin 40 is exposed to the outside. Of course, it may not be visible if the exterior of the unit 100 of the present invention is separately added once more. In the same principle as the above-described pin 40 is first inserted into the opening 12, and then pushed to the left and right insertion incision 13, the frame joint 50 also the joint body 51 and the insertion clamp Consists of 52. In the frame joint 50, the insertion brackets 52 are respectively coupled to both ends of the joint body 51, and each insertion bracket 52 is inserted into the opening 12 of the frame in contact with each other (see FIG. 8A). ), To move to the insertion incision 13 by sliding in the desired direction.

8B is a cross-sectional view after the frame joint 50 of the present invention is coupled. The joint body 51 of the frame joint 50 is plate-shaped, has a width equal to the length between the insertion cutouts 13 of both frames 10, and both ends are bent at 90 degrees. Insertion clamps 52 are positioned at the ends of these two bends, respectively. The shape of the insertion bracket 52 of both ends is the same as the shape of the insertion clamp 42 of the pin 40 mentioned above. This is because the pin 40 and the frame joint 50 are fitted to the insertion space 14.

8C illustrates various forms of frame joint 50 of the present invention. The insertion bracket 52 of the frame joint 50 may be formed in the same manner as the insertion bracket 42 of the pin 40. However, unlike the insertion bracket 42 of the pin 40, the joint bracket 51 may be formed. Since they are located at both bends, the only difference is that there are two insertion brackets 52.

8D is a cross-sectional view of the frame joint 50-1 coupled to the frame 10-1 according to the second embodiment of the present invention. Unlike the frame joint 50 of FIG. 8C, the frame joint 50 is bent into a "c" shape without a separate insertion bracket 52. 8E is a cross-sectional view after the frame joint 50-1 is coupled to the frame 10-1 according to the second embodiment. The difference from the first embodiment is different in that the frame joint 50-1 has no insertion bracket and is fitted to the cutout 13-1. In particular, when using the frame joint 50-1 according to the second embodiment, the frame joint 50-1 can be firmly fixed to the frame 10-1 by conventional means such as bolts and anchors. Of course.

Figure 9a is a perspective view of the opening cover 70 is coupled to the frame 10, Figure 9b is a cross-sectional view of the opening cover 70. Cover the opening 12 to make the exterior beautiful, and even if the frame joint 50 is fitted into the insertion space 14, the opening to prevent the frame joint 50 from moving by gravity or other external force The cover 70 is used, the length of the opening cover 70 is equal to the size of the frame joint 50 described above. The frame joint 70 is used to cover both openings 12 between the frames 10 connected to each other. Unlike the frame joint 50, a plate shape or a plate shape bent without a separate insertion bracket as shown in FIG. desirable. The frame joint 50 covers the openings 12 of the two frames 10 in contact with each other, and is then fixed to the frame body 11 by a conventional method such as a bolt or a piece.

10A is a perspective view of the panel support 60. 12 frames 10 and 3 panels 20 in one unit 100 are the same as described above. The panel 20 is installed between the frame 10 and the frame 10, and the panel support 60 is required to serve as a support for installing the panel 20. 4 shows that the panel support 60 is used. The panel support 60 is vertically connected to two parallel frames 10 of the four frames 10 on the surface where the panel is located, as shown in FIG. The panel 20 is installed on at least one of upper and lower surfaces of the panel support 60 with the panel support 60 as a support. Since the panel can be fixed to the panel support 60 using a conventional bonding means such as bolts, pieces, and the like, a description of the fixing method on the panel support of the panel will be omitted.

10B is a cross-sectional view of the panel support 60. 10A and 10B, the panel support of the present invention preferably has a "wang" shape in the cross section. The panel support 60 is composed of a first horizontal support 61 at the top, a second horizontal support 62 at the center, and a third horizontal support 63 at the bottom with respect to the vertical vertical reinforcement 64. The second horizontal support 62 is preferably wider than the first horizontal support 61 and the third horizontal support 63. This is because, from the structural engineering point of view, the second horizontal support 62 should be wider to distribute the load. This is because it goes well.

10C is a cross-sectional view of the two units 100 in contact with each other with the panel support 60 installed. The present invention will be described with reference to FIGS. 10A, 10B and 10C. As shown in Figure 10a, the length of the second horizontal support 62 of the present invention should be longer than the first horizontal support 61 and the third horizontal support (63). This is because the second horizontal support 62 is fitted to the insertion cutout portion 13 of the frame 10 and fixed to both frames 10. That is, as shown in Figure 10c, the second horizontal support 62 of the three horizontal support (61 ~ 63) is fixed to both ends are coupled to the insertion cutout portion 13 of the two frames (10).

In addition, it is preferable that the length h1 to the first horizontal support 61 is longer than the length h2 to the third horizontal support on the basis of the second horizontal support 62 fitted to the insertion cutout 13. Do. As shown in FIG. 11, the space S serves as a space in which various utilities (U1, U2, etc.) such as an electric line, a water pipe, and a communication line are installed in the space S in contact with two frames. The space between the panel support 60 serves as a space in which the utility is installed, but if the height of the space S is large and the space S is desired, in the case of the panel support 40 of the upper unit, When the third horizontal support 63 comes in the lower direction, and the panel support 40 of the lower unit is installed so that the third horizontal support 63 comes in the upper direction, the space S becomes large. On the contrary, when the upper and lower panel supporters 60 are installed such that the first horizontal support 61 faces the space S, the size of the space S becomes small. In the present invention, by using the panel support 40 made of three horizontal supports with different heights, it is possible to adjust the size of the space (S) between the panel and the panel.

Panels are installed on both sides of the panel support 40 or as needed. Usually it is preferable that the panel 20 is installed on both sides. This is because the panel may only be indoors when installed on the floor. The panel 20 is coupled to the panel support 40 by various joining methods, such as bolts and pieces.

"자형의 바디(91) 중 프레임(10)과의 연결되는 일 말단에는 삽입꺽쇠(92)가 구비되며, 이 삽입꺽쇠의 형상은 프레임조인트(50)나 핀(40)의 삽입꺽쇠와 동일하게 구성되어, 개방구(13)와 삽입절개부(13)를 통해 결합된다. 상기 도 10c 및 10d는 본 발명의 제 1 실시예에 의한 프레임(10)의 경우의 예이며, 제 2 실시예의 프레임(10-1)의 경우에는 프레임기초지지대는 "

"의 바디만 가지며, 별도의 삽입꺽쇠가 없이 프레임(10-1)의 삽입절개부(13-1)에 삽입결합되면 된다(도면 미도시).
On the other hand, as shown in Figure 10c, in order to secure the unit 100 of the present invention to the building foundation structure, the frame 10 in contact with the foundation structure is coupled to the foundation structure using a frame foundation support 90. The preferred frame foundation support 90 of the present invention is as shown in FIG. 10D. Bent twice to 90 degrees "

"In one end of the body 91 is connected to the frame 10 is provided with an insertion bracket 92, the shape of the insertion bracket is the same as the insertion bracket of the frame joint 50 or pin 40 And coupled through the opening 13 and the insertion cutout 13. The above Figures 10C and 10D are examples of the case of the frame 10 according to the first embodiment of the present invention, and the frame of the second embodiment. In the case of (10-1), the frame base support is "

It has only a body of ", and without being inserted into the insertion cutout portion 13-1 of the frame 10-1 without inserting the coupling (not shown).

11a shows a frame 10 in contact with each other and a utility frame 70 which is a separate frame for securing a large space for installing the utility when the space S for installing the utility is larger. It is sectional drawing for demonstrating placing in the middle of the frame 10. FIG. As shown in FIG. 10C, the size of the space between the frames 10 can be adjusted by changing the direction of the frame support 60. However, in this case, since the adjustment width of the space is still not large, a frame ( The utility frame 70 is added to secure space between the frame 10 and the frame 10. The utility frame 70 is the same as the frame 10 of the first embodiment or the frame 10-1 of the second embodiment, except that the width of the insertion cutout 73 of the utility frame 70 is as shown in FIG. 11C. It should be wider than the insertion incision 13, 13-1. The reason is that two utility frame joints 80 are inserted and fixed in the insertion cutout 73 of one utility frame 70 (see sectional view of FIG. 11A). One preferred embodiment of such a utility frame joint 80 of the present invention is shown in FIG. 11B. Referring to FIG. 11B, the preferred utility frame joint 80 of the present invention has insertion brackets 82 and 1/2 type insertion brackets 83 at both ends of the "c" shaped utility frame joint body 81, respectively. . The shape of the insertion bracket 82 at one end is manufactured in the same shape as the insertion bracket 42 of the pin 40 or the insertion bracket 52 of the frame joint 50, but the other half is inserted. The bracket 83 has a shape obtained by cutting half of the insertion bracket 82. The insertion bracket 82 of the utility frame joint 80 of the present invention is inserted into the insertion cutout portion 13 of the frame 10, and the 1/2 type insertion bracket 83 is an insertion cutout of the utility frame 70. It is inserted into the part 73 and fixed.

11C illustrates the shapes of the various utility frame joints 80 of the present invention, but the present invention is not limited to the example of FIG. 11C, and various modifications are possible.

12A to 12D are views of the edge panel support 60 ', which will be described below with reference to a perspective view of the edge panel support 60' of FIG. 12A. The panel support 60 has a "wang" shaped cross section for supporting the panel between the parallel frames 10, and is fitted to the insertion cutout 13 of the frame 10 as described above with reference to 10a and As described in 10b. However, due to the edge finish material 30, the panel support 60 can no longer be installed near the edge finish material 30. Therefore, in order to support the panel 20 near the edge finishing material 30, in addition to the panel support 60, another type of panel support coupled to the frame 10 on the side of the corner finishing material 30 is required. The invention may further comprise a corner panel support (60 ').

As shown in Figure 12a, the corner panel support (60 ') of the present invention in the bending direction of the corner panel support body (61') and the edge panel support body (61 ') both ends bent in a "c" shape. The insertion clamp 63 'is coupled through a linear connecting rod 62' formed at the central axis of the. The insertion bracket 63 'of the edge panel support 60' of the present invention has the same role and shape as the insertion brackets 42 and 52 of the pin 40 and the frame joint 50, so that the pin 40 and Like the insertion brackets 42 and 52 of the frame joint 50, the insertion brackets 62 ′ may have various types of insertion brackets 62 ′ as shown in FIG. 12B.

12C and 12D, the insertion clamp 63 ′ of the corner panel support 60 ′ of the present invention has the same shape as the insertion clamps 42 and 52 of the pin 40 and the frame joint 50. Since it performs a function, it is coupled to the opening 12 of the frame 10, and then pushed in the lateral direction (= corner finishing material 30 direction) toward the narrow insertion opening 13, the insertion opening ( A wider insertion bracket 63 'is fitted than 13). 12D is a plan view after installation of the edge panel support 60 'of the present invention and shows that the edge panel support 60' of the present invention is installed in the frame 10 coupled to the edge finisher 30. As shown in FIG. The panel 20 is fixed to the upper surface 61a 'of the body 61' of the edge panel support 60 '(not shown). The edge panel support 60 'of the present invention is optional, but by adding the edge panel support 60', the panel 20 can be more firmly coupled to the frame.

13A to 13C show an embodiment of the corner finish material 30 of the present invention. Corner finishing material 30 of the present invention is a kind of cap-type component (cap) used to combine the frame 10 at the corners of the cube meets three frames 10, or to finish the appearance beautifully. First, referring to FIG. 13A, which is a perspective view of the edge finisher 30 of the present invention, the edge finisher 30 may be fitable than the cross section of the frame 10 so that the frame 10 may be fitted in three orthogonal directions. The frame fitting portions 31 each having a cross-sectional size that is slightly wide open to each other are provided on three axes that are orthogonal (x, y, z axes). As shown in the cross-sectional view of FIG. 13B, each frame fitting portion 31 is hollow at the rear portion of each fitting portion 31, and an opening 32 for wiring is installed to allow electrical wiring (including a communication line) and facility piping to pass therethrough. do. In particular, it is preferable that the L-shaped wiring opening 33 is installed on the inner surface where the two frame fitting portions 31 are in contact with each other. Of course, instead of the L-shaped wiring opening 33, a general opening type wiring opening 32 may be provided, one on each side. As shown in the perspective view of FIG. 13A, the wiring opening opening 32 must be provided at a position corresponding to the wiring opening opening 32 on the rear surface and the lower surface. In addition, the wiring opening 32 and the L-shaped wiring opening 33 may be covered with lids 32a and 33a as necessary (particularly, in the case of an unused opening). The shape of the lid may be provided in a variety of ways, if the shape that can cover the wiring opening 32 and the L-shaped wiring opening 33 is possible.

13B is a plan view after the frame 10 is coupled to the corner finisher 30, and FIG. 13C is an electrical wiring and opening through the wiring opening 32 and / or the A-shaped wiring opening 33 of the corner finisher 30. And / or a diagram representing a state in which facility piping passes, the present invention is characterized in that the wiring can be installed through the hollow portion of the body of the edge finishing material 30 so that the wiring can easily pass between the units (100). do.

Claims (23)

The invention relates to a unit unit for a prefabricated building, in which a panel is installed only on three of six faces of a hexahedron having 12 frames of a constant size, and the overall appearance is "C-shaped."
A plurality of panel supports are vertically connected between two parallel frames of the unit, the panel is installed on one or both sides of the panel support, and the space between the frames in contact with other units can install a utility. Act as a space,
The frame includes a frame body having a plurality of hollows divided into a plurality of partitions therein, and having a square cross section and a long appearance; And U-shaped unit for prefabricated building, characterized in that it comprises an insertion incision formed in the groove shape is cut in the longitudinal direction in the same shape on the four sides of the frame body.
delete The prefabricated building U-shaped unit of claim 1, further comprising an opening that is cut wider than a width of the insertion cutout in the middle of the insertion cutout.
2. The panel support of claim 1, wherein a first horizontal support, a second horizontal support, and a third horizontal support are positioned in parallel with one vertical reinforcement as a center axis, and the second horizontal support is a first horizontal support and a first horizontal support. It is formed longer to protrude more than the horizontal support, the prefabricated building U-shaped unit, characterized in that the overall cross-sectional shape is "王".
The building unit of claim 4, wherein a length between the first horizontal support and the second horizontal support is longer than a length between the second horizontal support and the third horizontal support.
The prefabricated building U-shaped unit of claim 4, wherein the protruding sock end of the second horizontal support of the panel support is fitted to the insertion cutout of the frame.
The prefabricated building U-shaped unit according to claim 1, wherein a heat insulating material is filled in the hollow part of the frame.
In the method of building a prefabricated building using a unit unit for a prefabricated building in which the panel is installed only on three of six faces of a hexahedron having 12 frames of constant size, the overall appearance of which is "c-shaped",
A plurality of panel supports are installed to vertically connect the two parallel frames, the panel is installed on one or both sides of the panel supports, and the space between the frames in contact with other units is a space for installing utilities. Characterized by being able to play a role,
The frame includes a frame body having a long bar shape having a rectangular cross section and an insertion incision formed in a groove shape by cutting in the longitudinal direction in the same shape on four sides of the frame body,
Prefabricated building, characterized in that by inserting and fixed to each of the insertion cut-out of the two frames in contact with the up and down using a pin including a vertical projection to prevent the frame of the unit in contact with each other in the vertical direction Construction method.
The method of claim 8, wherein the frame further has a wider opening in the middle of the insertion incision than the width of the insertion incision,
The pin consists of a vertical projection and the insertion bracket is installed symmetrically about the lower end of the projection, the central axis,
The pin is inserted into the opening, the building method of the prefabricated building, characterized in that the fitting is pushed in the direction of the incision.
The cross-sectional shape of the insertion bracket of the pin is

","

" or "

"The construction method of the prefabricated building characterized in that it is.
10. The method of claim 8 or claim 9, wherein the frame has a long plate shape, both ends of the frame joint including a joint body that is bent in the same direction vertically, the insertion section of the frame of the two units assembled to each other Construction method of a prefabricated building, characterized in that the fitting by fitting.
The method of claim 11, further comprising insertion brackets at both ends of the joint body of the frame joint.
The method of claim 12, wherein the cross-sectional shape of the insertion bracket of the frame joint is "

","

" or "

"The construction method of the prefabricated building characterized in that it is.
12. The long plate-shaped dog according to claim 11, wherein after joining frames and frames which are mutually contacted between different units with the frame joints, and then covering the exposed cutouts or opening portions that are not joined with the frame joints. A method of construction of a prefabricated building, comprising: a cover, or a long plate, which is covered using an opening cover whose both ends are vertically refracted in the same direction.
The method of claim 8, wherein the utility is any one or more of power supply piping, water piping, gas piping and communication piping.
The method of claim 8, wherein the panel support, the first horizontal support, the second horizontal support and the third horizontal support is positioned in parallel with one vertical reinforcement, the second horizontal support is the first horizontal support and It is formed to protrude more than the second horizontal support, the overall cross-sectional shape is "王", the length between the first horizontal support and the second horizontal support is longer than the length between the second horizontal support and the third horizontal support. Characterized in that,
The method of building a prefabricated building, characterized in that by changing the vertical direction of the panel support, the size of the space in which the utility between the frame and the frame of the different units can be installed.
The method according to claim 8 or 16, further comprising a utility frame between the frame and the frame in order to expand the space between the frames that the different units are in contact.
18. The method of claim 17, wherein the utility frame has the same shape as the frame and has an insertion cutout formed in a groove shape by cutting the utility frame body and the same on four sides of the body.
The method of claim 18, wherein the insertion cutout of the utility frame is wider than the insertion cutout of the frame.
9. The frame foundation support according to claim 8, wherein the unit is fixed to the foundation structure of the building using a frame foundation support.

"There is a frame base support body of the shape, one end of the frame base support body has an insertion bracket, the insertion bracket is inserted and coupled to the insertion incision of the frame, the other end is characterized in that fixedly coupled to the building foundation structure Construction method of prefabricated buildings.
The cross-sectional shape of the insertion bracket of the frame foundation support is "

","

" or "

"The construction method of the prefabricated building characterized in that it is.
10. The method of claim 9, wherein the corners of the three frames are provided with a cap-shaped corner finishing material for fixing and finishing the three frames, the corner finishing material is inserted into the three axes orthogonal to each of the frame is coupled coupling And a frame fitting portion which can be provided, and an opening for wiring so as to allow electrical wiring and facility piping to pass through each of the frame fitting portions.
23. The method of claim 22, For support of the panel in the portion adjacent to the corner finishing material, the corner panel support body bent in a U-shape, and the linear connecting rod formed in the central axis of the bent direction of the corner panel support body, And a corner panel support including an insertion bracket which is inserted through the opening of the frame about the connecting rod and then pushed in the direction of the insertion cutout.

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