KR200200388Y1 - Set-up constructions for construction architecture - Google Patents

Abstract

The present invention relates to an assembly structure of a prefabricated building, and more particularly, to an assembly structure of a prefabricated building that can be easily combined between a building panel and a panel, and that the coupling structure is completely maintained in airtightness.

The present invention can be assembled and dismantled according to the use of the facility site, and can be easily installed by using only a single hand tool during assembly and disassembly. It is made to provide a prefabricated building that does not require a separate waterproofing facility even if it is used as an outdoor facility as a complete.

The present invention is to reverse the direction of the first assembly member 10 and the panel (1) having the first assembly member 10 made to be opposed to each other on the outer periphery of the panel (1) forming a predetermined wall Third assembly member 30 for connecting the second assembly member 20 for connection and the panel is fixedly coupled to the runner member 70 of the bottom surface when the panel 1 is installed vertically And a fourth assembly member 40 for joining the second assembly members 20 at the corners of the triangular axis points which are connected to the second assembly member 20, and a runner positioned below the vertical panel. The fifth assembly member 50 formed at the triangular axle corners which are connected to the member 70 and is installed upright between the fourth assembly member 40 and the fifth assembly member 50 and installed at both ends of the panel ( Composed of the sixth assembly member 60 to be coupled to the first assembly member 10 of 1) On lip It is characterized by consisting of so that the building can be configured.

Description

Set-up constructions for construction architecture

The present invention relates to an assembly structure of a prefabricated building, and more particularly, to an assembly structure of a prefabricated building that can be easily combined between a building panel and a panel, and that the coupling structure is completely maintained in airtightness.

In general, construction buildings and the like using temporary containers for temporary accommodation, office or warehouse use is used.

The container can be transported compared to directly building temporary temporary buildings, but there is a relatively convenient surface, but the box-shaped structure is heavy by welding, so heavy equipment such as a large trailer must be used for transportation. There is a difficult disadvantage, there is a problem that is difficult to use by constructing the required structure made of a uniform size.

Of course, various proposals have been made to improve the shortcomings of the container-type structure as described above, and these proposals represent prefabricated buildings which are mainly assembled in the field, and such prefabricated buildings are filled with insulation in a relatively large panel. Foam molding technology has been developed to By having a panel having.

In the case of the prefabricated building using the panel as described above, there are many problems in that the construction is difficult unless it is a skilled worker.

This problem is mainly due to the fact that each assembly has a separate assembly structure, and at the same time requires a dedicated assembly hand tool according to different assembly structures, even in the case of prefabricated buildings that mainly use riveting machines, dismantling means destruction. There is a closure that makes it difficult to rebuild after recycling or space movement.

The present invention has been made to solve the disadvantages of the container house as described above and to overcome the disadvantages of the conventional prefabricated building has the following objectives.

The present invention is to provide a prefabricated building that can be assembled and disassembled according to the site use of the facility.

The present invention is to provide a prefabricated building that can be easily installed by a single hand tool when assembling and disassembling.

The present invention is to provide a prefabricated building that can be constructed in a variety of assemblies, even if the airtight maintenance between the assembly is used as an outdoor facility does not need a separate waterproof installation.

The present invention made to achieve the above object is a panel of a predetermined wall A first assembly member configured to allow mutually opposite assembly on the outer circumference, a second assembly member for directionally connecting the panels having the first assembly member, and a runner member on the bottom when the panel is installed vertically A third assembly member for connecting the panel fixedly coupled to the third assembly member, a fourth assembly member for coupling the second assembly members at the corners of the triangular axis point collected and connected to the second assembly member, and the vertical assembly member. A fifth assembly member formed at a corner of a triangular axis point which is connected to a runner member positioned at a lower part of the panel, and is installed between the fourth assembly member and the fifth assembly member, and is installed at both ends with the first assembly member of the panel. By consisting of the sixth assembly member is configured to be coupled to each other to be able to configure the building by mutual assembly.

The first and third assembly members are formed of extruded materials having the same cross-sectional structure, and the second and six assembly members are also formed of extruded materials having the same cross-sectional structure.

1 is an external view as an example schematically showing a building having an assembly structure of the present invention.

Figure 2 is an exploded perspective view showing an extract of the assembly structure of the present invention.

3 is an enlarged cross-sectional view showing an 'a' unit assembly structure of FIG.

Figure 4a is an enlarged cross-sectional view showing an 'b' part assembly structure of FIG.

Figure 4b is a cross-sectional view showing a separate 'b' assembly structure.

Figure 5a is an enlarged cross-sectional view showing an 'c' unit assembly structure of Figure 1;

Figure 5b is an exploded perspective view showing the assembly structure of the corner portion.

FIG. 6 is an enlarged cross-sectional view illustrating an 'b' part assembly structure of FIG. 1 as a modified embodiment of the present invention. FIG.

** Description of symbols for the main parts of the drawing **

DESCRIPTION OF SYMBOLS 1 Panel 1a Exterior board 10 First assembly member

11: groove 13, 23: projection 14, 24: groove

15: airtight member 20: second assembly member 26: support protrusion

30: third assembly member 40: fourth assembly member 42: support angle

44, 54: cover 46, 56: fixing bolt ball 47: through hole

48: fixing bolt 50: fifth assembly member 57: nut

60; Sixth assembly member 70: runner member 80: support bar

Hereinafter, the technical configuration of the present invention will be described in detail with reference to the accompanying drawings.

1 schematically shows a building made by the present invention.

The building of the present invention consists of a direct coupling structure between panels and a coupling structure for joining a ceiling portion and a wall portion.

Basically, the panel 1 forms a groove 11 that closes the outer circumference and is coupled to the outer plate 1a, and protrudes a protrusion 13 at one end to enable mechanical assembly strength and airtightness on the outer circumferential surface. And, the other end is combined with the protrusion and the airtight material 15 As the first assembly member 10 including the grooves 14 to be embedded, a rectangular outer frame is formed to cover the exterior plate with a plurality of layers to foam the interior materials.

On the other hand, the panel 1 is formed such that the first assembly member on the side and the first assembly member opposite to each other in the width direction so as to enable continuous coupling in the width direction to each other to have a 180 degree difference from each other.

That is, when the protrusion 13 of the first assembly member in the width direction is located at the upper portion, the other first assembly member having the same structure forms a frame of the panel such that the protrusion 13 is positioned at the lower portion thereof.

By using the panel (1) made as described above it can be repeatedly assembled in a predetermined ceiling or wall by making a repetitive coupling in the mutual width direction.

Next, looks at with respect to the second assembly member for orthogonally coupling the panel (1).

The second assembly member 20 forms a 'b' cross-sectional structure so as to be opposed to the first assembly member 10, and protrudes the protrusions 23 at one end of both sides orthogonal to each other at 90 degrees, and the other end is coupled to the protrusions and is hermetically sealed. It forms a groove 24 in which the ash 15 is embedded and is formed by protruding the support protrusion 26 therein.

The third assembly member 30 is fixedly coupled to the runner member 70, which is a support member installed on the bottom surface, and the structure of the third assembly member 30 is substantially the same as that of the first assembly member 10.

The fourth assembly member 40 is inserted into the terminal support protrusion 26 of the second assembly member 20 by supporting a triangular axis direction at the corner where the second assembly member 20 is collected. Fixing bolts are provided in each of the three axial direction so as to be supported, and fixed to be spaced apart from the supporting angle 42 so that the second assembly member 20 is inserted and fitted, and the fixing bolt 48 is penetrated. A hole 46 is formed by closing a corner with a cover 44 which is perforated with a through hole 47 on the upper surface.

The fifth assembly member 50 supports a triangular axis direction at a corner of the bottom surface where the third assembly member 30 and the runner member 70 assembly are collected. 80) The fixing nut 57 is welded and fixed, and both ends of the cover 54 are perforated with fixing bolt holes 56.

Here, the triangular axis refers to the X, Y, and Z axes forming angles perpendicular to each other in a cube.

The sixth assembly member 60 is vertically installed between the fourth and fifth assembly members 40 and 50 so as to securely couple the panel 1 installed vertically to be the same as the second assembly member 20.

On the other hand, the support bar 80 having a predetermined length and formed tabs at both ends is provided to be built in the vertical corners of the assembled building, and the hook 82 is joined to the upper side so as to enable the lifting of the building.

The process of assembling the building using each assembly member of the present invention as described above will be described in more detail below.

The present invention can use the same connection member by being symmetrically coupled while maintaining the same shape as the opposite member.

The panel 1 is formed of a predetermined standard material by surrounding the first assembling member 10 around the outer circumference of the outer plate 1a to finish both sides of the panel 1 and foaming the material into a material capable of heat insulation and soundproofing in the inner space.

Construct the ceiling and the wall to the length designed using the panel (1) as described above, but the panel (1) is mutually coupled so that the projection (13) and the groove (14) are opposed to each other and the airtight material (15) in the groove (14) Is provided is pressed by the protrusion 13 is inserted is closely coupled.

When the panel forming the ceiling and the panel forming the wall are constructed with a constant extension, the panel assembly in the X, Y, and Z axis directions may be mutually protruded using the second assembly member 20 and the sixth assembly member 60. 13 and 23 and the grooves 14 and 24 are opposed to each other.

On the other hand, the first assembly member 10 of the panel is coupled to the bottom surface as described above to the third assembly member 30 fixed to the runner member 30.

On the other hand, the sixth assembly member (60) installed perpendicular to the second assembly member (20) which is coupled to the panel in the axial direction and formed in the upper corner at each support angle 42 to the fourth assembly member (40). Is fitted on the mat. At the end of each assembly member to be fitted, a support protrusion 26 corresponding to the support angle 42 is provided and firmly coupled, and coupled as a bolt 48 passing through the fixing bolt hole 46 provided in the cover 44. . At this time, in the support angle (42) to form a nut (49) to be screwed with the fixing bolt 48 is firmly fixed.

The fourth assembly member 40 is fitted to the support angle 52 of the fifth assembly member 50 at the corner of the lower bottom surface, and the end portion of the runner member 70 is coupled to the bolt 48 by the bolt hole 56. And assembling between the fourth assembly member 40 and the fifth assembly member 50 located thereon. The sixth assembly member 60 is coupled to the panel and installed vertically, but one end of the support bar 80 is screwed to the nut 57 formed in the support angle 52 of the fifth assembly member 50. The upper tab portion of the support bar 80 is pulled out by screwing the hook 82 through the through hole 47 of the fourth assembly member 40 penetrating into the fourth assembly member 40. .

Of course, this configuration is all made at the corners of the assembly building and the hook 82 is used as a hook to lift when moving the building.

On the other hand, the prefabricated building of the present invention coupled as described above is made to be assembled closely by the airtight material 15 is fixed to the double layer in each assembly member.

On the other hand, the subject innovation may be modified as shown in FIG.

That is, the protrusion 13 and the groove 14 of the first assembly member 10 are lowered to a portion of the panel located at the top and joined to the adjacent panel at right angles so as to be coupled to the exterior plate 1a.

In this case, since the panel constituting the ceiling and the panel constituting the wall are directly assembled and constructed, a separate assembly member is not required, thereby reducing the cost.

At the same time, the assembly process described in the present invention does not require various assembly tools, and only one type of fastening bolt (48) is tightened with a hexagon wrench, so the assembly workability is extremely excellent, and the production maintenance and repair of parts are also performed with a single bolt. Is maximized and convenient.

As described in detail above, the present invention can be assembled and disassembled and moved according to the use of a facility site, and in particular, it can be easily installed by using only a single hand tool during assembly and disassembly, and has various effects. The construction can be made of the assembly is a very practical design with a number of excellent effects, such as not need a separate waterproof even if used as outdoor facilities because the airtight maintenance between the assemblies is complete.

Claims (5)

In the prefabricated building which forms a building by forming a predetermined assembly member on a part or all of the outer circumference and connecting the panel with each other, A first assembly member configured to be opposed to each other on the outer circumference of the panel; A second assembly member for turning and connecting the panels having the first assembly member to each other; A third assembly member for connecting the panel fixedly coupled to the runner member of the bottom surface when the panel is installed vertically, and vertically installed; A fourth assembly member for coupling the second assembly members at triangular axis corners which are collected and connected to the second assembly member; A fifth assembly member formed at a corner of a triangular axis point which is connected to a runner member positioned below the vertical panel and collected; It is installed between the fourth assembly member and the fifth assembly member and consists of a sixth assembly member configured to be coupled to the first assembly member of the panel at both edges, The first and third assembly members are formed of extruded materials having the same cross-sectional structure, and the second and six assembly members are also made of extruded materials having the same cross-sectional structure, so that the building can be constituted by mutual assembly. to Assembly structure of prefabricated building. The method of claim 1, wherein the panel 1 has a recess 11 which is closed to the outer circumference and is coupled to the exterior plate 1a, and has a protrusion at one end to enable mechanical assembly strength and airtightness on the outer circumferential surface thereof. 13) and the other end is formed with a rectangular outer frame as a first assembly member (10) comprising a groove (14) coupled with the protrusion and containing the airtight material (15) to cover the outer plate in multiple layers to form the interior material. The assembly structure of the prefabricated building, characterized in that formed by foam molding, the first assembly member on one side of the width direction and the opposite first assembly member formed to have a difference of 180 degrees to each other so as to enable continuous coupling in the width direction. The method of claim 1, wherein the second assembly member 20 has a 'b' cross-sectional structure so as to be opposed to the first assembly member 10 and protrudes the projections 23 on one end of both sides orthogonal to 90 degrees, and the other end. The assembly structure of the prefabricated building, characterized in that formed in the groove 24 is coupled to the projection and the airtight material (15) is built in the projection protrusion 26 therein. The method of claim 1, wherein the fourth assembly member 40 is to support the triangular axis direction in the corner portion where the second assembly member 20 is collected, the end support projection 26 of the second assembly member 20 Support angles 42 are provided in each of the three axial directions so as to be inserted into and supported therein. A fixing bolt hole 46 through which the fixing bolt 48 penetrates and is fixed to be spaced apart from the support angle 42 so that the second assembly member 20 is inserted and inserted therein, and a through hole 47 is drilled on the upper surface thereof. Assembly structure of the prefabricated building, characterized in that the cover 44 is made of finishing the corner. The support assembly 52 of claim 1, wherein the fifth assembly member 50 supports a triangular axis direction at a corner of the bottom surface where the third assembly member 30 and the runner member 70 assembly are collected. ) Is formed by welding and fixing the support bar (80) fixing nut (57) therein, and the support bar (80) having tabs at both ends is formed by drilling fixing bolt holes (56) at both ends of the cover (54). The prefabricated type is characterized in that it is coupled to the nut 57 and penetrates through the sixth assembly member 60 and the fourth assembly member 40 to join the hook 82 to the upper portion to allow the lifting of the building. Assembly structure of the building.