KR20160120118A - Modular Unit having Connecting Plate, Modular Structure Using The Same - Google Patents

Abstract

The present invention relates to a modular structure formed by laminating and coupling modular units and, more specifically, to a modular unit laminated and coupled by a connection plate, capable of compensating for a construction error between upper and lower modular units and a modular structure using the same. The modular unit laminated and coupled by a connection plate according to an embodiment of the present invention is formed in a rectangular parallelepiped shape, and includes a long edge beam and a short edge beam connecting external columns disposed at a corner part at upper and lower ends thereof, upper and lower connection parts formed on the long edge beam at a section separated inward from the external column along a long edge direction, and an inner support column formed on the outer side of the upper and lower connection units to connect the upper and lower connection units. The distance between the inner support columns is larger than the distance between the inner support column and the external column so that the own load of the modular unit and a construction load are borne by the inner support column.

Description

Technical Field [0001] The present invention relates to a modular unit,

The present invention relates to a modular unit in which upper and lower modular units are stacked using a connecting plate capable of absorbing a construction error and can be easily joined even in a finished state, and a modular structure using the same.

Modular Framing is a method of assembling and constructing a three-dimensional box-shaped modular unit manufactured and assembled at the factory to the site. It is used for interior and exterior materials including electric, mechanical equipment, windows, flooring, , More than 90% of the residential space, such as bathroom or kitchen equipment installation, is completed at the factory. It should be systemized to ensure constant quality through factory production, to be delivered to the site, to shorten the air, and to supply it to a large number of customers quickly. In order to do so, technology is required to be completed in a short time by a minimum process in the field.

The modular units carried to the site are stacked to form a modular building, and the building is completed through bolting between the upper, lower and adjacent modular units. However, since joining between finished units is difficult, the separate joining hardware is manufactured and the respective units are joined together. If a separate hardware for joining is used, the joining process becomes complicated and the production cost of the modular unit There is an increasing problem.

As a background of the present invention, there is a patent application No. 10-1125967 'Structure joining apparatus and modular building including the same' (Patent Document 1). This patent proposes a modular structure in which a joining device including a fixture and a fixture support and the module are installed between the upper and lower module units. The modular architecture proposed by this patent has the advantage of providing a space between the upper and lower module units and integrating the beams of the modular unit to reinforce the structural strength of the modular unit. However, in addition to the modular unit, There is a problem that there is no means to overcome the construction errors that can occur.

Patent Registration No. 10-1125967 'Structure joining apparatus and modular building including the same'

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a modular structure capable of absorbing a construction error between upper and lower modular units when a modular unit is stacked to form a plurality of modular units, The purpose is to provide.

Another object of the present invention is to provide a modular unit having a modular unit, which is provided with an internal and external material, and which can form a structure by laminating a modular unit without providing a separate joining piece outside the completed modular unit, and a modular structure using the modular unit .

A modular unit laminated with a connecting plate according to a preferred embodiment of the present invention is composed of a rectangular parallelepiped including a long side beam and a short side beam connecting upper and lower ends of a column between an outer column and an outer column disposed at a corner portion, In the beam, upper and lower connection parts are formed in a section spaced inwardly from the outer pillars along the long side direction, and inner support pillars are provided on the outer sides of the upper and lower connection parts to connect the upper and lower connection parts, Is formed to be larger than the distance between the inner support pillars and the outer pillars so that the self load and the installation load are supported by the inner support pillars.

At this time, the upper connection part can be manufactured to have a step of a certain thickness.

On the other hand, the outer pillars are provided at their upper ends with a movement preventing protrusion so as to protrude upward in the longitudinal direction of the column, and at the lower end thereof with movement preventing grooves corresponding to the shape of the movement preventing protrusions, The movement preventing protrusion of the lower layer unit can be inserted into the groove to enable precise mounting between the upper and lower layer units, and movement and dropping of the upper layer unit can be prevented.

A modular structure having a connecting plate according to a preferred embodiment of the present invention is constituted by a rectangular parallelepiped including a long side beam and a short side beam connecting between an outer column disposed at a corner portion and an outer column at the top and bottom of the column, The upper and lower connection portions are formed in a section that is spaced inward from the outer pillars along the long side direction. An inner support column is provided on the outer side of the upper and lower connection portions to connect the upper and lower connection portions. And a modular unit in which a self-load and a working load are supported by inner support pillars are stacked, and between the lower connection part of the upper-layer modular unit and the upper connection part of the lower-layer modular unit And the connecting plate is disposed and joined.

Here, the upper connection part is manufactured to have a stepped thickness of the connection plate, and the upper and lower module units can be closely contacted and bonded.

According to a preferred embodiment of the present invention, there is an advantage that a structure can be constructed by laminating a modular unit without providing a separate joining piece on the outside of the finished modular unit with the inside / outside material.

Further, the modular structure according to the present invention has the effect of absorbing a construction error between the upper and lower modular units when the modular units are stacked in order to construct the modular unit as a plurality of layers.

Further, according to the present invention, since the upper and lower layer units can be accurately installed even in a simple laminated state before the upper and lower layer units are bonded, the convenience of construction is improved and the stability of the construction is improved by preventing the upper layer unit from moving or coming off .

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
1 is a perspective view of a modular unit according to an embodiment of the invention.
2 is a perspective view of a structure constructed by stacking modular units according to the present invention.
3 is an exploded perspective view of a structural joint constructed by laminating a modular unit according to the present invention.
FIG. 4A is a perspective view of a modular unit according to another embodiment of the present invention, and FIG. 4B is a partial cross-sectional view illustrating a coupling state between upper and lower outer pillars.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

1 is a perspective view of a modular unit according to an embodiment of the invention.

As shown in FIG. 1, the modular unit 10 according to the present invention is configured in a rectangular parallelepiped shape having a plurality of columns 11 and beams 12.

More specifically, the modular unit 10 includes a long side beam 121, which opposes the long side beam 121, which connects the outer column 111 and the outer column 111 disposed at the corner of the rectangular parallelepiped, An outer short side 122, an inner short side 123, and an inner supporting post 112 connecting the first and second end portions 121 to each other.

The long side beam 121 is formed with connecting portions 121a and 121b in a section spaced inward from the outer column 111 along the long side direction (unit axis direction). The connecting portions 121a and 121b serve as means for joining the upper and lower modular units 10 and 10 when the modular unit 10 is stacked. The connecting portions 121a and 121b may be formed as separate members and may be coupled to the long-side beam 121 or may be integrally formed as a part of the long side beam 121. [

An inner support beam 112 is provided on the outer side of the connection portions 121a and 121b to connect the upper and lower connection portions 121a and 121b and an inner short side beam 123 connecting the connection portions 121a and 121b facing each other. Is provided parallel to the external short-circuiting beam 122. The inner short side beams 123 may be provided in a pair so as to connect both ends of the connection portions 121a and 121b.

Accordingly, the modular unit 10 according to the present invention is provided with the connecting portions 121a and 121b at certain intervals of the long side beam 121 and the upper and lower connecting portions 121a and 121b The inner support pillars 112 are provided and the inner short side beams 123 connecting both ends of the coupling portions 121a and 121b facing each other are provided in parallel with the outer short side beams 122. [

At this time, the distance between the inner support pillars 112 is adjusted to be larger than the distance between the inner support pillars 112 and the outer pillars 111 (for example, twice or more) . The inner supporting pillars 112 and the long side ribs 121 of the outer pillars 111 are formed in the form of a cantilever type so that the load of the unit itself and the permanent load do not reach the inner supporting pillars 111 (112).

At the upper and lower ends of the inner support pillars 112, a cross-sectional enlarged portion 112a may be formed in order to avoid stress concentration and provide a wide joint surface when the upper and lower modular units 10 and 10 to be described later are laminated and joined. have.

FIG. 2 is a perspective view of a structure constructed by stacking modular units according to the present invention, and FIG. 3 is an exploded perspective view of a structure joint.

As shown in Fig. 2, a connecting plate 20 is disposed between the upper and lower modular units 10, 10 when the modular unit 10 is laminated. The connecting plate 20 is disposed between and connected to the lower connecting portion 121b of the upper layer modular unit 10 and the upper connecting portion 121a of the lower layer modular unit 10. [ The upper connection portion 121a is preferably formed to have a step by the thickness of the connection plate 20. [

3, when the connecting plate 20 is disposed on the upper connecting portion 121a of the lower modular unit 10 and the upper-layer modular unit 10 is stacked on the connecting plate 20 when the modular unit 10 is stacked, The connecting plate 20 is inserted into the stepped portion. When the inserted connecting plate 20 is joined to the upper and lower module units 10 and 10, the modular units can be stacked without a separate connecting hardware to form a structure. It is preferable that a part where the upper connecting part 121a and the lower connecting part 121b are joined to the connecting plate 20 is formed in a plate shape for easy joining of the connecting plate 20. [ The joining method of the upper connection part 121a, the lower connection part 121b and the connection plate 20 may be any method known in the art, and the joining surfaces of the upper connection part 121a and the lower connection part 121b may be formed in a plate shape Bolt joining is preferable.

The upper connection part 121a is formed with a step by the thickness of the connecting plate 20 so that the upper and lower module units 10 and 10 are spaced apart from each other by the space between the upper and lower module units 10 and 10. [ .

Although the upper connection part 121a is manufactured to have a step by the thickness of the connecting plate 20, there is a problem that an error may occur when the modular unit 10 is manufactured. The modular unit 10 according to the present invention can adjust the connecting plate 20 having different thicknesses in the field when a construction error occurs in the field, that is, when the step of the upper connecting part 121a is different from the thickness of the connecting plate 20 So that the workability is improved.

FIG. 4A is a perspective view of a modular unit according to another embodiment of the present invention, and FIG. 4B is a partial cross-sectional view illustrating a coupling state between upper and lower outer pillars.

On the other hand, protrusions are formed on the upper surface of the outer pillars 111, so that the positions of the upper and lower modular units can be accurately and easily aligned. A movement preventing protrusion 111a may be formed to protrude upward in the longitudinal direction of the column from the upper surface of the outer column 111. At this time, a movement preventing groove 111a corresponding to the shape of the movement preventing protrusion 111a is formed at the lower end of the outer column 111 111b should be formed.

The movement preventing protrusion 111a and the movement preventing groove 111b facilitate the matching between the upper and lower layer units even when the upper and lower layer units are joined together in a simple laminated state when the units are stacked in a plurality of layers, Thereby improving the convenience of construction and preventing the upper layer unit from moving or coming off, thereby improving the stability of the construction.

As described above, according to the present invention, it is possible to construct a structure by laminating a modular unit without providing a separate joining piece on the outside of the completed modular unit by using the connecting portion and the connecting plate formed in a part of the long side beam, There are advantages.

Further, according to the present invention, when a modular unit is stacked to form a plurality of modular units, a construction error can be easily absorbed between upper and lower modular units.

Also, the upper and lower layer units can be accurately installed between the upper and lower layer units even in a simple laminated state before the upper and lower layer units are joined together, thereby improving the convenience of construction and preventing the upper layer unit from moving or coming off.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: Modular unit 11: Column
111: Outer column 112: Inner support column
111a: Movement prevention projection 111b: Movement prevention groove
12: beam 121: long side beam
122: outer short side beam 123: inner short side beam
121a, 121b:

Claims (5)

And includes a rectangular parallelepiped including a long side beam 121 and a short side beam 122 connecting the outer pillars 111 and the outer pillars 111 disposed at the corners at the upper and lower ends of the pillars,
In the long side beam 121, upper and lower connection portions 121a and 121b are formed in a section spaced inwardly from the outer side pillars 111 along the long side direction, respectively,
Inner support pillars 112 are provided on the outer sides of the upper and lower connection portions 121a and 121b to connect the upper and lower connection portions 121a and 121b,
Wherein a distance between the inner support pillars (112) is formed to be larger than a distance between the inner support pillars (112) and the outer pillars (111) so that the self load and the installation load are supported by the inner support pillars Modular unit laminated with plates. The method according to claim 1,
The upper connection portion 121a,
Wherein the connecting plate is formed to have a step of a predetermined thickness. The method according to claim 1,
The outer pillars (111)
A movement preventing protrusion 111a is formed at an upper end of the column to protrude upward in the longitudinal direction of the column and a movement preventing groove 111b corresponding to a shape of the movement preventing projection 111a is formed at a lower end of the column, A module unit which is laminated and coupled with a connecting plate having a feature that the movement preventive protrusion 111a of the lower layer unit is inserted into the movement preventing groove 111b of the unit so that the upper and lower layer units can be installed accurately and the upper layer unit is prevented from moving and coming off . A rectangular parallelepiped including a long side beam 121 and a short side beam 122 connecting the upper and lower ends of the column between the outer column 111 and the outer column 111 disposed at the corner, The upper and lower connection portions 121a and 121b are formed in a section spaced inward from the outer column 111 in the longitudinal direction (unit axis direction), and the upper and lower connection portions 121a and 121b are formed, The inner support pillars 112 are provided to connect the lower connection portions 121a and 121b and the distance between the inner support pillars 112 is formed to be larger than the distance between the inner support pillars 112 and the outer pillars 111 A modular unit 10 in which a self-load and a working load are supported by inner support pillars 112,
Wherein a connecting plate (20) is disposed between the lower connecting portion (121b) of the upper layer modular unit (10) and the upper connecting portion (121a) of the lower layer modular unit (10). 5. The method of claim 4,
The upper connection portion 121a,
And the upper and lower modular units (10, 10) are tightly joined to each other by being manufactured so as to have a step difference in thickness of the connecting plate (20).

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