KR101568588B1 - Exterior Joint of Modular Unit and Exterior Structure Using It and Exterior Constructing Method Thereof - Google Patents

Abstract

The present invention relates to an exterior joint for a modular unit, which is formed in the joining part of a modular unit and is installed between exterior panels installed in the modular unit to finish an exterior. The exterior joint for a modular unit comprises: an elastic finishing plate which forms an outer surface; and an insulation member which is composed of an insulating material and is received in a receiving part of the elastic finishing plate. Therefore, the exterior joint for a modular unit compensates for the construction errors of the joining part of the modular unit. Insertion pieces, which are inserted into insertion rails formed at both ends of the exterior panel, are formed at both ends of the elastic finishing plate.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an exterior finishing joint of a modular unit, an exterior finishing structure of a modular unit using the same, and a construction method of an exterior finishing structure.

The present invention relates to an outer finishing joint, an outer finishing structure, and an outer finishing structure of a modular unit of the present invention, and more particularly, to an outer finishing structure of a modular unit capable of easily absorbing a construction error occurring at a joining portion of a modular unit A joint, an exterior finishing structure, and an exterior finishing structure.

In general, Modular Construction is a method of assembling and assembling a three-dimensional box-shaped modular unit manufactured and assembled at the factory to the site. The modular unit includes electrical and mechanical equipment, interior and exterior materials including windows, flooring, ceiling materials and the like. At this time, most of the building units are completed in the factory and assembled on site.

The modular construction method using modular construction method is completed by assembling each modular unit manufactured in the factory up, down, back and forth, left and right in the field. Also, the modular unit may be manufactured in the same shape and size, and assembled and assembled.

In order to fix the modular unit during the installation process of the modular construction method, generally, the outer part of the modular unit is transported to the site without finishing, and after the modular units are fastened, the finish of the vertical and horizontal joints of the modular unit is separately treated Construction will proceed in a way.

In a typical modular construction process, the finish is completed by mining caulking between the finish attached to the modular unit at the factory and the finish installed at the site. In this process, unlike the existing field installation method, there is a problem that a large construction error occurs in the joining portion of the modular unit due to manufacturing error and deformation of the modular unit, vertical and horizontal errors of the foundation, and the like.

In addition, due to the construction error occurring in the joint part of the modular unit, the installation area of the caulking filling the spaces between the finishing materials becomes large, so that it is damaged due to expansion or contraction due to the temperature change, There is a problem that it can cause discomfort.

In the case of the joining part of the modular unit, structural members such as pillars and beams are exposed for fastening. In this case, if the joining part of the modular unit is not tightly closed or if the caulking material of the joining part is broken, The thermal bridging phenomenon is intensified and the energy performance of the entire modular building is considerably deteriorated and leakage phenomenon and penetration of contaminants may occur.

The present invention is realized by recognizing at least any one of the requirements or problems to be generated in the external finishing joint of the conventional modular unit.

As one aspect of the present invention, there is provided an exterior finish joint of a modular unit capable of stably absorbing a construction error that can be generated at a joint portion of a modular unit, while improving the heat insulation performance of a joint portion of the modular unit.

As one aspect of the present invention, there is provided an exterior finish joint of a modular unit capable of reducing the installation area of a caulking material applied to a joining portion of a modular unit to effectively prevent breakage of a joining portion and improving energy performance of a modular building do.

According to an aspect of the present invention, there is provided an exterior finishing joint of a modular unit installed in a joining portion of a modular unit and installed between exterior finishing panels installed in the modular unit and constituting an exterior finishing An elastic finishing plate forming an outer surface; And a heat insulating material which is provided as a heat insulating material and is accommodated in a receiving portion of the elastic finishing plate so as to absorb a construction error of the joining portion of the modular unit, And an insertion piece inserted into the insertion rail formed at both ends is provided.

Preferably, a space is provided between the elastic finishing plate and the heat insulating material, and the heat insulating material is provided as a thermal reflective heat insulating material for reflecting the heat introduced through the joining portion of the modular unit to the space portion.

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Preferably, the insertion piece may include an extension plate extending in the horizontal direction at both ends of the elastic finishing plate, and a slope plate extending from the extension plate in a direction inclined at a predetermined angle in the direction of the elastic finishing plate .

Preferably, the insertion piece includes an extension plate extending in the horizontal direction at both ends of the elastic finishing plate, and a protruding piece extending in the vertical direction in the extension plate, It can be inserted and fixed in the groove.

Preferably, the outer finishing joint is provided with a round-shaped resilient plate member having a constant radius of curvature, and is capable of absorbing a construction error of a junction portion of the adjacent modular unit through deformation of a radius of curvature due to elastic deformation of the material .

Preferably, the elastic finishing plate may have a flat plate member arranged horizontally in the joining portion of the modular unit, and an elastic plate member forming a slope at both ends of the flat plate portion at a predetermined angle in the direction of the modular unit .

According to another aspect of the present invention, there is provided an exterior finishing panel installed in a modular unit or an installation material installed in the modular unit, the exterior finishing panel constituting an exterior finish of the modular unit. And an exterior finishing joint provided between the adjacent exterior finishing panels. The exterior finishing joint is configured to absorb a construction error of an adjacent joint of the modular unit through elastic deformation of the material To provide an exterior finishing structure of the modular unit.

Preferably, the joining portion of the exterior finish panel and the exterior finish joint may be filled with caulking material.

According to another aspect of the present invention, there is provided a method of manufacturing a modular unit, comprising the steps of: installing an exterior finishing panel in a modular unit or a mounting material installed in the modular unit; Transporting the modular unit with the exterior finish panel installed to the site; Mutually adjoining adjacent modular units in the field; And installing the exterior finishing joint between the exterior finishing panels of the modular unit to which the modular unit is bonded.

According to an embodiment of the present invention as described above, by including a configuration capable of absorbing a construction error of a joint portion of an adjacent modular unit through elastic deformation of a material, it is possible to stably absorb a construction error that can occur in a joint portion of the modular unit There is an effect that the heat insulating performance of the junction portion of the modular unit can be improved.

According to an embodiment of the present invention, the joining performance of the joining portion of the modular unit is enhanced, the installation area of the caulking material applied to the joining portion is made constant, and the damage of the joining portion is effectively prevented, It is possible to reduce the possibility of water leakage and contamination.

According to an embodiment of the present invention, a space is provided between the elastic finishing plate and the heat insulating material, and the heat insulating material includes the structure of the heat reflecting material that reflects the heat introduced through the joining portion of the modular unit to the space, It is possible to effectively improve the energy performance of the modular building by effectively blocking the heat bridging phenomenon that may occur in the finishing material and the structural material of the joint.

According to an embodiment of the present invention, by including the structure of the insertion piece inserted into the insertion rail formed at both ends of the exterior finishing panel, it is possible to fasten the exterior finishing panel and the exterior finishing joint by a simple method, There is an effect that can be.

According to one embodiment of the present invention, by adopting the construction of the external finishing joint having a round-shaped member having a constant radius of curvature, the radius of curvature due to the elastic deformation of the material is deformed, There is an effect that the error can be absorbed resiliently.

1 is a view showing a state in which a linear outer finishing joint is installed on an exterior finishing panel installed in a mounting material provided in a modular unit or a modular unit.
2 is a perspective view illustrating a state where an exterior finishing joint according to an embodiment of the present invention is installed on a junction of a modular unit.
FIG. 3 is a view showing a state in which an exterior finish joint is elastically deformed according to the installation width of a modular unit adjacently joined in the left-right direction.
Figure 4 illustrates an exterior finish joint according to an embodiment of the present invention.
5 is a view illustrating an outer finishing joint according to another embodiment of the present invention.
6 is a view illustrating an outer finishing joint according to another embodiment of the present invention.
7 is a view illustrating an outer finishing joint according to another embodiment of the present invention.
8 is a view illustrating an outer finishing joint according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. The shape and size of elements in the drawings may be exaggerated for clarity.

1 shows a state in which a linear outer finishing joint 2 is installed on an exterior finishing panel 1 provided on a mounting material C provided on a modular unit M or a modular unit M. [

In this way, when the exterior finishing joint 2 is formed in a straight line, there is no possibility that the construction error that may occur in the joint portion of the modular unit M can be absorbed by the structural shape of the exterior finishing joint 2 The possibility of damage to the caulking material S filled between the exterior finishing panel 1 and the exterior finishing joint 2 increases and the heat loss at the junction of the modular unit M increases to increase the energy of the entire modular building There is a problem that performance may be deteriorated.

Therefore, it is necessary to introduce an external finishing joint capable of improving the heat insulation performance of the joint portion while absorbing a construction error at the joint portion of the modular unit M.

A plurality of modular units M may be vertically stacked or a plurality of modules may be horizontally connected to form the modular structure. The modular unit M comprises a plurality of columns A and a beam member B installed on the column A. The modular unit M is prefabricated at a factory and transferred to the site to be vertically, As shown in FIG.

Hereinafter, an external finishing joint 200 of a modular unit according to an embodiment of the present invention will be described in detail with reference to the drawings.

2 to 7, an exterior finishing joint 200 of a modular unit according to an embodiment of the present invention includes an elastic fin 210 and a heat insulating material 230, and further includes a space 250, And may include an insertion piece 270.

2, the exterior finishing joint 200 is installed at the junction of the modular unit M and is installed between the exterior finishing panels 100, which are installed in the modular unit M and constitute an exterior finish, .

The outer finishing joint 200 includes an elastic finishing plate 210 forming an outer surface and a heat insulating material 230 accommodated in a receiving portion of the elastic finishing plate 210 and formed of a heat insulating material, 200 may be provided so as to absorb a construction error of a junction portion of the adjacent modular unit M through elastic deformation of the material.

3, the elastic finishing plate 210 is a member that forms the outer surface of the outer finishing joint 200. Even if the gap of the joint portion varies depending on the construction error generated in the joining portion of the modular unit M By elastically deforming the elastic finishing plate 210, it is possible to absorb the work error of the joint portion of the modular unit M. [

At this time, in the case of the heat insulating material 230 accommodated in the accommodating portion of the elastic finishing plate 210, a deformation allowance capable of elastic deformation is provided so as to absorb a construction error. The problem of deterioration of the heat insulating performance due to the elastic deformation of the heat insulating material 230 does not occur.

FIG. 3 is a view showing a state in which the exterior finish joint 200 is elastically deformed according to the installation width of the modular unit M adjoining in the left-right direction.

3 is a view showing the installation state of the exterior finish joint 200 when the adjacently joined modular unit M has the first installation width H1 and FIG. Is a diagram showing the installation state of the exterior finish joint 200 when the adjoining modular unit M has the first installation width H1.

As described above, the configuration of the external finishing joint 200 that is elastically deformable allows the adjacent exterior finishing panel 100 of the junction of the modular unit M having the first installation width H1 and the second installation width H2 ) Of the modular unit M can be finely bonded by the external finishing joint 200 to improve the heat insulation performance of the joint portion of the modular unit M while stably absorbing a work error that can occur at the joint portion of the dumper unit.

As shown in FIG. 4 and FIG. 6, a heat insulating material 230 made of a heat insulating material can be installed in the receiving portion of the elastic finishing plate 210, and the heat insulating material 230 can transmit heat flow A general thermal insulator 230 may be installed.

7, a space portion 250 is provided between the elastic finishing plate 210 and the heat insulating material 230, and the heat insulating material 230 covers the joint portion of the modular unit M And a heat reflective heat insulating material 231 for reflecting the heat introduced through the space 250 to the space 250.

The space portion 250 may be formed by the spacing pieces 233 and 233 provided between the elastic finishing plate 210 and the thermal reflective heat insulating material 231. [

The heat reflecting material 231 has an effect of excelling in thermal performance through reflection rather than conduction in order to prevent heat loss due to heat bridging that may occur through the elastic finishing plate 210.

The heat reflecting material 231 may be composed of a heat insulating material 230 having a heat reflecting material as a whole. The heat insulating material 230 constituted by the heat reflecting material cuts off in a manner reflecting the heat flowing into and out of the heat reflecting heat insulating material 231. As described above, since the heat reflecting material 231 prevents heat loss due to thermal bridging phenomenon in a reflection manner, not a conduction, the heat reflecting material 231 is superior to the heat insulating material 230, which is a common material, However, it has an effect of exerting performance.

Although not shown, the heat reflecting material 231 may be formed by bonding a heat reflecting sheet to an outer surface of a general heat insulating material 230 that blocks heat flow by a conduction method. At this time, The general heat insulating material 230 may be formed to cover the entire surface of the heat insulating material 230.

As described above, since the general heat insulating material 230 and the heat reflecting sheet are combined to form the heat reflecting heat insulating material 231, the amount of the heat reflecting sheet of relatively high price can be minimized to reduce the cost, By applying the combination of the heat shielding method by reflection, it is possible to remarkably increase the heat shielding performance of the heat reflecting insulator 231.

4 to 7, the elastic finishing plate 210 may be provided at both ends thereof with an insertion piece 270 inserted into the insertion rail 110 formed at both ends of the exterior finishing panel 100 .

The external finishing maneuver and the exterior finishing joint 200 can be fastened by a simple method by including the structure of the insertion piece 270 inserted into the insertion rail 110 formed at both ends of the exterior finishing panel 100, There is an effect that the fastening force can be increased.

7 and 8, the insertion piece 270 includes an extension plate 271 extending in the horizontal direction at both ends of the elastic finishing plate 210, And an inclined plate 273 extending in a direction inclined at a predetermined angle in the direction of the elastic finishing plate 210.

At this time, the swash plate 273 is a member for fixing the insertion piece 270 to the insertion rail 110.

7, the length of the swash plate 273 may be shorter than the diagonal length of the space formed in the insertion rail 110, and the swash plate 273 and the insertion rail (not shown) 110 can be adjusted by adjusting the position of the modular unit (M).

The insertion piece 270 is inserted into the insertion rail 110 and the position of the insertion piece 270 is adjusted by the fastening member such as a bolt to fix the insertion piece 270, the insertion rail 110 and the modular unit M The insertion piece 270, the insertion rail 110 and the mounting member C provided on the modular unit M can be fastened and fixed by the fastening member.

5 and 5, the insertion piece 270 includes an extension plate 271 extending in the horizontal direction at both ends of the elastic finishing plate 210, And the protruded pieces 275 can be inserted and fixed in the rail groove 115 formed in the insertion rail 110. [

As shown in Figs. 4 to 7, the outer finishing joint 200 is provided with a round elastic plate member 213 having a constant radius of curvature, and is deformed by the deformation of the radius of curvature due to the elastic deformation of the material, And may be provided so as to absorb a construction error of the joint portion of the modular unit M.

When the exterior finishing joint 200 is provided with the round elastic plate member 213, the construction error of the joint portion of the modular unit M can be seen through the structure in which the constant curvature radius is formed on the entire exterior finishing joint 200 There is an elastic absorbing effect.

8, the elastic finishing plate 210 of the outer finishing joint 200 includes a flat plate member 211 disposed horizontally at the joining portion of the modular unit, and a modular unit 211 at both ends of the flat plate portion. M) and forming an inclination at a predetermined angle.

8A is an embodiment in which the elastic plate member 213 is formed as a round-shaped member provided so as to form a constant curvature, and FIG. 8B is an example in which the elastic plate member 213 is provided in the modular unit M at a predetermined angle And an inclined template member joined together while being joined together.

It is needless to say that the embodiment of the outer finishing joint 200 is not limited to the above-described embodiment, but may be configured such that the outer finishing joint 200 is elastically deformed to absorb the construction error of the joining portion of the modular unit M It is needless to say that various embodiments such as a multi-stage bending type outer finishing joint 200 and a plurality of wrinkled outer finishing joints 200 can be applied.

Referring to FIGS. 2 to 8, the exterior finishing structure of the modular unit according to an embodiment of the present invention may include an exterior finishing panel 100 and an exterior finishing joint 200.

The exterior finishing structure of the modular unit is installed in the modular unit M or the installation material C installed in the modular unit M and is composed of the exterior finishing panel 100 constituting the exterior finishing of the modular unit M And an exterior finishing joint (200) according to any one of claims 1 to 7, provided between adjacent exterior finishing panels (100), wherein the exterior finishing joint (200) So as to absorb a construction error of a junction portion of the adjacent modular unit M.

An insertion rail 110 is formed at both ends of the exterior finishing panel 100 of the exterior finishing structure of the modular unit so as to be longitudinally formed and both ends of the exterior finishing joint 200 are inserted into the insertion rail 110 An insertion piece 270 may be provided.

The caulking material S may be filled in the joint between the exterior finish panel 100 and the exterior finish joint 200. The caulking material S may be an inorganic caulking material S having excellent fire resistance, Can be used.

7, in a state where the insertion piece 270 of the exterior finishing joint 200 is inserted into the insertion rail 110 of the exterior finishing panel 100, the insertion rail 110, The caulking material S can be filled between the space between the insertion pieces 270 and between the insertion rail 110 and the elastic finishing plate 210.

It is needless to say that the outer finishing joint 200 of the present invention can be applied to the outer finishing joint 200 of various embodiments as described above.

The construction of the elastic finishing plate 210, the heat insulating material 230, the space 250 and the insertion piece 270 used in the outer finishing joint 200 is the same as described above. Are omitted.

2 to 8, a method of constructing an exterior finishing structure of a modular unit according to an embodiment of the present invention includes the steps of installing an exterior finishing panel 100, transporting the modular unit M to a site, Joining the modular units M to each other, and installing the exterior finish joint 200.

The method of constructing the exterior finishing structure of a modular unit includes the steps of installing an exterior finishing panel 100 in a modular unit M or a mounting material C installed in the modular unit M, (M) to the site, interconnecting the adjacent modular units (M) in the field, and joining the modular units (M) to the exterior of the exterior finish panel (100) of the joined modular unit And installing the outer finishing joint 200 between the outer finishing joint 200 and the outer finishing joint 200.

The exterior finish panel 100 may be fastened to the modular unit M in advance by a fastener such as a bolt or piece in the factory or may be fastened to the modular unit M Can be fastened to the material (C) by fasteners such as bolts, pieces, and the like.

As shown in FIG. 2, the exterior finish panel 100 may be installed in a mounting member C provided in the modular unit M.

In this way, the modular unit M equipped with the exterior finishing panel 100 can be transported to the site by the transport means, and the modular units M arranged adjacently in the field can be mutually bonded.

The construction error generated at the time of joining the joined modular units M can be stably absorbed by the outer finishing joint 200 provided elastically deformably so that the outer finishing structure of the modular unit can be formed.

3A and 3B, an example of absorption of a work error of the modular unit M by the outer finishing joint 200 will be described below.

3A and 3B are views showing a state in which the exterior finishing joint 200 is elastically deformed according to the installation width of the modular unit M which is adjacently joined in the left-right direction.

3A is a view showing an installation state of the exterior finishing joint 200 when the adjacently joined modular unit M has the first installation width H1 and FIG. Is the first installation width H1 of the external finishing joint 200. As shown in Fig.

As described above, the configuration of the external finishing joint 200 that is elastically deformable allows the adjacent exterior finishing panel 100 of the junction of the modular unit M having the first installation width H1 and the second installation width H2 ) Of the modular unit M can be finely bonded by the external finishing joint 200 to improve the heat insulation performance of the joint portion of the modular unit M while stably absorbing a work error that can occur at the joint portion of the dumper unit.

The method for constructing the exterior finishing structure of the modular unit may further include filling the caulking material S to fill the joint of the exterior finishing panel 100 and the exterior finishing joint 200 .

It is needless to say that the outer finishing joint 200 of the modular unit of the present invention and the outer finishing structure of the modular unit can be applied to the outer finishing joint 200 of various embodiments as described above.

The construction of the elastic finishing plate 210, the heat insulating material 230, the space 250 and the insertion piece 270 used in the outer finishing joint 200 is the same as described above. The construction of the exterior finish panel 100 and the exterior finish joint 200 used in the exterior finish structure is the same as described above, and a detailed description thereof will be omitted in order to avoid redundancy.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. And will be apparent to those skilled in the art.

100: Exterior finish panel 110: Insert rail
115: Rail groove 200: Exterior finishing joint
210: elastic finishing plate 211: flat plate member
213: Elastic plate member 230: Insulation
231: Heat-reflective insulation material 233:
250: Space part 270: Insertion piece
271: Extension plate 273: Swash plate
275: Projection A: Column
B: beam member C: mounting member
M: Modular unit H1: 1st installation width
H2: second installation width S: caulking material

Claims (10)

An outer finishing joint of the modular unit provided at a junction of the modular unit and installed in an exterior finishing panel installed in the modular unit to constitute an exterior finishing,
An elastic finishing plate forming an outer surface; And
And a heat insulating material which is provided as a heat insulating material and is accommodated in a receiving portion of the elastic finishing plate, wherein the heat insulating material absorbs a work error of the joining portion of the modular unit,
Wherein an end piece of the elastic finishing plate is provided with insertion pieces to be inserted into insertion rails formed at both ends of the exterior finishing panel.
The method according to claim 1,
A space is provided between the elastic finishing plate and the heat insulating material,
Wherein the heat insulating material is provided as a thermal reflective heat insulating material for reflecting the heat introduced through the joint portion of the modular unit to the space portion.
delete The insertion device according to claim 1,
An extension plate extending in the horizontal direction at both ends of the elastic finishing plate,
And an inclined plate extending from the extension plate in a direction inclined at a predetermined angle in the direction of the elastic finishing plate.
The method according to claim 1,
Wherein the insertion piece includes an extension plate extending in the horizontal direction at both ends of the elastic finish plate and a protruding piece extending in the vertical direction in the extension plate,
And the projecting piece is inserted and fixed in a rail groove formed in the insertion rail.
2. The apparatus of claim 1,
Shaped elastic plate member having a constant radius of curvature so as to be able to absorb a work error of a joining portion of an adjacent modular unit through deformation of a radius of curvature due to elastic deformation of the work, Closing joint.
[2] The apparatus of claim 1, wherein the elastic finishing plate comprises:
A flat plate member disposed horizontally on the joining portion of the modular unit,
And an elastic plate member which forms an inclination at both ends of the flat plate portion at a predetermined angle in the direction of the modular unit.

An exterior finishing panel installed in the modular unit or the installation material installed in the modular unit, the exterior finishing panel constituting the exterior finish of the modular unit; And
And an exterior finishing joint according to any one of claims 1, 2, and 4 to 7, provided between the adjacent exterior finishing panels,
Wherein the exterior finishing joint is configured to absorb a construction error of a junction portion of the adjacent modular unit through elastic deformation of the material.
9. The method of claim 8,
Wherein the joining portion of the exterior finish panel and the exterior finish joint is filled with caulking material.
Installing an exterior finishing panel on a modular unit or an installation material installed in the modular unit;
Transporting the modular unit with the exterior finish panel installed to the site;
Mutually adjoining adjacent modular units in the field; And
Installing an exterior finishing joint according to any one of claims 1, 2, and 4 to 7 between the exterior finish panels of the modular unit bonded to the exterior of the modular unit Construction method of finishing structure.

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