KR20220089398A - Connection details of module unit for modular building using prestressed steel steel wire - Google Patents

Abstract

The present invention relates to a vertical junction structure between unit modules of a modular unit using a steel wire, and more particularly, a separate connecting member is formed between the unit module and the unit module when the unit module is vertically stacked, and the unit module is vertically stacked. It relates to a vertical joint structure between unit modules of a modular unit using a steel wire to ensure the integrity of the junction between the unit modules by disposing a steel wire through and introducing a tension force.
A preferred embodiment of the present invention is a vertical junction structure between unit modules of a modular unit consisting of four pillars of a rectangular tube cross-section, and ceiling information and floor beams connecting the upper and lower ends of the pillars, respectively, in a cross-section smaller than the pillars. A connecting member consisting of a protruding insert having a through hole penetrating through the inside in the shape of a prismatic column, and a horizontal plate-shaped support plate formed in the horizontal direction at the lower end of the protruding insert, is provided between the upper modular unit and the lower modular unit. The protruding insert is inserted into the lower end of the column of the upper modular unit, and the steel wire passes through the column of the upper modular unit, the connecting member, and the column of the lower modular unit in turn, and is fixed to the end plate at the lower end of the column of the lower modular unit to introduce tension. It is made to be fixed to the anchorage at the upper end of the column of the upper modular unit.

Description

Connection details of module unit for modular building using prestressed steel steel wire

The present invention relates to a vertical bonding structure between unit modules of a modular unit using a steel wire, and more particularly, a separate connecting member is formed between the unit module and the unit module when the unit module is vertically stacked, and the unit module is vertically stacked. It relates to a vertical joint structure between unit modules of a modular unit using a steel wire to ensure the integrity of the junction between the unit modules by arranging a steel wire through the junction and introducing a tension force.

In general, a modular unit is to construct various interior materials, mechanical facilities, electrical wiring, etc. in advance in a structure composed of a number of cubes in a factory and transport them to the site to complete assembly. Construct the modular unit structure by making it adjacent to each other.

In addition, in a modular unit structure formed by stacking a plurality of conventional modular units horizontally and vertically, bolts between units are directly fastened for bonding between modular units, or a plurality of connection reinforcing plates are inserted and bolted to achieve stress transmission. Not only was it unclear, but there were problems in that it was difficult to secure a space for fastening bolts due to the dance of the narrow beam, and the workability was poor due to inconvenient coupling and dismantling.

As the background technology of the joint between the modular units of the present invention, there is Patent Registration No. 0923637 "Building Modular Unit with Reinforced Connection Reinforced Plate" (Patent Document 1).

In the background art, four steel columns 2 arranged in a rectangular shape, and connecting the upper portions of each column 2, the upper horizontal portion of the ceiling (3a), the vertical portion of the ceiling (3b), the lower horizontal portion of the ceiling ( A plurality of steel channel ceiling beams 3 composed of 3c), connecting the lower portions of each pillar 2, In the rectangular building modular unit (1) composed of a plurality of steel jannel floor beams (4), each of the pillars (2) has a rectangular cross section, and a magnet plate (40) is welded and fixed to the upper and lower ends, A cut-out hole of a certain height is formed from a portion in contact with the magnet plate 40 on one side, and a first bolt insertion hole 41 is formed in the magnet plate 40, and a “C”-shaped cross section is formed inside the cut hole. The reinforcing member 10 having a reinforcing member 10 is inserted and fixed to the column 2 by welding, and a fixture lower insertion hole 51 is formed in the upper horizontal part 3a of the ceiling, and the lower fixture is inserted in the lower horizontal part 4c of the floor. The fixture upper insertion hole 50 having a larger diameter than the hole 51 is formed to coincide with the fixture lower insertion hole 51 on a vertical line, and the second bolt insertion hole 41 on one side coincides with the first bolt insertion hole 41 on a vertical line. A connecting plate 20 having a bolt insertion hole 21 formed therein, coincident with the center of the fixture lower inserting hole 51 on the other side, and having a fixture inserting hole 22 corresponding to the inner diameter of the fixture upper inserting hole 50 ) is installed in contact with the magnetic plate 40, the fixing force bolt penetrates the first bolt insertion hole 41 and the second bolt insertion hole 21, and the upper cone part 31 is formed in a conical shape, and The upper cylindrical part 32 is formed under the upper cone part 31 and has a diameter corresponding to the inner diameter of the fixture upper insertion hole 50, and the upper cylindrical part 32 is formed in the lower part of the fixture lower insertion hole 51 inner diameter. A position fixture 30 comprising a lower cylindrical portion 33 having a diameter corresponding to and a lower conical portion 34 formed in a conical shape at the lower portion of the lower cylindrical portion 33, the fixture lower insertion hole 51 The lower cylindrical portion 33 is inserted into the, and the fastener insert of the connecting plate 20 We propose a building modular unit having a reinforced connection reinforcing plate, characterized in that the upper cylindrical portion 32 is inserted into the hole 22 in order.

However, the background art combines the upper modular unit and the lower modular unit using the connecting plate 20, which is a structure that simply combines only the ends of the pillars, so it is difficult to increase the lateral force resistance and maintain structural stability. In addition, since the structure of the coupling part is complicated and when the modular units are coupled, the bolt fastening part is inside the column with a closed cross-section, so the mouth hole drilling is unavoidable. As the bolts were fastened inside the mouth hole, there was a problem of poor workability due to inconvenient coupling and dismantling.

Patent Registration No. 0923637 "Building Modular Unit with Reinforced Connection Reinforcement Plate"

The present invention is to solve the above problems, and it is possible to secure the integrity of the junction between the unit modules without fastening the bolts and nuts to the junction between the unit modules, so that the integral behavior can be stably secured and the construction is easy. The purpose of the present invention is to provide a vertical joint structure between unit modules of a modular unit using

The present invention relates to a vertical junction structure between unit modules of a modular unit consisting of four pillars having a cross-section of a rectangular tube, a ceiling information and a floor beam connecting the upper and lower ends of the pillar, respectively, in a rectangular pillar shape with a smaller cross-section than the pillar. A connecting member consisting of a protruding insertion part having a through hole through it, and a horizontal plate-shaped support plate formed in a horizontal direction at the lower end of the protruding insertion part, between the upper modular unit and the lower modular unit, the protruding insertion part is the upper modular It is inserted into the lower end of the column of the unit, and the steel wire passes through the column of the upper modular unit, the connecting member, and the column of the lower modular unit in turn, and is fixed to the end plate at the lower end of the column of the lower modular unit to introduce tension to the column of the upper modular unit An object of the present invention is to provide a vertical joint structure between unit modules of a modular unit using a steel wire, characterized in that it is fixed to the anchorage at the upper end.

In addition, the connecting member intends to provide a vertical joint structure between unit modules of a modular unit using a steel wire, characterized in that the through hole has a large upper cross-section and a small lower cross-section.

In addition, the support plate is positioned between the floor beam of the upper modular unit and the ceiling information of the lower modular unit to increase the frictional resistance between the modular units. Provides a vertical joint structure between unit modules of the modular unit using a steel wire want to

In addition, it is intended to provide a vertical joint structure between unit modules of a modular unit using a steel wire, characterized in that the support plate is formed at an angle of 90 degrees around the protruding insertion part to form a L shape.

In addition, the anchorage is formed in a L shape so that it is supported up to a certain length inward from the upper end surface of the column and the end of the upper surface of the ceiling information on both sides of the column. would like to provide

The vertical joint structure between unit modules of the modular unit using the steel wire of the present invention does not require bolts and nuts to be fastened at the junction between unit modules, so it is not necessary to form an opening in the column for bolt fastening, as well as to prevent cross-sectional loss due to the opening. The structural performance can be maintained, and the protruding insertion part is formed on the connecting member so that it is inserted into the column of the upper unit module, so that it is easy to match the verticality during vertical stacking between the unit modules, and the primary coupling between the upper and lower unit modules Then, a steel wire is embedded through the column of the vertically stacked unit module to introduce a prestress, and the secondary coupling is performed to secure the integrity of the junction between the unit modules, so that the integral behavior can be secured stably, and the construction is easy. It has a very useful effect.

The following drawings attached to this specification illustrate preferred embodiments of the present invention, and serve to further understand the technical spirit of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in the accompanying drawings It should not be construed as being limited.
1 is a perspective view showing a vertical junction structure between unit modules of a modular unit using a steel wire of the present invention.
FIG. 2 is a partially enlarged view of FIG. 1 .
3 is a perspective view and a cross-sectional view of a connecting member of the present invention.
4 is a partially exploded perspective view illustrating a junction of a vertical joint structure between unit modules of a modular unit using a steel wire of the present invention.
5 is a cross-sectional view of a vertical bonding structure between unit modules of a modular unit using a steel wire of the present invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention will be described in detail according to a preferred embodiment.

1 is a perspective view illustrating a vertical bonding structure between unit modules of a modular unit using a steel wire of the present invention, and FIG. 2 is a partially enlarged view of FIG. 1 .

The present invention configures a separate connecting member 40 between the modular unit 1 and the modular unit 1 when the modular unit 1 is vertically stacked as in FIG. 1, and the vertically stacked modular unit ( 1) by inserting a steel wire 50 through the pillar 10 of the field to introduce a tension force to ensure the integrity of the junction between the modular units (1).

The modular unit (1) of the present invention is the same as the conventional modular unit, the four pillars 10 of the rectangular tube cross-section, the ceiling information 20 and the floor beam 30 connecting the upper and lower ends of the column 10, respectively. ) is made of

The pillar 10 is made of a rectangular cross-section with an empty interior, and an end plate may be configured at the upper end and the lower end, respectively. The ceiling information 20 and the floor beam 30 may have various cross sections, such as a channel having a C-shaped cross section, and are joined to and connected to the side surface of the column 10 .

In the present invention, in particular, when the modular unit 1 and the modular unit 1 are vertically stacked, the modular unit 1 and the connecting member 40 between the post 10 and the post 10 of the modular unit 1 . to be configured.

3 is a perspective view and a cross-sectional view of a connecting member of the present invention, FIG. 4 is a partially exploded perspective view showing a junction of a vertical joint structure between unit modules of a modular unit using a steel wire of the present invention, and FIG. 5 is a steel wire of the present invention It is a cross-sectional view of the vertical junction structure between unit modules of the used modular unit.

3, the connecting member 40 extends in the horizontal direction from the lower end side of the protruding insert 41 and the protruding insert 41 made of a rectangular tube of a certain length having the same cross-sectional shape as the column 10. It consists of a support plate (42).

The protruding insertion portion 41 has a cross-sectional size smaller than the cross-sectional size of the pillar 10 so that it can be inserted into the pillar 10, and a through hole 411 to penetrate the projecting insertion portion 41 is formed to allow the steel wire 50 to pass therethrough.

In particular, the through hole 411 has a large upper cross-section and a small lower cross-section so that a gradient is formed so that it is easily inserted into the wide cross-section of the through hole 411 when the steel wire 50 is inserted. This can be facilitated, and since the lower cross-section of the through-hole 411 is small, the lower portion of the through-hole 411 is located in the center of the cross-section of the protruding insert 41, so that the steel wire 50 is inserted into the protruding insert 41. It also serves to position it in the center of the cross-section.

Such a protruding insert 41 is inserted into the lower end of the column 10 of the modular unit 1 stacked thereon, as in FIGS. 4 and 5, so that the upper and lower modular units 1 are located at the correct positions. The role of inducing it to fit and the upper and lower modular units (1) are engaged to serve as a function to resist lateral force.

At the lower end of the column 10 of the upper modular unit 1, a separate end plate is not configured so that the protruding insert 41 can be inserted, or the protruding insert 41 can be inserted by drilling a hole in the end plate. .

The support plate 42 is formed to protrude outward from the side surface of the lower end of the protruding insert 41 in a horizontal plate shape and is positioned between the upper modular unit 1 and the lower modular unit 1, and the steel wire 50 ), when the tension force is introduced, the frictional resistance force is secured due to the compressive force generated on the column 10 and the friction coefficient of the interface between the modular unit 1, and it is used to improve the synthesis action of the cross section.

Therefore, the support plate 42 is between the floor beam 30 of the upper modular unit 1 and the ceiling information 20 of the lower modular unit 1 so as to effectively secure the frictional resistance of the support plate 42 . to increase the frictional resistance between the modular units (1).

In particular, as shown, the support plate 42 is formed at an angle of 90 degrees centering on the protruding insertion part 41 to form an L-shape, so that the floor beam 30 and the lower modular unit of the upper modular unit 1 . The frictional resistance between the ceiling information 20 of the unit 1 is increased.

In the present invention, a steel wire 50 is inserted and tension is introduced to ensure the integrity of the junction between the upper and lower modular units 1 .

The steel wire 50 passes through the column 10 of the upper modular unit 1, the connecting member 40, and the column 10 of the lower modular unit 1 in sequence, and the lower end is the column of the lower modular unit 1 ( 10) It is fixed to the end plate 60 at the lower end to introduce a tension force so as to be fixed to the anchorage hole 70 at the upper end of the column 10 of the upper modular unit 1 .

The anchorage 70 is formed at the upper end of the column 10 of the upper modular unit 1, and may be formed in a L shape to support the cross section of the column 10 and the ceiling information 20 on both sides to a certain length in order to secure support. have.

The vertical joint structure between unit modules of the modular unit using the steel wire of the present invention as described above does not require bolt and nut fastening at the junction between unit modules, so it is not necessary to form an opening in the column for bolt fastening, as well as a cross-sectional defect due to the opening. It is possible to maintain structural performance by preventing In order to couple, and then insert a steel wire through the column of the vertically stacked unit module again to introduce prestress, the secondary coupling is carried out to secure the integrity of the junction between the unit modules to ensure stable integral behavior. It has a very useful effect because it is easy to construct.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various modifications and modified inventions without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

1: Modular unit
10 : pillar
20: ceiling information
30: floor covering
40: connecting member
50: steel wire
60: end plate
70: anchorage

Claims (5)

In the vertical junction structure between unit modules of the modular unit 1 consisting of four pillars 10 of a rectangular tube cross-section, and a ceiling information 20 and a floor beam 30 connecting the upper and lower ends of the column 10, respectively. in,
In the shape of a prismatic column having a smaller cross-section than the column 10, the protruding insertion part 41 in which a through hole 411 is formed by penetrating the inside, and a horizontal plate shape formed in the horizontal direction at the lower end of the protruding insertion part 41 The connecting member 40 made of the support plate 42,
Between the upper modular unit (1) and the lower modular unit (1), a protruding insertion part (41) is inserted into the lower end of the column (10) of the upper modular unit (1),
The steel wire 50 passes through the column 10 of the upper modular unit 1, the connecting member 40, and the column 10 of the lower modular unit 1 in turn, and the lower end of the column 10 of the lower modular unit 1 Vertical junction structure between unit modules of a modular unit using a steel wire, characterized in that it is fixed to the end plate 60 and fixed to the anchorage 70 at the upper end of the column 10 of the upper modular unit 1 by introducing a tension force . The method according to claim 1,
The connecting member 40 has a vertical joint structure between unit modules of a modular unit using a steel wire, characterized in that the through hole 411 has a large upper cross-section and a small lower cross-section. The method according to claim 1,
The support plate 42 is positioned between the floor beam 30 of the upper modular unit 1 and the ceiling information 20 of the lower modular unit 1 to increase the frictional resistance between the modular units 1 A vertical joint structure between unit modules of a modular unit using a steel wire. The method according to claim 1,
The support plate 42 is a vertical joint structure between unit modules of a modular unit using a steel wire, characterized in that it is formed at an angle of 90 degrees around the protruding insertion part 41 to form a L shape. The method according to claim 1,
The anchorage 70 is formed in an L-shape so that it is supported up to a certain length inward from the end of the upper surface of the upper end surface of the column 10 and the upper surface of the ceiling information 20 on both sides of the column 10. Using a steel wire A vertical joint structure between unit modules of a modular unit.

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