KR102521464B1 - Connection details of module unit for modular building - Google Patents

Abstract

The present invention relates to a vertical joint structure between modular units using a wet method, and more particularly, when the modular units are vertically stacked, an upper finishing plate having a nut welded to the lower surface is formed on the upper end of the lower modular unit column, and the modular unit At the time of vertical connection between units, a steel rod with threads formed is fastened to a previously welded nut to fix it, and by filling the joint with non-shrinkage mortar to integrate it, the rigidity of the joint is increased and the lateral force transmission path can be clarified. It relates to a vertical junction structure between modular units.
A preferred embodiment of the present invention is a vertical joining structure between modular units consisting of four pillars of rectangular steel tubes, ceiling beams and floor beams connecting the upper and lower ends of the pillars, respectively, in which the pillars are horizontally plate-shaped at the upper ends and have a central portion. A fastening hole is formed by penetrating, and an upper finishing plate is formed by welding a nut for coupling by matching the fastening hole on the lower surface. A plate is composed of a plate, and a plate-shaped connection plate formed by through-holes is located on the upper finishing plate of the column of the lower modular unit. It is screwed to the nut, and the upper end passes through the through hole of the lower finishing plate of the upper modular unit column, stacks the modular unit to be located inside the column, and injects non-shrinking mortar into the lower part of the upper modular unit column to join. .

Description

Vertical connection structure between modular units using wet method {Connection details of module unit for modular building}

The present invention relates to a vertical joint structure between modular units using a wet method, and more particularly, when the modular units are vertically stacked, an upper finishing plate having a nut welded to the lower surface is formed on the upper end of the lower modular unit column, and the modular unit At the time of vertical connection between units, a steel rod with threads formed is fastened to a previously welded nut to fix it, and by filling the joint with non-shrinkage mortar to integrate it, the rigidity of the joint is increased and the lateral force transmission path can be clarified. It relates to a vertical junction structure between modular units.

In general, a modular unit constructs various finishing materials, mechanical facilities, electrical wiring, etc. inside a structure composed of a plurality of cubes in advance in a factory, transports them to the site, and completes the assembly. Connect adjacently in the direction to construct a modular unit structure.

In addition, in the conventional modular unit structure formed by stacking a plurality of modular units horizontally and vertically, bolts between units are directly fastened for joining modular units, but such a bolt fastening method requires securing space for fastening bolts Since a mouse hole was formed at the junction and bolted to fasten, there was a problem in that the cross section of the parent material was lost due to the mouse hole, so that the stress transmission was unclear and the structural strength was lowered.

As a background technology of the junction between 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, the four steel pillars 2 arranged in a rectangular shape and the upper part of each pillar 2 are connected, and the upper ceiling horizontal part 3a, the ceiling vertical part 3b, and the lower ceiling horizontal part ( 3c) connecting a plurality of steel channel ceiling beams (3) and the bottom of each column (2), consisting of an upper floor horizontal portion (4a), a floor vertical portion (4b), and a lower floor horizontal portion (4c) In the rectangular building modular unit (1) composed of a plurality of steel channel floor beams (4), each of the pillars (2) has a rectangular cross section, and the upper and lower ends are welded and fixed with a corner plate (40), On one side, an incision hole of a certain height is formed from the portion in contact with the harness plate 40, and a first bolt insertion hole 41 is formed in the harness plate 40, and a "c" shaped cross section is formed into the incision hole. A reinforcing member 10 having a reinforcing member 10 is inserted and fixed to the pillar 2 by welding, and a lower fixture insertion hole 51 is formed in the upper horizontal part 3a of the ceiling, and a lower fixture insertion hole 51 is formed in the lower horizontal part 4c of the floor. An upper fixture insertion hole 50 having a larger diameter than the hole 51 is formed to match the lower fixture insertion hole 51 on a vertical line, and a second bolt insertion hole 41 on one side to match on a vertical line. A connecting plate 20 in which a bolt insertion hole 21 is formed, and a fixture insertion hole 22 corresponding to the inner diameter of the upper fixture insertion hole 50 is formed on the other side and coincides with the center of the lower fixture insertion hole 51. ) is installed in contact with the rim plate 40, the first bolt insertion hole 41 and the second bolt insertion hole 21 are fastened by penetrating the fixing force bolt, and the upper conical portion 31 formed in a conical shape, An upper cylindrical portion 32 formed under the upper conical portion 31 and having a diameter corresponding to the inner diameter of the upper fixture insertion hole 50, and an inner diameter of the lower fastener insertion hole 51 formed under the upper cylindrical portion 32 A positioning fixture 30 composed of a lower cylindrical portion 33 having a diameter corresponding to and a lower conical portion 34 formed in a conical shape at the bottom of the lower cylindrical portion 33, the fixture lower insertion hole 51 The lower cylindrical portion 33 is inserted, and the upper cylindrical portion 32 is sequentially inserted into the fixture insertion hole 22 of the connecting plate 20, building modular unit having a reinforced connection reinforcement plate, characterized in that suggests

However, in the background art, the upper modular unit and the lower modular unit are coupled using the connecting plate 20. Since this is a structure in which only the ends of the columns are simply coupled to each other, it is difficult to increase lateral force resistance and maintain structural stability. In addition, the structure of the coupling part is complicated, and when combining modular units, the bolt fastening site is inside the column, which is a closed section, so it is inevitable to drill a mouth hole. There was a difficult problem in workability by bolting inside the mouth hole.

Patent Registration No. 0923637 "Building Modular Unit with Reinforced Connected Reinforced Plates"

The present invention is intended to solve the above problems, by minimizing bolt and nut fastening at the junction between modular units, thereby reducing cross-sectional loss of the column by not forming a mouse hole in the column, increasing the stiffness of the joint and increasing the lateral force transmission path Its purpose is to provide a vertical joint structure between modular units using a wet method that can be made clear and easy to construct.

In the present invention, in the vertical joint structure between modular units composed of four pillars of rectangular steel tubes, and ceiling and floor beams connecting the upper and lower ends of the pillars, the pillars are horizontally plate-shaped at the upper end and penetrated through the center to form a fastening hole And on the lower surface, an upper closing plate formed by welding nuts for coupling by matching the fastening hole is configured, and a lower finishing plate is formed on the lower side in a horizontal plate shape and formed with a through hole by penetrating a certain size larger than the fastening hole. A plate-shaped connecting plate formed by passing through the ball is located on the upper finishing plate of the column of the lower modular unit, and the lower end of the joint steel bar threaded on the outer circumferential surface penetrates the connecting plate and the upper finishing plate and is screwed to the coupling nut. , The upper part passes through the through-hole of the lower finishing plate of the upper modular unit column and stacks the modular unit to be located inside the column, and injects non-shrinkage mortar into the lower part of the upper modular unit column to bond. Wet method, characterized in that It is intended to provide a vertical joint structure between modular units using a construction method.

In addition, it is intended to provide a vertical joint structure between modular units using a wet method, characterized in that the size of the cross section of the column and the size of the upper and lower finishing plates are the same.

In addition, it is intended to provide a vertical joint structure between modular units using a wet method, characterized in that a break hole of a certain size is formed to communicate with the inside at a certain height from the lower end of the column to the top.

In addition, it is intended to provide a vertical joint structure between modular units, characterized in that the pressure member is screwed into the steel rod for joint located inside the pillar of the upper modular unit.

In addition, it is intended to provide a vertical joint structure between modular units, characterized in that a plurality of acupressure members are configured in the steel rod for joint.

In addition, a guide member is formed on the outer side of the coupling hole on the upper surface of the connection plate to protrude upward, and the guide member is inserted into the through hole of the lower finishing plate of the upper modular unit. Modular unit using a wet method, characterized in that It is intended to provide a vertical junction structure between

In addition, the modular unit is configured to be horizontally adjacent to one side and the other side, and the upper finishing plate of one of the two adjacent pillars between the modular units has a guide member formed so as to protrude upward on the outside of the fastening hole on the upper surface, The connection plates are spaced apart at the same interval as the spacing of the fastening holes of the upper finishing plate of horizontally adjacent columns, so that the size of one side is larger than the other by a certain size, each coupling hole is formed. On the outside, a guide member is formed to protrude upward, so that the guide member of the upper closing plate is inserted into the coupling hole on one side and the guide member of the connection plate is inserted into the through hole of the lower closing plate of the upper modular unit on the other side. It is intended to provide a vertical joint structure between modular units using a wet method.

In addition, the guide member of the upper closing plate is configured to protrude a certain length further upward through the coupling hole on one side, and the protruding portion is configured to be inserted into the through hole of the lower closing plate of the upper modular unit on one side stacked on the upper side. It is intended to provide a vertical joint structure between modular units using a characterized wet method.

In addition, a seating groove of a certain depth is formed on the upper surface of the upper finishing plate and the upper surface of the connecting plate, and a rubber packing member is formed in the seating groove, respectively, to prevent leakage and leakage during non-shrinkage mortar placement. It is intended to provide a vertical joint structure between modular units using a wet method.

The vertical joint structure between modular units using the wet method of the present invention constitutes an upper finishing plate in which nuts are welded to the lower surface of the upper end of the column when the modular units are vertically stacked, and a screw thread is formed during vertical joining between the modular units. By fastening and fixing the steel bar to the pre-welded nut, and filling the joint with non-shrinkage mortar to integrate it, it is possible to increase the rigidity of the joint and clarify the lateral force transmission path. It is possible to prevent loss of section by not forming a back, and there is a very useful effect that can be used by fastening a lifting ring to the nut of the upper finishing plate of the column.

The following drawings attached to this specification illustrate a preferred embodiment of the present invention, and together with the detailed description of the present invention serve to further understand the technical idea of the present invention, the present invention is limited to those described in the accompanying drawings. It should not be construed as limiting.
1 is a perspective view showing a vertical bonding structure between modular units using the wet method of the present invention.
Figure 2 is a partially enlarged view of the above Figure 1;
Figure 3 is an exploded perspective view of the junction of the present invention.
Figure 4 is a cross-sectional view of the junction of the vertical junction structure between modular units using the wet method of the present invention.
5 is a perspective view showing a vertical bonding structure between modular units according to another embodiment of the present invention.
6 is a partially exploded perspective view of FIG. 5;
FIG. 7 is a cross-sectional view of FIG. 5 .
8 is a graph showing the joint analysis results of the vertical joint structure between modular units using the wet method of the present invention.

Below, the present invention will be described in detail with reference to the embodiments presented 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 according to a preferred embodiment will be described in detail.

1 is a perspective view showing a vertical joint structure between modular units using the wet method of the present invention, and FIG. 2 is a partially enlarged view of FIG. 1 .

The modular unit 1 of the present invention is composed of four pillars 10 of rectangular steel tubes, ceiling information 20 and floor beam 30 connecting the upper and lower ends of the pillars 10, respectively, as in the conventional modular unit. It is done.

The pillar 10 has a rectangular cross-section with an empty inside, and an upper closing plate 110 and a lower closing plate 120 are formed at the upper end and the lower end, respectively. The ceiling information 20 and the floor beam 30 may be formed of various cross sections, such as a c-shaped cross section channel, and are joined and connected to the side surfaces of the pillars 10.

In the present invention, in particular, when the modular units 1 and the modular units 1 are vertically stacked, a connecting plate 40 is provided between the modular units 1 and the columns 10 of the modular units 1 and the columns 10 to be configured.

Figure 3 is an exploded perspective view of the junction of the present invention, Figure 4 is a cross-sectional view of the junction of the vertical junction structure between modular units using the wet method of the present invention.

An upper closing plate 110 and a lower closing plate 120 are configured at the upper and lower ends of the pillar 10, respectively, and both are plate-shaped, and the size may be various, and preferably the pillar 10 By making the cross-section size and the size of the upper and lower closing plates 110 and 120 the same, it is possible to facilitate fireproofing work after joining the modular units 1 to each other.

In particular, in the present invention, a fastening hole 111 and a through hole 121 are formed through the center of the upper closing plate 110 and the lower closing plate 120, respectively.

The fastening hole 111 through the upper closing plate 110 is made of a size to which the joint steel bar 60 described later is screwed so that a screw thread is formed on the inner circumferential surface, or a size that the joint steel bar 60 can penetrate. to be done with

At this time, a coupling nut 50 is welded to the lower surface of the upper closing plate 110, and the coupling nut 50 is integrally joined with the fastening hole 111 so that the joint steel bar 60 To be screwed into the coupling nut 50.

In this way, when the coupling nut 50 is pre-welded to the lower surface of the upper closing plate 110, it is not only used for fastening the joint steel bar 60, but also the lifting required for lifting the modular unit 1. A ring (not shown) may be fastened to the coupling nut 50 to facilitate construction.

At the lower end of the column 10, a lower closing plate 120 is formed in a horizontal plate shape and has a through hole 121 formed by penetrating a certain size larger than the fastening hole 111.

In this way, by forming the through hole 121 larger than the fastening hole 111, an extra space is created even when the steel bar 60 for jointing penetrates, so that installation errors and the like can be absorbed in the through hole 121.

In particular, the through-hole 121 is formed larger than the size of the fastening hole 111, but when the acupressure member 70 is configured in the joint steel bar 60, the acupressure member 70 can pass through the acupressure member ( 70) can be formed to a certain size.

In this way, when the modular units 1 are vertically connected, the connecting plate 40 is positioned between the pillars 10 of the lower modular unit 1 and the upper modular unit 1 .

The connection plate 40 has a plate shape formed by passing through the coupling hole 41 so that the joint steel bar 60 passes through, and is located on the upper closing plate 110 of the pillar 10 of the lower modular unit 1. .

The joint steel bar 60 is threaded on the outer circumferential surface, and the lower end of the joint steel bar 60 penetrates the connecting plate 40 and the upper closing plate 110 and is screwed to the coupling nut 50, The upper end passes through the through hole 121 of the lower closing plate 120 of the pillar 10 of the upper modular unit 1 and stacks the modular units 1 so as to be located inside the pillar 10.

When configured in this way, as shown in FIG. 4, the upper part of the joint steel bar 60 is inserted up to a certain height of the lower part of the pillar 10 of the upper modular unit 1, and the upper modular unit 1 pillar 10 ) is injected into the lower part of the non-shrinkage mortar 80 so that the steel bar 60 for jointing is fixed to join the vertically stacked modular units 1. The injection of the non-shrinkage mortar 80 may be performed in various ways, such as inserting a hose into the fastening hole 111 of the upper closing plate 110 of the column 10 to inject the mortar.

At this time, the non-shrinkage mortar 80 is configured to be filled from the upper end of the joint steel bar 60 to a certain height and high position to secure the fixing length of the joint steel bar 60, and the column 10 from the lower end to the upper A break hole 130 of a certain size is formed at a certain height to communicate with the inside, so that when the disassembly of the modular unit 1 is necessary later, the hand breaker equipment is put through the break hole 130 to form a hardened non-shrinkable mortar ( 80) to break it.

The break hole 130 may be formed in various positions such as the inside and outside of the pillar 10, and one or more may be formed.

In the present invention, the joint steel rod 60 is coupled to the pillar 10 of the lower modular unit 1 at the lower part and the upper part is located inside the pillar 10 of the upper modular unit 1, so that the non-shrinkage mortar 80 In order to join by filling and integrating, a screw thread is formed on the outer circumferential surface of the steel bar 60 for jointing to effectively resist the pulling load from the inside of the non-shrinkable mortar 80. In particular, the steel bar 60 for jointing has a pressure member (70) is configured to be screwed together, so that the pressure area for the pulling load can be widened, so that the length of the joint steel bar 60 can be reduced. In the present invention, the length of the joint steel bar 60 and the number of pressure members 70 can be adjusted according to the performance of the structure. In particular, as shown in FIG. 4B, a high-tensile long bolt is used as the joint steel bar 60, It is possible to form a short length of the joint steel bar 60 by using a pressure member 70 such as a nut.

Such a pressure member 70 may be easily fastened to the steel bar 60 for jointing using a nut, etc., and nut grooves may be processed in members of various shapes to be used by fastening to the steel bar 60 for jointing. And, the acupressure member 70 may be one fastened or a plurality of fastened to the joint steel bar 60 at regular intervals or irregular intervals.

5 is a perspective view showing a vertical bonding structure between modular units according to another embodiment of the present invention, FIG. 6 is a partially exploded perspective view of FIG. 5, and FIG. 7 is a cross-sectional view of FIG.

As shown in FIG. 6, a guide member 47 is formed on the outer side of the coupling hole 41 on the upper surface of the connection plate 40 so as to protrude upward, and the guide member 47 is the upper modular unit 1. It is inserted into the through hole 121 of the lower finishing plate 120, so that it serves as a guide during the upper stack installation of the modular unit 1, and the modular unit 1 It can be prevented from coming out of this installation position.

In particular, in the above embodiment, the junction between the vertically stacked modular units 1 has been described. As shown in FIGS. 5 to 7, the modular unit 1 is configured to be horizontally adjacent to one side and the other side, and then to the top again. Even when the modular units 1 are stacked, the left and right modular units 1 may be connected to each other through the connection plate 40 .

To this end, the connecting plate 40 is made to the size of a plate covering the top of a pair of left and right adjacent pillars 10, and the connecting plate 40 is the upper closing plate 110 of the horizontally adjacent pillars 10. Spaced apart at the same interval as the spacing of the fastening holes 111 so that the coupling holes 41 are formed, respectively.

At this time, in the present invention, the upper closing plate 110 of the pillar 10 on one side of the adjacent two pillars 10 between the modular units 1 is a guide member so as to protrude upward from the outside of the fastening hole 111 on the upper surface. 117 is formed, and coupling holes 41 are formed so that one side of the connection plate 40 is larger by a predetermined size, and the coupling hole 41 on the other side is formed on the upper surface of the connection plate 40. On the outside, a guide member 47 is formed so as to protrude upward, so that the guide member 117 of the upper closing plate 110 is inserted into the coupling hole 41 on one side and the guide member 47 of the connection plate 40 is on the other side. It is configured to be inserted into the through hole 121 of the lower closing plate 120 of the upper modular unit 1, so that not only vertical bonding between the modular units 1 but also horizontal bonding by the connecting plate 40 is achieved.

In this way, in order to connect the left and right modular units 1, the coupling hole 41 of the connecting plate 40 is formed with a standard hole size on the other side and an enlarged hole size on one side, While absorbing manufacturing and construction errors, the guide members 117 and 47 not only serve as a guide when installing the modular unit 1, but also unexpected shock or wind before placing non-shrinkage mortar inside the column 1 It is possible to prevent the modular unit 1 from leaving its position under load.

At this time, the guide member 117 of the upper closing plate 110 penetrates through the coupling hole 41 on one side and is configured to protrude further upward by a certain length, so that the protruding portion of the upper modular unit 1 on one side is stacked on the upper side. It may be configured to be inserted into the through hole 121 of the lower closing plate 120.

In particular, as shown in FIG. 3B, the upper surface of the upper closing plate 110 and the upper surface of the connection plate 40 are formed with seating grooves 118 and 48 having a predetermined depth, respectively, and the seating grooves 118 and 48 ), the rubber packing member 90 may be configured, respectively, to prevent leakage and leakage when the non-shrinkage mortar 80 is poured.

The vertical joint structure between modular units using the wet method of the present invention as described above constitutes an upper finishing plate in which a nut is welded to the lower surface of the upper end of the column when the modular units are vertically stacked, and a screw thread at the time of vertical joining between modular units The formed steel bar is fixed by fastening it to a previously welded nut, and by filling the joint with non-shrinkage mortar to integrate it, it is possible to increase the rigidity of the joint and clarify the lateral force transmission path, and to minimize bolt fastening, so that construction is easy and pillar It is possible to prevent loss of section by not forming a mouth hole, etc., and there is a very useful effect that can be used by fastening a lifting ring to the nut of the upper finishing plate of the column.

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 variations 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 below.

1 : Modular unit
10: Pillar
110: upper closing plate
120: lower closing plate
20: ceiling information
30: floor beam
40: connection plate
50: coupling nut
60: steel bar for joint
70: acupressure member
80: non-shrinkage mortar

Claims (9)

In the vertical joint structure between modular units of a modular unit 1 composed of four pillars 10 of rectangular steel pipes, ceiling beams 20 and floor beams 30 connecting the upper and lower ends of the pillars 10, respectively,
The pillar 10 has a horizontal plate shape at the upper end, and a fastening hole 111 is formed through the central part, and an upper closing plate 110 formed by welding a nut 50 for coupling by matching the fastening hole 111 on the lower surface. ) is configured, and a lower closing plate 120 is formed at the lower end in a horizontal plate shape through a certain size larger than the fastening hole 111 to form a through hole 121,
The plate-shaped connection plate 40 formed by the through hole of the coupling hole 41 is located on the upper finishing plate 110 of the column 10 of the lower modular unit 1, and the joint steel bar 60 having threads on the outer circumferential surface. ) The lower end passes through the connecting plate 40 and the upper closing plate 110 and is screwed to the coupling nut 50, and the upper end of the pillar 10 of the upper modular unit 1 and the lower closing plate 120 The modular unit 1 is stacked so as to pass through the through hole 121 and be located inside the pillar 10,
The modular unit 1 is configured to be horizontally adjacent to one side and the other side, and the upper finishing plate 110 of the column 10 on one side of the two adjacent columns 10 between the modular units 1 has a fastening hole on the upper surface. A guide member 117 is formed on the outside of 111 to protrude upward,
The connecting plate 40 is spaced at the same interval as the spacing of the fastening holes 111 of the upper closing plate 110 of the horizontally adjacent pillars 10, so that the size of one side is larger than the other side by a certain size. are formed respectively,
On the upper surface of the connection plate 40, a guide member 47 is formed on the outside of the coupling hole 41 on the other side so as to protrude upward, so that the guide member 117 of the upper closing plate 110 is connected to the coupling hole 41 on one side. ) and the guide member 47 of the connection plate 40 is inserted into the through hole 121 of the lower closing plate 120 of the upper modular unit 1 on the other side,
A vertical joint structure between modular units using a wet method, characterized in that the non-shrinkage mortar 80 is injected into the lower part of the upper modular unit 1 column 10 to be joined. The method of claim 1,
Vertical bonding structure between modular units using a wet method, characterized in that the cross-sectional size of the pillar 10 and the size of the upper closing plate 110 and the lower closing plate 120 are configured the same. The method of claim 1,
Vertical junction structure between modular units using a wet method, characterized in that a break hole 130 of a certain size is formed to communicate with the inside at a certain height from the lower end of the pillar 10 to the top. The method of claim 1,
Vertical joint structure between modular units, characterized in that the pressure member 70 is screwed into the steel bar 60 for joint located inside the pillar 10 of the upper modular unit 1. The method of claim 4,
Vertical joining structure between modular units, characterized in that a plurality of acupressure members 70 are configured in the joint steel bar 60. The method of claim 1,
A guide member 47 is formed on the outer side of the coupling hole 41 on the upper surface of the connection plate 40 so as to protrude upward,
Vertical bonding structure between modular units using a wet method, characterized in that the guide member 47 is inserted into the through hole 121 of the lower closing plate 120 of the upper modular unit 1. delete The method of claim 1,
The guide member 117 of the upper closing plate 110 penetrates through the coupling hole 41 on one side and is configured to protrude upward by a certain length,
A vertical joint structure between modular units using a wet method, characterized in that the protrusion is configured to be inserted into the through hole 121 of the lower closing plate 120 of the upper modular unit 1 on one side stacked thereon. The method of claim 1,
Seating grooves 118 and 48 of a certain depth are formed on the upper surface of the upper closing plate 110 and the upper surface of the connecting plate 40, respectively, and the rubber packing member 90 is formed in the seating grooves 118 and 48. are composed of each
Vertical bonding structure between modular units using a wet method, characterized in that to prevent water leakage and leakage when non-shrinkage mortar (80) is poured.

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