KR101363795B1 - Joint construction of modular unit structure and foundation concrete - Google Patents

Abstract

Provided are a joint structure of a modular unit structure and a foundation concrete capable of maximizing the assembling workability and the lateral force resisting capacity, shortening construction period by simple bolting, and ensuring stable fixation of a column by installing a beam bound on a modular unit column in the foundation concrete through a binding bracket or a binding bracket in which a cast nod is installed. According to the present invention, the joint structure of a modular unit structure and a foundation concrete binding the bottom surfaces of multiple modular unit columns to the foundation concrete includes; an anchor bolt buried in the foundation concrete so that a screw part is exposed to the upper part; a binding bracket which has a bottom plate connected and fixed to the anchor bolt and which has multiple wind plates having a cross-shaped cross-section that the wing plates cross each other and installed on the upper surface of the bottom plate; and multiple fastening means fastening multiple wing plates to a pair of beams arranged to closely face each other on the side surface of each modular unit column.

Description

Joint construction of modular unit structure and foundation concrete

The present invention relates to a joint structure of the modular unit structure and the base concrete, and more particularly, by installing the beam bonded to the modular unit column to the base concrete via a fastening bracket or a fastening bracket provided with a cast node. The present invention relates to a modular unit structure and a foundation concrete joint structure which maximizes lateral resistance performance, facilitates fastening of bolts, and enables shortening of air, and ensures stable fixing force of columns.

At present, the coupling between the modular unit and the foundation under construction has a method in which each column is buried through the plinth, but it is suitable for the low-layer type, and the method of combining with fixed anchor bolts is resistant to lateral force due to hinge conditions. There was a problem this could not exert.

In addition, since the opening portion must be separately configured at the lower end of the column in order to couple the base portion of the modular unit structure with the foundation, there is a factor that degrades the structural performance due to the difficulty of the internal pillar bonding construction.

As a background art of this invention, Unexamined-Japanese-Patent No. 1997-004052 "joint structure and unit building | structure between plinth base structures and unit buildings" (patent document 1). In the background art, as shown in FIG. 12, the upper plinth, which is the lower end of the upper pillar, and the plinth, which is formed by joining the upper pit of the lower pillar, butt-butted, are joined together, and the upper plinth is joined to the lower plinth. While installing the upward junction groove portion, while installing the downward junction groove portion facing the lower side to the upper plinth, and further, the horizontal force transmission hardware for transmitting a horizontal force between the lower lip and the upper plinth The horizontal force transmission hardware has downwardly joined protrusions projecting downwardly, upwardly joined protrusions projecting upwardly, and a fixture insertion hole penetrating these downwardly and upwardly joined protrusions, and the downwardly joined protrusions of the horizontal force transmitting iron are Inserted into the upper joint groove of the lower head Insert the joining protrusions into the downward joining grooves of the upper plinth, and insert the fasteners through the fastener insertion holes of the horizontal force transmitting hardware, and the upper joining grooves of the lower pontoons through the horizontal force transmitting hardware by means of the fasteners. We propose the joint structure between the head circumference, the base structure of the plinth, and the unit building, which are characterized by joining the down joint grooves of the upper ply and the upper plinth.

However, the background art has a complicated structure, which is not easy to construct, difficult to bond internal pillars, resulting in structural performance deterioration, and difficult to converge construction errors in foundation and bonding. In particular, a difficult and inconvenient fastening process was required in which the nut was inserted deeply and fastened through the pillar.

Japanese Patent Laid-Open No. 1997-004052 "Joint Structure Between Plinths and Joints Between Plinth Foundations and Unit Buildings"

The present invention is to solve the problems as described above, by maximizing the assembly workability, lateral force resistance performance by installing the beam bonded to the modular unit pillar to the foundation concrete via a fastening bracket or a fastening bracket installed with a cast node. The purpose of the present invention is to provide a modular unit structure and a joint structure of the basic concrete, which can secure the fastening force of the column and secure a stable fixing force of the column.

The joint structure of the modular unit structure and the base concrete according to the present invention, in the structure for joining the bottom surface of the plurality of modular unit pillars to the base concrete, anchor bolts are embedded so that the threaded portion is exposed to the top of the base concrete; A fastening bracket having a bottom plate connected to an anchor bolt and a cross-shaped cross-section structure perpendicular to each other, and having a plurality of wing plates mounted on an upper surface of the bottom plate; And a plurality of fastening means for fastening the plurality of wing plates to a pair of beams that are disposed to face each other in close proximity to the side of the modular unit pillar.

At this time, a cast node may be further installed in the center of the lower surface of the plurality of wing plates of the binding bracket.

In addition, the cast node is in the form of a square pyramid is characterized in that the bottom is joined to the bottom plate, the hypotenuse side edge is bonded to the plurality of wing plates and four side surfaces are installed in contact with the lower end of the plurality of modular unit pillars, respectively.

In addition, the wing plate is characterized in that it has a constant thickness and the same height as the beam that is fitted in the gap between the pair of beams.

In addition, the fastening means is characterized in that the bolt is bolted to the bolt through the bolt hole and the pair of beams of each wing plate and the nut to be bolted to avoid the modular unit pillar.

In addition, the anchor bolt is characterized in that it is fixed by filling the mortar after being inserted to a predetermined depth in the anchor buried hole pre-drilled in the foundation concrete.

The joint part structure of the modular unit structure and the foundation concrete according to another suitable embodiment of the present invention is a structure in which the bottom surfaces of the plurality of modular unit columns are joined to the foundation concrete, wherein the anchors are embedded so that the threads are exposed to the upper part of the foundation concrete. Bolts; The bottom plate connected to the anchor bolt and the bottom plate connected to each other at right angles to each other to be inserted into the upper surface of the bottom plate, and to face each other to remove the cross-shaped steel plates in contact with the column surface is cut into a constant incision width is divided into separate forms A binding bracket having a plurality of beam joining wing plates interposed between a pair of beam gaps; And a plurality of fastening means for fastening the plurality of wing plates to a pair of beams that are disposed to face each other in close proximity to the side of the modular unit pillar.

The joint part structure of the modular unit structure and the foundation concrete of the present invention is a fastening operation in the field by fixing the anchoring bracket to the foundation concrete and fastening the anchoring bracket and the beam bonded to the modular unit column side with bolts that do not pass through the column. This makes it easy to shorten the air, and the mutually spaced intervals of the bolts can be secured from the lower center of the modular unit to secure a stable fixing force of the column.

In addition, through the cast node it is possible to improve the coupling force between the pillars of each modular unit structure to improve the resistance to lateral forces, such as strong winds or earthquakes.

Therefore, it is possible to increase the lateral force resistance performance of the entire unit modular frame at the same time.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is an exploded perspective view illustrating a joint structure of a modular unit structure and a foundation concrete according to an embodiment of the present invention.
2 is a perspective view of the coupled state of FIG.
3 is a perspective view of a connecting hardware applied to an embodiment of the present invention.
4 is a side cross-sectional view of Fig.
5 is an exploded perspective view illustrating a joint structure of a modular unit structure and a foundation concrete according to another embodiment of the present invention.
6 is a perspective view of the coupled state of FIG.
7 is an exploded perspective view of the bracket, cast node and the modular unit pillar applied to the present invention.
8 is a side cross-sectional view of FIG. 6.
9 is a plan sectional view of FIG.
10 is a perspective view showing another embodiment of the anchor bolt configuration of FIG.
11 shows another modified example of the fastening bracket applied to the present invention.
12 is an exploded perspective view showing a conventional joint structure between pillar bases.

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 an exploded perspective view illustrating a joint structure of a modular unit structure and a foundation concrete according to an embodiment of the present invention, FIG. 2 is a perspective view of a coupled state of FIG. 1, and FIG. 3 is applied to an embodiment of the present invention. Figure 4 is a perspective view of the connection hardware, Figure 4 is a side cross-sectional view of FIG.

In general, the modular unit structure is formed by placing a plurality of modular units horizontally and vertically stacked, and the pillars of the lowermost modular unit are coupled to the foundation concrete.

In the present invention, the anchor bolt 210 is installed on the foundation concrete 20 as shown in FIGS. 1 to 4, the anchoring brackets 210 are connected to the anchor bolts 210, and the anchoring brackets 30 are modular units. It has a joining structure formed by coupling to the beam 120 is joined to the pillar 110 of the fastening means.

The anchor bolt 210 is installed on the foundation concrete 20 so that the screw portion is exposed. The anchor bolt 210 may be installed using a buried anchor pre-buried in the foundation concrete, or may be installed in a chemical anchor method (buried in the foundation using chemicals).

When described in detail with reference to Figures 1 and 3 for the binding bracket 30 applied to the present invention.

As shown in FIGS. 1 and 3, the fastening bracket 30 has a flat plate-shaped bottom plate 310 and a plurality of coupling holes penetrated through the bottom plate 310 for connection with the anchor bolt 210. 320 and four wing plates 331 positioned at the center of the upper surface of the bottom plate 310 and connected to the beams 120 and 120 of the modular unit pillar 110 are configured. Each of the wing plate 331 is formed with a fastening hole 332 through for assembling the bolt (40). The position of the fastening hole 332 is positioned so that the modular unit pillar 110 is out of the modular unit pillar 110 when fitted to the four wing plates 331. Therefore, there is no interference of the modular unit pillar 110 during the fastening operation of the bolt 40 as shown in FIG.

The four wing plates 331 are perpendicular to each other and have a cross section of + (cross) shape. The fastening bracket 30 is fixedly installed on the foundation concrete 20 through the anchor bolt 210 inserted into the coupling hole 320. The nut is fastened to the anchor bolt 210 to secure the fixing force of the tightening bracket 30.

The bottom plate 310 is seated on the upper surface of the base concrete 20 in the shape of a plate. The bottom plate 310 has an area for supporting the bottom surface (pillar portion) of the modular unit pillar 110. The area of the bottom plate 310 is configured to be larger than the total area of the four modular unit columns 110. At this time, the beams 120 and 120 which are perpendicular to each other are joined to each pillar 110. Therefore, as shown in FIG. 1, when the four pillars 110 are arranged adjacent to each other to form a lattice arrangement, the beams 120 and 120 connected to the adjacent pillars 110 and 110 may also face each other to form a pair. In this case, four modular unit pillars 110 are disposed in the pair of beams 120 and 120 to have a predetermined gap.

Anchor bolt 210 of the foundation concrete 20 is coupled through the coupling hole 320 of the bottom plate 310. Therefore, the position of the coupling hole 320 is located in the bottom plate 310 to avoid the portion that the pillar 110 touches. Therefore, the interference that is interfered with fixing the fastening bracket 30 by fastening the nut to the anchor bolt 210 does not occur.

As shown in FIG. 4, the plurality of wing plates 331 are spaced apart from a pair of eight beams 120 and 120 that face each other adjacent to each other among the eight beams 120 joined to the four pillars 110. Indicates the fit between the gaps.

Therefore, according to the present embodiment, a pair of beams 120 and 120 positioned at the left and right sides of the bolt 40 and the nut using the anchoring bracket 30 fixed to the upper surface of the foundation concrete 20 by the anchor bolt 210 is formed. Since the fastening work in the field is easy to be connected by fastening, it is possible to shorten the air, and the mutually spaced intervals of the bolts are widely secured from the lower center of the modular unit to secure a stable fixing force of the column. In particular, the horizontal load acting on the joints between the modular unit structures improves the resistance to horizontal loads acting on the modular unit columns 110.

5 is an exploded perspective view illustrating a joint structure of a modular unit structure and a foundation concrete according to another embodiment of the present invention, FIG. 6 is a perspective view of a coupled state of FIG. 5, and FIG. 7 is a fastening bracket applied to the present invention. , Cast node and modular unit column are exploded perspective views, FIG. 8 is a side cross-sectional view of FIG. 6, and FIG. 9 is a plan cross-sectional view of FIG. 6.

As shown in FIGS. 5 and 7, the fastening bracket 30 applied to the present embodiment has a cast node 312 installed at the center of the lower surface of the plurality of wing plates 331. have. The cast node 312 is in the form of a square pyramid, the bottom surface 312a is joined to the top surface of the bottom plate 310, the hypotenuse side edges are joined to the plurality of wing plates 331, and the four side surfaces 312b are formed of a plurality of modular units. The lower end of the pillar 110 is installed in contact with each other.

As shown in FIG. 7, the lower end of the four pillars 110 has a cut inclined surface 110a in contact with the side surface 312b of the cast node 312. Therefore, when a pair of beams 120 and 120 are connected to the fastening bracket 30 by the fastening of the bolts 40 and the nuts, the lower ends of the modular unit pillars 110 are closely coupled to the cast nodes 312 as shown in FIG. 9. do. The cast node 312 thereby leads to an easy determination of the assembly position of the modular unit column 110 and improves the resistance to horizontal loads acting on the modular unit column 110.

10 is a perspective view showing another embodiment of the installation of the anchor bolt 210 of FIG.

As shown in FIG. 10, the anchor bolt 210 may be inserted into the anchor buried hole 220 pre-drilled in the foundation concrete 20 to a predetermined depth, and then may be fixed by filling the mortar.

Thus, if the anchoring hole 210 is installed after the buried hole 220 is formed in advance, there is an effect that can correct the construction error.

Thus, according to the present invention, the assembly is made by fastening the bolts 30 for fastening brackets 30 and 120 and the anchor bolt 210 freely from the outside, respectively, without having to fasten through the inside of the pillar as in the prior art. The installation process is easy and convenient.

In addition, through the manner in which the bolts 40 are fastened to the beams 120 and 120 of the modular unit pillar 110, the joints can be secured to secure a stable fixing force of the pillar.

In addition, by the cast node 312 installed in the bracket for tightening 30 can improve the coupling force between the pillars of each modular unit structure to improve the resistance to lateral forces such as strong winds or earthquakes.

The present invention can be configured by modifying the fastening bracket 30 'as shown in FIG. That is, the fastening brackets 30 'are formed at right angles to each other and placed on the upper surface of the bottom plate 310, but facing each other is cut into a constant incision width (L), and separated from each other as a pair of divided forms. It can be configured to have a plurality of beam joining blade plate 331 'interposed between the gaps of the beams (120, 120).

In this case, when the long bracket 30 is deformed, the cross-shaped steel sheet in contact with the pillar surface is removed, leaving only the steel sheet for connecting the beams, thereby improving the workability as well as the constructability of the steel and the steel sheet.

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.

20: foundation concrete
30,30 ': Tight Bracket
40: Bolt
110: Column
120: Bo
210: anchor bolt
310: bottom plate
312: Cast Node
320: coupling hole
331,331 ': Wingspan
332: bolt ball

Claims (7)

delete In the structure for bonding the bottom surface of the plurality of modular unit pillars 110 to the base concrete 20,
An anchor bolt 210 embedded in the foundation concrete 20 so that the threaded portion is exposed upward;
A plurality of wing plates 331 installed on the upper surface of the bottom plate 310 having a cross-shaped cross-section (+) cross-sectional structure of the bottom plate 310 connected to and fixed to the anchor bolt 210 and formed at right angles. Tightening bracket 30 is installed to have a fixed anchor bolt 210 to the foundation concrete 20 with a medium;
Each end of the modular unit pillar 110 is bonded to the end to form a right angle at the same time at the same time having a gap in which the wing plate 331 can be inserted in the pair of beams (120, 120) are arranged facing each other the bracket And a plurality of fastening means for fastening the wing plates 331 to the pair of beams 120 and 120 after inserting the plurality of wing plates 331 of 30.
A cast node 312 is installed at the center of the lower surface of the plurality of wing plates 331 of the fastening bracket 30;
The cast node 312 has a quadrangular pyramid shape, the bottom of which is joined to the bottom plate 310, the hypotenuse-side edges of the plurality of wing plates 331, and four side surfaces of the cast node 312 at the bottom of the plurality of modular unit columns 110. The joint structure of the modular unit structure and the foundation concrete, characterized in that each installed in contact. delete The method according to claim 2,
Wing plate 331 is a joint structure of the modular unit structure and the base concrete, characterized in that it has a constant thickness and the same height as the beams (120,120) fitted in the gap between the pair of beams (120,120). The method according to claim 2,
The fastening means is a bolt 40 and a nut fastened to the bolt 40 through the bolt hole 332 and the pair of beams 120 and 120 of each wing plate 331 by avoiding the modular unit pillar 110. A joint structure of a modular unit structure and a base concrete, characterized in that. The method according to claim 2,
The anchor bolt 210 is inserted into the anchor buried hole 220 pre-drilled in the foundation concrete 20, and then bonded to the modular unit structure and the foundation concrete structure, characterized in that it is fixed by filling the mortar. delete

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