KR101320938B1 - Unit moduler structure for extension and connecting method therof - Google Patents

Abstract

PURPOSE: A unit modular structure for building extension and a connection method thereof are provided to increase strength and to facilitate the installation of members by obtaining a work space for connecting the members. CONSTITUTION: A unit modular structure (10) for building extension comprises columns (100), beams (200), and connection parts (300). The columns are made of C-shaped steel. The beams are connected to the top and the bottom of the columns and are made of the C-shaped steel. The connection parts have end plates so that the beams can be directly connected to the columns.

Description

Unit Moduler Structure For extension and Connecting Method Therof}

The present invention relates to a unit modular structure for joining and a joining method, and more particularly, to a unit modular structure for joining and a joining method that are easy to form and join a structure from C-shaped steel.

The modular construction method is an advanced construction method that pre-fabricates more than 80% of the basic frame made of weathering steel and installs it on site.

It is a way to build a building like a container by prefabricating a steel frame structure at a factory. This construction method is regarded as more competitive in terms of construction quality, economics and environmental friendliness than previous construction methods because it can secure the quality of buildings and shorten the air and can be easily moved or reused.

The greatest strength of modular construction method is construction period and economical efficiency. The construction period can be reduced to one-third, and the cost of construction can be dramatically reduced, and reuse is possible, which is excellent in economy.

In addition, it minimizes waste generation by minimizing field work and minimizes noise and dust on site.

In the modular method, a steel pipe column and a C-shaped steel beam are rigidly joined and a composite or PC bottom plate is inserted into a C-shaped steel web.

However, the existing modular construction method has been developed for new construction, so the vertical expansion is limited to two floors under current law. Existing modular modulars have long one-sided structural forms that are longer than short sides to cope with design modules of existing buildings. In this case, the structural efficiency of the square steel pipe column is lowered, there is a problem that the steel joint treatment in the short side direction is not significant.

In addition, when bonding between the modular has a problem that a separate opening for securing the bolt joint space inside the square steel pipe column has a problem.

The present invention has been made to solve the above problems, the object of the present invention is to secure the installation space can be bonded to each member can be easy to install.

Another object of the present invention is to be able to exert high strength when the same unit modular structure is bonded.

Expansion unit modular structure according to an aspect of the present invention for achieving the above object is a column formed of C-shaped steel in consideration of the convenience of joining the existing building and the joint portion, and the upper and And a beam formed of C-shaped steel joined to the lower part, and a joint part having an end plate to directly bond the beam to the pillar.

When the load acts on the slab, the beam may be provided with a long side beam receiving the load and supporting the long side of the slab, and a short side beam supporting the short side of the slab.

The beam joined to the bottom of the pillar may have a fixed plate to which one unit modular structure and the other unit modular structure are bonded and fixed.

The fixing plate is located on the upper side of both ends of the beam and can be welded to the side of the pillar.

The pillar may have the flange face inward to serve as an opening when joining the beam, and the flange face toward the inside so that the sidewalk slab can be inserted into the beam.

The joint may use a steel joint for welding the beam directly to the pillar.

The joining part may be joined by a pin joint by providing a joining plate at a position where the short side beam is in contact with the pillar.

In addition, the method of joining the expansion unit modular structure to another aspect of the present invention for achieving the above object is a beam having a column and a fixing plate coupled to the pillar side of the C-shaped steel, the flange is formed therein, and the end In the method of joining expansion unit modular structures comprising a joining portion having a plate,

Coupling a first coupling hole formed in the end plate provided at the lower portion of the extension unit modular structure with the second coupling hole formed in the end plate provided at the upper junction portion of the other expansion unit modular structure with a bolt; A vertical joining method and an upper portion of the first fixing hole formed in the web of the joining unit of the expansion unit modular structure and the second fixing hole formed in the web of the joining unit of the other expansion unit modular structure by the bolt. And a beam horizontal bonding method, and a lower beam horizontal bonding method of coupling the first fixing plate of the beam and the second fixing plate of the other expansion unit modular structure to the lower part of the extension unit modular structure by the bolt.

A flange may be formed inside so that the web overlaps the contact portion to increase the strength of the beam. The bolt can be tightened at equal intervals.

According to the axis detection sensor and method according to the present invention, each member is formed of C-shaped steel, one side is open to ensure a working space for joining each member.

In addition, when the flange surface of the C-shaped steel is bonded inward to the same unit modular structure, the strength supporting load can be increased.

1 is a perspective view showing an expansion unit modular structure according to an embodiment of the present invention.
Figure 2 is a perspective view showing a junction according to an embodiment of the present invention.
Figure 3 is a perspective view showing a state in which the slab is installed in the beam according to an embodiment of the present invention.
Figure 4 is a perspective view showing the junction of the expansion unit modular structure according to another embodiment of the present invention.
Figure 5 is a perspective view showing a vertical junction of the expansion unit modular structure according to another embodiment of the present invention.
Figure 6 is a perspective view showing a horizontal beam of the upper beam of the expansion unit modular structure according to another embodiment of the present invention.
Figure 7 is a perspective view showing a horizontal beam of the lower beam of the expansion unit modular structure according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail for the expansion unit modular structure and the bonding method according to an embodiment of the present invention.

1 is a perspective view showing an expansion unit modular structure according to an embodiment of the present invention, Figure 2 is a perspective view showing a joint according to an embodiment of the present invention, 3 is a beam according to an embodiment of the present invention A perspective view showing a state in which a slab is installed.

1 to 3, the expansion unit modular structure 10 according to an embodiment of the present invention is a column 100 formed of C-shaped steel, and joined to the top and bottom of the column 100 and C A beam 200 formed of a shape steel and the beam 200 may include a joint 300 having end plates 310 and 320 to be directly bonded to the pillar 100.

The pillar 100 is formed of C-shaped steel in consideration of the ease of joining the existing building and the convenience of joining with the plinth. The pillar 100 formed of the C-shaped steel is formed of a web 600 and a flange 500 extending vertically from both sides of the web 600. In addition, the pillar 100 is to face the flange 500 inward to facilitate the joining with the beam 200.

For example, the conventional unit modular method forms the column 100 with a square steel pipe. Conventional unit modular method is to build a unit by stacking the unit modular in the upper unit modular method for expansion rather than expansion. Therefore, the column 100 is formed of a square steel pipe to support the load of the unit module stacked on the top. On the contrary, in the case of the expansion that is not the expansion that can increase the floor, the role of the pillar 100 supporting the load of the upper part is reduced because two floors are limited by the current law. Therefore, the C-shaped steel, not the square steel pipe, can support the unit module of the upper layer.

In addition, when the pillar 100 is formed of a square steel tube, when the beam 200 and the pillar 100 of the upper layer are joined to the pillar 100, a work space is not formed when using a pin joint instead of welding. Therefore, in the conventional unit modular method, an opening is formed in the junction 300 to perform pin joining with the beam 200 or the pillar 100 of the upper layer, which consumes time and money by forming an opening in the square steel pipe. The load transmitted from the upper part is hindered by the opening part from the lower part. However, in the present invention, since the pillar 100 is formed of C-shaped steel with one side open, the load of the upper portion is evenly transmitted to the lower side, and the flange 100 of the C-shaped steel is opened toward the inner side of the pillar 100. The formed surface is formed inside the unit module to form a working space for joining the beam 200 and the upper pillar 100. In addition, since the flange 500 surface of the C-shaped steel faces inward, the work of joining the pillar 100 and the beam 200 or the upper pillar 100 from the inside of the unit module reduces the risk of falling to the outside. You can prevent it.

The beam 200 has an upper beam 220 that is joined to the upper portion of the pillar 100 to form a ceiling and a lower beam 210 that is bonded to the lower portion of the pillar 100 to form a floor. The beam 200 faces the flange 500 surface inwardly so that the bottom slab 700 can be inserted into the beam 200 dance.

The upper beam 220 is bonded to the upper portion of the pillar 100 to form a ceiling. When the ceiling is formed on the upper beams 220 without raising the unit modular to the upper beams 220, the surface of the flange 500 faces inwardly so that the ceiling slab 700 can be inserted into the upper beams 220. .

The lower beam 210 is bonded to the lower portion of the pillar 100 and the bottom slab 700 is inserted into the beam 200 to form a floor. The upper portion of the lower beam 210 is provided with a fixing plate 400 at both ends in contact with the pillar (100). The fixing plate 400 includes a fixing hole 410 for inserting a bolt 900 for fixing between the unit modular structure 10 when the unit modular structure 10 is horizontally bonded. The lower beam 210 faces the flange 500 surface inward so that the bottom slab 700 can be inserted into the beam 200.

The slab 700 may be inserted into the form of the beam 200 dance, and then coupled to form a concrete on the form, and the completed slab 700 may be inserted into the beam 200 dance to combine.

In addition, the beam 200 receives a load when the load is applied to the floor slab 700, the long side beams 211 for supporting the long side of the slab 700 and the short length of the slab 700 It has a short side beam 212 supporting the side.

The joint part 300 includes end plates 310 and 320 so that the beam 200 is welded and joined to the pillar 100. The joint part 300 is formed at a position where the pillar 100 and the beam 200 are joined, and the beam 200 cannot be joined to an open surface between the flange 500 of the pillar 100. Plates 310 and 320 are installed and joined.

For example, the long side beams 211 may be joined by welding the pillars 100 at the joint 300. However, since the short side beams 212 are formed with the flange 500 of the pillar 100 facing inward, the short side beams 212 may have insufficient space for joining the short side beams 212 and the pillars 100. Therefore, the end plates 310 and 320 are installed at the same position as the flange 500 of the short side beams 212 in the space formed between the flanges 500 of the joint part 300 to join the upper side short side beams 212. It can be secured (200).

Hereinafter, in describing the bonding method of the expansion unit modular structure 10 according to another embodiment of the present invention, the same reference numerals are used for the same configuration as the expansion unit modular structure 10 according to the above-described embodiment. , Detailed description thereof will be omitted.

Figure 4 is a perspective view showing the joint of the expansion unit modular structure according to another embodiment of the present invention.

As shown in FIG. 4, the joint 300 of the expansion unit modular structure 10 according to another embodiment of the present invention uses a method of directly welding the beam 200 to the pillar 100 and a bolt 900. The pillar 100 and the beam 200 can be bonded by a pin bonding method.

The expansion unit modular structure 10 includes a long side beam 211 that receives a large load of the slab 700 and a short side beam 212 that supports the slab 700 that receives a small load.

Since the long side beams 211 are subjected to a load of the slab 700, the long side beams 211 may be joined by a steel joint that directly welds the beams 200 to the pillars 100, and the short side beams 212 may support the slab 700. In order to receive less load to the beam 200 to be installed in order to be bonded to the pillar 100 by a pin joint using a bolt 900.

For example, in the case of the two-way slab 700, the load mainly acts as the long side beams 211, and the short side beams 212 act as a small load, so the short side beams 212 only support the slab 700. do. Therefore, the welding beam 200 may not be subjected to a lot of load at the site where the short side beams 212 and the pillars 100 are joined, but a simple pin joint may be used.

As the method of joining the short side beams 212 to the pillars 100 by pin bonding, as shown in (a), when the flange 500 surface of the column 100 faces the short side beams 212, the joining plate is provided. 800 can be provided and joined. The joining plate 800 is a flange 500 of the first end plate 310 formed on the joining part 300, the second end plate 320 formed on the bottom part, and the pillar 100 of the joining part 300. It is fixed to the side, it may be provided on the side of the flange 500 formed on the upper and lower ends of the short side beams (212).

In addition, as shown in (b) when the flange 500 surface of the pillar 100 toward the long side beams 211, the side of the flange 500 formed on the upper and lower portions at the end of the short side beams 212 The joint plate 800 and the flange 100 of the pillar 100 may be bonded by pin bonding.

The joining plate 800 may be provided with a plurality of bolts 900 that can support the weight of the slab 700 and the weight of the beam 200, such as a high-strength bolt 900.

5 is a perspective view showing a vertical junction of the expansion unit modular structure according to another embodiment of the present invention.

As shown in FIG. 5, the same expansion unit modular structure 10b may be bonded to an upper portion of the expansion unit modular structure 10a according to another embodiment of the present invention.

When vertically joining the same expansion unit modular structures 10a and 10b, the second end plate of the joint 300 in which the upper beam 220 and the pillar 100 of the lower expansion unit modular structure 10a are in contact with each other ( 320 and the first end plate 310 of the bonding portion 300 in contact with the lower beam 210 and the pillar 100 of the expansion unit modular structure (10b) of the upper is joined.

When the same unit modular structure 10b for expansion is joined to the upper part of the unit modular structure 10a for expansion, the first coupling hole 315 and the first end plate 310 provided in the second end plate 320. The second coupling hole 325 provided in the) is fixed with a bolt 900.

In addition, the floor slab 700 may be installed in the dance of the lower beam 210 of the expansion unit modular structure 10b stacked on the upper portion. Since the bolt 900 may not be inserted by the bottom slab 700, the bolt 900 may be inserted into the second coupling hole 325 before the bottom slab 700 is installed, and thus the bottom slab 700 may be inserted. You may not be disturbed. In addition, the bolt 900, which is pre-inserted into the second coupling hole 325 by the vertical bonding, is joined between the expansion unit modular so as to be inserted into the first coupling hole 315, and then protrudes from the first coupling hole 315. The nut 910 may be fixed to the bolt 900 so as to vertically join the same modular unit structures 10a and 10b.

The upper beams 220 and the lower beams 210 are fixed to the bolts 900 at equal intervals to prevent the beams 200 from being separated from each other.

In addition, since the upper beam 220 of the lower unit modular structure 10a of the lower portion and the lower beam 210 of the unit module structure 10b of the upper portion are opposed to each other, the conventional extension method beam 200 increases the strength. Can be.

For example, in the conventional method of expanding the unit module in the lower pillar 100 and the beam 200 by using a square steel pipe to install the pillar 100 and the upper beam 220 to the upper to the lower pillar ( 100) and the beam 200 is a method of reducing the load received. However, since the column 100 and the beam 200 of the present invention use a C-shaped steel that receives less load than the square steel tube beam 200, it is possible to support the load even when the expansion unit modular structure 10b is enlarged on the upper portion. Sufficient strength can be exhibited. In addition, unlike the conventional extension method, the present invention may overlap the strength 200 because the upper beam 220 of the lower layer and the lower beam 210 of the upper layer overlap. And, the upper beam 220 and the lower beam 210 overlap, but because the use of C-shaped steel can be similar to the cost of using a square steel pipe, the strength can support the load can be increased.

In addition, since the expansion unit modular structure 10a is formed of C-shaped steel having one surface open, when the same vertical expansion unit modular structure 10b is joined vertically, it is possible to secure a work space 200 without forming an opening. have.

6 is a perspective view showing a horizontal beam of the upper beam of the expansion unit modular structure according to another embodiment of the present invention, Figure 7 is a perspective view showing a horizontal beam of the lower beam unit of the expansion unit modular structure according to another embodiment of the present invention to be.

6 to 7, the same extension unit modular structure 10b may be bonded to a side of the extension unit modular structure 10a according to another embodiment of the present invention.

When horizontally bonding the same extension unit modular structure (10a, 10b) may be bonded to the upper beam 220 and the lower beam 210 separately.

When the horizontal joining between the same extension unit modular structures 10a and 10b is performed, the joining of the upper beams 220 is formed in the first fixing part formed in the web 600 of the upper junction 300 of the extension unit modular structure 10a. The second fixing hole 340 formed in the web 600 of the upper junction 300 of the expansion unit modular structure 10b to be bonded to the hole 330 is coupled to be formed at the same position. When the coupling between the expansion unit modular structures 10a and 10b is completed, a plurality of bolts 900 may be inserted into the first fixing hole 330 and the second fixing hole 340 to form the same unit expansion structure 10a. 10b) can be horizontally joined.

In addition, when the horizontal bonding between the same expansion unit modular structure (10a, 10b) is bonded to the lower beam 210 is fixed plate 400 formed on the upper lower beam 210 of the expansion unit modular structure (10a, 10b) ) Overlap each other. When the fixing holes 410 formed in the fixing plate 400 are formed at the same position, a plurality of bolts 900 may be inserted to perform horizontal bonding between the same unit modular structures 10a and 10b.

Since the fixing plate 400 is located at the upper portion of the lower beam 210, even if the bottom slab 700 is installed at the lower portion, the work may be performed.

For example, when the expansion unit modular structure 10 is manufactured at a factory and then moved to a site, the expansion unit modular structure 10 should be joined to a plurality of plane expansion units. At this time, when the floor slab 700 is installed in the factory and moved to the site, it may be inconvenient to join the plurality of extension unit modular structures 10 to a plane. Therefore, after the bottom slab 700 is installed, a plurality of the expansion unit modular structures 10 may be joined to the plane by the fixing plate 400 provided on the upper side of the lower beam 210.

The upper beams 220 and the lower beams 210 are fixed to the bolts 900 at equal intervals to prevent the beams 200 from being separated from each other.

In addition, since the beams 200 between the expansion unit modular structures 10a and 10b are joined to each other, the webs 600 provided in the beams 200 are opposed to each other, thereby increasing the strength of the conventional expansion method beams 200. have.

For example, a method of expanding an existing unit module is a method of connecting the short side beams 212 to one long side beams 211. At this time, the long side beams 211 connect the short side beams 212 using the H-beam. However, since the expansion unit modular structure 10 of the present invention uses C-shaped steel, the C-shaped steel may be formed to face the horizontal joint between the expansion-unit modular structures 10a and 10b to form the same shape as the H-beam. At this time, since the web 600 of the C-shaped steel is opposed to each other to form a H-shaped steel in which two webs 600 are formed, unlike the H-shaped steel, the strength of the conventional extension method 200 may be increased. .

In the above description of the expansion unit modular structure and the bonding method according to an embodiment of the present invention, the spirit of the present invention is not limited to the embodiments presented herein. And those skilled in the art to understand the spirit of the present invention can easily suggest other embodiments by the addition, modification, deletion, addition, etc. of components within the scope of other ideas, but also within the scope of the invention It will cost.

10: expansion unit modular structure 100: pillar
200: beam 210: lower beam
211: long side beam 212: short side beam
220: upper beam 300: junction
310: first end plate 315: first coupling hole
320: second end plate 325: second coupling hole
330: first fixing hole 340: second fixing hole
400: fixing plate 410: fixing hole
500: flange 600: web
700: slab 800: bonded plate
900: bolt 910: nuts

Claims (11)

A column formed of C-shaped steel in consideration of the convenience of joining with an existing building and joining with a plinth,
A beam formed of C-shaped steel joined to the upper and lower portions of the pillar,
A fixing plate to which other beams corresponding to the beams bonded to the lower part of the pillar are bonded and fixed;
A joining portion having an end plate such that the beam is directly joined to the pillar,
The pillar has the flange face inward to serve as an opening when joining the beam,
Facing the flange face inwardly to allow the beam slab to be inserted into the beam,
The fixing plate is located on the upper side of both ends of the beam and the expansion unit modular structure, characterized in that welding on the side of the pillar.
The method of claim 1,
When the load is applied to the slab of the beam receives a load and the long side beam for supporting the long side of the slab,
And a short side beam supporting the short side of the slab.
delete delete delete delete The method of claim 1,
The joint unit modular structure for extension, characterized in that for using the steel joint welding the beam directly to the pillar.
The method of claim 2,
The joining unit is provided with a joining plate at a position where the short side beam and the pillar contact the expansion unit modular structure characterized in that the joining by pin bonding.
delete delete delete

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