KR100485480B1 - Diaphragm-wall connecting system - Google Patents

Abstract

A diaphragm wall connecting system is provided to improve resisting force of a diaphragm wall against tension and shear and to shorten the length of the plat member by hanging plural plate members having a hook and then welding a shear connector, angles, and steel plates vertically to the plat members. A diaphragm wall connecting system is composed of a segment wall(10) having vertical holes formed by excavating the ground and plural steel bars(12) formed vertically around the holes and inserted; a plate-shaped member(20) disposed horizontally in a central portion of one segment wall, formed with a hook(21) in the end, and made of steel plates; a plate-shaped member arranged horizontally in the central portion of the other segment wall, made of steel plates, and hung with the side where the hook of the plate-shaped member is formed; connectors(30) welded at regular intervals on both sides of the plate-shaped member along the vertical direction and composed of one of a shear connector, an angle, and a steel plate; and concrete(40) filled in the segment wall.

Description

Diaphragm-wall connecting system

The present invention relates to a diaphragm wall connecting system, and more particularly, a design process of a cross wall in which tensile force is generated in a port structure, and a slab is not installed in a building structure to make a concrete pouring process. It is used in the construction where tension and shear force can be generated, such as unsupported opening construction, buildings connecting segment walls, and pillars of bridges, and rings are formed when connecting and reinforcing reinforced concrete including fragment walls. Hanging a plurality of plate-shaped members of the iron plate and then welded at intervals in the direction perpendicular to the plurality of plate-shaped members (shear connector, angle, iron plate, etc.), thereby increasing the resistance to tensile and shear forces in the building structure Overall, it is possible to improve the resistance to tension and shear of the diaphragm wall. The present invention relates to a diaphragm wall connecting system capable of reducing the length of a conventional plate member as well as improving durability and safety by welding a shear connector, an angle, an iron plate, and the like in a direction perpendicular to the mold member. .

In general, when constructing a plurality of fragment walls in a port structure or a building structure, as shown in FIGS. 1 and 2, first, excavate a place to be constructed (excavation step), and pour a stabilizer to harden the excavated edge wall. Then, a plurality of steel bars (1) are planted on the rim (reinforcement net entry process), and then concrete is poured around the reinforcement (concrete placing process) to join the plurality of fragment walls (2). Use (3) to attach adjacent to construction. In this case, due to the discontinuity of the joint (Joint) can not give the internal rigidity, so it is vulnerable to durability and safety, there is a problem in that it is structurally vulnerable to tensile and shear forces.

3A to 3C are views showing the shape of a cross section for constructing a plate member on a conventional fragment wall, and FIG. 4 is a flowchart for constructing a plate member on a conventional fragment wall.

As shown in Figure 3a to Figure 4, when looking at the process according to the shape of the construction of the plate-shaped member on the fragment wall, first excavating the place to be constructed, and then a number of steel bars (1) to the border The plate-shaped member 4, which is an iron plate, on which a ring 4-1 is formed at the middle of the fragment wall 2, is placed in a horizontal direction, and the ring is a stop-end tube 5 or After protruding with a stop-end plate 5, concrete is poured around the reinforcing bar and the plate-shaped member (concrete placing process) to form one fragment wall. Then remove the stop-end tube or stop-end plate, plant a number of steel bars on the rim of the excavated rim wall, and match the loops in the first formed fragment wall. The plate-shaped members are formed in the horizontal direction and are joined to each other and the concrete is poured around the reinforcing bars and the plate-shaped member (concrete placing process) to form another fragment wall to complete the construction. In this case, the resistance to tension and shear is small and the plate-shaped member is lengthened to increase the resistance, but in this case, there is a limit in improving the resistance.

Therefore, there is a demand for developing a new diaphragm wall connecting system that can improve the tension and shear resistance of the diaphragm wall, reduce the length of the existing plate member, and improve durability and safety. .

The present invention was created in order to solve the above problems, the opening of the construction process, the construction of the cross-wall design process, the slab (slab) is not installed in the building structure, the tension is generated in the port structure, the concrete construction process is not made In the construction that can cause tensile and shear forces, such as the pillars of buildings and bridges connecting the walls, a plurality of plate-shaped members are hooked to form a ring when connecting the pour reinforced concrete including a fragment wall, and then the plurality of By welding the shear connectors, angles, and steel plates in the direction perpendicular to the plate-shaped member in the gap, the resistance to tensile and shear forces can be increased in the building structure, thereby improving the overall resistance to tension and shear of the diaphragm wall. The purpose is to provide a diaphragm wall connecting system.

Another object of the present invention is to provide a diaphragm wall connecting system that can reduce the length of the conventional plate member by welding the shear connector, angle, iron plate, etc. at intervals perpendicular to the existing plurality of plate members. have.

Another object of the present invention is to provide a diaphragm wall connecting system that can improve durability and safety by welding a shear connector, an angle, an iron plate, and the like in a direction perpendicular to a plurality of existing plate members.

The diaphragm wall connecting system according to a preferred embodiment of the present invention for achieving the above object is to excavate the ground to form a vertical hole, the fragment having a plurality of reinforcement inserted into the vertical hole formed around the vertical hole long The wall; A plate-shaped member formed horizontally at a central portion of the one fragment wall and having a ring formed at one end thereof, and formed of an iron plate; Another plate member formed horizontally in the center portion of the other fragment wall and made of an iron plate which can be hooked to one side where the ring of the plate member is formed; A connector which is welded at intervals in both vertical directions of the plurality of plate-shaped members, the connector including any one of a shear connector, an angle, and an iron plate; Concrete filled in the fragment wall; Characterized in that consisting of.

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Hereinafter, a diaphragm wall connecting system according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figures 5a to 5c is a view showing the shape of the cross section after the construction of the diaphragm wall connecting system according to an embodiment of the present invention, Figure 6 is a view after the construction of a diaphragm wall connecting system according to another embodiment of the present invention 7 is a view showing the shape of the cross section, Figure 7 is a view showing the shape of the cross section after the construction of the diaphragm wall connecting system according to another embodiment of the present invention.

As shown in FIGS. 5A to 7, the diaphragm wall connecting system excavates the ground to form a vertical hole (not shown), and a plurality of reinforcing bars 12 are formed by being formed long and vertically around the vertical hole. A fragment wall 10 having; A plate-shaped member 20 formed horizontally at a central portion of the one fragment wall and having a ring 21 formed at one end thereof and formed of an iron plate; Another plate-shaped member 20-1 formed horizontally in the center portion of the other fragment wall and made of an iron plate which can be hooked to one side on which the ring 21 of the plate-shaped member is formed; A connector (30) welded (31) at intervals in both vertical directions of the plurality of plate members; Concrete 40 filled in the fragment wall; It consists of.

The fragment wall 10 is to excavate the ground to form a vertical hole, and has a plurality of reinforcing bars 12 inserted into the vertical hole formed around the vertical hole.

The plate member 20 is formed horizontally in the central portion of the one fragment wall, the ring 21 is formed at the end of one side is made of an iron plate.

The other plate member 20-1 is formed in a horizontal plate in the center portion of the other fragment wall is made of an iron plate that can be hooked and coupled with one side of the ring 21 of the plate member is formed.

Where the plate-shaped member 20 and other plate-shaped member 20-1 is installed in the case of a plurality of pieces of the plate-shaped member is made of iron plate with a ring formed at one or both ends of the end used as needed It will be possible.

The connector 30 is welded 31 at intervals in both vertical directions of the plurality of plate members. Herein, the connector 30 is preferably used among a shear connector (shown in FIG. 5C), an angle (shown in FIG. 6), and an iron plate (shown in FIG. 7). It is also possible to make and use various other forms. In addition, the shape of the connector may be any one of the c-shaped, c-shaped, l-shaped, bolt, inverted c-shaped, and other shapes that can increase the resistance to shear and tension may be possible.

The concrete 50 is filled in the plurality of fragment walls. Here, the concrete 50 is introduced between the connectors 30 which are welded at intervals in both vertical directions of the plurality of plate members, and together with the plurality of plate members 20 and 20-1 and the connector 30. As a result, the fragmented wall with the diaphragm wall connecting system is improved in shear and tension resistance.

The diaphragm wall connecting system as described above is a construction that connects the opening construction and the fragmentation wall in which the slab is not installed in the design process of the transverse wall in which the tensile force is generated in the port structure, and the slab is not installed in the building structure. And it is used in construction that can generate tensile and shear forces, such as the pillar of the bridge.

8 is a construction flowchart of a diaphragm wall connecting system according to an embodiment of the present invention.

Hereinafter, the construction method of the diaphragm wall connecting system of the present invention will be described in detail with reference to FIG. 8.

The first process is an excavation process, which is to excavate the construction site using an excavator to form a vertical hole.

The second step is to insert a stabilizer into the vertical hole, which is to harden the edge wall of the excavated vertical hole.

The third process is the rebar installation process, which inserts a plurality of steel bars around the edge wall.

The fourth step is to install the plate-shaped member and the stop-end tube (or stop-end plate) welded with the connector. The plate-shaped member, which is an iron plate having a ring formed in the middle of the fragment wall, is placed horizontally, After the connector is welded at intervals in both vertical directions, the ring is protruded into a stop-end tube 50 or a stop-end plate 50.

The fifth process is a concrete placing process, in which concrete is introduced into a plate-shaped member to which the reinforcing bar and the connector are welded and hardened to form a segment wall.

The sixth process involves removing the stop-end tube or stop-end plate and installing other plate-shaped members welded to the reinforcing bars and connectors. Plant a plurality of rims on the rim, and place the plate-shaped member which is an iron plate formed to correspond to the ring in the fragmented wall formed in the horizontal direction and weld the connector at intervals in both vertical directions of the plate-shaped member. To combine them together.

The seventh process is a concrete placing process, in which concrete is introduced and hardened around another plate-shaped member to which the reinforcing bar and the connector are welded, and then a completed fragment wall is formed.

Various modifications are possible depending on the type of construction for constructing the diaphragm wall connecting system. For example, when there are a plurality of fragment walls on which the plate member 20 and the other plate member 20-1 are installed, one side or It is possible to use a plate-shaped member made of iron plate with a ring formed at both ends.

Therefore, the new diaphragm wall connecting system of the present invention can improve the resistance to tension and shear of the diaphragm wall, reduce the length of the existing plate-shaped member, and improve durability and safety.

It will be appreciated by those skilled in the art that the present invention is not limited to the above embodiments, and that various modifications and changes can be made without departing from the spirit of the present invention.

As described above, the diaphragm wall connecting system of the present invention has the following effects.

First, the present invention is the design process of the transverse wall in which the tensile force is generated in the port structure, the slab (slab) is not installed in the building structure, the construction of the opening without the concrete pouring process, the construction connecting the fragment wall and the pillar of the bridge In the construction in which tension and shear force can occur, the steel plate, which is a plurality of plate-shaped members having a ring, is connected when connecting and placing a reinforcement reinforced concrete including a fragmented wall and then sheared in a direction perpendicular to the plurality of plate-shaped members. By spacing welding connectors, angles, steel plates, etc., it is possible to increase the resistance to tensile and shear forces in building structures, thereby improving overall resistance to tension and shear of diaphragm walls.

Second, the present invention can reduce the length of the existing plate member by welding the shear connector, angle, iron plate, and the like in a direction perpendicular to the existing plurality of plate members at intervals.

Third, the present invention can improve the durability and safety by welding the shear connector, the angle, the iron plate and the like in a direction perpendicular to the existing plurality of plate-shaped members at intervals.

1 is a view showing the shape of the cross section of a conventional fragment wall.

2 is a construction flowchart of a conventional fragment wall.

3a to 3c is a view showing the shape of the cross section for constructing a plate-like member on a conventional fragment wall.

Figure 4 is a flow chart for constructing a plate member on a conventional fragment wall.

Figures 5a to 5c is a view showing the shape of the cross section after the construction of the diaphragm wall connecting system according to an embodiment of the present invention.

Figure 6 is a view showing the shape of the cross section after construction of the diaphragm wall connecting system according to another embodiment of the present invention.

Figure 7 is a view showing the shape of the cross section after the construction of the diaphragm wall connecting system according to another embodiment of the present invention.

8 is a construction flowchart of a diaphragm wall connecting system according to an embodiment of the present invention.

<Code Description of Main Parts of Drawing>

10 ... short wall 12 ... rebar

20, 20-1 ... plate member 21 ... ring

30.Connector 31 ... Welding

40 ... concrete 50 ... stop end pipe (stop end plate)

Claims (4)

In the diaphragm wall connecting system, A fragment wall having a plurality of reinforcing bars inserted into the vertical hole by excavating the ground, the vertical hole being formed long and vertically around the vertical hole; A plate-shaped member formed horizontally at a central portion of the one fragment wall and having a ring formed at one end thereof, and formed of an iron plate; Another plate member formed horizontally in the center portion of the other fragment wall and made of an iron plate which can be hooked to one side where the ring of the plate member is formed; A connector which is welded at intervals in both vertical directions of the plurality of plate-shaped members, the connector including any one of a shear connector, an angle, and an iron plate; Concrete filled in the fragment wall; Diaphragm wall connecting system, characterized in that consisting of. delete delete delete