KR20130000105A - Reinforcement structure for slab bending and beam for enduring earthquake - Google Patents

Abstract

PURPOSE: An earthquake resistant structure for reinforcing the bending of a slab and the shearing of a beam is provided to enable the simple and easy assembly of members using eye bolts. CONSTITUTION: An earthquake resistant structure for reinforcing the bending of a slab and the shearing of a beam comprises a ladder type reinforcement material. The ladder type reinforcement material is manufactured by assembling a lower bending reinforcement material(2) and an upper position fixture(3) using wire ropes(4) and eye bolts. The lower bending reinforcement material has holes arranged at uniform intervals. The upper position fixture is parallelly separated from the top of the lower bending reinforcement material. The wire ropes are vertically arranged between the lower bending reinforcement material and the upper position fixture at uniform intervals. [Reference numerals] (AA) Shear reinforcement by eye bolts; (BB) Bending reinforcement by eye bolts + wire ropes

Description

Reinforcement structure for slab bending and beam for enduring earthquake

The present invention relates to a seismic reinforcing slab bending / beam shear reinforcing structure for the basic structure that can be commonly used in the construction of the reinforced concrete foundation structure

In general, tie girder, which is often used for shear reinforcement at the base of ordinary reinforced concrete structures, should be fitted with both bottom ends of the base beams to the base reinforcing bars, and the base top reinforcement also has It must be installed through the top. Therefore, the work speed on the site is lowered and the work fatigue is increased, which is a factor that the site workers avoid the shear reinforcement.

In particular, if the upper member of the foundation is a pillar, shear reinforcement may be made in the form of underground beams, but if the upper member is a bearing wall, this type of shear reinforcement may not be possible. Since concrete is designed to increase the shear stress acting on the foundation by increasing, there was a problem such as increasing the amount of concrete used.

Therefore, Patent Publication No. 403835 (registered Oct. 18, 2003) is intended to solve the above problems, among which FIG. 1A relates to a perspective view of a bending / shear combined reinforcement having a column reinforcement on top of a basic structure. , Depending on the position of the column flexural / shear combined reinforcement (100) and finally reinforce the column reinforcement. 1B is a perspective view of a bending / shear combined reinforcement 100 having a wall reinforcement disposed on an upper portion of the foundation structure, and installs the bending / shear combined reinforcement 100 one by one according to the position of the bearing wall. Finally, the reinforcing bar reinforcement to the upper wall reinforcement (52) according to the heat of the wall.

The member used as the lower flexural stiffener 10 and the vertical shear stiffener 30 in the above is that the reinforcing bar (2a) or flat steel (2b) or angle (2c) as shown in Figures 2a to 2c and 3a to 3c Can be used, the upper position fixing material 20 is to fix the position of the vertical shear stiffener 30 using a reinforcing bar or wire mesh as shown in Figures 4a and 4b.

And as shown in Figure 5a as a means for binding the respective members, the upper position fixing member 20 and the lower flexural stiffener 10 is bound to each other with the vertical shear stiffener 30 using the binding line 60 or As shown in FIG. 5B, the members are assembled by using the tie line 60 and the clip 70 in parallel.

However, the conventional flexural / shear combined stiffener 100 uses rebar or flat steel or angle as the lower flexural stiffener 10 and the shear stiffener 30, whereas the reinforcement or wire mesh is used as the upper position fixing material 20. Not only the shape of each member is different, but the means for binding each member also uses only the binding line 60, or uses the binding line 60 and the clip 70 in parallel, or binds by welding. There is a problem that the binding operation is very inconvenient and takes a lot of time because the binding means is not uniform.

The present invention is to solve the conventional problems as described above, an object of the present invention is to provide a slap bending / beam shear combined reinforcement structure so that all the members can easily withstand the impact of earthquake, while being assembled easily by the eye bolt. have.

The seismic reinforcement slab bending / beam shear combined reinforcement structure of the present invention for achieving the above object is a flat steel member arranged in parallel with the lower bending reinforcement member which is a flat steel member each formed with holes at regular intervals and spaced apart at regular intervals. The upper position fixing member is bound by the wire rope arranged at regular intervals in the vertical direction between the lower flexural stiffener and the upper position fixing member by eye bolts at the end of the wire rope, and then assembled as a ladder type slab bending / combination shear reinforcement. It is characterized in that it is produced.

The seismic reinforcing slab bending / beam shear reinforcing structure of the present invention is a saddle type slab bending reinforcing structure having two sets of wire ropes, each of which has an upper position fixing material or a lower bending reinforcing material connected to the wire rope by fastening the eye bolts. It is characterized in that the assembly is made of a self-supporting slab bending reinforcement structure.

The seismic reinforcing slab bending / beam shear reinforcing structure of the present invention is to construct each steel plate by bending steel pipe piles and steel bars as wind rock and soft rock tip support piles, and reinforcing the upper part of the foundation after reinforcing the steel bars. It is characterized in that the steel plate welding is performed by arranging as many as necessary to suit the area of the place where the self-supporting bending / shear combined reinforcement is to be installed in this required place.

According to the seismic reinforcement slab bending / beam shear combined reinforcement structure of the present invention, all members except the vertical shear stiffener in the form of a bar is a flat steel with holes formed at regular intervals, so that all the members are assembled by the eye bolt in the factory or the field There is an advantage in that the workers can quickly and easily manufacture the assembly without the need for a separate equipment for assembly, reducing the labor and reducing the air. In particular, since all the work is fastened by bolts without the need for additional equipment, it is possible to easily assemble and manufacture in any work site.

Figure 1a is a perspective view of a double bending / shear combined reinforcement of the conventional column reinforcement.
Figure 1b is a perspective view of the combined flexural / shear shear reinforcement conventional wall reinforcement.
Figure 2a is a perspective view of a stiffener produced using a conventional rebar.
Figure 2b is a perspective view of a flexural stiffener produced using a conventional flat steel.
Figure 2c is a perspective view of a stiffener produced using a conventional angle.
Figure 3 is a perspective view showing a state in which the vertical shear stiffener that is the base upper member of the reinforcement or flat steel or angle member to the conventional flexural reinforcement.
Figures 4a and b is a perspective view of the upper position fixing member for binding the conventional vertical shear stiffener.
5A and 5B are perspective views showing a state in which various conventional members are bound by a binding means.
Figures 6a and 6b is a side view of a ladder-type slab bending / beam shear reinforcement according to the present invention.
7a to 7c is a detailed structural diagram of the wire rope and eye bolt of FIG.
FIG. 8 is a plan view of a self-supporting bending / shear combined reinforcement in which two saddle-type slab bending reinforcements are bound by a wire rope according to the present invention. FIG.
9 is a view showing a bending state.
10 and 11 is a structural view of the beam shear reinforcement according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 6 is a side view of the ladder-type slab bending / beam shear reinforcement according to the present invention, Figure 7 is a coupling state of the wire rope and the eye bolt of Figure 6, Figure 8 is a saddle type slab bending reinforcement according to the present invention two wires 9 is a plan view of a self-supporting bending / shear combined reinforcement bound by a rope, and FIG. 9 is a diagram illustrating a coupling state between the wire rope and the eye bolt of FIG. 8.

Figure 6 is a side view of the upper position fixing member and the lower flexural reinforcement in accordance with the present invention is assembled by a ladder-type slab bending / beam shear reinforcement combined by a wire rope.

In FIG. 6A, the upper position fixing member 3, which is a flat steel member arranged in parallel with the lower bending reinforcement 2, which is a flat steel member having holes 1 formed at regular intervals, and spaced apart at regular intervals, respectively, is shown in FIG. 2) and the wire rope 4 arranged at regular intervals in the vertical direction between the upper position fixing member 3 and the end of the wire rope 4 by binding the eye bolts to be combined with ladder type slab bending / beam shearing It is assembled by the reinforcing material (5).

Figure 6b shows that the T-plate is installed as another example of the slap bending / beam shear combined reinforcement.

FIG. 7 is a detailed structural diagram of the eyebolt 6 configured at the end of each wire rope 4 of FIGS. 6A and 6B, wherein the wire rope 4 has both ends of the lower flexural reinforcement 2 and the upper position fixing member. It is comprised so that it may be stuck in close contact with each hole 80 formed in (3).

FIG. 8 is a plan view of a saddle type slab bending reinforcement structure in which two wire ropes 4 are bound in an X shape by an eye bolt, and a saddle type slab bending reinforcement using two wire ropes 4 as a set. In the structure 7, the upper position fixing member 3 or the lower bending reinforcement member 2 is bound to the wire rope 4 by the fastening of the eye bolts, and fabricated into a self-supporting slab bending reinforcement structure.

That is, as shown in FIG. 6, the one-sided slab bending / beam shear reinforcing structure 5 is fixed in the middle by binding the upper position fixing material 3 or the lower bending reinforcing material 2 to intersect the wire rope 4. The holes 1 formed at intervals coincide with the holes formed at one end of the wire rope 4 to be assembled by fastening the eye bolts, and another saddle type slab bending stiffener 7 is shown in FIG. 8. As described above, the holes formed in the upper position fixing member 3 or the lower flexural stiffener 2 at regular intervals coincide with the holes formed at the other end of the wire rope 4 by the above-described method. Self-supporting bending / shear combined reinforcement structure is assembled.

As shown in Figure 9 according to the structure of Figures 6 and 8 of the present invention, while the pressure is applied elastically in the direction of the arrow, the slab bending / beam shear reinforcement is made at the same time.

10 and 11 is a structural diagram according to another embodiment, the steel pipe pile 103 and the steel bar plate (102) as a pungam and soft rock tip support piles 101 to finish each steel plate after construction to surround it 200 (200) After reinforcing the reinforcing bar in the lower part of the foundation, the steel plate welding is performed by arranging it as necessary as appropriate for the area of the place where the self-supporting bending / shear combined reinforcement is to be installed in the place where reinforcement of the upper part is needed. .

As described above, the slap flexural / beam shear reinforcing material of the present invention installed at a position where reinforcement is required when constructing a foundation structure is a flat steel in which all members except the wire rope are formed at regular intervals. Because it is tied and assembled, it does not require separate equipment for assembly in the factory or the field, and the air is shortened because the assembly work is simple and easy.

Description of the Related Art [0002]

2: lower bending reinforcement 3: upper position fixing material

4: wire rope 6: eye bolt

Claims (3)

The lower flexural members 2 and the upper flexural members 3, which are flat steel members arranged in parallel to the upper part spaced apart at regular intervals from the lower flexural members 2 having flat holes 1 formed at regular intervals, respectively, are provided with the lower flexural members 2 and upper positions. The wire rope 4 which is arranged at regular intervals in the vertical direction between the fixing material 3 and the end of the wire rope 4 is bound by the fastening of the eye bolts to the ladder type slab bending / beam shear reinforcing material 5. A seismic reinforcing slab bending / beam shear reinforcing material characterized in that the assembly is manufactured. A plan view of a saddle type slab bending reinforcement structure in which two wire ropes (4) are bound in an X-shape by an eye bolt, and a saddle type slab bending reinforcement structure (7) using two wire ropes (4) as a set. ) Is seismic reinforcement, characterized in that the upper position fixing member (3) or the lower bending reinforcement (2) is bound to the wire rope (4) by the fastening of the eye bolt is assembled into a self-supporting slab bending reinforcement structure. Slab flexural / beam shear reinforcement. As a wind and soft rock tip support pile, each steel plate is constructed by bending steel pipe piles and steel bar plates, and reinforcing steel bars are installed in the lower part of the foundation, and then the self-supporting flexural / shear combined reinforcement is to be installed in the place where the upper part of the foundation needs to be reinforced. A seismic reinforcing slab bending / beam shear reinforcing material characterized in that the steel sheet welding is performed by arranging as many times as necessary to suit the area of the place.

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