KR101161993B1 - Reinforcement and method thereof - Google Patents

Abstract

The present invention relates to a structure for supporting the lower part so that the building or steel structures, such as buildings, apartments, steel structures, bridges can be supported by the ground floor, and a method of constructing the same. Instead of forming the foundation structure by forming deep foundation and thickening the bottom concrete layer, it is small and simple. It is about.
The present invention can be constructed in a small volume of the foundation structure to support the high load while reducing the trench area, depth, easy construction, shorten the construction period and reduce the construction cost, even in a narrow place It has the effect of enabling easy construction. In addition, the present invention is easy to manufacture and install by providing a support or a support member for fixing the plates forming the basic plate structure to be embedded in the concrete layer upright before concrete pouring, reinforce the strength of the composite structure during concrete pouring, curing And has the effect of increasing the bonding force.

Description

Composite structure for strength reinforcement and construction method using same {Reinforcement and method

The present invention relates to a structure for supporting the lower part so that the building or steel structures, such as buildings, apartments, steel structures, bridges can be supported by the ground floor, and a method of constructing the same. Instead of forming deep foundations and thick bottom concrete layers to form foundation structures, construction of strength-reinforced composite structures and composite structures using them that are small in volume and simple to support high loads while forming small depths of crypts It's about how.

In general, in order to prevent the ground from sinking due to the weight of buildings, bridges, tower cranes, etc., the foundation structure is constructed in the lower part of the building so that the building load is evenly transmitted and supported on the ground. Mainly used thick reinforced concrete structure. As the building heightened and the size increased, the load applied to the foundation structure per unit area also increased. For the foundation structure used, the strength was increased by increasing the thickness of the foundation structure made of the reinforced concrete structure.

Therefore, as the size or thickness of the foundation structure increases, the depth of burrow to form the foundation structure, that is, the depth of the trench is deepened. This caused the problem of increasing the construction period and excessive cost of construction for the excavation due to the complexity of the ground excavation work and the foundation structure installation process to form the foundation structure. In particular, if there is a rock-type ground in the lower part of the building, there is a problem that takes a longer construction period and construction cost to deepen the trench.

In addition, if the trench is deepened, it is necessary to prevent the collapsed basement wall from collapsing and to incline the slope to widen the upper side in order to secure a working space, thereby causing damage to adjacent buildings or making construction difficult in crowded places. have. In addition, if the upper side is inclined to be inclined to be wider, the space to be poured is increased, so there is a disadvantage that wastes concrete.

1A and 1B are diagrams for explaining a shear load concentrated on a cross section of a general foundation floor. Referring to FIG. 1A, a shear force is formed and applied in an oblique direction C of about 45 degrees between a vertical column A and a horizontal base bottom B. FIG. If there is no configuration to support such shear force in the foundation floor B, the shear force causes deformation or breakage of the building structure. This also applies to FIG. 1B of the method of using anchors (a) to prevent injuries of buildings. However, since the anchor (a) serves to pull the building downward, the shearing force may appear in a direction spreading upward as the direction C 'or a punching phenomenon may occur in which only the anchor portion is punched. The same applies to columns and beams to secure the weight and structural strength of buildings.

In order to prevent this, a multiple reinforcing structure is formed in the foundation floor, and the reinforcing method has to be provided with multiple layers of complexity, and there is a problem in that the installation process is time-consuming. In addition, the thickness of the foundation floor has to be thick, so the consumption of concrete is considerably increased and construction costs are increased, and the shear force must be solved by the reinforcement of steel bars, and thus, the load bearing capacity is relatively low.

2 is a view showing a cross section of a general foundation floor and a cross section of the foundation floor using the composite structure for strength reinforcement according to the present invention. Referring to FIG. 2 (a), in a concrete structure for forming a floor layer of a building, upper and lower reinforcing bars arranged in parallel in a floor concrete layer to install a foundation structure for supporting and distributing loads (a, b) and a deep hole (H) deep into the lower side, as well as disposed inside the reinforcing bar by installing a large amount and complex structure of auxiliary reinforcing bars (c) connected to the upper and lower reinforcing bars (a, b) The concrete structure had to be formed. Also, a large amount of concrete had to be used.

Accordingly, the present invention, as shown in Figure 2 (b), to reduce the depth of the trench to the bottom of the bottom concrete layer, or the structure of the relatively simple form inside the bottom concrete layer without the trench process, the upper and lower reinforcement (a, b) By connecting to, or positioned between the upper, lower reinforcement (a, b) has the advantage that can solve the above problems.

In addition, when forming a foundation on the ground such as a pillar foundation of a building, a bridge foundation, a base foundation of a tower crane, and a bearing wall, the overall load is weighted below the pillar to prevent shear failure occurring at the pillar foundation. By installing the structure, the thickness is relatively thin, but there is an advantage that can efficiently support and distribute the applied shear load.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and more effectively supports loads without forming thicker building foundation structures that can more effectively support and disperse high downward loads without deepening or increasing the trench. Its purpose is to provide a composite structure for strength reinforcement and a construction method using the same.

In addition, it is an object of the present invention to provide a base plate structure capable of smoothly supporting loads without minimizing welding or welding at all.

In addition, the present invention is provided with a support or support member for fixing the uprights of the basic plate structure to be embedded in the concrete layer upright before concrete placement, to facilitate the manufacture and installation, reinforce the strength of the composite structure during concrete pouring, curing And to provide a composite structure for strength reinforcement to increase the bonding force and a construction method using the same.

The structure of the present invention for achieving the above object is a structure provided in a position where the shear stress is applied in the concrete structure in which the reinforcing bar, the base plate structure is arranged in a vertical position at the position where the shear stress; The base plate structure is formed in a form in which the plate is bent or bent at a predetermined angle in such a manner that the two or more plates are bonded to each other, the base plate structure is connected by reinforcing bars located in the concrete structure or The concrete structure is made by placing and hardening concrete in a state positioned between rebars.

The base plate structure is provided with: two or more, characterized in that the support member for supporting the plate material between the base plate structure is provided with each other.

The base plate structure is provided with: two or more, characterized in that the base plate structure is arranged in a vertical stack.

A structure provided at a position where shear stress is applied in a concrete structure in which reinforcing bars are installed, wherein the base plate structure is arranged vertically at a position where the shear stress is applied, wherein the base plate structure includes two or more plate materials. Is formed vertically arranged, the base plate structure is characterized in that the concrete structure is made while the concrete is poured, hardened in the state of being connected between the reinforcing bars located in the concrete structure or positioned between the reinforcing bars.

Between the plate is characterized in that the support member for supporting the plate is provided with each other.

The plate members connected by the support member as one, characterized in that arranged up and down stacked in the state connected by the support member.

The basic plate structure is characterized in that the plate has support portions in the horizontal direction at the upper end and / or the lower end.

A structure provided at a position where shear stress is applied in a concrete structure in which reinforcing bars are installed, the structure comprising: a base plate structure in which a plate is vertically arranged at a position at which shear stress is applied; And a horizontal member formed to have a length corresponding to the basic plate structure, and having a horizontal member positioned to intersect the top or bottom of each of the plate members and a jig formed to have a width corresponding to the thickness of the plate member. The base plate structure is connected by the reinforcing bars located in the concrete structure or positioned between the reinforcement, and the concrete is poured, hardened with the plate fixed to the support It characterized in that the concrete structure is made.

A structure provided at a position where shear stress is applied in a concrete structure in which reinforcing bars are installed, the structure comprising: a base plate structure in which a plate is vertically arranged at a position at which shear stress is applied; And a support member positioned above the reinforcing bar and having a jig formed in a width corresponding to the thickness of the plate and the body provided on the lower surface of the fixing protrusion into which the reinforcing bars are inserted in parallel. And, the base plate structure is connected by the reinforcing bars located in the concrete structure or located between the reinforcement, the concrete structure is made while the concrete is poured, hardened in a state where the plate is fixed to the support member It is done.

Both side ends of the body extending downward, the support leg for supporting the body; is characterized in that it is formed.

A structure provided at a position where shear stress is applied in a concrete structure in which reinforcing bars are installed, the structure comprising: a base plate structure in which a plate is vertically arranged at a position at which shear stress is applied; And horizontal supports at the upper and / or lower ends of the plate, wherein the base plate structure is connected by rebars positioned in the concrete structure or positioned between the rebars. , The concrete structure is made while being cured.

The support portion is formed by bending the plate.

The support portion is characterized in that the separate plate-like member is welded to the upper side and / or lower side of the plate, or the separate plate-shaped member to the upper side and / or lower side of the plate by a coupler.

It is formed to have a length corresponding to the base plate structure, the support is provided with a horizontal member positioned to cross the support portion of each of the plates and a plurality of binding members for penetrating and fixing each other in contact with the support portion; The base plate structure is connected by reinforcing bars located in the concrete structure or positioned between the reinforcing bars, and the concrete structure is formed while concrete is poured and hardened in a state where the plate members are fixed to the support. .

A base plate formed with a coupling groove; is further provided, the plate is also provided with a coupling groove for fitting to the coupling groove, the plate is characterized in that the two or more are fitted to the base plate to be mutually coupled.

A portion of the support is characterized in that the opening is formed.

Wherein the opening is formed in the plate material is characterized in that the coupling groove is formed.

Wherein the opening is formed in the plate material is characterized in that the coupling groove is formed.

The coupling groove is formed in the entire height of the vertical portion of the base plate formed with the support, characterized in that the coupling groove is not formed in the other base plate to be fitted to the coupling groove.

A structure construction method using a composite structure for strength reinforcement, comprising: (1) stopping a ground; (2) pouring concrete to a predetermined height on the stationary ground and hardening to form a discarded concrete layer; (3) disposing a support having a horizontal member and a plurality of jigs above the discarded concrete layer; (4) inserting the plates forming the basic plate structure into the jig of the support, and arranging them in an upright position; (5) connecting the upper and lower reinforcement to the arranged base plate structure or positioning the base plate structure between the upper and lower reinforcement; And (6) placing concrete on the base plate structure and the upper and lower reinforcing bars, and hardening the bottom concrete layer so as to be integrally supported by each other.

A structure construction method using a composite structure for strength reinforcement, comprising: (1) stopping a ground; (2) pouring concrete to a predetermined height on the stationary ground and hardening to form a discarded concrete layer; (3) disposing a lower reinforcing bar on the discarded concrete layer; (4) inserting a plurality of support members comprising a body having a fixing protrusion on a lower surface thereof and a jig provided on the upper surface thereof so as to be positioned above the lower rebar; (5) inserting the plate members constituting the basic plate structure into the jig of the support member, and arranging them in an upright position; (6) connecting the upper reinforcement to the arranged base plate structure or placing the upper reinforcement above the base plate structure; And (7) placing concrete on the base plate structure and the upper and lower reinforcing bars, and hardening the bottom concrete layer so as to be integrally supported by each other.

A structure construction method using a composite structure for strength reinforcement, comprising: (1) stopping a ground; (2) pouring concrete to a predetermined height on the stationary ground and hardening to form a discarded concrete layer; (3) arranging a horizontal member of the support on which the horizontal member and the plurality of binding members are disposed above the discarded concrete layer; (4) arranging the upright and bottom ends of the plate members forming the basic plate structure on the upper surface of the support stand upright, and fixing them with the binding member; (5) connecting the upper and lower reinforcement to the arranged base plate structure or positioning the base plate structure between the upper and lower reinforcement; And (6) placing concrete on the base plate structure and the upper and lower reinforcing bars, and hardening the bottom concrete layer so as to be integrally supported by each other.

The composite structure for strength reinforcement of the present invention and the construction method using the same can support a high load while reducing the trench area and depth because the volume of the basic structure can be reduced, and the construction is easy and the construction period is shortened. Not only can the cost be reduced, but the construction can be easily performed even in a narrow place.

In addition, in the construction of the base plate structure, the construction can be minimized or omitted, thereby simplifying the construction and having the effect of not requiring complicated construction mechanics calculations or requirement constraints on the welding conditions.

In addition, the present invention is easy to manufacture and install by providing a support or a support member for fixing the plates forming the basic plate structure to be embedded in the concrete layer upright before concrete pouring, reinforce the strength of the composite structure during concrete pouring, curing And has the effect of increasing the bonding force.

1A and 1B are diagrams for explaining a shear load concentrated on a cross section of a general foundation floor.
2 is a view showing a cross section of a general foundation floor and a cross section of the foundation floor using the composite structure for strength reinforcement according to the present invention.
3 is a view for explaining that the plate of the present invention is responsible for the shear load.
4 is a view for explaining an embodiment in which the plate of the present invention is disposed.
5 is a view showing an embodiment of the arrangement structure between the column reinforcing bar and the plate.
6 is a view for explaining another embodiment of the plate of the present invention.
7 is a view for explaining an embodiment of the plate member coupled to the support member of the present invention.
It is a figure for demonstrating the arrangement bonding Example of the board | plate material of this invention.
9 is a view for explaining an arrangement combination and a bonding embodiment of the plate of the present invention.
10 and 11 is a view showing a composite structure for strength reinforcement according to an embodiment of the present invention.
12 is a view showing a composite structure for strength reinforcement according to another embodiment of the present invention.
13, 14, 15 is a view showing a composite structure for strength reinforcement according to another embodiment of the present invention.
It is a figure which shows the base plate which has a support part.
It is a figure which shows the manner in which the base plate which has a support part is arrange | positioned between column reinforcement.
18 and 19 are views showing an embodiment in which the base plate is disposed in the pillar portion.
20 and 21 are views showing an embodiment of a base plate that can be easily disposed on the pillar portion.
22 is a view showing the configuration of the coupling groove of another form.

Hereinafter, the present invention will be described with reference to the accompanying drawings, and in the following description, when it is determined that a detailed description of a related well-known function or configuration may unnecessarily obscure the subject matter of the present invention, The description may be omitted.

3 is a view for explaining that the plate of the present invention is responsible for the shear load. Referring to Figure 3, the plate-shaped steel 100 is provided in all directions perpendicular to the C portion exerted by the shear force. In this case, since the plate 100 is in the form of a plate, the plate 100 can be supported more strongly than the reinforcing bars in the form of lines. At this time, it is possible to arrange the plate material 100 or relatively sparsely to the D portion where the vertical load is concentrated. As the plate-shaped steel 100 vertically supported by the C portion of the shear force is supported, since the shear force is absorbed and supported by the surface rather than the line, the thickness of the concrete is greatly reduced.

4 is a view for explaining an embodiment in which the plate of the present invention is disposed. Referring to (a) and (b) of FIG. 4, the plate member 100 may be formed of plate members 100a and 100b which are bent and disposed at an angle to each other, or two or more plate members are joined by welding or fastening. Can be arranged in a bent form. The two or more plates 100 may be arranged to face each other or at an angle depending on the structure and dynamics of the building. Alternatively, they may be contacted or bonded to each other, or the grooves may be dug and inserted to include an X or a + shape.

5 is a view showing an embodiment of the arrangement structure between the column reinforcing bar and the plate. Referring to Figure 5, the base plate 100 is disposed below or below the bottom of the column subjected to the vertical load, in general, a portion for catching the vertical load, such as a column is provided with a reinforcing structure. E is a column reinforcing bar arranged vertically, F is a horizontal reinforcing bar which wraps around or supports the inside or the outside of the column reinforcing bars in all directions. These vertical and horizontal reinforcing bars are densely located in the column, and are generally arranged more densely than shown in the drawings.

As shown in (a), the base plates 100 may be arranged to extend between rebars such as E and F, i.e., to extend directly below the column, in which case, the rebars and the base plate 100 are mutually The placement positions should not overlap or installation is inconvenient. It may also be arranged outside the pillar portion as shown in (b).

6 is a view for explaining another embodiment of the plate of the present invention. Referring to FIG. 6, the plate 100 may be variously arranged in a bent form, and may be disposed at five or more below the column (dotted line) as shown in (a), as shown in (b). Properly placed according to the condition of the ground, the position of the pile, and the surrounding conditions, the plate 100 is bent more than once to include the three surfaces (100a) (100b) (100c), so that the three plates are joined You may. Of course, the number of times can be set variously to meet the needs of the site.

7 is a view for explaining an embodiment of the plate member coupled to the support member of the present invention. Referring to FIG. 7, a support member 150 may be inserted between two or more plate members 100 to be mutually coupled or supported. That is, by forming a hole in the plate 100 and inserting the support member 150 therein, the plate 100 can be prevented from falling while supporting each other. In addition, the plate member 100 interconnected by the support member 150 is connected to each other at the time of installation, so as to move more easily can be installed.

It is a figure for demonstrating the arrangement bonding Example of the board | plate material of this invention. Referring to FIG. 8, the plates 100 may be arranged crosswise, may be arranged in a shop (# or well) form, or may be arranged in a net form. The joining and joining between the plates 100 may be performed by welding, It may be possible to use a separate coupler (not shown).

Of course, in the case of forming one plate by bending, the welding process is omitted since it is easy to manufacture, there is an advantage that does not have to consider various inspections, tests, requirements according to the addition of the welding process. However, as an example, the arrangement and shape of the various plate members 100 may be determined by welding or bonding.

As shown in (a), the other plate 100d is welded to the side of one of the plate 100, or as shown in (b), each plate 100d is welded to each other at an end, or as shown in (c). The other plate 100d may be welded to both sides of the plate 100. Alternatively, a joint such as an angle may be used to join the welding without welding, and grooves (not shown) may be formed in the plate members 100, and the grooves may be joined to be fitted together.

9 is a view for explaining an arrangement combination and a bonding embodiment of the plate of the present invention. Referring to FIG. 9, the basic plate structure is often manufactured at a factory and assembled and installed at a site. In the factory, a lot of work is performed in advance so as to minimize work at an installation site or an installation process, and at the same time, it is designed to be easy to transport. It should be possible.

Therefore, in the field, it is necessary to manufacture a product in the form of a module that is easy to assemble and is not too large and perfectly combined in advance. As shown in (a) in the state in which the two to four plate members 100 are arranged side by side to connect the support member 150 for connecting the upper portion or the lower portion with each other. Although the support member 150 is shown in the drawing as a wire rod such as reinforcing bars and rods, the support member 150 may be replaced with a plate having a predetermined width.

Since the spacing between the plate 100 is between several tens of centimeters cm to 1 to 2m, the maximum width is about 3, 4m in the form of a couple of about a couple of by the support member 150, it is possible to transport through a truck, etc. . Plate 100 of this structure may be used directly in the field as a single layer, or may be used to overlap each other as shown in (b). In this case, all the work can be proceeded quickly by simply placing two modular products in the field. Further, as shown in (c), the coupling grooves 160 are formed on both or one side plate 100, and the puzzles can be inserted into each other to fit the puzzle, thereby reducing the thickness and making it compact. Although the coupling groove 160 is made small in the drawing, when formed deeper, the overlapping thicknesses of the plate materials 100 facing each other are further reduced. When the coupling groove 160 is formed to the level of 1/2 of the height of the plate 100, even if the two plate 100 is overlapped to combine only one plate 100 to occupy the height.

Such a plate structure may be installed synthetically with the reinforcing bars in the floor concrete layer of the building, and may be installed between or partially connected and penetrated therebetween. The plate members 100 are preferably arranged upright to be crossed or bonded, or to form a certain angle to each other.

The plate 100 uses a metal panel like an iron plate, and a reinforcing groove (not shown) or a reinforcing hole (not shown) is formed, and in the state where the reinforcing bars are connected to each other or disposed between the reinforcing bars, concrete is poured, It is hardened and serves to firmly support the reinforcing bar structure when shear force is generated by the load from above.

Reinforcing bars are embedded in reinforcing grooves (not shown) or reinforcing holes (not shown) in principle, and may be fixed or welded using a fastening member (not shown) such as a separate wire or clamp. . In addition, the plates 100 constituting the basic plate structure are preferably arranged in parallel to each other in an upright state, it is also possible to be arranged to form a certain angle to each other.

As such, the structure in which the plate members 100 constituting the base plate structure connected to the upper and lower reinforcing bars is combined with various loads in various directions by the reinforcing bars which are constrained side, top and bottom, as well as the base plate structure 10. Can be fully supported.

Each plate 100 may be formed in a shape that the cross section is bent or bent. Each plate 100 may be formed to be bent or bent in the longitudinal direction or the height direction on the cross section. When the concrete is filled to the outside of the plate 100, the concrete is introduced between the curved surface or bent surface formed on the surface of the plate 100, the concrete is filled between the curved surface or bent surface Hardened in the state, it has the effect that the plate material 100 and the concrete is firmly tightly fixed simply without additional additional members such as stud bolts and additional work.

In addition, any one or more of the plate (100) of the plate 100 is disposed in parallel to the lower side, the other one or more plate 100 is mounted on the top of the combined, the lower plate 100 and the plate of the upper side It is possible to form a structure in which the 100 cross each other. At this time, the lower plate 100 is arranged in parallel to the upright in the transverse direction, the other plate 100 is arranged in the longitudinal direction on the upper side, it is made to cross or bonded to each other.

"형, "ㄱ"형, "ㄴ"형 중 어느 하나를 포함하는 형태의 강재로 이루어지게 할 수 있다.
Plate 100 may be crossed or bonded to each other in various forms, upright. Plate 100 may be arranged upright to form any of the cross, radial, rhombus or polygon. By forming a structure that intersects or bonds with each other in various forms, it is possible to completely support the complex multiple loads in various directions, such as side, top, bottom. In addition, each plate 100 has a lateral cross section of "I" type, "H" type, "└┘" type, "ㄷ" type, "

It can be made of steel of the form including any of the "type", "a" type, "b" type.

10 and 11 is a view showing a composite structure for strength reinforcement according to an embodiment of the present invention. 10 and 11, in the composite structure for strength reinforcement of the present invention, a base plate structure 10 having two or more plates 100 arranged in a floor concrete layer of a building is disposed, and in the floor concrete layer Existing upper and lower reinforcing bars (a, b) positioned in two rows at the top and bottom are connected across the plate 100 forming the base plate structure 10 or the upper and lower bars (a, b) The base plate structure 10 is disposed to be positioned between.

At this time, as shown in the figure. Each plate 100 constituting the base plate structure 10 in the bottom concrete layer is disposed between the existing upper reinforcing bar (a) and the lower reinforcing bar (b) arranged in two rows at the top and bottom of the bottom concrete layer It can be made in the state.

In addition, the upper reinforcing bar (a) disposed at the top in the bottom concrete layer and the lower reinforcing bar (b) disposed at the bottom in the bottom concrete layer and the upper portion of the plate 100 forming the base plate structure (10) It is also possible to be fitted to each of the lower portion, or only one side is fitted.

The plate 100 constituting the base plate structure 10 uses a metal panel, such as an iron plate, the upper and lower reinforcing bars (a, b) are fitted to each other, or the upper and lower bars (a, b) of In the state arranged in between, the concrete is poured and hardened, and serves to firmly support the upper and lower reinforcing bars (a, b) when the lateral tension is generated by the load from the upper side.

In addition, the plate members 100 constituting the base plate structure 10 may be arranged in parallel to each other in an upright state, but may be arranged to form a predetermined angle to each other.

As such, the plate 100 forming the base plate structure 10 is disposed to maintain an upright state by the support 200 before concrete is poured and cured, and the base plate structure 10 and the support 200 Concrete is poured and hardened in the fixed state, and it is installed on the concrete floor of the building.

Plates 100 constituting the base plate structure 10 are connected by the support 200, maintaining the arrangement state of the plate 100 before the concrete is poured and by increasing the bonding force between the various directions, This provides a more robust support for complex loads in the system.

Support 200 is a horizontal member 210 is formed long in the form of a rod or plate of a length corresponding to the base plate structure 10 and a plurality of jig (J) provided on the lower surface or the upper surface of the horizontal member 210. It is made, including.

The horizontal member 210 is positioned at the top or the bottom of the plate 100 to cross across the plate 100. Jig (J) is formed in a width corresponding to the thickness of the plate 100 is sandwiched between the plate member 100 respectively.

Structural construction method using the strength-reinforced composite structure of the present invention having the configuration as described above is a stop step, the discarded concrete layer forming step, the support arrangement step, the base plate structure arrangement step, the top, bottom reinforcement step and the bottom concrete layer It includes a pouring step.

In order to form the ground floor of a concrete structured building, the ground is first grounded flat, and in order to install a foundation structure for supporting and distributing the load, concrete is cast to form a discarded concrete layer.

The support member 200 including the horizontal member 210 and the jig J is disposed on the upper side of the discarded concrete layer, and the plate member 100 forming the basic plate structure 10 on the jig J of the support 200. Put each one of them together and arrange them upright.

Connecting the upper and lower reinforcement (a, b) to the base plate structure 10 arranged, or arranged so that the upper and lower reinforcement (a, b) is located above and below the base plate structure 10 do.

In addition, the base plate structure 10 and the upper and lower reinforcement (a, b) is poured into the concrete, and the bottom concrete layer is formed to harden and support each other to build a composite structure for strength reinforcement.

12 is a view showing a composite structure for strength reinforcement according to another embodiment of the present invention. Referring to Figure 12, the strength-reinforced composite structure of the present invention is the base between the existing upper reinforcement (a) and the lower reinforcement (b) disposed in two rows at the top and bottom in the bottom concrete layer of the building The plate member 100 constituting the plate structure 10 is made in a state that is located.

In another embodiment of the present invention, the plate members constituting the base plate structure 10 are arranged to maintain an upright state by the support member 300 before concrete is poured and hardened, and is supported with the plate member 100. Concrete is poured and hardened in a state in which the member 300 is connected and fixed, and is embedded in the floor concrete layer of the building.

The plate 100 constituting the base plate structure 10 is connected to the upper and lower reinforcement (a, b) by the support member 300, maintaining the arrangement state of the plate 100 before the concrete is poured By increasing the cohesion and mutual bonding force, it is possible to more firmly support the load applied in various directions.

The support member 300 includes a plate-shaped body 310 having a predetermined area and thickness, a fixing protrusion 320 provided on the lower surface thereof, and a jig J provided on the upper surface thereof.

In addition, the both ends of the body 310 is preferably provided with a support leg 330 extending downward.

The support leg 330 supports the body 310 so that the body 310 of the support member 300 is located above the lower reinforcing bar b, and the fixing protrusion 320 is the lower reinforcing bar. The lower side is opened in a shape corresponding to the periphery of the lower reinforcing bar (b) to surround (b), and the lower reinforcing bar (b) is fixedly coupled therein.

Jig (J) is formed in a width corresponding to the thickness of the plate 100 is sandwiched between the plate member 100 respectively.

Structural construction method using the composite structure for strength reinforcement of the present invention having the configuration as described above is the stop step, the stepped concrete layer forming step, the lower reinforcing bar arrangement step, the supporting member arrangement step, the base plate structure arrangement step, the upper reinforcing bar arrangement step And floor concrete layer placing step.

In order to form the ground floor of a concrete structured building, the ground is first grounded flat, and in order to install a foundation structure for supporting and distributing the load, concrete is cast to form a discarded concrete layer.

The lower reinforcing bar (b) is arranged horizontally on the upper side of the discarded concrete layer, and the fixing protrusion 320 of the support member 300 is fixed to the lower reinforcing bars (b).

The jig J of the support member 300 is inserted into the plate member 100 constituting the base plate structure 10, respectively, and arranged in an upright position.

The upper reinforcing bar (a) is connected to the base plate structure (10) arranged or arranged so that the upper reinforcing bar (a) is positioned above the base plate structure (10).

The base plate structure 10 and the upper and lower reinforcing bars (a, b) are poured into concrete, and the bottom concrete layer is formed so as to be integrally supported by hardening, thereby constructing a composite structure for strength reinforcement.

13, 14, 15 is a view showing a composite structure for strength reinforcement according to another embodiment of the present invention. Referring to FIGS. 13 and 14, in another embodiment of the present invention, the plate members constituting the base plate structure 10 are arranged to maintain an upright state by the support 200 before concrete is poured and cured. The concrete 100 is poured and hardened in a state in which the plate 100 and the support 200 are connected and fixed, and are embedded in the floor concrete layer of the building.

In this case, the upper reinforcing bar (a) and the lower reinforcing bar (b) is positioned at a predetermined distance apart from the top and bottom of the plate 100, or penetrates the upper and lower portions of the plate 100, or the plate 100 It is possible to form a groove on the upper and lower ends of the groove and be directly connected to the groove.

Plates 100 constituting the base plate structure 10 is connected to the support 200, by maintaining the arrangement state of the plate 100 before the concrete is poured and by increasing the bonding force between each other, it is complex in various directions It can be supported more firmly against the load applied by

Referring to Figure 15, the plate 100 is provided with a horizontal support portion 110 on any one of the upper end and the lower end or the upper, lower end, more firmly support the upper load and shear force, as well as arrangement during construction It may also be easy to move. The support 110 is most easily bent in manufacturing to be formed by bending the top or bottom of the plate 100, or by welding or bonding to each end.

As shown in (a), the upper end and the lower end are bent in opposite directions (the same direction as d) to form the support 110, or as shown in (b), the upper end and the lower end have separate support parts 110 for welding. Or may be coupled through a separate coupler 114 as shown in (c). It may be shaped like (e) or L-shaped as shown in (f).

At this time, the support 200 is a binding member for fixedly coupling the horizontal member 210 and the plate member 100 and the horizontal member 210 formed long in the form of a rod or plate of a length corresponding to the base plate structure (10). It comprises a member (N).

The horizontal member 210 is positioned at the top or the bottom of the plate 100 to cross across the plate 100.

The horizontal member 210 which is in contact with and intersects with the support 110 of the plate 100 is to be penetrated through each other by a plurality of the binding member (N).

It is a figure which shows the base plate which has a support part. Referring to FIG. 16, the base plate 100 may include the support 110 as described above. The support 110 may face the upper and lower portions in the same direction as in (a), or (b) and You can point them in different directions. As the support 110 is used, the thickness of the concrete layer can be made thinner.

It is a figure which shows the manner in which the base plate which has a support part is arrange | positioned between column reinforcement. Fig. 17 (a) is a view seen from the top to the bottom, e is a vertical reinforcing bar provided in the pillar portion. (b) is a view from the side, corresponding to (a), a represents the upper reinforcing bar, b represents the lower reinforcing bar.

The base plate 100 having the supporting portion 110 should be disposed between the vertical rebars e, and the vertical portion of the base plate 100 is indicated by a dotted line. In the calculation of the load, the vertical part should be maintained at a constant interval, and the leftmost base plate 100 is disposed so that the support 110 faces to the right side, and the base plate 100 on the right side also needs to be installed at the support portion ( Trying to turn 110) to the right as J, the position overlaps with the vertical rebars. However, it is difficult to process and excessively time-consuming to drill holes at the corresponding positions of the support 110.

Therefore, in this case, the support 110 is rotated 180 degrees in the same direction as K so that the installation position of the base plate 100 does not change while facing the opposite direction. This allows the base plate 100 to be installed without any damage to the support 110 without departing from the calculated original installation position.

18 and 19 are views showing an embodiment in which the base plate is disposed in the pillar portion. 18 illustrates a form in which a plurality of base plates 100 are fitted to the base plate 400, and the base plate 400 has a plurality of coupling grooves 410 formed at predetermined intervals, and the coupling grooves 410. In the same manner, the base plate 100 having the coupling groove 120 formed therein is fitted. The coupling grooves 410 of the base plate 400 are preferably all formed to be opened upwards, the coupling groove 120 of the base plate 100 is formed to be developed to be downward to be fitted facing each other. In some cases, the base plate 100 is further provided with an upwardly open coupling groove 120, so that the other base plate 100 may be additionally coupled to the base plate 100.

19 shows various forms of the base plate 100, the coupling grooves 120 are all formed in the same direction (a), or the coupling grooves 120 are uniformly formed in both directions (b, c). have. The direction of the coupling groove 120 may be configured in various combinations to suit the site.

20 and 21 are views showing an embodiment of a base plate that can be easily disposed on the pillar portion. Referring to FIG. 20, an intermediate part of the support part 110 is opened at a predetermined interval to the basic plate 100 having the support part 110 formed in a dimming shape to form the opening part 112. The opening 112 is formed with a coupling groove 120.

The opening part 112 is formed in part of the support part 110, and as the opening part 112 is present, the rotation process of the base plate 100 as described with reference to FIG. 17 may be omitted.

When the opening 112 is formed in advance in accordance with the interval at which the vertical column reinforcement e is positioned, since the column reinforcement e is positioned between the opening 112 and is located between the supports 110, Position of the support 110 and the column reinforcement (e) does not overlap or block the path does not occur. Therefore, there is no inconvenience that the support 110 has to be rotated or moved to avoid the column reinforcement (e). In addition, even when repeatedly installing the base plate 100 vertically and horizontally, as shown in (b), the portion that meets the different base plate 100 through the coupling groove 120 as a portion where the mutual opening 112 is located. Since the support 110 does not overlap or overlap, there is an advantage that the installation is easy.

Referring to FIG. 21, the opening 112 may be formed larger, leaving only the supporting parts 110 at both ends, and allowing the plurality of coupling grooves 120 to be positioned in one large opening 112. In addition, the support portion 110 of the dimming trend may be removed, and the support portion 110 may be provided with different direction supports 110 (dashed line) in a Z-shape.

22 is a view showing the configuration of the coupling groove of another form. Referring to FIG. 22, in the basic plate 100 having the support 110, the coupling groove 120 is formed over the entire vertical portion, and the coupling groove 120 is not included in the other basic plate 100 fitted thereto. It can also combine without forming. In this case, the manufacturing is easy.

Structural construction method using the composite structure for strength reinforcement of the present invention having the configuration as described above is the stop step, the stepped concrete layer forming step, the horizontal member arrangement step, the base plate structure arrangement step, the top, bottom reinforcement step and floor concrete A layer casting step is made.

In order to form the ground floor of a concrete structured building, the ground is first grounded flat, and in order to install a foundation structure for supporting and distributing the load, concrete is cast to form a discarded concrete layer.

One or both ends of the upper and lower ends of the horizontal member 210 of the support 200 is disposed on the upper surface of the discarded concrete layer, and the base plate structure 10 is formed on the upper or lower surface of the horizontal member 210. The plate | plate material 100 formed by this bending is arranged upright.

The horizontal member 210 in contact with the bending portion of the plate 100 is fixed to the binding member (N) of the support 200.

Connecting the upper and lower reinforcement (a, b) to the base plate structure 10 arranged, or arranged so that the upper and lower reinforcement (a, b) is located above and below the base plate structure 10 do.

The base plate structure 10 and the upper and lower reinforcing bars (a, b) are poured into concrete, and the bottom concrete layer is formed so as to be integrally supported by hardening, thereby constructing a composite structure for strength reinforcement.

As such, although the invention has been described by way of limited embodiments and drawings, the invention is not limited thereto and is within the scope of equivalents of ordinary skill and the claims to be described below in the technical field to which the invention pertains. Various modifications and variations are possible, of course.

Description of the Related Art
10: base plate structure 100: plate
110: support portion 112: opening portion
114: coupling sphere 120: coupling groove
150: support member
200: support 210: horizontal member
300: support member 310: body
320: fixed protrusion 330: support leg

Claims (11)

In the structure provided in the position where the shear stress is applied in the concrete structure in which the reinforcing steel is built,
A base plate structure in which a plate is vertically arranged at a position at which shear stress is applied; And
A horizontal support part is provided at an upper end and / or a lower end of the plate,
The base plate structure is connected by reinforcing bars located in the concrete structure or positioned between the reinforcing bars, the concrete structure is made while concrete is poured and hardened,
A strength reinforcement composite structure, characterized in that the opening is formed in a portion of the support.
delete The method of claim 1,
Strengthening composite structure, characterized in that the coupling groove is formed at the position where the opening of the plate is formed.
The method of claim 1,
Strength support composite structure characterized in that the support portion is formed by bending the plate.
The method of claim 1,
The support is:
A separate plate-like member is welded to the upper and / or lower side of the sheet, or
Strengthen composite structure for reinforcing, characterized in that for coupling the separate plate-like member to the upper side and / or lower side of the plate.
The method of claim 1,
A base plate formed with a coupling groove; is further provided,
The plate is also provided with a coupling groove for fitting to the coupling groove,
Wherein the plate is inserted into the base plate two or more composite structures for strength reinforcement, characterized in that coupled to each other.
The method of claim 1,
Coupling grooves are formed in the entire height of the vertical portion of the base plate formed with the support,
Strengthening composite structure characterized in that the coupling groove is not formed in the other base plate fitted in the coupling groove. delete delete delete delete

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