KR20150062405A - Lightweight hollow slab - Google Patents

Abstract

The present invention relates to a one-way shear reinforced hollow slab which is easy to construct without inconvenience caused by the separate arrangement of a distributing bar and a reinforcing bar. The one-way shear reinforced hollow slab comprises: a truss structure comprising a lower re-bar, a shear reinforcing part with an uneven shape to be arranged in the longitudinal direction of the lower re-bar to be perpendicular to the lower re-bar at regular intervals, and an upper re-bar arranged on the top of the shear reinforcing part to be horizontal to the lower re-bar; a hollow body engaged with the uneven shear reinforcing part; and concrete to cover and fixate the truss structure including the hollow body. According to an embodiment of the present invention, the upper distributing bar, the shear reinforcing bar, and the lower distributing bar of the shear reinforcement part are integrated with each other, thereby solving problems of inconvenience caused by the separate arrangement of the distributing bar and the reinforcing bar. Therefore, the one-way shear reinforced hollow slab facilitates the construction, thereby significantly improving ease of installation and shear performance.

Description

BACKGROUND ART [0002] Lightweight hollow slabs

The present invention solves the inconvenience of having to separately lay out the upper and lower main ropes at once to solve the problems of general shear reinforcement of hollow slabs and to reduce unnecessary upper main ropes in the middle slabs The present invention relates to an economical shear reinforcement type one-way hollow slab.

Generally, the slab is a plate-like building structure installed between the columns. In the method of constructing the concrete floor slab, there are a cast-in-place method in which a formwork is installed and a reinforcing bar is installed, A half PC method in which a concrete unit member of a certain standard in which reinforcing bars are laid is manufactured and assembled successively in the field to form a structure.

The on-site casting method has a disadvantage in that a large amount of manpower, material and time are consumed due to the disassembly of the formwork. In recent years, the half PC method, which does not require formwork and concrete casting, has been adopted, , And labor productivity.

However, in spite of the advantages of the half PC method, it is not widely used due to the structural disadvantages of the assembled joints.

Recently, in order to increase the thickness of the slab and increase the strength of the slab, it is necessary to increase the strength of the slab and increase the weight of the living room.

Such a hollow core slab is a structure having a hollow body or a lightweight body at the center. As the weight of the panel is reduced, the weight of the slab is reduced, and the hollow core slab has comparatively excellent sectional performance. Such a hollow core slab has a long span ) And flatslab, as well as the advantage of reducing the interlayer noise.

As a conventional hollow slab, there is a registered patent No. 10-0875698 (unit panel for a hollow slab).

However, when the hollow slab is manufactured in the field, there is a problem that the quality is deteriorated due to the buoyancy of the lightweight body and the time and cost for fixing the hollow slab is high.

Particularly, the conventional hollow slab has the following problems.

First, in the existing hollow slabs, the shear performance is reduced due to the reduction of the section of the concrete by the hollow body (tube). Therefore, in order to secure a constant shear performance, it is necessary to increase the thickness of the slab or to install the shear reinforcement rope separately. There was a problem quite troublesome.

Second, there was a problem that the main rope (near the top and bottom) of the hollow slab was installed and the laying rope was installed separately at right angles to it, which made the installation time considerably cumbersome.

Third, in the case of hollow slabs, it is difficult to fix the hollow body (tube), so that the hollow slab can not easily move due to the pouring of the concrete.

Therefore, there is a continuing need for a new concept hollow slab capable of solving the above-mentioned problems.

It is an object of the present invention to provide a shear reinforcement type unidirectional hollow slab which can solve the inconvenience that the reinforcement rods and the reinforcement rods have to be separately deployed at one time and is very convenient to construct.

It is another object of the present invention to provide a shear reinforcement type unidirectional hollow slab capable of reducing its own weight as compared with a conventional hollow slab because of less reinforcing bars, and also to reduce an unnecessary upper main bar in the slab middle band, And to provide a reinforced one-way hollow slab.

In order to achieve the above object, a shear reinforcement type one-

And a truss structure having an upper portion disposed adjacent to the lower portion of the lower portion and horizontally arranged at an upper portion of the lower portion of the shear reinforcement, Wow;

A hollow body fitted to the concave and convex portions of the front end reinforcing portion;

And a concrete body including the hollow body to surround and fix the truss structure.

Here, the shear-

A lower shear reinforcement extending vertically downward from both ends of the upper reinforcement rope and a lower reinforcement rope extending in a direction parallel to the upper reinforcement rope from a distal end of the shear reinforcement rope; And is formed continuously and repeatedly.

Here, the front end reinforcing portion is continuously installed via a connecting member detachably coupled to the lower output power.

Further, in the present invention, the shear reinforcement portion and the upper surface of the truss structure are formed at both ends of the hollow body.

According to the present embodiment, since the upper and lower shear reinforcement roots of the shear reinforcement portion are integrated with each other, it is possible to eliminate the inconvenience that the reinforcement rods and the reinforcement rods have to be individually deployed separately as in the prior art. It is advantageous that the installation is considerably simplified and convenient, and the installation convenience and shear performance are greatly improved.

Further, according to the present embodiment, since the hollow body is inserted and fixed between the upper and lower sheave reinforcement rods of the shear reinforcement, the movement of the hollow body is restricted even when the concrete is laid, And the spacing between the hollow bodies is naturally controlled by the lower discharge force, so that the installation and construction become considerably convenient.

Further, according to this embodiment, it is possible to maintain sufficient strength to resist the shearing force exerted on both ends even when the shear reinforcement portion and the upper portion of the truss structure are provided only at both ends of the hollow body. Further, The manufacturing cost can be greatly reduced, and since less reinforcing bars are used, the weight of the hollow slab can be reduced as compared with the conventional hollow slabs, so that it is possible to reduce the weight of the hollow slab, The effect can also be expected.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view of a one-way hollow slab of a shear reinforcement type according to the present invention. FIG.
2 is an exploded perspective view of a one-way hollow slab of a shear reinforcement type according to the present invention.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hollow slab,
4 is a front view of a one-way hollow slab of a shear reinforcement type according to the present invention.
5 is a perspective view showing another embodiment of the shear reinforcement in the shear reinforcement type unidirectional hollow slab according to the present invention.

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

FIG. 1 is a perspective view illustrating a shear reinforcement type unidirectional hollow slab according to the present invention, FIG. 2 is an exploded perspective view of a shear reinforcement type unidirectional hollow slab according to the present invention, FIG. FIG. 4 is a front view of a shear-reinforcement type unidirectional hollow slab according to the present invention. FIG.

1 to 4, the shear reinforcement type unidirectional hollow slab of the present invention is composed of a truss structure 10, a hollow body 20, and a concrete 30 according to a preferred embodiment of the present invention.

The truss structure 10 is composed of a lower portion 11, a shear reinforcement portion 12 and an upper portion 13 and is wrapped by the concrete 30 in the case of the present embodiment to improve shear performance, Thereby functioning to fix the body 20.

A plurality of the lower portion 11 and the upper portion 13 are arranged at the upper and lower portions with respect to the front end reinforcing portion 12, and functions to resist the tensile force generated by the bending moment.

The shear reinforcing portion 12 is a reinforcing bar formed by bending and folding in a concavo-convex shape. In the present embodiment, the reinforcing portion 12 is disposed orthogonally to the lower portion 11 and the upper portion 13, and the lower portion 11 and the upper portion 13, Are arranged at regular intervals along the longitudinal direction.

Here, the front end reinforcing portion 12 is composed of the upper expansion rope 12a, the front end reinforcement rope 12b, and the lower expansion rope 12c to form a concavo-convex shape, and the concavo-convex form is continuously and repeatedly formed.

According to the present embodiment, the upper and lower reinforcement rods 12a and 12b and the lower reinforcement rope 12c of the shear reinforcement 12 are integral with each other, It is possible to solve the inconvenience which had to be done at a time, which makes the installation considerably simpler and more convenient, which is advantageous in that installation convenience and shear performance are greatly improved.

The hollow body 20 is inserted and fixed at predetermined intervals in the shear reinforcement 12 forming the concave and convex structure. According to the present embodiment, the upper reinforcement rope 12a of the shear reinforcement 12, Since the hollow body 20 is inserted and fixed between the front end reinforcement ropes 12b so that the movement of the hollow body 20 is restricted even when the concrete 30 is laid and the buoyancy of the hollow body 20 during compaction of the concrete 30 And the gap between the hollow bodies 20 is naturally adjusted by the lower power line 12c, so that the installation and construction are considerably convenient.

On the other hand, in general, the hollow slab has the largest shearing force at both ends, and at the center, the shearing force is almost zero, which may easily break both ends.

Therefore, in the present embodiment, the front end reinforcing portion 12 and the upper side portion 13 of the truss structure 10 are formed at both ends of the hollow body 20 to reinforce the shearing performance, thereby solving the above problems .

Therefore, even if both the front end reinforcement portion 12 and the upperside portion 13 of the truss structure 10 are provided only at both ends of the hollow body 20, strength sufficient to resist the shearing force acting on both end portions can be maintained And it is possible to reduce the manufacturing cost by reducing the manufacturing cost, and it is possible to reduce the weight of the hollow slab compared to the conventional hollow slab because the reinforcing bars are less inclined. Therefore, It can be expected to have a side effect that can realize weight reduction and ease of transportation.

On the other hand, the upper reinforcement rope 12a, the shear reinforcement rope 12b, and the lower reinforcement rope 12c of the shear reinforcement portion 12 are repeatedly formed by bending a single reinforcing bar continuously, which is considerably cumbersome and requires a long processing time , It is difficult to form the shear reinforcement 12 in a uniform bending form. In particular, in the case of construction in the field, it is a very difficult problem to form the shear reinforcement 12 in accordance with the building width.

In this embodiment, the above-mentioned problem is solved by connecting the adjacent front end reinforcement parts 12 to each other through a connecting member 12d so as to be detachable, as shown in FIG.

5 is a perspective view showing another embodiment of the shear reinforcement in the shear reinforcement type unidirectional hollow slab according to the present invention.

The connecting member 12d is a tube whose inside passes through both ends.

Here, the lower reinforcement rope 12c may be connected to both sides of the connecting member 12d, and the lower reinforcement rope 12c may be connected to the connecting rope 12c without using the connecting member 12d. 5, the outer peripheral surface of the lower reinforcing rope 12c and the inner peripheral surface of the connecting member 12d are provided with a screw tap (not shown), for example, , And adopts a method of mutual connection and connection through this.

Particularly, when the connecting member 12d is rotated in one direction in a state where the lower output power rope 12c is fastened to both ends of the connecting member 12d, the lower rear power rope 12c It is preferable that the screw tabs formed on the outer circumferential surface of the lower expansion rope 12c disposed on both sides of the connecting member 12d are opposite to each other And the other is a right-handed screw), so that the above-described operation can be performed.

Therefore, according to the present embodiment, since the connecting member 12d can easily and easily be connected to the connecting member 12d as described above, the processing becomes considerably convenient, the uniform bending shape can be maintained, and the manufacturing is also considerably convenient.

Also, since the neighboring front end reinforcement portions 12 are connected to each other via the connecting member 12d, it is possible to expect a side effect that the on-site assembly becomes considerably convenient, and the volume is small and the transportation becomes considerably convenient.

The hollow body 20 is hollow and has both ends closed. In the present embodiment, a plurality of hollow bodies 20 are fitted and fixed to the truss structure 10.

According to this embodiment, due to the application of the hollow body 20, the weight of the slab itself and the weight of the slab can be reduced, the weight of the slab can be reduced, and the transportation can be facilitated.

The concrete (30) includes a plurality of hollow bodies (20) to enclose and fix the truss structure (10).

The manufacturing process of the present invention having the above-described structure will be described.

The one-way hollow hollow slab according to the present invention can be manufactured by separately preparing the truss structure 10 and the hollow body 20 and then placing the concrete 30 on the site, Hereinafter, the process of manufacturing the product will be described.

First, the bottoms 11 are arranged at regular intervals on the bottom surfaces of both sides of the mold formed with a certain frame.

Then, a front end reinforcing portion 12 formed by bending a single reinforcing bar in a concave-convex shape is disposed orthogonally to the lower vicinity 11, and the front end reinforcing portion 12 is formed at regular intervals along the longitudinal direction of the lower portion 11, (12) and then fix it with the vicinity (11).

5, the lower reinforcement rope 12c of the front end reinforcing portion 12 is disposed on both sides of the connecting member 12d and then the connecting member 12d is inserted The shear reinforcement portions 12 are connected to each other at both sides, and the number of the shear reinforcement portions 12 is connected as necessary.

After the placement of the shear reinforcement 12 is completed as described above, the upper vicinity 13 is disposed on the upper side of the shear reinforcement 12, and then the reinforcement 12 is fixed to the shear reinforcement 12 as well.

The fixing method is fixed by a conventional method, that is, by using a wire, or by spot welding.

After completing the pair of truss structures 10 by using the vicinity 11, the shear reinforcement 12 and the upper portion 13 as described above, the upper and lower shear reinforcement rods 12a and 12b The hollow body 20 is inserted into each of the formed concavities and convexities, and both ends of the hollow body 20 are fixed to the pair of the front end reinforcing portions 12, respectively.

After the hollow body 20 is inserted into the truss structure 10 as described above, the concrete 30 is poured into the formwork and then drawn out to complete the shear reinforcement type unidirectional hollow slab according to the present invention. The shear reinforcement type unidirectional hollow slab can be transported to the site.

According to the present embodiment, the upper and lower reinforcement rods 12a, 12b and 12c of the shear reinforcement 12 are integrated with each other, so that the reinforcement rods and the reinforcement rods must be separately installed It is possible to solve the discomfort inconvenienced at a time, which makes the construction considerably simple and convenient, which is advantageous in that installation convenience and shear performance are greatly improved.

According to the present embodiment, since the hollow body 20 is inserted and fixed between the upper boom reinforcement 12a and the front end reinforcement rope 12b of the shear reinforcement 12, even if the concrete 30 is laid, Since the movement of the hollow body 20 is restricted, the problem of deterioration of the structural performance can be solved, and the space between the hollow bodies 20 is naturally controlled by the lower discharge rope 12c, which makes installation and construction considerably convenient .

In addition, according to the present embodiment, even if the truss structure 10 is provided only at both ends of the hollow body 20, it is possible to maintain sufficient strength to resist the shearing force acting on both ends, The manufacturing cost can be greatly reduced, and since the reinforcing bars are less routed, the weight of the hollow slab can be reduced as compared with the conventional hollow slabs, so that the weight of the hollow slab can be reduced and the ease of transportation can be improved. The effect can also be expected.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

10: truss structure 11: underneath 12: shear reinforcement
12a: Upper reinforcement rope 12b: Shear reinforcement rope 12c: Lower reinforcement rope
12d: connecting member 13: upper periphery 20: hollow body
30: Concrete

Claims (4)

And a truss structure having an upper portion disposed adjacent to the lower portion of the lower portion and horizontally arranged at an upper portion of the lower portion of the shear reinforcement, Wow;
A hollow body fitted to the concave and convex portions of the front end reinforcing portion;
And a concrete structure including the hollow body and surrounding the truss structure to fix the hollow truss structure.
The method according to claim 1,
Wherein the shear-
A lower shear reinforcement extending vertically downward from both ends of the upper reinforcement rope and a lower reinforcement rope extending in a direction parallel to the upper reinforcement rope from a distal end of the shear reinforcement rope; Wherein the shear reinforcement is formed continuously and repetitively.
3. The method of claim 2,
Wherein the shear reinforcement is continuously provided via a connecting member detachably coupled to the lower output shaft.
4. The method according to any one of claims 1 to 3,
Wherein the shear reinforcement portion of the truss structure and the vicinity of the upper portion are formed at both ends of the hollow body.

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