KR200438488Y1 - Shear reinforcement structure of flat slab - Google Patents

Abstract

The present invention relates to a two-way shear reinforcement structure of flat plate slab, and is specifically designed to supplement the range exceeding the shear force that the slab concrete can resist, and is used to repair and reinforce existing structures Its purpose is to reduce the weight of the structure and to facilitate transportation and installation.

The object of the present invention is a flat plate structure having a plurality of vertically arranged at regular intervals in a flat plate structure consisting of a column and a slab in the upper side of the slab formwork in all directions around the column to reinforce the two-way shear around the column. It consists of a reinforcing carbon plate and a plurality of strip carbon plate epoxy bonding to the upper surface of the reinforcing carbon plate so that a plurality of reinforcing carbon plate is integrated, and the protrusion formed of the carbon plate or iron plate on both sides of the reinforcing carbon plate to strengthen the bond with concrete or This is achieved by providing a bidirectional shear reinforcing structure of a flat plate slab coated with epoxy resin.

 Carbon plate, epoxy, slab, flat plate, shear force, concrete, reinforcement

Description

Shear reinforcement structure of flat slab}

1 is a plan view showing an installation state of a conventional shear reinforcement structure,

2 is a cross-sectional view taken along the line 'A-A' of FIG. 1,

3 is a perspective view of a shear reinforcing structure according to the present invention,

4 and 5 is an installation state of the shear reinforcing structure according to the present invention,

6 is a front view of the reinforcing carbon plate according to the present invention,

7 is a side view of the reinforcing carbon plate shown in FIG. 6,

8 is a side view of the epoxy coated reinforcing carbon plate according to the present invention.

<Description of the symbols for the main parts of the drawings>

300: reinforcing carbon plate 310: strip carbon plate

320: shear reinforcement structure 330: upper reinforcing bar

340: formwork 350: protrusion

370: slab 400: column

The present invention relates to a two-way shear reinforcement structure of flat plate slab, and is specifically designed to supplement the range exceeding the shear force that the slab concrete can resist, and is used to repair and reinforce existing structures It is directed to a two-way shear reinforcement structure of flat plate slabs that does not require a machining process and the weight of the structure is reduced to facilitate transportation and installation.

Today, the shortening of construction period is emerging as an important factor due to the high rise of buildings. In addition, existing wall structures in residential buildings do not satisfy the needs of various consumers due to the limitation of space usage.

A flat plate structure consisting of only a few pillars and slabs is emerging as a new alternative.

This flat plate structure is composed of only the bottom plate without the bottom beam and transfers the load directly to the column, and may have a problem in structural stability due to the shear formed near the outer circumference of the column, but the structure is simple and the height is high. It can be reduced, which is advantageous in terms of cost and workability.

In addition, the thicker slab, which is the biggest disadvantage of the flat plate structure, is changed to a new advantage in consideration of the fact that the thickness of the slab is thickened to satisfy the usability rather than the structurally required thickness of the slab due to the stricter interlayer noise. It is becoming.

The greatest concern in flat plate construction is the wider column spacing and the higher flexural stiffness of the slab.

To this end, it is necessary to increase the thickness of the slab, but this is beyond the satisfaction level of usability, such as the interlayer noise, which increases the supporting load due to the increase of its own weight (the norm of the supporting load is gradually strengthening) and the increase in quantity. Doing.

The factor that determines the thickness of the slab in flat plate structure is the two-way shear, and the area around the column is relatively weak to concrete shear resistance.

1 is a plan view showing a state of installation of a conventional shear reinforcing structure, Figure 2 is a cross-sectional view taken along the line 'A-A' of FIG.

As shown in Fig. 1 and Fig. 2, as a reinforcing structure in the form of a two-way beam for the shear around the column, construct a reinforcing bar (2) in all directions around the column and the stirrup reinforcement (3) around the reinforcing bar (3) ) Reinforcing structures (1) woven in the transverse direction is widely used.

However, this conventional two-way beam reinforcement method is to weave a large amount of reinforcing bars directly in the field, so the work in the field is not only cumbersome, long air, but also requires a lot of manpower, such as construction and economical aspects It has a lot of problems.

In addition, the settlement of the shear reinforcement is important in the shear reinforcement around the column, the reinforcing bar of the bar shown in this aspect is insufficient as a structure for shear resistance in terms of fixing properties in concrete.

In addition, the slab of the flat plate structure as well as in the normal building slab is installed in the concrete, the upper and lower reinforcing bars installed in the longitudinal cross-cross between the rebar cross section of the upper and lower sides of the slab cross section.

These upper and lower reinforcing bars are supported by a spacer (support) in advance so that they can be maintained at a predetermined height above the slab formwork before concrete is poured.

In particular, when installing the reinforcement structure using conventional reinforcing bars, care should be taken in the order of reinforcement as in the case of beam installation, and when the plane of the building is irregular, the slab main direction is different from the angle of the column, so the reinforcement for shear reinforcement is slab There is a problem that can interfere with the cast iron.

In addition, when the opening for the facility occurs around the column is limited to the installation of the shear reinforcement, there is a problem that the reinforcement range is widened according to the design criteria of the building structure when calculating the shear reinforcement rebar.

Therefore, the present invention has been invented to solve the above-described problems, in the flat plate structure consisting only of the column and the slab as a structure in which a plurality of slab formwork is installed on the upper side of the slab in all directions around the column for the two-way shear reinforcement around the column, It consists of a plate-type reinforcement carbon plate arranged in a plurality of vertically spaced intervals, and a plurality of strip carbon plate epoxy bonded to the upper surface of the reinforcing carbon plate so that the plurality of reinforcing carbon plate is integrated, so as to enhance the binding of the concrete on both sides of the reinforcing carbon plate As the protrusion formed by carbon plate or iron plate is epoxy-bonded or epoxy resin is applied, carbon plate used for repair and reinforcement of existing structure is used so that no additional processing is required, and the weight of the structure is reduced so that it is easy to transport and install. Bidirectional Shear Reinforcement Structure of Plate Slab Its purpose is to provide this.

The present invention for achieving the above object is a structure for the two-way shear reinforcement around the pillar in a flat plate structure consisting only of the column and the slab, a plurality of structures are installed on the upper side of the slab form around the pillar, constant interval A plurality of flat reinforcement carbon plates arranged vertically; Characterized by consisting of a plurality of strip carbon plate is epoxy bonded to the top of each of the reinforcing carbon plate to connect the reinforcing carbon plate for the integration of the reinforcing carbon plate.

In a preferred embodiment, the reinforcing carbon plate is characterized in that a plurality of protrusions for epoxy bonding on both sides so as to enhance the binding with concrete.

In another preferred embodiment, the protrusion is characterized in that formed of a carbon plate or iron plate.

As another preferred embodiment, the reinforcing carbon plate is characterized in that the epoxy resin is applied to both sides to enhance the binding with concrete.

Therefore, the use of the existing carbon plate member is not necessary for a separate processing process, and the weight is reduced, thereby facilitating transportation and installation.

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

The present invention is a shear reinforcement structure for intensive reinforcement around pillars vulnerable to concrete shear resistance, and is applied to two-way shear reinforcement structure of flat plate slab designed to effectively resist the portion exceeding the shear force that slab concrete can resist. It is about.

3 is a perspective view of a shear reinforcing structure according to the present invention.

As shown in FIG. 3, the shear reinforcing structure 320 includes a plurality of flat plate-shaped reinforcing carbon plates 300 formed in a predetermined length and a strip carbon plate 310 thinly formed in a length direction.

Here, the number, spacing, total length, etc. of the reinforcing carbon plate 300 and the strip carbon plate 310 may be appropriately changed as necessary.

As described above, the reinforcing carbon plate 300 is manufactured in a flat plate shape and is placed in a long corner direction while maintaining a constant interval, and the strip carbon plate 310 in which the carbon plate is thinly separated so that the plurality of reinforcing carbon plates 300 are integrated with each other has a predetermined interval. Epoxy bonds to the top and bottom of the reinforcing carbon plate 300 while maintaining.

Since the shear reinforcement structure 320 is provided in a single unit modular, it is installed in the required position after carrying out the modular shear reinforcement structure 320 through a factory process to transport it to the site.

In the shear reinforcement structure 320 of the present invention shown, the lower portion of the reinforcing carbon plate 300 is a part directly supported on the slab 370 formwork 340.

4 and 5 are diagrams illustrating an installation state of the shear reinforcing structure according to the present invention.

As shown in Figure 4 and 5, the shear reinforcement structure 320 of the present invention, unlike the conventional shear reinforcement structure 320 is constructed in the form of a beam weaving reinforcement in the field, one through the factory processing It is provided as a modular product, so in the field, the shear reinforcing structure 320 of the present invention provided by modularization is only required to be installed on the slab 370 formwork 340 to be installed properly, thereby increasing the separate process and personnel It can be installed without.

As shown, the shear reinforcement structure 320 of the present invention is to install in a two-way beam around the column 400 vulnerable to the slab 370 concrete shear resistance, the reinforcing carbon plate integrated by the strip carbon plate 310 A plurality of 300 are installed side by side in each direction.

Here, the upper reinforcement 330 and the lower reinforcement 380 is installed in the formwork with the shear reinforcement structure, the shear force is reinforced by forming a modular shear reinforcement structure in the conventional rebar.

In addition, the shear reinforcement structure 320 of the present invention has a structure that can effectively resist the two-way shear generated around the column 400, in particular the shear force pulls each reinforced carbon plate 300 in both forms By acting as, the reinforcing carbon plate 300 in the concrete of the slab 370 by the strip carbon plate 310, not only excellent fixability in the concrete, but also exhibits a very effective shear resistance.

In addition, when the shear reinforcement structure 320 of the present invention is installed, it can support the existing upper reinforcing bar 330 installed in the slab 370 thereon, wherein the shear reinforcement structure 320 of the present invention is The slab 370 serves to support the upper reinforcement 330, and thus a separate support for supporting the upper reinforcement 330 and its installation work can be omitted.

On the other hand, Figure 6 is a front view of the reinforcing carbon plate according to the present invention, Figure 7 is a side view of the reinforcing carbon plate shown in FIG.

6 and 7, a plurality of long iron plates or carbon plates are epoxy bonded to both sides of the reinforcing carbon plate 300 of the shear reinforcing structure 320 shown in FIG.

This is because the side cross-section of the carbon plate is formed in a smooth surface is less binding with concrete, so that the bonding force is increased by forming a protrusion 350 formed of an iron plate or a carbon plate on the cross section of the reinforcing carbon plate (300).

Here, the iron plate is increased in weight, but is formed of a material different from the reinforcing carbon plate 300 to further improve binding with the concrete, the carbon plate is formed in the same manner as the material of the shear reinforcement structure 320 without a separate member preparation This makes the processing process simpler.

8 is a side view of the epoxy coated reinforcement carbon plate 300 according to the present invention.

As shown in FIG. 8, the epoxy resin 360 is applied to both sides of the reinforcing carbon plate 300 of the shear reinforcing structure 320, so that the applied epoxy resin 360 plays the same role as the protrusion 350 of FIG. 6. By doing so, binding property of the shear reinforcing structure 320 and concrete is improved.

Here, the epoxy resin 360 is characterized in that the curing time is delayed compared to other adhesive resins, even if the concrete is poured after being applied to the reinforcing carbon plate 300, the adhesive strength is in contact with the reinforcing carbon plate 300 and concrete It is increased and binding property improves even after concrete hardens.

In this way, if the composition of epoxy used for surface reinforcement in construction field is changed slightly, it can be used for repairing concrete with cracks or paddles, and it is also used as adhesive for bonding concrete and aggregate with concrete for special purpose. have.

In particular, this is possible because of the development of a process for the preparation of epoxy resin formulations which, in spite of the temperature-sensitive curing agent of an amine-based curing agent, can achieve excellent bond strength in contact with hardened concrete or hardened concrete.

As seen above, the two-way shear reinforcement structure of the flat plate slab according to the present invention provides the following effects.

First, the existing carbon plate is used as a reinforcing material and a strip material, so that a separate processing step is unnecessary, thereby simplifying the production process.

Second, despite the reduction in the number of conventional reinforcement, the carbon plate is characterized by high strength and rigidity is installed to improve the shear force reinforcement,

Third, the weight of the shear reinforcing structure is reduced, which facilitates the transportation and installation of the structure,

Fourth, the protrusion formed of a carbon plate or iron plate on the reinforcing carbon plate is epoxy-bonded or epoxy resin is applied to increase the binding property with the concrete.

Claims (4)

In the flat plate structure consisting of a pillar and a slab only structure in the two-way shear reinforcement around the pillar, a plurality of structures are installed on the upper side of the slab formwork around the pillar, A plurality of flat reinforcing carbon plates disposed vertically at regular intervals; Bidirectional shear reinforcement structure of a flat plate slab, characterized in that consisting of a plurality of strip carbon plate epoxy bonded to the top and bottom of each of the reinforcing carbon plate to connect the reinforcing carbon plate for the integration of the reinforcing carbon plate. The two-way shear reinforcement structure of a flat plate slab according to claim 1, wherein the reinforcing carbon plate has a plurality of protrusions epoxy-bonded on both sides thereof to enhance binding with concrete. The two-way shear reinforcement structure of a flat plate slab according to claim 2, wherein the protrusion is formed of a carbon plate or an iron plate. The method of claim 1, wherein the reinforcing carbon plate bidirectional shear reinforcement structure of the flat plate slab, characterized in that the epoxy resin is applied to both sides to enhance the binding with concrete.

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