KR20050021611A - Apparatus for enhancing shear strength of column slab connection part and structure thereof using the same - Google Patents

Abstract

PURPOSE: A shear reinforcing system for a joint between a column and a slab is provided to reduce the whole weight by manufacturing using small-diameter bars, to obtain the excellent shear reinforcing effect using structural specificity, to manufacture and construct easily with simple structure and to function as a spacer for keeping an interval between upper and lower bars of a slab. CONSTITUTION: The shear reinforcing system installed on a joint between a column and a slab of a reinforced concrete structure to increase the resistance against shear failure contains: one or more upper anchorages(10) where thin and long bars are installed horizontally; one or more lower anchorages(20) arranged in parallel with the upper anchorages(10); and an intermediate shear member(30) placed longitudinally between the upper anchorage(10) and the lower anchorage(20) to have a vertical unit(32) and an inclined unit(34) repeatedly.

Description

Shear reinforcement for joints between column slabs and shear reinforcement structure using the same

The present invention relates to a shear reinforcement that is installed at the site where the column and the slab are joined to increase the resistance to shear failure, and more particularly, to the slab around the column at the junction of the reinforced concrete column and the slab. A shear reinforcement is used for the purpose of retarding two-way shear failure that is likely to occur and to increase the deformation performance of the joint.

In general, reinforced concrete structures composed of several layers are installed at predetermined positions between the slab and the slab which provide a constant area while forming the floor of each layer to support the slab and to use the self-weight of the building and the working load generated in each floor. It is a general form to include a pillar member for transmitting to the foundation. In the reinforced concrete structure, the shear head acts between the slab along the periphery of the column, which is the joint where the slab and the column member meet, and the shear force is insufficient when the strength for this part is insufficient. There is a risk of destruction. Especially in the flat plate structure in which the slab is directly supported by the column without installing girders or beams, unlike the beam-column joint, the column-slab joint generates excessive stress concentration around the column, which causes the slab to As shown, it causes two-way shear failure (punching shear failure) to form an inverted trapezoidal surface. This type of shear failure is very brittle, unlike other types of failure, and is extremely critical for the safety of slab-column joints. In designing the structure, special attention should be paid to this area to ensure that shear failure does not occur. It must be taken.

In the reinforced concrete structure, as a method for increasing the shear strength by reinforcing the column-slab joint, a method of installing a drop panel and a capital around the column is commonly used. However, the shear stress can be reduced through the enlargement of the cross section by installing the fingerboard or the headboard as described above. There is a problem that it is uneconomical because the floor height is increased for the installation of the appliance. Therefore, in the related art, a method of increasing shear strength by installing a reinforcing means such as a separate shear reinforcement on a joint is developed as a method for reinforcing the shear performance of a column-slab joint. stirrup), a method of installing a shear head, and a method of installing a shear stud are representatively mentioned.

Among these, the method using the stub is currently the most widely used method in the construction site, as shown in Figure 2 (a) stub (strap rebar) to the upper and lower slab reinforcing bar disposed across the column-slab joint This is a way to reinforce the shear strength. At this time, the stirrup is generally used to be processed in the factory or on the site of the D10 deformed reinforcing bar, this method is to use a conventional reinforcing material construction, it is necessary to provide a separate material for the configuration of the shear reinforcement As there is no bar, the supply and demand of materials is simple and economical compared to other methods. On the other hand, this method has the disadvantage that it is difficult to properly maintain the thickness of the slab because the stub used is formed around the outer periphery of the slab reinforcement. There is a problem that the reduction in the bending resistance capacity of the slab is bound to be reduced. Therefore, this method is difficult to apply to a thin slab, it is pointed out that the construction process is relatively poor because the number of processes in the field is increased by binding a plurality of stubble.

In addition, the method of installing the shear head is as shown in Figure 2 (b) by connecting the H-shaped steel or the channel longitudinally and horizontally to configure the shear reinforcement in the shape of a bead and the shear force by installing it in the junction of the column and the slab It is a way to share the history of However, this method requires more steel than necessary according to the use of the section steel, increases the self-weight of the building, and the slab and column reinforcement can be disconnected by the installed shear reinforcement. At the time of pouring, there is a drawback that careful attention is required to make a secure filling.

In addition, the method of installing the shear stud (stud) is a shear reinforcement by assembling a plurality of stud bolts welded on top of the flat iron plate processed in the form of a strip (strip) as shown in Figure 2 (c) It is configured to strengthen the shear strength by constructing and installing it at the site where the column and the slab are joined. However, in this case, the shear reinforcement effect is mainly promoted by vertically placed stud bolts. In general, the vertical reinforcement has a weaker shear resistance effect than the slope reinforcement. Since welding work for a plurality of stud bolts is required, there is a problem in that the manufacturing hassle.

The present invention has been made in view of the problems with the prior art as described above, the present invention is relatively small in the shear reinforcement is installed for the purpose of increasing the shear capacity for the joint between the column and the slab in the reinforced concrete structure By using the bar of diameter, the overall weight is reduced, but the outstanding structural properties can be obtained due to its structural characteristics, and it is easy to manufacture because of its simple shape. The technical problem is to provide a shear reinforcement and a shear reinforcement structure using the same as a spacer for maintaining the spacing of the main root.

As a means for achieving the above technical problem, the configuration of the present invention is a shear reinforcement is installed in the site where the pillar and the slab of the structure is joined to increase the resistance to shear failure, elongated bar (捧Iii) at least one stationary fixing member formed horizontally; At least one lower string fixing member disposed side by side with the upper fixing member at a predetermined interval; And an intermediate shear member fixedly installed along the longitudinal direction between the upper and lower fixing members, and having a vertical portion and an inclined portion alternately appearing alternately. It is done.

As described above, the present invention basically combines thin and long rods such as reinforcing bars or steel wires to reduce the overall weight and facilitate handling and construction, as well as the upper and lower positions arranged in parallel at predetermined intervals. By placing an intermediate shear member between the fixing member and the lower fixing member, the intermediate shear member is formed to be inclined to effectively resist the tensile force acting in the diagonal direction on the concrete of the site according to the shear force acting on the joint of the column member and the slab. It is implemented to maximize the reinforcing effect. Furthermore, the present invention is not only adversely affecting the coating thickness of the slab reinforcing bar by being disposed between the upper and lower cast iron of the slab in installation, and can also serve as a spacer for maintaining the proper spacing between the upper and lower cast iron. As such, the technical objects sought by the present invention described above can be achieved by the configuration of the present invention.

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

Figure 3 is a view showing the configuration of a preferred embodiment according to the present invention, referring to the drawing, the shear reinforcement of the present invention is a staple fixing member 10 installed in the horizontal direction of the elongated bar basically; A lower port fixing member 20 disposed side by side with the upper fixing member 10 at a predetermined interval; It can be seen that the schematic configuration, including the intermediate shear member 30 disposed between the upper fixing member 10 and the lower fixing member 20.

First, the upper and lower fixing member 10 and the lower fixing member 20 are manufactured using a thin and long rod, they are arranged parallel to each other at a predetermined interval so that the overall outer portion of the shear reinforcement (1) according to the present invention Form. In the present invention, the bar material may be preferably used a wire or ordinary deformed reinforcing bar, especially in the case of the deformed reinforcing bar and ribs are formed on the outer periphery bar to use it can exert a resistance in a firmly fixed state in concrete desirable. The spaced apart intervals of the upper and lower string fixing members 10 and 20 are equal to the interval between the upper and lower slabs of the slab, and the shear reinforcement of the present invention is installed between the upper and lower cast irons. It serves as a spacer to maintain a constant interval of. In addition, the diameter of the rod used in the upper and lower fixing members 10, 20 is appropriate to use an iron wire or reinforcing bar of about 4 ~ 10mm in consideration of the overall weight and strength.

Here, the upper fixing member 10 and the lower fixing member 20 may be formed of one or two or more bar materials. Preferably, the upper fixing member 10 may include one upper fixing member 10 as shown in FIG. , The lower port fixing material 20 is to be composed of two bars. That is, when the upper and lower string fixing materials 10 and 20 are each one, the material cost can be saved, but it is difficult to maintain a stable posture during installation, which requires cumbersome additional work such as separately binding to the slab rebar. If the construction efficiency is lowered, and if the upper and lower, respectively composed of two or more rods, the reinforcement ability can be increased, but it is difficult to manufacture and there is a disadvantage that the overall volume increases. At this time, as shown in the drawing, one upper and lower fixing member 10 and two lower fixing member 20 are formed to have a triangular cross-sectional shape as a whole. In terms of structure, two intermediate shear members 30 exhibit reinforcement, so that a more reliable reinforcement effect can be achieved. Such a form can be said to be the most efficient configuration form.

An intermediate shear member 30 is fixedly installed along the longitudinal direction between the upper and lower fixing members 10 and the lower fixing member 20. The intermediate shear member 30 is configured to alternately appear vertical portion 32 and the inclined portion 34 by using a small diameter wire or rebar, as shown in Figure 3 for the material used The same thing as the case of the upper and lower fixing materials can be used, and repeated description thereof will be omitted.

The intermediate shear member 30 is a structurally essential component that enhances the deformation ability of the entire joint by exerting resistance to shear forces acting on the joint between the pillar and the slab, and the inclined portion 34 installed to be inclined in an oblique direction in particular. Will mainly bear resistance. At this time, the inclined inclination angle of the inclined portion 34 is preferably in the range of approximately 35 ° to 75 °. On the other hand, the vertical portion 32 and the inclined portion 34 may be configured by using separate separate bars, but it is more preferable in terms of structure or ease of production to use one bar continuously by bending. In this case, the coupling between the intermediate shear member 30 and the upper and lower anchor fixing members 10 and 20 is suitable for welding.

Installation of the shear reinforcement according to the present invention made of the configuration as described above can be seen in Figure 4 showing a structure that reinforces the joint between the column and the slab using the shear reinforcement of the present invention, the longitudinal direction is Facing the column (C) but to place a plurality around the column (C) to effectively resist the cracks and shear failure that may occur in this area. At this time, in the installation of the shear reinforcement (1) of the intermediate shear member 30 in order to ensure effective reinforcement can be achieved by passing the anticipated crack line around the pillar (C) across the intermediate shear member (30) The inclination direction should be installed so as to be inclined downward away from the pillar (C). In the illustrated example, in order to arrange a plurality of shear reinforcement (1) is arranged to form a cross-shaped plane around the column (C), but in addition to this form, such that the longitudinal direction radially disposed toward the center of the column, etc. Will be possible.

Hereinafter, the operation of the present invention configured as described above in more detail.

As shown in FIG. 3, the shear reinforcement 1 of the present invention has a vertical portion 32 and an inclined portion between the upper and lower fixing members 10 and the lower fixing member 20 having the overall configuration arranged in parallel. 34) is composed of intermediate shear material 30 repeatedly formed, which is installed in the column-slab joint of reinforced concrete structure so as to directly resist shear failure due to shear force acting on the joint. .

Here, the shear force of the column-slab joint is mainly caused to be resisted by the intermediate shear member 30. As described above, the intermediate shear member 30 has the vertical portion 32 and the inclined portion 34 continuously. It is to be continued to appear, due to such a configuration, the shear reinforcement (1) of the present invention can maximize the resistance to the shear force of the joint.

Referring to this in more detail with reference to Figure 4, in the case of the joint concrete bonded to the slab (S) subjected to the load and the column (C) supporting it, the shear force in the vertical direction and the horizontal stress according to the bending load Due to this, the tensile force acts in the diagonal direction. As is known, concrete is particularly a material exhibiting fragility in tensile force, so that the fracture pattern also appears in the diagonal direction from the top of the column perpendicular to the tensile force direction. On the other hand, in the case of the present invention, the inclined portion 34 continuously appears along the longitudinal direction, and due to such a configuration, the crack penetrating the concrete must pass at least one of the inclined portions 34 at least. At this time, the inclined portion 34 formed to be inclined in an oblique direction effectively bears the tensile force acting on the concrete, so that the shear reinforcement effect of the present invention can be surely exhibited.

Furthermore, from the aspect of manufacturing and construction, the present invention is to produce a truss-like shape using the bar as a whole, and thus, to produce a lightweight shear reinforcement material at an extremely low cost as compared to the case of using steel or stud bolts of the prior art. In the case of concrete pouring, the concrete is smoothly filled between the rods, so that it does not interfere with the construction. In addition, the shear reinforcement of the present invention is inserted between the slab upper and lower reinforcing bars to serve as a spacer. It is effective to maintain slab flexural rigidity by maintaining reinforcement spacing.

According to the present invention described in detail above can be obtained by using a relatively small diameter bar, while the overall weight is reduced, but excellent shear reinforcement effect can be obtained due to its structural characteristics, made of a simple form, easy to manufacture, construction surface In addition, it is possible to obtain the effect of providing a shear reinforcement that can serve as a spacer for maintaining the spacing of the upper and lower slabs as well as easy construction.

1 is a view showing the behavior of shear failure occurring at the joint between the column slab.

FIG. 2 is a plan view and an elevation view of the structure of the shear reinforcement used in the related art.

Figure 3 is a perspective view and an elevation and a side view showing the configuration of a preferred embodiment of a shear reinforcement according to the present invention.

Figure 4 is a perspective view showing a structure reinforcing the joint between the column and the slab using a shear reinforcement according to the present invention.

5 is a view showing a dynamic representation of the stress acting on the shear reinforcement according to the present invention.

Explanation of symbols on the main parts of the drawings

1: shear reinforcement according to the present invention

10: Sanghyeon Fixture 20: Hahyeon Fixture

30: intermediate shear 32: vertical

34: slope

Claims (4)

Shear reinforcement is installed at the site where the column and slab of the reinforced concrete structure are joined to increase the resistance to shear failure. At least one stationary fixing member formed by horizontally installing an elongated bar; and At least one lower string fixing member disposed side by side with the upper fixing member at a predetermined interval; And, An intermediate shear member fixedly installed along the longitudinal direction between the upper and lower fixing members, the vertical shearing portion and the inclined portion alternately appearing alternately; Column slab joint shear reinforcement comprising a. 2. The shear reinforcement between the column slab joints according to claim 1, wherein the upper fixing member is made of one bar and the lower fixing member is made of two bars. [3] The shear reinforcing member between post slab joints according to claim 1 or 2, wherein the top fixing member, the lower fixing member and the intermediate shear member are made of reinforcing bars or steel wires. In the joint structure in which the column and the slab of the reinforced concrete structure are joined, A plurality of shear reinforcement body according to any one of claims 1 to 3 are arranged around the column with its longitudinal direction facing the column, Shear reinforcement structure using the shear reinforcement between the joint slab between the column slab is installed so that the intermediate shear material of the shear reinforcement is inclined downward as the inclination direction is away from the column