KR20120133871A - Support for a upper reinforcing bar of footings - Google Patents

Abstract

PURPOSE: A support structure for a reinforcing bar is provided to enable the easy arrangement of lower bars in a foundation and to improve work efficiency by uniformly maintaining the height of the support structure. CONSTITUTION: A support structure for a reinforcing bar comprises a support member(100) and a backing member(200). The top end of the support member supports an upper reinforcing bar. The backing member has a backing upper plate(210) and one or more leg members(220). The backing upper plate is fixed to the bottom end of the support member. The leg members are formed on the bottom of the backing upper plate.

Description

SUPPORT FOR A UPPER REINFORCING BAR OF FOOTINGS}

The present invention relates to a reinforcing bar supporting structure used in the foundation construction of a building, and more particularly, to secure the proof strength of the structure by securing the effective depth of the foundation while preventing the deflection of the upper reinforcing bar, the on-site workers can work safely The present invention relates to a reinforcing bar support structure.

In general, the lower part of the foundation and the upper part of the foundation are installed in the construction of the groundwork for the construction of the building.As the high-rise buildings have recently become common, the depth of the foundation of the mat is deepened. As the reinforcement amount of reinforcing bar is installed from the height of the reinforcement and the reinforcing bar is increased, it is required to install reinforcing bar at the lower part of the upper part of the foundation to prevent sagging of the upper part of the foundation and to allow workers to work safely on the upper part of the foundation. It is becoming.

Conventional reinforcing bar structure is generally using H-shaped steel as shown in Figure 1a to 1d. In case of using H-beam, after casting concrete, install the base plate and fix H-beam on it. (1a) After fixing H-shape, the lower muscle is placed on the upper part of cast concrete (1b), and the upper part of H-beam is (1c) And finally, reinforce (1d) the upper reinforcement on top of the c-beam and place the final concrete.

However, in the case of using the H-beams, in the process of installing the lower reinforcing bar is cut through the reinforcing bar reinforcement due to the pre-installed H-beams, the process of forced to weld, and the height of the H-beams is not constant There was a hassle in the process of leveling the H-beams horizontally in welding c-beams.

In addition, since a large amount of H-shaped steel is used to prevent sagging of the upper part of the foundation, there is a problem in that the foundation is expensive.

The present invention is to solve the above problems, an object of the present invention is to be installed in the upper portion of the lower base of the foundation at the same time to be able to freely reinforce the basal roots, and also to adjust the height of the reinforcement structure To provide.

Reinforcing bar support structure according to a first embodiment of the present invention for achieving the above object is formed in a predetermined length, the upper end is a support member for supporting the upper reinforcement; And a supporting member formed of at least one leg member at a lower portion of the supporting upper plate to which the lower end of the supporting member is fixed and the supporting upper plate.

At this time, the support top plate is formed of a polygon, the support member is fixed to the central portion of the upper,

At least one leg member is formed on the edge of the lower portion of the base plate.

In addition, the reinforcing bar support structure may further include a support bottom plate is fixed to the lower end of the support member in a plate shape, fixed to the support top plate.

On the other hand, the support member has an upper end of the first support for supporting the rebar; A second support having a thread formed at one end thereof and inserted into a lower end of the first support, and a second support fixed at the other end to the support upper plate; And it may include a height adjusting means for adjusting the height of the first support while rotating along the thread of the second support.

Reinforcing bar support structure according to a second embodiment of the present invention is formed in a predetermined length, the upper end supports the upper reinforcement, the lower end is a support member located in the lower reinforcement; And a supporting member forming at least one leg member at a lower portion of the supporting upper plate to form a through hole through which the supporting member penetrates.

In this case, the support member is a tube formed to a predetermined length, and may further include a through tube formed in the support member so that the support member penetrates.

In addition, the reinforcing bar support structure may be further provided with a support bottom plate is fixed to the lower end of the support member in a plate shape, fixed to the upper portion of the lower reinforcement.

On the other hand, the support member has an upper end of the first support for supporting the rebar; A second support having a thread formed at one end thereof and inserted into a lower end of the first support, and a second support having the other end positioned at a lower reinforcing bar; And it may include a height adjusting means for adjusting the height of the first support while rotating along the thread of the second support.

The foundation construction method using the reinforcing bar structure according to the third embodiment of the present invention includes a first step of reinforcing the lower reinforcing bar on the ground or discarded concrete; A second step of installing a reinforcing bar support structure between the bars formed by the lower reinforcing bars; A third step of installing a horizontal support on an upper portion of the reinforcing bar structure; And a fourth step of placing the upper reinforcement on the upper side of the horizontal support.

At this time, the step 2 is a step of installing a support member formed of the support top plate and at least one leg member installed below the support top plate between the reinforcing bars formed by the lower reinforcement; And installing a support member on an upper portion of the support member.

The reinforcing bar structure according to the present invention can facilitate the reinforcement of the lower base of the foundation, can maintain a constant height to increase the efficiency of the work, as well as to significantly reduce the unit cost of the material.

1A to 1D show a prior art.
2a to 2c are views showing a first embodiment of the reinforcing bar structure according to the present invention.
3A to 3C are views showing a second embodiment of the reinforcing bar structure according to the present invention.
4 is a view showing a height adjustment method of the reinforcing bar structure according to the present invention.
5a and 5b is a view showing the process of foundation construction using the reinforcing bar structure according to the present invention.
6 is a state diagram in which the supporting member according to the first embodiment of the present invention is installed in the lower reinforcing bar.
7 is a state diagram in which the supporting member according to the second embodiment of the present invention is installed in the lower reinforcing bar.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art.

2a to 2c are views showing a first embodiment of the reinforcing bar structure according to the present invention.

As shown, the reinforcing bar structure according to the present invention includes a support member 100 and the support member 200.

The support member 100 is formed to a predetermined length, and the upper end supports the upper reinforcing bar. The support member 200 includes a support upper plate 210 to which the lower end of the support member 100 is fixed and at least one leg member 220 under the support upper plate 210.

Specifically, the support member 100 may be formed of a pipe, in particular a steel pipe pipe may be used. The reinforcing structure according to the present invention can be used by recycling the already used steel pipe pipe as well as the ready-made steel pipe in that it is buried by concrete pouring during the foundation construction of the building.

On the other hand, the support member 100 may include a first support 110, a second support 120 and the height adjusting means 130.

The first support 110 has an upper end supporting the upper reinforcing bar, the second support 120 has a screw thread formed at one end thereof, and is inserted into the lower end of the first support 110, and the other end is supported by the upper plate 210. Is fixed to. In addition, the height adjustment means 130 adjusts the height of the first support 110 while rotating along the thread of the second support (120).

Here, the first support 110 and the second support 120 may be composed of a steel pipe pipe, one end of the second support 120 is formed with a screw thread along the outer circumferential surface, the height adjusting means 130 is rotated The height of the first support 110 is adjusted while moving up and down along the thread.

By adjusting the height of the first support 110, there is an effect that the height of the support member 100 can be constantly adjusted to install the horizontal support before placing the upper reinforcement.

The support member 100 may further include a support bottom plate 140 to be coupled to and fixed to the support top plate 210 of the support member 200. That is, the support member 100 and the support upper plate 210 may be integrally coupled by a welding method or the like, and may be coupled using the support bottom plate 140.

The support bottom plate 140 and the bottom top plate 210 may be fixed by bolt nut coupling.

Support member 200 may be composed of a support upper plate 210 and the leg member (220). Supporting upper plate 210 and the leg member 220 can be combined integrally, as well as can be coupled in a variety of ways, such as screw coupling.

Base plate 210 may be composed of a polygonal plate.

Leg member 220 is fixed to the lower surface of the base plate 210, may be provided with at least one. In FIG. 2A, four leg members 220 are shown along the edge of the lower surface of the upper support plate 210, but the present invention is not limited thereto and may be installed in various numbers and positions.

The leg member 220 of the supporting member 200 is positioned between the lower reinforcing bars on the upper portion of the discarded concrete layer as shown in FIG. 2C. Therefore, the process of cutting the lower reinforcing bar 10 due to the reinforcing bar structure does not require a process such as welding.

In order to be firmly fixed in the state where the leg member 220 is located between the lower reinforcing bars, the lower reinforcing bar 10 and the leg member 220 may be fixed using iron wires (not shown). Of course, the fixing of the leg member 220 and the lower reinforcement 10 in addition to the steel wire can be implemented in various ways.

3A to 3C are views showing a second embodiment of the reinforcing bar structure according to the present invention.

As shown, the reinforcing bar structure according to the second embodiment includes a supporting member 100 and a supporting member 200, as in the first embodiment described above. Here, except for the description overlapping with the first embodiment, only the technical features of the second embodiment will be described.

Reinforcing bar support structure according to the second embodiment is composed of a support member 100 and the support member 200, the support member 100 is formed of a predetermined length, the upper end to support the upper reinforcement, the lower end of the lower reinforcement Located in the support member 200 includes a support upper plate 210 and at least one leg member 220 below the support upper plate 210 to form a through hole through which the support member 100 passes.

Unlike the first embodiment, the support member 100 has a structure that passes through the through-hole formed in the support member 200. Specifically, the support member 100 is composed of a first support 110, a second support 120 and the height adjusting means 130, the first support 110 is formed so that the upper end supports the reinforcement, The second support 120 has a thread formed at one end thereof and is inserted into the lower end of the first support, and the other end is positioned at the lower reinforcing bar. In addition, the height adjustment means 130 adjusts the height of the first support 110 while rotating along the thread of the second support (120).

The support member 200 may further include a through tube 211 that guides the support member 100, in particular, the second support 120, while forming a through hole. The through tube 211 is formed of a tube having a predetermined length while including the through hole, and performs a function of preventing the shaking of the support member 100.

In particular, the reinforcing bar supporting structure according to the second embodiment is located in the lower reinforcing bar 10, the lower end of the support member 100 is disposed on the top of the discarded concrete layer 1, as shown in FIG. At this time, the lower reinforcing bar 10 and the support member 100 may be fixed by welding or the like.

On the other hand, the support bottom plate 140 is formed on the lower end of the support member 100, the plate-shaped support bottom plate 140 may be fixed while being located in the lower reinforcing bar (10).

Reinforcing member structure is the leg member 220 of the supporting member 200 is located between the lower reinforcing bars 10, the lower end of the support member 100 or the support bottom plate 140 can be fixed to the upper position of the lower reinforcement have. In this case, as described above, the leg member 220 and the lower reinforcing bar 10 may be fixed using an iron wire or the like.

4 is a view showing a height adjustment method of the reinforcing bar structure according to the present invention.

In order to support the rebar supporting structure while preventing the deflection of the upper reinforcing, as shown in FIG. Since the horizontal support is installed in a constant direction, height adjustment is necessary when the heights of the plurality of reinforcing structures are not constant.

As shown, the height adjusting means 130 adjusts the height of the first support 110 while rotating between the first support 110 and the second support 120.

Specifically, the lower end of the first support 110 is at least open and is configured in such a manner that the male screw portion formed at the upper end of the second support 120 may be inserted. More preferably, it is comprised in tubular shape and the existing steel pipe pipe can be used.

The second support 120 has a male screw portion formed with a thread along the outer circumferential surface at an upper end thereof.

Therefore, the height adjusting means 130 may include a female thread portion of the thread corresponding to the screw thread on the inner circumferential surface, and may move up and down along the screw thread by rotation. In addition, it may be further provided with a handle of the protruding form for height adjustment.

On the other hand, the upper end of the support member 100 may be provided with a support plate 170 so that the horizontal support located in the lower portion of the upper rebar can be installed.

In addition, when the support member 100 is formed of a pipe such as a steel pipe pipe, it may be provided with a concrete pouring groove 160 so that concrete can be poured therein.

The support plate 170 may be provided in a form of being welded to the upper surface, and the concrete pouring groove 160 may be formed in at least one or more sides of the upper surface as well as grooves of various shapes.

5a and 5b is a view showing the process of foundation construction using the reinforcing bar structure according to the present invention.

As shown, the basic construction method using the reinforcing structure is a first step (Figure 5a), the reinforcement formed by the lower reinforcing bar 10 to reinforce the lower reinforcement 10 on the ground or discarded concrete layer (1) The second step (Fig. 5b, 5c) of installing the reinforcing bar support structure therebetween, the third step (Fig. 5d) of installing the horizontal support on top of the reinforcing bar support structure and the upper bar 400 on the horizontal support 300 Including a fourth step (Fig. 5e) to go back.

At this time, the second step of installing the reinforcing bar support structure is a step of installing the supporting member formed of the upper plate and the at least one leg member installed on the lower portion of the upper plate between the bars formed by the lower reinforcing bar (Fig. 5b) ; And it can be divided into the step of installing the support member on the upper portion of the support member (Fig. 5c).

Specifically, FIG. 5A illustrates a process of reinforcing the lower reinforcing bar 10 on the discarded concrete layer 1, and the discarded concrete layer 1 does not further include a separate process for the reinforcing structure. Therefore, the discarded concrete layer 1 is formed in the upper part of the ground, and the lower reinforcing bar is placed on the upper part.

Figure 5b is a process of installing the supporting member first of the reinforcing bar supporting structure, after the lower reinforcing bar 10 is reinforced, the supporting member 200 consisting of the upper support plate 210 and the leg member 220, the lower reinforcing bar 10 Install on. At this time, the leg member 220 is positioned in the empty space formed between the reinforcing bar, the lower reinforcing bar 10 and the leg member 220 may be fixedly coupled by a method such as iron wire or welding.

5c illustrates a process of installing the support member 100 in the support member 200. When the supporting member 200 and the supporting member 100 are integrally combined, FIGS. 5B and 5C may be formed in one process without being separated.

In the case of the first embodiment, the support bottom plate 140 formed on the lower end of the support member 100 and the support upper plate 210 of the support member 200 can be fixed by bolt nut coupling.

On the other hand, in the second embodiment the lower end of the support member 100 or the support bottom plate 140 through the through-hole and through tube formed in the upper plate 210 supporting the support member 100 to the lower reinforcement 10 Can be located. In this case, in the case of the second embodiment, it may be installed in a state where the support member 100 penetrates the support member 200.

5d illustrates a process of installing the horizontal support member 300 on the upper portion of the reinforcing structure. The horizontal support 300 is formed in a constant length direction at regular intervals. In order to install the horizontal support 300, the height of the reinforcing support structure should be constant, so that the height of each reinforcing support structure can be constantly adjusted using the height adjusting means.

The horizontal support 300 may be integrally formed on the reinforcing structure by welding or the like.

On the other hand, the horizontal support 300 may be used c steel.

5E illustrates a process of placing the upper reinforcement on the upper side of the horizontal support 300. The reinforcement of the upper reinforcing bar may be made by a conventional method.

On the other hand, in order to strengthen the coupling between the reinforcing bar structures can be connected by connecting between adjacent reinforcing bar structures using a pipe clamp.

6 and 7 are state diagrams in which the supporting members according to the first and second embodiments of the present invention are installed on the lower reinforcing bars.

As shown, the supporting member according to the first embodiment is located between the reinforcing bar of the lower reinforcing leg member, the supporting member according to the second embodiment of the leg member is located between the reinforcing bars of the lower reinforcing , The support base plate is located on the upper part of the lower reinforcing bar.

Although not shown, the leg member of the support member may be fixedly coupled using a lower reinforcing bar and iron wire.

The invention is not to be limited by the foregoing embodiments and the accompanying drawings, but should be construed by the appended claims. In addition, it will be apparent to those skilled in the art that various forms of substitution, modification, and alteration are possible within the scope of the present invention without departing from the technical spirit of the present invention.

1: discarded concrete layer 10: lower reinforcing bar
100: support member 110: first support
120: second support 130: height adjustment means
140: support bottom plate 170: support plate
160: concrete pouring groove 200: support member
210: base plate 220: leg member
300: horizontal support 400: upper reinforcing bar

Claims (10)

A support member having a predetermined length and having an upper end supporting the upper reinforcing bar;
Reinforcing bar structure comprising a support top plate is fixed to the lower end of the support member and a support member formed at least one leg member in the lower portion of the support top plate.
The method of claim 1,
The support top plate is formed of a polygon, the support member is fixed to the central portion of the upper,
Reinforcing bar supporting structure, characterized in that the at least one leg member is formed at the edge of the lower portion of the base plate.
The method of claim 2,
And a support bottom plate fixed to the lower end of the support member in a plate shape and fixed to the support top plate.
According to any one of claims 1 to 3, wherein the support member
A first support having an upper end supporting the rebar;
A second support having a thread formed at one end thereof and inserted into a lower end of the first support, and a second support fixed at the other end to the support upper plate; And
Reinforcing bar structure comprising a height adjusting means for adjusting the height of the first support while rotating along the thread of the second support.
A support member formed to a predetermined length, the upper end supporting the upper reinforcing bar, and the lower end being located in the lower reinforcing bar;
Reinforcing bar supporting structure comprising a support top for forming a through hole through which the support member penetrates and a support member for forming at least one leg member in the lower portion of the support top plate.
The method of claim 5, wherein the support member
Reinforcing bar support structure characterized in that it further comprises a through tube formed in the support member so that the support member penetrates the tube formed in a predetermined length.
The method according to claim 6,
Reinforcing bar supporting structure characterized in that it has a support bottom plate fixed to the lower end of the support member in a plate shape, which is fixed to the upper portion of the lower rebar.
The method of claim 5, wherein the support member
A first support having an upper end supporting the rebar;
A second support having a thread formed at one end thereof and inserted into a lower end of the first support, and a second support having the other end positioned at a lower reinforcing bar; And
Reinforcing bar structure comprising a height adjusting means for adjusting the height of the first support while rotating along the thread of the second support.
A first step of placing the lower reinforcing bar on the ground or discarded concrete layer;
A second step of installing a reinforcing bar support structure between the bars formed by the lower reinforcing bars;
A third step of installing a horizontal support on an upper portion of the reinforcing bar structure; And
Foundation construction method using a reinforcing bar supporting structure comprising a fourth step of reinforcing the upper reinforcing bar on the horizontal support.
The method of claim 9, wherein the second step
Installing a supporting member formed of a supporting upper plate and at least one leg member disposed below the supporting upper plate between the reinforcing bars formed by the lower reinforcing bars; And
Basic construction method using a reinforcing bar support structure comprising the step of installing a support member on the top of the support member.

Images