KR100608510B1 - An assembling unit having cap in concrete pile - Google Patents

Abstract

The present invention is composed of a cap and a cap support, the cap is formed with a connecting reinforcing bar fixed portion is formed on the edge of the contact wing is formed in the section and the cap support is formed of a vertical support, a horizontal support and a cross support The connecting rebar spacer has a connecting reinforcing rod insertion portion formed at a position corresponding to the connecting reinforcing rod fixing portion, the connecting reinforcing rod inserting portion is integrally formed with the spacing retaining portion, and the connecting reinforcing rod support is formed integrally with the spacing holding portion. Characterized in the concrete pile cap assembly.

Concrete Pile Cap Assembly, Cap Supports, Rebar Spacers

Description

An assembling unit having cap in concrete pile}

1A is a perspective view of the present invention concrete pile cap assembly

1B is a perspective view of another embodiment of the present invention concrete pile cap assembly

Explanatory drawing for demonstrating the cap support part of this invention.

Figure 2b A-A cross section of Figure 2a

Figure 3 is a cross-sectional view showing the shape of the connecting rod fixing portion of the cap of the present invention

The present invention relates to a concrete pile cap assembly.

Concrete pile is a structure used to reinforce the foundation ground in a hollow shape. Typically, the superstructure is built on the foundation ground. If the upper structure is enlarged, such as apartments, shopping malls, high-rise buildings, the foundation will not support it, so the concrete pile is embedded in the foundation to reinforce the foundation.

Reinforcement of foundation ground is made by concrete pile, but it can be said that reinforcement is completed by placing concrete slab on it.

This is because the superstructure is constructed on concrete slabs formed on concrete piles.

Concrete slabs should have the same horizontal level. Therefore, the height of the concrete pile embedded in the ground should be the same. When the actual concrete pile is installed on the foundation ground, their heights are different. In order to place concrete slabs on concrete piles of different heights, the height of the concrete piles must be cut to the same height. As a means of cutting, cutting means such as a diamond blade is usually used.

This does not mean that concrete foundation slabs can be constructed just by the same height. Since the upper structure is supported by the concrete slab, and the concrete pile supports the concrete slab, the concrete pile and the concrete slab must be integrated.

To this end, conventionally, the reinforcing bar in the concrete pile was extracted and integrated with the concrete slab. In order to extract the reinforcing bar in the concrete pile, the concrete of the upper part of the concrete pile was crushed with a hammer or the like. In this process, the impact is applied not only to the upper end of the concrete pile but also to the remaining part, so that a crack occurs in the longitudinal direction. Longitudinal cracks in the concrete pile mean that the weakening of the ground bearing capacity that the concrete pile should be responsible for. For ground reinforcement designed to be an intact concrete pile count without cracks, this longitudinal cracking creates a problem for the bearing capacity for supporting the upper structure.

In order to solve the above problems, the present invention uses a separate connecting reinforcing bar using a hollow part of the concrete pile without crushing the upper end of the concrete pile 200 with a hammer or the like while keeping the height of the concrete pile the same. The purpose is to integrate the concrete pile and the concrete slab through the media. Another purpose is to make the cap responsible for the weight of the concrete mortar and the connecting reinforcing bar, and again the cap support.

Another purpose is to make a cap assembly that does not require welding, and another purpose is that the rebar inserted into the rebar spacer can be inserted in the horizontal direction.

Still another object is to allow the rebar inserted into the rebar spacer to be inserted in the horizontal direction, thereby facilitating the assembly of the rebar.

The concrete pile has a hollow central shape. Insert a separate connecting reinforcing bar into the hollow portion of the concrete pile 200 and fill the concrete mortar to integrate the connecting reinforcing bars and the concrete pile. In this case, the depth of the connecting reinforcing bar inserted into the hollow part is about 30 cm and protrudes about 40 cm above the upper end of the concrete pile.

The connecting bar protruding above the upper end of the concrete pile 200 is used to integrate with the concrete slab. In this way, the connecting bar serves as an intermediate medium between the concrete pile and the concrete slab.

However, since the hollow part of the concrete pile is penetrated in the longitudinal direction, it is necessary to configure the cap assembly for filling the concrete mortar or to allow the inserted connecting bar to be in position.

The cap assembly of the present invention satisfies the following three requirements.

First, the rebar is easy and easy structure.

Second, the cap is supported by the concrete mortar and the inserted rebar.

Third, the cap is supported by a support that spans the top of the concrete pile.

The cap assembly that satisfies the above three requirements is formed of a connecting rebar, a cap, a cap support, and a connecting rebar spacer.

The cap assembly is inserted into the hollow part of the concrete pile 200 and is mounted on the upper end thereof. The simple and easy structure of connecting rebar is the structure of the connecting rebar spacer. The reinforcing bar was inserted in the transverse direction, not in the longitudinal direction of the reinforcing bar spacer.

The cap was installed at the bottom of the hollow part of the concrete pile. In addition to preventing concrete mortar from leaking into the hollow part, it also serves to support connecting bars.

The cap support portion is a member that supports the weight of the concrete mortar and the weight of the connecting rebar supported by the cap. This weight is approximately 30 kg or more. In addition to this, when the concrete injection pressure is added, it is almost 80-90 kg. The cap support was intended to support this weight. The cap support is supported with the upper end of the concrete pile wrapped.

In more detail, the cap rim is provided with a close wing and connecting rod fixing part. The close wing part is to facilitate the insertion of the cap in the hollow while preventing the concrete mortar from leaking to the lower part of the hollow part. The connecting bar fixing part forms the connecting bar slip prevention piece while the lower diameter of the connecting bar fixing part is smaller than the diameter of the reinforcing bar, and the upper diameter of the connecting steel fixing part is larger than the lower diameter so that the connecting bar does not fall out while the connecting bar penetrates the cap. It was.

The material of the cap is synthetic resin and the lower diameter of the rebar fixing part is smaller than the diameter of the connecting bar.

Once the connecting bar is inserted into the connecting bar fixing part, the cap is not separated from the connecting bar so it is easy to handle.

The fastening of the cap support to the cap does not matter in any way. The easiest thing is to fasten the cap support and the close wing.

The cap support spans the top of the concrete pile and supports the load on the cap.

The rebar spacer was positioned at the top and formed a rebar insert. The connecting bar insert was formed to insert the connecting bar in the horizontal direction.

The connecting rebar spacer was supported by the connecting rebar spacer support.

When the cap assembly thus formed is inserted into the hollow portion of the concrete pile and the concrete mortar is filled into the hollow portion, the connecting bar and the concrete pile are integrated.

The connecting bar protruding from the top of the concrete pile serves as a medium for integrating the concrete pile and the concrete slab.

In this regard, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

Cap support portion 120 and the cap 160 to support the weight of the connection reinforcement 170 and the weight of the concrete mortar, and the connecting reinforcement 170 is installed on the cap 160 is connected to the upper reinforcement spacer ( 140) into place.

The cap 160 is provided with a connecting reinforcing bar fixing portion 162, and the edge surface is formed with a close wing portion 161 in a state of being cut.

The vertical support part 121 of the cap support part 120 and the support piece 163 of the cap 160 are fastened by the fastening bolt 124.

The cap support part 120 is formed of a vertical support part 121, a horizontal support part 122, and a crimping support part 123, and reinforces the horizontal support part 122 and the crimping support part 123 in the case of synthetic resin injection. In order to bury the reinforcing iron plate 126 in a synthetic resin. In addition, the support groove 125 is formed in the horizontal support portion 122. The connecting reinforcing spacer spacer 143 integrally formed with the connecting reinforcing spacer 140 is inserted into the supporting groove 125 to support the connecting reinforcing spacer 140 in place.

The connecting rebar spacer 140 is formed with a connecting reinforcing bar inserting portion 142 at a position corresponding to the connecting reinforcing bar fixing portion 162, and the connecting reinforcing bar inserting portion 142 is formed integrally with the space maintaining part 141. The spacer 141 and the connecting rebar spacer support 143 are integrally formed.

One side of the connection reinforcing bar insertion portion 142 may be horizontally inserted so that the connection reinforcing bar 170 may be inserted, and the direction thereof may be directed toward the center of the connection reinforcing spacer 140 or toward the outer circumferential surface of the hexagon.

The connection reinforcing bar fixing portion 162 is in the shape of ordinary light and the bottom is connected to the reinforcing bar slip prevention piece 164 is formed therein, the connecting reinforcing bar tightening portion 165 is formed at the bottom. The diameter of the connecting reinforcing bar slip prevention piece 164 and the connecting reinforcing bar fastener 165 is formed to be slightly smaller than the diameter of the connecting reinforcing bar 170.

The material of the present invention may be steel or synthetic resin, but synthetic resin is more preferable because it is economical and lightweight, and no welding is required.

Referring to the effects of the present invention configured as described above are as follows.

The cap assembly is formed by the mechanism that the cap is responsible for the weight of concrete mortar and the connecting reinforcement, and this is the cap supporting part. Therefore, this assembly does not require welding and there is no deterioration caused by welding. Rather, the connecting rebar is inserted into the connecting spacer spacer in the horizontal direction.

The reinforcing bar insertion portion of the connecting rebar spacer is formed by the insertion opening so that the connecting bar is inserted in the horizontal direction is easy and easy to insert the rebar in the field.

Since the lower diameter of the connecting reinforcing bar is smaller than the diameter of the reinforcing bar and the connecting reinforcing bar slip is formed on the upper part, the connecting reinforcing bar is prevented from slipping downward or slipping downward.

In addition, since the lower diameter of the connection reinforcing bar is smaller than the diameter of the reinforcing bar and made of synthetic resin, it is necessary to apply a strong force to the connecting reinforcing bar so that once the connecting reinforcing bar is inserted, it is easy to carry and handle.

Claims (5)

Cap 160 and the cap support 120, the connection between the cap 160 and the cap support 120 is the lower end of the vertical support 121 of the cap support 120 and the support piece of the cap 160 163 is connected by a fastening bolt 124, the cap 160 is formed with a connecting reinforcing bar fixed portion 162, the edge is formed in a close contact wing portion 161 is formed of a cap support ( 120 is formed of a vertical support portion 121, and a horizontal support portion 122, and the latching support portion 123, the connecting reinforcing spacer 140 in the position corresponding to the connecting reinforcing rod fixing portion 162 inserted A portion 142 is formed, the connecting reinforcing bar insertion portion 142 is formed integrally with the spacing holding unit 141, while the connecting reinforcing spacer support 143 is formed integrally with the spacing holding unit 141 Concrete pile cap assembly, characterized in that configured to be mounted on the horizontal support 122 of the cap support 120 The concrete pile cap assembly according to claim 1, wherein the reinforcing bar 126 is embedded in the horizontal support part 122 of the cap support part 120 and the latching support part 123. The concrete pile cap assembly according to claim 1 or 2, wherein the connecting reinforcing spacer 140 has a hexagonal shape and the connecting reinforcing rod insertion part 142 faces the outer circumferential surface of the hexagon. According to claim 1 or 2, the connecting reinforcing bar fixed portion 162, the connecting reinforcing bar slip prevention piece 164 and the connecting reinforcing bar fastener 165 is formed and is formed slightly smaller than the diameter of the connecting reinforcing bar 170 Concrete pile cap assembly characterized by 3. The concrete pile cap assembly according to claim 1, wherein the cap support part 120, the cap 160, and the connecting reinforcement spacer 140 are made of synthetic resin.

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