KR200291360Y1 - Complex structure of reclamation type of soil guard for pier's basis - Google Patents

Abstract

The present invention relates to a cylindrical masonry structure for installing a pier foundation, and more specifically, a pier foundation for pier foundation construction designed so that the pier foundation soil and the foundation reinforced concrete becomes a pier foundation and does not require any demolition of the temporary installation. It is related with a landfill composite structure.

The present invention, in the piers for piers foundation, the cylindrical P. C concrete made of ready-made products in a multi-stage loading, connected by wires together, fixed and excavated the interior after filling the pier foundation cylindrical piers On the other hand, the cylindrical P. concrete is formed in an elliptical shape so as to protrude toward the center at every 90 ° angle and a wire tension hole is formed in the protrusion, wherein the cylindrical P. concrete is installed at the bottom The steel shoe is formed in the lower part of the cylindrical P.C. concrete, which can be installed in multiple stages by pouring the filled concrete after the internal excavation, and the wire penetrates through the wire tension hole of the cylindrical P.C. concrete and the upper part of the wire. The pressure plate, wire tension bolt, and wire jack bolt are sequentially joined to form a multistage cylinder. P.C concrete is integrally fixed, and fills the inside of the cylindrical P.C concrete to provide a cylindrical earthquake-filled composite structure for piling foundation construction, characterized in that the bridge is installed in the upper center is installed. .

Description

COMPLEX STRUCTURE OF RECLAMATION TYPE OF SOIL GUARD FOR PIER'S BASIS}

The present invention relates to a cylindrical masonry structure for installing a pier foundation, and more specifically, a pier foundation for pier foundation construction designed so that the pier foundation soil and the foundation reinforced concrete becomes a pier foundation and does not require any demolition of the temporary installation. It is related with a landfill composite structure.

In general, in order to install a piers and construct a pier foundation, a steel pile is embedded and an earth wall is installed between the steel piles. Then, an internal dig is performed, and the pier foundation is constructed by pouring concrete when the internal dig is completed. Done.

When the construction of the pier foundation is completed, the steel pile and earth wall are removed and finished by backfilling the pier foundation, that is, around the structure.

The construction work using the above-mentioned temporary facilities has the disadvantage that it is difficult to simplify the process due to the cumbersome work of the double work such as removing the steel pile and the earth wall, and the environmental pollution generated during the processing of the temporary materials, that is, the processing of the temporary materials The huge budget for is wasted.

This design requires construction of cylindrical P.C. concrete products for the foundation of the piers, thus eliminating the need for temporary materials, thereby reducing the environmental pollution as well as cost as much as possible, and constructing the piers foundation construction to ensure the stability in construction. It is an object of the present invention to provide a cylindrical soil membrane for the buried composite structure.

1 is a conceptual diagram showing a cylindrical soil membrane buried composite structure of the present invention.

Figure 2 is a flow chart showing a cylindrical soil membrane buried composite structure of the present invention.

Figure 3 is a perspective view showing a cylindrical earthed buried composite structure of the present invention.

<Brief description of symbols for main parts of the drawings>

100: cylindrical P. concrete 110: protrusion

120: wire tension hole 150: steel ash

200: wire 220: pressure plate

260: wire tension bolt 280: wire jack bolt

300: piling foundation 400: pier

The present invention, in order to achieve the above object, the present invention, in the piling foundation for pier foundation, the cylindrical P. C concrete made of a ready-made product in a multi-stage and then connected by fixing with integral wire and excavating the inside While the post-filled concrete is poured to form a pier foundation cylindrical clod, the cylindrical P. concrete is formed in an elliptical shape so as to protrude toward the center at every 90 ° angle, and the wire tension hole is formed in the protrusion. At this time, the steel P. concrete is installed at the bottom of the steel ash is formed at the bottom of the cylindrical P. C. concrete can be installed in multiple stages by pouring the filling concrete after the internal excavation and the wire tension of the cylindrical P.C concrete The wire penetrates through the hole and the pressure plate, wire tension bolt and wire on top of the wire. A pier foundation construction, in which a pier is installed at the upper center where the bolts are sequentially coupled and the multi-stage cylindrical P. concrete is fixed integrally, and the filled concrete is poured inside the cylindrical P. concrete. It provides a cylindrical soil membrane for the buried composite structure.

Hereinafter, with reference to the accompanying drawings will be described the configuration and operating state of the present invention.

1 is a conceptual view showing a cylindrical soil membrane buried composite structure of the present invention, the cylindrical concrete P. (CRECE) CONCERETE concrete (100) of a certain size is loaded in the position where the pier 400 is to be installed, the cylindrical P. concrete After the internal excavation of the 100, the filling concrete is poured to complete the first stage.

Cylindrical P. concrete 100 is seated in multiple stages according to the above-described sequence, wherein the cylindrical P. concrete is attached with the same number, and the internal drilling of the cylindrical P. Post-filled concrete is poured into the foundation bridge piers 300 is constructed, wherein each of the cylindrical P. concrete 100 is connected to the wire 200 and fixed with a wire tension bolt 260 on the top Done.

Figure 2 is a flow chart showing a cylindrical earthquake-filled composite structure of the present invention, the cylindrical P. concrete concrete constituting the pier foundation earthwork 300 is the only steel steel shoe 150 is installed at the bottom On the other hand, a plurality of other cylindrical P. concrete 100 is installed on the upper portion of the cylindrical P. C concrete 100 is formed in the same shape.

The cylindrical P. C concrete 100 has an ellipsoidal protrusion 110 is formed so as to protrude toward the center every 90 ° angle and the wire tension hole 120 is formed in the protrusion 110, wherein The wire 200 penetrates through the wire tension hole 120 and the wire tension bolt 260 is sequentially coupled to the top to finish.

That is, when the cylindrical P. concrete 100 is installed in multiple stages, the wires 200 are respectively provided in the wire tension holes 120 of the four protrusions 110 of each cylindrical P. C. concrete 100. The acupressure plate 220, the wire tension bolt 260, and the wire jack bolt 280 are fastened to the wire 200 to fix the plurality of cylindrical P. concrete 100 integrally.

When explaining the state in which the pier foundation cylindrical soil barrier 300 is manufactured and installed in detail as follows.

"Cylindrical steel shoe fabrication installation → Basic cylindrical P.seed concrete fabrication installation → Wire tensioning → Second cylindrical P.seed concrete fabrication installation → Wire tensioning → 3rd cylindrical P.seed concrete fabrication installation → Wire tensioning → Fourth cylindrical P.seed concrete Manufacture and installation → Wire tension → Acupressure plate installation → Wire tension bolt assembly → Wire jack bolt assembly → Internal dig → Cleaning the inside of the wall structure and reinforcing reinforced concrete → Installation of piers.

Figure 3 is a perspective view showing a cylindrical soil cladding composite structure of the present invention, the pier 400 is formed in the top center of the cylindrical P. concrete 100 constituting the bridge foundation 300 is installed by finishing the pier 400 Done.

The pier-based cylindrical soil barrier 300 is a plurality of cylindrical P. C. concrete 100 is stacked in a multi-stage state through the wire 200 to be integrally coupled and internal reinforcement work after the internal digging work Will be poured.

At this time, since the pier foundation cylindrical soil barrier 300 and reinforced concrete are integrally manufactured, even when the pier 400 is constructed on the top, it can be firmly supported, and simply the pier foundation cylindrical soil barrier without the use of temporary materials. Since 300 can be installed, it becomes possible to improve work efficiency.

The effect of the configuration and operation of the present invention described above will be described.

Cylindrical masonry buried composite structure for piling foundation construction of the present invention, since it is embedded in reinforced concrete and buried in the ground, no cumbersome work is required for temporary materials, and when pier foundation masonry is buried This is a type that secures by connecting the wires after stacking the seed concrete in multiple stages, thus making the foundation of cylindrical piers on the pier, which can improve the efficiency of work, especially the safety accidents that occurred when installing and dismantling the foundation piers. The effect can be prevented in advance.

Claims (1)

In masonry foundation, Cylindrical P.C. concrete made of ready-made products is loaded in multiple stages, connected together with wires, fixed and excavated, and then filled with concrete to form a piers foundation cylindrical mudguard. The cylindrical P. C concrete 100 has an elliptical protrusion 110 is formed so as to protrude toward the center every 90 ° angle and the wire tension hole 120 is formed in the protrusion 110, the bottom The cylindrical P. concrete 100 is installed in the steel shoe 150 is formed at the bottom The cylindrical P. C concrete 100 can be installed in multiple stages by pouring concrete after the internal excavation The wire 200 penetrates through the wire tension hole 120 of the cylindrical P.C. concrete 100, and the pressure plate 220, the wire tension bolt 260, and the wire jack bolt are formed on the wire 200. 280 is sequentially coupled with the multi-stage cylindrical P. C concrete 100 is integrally fixed to the bridge piers 300 is composed, Filled in the interior of the cylindrical P. C concrete (100) is a structure in which the pier 400 is installed in the upper center of the cast concrete, the cylindrical soil wall embedded composite structure for foundation construction.