KR100858712B1 - Corner connecting apparatus of temporary soil sheathing work - Google Patents

Abstract

The present invention relates to a corner connecting device for the construction of the temporary wall construction to reinforce the bearing capacity for earth pressure transmitted from the support and the belt while constructing a simple connection structure of the corner portion during the excavation construction for the construction of underground structures .

Its structure is the earth wall vertically connected to the inside of the excavated site for the construction of the earthquake block, the support and belts that are integrally coupled to the earth wall to support the earth pressure, and are provided at the corner between the earth wall and the wall, and are delivered from the earth wall. It is roughly classified as a corner joint supporting the earth pressure.

According to the present invention, since the present invention can sufficiently support the earth pressure transmitted to the corner portion by using the corner connecting member of the simple structure when constructing the underground structure, the space due to the complicated structure is prevented from being narrowed, The construction cost can be reduced through material savings, and the work space is increased, and workability is improved.

Description

Corner connection device of earthquake temporary construction construction {CORNER CONNECTING APPARATUS OF TEMPORARY SOIL SHEATHING WORK}

1 is a plan view schematically showing the construction of the construction of the earthenware employing a corner connecting structure according to the present invention.

FIG. 2 is an enlarged perspective view of an “A” portion of FIG. 1; FIG.

3 is a plan sectional view showing the main part of the present invention.

Figure 4 is a plan view of the main part showing another embodiment of the corner connecting device of the temporary construction of the construction according to the present invention.

Explanation of symbols on the main parts of the drawings

10 earth wall 20 band

50: brace 100: corner connector

110: cross beam 115: shear key

120: compressed beam 130: inclined beam

150: stiffener 310: reinforcement plate

The present invention relates to a corner connecting device of the earthquake temporary construction, and in particular, to maintain the earth pressure of the excavated site during the excavation for the construction of underground structures to increase the load capacity to earth pressure with a simple structure of the corner portion of the brace and the strip It is about corner joint of temporary block construction.

In general, the construction method in the case of digging in order to make a basement of an existing subway construction or a building, first drills a hole along the planned plane to the design depth, and installs a vertical pile.

After the installation of the vertical pile, the excavation is partially carried out and the mold beam and the perforated plate are installed.

Subsequently, after the installation of the perforated plate is completed, the subsequent construction is carried out while the excavation work and the installation of the brace according to the excavation are repeated.

Therefore, in order to design such a temporary facility, it is necessary to repeatedly calculate the earth pressure and load applied to the brace in the excavation stage and install the brace to endure the maximum value.

The design and construction in this way requires a large number of braces, and in most cases, the braces are arranged very tightly within 2-3m, and the braces arranged in this way can be used to transport construction materials, carry in heavy equipment, and construct the construction. It becomes a very serious obstacle to the work, and when the structure is installed later, it causes enormous obstacles in formwork or reinforcing work, and since the formation of many holes in the structure cannot be avoided, the completed underground structure There is a serious problem with the waterproofing.

As a vertical pile, in addition to a temporary facility using steel H pile, there is a method using a concrete pile to fill concrete after hole drilling, and a method using a steel pile and a concrete pile in parallel, or a method using a sheet pile. There is no major difference in the basic principle of drilling a ground and forming a wall with piles to support the ground load.

In addition, there is a method of using a preflax beam as a vertical file, or a method of increasing rigidity by attaching an H file to a sheet file.

Among the temporary construction methods for the construction of underground structures, there is a method of supporting the steel piles using earth anchors without the support mentioned above. This method inserts steel wires or rods by drilling inclined holes into the back ground of the pile, and sets the ends of the inserted steel rods by mechanical methods or by chemical methods such as epoxy and cement grouting. To fix the steel file.

The temporary facility constructed in this way is a method that has the advantage of improving the difficulty of the construction by securing sufficient internal space.

 However, the biggest drawback of this method is that when this method is applied in a complex city, most of the cases invade adjacent private lands, and there is much room for civil complaints.

Utility Model 20-258949 suggests a truss to remove braces passing through the middle of an excavation section in a temporary installation. This method is expected to be applicable in the case of relatively shallow depths. Double-beam H-beams are formed in a lattice form near the earth's surface, and they are reinforced with vertical and inclined ones, so that the earth pressure is applied to the upper two layers. It is designed to be accepted as a truss.

This method is designed to overcome the difficulty of excavation and construction of this structure due to the support of temporary support for the ground support. It is judged to be a convenient method when a wide structure enters the lower part of the excavated ground and a narrow structure enters the upper part. .

Patent 10-188465, Utility Model 20-247053, and Japanese Patent 837994 disclose a method of reinforcing a band using prestressing. This method is to increase the spacing between braces by tensioning steel wires by installing additional bands on the already installed bands, one of which has additional bands and the other to reinforce the flanges of existing H beams. have.

This method is expected to have some effect in widening the spacing of the brace, but since the steel wires are arranged in a straight line, unlike the parabolic moment distribution generated in the band due to earth pressure, a constant size of the parent is generated. Because of the different moments and their distribution, there is a limit to the length of the band to be reinforced.

However, since the moment generated by the band of the corner portion of the excavation portion having a rectangular cross-sectional view in plan view is minimal, the load capacity of the earth pressure is lowered as compared with other portions, and as described above, many props As the work space is narrowly arranged, the work space is reduced, and the construction cost is increased due to excessive use of materials.

The present invention has been proposed to solve this problem in view of the above-mentioned problems, the object of which is to apply the slope beam connecting material to the corner portion of the excavation site of the excavation work for the construction of underground structures in a simple structure to the space utilization and earth pressure It is to provide a corner connecting device for the construction of the earthenware temporary structure whose structure has been improved so as to increase the load capacity.

The present invention for achieving the above object is a plurality of earth walls are vertically installed in the excavated site during the construction of the underground trench, a plurality of support beams and the band is connected to the inner surface of the earth wall, respectively, to support the earth pressure,

A cross beam coupled to one side of the strip to be located at the corner;

Compression beam coupled to one side of the cross beam inclined and integrally connected to the end of the brace;

It characterized in that the corner connecting member consisting of a sloped beam that is integrally coupled to connect the end of the compressed beam and one side of the cross beam.

The inclined beam and the compressed beam of the present invention are connected to be perpendicular to each other.

In addition, the corner connecting member employs an H beam, and at least one stiffener is integrally coupled to the web portions of the beams.

In addition, the reinforcing plate for reinforcement is integrally coupled between the cross beam and the compression beam.

The other side of the cross beam is further provided with a shear key extending to be positioned at a position corresponding to the compression force of the belt.

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

Corner connecting device of the temporary wall construction according to the present invention, described with reference to Figures 1 to 3, the structure is the earth wall 10 is connected vertically to the inside of the excavated site for construction of the temporary wall construction, and the earth wall ( 10 is integrally coupled to the support for supporting the earth pressure 50 and the strip 20, and the corner connection member 100 is provided in the corner portion between the earth wall 10 and the wall to support the earth pressure transmitted from the earth wall 10 (100) It is roughly divided into).

In more detail, a strut may be installed in place of the support 50, and the strip 20 may adopt a prestressed method to correspond to the moment of earth pressure.

In addition, the strip 20 may employ a single strip or a stack of strips in consideration of the length and depth of the underground structure to be excavated.

The corner connector 100 is composed of a cross beam 110, a compression beam 120, a sloped beam 130 to form a triangular structure that is stable to the pressure transmitted, the detailed structure is integral with the strip 20 Horizontal beam 110 having a corresponding shape to be coupled, the compressed beam 120 is connected to extend inclined from one side of the front side of the horizontal beam 110 and connected to the end of the support beam 50, the compressed beam 120 And a slanted beam 130 coupled to connect the cross beam 110. In addition, as shown in Figure 3, the cross beam 110 is extended to the outside of the triangular structure.

The cross beam 110 is integrally fastened by bolts on one side of the front of the strip 20, the compressed beam 120 is connected to a plurality of braces 50 on the inclined side surface and the earth pressure transmitted from the braces (50) The load of the other to be transmitted to the other members, the inclined beam 130 has a function to distribute and support the load transmitted from the compressed beam 120.

In addition, each of the cross beams 110, the compressed beams 120, the inclined beams 130 preferably employs a known H beam (H-Beam), the web portion constituting the H beam (web) The stiffener 150 (stiffner) has a structure that is joined by welding.

The stiffener 150 is preferably provided to support the compressive force to the site where the members are coupled or the area where the force is transmitted.

In addition, it is preferable that the plate-shaped copper plate 114 is welded to both end portions of the cross beams 110 so as to be connected to the end portions of the strips 20.

In addition, the reinforcing plate 310 is provided between the cross beam 110 and the compressed beam 120, both sides of the reinforcing plate 310 is integrated so as to be in surface contact with the cross beam 110 and the compressed beam 120, respectively. It can reinforce the bearing capacity for the compressive force.

Reference numeral “102” denotes a water discharge hole for preventing rain from accumulating on the respective beams.

And, as shown in Figure 4, it is further provided with a shear key 115 is formed extending to the other side of the cross beam 110, the high-strength bolt connected to the end of the strip 20 to be located in a position corresponding to the compressive force It would be desirable to.

This is because the force transmitted from the end of the strip 20 and the compression beam 120 to which the compressive force is transmitted is in a position where the direction of the force is opposite to each other, so that the force is canceled.

In addition, although not shown in the drawing, a preload jack having a cylinder for transmitting a compressive force is provided in the middle of the reinforcement 50, and the corner connecting member 100 having a triangular structure is connected to the ends of the reinforcement 50. By doing so, it is preferable to transfer the compressive bearing force corresponding to the earth pressure from the preceding load jack to the compression beam 120 side of the corner connecting member 100.

Referring to the operation of the present invention having such a structure is as follows.

Corner connecting device of the temporary construction of the earthenware construction of the present invention, the corner connecting member 100 is installed in the corner portion of the braces 50 and the strip 20 to support that the earth pressure is transmitted through the earth wall 10.

At this time, the earth pressure of the earth wall 10 is supported by the compressive force transmitted from the braces 50 to the corner portion and the transverse pressure transmitted from the strip 20, the compressed beam 120 of the corner connector 100 is By distributing the pressure transmitted from the support beam 50 to the cross beam 110 and the inclined beam 130 side to transmit the force, it is possible to increase the load capacity even in a simple structure.

In addition, the pressure transmitted through the strip 20 is transmitted to the side of the copper plate 114 of the cross beam 110 which is in surface contact to be in close contact with the strip 20, and when the shear key 115 is present on the cross beam 110. Since the compressive force transmitted from the strip 20 is opposite to the pressure transmitted to the crossbeam 110 through the support beam 50 and the direction of the force transfer to each other, the forces are absorbed while conflicting with each other and the support force is compensated for by the high tension bolt. can do.

In addition, since the stiffener 150 is integrated in the web portion of the corner connecting member 100 employing the H-beam by welding, the stiffener 150 can not only reinforce rigidity against the compressive force, but also the reinforcing plate is a cross beam 110 and a compression beam. It is provided to be interposed between the 120 may complement the support force for the compressive force transmitted from the braces 50.

The present invention as described above is to be able to reinforce the bearing capacity for the earth pressure transmitted from the brace and the belt while constructing a simple structure of the connection structure of the corner portion during the construction of the trench for the construction of the underground structure, according to this The present invention can sufficiently support the earth pressure transmitted to the corner portion by using the corner connecting material of the simple structure during the construction of the trench for the construction of the underground structure, while preventing the narrow space due to the complicated structure, and also save material Through this, the construction cost can be reduced, and the work space is increased, thereby improving workability.

Claims (4)

A plurality of earth walls 10 installed vertically inside the excavated site during underground excavation work, and a prestress strip 50 that is integrally coupled to the earth walls 10 to support the earth pressure and the tension member is fixed therein. In the corner connecting device of the temporary wall construction equipment comprising a corner connecting member 100 which is located at the corner between the earth wall 10 and the earth wall 10 to support the earth pressure transmitted from the earth wall 10, The corner connecting member 100, Cross beams 110 are connected to one side of the front of the prestressed strip 20, Compression beam 120 is integrally connected to extend inclined from one side of the cross beam 110, integrally connected to the end of the brace 30, and Is provided with an inclined beam 130 to integrally connect the end of the compressed beam 120 and one side of the cross beam 110, The cross beam 110, the compressed beam 120, and the slope beam 130 forms a triangular structure that is stable to the pressure transmitted, The horizontal beam 110 is a corner connecting device of the temporary construction of the clam, characterized in that extending to the outside of the triangular structure. The method of claim 1, The reinforcing plate 310 is positioned between the cross beam 110 and the compressed beam 120, and both sides of the reinforcing plate 310 are integrated to be in surface contact with the cross beam 110 and the compressed beam 120 to compress the compressive force. Corner connecting device of the temporary wall construction, characterized in that the reinforcement for the support. The method of claim 1, The corner connecting member 100 employs H-beam, At least one stiffener 150 is integrally coupled to the web portion of each beam, corner connecting device of the temporary construction work. The method of claim 1, It is formed on the other side of the cross beam 110, the earthwork temporary construction, characterized in that it further comprises a shear key 115 is in contact with the end of the prestressed strip length 20 is connected to a position corresponding to the compressive force Corner connections.

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