KR200322945Y1 - Device of Innovative Prestressed Scaffolding System for Improving Workability - Google Patents

Abstract

The present invention significantly reduces or completely eliminates the number of props by using triangular supports and steel wires instead of numerous props installed to support the earth pressure acting during underground excavation work, and is an obstacle in the excavation work or construction of underground structures. By removing piles and supports, the shape of fixing devices, pedestals and truss supports, etc., which improve the workability of the innovative prestressed temporary construction method, which can increase construction efficiency and significantly reduce construction costs in underground spaces, and how to connect parts In this paper, the innovative prestressed temporary construction method was specified.

Description

Device of Innovative Prestressed Scaffolding System for Improving Workability

The present invention relates to a temporary construction method installed in the ground during the construction period to prevent the collapse of the excavated ground during the construction of the structure when the underground structure, more specifically, such as vertical piles and belts such as H-beam It is a construction method that greatly reduces the number of braces that need to support vertical piles by prestressing horizontal piles with steel wires. It is a method that greatly improves existing design and construction methods.

In general, the construction method in the case of digging in order to make a basement of an existing subway construction or building, first drills a hole along the planned plane to the design depth, and install 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. After the installation of the perforated plate is completed, the subsequent construction is carried out by repeating the excavation work and the installation of the brace according to the excavation. 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 disadvantage of this method is that if the 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.

The technical problem to be achieved by the present invention is to secure a construction space in the basement and significantly reduce construction costs by suggesting a method for removing or greatly reducing the propulsion that causes enormous obstacles to public works and increases construction costs. The purpose of this paper is to provide detailed shapes, arrangements and construction methods for fixing devices and pedestals for the actual construction of safe and efficient temporary facilities.

1 is a plan view applied to a closed cross-section according to an embodiment of the present invention.

2 is a plan view applied to a closed cross section according to an embodiment of the present invention.

3 is a cross-sectional view applied to a closed cross section according to an embodiment of the present invention.

4 is a plan view applied to a one-way cross-section according to a preferred embodiment of the present invention.

5 is a cross-sectional view applied to a one-way cross section according to an embodiment of the present invention.

6 is a detailed view of the steel wire support according to an embodiment of the present invention.

7 is a detailed view of the corner portion fixing apparatus according to an embodiment of the present invention.

8 is a detailed view of a horizontal steel wire fixing apparatus according to an embodiment of the present invention.

9 is a detailed view of a vertical steel wire fixing device according to an embodiment of the present invention.

<Description of Symbols for Major Parts of Drawings>

1,2... … … Prestressed strip 21,22... … … Vertical pile

3…. … … Truss brace 23. … … Intermediate file

5... … … Corner support 24. … … Earth plate

6. … … Vertical prestressed system 25.. … … Strip

7,8,9... … … Main structure 26. … … Brace

10,11,12,18... … … Pedestal 60. … … Liner

13,14,15,20... … … Steel wire fixing device 70, 71, 72. … … jack

16. … … Pedestal support beam 73. … … Steel wire fixing device

1 is a plan view when the present invention is applied to a closed section such as a construction site.

On the four sides are prestressed gimbal (1) is arranged in accordance with the concept of the present invention, the four corners are made of a truss (3) made of a truss supporting these gimbal, the rear of the brace is a conventional corner support (5) There is). Prestressed strip length (1) is located on the side is composed of three triangular pedestal 12 and the triangular fixing device 13 and the connection support 10 for the connection between them. In addition, an intermediate pile 23 for supporting the triangular pedestal 12 is provided, and the intermediate pile 23 has a pedestal support beam 16 fixed by bolts or welding, so that this work can be installed. The triangular pedestal 12 and the pedestal support 23 are supported by the triangular pedestal 12 to support the triangular pedestal 12 and to prevent buckling in the vertical direction, which may occur during prestressing after the assembling work is completed. Connect it.

The truss brace 3 located in the corner is located between the two triangular fixing device 13 to transfer the compressive force between the fixing device. In this embodiment, although the truss support is used, if the structure can withstand the high compressive force can be replaced, it is possible to use a single cross section H-shaped steel, a method of using several H-shaped steel, and the like. In addition, the corner support (5) located at the corner behind the truss brace (3) is the same as the existing method, but is added to the figure to explain the present invention.

FIG. 2 replaces the existing corner support and truss brace 3 used in FIG. 1 with a corner fixing device 14 in a method that can be used when the size of the drilling plane is small. In FIG. 2, the T-shaped connecting base 11 used in the case where the distance between the prestressed belt 1 and the corner fixing device is small is shown.

FIG. 3 is a cross-sectional view of FIGS. 1 and 2 showing the temporary facility 2 and the present structure 7 according to the present invention. Unlike the existing construction method, it can be seen that there is no temporary facility in the central part that prevents the construction of the structure, and the case is arranged in four stages depending on the depth excavated underground. As in the existing outer wall, the thumb pile 22 is disposed in the outer wall, and there is a belt length 25 to support the pedestal support beam 16 and the intermediate pile 23.

FIG. 4 is a cross-sectional view of the temporary equipment for subway, showing the present structure 8, the vertical prestressed temporary fixture 6 and the horizontal prestressed temporary fixture 2 together. Horizontal prestressed temporary facility (2) shown in the upper portion of the cross-sectional view is the same as the provisional construction and construction method applied to the building described in Figure 2, so further description will be omitted. However, the vertical prestressed temporary fixture 6 shown in the lower part of the present sectional view is supported by one side of the structure after the bottom slab 9 of the present structure is cured, and the other side is supported by a conventional brace member such as a conventional brace. 26) is supported.

This vertical prestressed temporary facility is used to smooth the construction when the structure is long, such as a subway, and inserts the vertical H beam 19 into the back of the already installed band 25. A short pedestal 18 is attached to the other side to support the tension of the steel wire 60, which is fixed to the steel wire fixing device 20 coupled to the H beam 19 separately in advance. do. Therefore, this vertical prestressed temporary structure has a structure in which the lower fixing device is supported by the concrete slab 9 of the present structure which has been cast and hardened, and the fixing device at the upper part is supported by a conventional support beam 26.

FIG. 5 is a plan view of FIG. 4, when the excavation plane is long, such as subway or pipeline construction. FIG. The prestress strip 1 is arrange | positioned along both sides, and the truss brace 3 is arrange | positioned at the position where the steel wire of a prestress strip is fixed. Since the configuration of the prestressed strip is the same as the strip of the closed cross section described in FIG.

In addition, the relative position where the vertical prestressed temporary H beam 19 described in FIG. 4 is installed between the conventional H beams 22 is shown in an enlarged view. In the section where the vertical prestressed temporary installation is installed, the earth plate 26 must be installed on the rear flange of the existing vertical pile to install the H beam for the vertical prestressed temporary installation. In addition, in the case where the vertical pile is a null pile 21 rather than the H pile 22, the vertical H beam 19 is inserted into an empty space between the null pile 21 and the band length 25.

6a, b, c and d show various shapes and sizes of triangular pedestals used in this prestressed temporary construction method. These triangular pedestals are designed to reduce the number of support points 31 that meet the steel wires, and to support the long length of the belt 30, and is composed of a vertical member 32 and the inclined member 33. . When a compressive force acts on the support point 31 that meets the steel wire, this force serves to support the long length of the belt 30 through the vertical member 32 and the inclined member 33. In FIG. The three members are welded to each other or are connected by bolts (not shown) such that the members form an isosceles triangle to support the short length of the strip 30. FIG. 6B shows two inclined members 33 connected to each other at both sides of the vertical member 32 at an angle of 45 degrees, and all three members are welded or bolted together with the belt 30. Is connected. In FIG. 6C, two inclined members 33 are coupled to both sides of the vertical member 32 as an example of the case where the length of the belt 30 is long. FIG. 6d illustrates a structure for supporting a long strip 30 using a plurality of vertical members and inclined members. The triangular pedestals presented in this patent are presented to illustrate the concept of the present invention, and are not limited to only a few cases in which the method of coupling the vertical and horizontal members is presented. Therefore, the triangular pedestal is characterized in that the vertical member and the inclined member or the vertical member or only the inclined member to form a triangular shape to support the belt.

7A and 7B, the band fixing part 35 of the corner portion fixing unit 14 of FIG. 2 is connected to the reinforcing members 36 to fix the steel wire 60. That is, when the steel wire 60 for installing the prestressed temporary equipment passes through the reinforcing member 36 of the fixing device, the steel wire is tensioned using the hydraulic jack 70, and the tensioned steel wire is fixed by the fixing device 71 to fix the steel wire. do. The force pulled by the steel wire transmits the compressive force to adjacent bands (not shown) through adjustable length devices 72 such as preload jacks or screw jacks. Figure 7b shows another embodiment designed to fix the steel wire only with the reinforcing material 38 without the need for a reinforcing plate, various modifications other than the form shown in the present application is possible, but it is impossible to draw them all to present the basic purpose and If the functions are the same, they should be viewed as devising in the same category.

8a, b, c, d show several forms of various fixing devices of the horizontal prestressed strip of the present invention. FIG. 8A is a device for supporting a steel wire 60 supporting the strip 41 with an inclination pedestal 43 or a vertical pedestal 44 as a small fixing device used when the tension is small. The vertical pedestal 43 or the inclined pedestal 44 has a hole formed in the fixing device so that the pedestal can be inserted as shown in the figure, and the pedestal can be protruded although not shown in the figure. In consideration of the case where the inclination of the steel wire is changed at the inlet of the fixing device, there is a slightly curved inlet part 39, and the steel wire is fixed by the steel wire fixing device 73 on the opposite side of the fixing device. In addition, the length adjustment device 72, such as a preload jack or screw jack for applying a compressive force to the corner support (5) of the corner portion after the tension of the steel wire is installed.

8B shows the steel wire fixing device used when the length of the band 41 is increased, so that the compressive force acting on the band is greatly increased so that one additional band 42 is formed to form a double band. It is. It is the same as FIG. 8A that the inlet portion 39 is formed in a curved portion at the portion where the steel wire 60 supporting the belt length 42 is introduced into the fixing apparatus, or the steel wire fixing apparatus 73 is located on the opposite side of the fixing apparatus. The difference is that the inclined support 43 for supporting the fixing device is designed to withstand the increased compressive force and earth pressure. In addition, in the case of double bands, the compressive force acting on the bands may be different when the compressive force is applied, so that the compression force between the two bands can be adjusted to be equal to each other by using a high load screw jack (71).

FIG. 8C is a triangle fixing device 13 shown in FIG. 1, which fixes the steel wire 60 for supporting the strip 41 with the steel wire fixing device 73, and transfers the load to the truss brace 3 supporting the steel wire 60. Function. The triangular fixing device arranges a member 47 such as H-beam in an isosceles triangle shape to endure the load acting on the device, and the vertices where the members meet are reinforced with an appropriate reinforcing plate 46, A screw jack 71 for adjusting the compression force and a preceding load jack 72 for applying a compression force to the corner support 5 of the corner are provided. In addition, a screw jack 74 is installed for connection with the truss brace supporting the entire fixing device, and there is a hydraulic jack 75 for applying a large compression force therebetween. That is, when the tension of the steel wire by the hydraulic jack 70 is finished, the hydraulic jack 75 for applying a compressive force to the truss brace 3 is used.

FIG. 8D is a fixing device used in the temporary facility shown in FIG. 4. When the steel wire 60 for supporting the belt length 41 is tensioned by the hydraulic jack 70, the steel wire fixing device 73 is fixed. The portion where the steel wire is introduced is to penetrate the inclined member 47, and the portion connected to the truss brace 3 may be connected to the screw jack 74 and the hydraulic jack 75, or may be directly connected without them. In addition, between the horizontal member 48 and the vertical member that connects both sides of the fixing device is appropriate, but the reinforcement plate 46 is installed to withstand a large compressive force. Since the compression force is small because only the prestressing force is applied to this member, only a single stripe is shown, but a double stripe may be used if necessary.

FIG. 9 is a detailed view of the fixing device 20 for the vertical prestressed temporary provision 6 shown in FIG. 4. As described in Figure 4, by supporting the slab and the middle brace of the existing structure, inserts the H-beam behind the pre-installed band, and attached a short pedestal in front of the band, and to the fixing device assembled at both ends It is a vertical prestressed temporary construction to support the pipeline type excavation surface by supporting the pedestal using a fixed steel wire. To explain this in more detail, a screw jack or a preceding load jack 72 connected to a horizontal support 26 is connected to the fixing device 20, and the fixing device 20 is located at the bottom of the temporary installation 6. If so, instead of the support 26 may be directly connected to the existing slab (not shown). In addition, the H beam 41 in the vertical direction is connected to the vertical hole 50 portion of the fixing device, and these connections or connections may be secured by welding or bolts, but the bolts may be used later to dismantle the members. It is desirable to. When the steel wire 60 for supporting the vertical H beam enters the fixing device, the steel wire is fixed to the steel wire fixing device 73 on the opposite side of the fixing device. Therefore, this fixing device is a vertical prestressed temporary fixing device manufactured separately so as to be disassembled and assembled with a belt or a vertical beam.

As described above, the temporary construction method according to the present invention uses a plurality of pedestals, fixing devices, and steel wires to prestress the vertical pile or horizontal beam, thereby making it possible to remove a large number of braces and intermediate piles that caused many obstacles in conventional construction work. It can greatly reduce the construction and economic efficiency of the excavation and provision process, and in the construction of this structure, it is possible to remove all the holes that occurred in the structure in the conventional provision method, reinforcement work and formwork, The construction is very convenient, the construction period can be shortened, and the waterproof and durability of the completed structure is greatly improved.

Claims (11)

Prestressed stripe consisting of multiple triangular pedestals located in the middle and triangular fixing devices located at both ends of the stripe and connecting pedestals connecting them ; And a reinforced beam consisting of a truss or multiple H-beams or a H-beam of large cross-section to support the steel wire fixing device, wherein the temporary wall supports the excavated earth wall by forming a polygonal closed cross-section. 2. The provisional apparatus of claim 1, wherein the triangular pedestal is manufactured to support the strip by forming a triangle with the vertical member and the inclined member or with the vertical member or the inclined member only. The provisional structure of claim 1, wherein the triangular pedestal has a structure connected to and supported by an intermediate pile and a pedestal support. The apparatus of claim 1, wherein the fixing device fixes the steel wire and is connected to the belt, and applies a compressive force, and is connected to an inclined or vertical member so as to support the generated force. 5. The fixing device of claim 4, wherein the fixing device forms an isosceles triangle using a structural member, and corners are reinforced with reinforcing members, and steel wires are fixed to one corner, and opposite members are directly connected with the truss timber beams or through hydraulic jacks or screw jacks. And the part connected to the strip is characterized in that the length adjustment function. According to claim 4, wherein the fixing device is formed of a trapezoid using a structural member and the edge is reinforced with a reinforcement, the steel wire is fixed to both corners, the center portion is connected to the truss timber directly or through a hydraulic jack or screw jack Temporary facility characterized by. According to claim 4, wherein the fixing device can be inserted inclined or vertical brace, the steel wire coming in from one side is fixed to the opposite side, can support a single strip or lap strip, the screw jack or the preceding length adjustable function A facility comprising a load jack. A temporary facility that forms a closed section of polygons with only a prestressed strip consisting of a plurality of triangular pedestals located in the middle and a triangular fixing device located at both ends of the stripe, and a connecting pedestal connecting them. The temporary fixing device of claim 8, wherein the fixing device is a corner fixing device which is connected to the belt and manufactured so that the steel wire can be fixed at both sides. Support the slab of the existing structure and the brace in the middle, insert the H-beam behind the installed band, and attach the short base to the front of the band, and use the steel wires fixed to the fixing devices assembled at both ends. Vertical prestressed scaffolding to support pipelined excavation surfaces by supporting them. 11. The provisional apparatus of claim 10, wherein the fixing device is a fixing device for a vertical prestressed temporary device that is separately manufactured to be disassembled and assembled with a belt or a vertical beam.