KR100778137B1 - Bracket and Support for Prestressed Scaffolding System - Google Patents

Abstract

The present invention uses a number of steel wire fixing devices and steel wires installed in a short pedestal and arbitrary positions on the vertical pile and the horizontal beam supporting it, by introducing prestressing or installing the reinforcement, the number of existing braces supporting the vertical pile and horizontal beam Significantly reduces the obstacles in the underground space by digging significantly, greatly improving the working conditions in the underground space and greatly reducing the cost of construction. The shape of is presented.

Description

Prestressed horizontal beam structure and prestressed temporary construction method using the same {Bracket and Support for Prestressed Scaffolding System}

1 is a cross-sectional view of a pedestal and a fixing device using an H beam according to an embodiment of the present invention.

FIG. 2 is a detailed view of a pedestal using an H beam according to an exemplary embodiment of the present invention shown in FIG. 1.

3 is a cross-sectional view of the height adjustable pedestal and fixing device according to an embodiment of the present invention.

4 is a detailed view of a height adjustable pedestal according to an embodiment of the present invention shown in FIG.

Figure 5 is a cross-sectional view of the pedestal and the fixing device is attached to the height adjustable to the horizontal beam passing through the brace according to an embodiment of the present invention.

6 is a detailed view of a height adjustable pedestal according to an embodiment of the present invention shown in FIG.

Figure 7 is a cross-sectional view of the height adjustable bracket and the fixing device to the horizontal beam passing through the brace according to an embodiment of the present invention.

8 is a detailed view of the height adjustable pedestal according to an embodiment of the present invention shown in FIG.

FIG. 9 is a detailed view of a fixing apparatus welded to a flange surface of a horizontal beam according to an exemplary embodiment of the present invention as shown in FIGS. 1 and 3.

FIG. 10 is a detailed view of a fixing apparatus for fixing a steel wire or a tie cable to both sides of a horizontal beam according to an exemplary embodiment of the present invention, which has been shown in FIGS. 5 and 7.

11 is an arrangement cross-sectional view of installing a height adjustable pedestal and a fixing device in the vertical pile according to an embodiment of the present invention.

12 is a cross-sectional view of the fixing device installed on the side and the pedestal and the height adjustable to the vertical pile passing through the brace according to an embodiment of the present invention.

FIG. 13 is a cross-sectional view of inserting a 'c' channel into a vertical pile according to an exemplary embodiment of the present invention to endure a greater compression force even with a small eccentricity.

14 is a cross-sectional view of a device to detect the deformation of the pedestal or raw member caused by the load on the horizontal beam according to an embodiment of the present invention through the current.

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<Explanation of symbols for the main parts of the drawings>

10 ........ Vertical pile 11,14,24 .... Pedestal

12,15 ..... Fixture 13 .......... tension material

16 ........ tension support 17 .......... support bracket

18 ...... Screw for height adjustment 19 .......... Screw adjuster

20 ........ Butimbo 25 .......... earth plate

27 ........ 'ㄷ' channel 33 .......... bolts and 'ㄱ' shaped rings

50 ........ Horizontal beam 60 .......... Slab structure

65 ........ Jack Supporter 70 .......... Coupler

80 ........ flat sheet 81 .......... reinforced steel sheet

90 ........ support steel plate 93 ........... fixing steel plate
95 ........ Hinge 96 ........ Thin and long steel plate
97 ........ Thin rod 98 .... Current flowing 'ㄷ' channel
99 .......... wires

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The present invention relates to a temporary construction method installed in the ground during the construction period in order to prevent the collapse of the excavated ground during the construction of the original structure when the underground structure is to be constructed, more specifically, vertical piles and belts such as H beams and It is a construction method that significantly reduces the number of braces that need to support vertical piles by applying prestressing to the same horizontal pile by using 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 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. 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 and Utility Model 20-247053 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 to significantly reduce the construction cost by suggesting a method for significantly reducing the propulsion that causes enormous obstacles to the public works and increases the construction cost. The purpose of this study is to suggest the shape and arrangement of fixing devices and pedestals necessary for the efficient installation of temporary equipment.
According to the present invention for solving the above problems, horizontally connected horizontal beams in which a plurality of pedestals are integrally coupled to a vertical pile vertically installed on the ground, and a fixing device is integrally formed at the side or both ends of the horizontal beams. And, while fixing the end of the steel wire to the fixing device integrated in the horizontal beam, while holding the steel wire in contact with the end of the pedestal and applying prestressing, the mounting position of the pedestal installed on the horizontal beam is the position of the vertical pile A prestressed temporary construction is provided, characterized in that it is coupled to a corresponding position so as to correspond to.
In addition, one side is integrally coupled to the vertical pile, at least one or more pedestals for supporting the steel wire is coupled to the other side, the fixing device is fixed to the upper, lower or side fixing the end of the steel wire to give a tension force Provided is a prestressed horizontal beam structure, characterized in that it is integrated with.
In addition, the fixing device is a fixing steel plate for forming a plate-shaped support steel plate is integrally welded to the end or side of the horizontal beam, and the support steel plate and the horizontal beam to form a cross-sectional structure of a part of the opening. It is provided with a prestressed horizontal beam structure, characterized in that the end of the steel wire is penetrated through the fixing steel sheet is fixed in the cross section.

As an example of how to realize the basic concept of the innovative prestressed temporary construction method, a pedestal 11 is installed at an appropriate position of a horizontal beam (also referred to as a "strip") using H-type steel, and ends of the horizontal beam Plane, front view and side view showing how the fixing wire 12 is installed in the vicinity to tension the steel wire 13 and the support beam 20 located at both ends supports the horizontal beam 50 thus reinforced. It is. In this figure, the parts added to construct the innovative prestressed temporary construction consist of a pedestal 11, a fixing device 12 and a steel wire 13, and the like.

The pedestal 11 may be manufactured using various hardware members such as H-beams, angles, or square tubes, or other members capable of receiving a compressive load, and the fixing device 12 may be made of steel because the original member 50 is mostly steel. It seems to be the most efficient, but it is not impossible to use other materials. In addition, as a tension member 13 for applying tension, steel wire is usually used, but separate parts such as wedges are usually required for fixing the steel wire. It is also possible to use, and in some cases it is convenient to use the coupler 70. In addition, it is also possible to use a high-functional new material such as carbon fiber, glass fiber, aramid fiber which has been recently developed and widely used.

1 shows a method of welding the pedestal 11 and the fixing device 12 to the horizontal beam 50 by attaching it. The vertical pedestal 11 can minimize the moment acting on the horizontal beam 50 by matching the position with the position of the H pile 10 as much as possible, and the support beam 20 also has the H pile as shown in the drawing. 10) is the most preferred method.

Figure 2 is a detailed view for explaining the shape of the pedestal and the attachment method shown in FIG. As shown in the figure, a flat plate 80 is installed at the bottom of the pedestal so as to facilitate attachment with the horizontal beam 50, but this support is not necessary. Also at the top of the pedestal is a steel wire support 16 having a curved surface for guiding the steel wire.

3 shows an embodiment of a horizontal beam with a pedestal 14 having a threaded portion 18 having a length adjusting function. It is possible to adjust the height of the pedestal by using the screw portion to adjust the force applied to each pedestal arbitrarily. The pedestal 14 has been proposed to be bolted to the horizontal beam, and the reinforcing member 16 'is placed on the lower portion of the steel wire support to endure the tensile force acting on the steel wire support 16 due to the tension of the tension member 13. You can also install. In addition, if necessary, a reinforcement plate may be installed at the bottom of the horizontal beam at the position where the pedestal is installed.

4 is a detailed view for explaining in more detail the shape of the pedestal and the attachment method with a horizontal beam shown in FIG. The pedestal was provided with a screw 18 to adjust the height. The flat plate 80 and the horizontal beam on the lower part of the pedestal are fastened by bolts to fix the pedestal. When the tension is applied, the compressive force acting on the pedestal is transmitted to the horizontal beam. It is shown that the steel plate 81 is installed.

5 is a method that can be used in the case of applying the present method to the existing provisional structure structure is installed on the horizontal beam so that the steel wire lengthened 16 so that the steel wire can pass through the outside of the bracing beam. Unlike the previous method using welding or bolts, the pedestal has a method of fixing to horizontal beams using the 'A' bolt. The fixing device 15 is also integrated by welding or the like so as to protrude on both end sides of the horizontal beam 50 so as not to interfere with the already installed bracing beam, and fixing so that both ends of the tension member are fixed to the fixing devices 15 on both sides thereof. In the reinforcing method of the lower part of the pedestal, an example of reinforcing only the lower part of the pedestal receiving a slight eccentricity on both sides without reinforcing the pedestal in the center is provided. Here, the method of using the 'V' bolt may be adopted to fix the pedestal to the horizontal beam 50 by using the long and short, the short length of the 'A' bolt is a horizontal beam ( It is penetrated by a flat plate 80 of 50) and fastened with a nut, and the other end of the bent has a fixed structure in contact with and supported by the lower side of the upper flange of the horizontal beam 50. In addition, in the case of a long 'A' bolt, one end is penetrated by a flat plate 80 of the horizontal beam 50 and fastened with a nut, the other end bent the lower end of the lower flange of the horizontal beam 50 It has a fixed structure that is supported in contact with the side, in this case, the middle portion of the 'b' shaped bolt is positioned on both sides of the horizontal beam 50 at the same angle as the web portion of the horizontal beam (50).

6 is a detailed view of the shape of the pedestal and the attachment method with a horizontal beam shown in FIG. The connection between the pedestal and the horizontal beams is provided by using a 'bolt' bolt to install without any work on the horizontal beams. The fixture also shows that a method of securing both the upper and lower flanges of horizontal beams using long and short can be used. This is possible because the pedestal receives tension only once it is tensioned and does not require the use of welding or bolts that require great force to fix the pedestal to the horizontal beam. 6 shows a shape in which the steel wire support 16 is elongated to avoid the brace and a reinforcing member 16 'for supporting it.

7 is a method of installing the horizontal beams on both sides in order to avoid the props of the steel wire base 24, the use of the 'b'-shaped bolt and the height adjustable height is the same as the above-described FIG. In addition to the height can be adjusted by using a pedestal installed in the screw portion, and using a 'z' bolt, but using a long and short one can adopt a method of fixing the pedestal to the horizontal beam (50), Among them, the short 'A' bolt has one end penetrated into the flat plate 80 of the horizontal beam 50 and fastened with a nut, and the other end bent is in contact with the lower surface of the upper flange of the horizontal beam 50. It has a fixed structure that is supported.
In addition, in the case of a long 'A' bolt, one end is penetrated by a flat plate 80 of the horizontal beam 50 and fastened with a nut, the other end bent the lower end of the lower flange of the horizontal beam 50 It has a fixed structure that is supported in contact with the side, in this case, the middle portion of the 'b' shaped bolt is positioned on both sides of the horizontal beam 50 at the same angle as the web portion of the horizontal beam (50).

FIG. 8 is a detailed view of the shape of the pedestal shown in FIG. 7 and an attachment method with a horizontal beam. For the connection between the pedestal and the horizontal beam, a '-' bolt is used and a height-adjustable pedestal is used. 8 shows the shape of the steel wire supporter is installed on the side of the horizontal beam, and shows a cross section connected by using a flat plate 80 between the supporters.

Figure 9 shows the shape of the fixing device which is installed by welding on the upper surface of the horizontal beam. A reinforcing steel plate 81 is installed between the flanges, the supporting steel sheet 90 is welded to the flange side, and the fixing steel sheet 93 is welded to the supporting steel sheet 90 to fix the steel wire 13. It penetrates through the steel plate 93 and connects and fixes it. Fixtures welded to the flange face can be installed and used in the same way on vertical beams as well as horizontal beams.

Figure 10 shows an embodiment of the fixing device mounted on the side of the horizontal beam. The reinforcing steel sheet 81 is sandwiched between the flanges and welded with the supporting steel sheet 90 having the fixing steel sheet 93 to fix the steel wire while integrally behaving. The fixing device attached to both sides of the flange can be applied to the vertical pile as well as the horizontal beam.

11 is an embodiment in which the present method is applied to a vertical pile that does not pass the support. When the floor slab 60, which is a part of the structure, is first constructed, a jack supporter 65 is installed on the slab to support the lower portion of the vertical pile. After the reinforcing steel plate 81 is installed between the bottom flange of the pedestal to reinforce the tie cable, and as described above with reference to FIG. 9, the fixing device is welded to the upper surface of the horizontal beam 50. The reinforcing steel sheet 81 is provided between the flanges, the supporting steel sheet 90 is welded to the side surface of the flange, and the fixing steel sheet 93 is welded to the supporting steel sheet 90 to fix it. 13) is connected, and the end of the steel wire is fixed so as to be positioned above the horizontal beam 50 through the fixing steel plate 93.

12 is an embodiment in which the present method is applied to a vertical pile passing through the brace, and when the floor slab 60, which is a part of the structure, is first constructed, a jack supporter 65 may be installed on the slab to support the lower portion of the vertical pile. After that, a method of connecting the appropriate reinforcing steel plate 81 to the vertical pile by bolting and tensioning the steel wire is shown, respectively, on both sides of the horizontal beam 50 without interference with the pre-installed brace in the same manner as described above. After fixing the steel wire to the protruding fixing device 15, the steel wire 13 is tensioned by using the pedestal 14 having the screw portion 18 so that the height can be adjusted.

FIG. 13 is a cross-sectional view of reducing the eccentricity by enduring a large compressive force after inserting the 'c' channel 27 between the flanges of the original member as an embodiment of applying the present method to the vertical pile. Therefore, the distance between the pedestal 14 and the main structure can be narrowed, so that the work speed can be improved, and the fixing device 15 of the tension member is fixed to the 'c' channel or the fixing device is horizontal as shown in FIG. The support steel plate 90 and the fixing steel plate 93 are welded to each other so as to protrude to the flange side of the beam 50 to form a cross-sectional structure having the function of a stopper, and then the end of the steel wire is passed through the inside of the cross section. It can also be fixed.

14 is a diagram showing an example of applying the present method to a horizontal beam or a vertical pile, and fixing each of the pedestals 14 in a hinged state 95 to a thin and long steel plate 96. At one end of the steel plate, a thin steel bar 97 and ' When the 'c' channel 98 is installed and the pedestal or the raw member is deformed due to the load acting on the raw member, and the thin steel rod 97 moves, it contacts the 'c' channel 98 through which current flows to detect the deformation state. It is a cross-sectional view of a device that allows.

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As described above, the innovative prestressed temporary fixing apparatus and pedestal according to the present invention withstand tension and compressive forces generated in the raw material due to the appropriate reinforcement plate when prestressing the vertical pile and horizontal beam using a tension material. It is possible to adjust the tension of each pedestal by varying the type and shape of the pedestal, and to install the fixing device so that the tension material can be tensioned to avoid the brace, and to effectively and stably support the acting earth pressure and water pressure. It can be effective.

Claims (7)

Horizontally connect the horizontal beams in which a plurality of pedestals are integrally joined to the vertical pile vertically installed on the ground, The fixing device is integrally formed on the side or both ends of the horizontal beam, While the end of the steel wire is fixed to the fixing device integrated in the horizontal beam while the wire is in contact with the end of the pedestal to apply prestressing and tension, Prestressed temporary construction method characterized in that for coupling to the position where the mounting position of the pedestal is installed on the horizontal beam corresponding to the position of the vertical pile. The method according to claim 1, And prestressing the steel wire to prestress the steel wire using a coupler in the fixing device. The method according to claim 1, Prestressing resiliency method characterized in that for adjusting the tension force acting on the pedestal by adjusting the height of the pedestal in the process of prestressing the steel wire. The method according to any one of claims 1 to 3, And a reinforcing material inserted into the inner surface between the two flanges of the horizontal beam. One side is integrally joined to the vertical pile, At least one pedestal for supporting the steel wire on the other side is coupled, Prestress horizontal beam structure, characterized in that the fixing device is fixed to the upper, lower or side end of the steel wire is fixed so that the tension is applied. The method according to claim 5, The fixing device is a plate-like support steel plate integrally welded to the end or side of the horizontal beam; A steel plate for fixing which is integrally welded to the supporting steel plate and the horizontal beam to form a cross-sectional structure in which a part is opened; Prestressed horizontal beam structure characterized in that the end of the steel wire is fixed in the cross section through the fixing steel sheet. delete

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