KR100733720B1 - Droop prevention structure of steel pipe strut and main girder - Google Patents

Abstract

A structure for preventing the deflection of a steel pipe strut and a main girder is provided to make pit excavation work easy, to shorten a period of construction and to cut down on the cost of construction by preventing the deflection of a steel pipe strut and a main girder and securing design stiffness of a steel pipe strut or a main girder. The structure for preventing the deflection of a steel pipe strut and a main girder contains an H-pile(100), a wale(200), a steel pipe strut and a main girder(300), a wire(400), a wire connector(500), a wire supporter(600) and a fixing clip(700). The wales are installed on the side of the H-pile installed to the ground vertically at regular intervals and steel pipe struts and main girders are installed on the wales horizontally at regular intervals, and the wire connector is provided with a hanging hole(502) to hang up the wire and fixed to the top of the steel pipe strut and the main girder by welding, and the wire supporter is provided with a hanging hole to hang up the wire and installed to an H-pile or a retaining wall by welding or laying, wherein one end of the wire for preventing the deflection of the steel pipe strut and the main girder is suspended on the hanging hole of the wire connector and fixed with the fixing clip, and the other end of the wire is suspended on the hanging hole of the wire supporter and fixed with the fixing clip.

Description

Drop Prevention Structure of Steel Pipe Strut and Main Girder

1A to 1C are front, plan and cross-sectional views of a sag prevention structure according to a first embodiment of the present invention;

2a to 2c is a front view, a plan view and a sectional view of a sag prevention structure according to a second embodiment of the present invention;

3a and 3b is a front view and a cross-sectional view of the deflection prevention structure according to the third embodiment of the present invention,

4A and 4B are front and cross-sectional views of the sag prevention structure according to the fourth embodiment of the present invention.

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

100: thumb pile 200: belt length

300: steel pipe brace and mold beam 400: wire

500: wire connector 600: wire support

700: fixed clip 800: tubular reinforcement

900: eccentricity control device 1000: anchorage

The present invention relates to a sag-preventing structure of steel pipe braces and mold beams, and more particularly, when the weight is large, such as steel pipe braces and mold beams of two-stage or large section to support the retaining wall during the temporary work for the destruction of underground structures. It is related to the connection structure to prevent the deflection of the beam when used as the girder bridge of the bridge or bridge by installing a double hole or upper slab at the upper part of the steel pipe support beam and beam.

At the construction site, the ground is excavated to build the foundation, basement, or concrete wall in the basement, and then the earthen block is constructed to prevent the earth surface from collapse by earth pressure.

These mudguards are formed in the earth wall to support the pit soil surface in the H pile installed on the ground at predetermined intervals, and a plurality of bands are horizontally installed at regular intervals up and down on one side of the H pile, between the bands and the bands facing each other. The brace is installed horizontally at regular intervals.

The support belt is maintained by the support beam so that the earth wall withstands the earth pressure. At this time, a connection jack is installed between the support belt and the support beam to closely contact the earth beam wall in order to support the earth pressure applied in the transverse direction. .

However, in the related art, H-beams are used as braces, and the H-beams buckles occur in the weak axis (Y-Y) direction, and there is an inconvenience in that reinforcement materials must be installed horizontally and vertically to reinforce them.

Therefore, there is no difference in stiffness in each direction, and the steel tube support that has excellent compressive rigidity is used.

In case of using steel pipe brace or mold beam used for earthquake construction for underground construction in the form of two-stage or large section, its own weight is large and deflection by self weight occurs before the required compression force of steel pipe brace is introduced. When introduced, the buckling stiffness is greatly reduced, causing problems in safety construction.

The present invention has been made to solve the above problems, to prevent sagging of steel pipe braces and mold beams when the weight is large, such as steel pipe braces of two-stage or large section to support the earth wall during the temporary work for the destruction of underground structures By securing the design stiffness of steel pipe braces or mold beams, it is possible to expand the horizontal installation intervals of steel pipe braces, making it easier to break and prevent sagging of steel pipe braces and mold beams, which can shorten the construction period and reduce construction costs. The purpose is to provide a structure.

To prevent sagging of the steel pipe support and the mold beam according to an embodiment of the present invention for achieving the above object, the steel pipe support and horizontally installed at a predetermined interval on the strip of the thumb pile installed on the ground, and the upper surface of the steel pipe support Fixed to the wire connector is formed in the hook hole, the wire support is installed in the thumb pile and the hook hole is formed and one end is caught in the hook hole of the wire connector, the other end is caught in the hook hole of the wire support fixed clip It includes a wire fixed by.

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

1a to 1c is a front view, a plan view and a cross-sectional view of the deflection prevention structure according to the first embodiment of the present invention, which is fixed to the upper surface of the steel tube support.

As shown, including the thumb pile 100, strip 200, steel pipe support and mold beam 300, wire 400, wire connector 500, wire support 600 and fixing clip 700 It is configured by.

The strip 200 is installed horizontally with a predetermined interval on the side of the thumb pile 100 is installed on the ground, and the steel pipe brace and mold beam 300 is installed horizontally at a predetermined interval on the strip 200. do.

The wire connector 500 has a locking hole 502 is formed to hang the wire 400 is fixed to the upper surface of the steel pipe brace and the mold beam 300 by welding or the like, the wire 400 in the wire support 600 The hook hole 602 is formed to be hooked and installed in the thumb pile 100 or the wall of the earth by welding or embedding.

One end of the wire 400 to prevent sagging of the steel pipe support beam and the mold beam 300 is fixed to the fixing hole 700 by the hook hole 502 of the wire connector 500, and the other end of the wire support 600 Hang on the locking hole 602) and fix it with a fixing clip (700).

That is, the sagging prevention structure of the upper surface-mounted steel pipe brace and the mold beam according to the first embodiment of the present invention hangs one end of the wire 400 to the wire connector 500 fixed to the upper surface of the steel pipe brace and the mold beam 300 The fixing clip 700 is fixed, and the other end of the wire 400 is fixed to the fixing clip 700 by hanging on the wire support 600 installed in the thumb pile 100.

The wire connector 500 and the wire support 600 may be installed in a number depending on the weight of the steel pipe support and the mold beam 300, wherein the wire connector 500 is a steel pipe on the upper surface of the steel pipe support and the mold beam 300 A plurality of braces and mold beams 300 are installed in the longitudinal direction (in the left and right directions in the drawing), and the wire supporters 600 are installed in the upper and lower portions of the thumb pile 100 to fix the wires 400.

2A to 2C are front views, plan views, and cross-sectional views of a deflection prevention structure according to a second embodiment of the present invention, and are fixed to the bottom surface of a steel pipe support beam and a mold beam.

As shown, thumb pile 100, strip 200, steel pipe support and mold beam 300, wire 400, wire connector 500, wire support 600, fixed clip 700 and tubular It is configured to include a reinforcement (800).

The strip 200 is installed horizontally with a predetermined interval on the side of the thumb pile 100 is installed on the ground, and the steel pipe brace and mold beam 300 is installed horizontally at a predetermined interval on the strip 200. do.

The tubular stiffener 800 is a half-tubular stiffener (800a, 800b) is extrapolated up and down the steel pipe brace and the mold beam 300 is fixed by the fastening member 810, the wire connector 500 is wire 400 The hook hole 502 is formed to be hooked and is fixed to the lower surface of the tubular reinforcement 800 by welding or the like. The hook hole 602 is also formed to hook the wire 400 to the wire support 600. It is installed in the thumb pile 100 or the retaining wall by welding or embedding.

One end of the wire 400 to prevent sagging of the steel pipe support beam and the mold beam 300 is fixed to the locking hole 502 of the wire connector 500 by a fixing clip 700, and the other end of the wire 400 Hang on the locking hole 602 of the wire support 600 to be fixed with a fixing clip (700).

That is, the deflection prevention structure of the lower surface fixed steel tube support beam and the mold beam according to the second embodiment of the present invention, one end of the wire 400 on the lower surface of the tubular stiffener extrapolated to the steel pipe support beam and the mold beam 300 Hang on the fixed wire connector 500 to be fixed with a fixing clip (700), and the other end of the wire 400 is fixed to the wire support (600) fixed / installed on the thumb pile 100 is fixed with a fixing clip (700) .

The wire connector 500 and the wire support 600 may be installed in a number depending on the weight of the steel pipe support and the mold beam 300, in this case, the hook hole 502 of the wire connector 500, steel pipe support and the mold beam A plurality of horizontally formed in the front and rear wire connector 500, the wire support 600 is installed in front and rear of the thumb pile 100 to connect the wire 400.

3A and 3B are front views and cross-sectional views of a deflection prevention structure according to a third embodiment of the present invention, in which a compression force in which an eccentric amount is introduced into a lower surface of a steel pipe support beam or a mold beam is loaded.

As shown, including the thumb pile 100, strip 200, steel pipe support and mold beam 300, wire 400, tubular stiffeners 800, eccentricity control 900 and the fixing device 1000 It is composed.

The strip 200 is installed horizontally with a predetermined interval up and down on the side of the thumb pile 100 is installed on the ground, the steel pipe brace and the mold beam 300 is installed horizontally at a predetermined interval on the strip.

The tubular reinforcement 800 is a half-tubular reinforcement (800a, 800b) is extrapolated up and down the steel pipe brace and the mold beam 300 is fixed by the fastening member 810 and the eccentricity adjustment device 900 is wire 400 Through hole 902 is formed to pass through is fixed to the lower surface of the tubular reinforcement (800) by welding or the like.

The fixing unit 1000 extends the base plate 250 used to connect the strip 200 and the steel pipe brace and the mold beam 300 between the strip 200 and the steel pipe brace and the mold beam 300 to the bottom, Fixing unit 1000 is fixed to base plate 250 extending downward by welding or the like.

The wire 400 is tensioned by passing through the eccentric amount control plate 900 and then fixed to the fixing hole 1000 to introduce a compressive force to the lower surface of the steel pipe brace and the mold beam 300 to prevent the central sag of the steel pipe brace and the mold beam 300. do.

4A and 4B are front and cross-sectional views of the deflection prevention structure according to the fourth embodiment of the present invention, in an internal tension type.

As shown, including the thumb pile 100, strip 200, steel pipe support and mold beam 300, wire 400, tubular stiffeners 800, eccentricity control 900 and the fixing device 1000 It is composed.

The strip 200 is installed horizontally with a predetermined interval up and down on the side of the thumb pile 100 is installed on the ground, the steel pipe brace and the mold beam 300 is horizontally installed at a predetermined interval on the strip.

The tubular stiffener 800 is the inner and outer tubular stiffener (800c, 800d) is fixed by the fastening member 810 to the inside and the outside of the steel pipe brace and the mold beam 300 and the eccentricity adjustment sphere 900 is a wire ( The through-hole 902 is formed to pass through the 400 is fixed to the lower surface of the inner tubular reinforcement (800c) fixed in the interior of the steel pipe support and the mold beam 300 by welding or the like.

The fixing unit 1000 extends the base plate 250 used to connect the band 200 and the steel pipe brace and the mold beam 300 between the band 200 and the steel pipe brace and the mold beam 300 to the top, The fixing unit 1000 is fixed to the base plate 250 extending upwardly by welding or the like.

After passing through the inside of the steel pipe support and the mold beam 300 and the eccentricity control plate 900, the wire 400 is tensioned and fixed to the fixing hole 1000 to introduce a compressive force to the lower surface of the steel pipe support and the mold beam (300) To prevent the central deflection of the mold beam 300.

Steel pipe support beam 300 of the third embodiment or the fourth embodiment can be used as a girder bridge, obstacle support beam of the bridge between the gijangji and the bridge by installing a perforated plate or upper slab on the upper beam.

In the accompanying drawings of the above embodiment for example, but shown that the steel pipe brace and the mold beam 300 is circular, polygons such as square, track oval will also be said to belong to the claims of the present invention, and also steel pipe brace 300 Of course, the steel pipe of the general material, seismic-resistant steel pipe and high-strength steel pipe can be applied.

Embodiments of the present invention are disclosed in the drawings and the detailed description, and the specific terms used above are used only for the purpose of describing the present invention, and are used to limit the scope of the present invention as defined in the meaning or claims. It is not.

Therefore, those skilled in the art can be various modifications and other equivalent embodiments from this, and the true technical protection scope of the present invention should be determined by the technical spirit of the claims.

As described above, according to the present invention, the steel pipe brace and the mold beam used for the earthenware at the construction site is a large-diameter steel pipe with a large diameter. And by preventing the deflection of the mold beam, it is advantageous to secure the safety and design rigidity in the wide construction of the mold beam between the steel pipe support beam and the long section, and facilitate the digging work, shorten the construction period and reduce the construction cost.

Claims (9)

Steel pipe support beam is installed horizontally at a predetermined interval on the strip of the thumb pile installed on the ground; A wire connector fixed to an upper surface of the steel pipe supporter and formed with a locking hole; A wire supporter installed on the thumb pile and having a locking hole formed therein; And One end is caught in the hook hole of the wire connector, the other end is caught in the hook hole of the wire support structure and the sagging prevention structure of the steel pipe brace and the mold beam including a wire which is fixed by a fixing clip. The method of claim 1, In the case of installing a plurality of wires, the wire connector is installed in the longitudinal direction of the steel pipe support beams on the upper surface of the steel pipe support beams, the wire support brackets are characterized in that the plurality of steel pipe support beams and mold beams prevent the sag structure . Steel pipe support beam is installed horizontally at a predetermined interval on the strip of the thumb pile installed on the ground; A tubular reinforcement that is extrapolated to and fixed to the steel pipe support; A wire connector fixed to a lower surface of the tubular reinforcement and having a locking hole formed therein; A wire supporter installed on the thumb pile and having a locking hole formed therein; And One end is caught in the hook hole of the wire connector, the other end is caught in the hook hole of the wire support structure and the sagging prevention structure of the steel pipe brace and the mold beam including a wire which is fixed by a fixing clip. The method of claim 3, wherein In the case of installing a plurality of wires, the hook hole of the wire connector is formed in a plurality of horizontally in the wire connector in the front and rear direction of the steel pipe support, and the steel pipe support and the mold beam, characterized in that a plurality of wire support is installed before and after the thumb pile Sag prevention structure. The method of claim 3, wherein The tubular reinforcing material is a half-tubular reinforcing material is extrapolated in the upper and lower portions of the steel pipe brace to prevent sagging of the steel pipe brace and the mold beam, characterized in that fixed by the fastening member. Steel pipe support beam and mold beam horizontally installed at a predetermined interval on the strip of the thumb pile installed on the ground; A tubular reinforcing material which is extrapolated to and fixed to the steel tube support beam and the mold beam; An eccentric amount adjusting device fixed to a lower surface of the tubular reinforcement and having a through hole formed therein; A fixing unit which is installed between the strip and the steel pipe supporter and the mold beam and is fixed to the base plate having an end portion extending downward; And After the tension through the through-hole of the eccentricity adjustment opening is fixed to the anchorage and the steel pipe brace and the deflection prevention structure comprising a wire for introducing a compressive force to the lower surface of the steel beam and the cast beam. The method of claim 6, The tubular reinforcing material is a semi-tubular reinforcing material is extrapolated above and below the steel pipe brace and the mold beam is fixed by the fastening member, characterized in that the structure of the steel pipe brace and the mold beam sag prevention. Steel pipe support beam and mold beam horizontally installed at a predetermined interval on the strip of the thumb pile installed on the ground; A tubular reinforcement member which is fixed by interpolation and extrapolation to the steel pipe support beam and the mold beam; An eccentric amount adjustment hole fixed to a lower surface of the inner tubular reinforcement to be inserted into the steel tube support beam and the mold beam and having a through hole; A fixing device installed between the strip and the steel pipe supporter and the mold beam and fixed to a base plate having an end portion extending upward; And The steel pipe brace and the prevention of deflection of the steel pipe brace and the mold beam including a wire that is tensioned through the through-hole of the eccentric amount control opening and the inside of the mold beam and fixed to the anchorage to introduce a compressive force to the lower surface of the steel pipe brace and the mold beam. The method according to any one of claims 6 to 8, The cross section of the steel pipe support and the mold beam is a polygon of circular or square, track oval, etc., the steel pipe support and the steel pipe of the mold beam is a steel pipe of the general material, a steel pipe of the earthquake-resistant material or a high-strength steel pipe, characterized in that Deflection prevention structure of beam.

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