KR100948359B1 - The bridge upper structure lifting method for which bridge upper structure lifter which does the bridge shue function and this were used - Google Patents

Abstract

PURPOSE: A bridge upper structure lifting apparatus capable of functioning as a bridge bearing and a bridge upper structure lifting method using the same are provided to replace a bridge bearing at low cost without using a hydraulic jack. CONSTITUTION: A bridge upper structure lifting apparatus capable of functioning as a bridge bearing comprises a bridge upper structure bonded steel plate(100) fixed to the lower part of a girder(G) at a lifting position of an upper structure(U), a displacement control bracket(200) fitted with a sliding plate of resin material or a rubber pad on the top and fixed to the lower part of the bridge upper structure bonded steel plate, a hydraulic jack(300) fixed to the lower part of the displacement control bracket, and a fixing bracket(400) installed beneath the hydraulic jack to secure the hydraulic jack. The hydraulic jack includes a dish shaped steel plate attached to the upper side of a cylinder in order to absorb rotation displacement.

Description

The bridge upper structure lifting method for which bridge upper structure lifter which does the bridge shue function and this were used}

The present invention relates to a bridge upper structure lifting device having a bridge support function and a method for raising a bridge upper structure using the same, in particular, even when the bridge support is replaced, even if the bridge longitudinal, transverse gradient is large or the bending deformation of the superstructure is large A simple displacement absorbing device that can absorb rotational deformation smoothly and absorb horizontal displacement due to temperature expansion and contraction can be installed on the existing hydraulic jack so that the bridge bearing can be replaced inexpensively and safely without using a special hydraulic jack. It relates to a bridge upper structure lifting device having a bridge bearing function and to a bridge upper structure lifting method using the same.

In general, existing domestic bridges are not sufficiently designed for earthquakes, so seismic reinforcement is required by many bridge bearing replacements in accordance with the current seismic design specification. Reinforcement work is being done.

Here, the bridge is a bridge bearing is a device that transmits the various loads (vibration, earthquake, wind, temperature changes) in the upper structure to the lower structure, when replacing the bridge support such as the existing to the existing As a method, the filling space is filled with steel plates, steel pipes, H beams, etc. in the upper part or the lower part of the hydraulic jack, the hydraulic jack is operated to raise the bridge upper structure, and the existing bridge support is removed while the bridge upper structure is raised. New bridges are being installed.

Since the conventional hydraulic jack does not function as a bridge support that completely absorbs various displacements such as horizontal and rotational displacements, it is often the case that additional damage to the bridge upper structure occurs due to abnormal behavior of the bridge upper structure.

Thus, in order to solve the problems described above, J.P.C flat jack excellent in reinforcing bridge support and the bridge support precision construction method has been proposed.

The conventional flat jack is a plate girder, steel bridge, the upper surface is formed of a flat plate to be supported on the lower surface of the steel box-shaped bridge, the stainless steel sheet of 1.5 ~ 3mm thickness is welded along the inner space of the locking jaw formed on both lower sides, The upper surface of the jack is formed in a predetermined shape so that the spherical bearing portion is attached to the stainless steel sheet, and the stainless steel sheet formed in the inner space of the locking jaw of the jack upper plate is brought into surface contact and the sliding caused by the expansion and movement of the bridge A port support consisting of a high pressure compressed rubber pad and a PTFE plate is formed in the inner space of the locking jaw formed on both sides of the upper part so as to move only in one direction. A spherical bearing part of a predetermined shape having a sliding support for curved contact with the PTFE plate; The upper surface is formed in a concave shape so that the spherical bearing portion is curved in contact with the spherical lower portion, the PTFE plate is formed thereon, both sides are wing-shaped, and the new bridge support is set by the hydraulic pressure supplied to one side. In the hydraulic cylinder portion for lifting the upper plate and the upper structure of the bridge bridge is installed, the hydraulic cylinder is a sliding support, the upper surface is formed in a concave shape so as to be curved contact with the spherical lower portion of the spherical bearing portion, The acupressure surface of the PTFE plate having a plurality of concave small grooves is formed thereon, and the grease mixed with the metallic soap is stored on the acupressure surface to minimize the frictional resistance with the spherical lower part of the spherical bearing part. It features.

Conventional bridge bearing JPC flat jack with excellent construction and reinforcement of the bridge structure and the precision construction method of the bridge bearing using the same can be absorbed and adjusted various displacements when replacing the existing bridge bearing, but it is necessary to manufacture a special hydraulic jack, Not only does it cost a lot of manufacturing costs due to the special hydraulic jacks, but this also causes an increase in construction costs.

Therefore, the present invention has been devised to solve the problems described above, even when the bridge bearing replacement, even if the longitudinal and transverse gradient of the bridge is large or the bending deformation of the superstructure is large, it is possible to smoothly absorb the rotational deformation. The bridge support function enables to replace the bridge support cheaply and safely without using a special expensive hydraulic jack by installing a simple displacement absorbing device to the existing hydraulic jack to absorb the horizontal displacement according to the temperature expansion and contraction. It is an object of the present invention to provide an apparatus for raising a bridge superstructure and a method of raising a bridge superstructure using the same.

Bridge upper structure lifting device having a bridge support function according to the present invention for achieving the above object is the bridge upper structure bonded steel sheet fixedly installed on the lower girder of the bridge upper structure lifting point; A displacement control bracket fixedly installed at a lower portion of the bridge upper structure bonded steel plate and having a sliding plate or an elastic rubber pad attached to an upper surface thereof; A hydraulic jack fixed to the lower portion of the displacement control bracket and having a plate-shaped circular steel plate attached to an upper surface of the cylinder to absorb a rotational displacement; It is characterized in that it is installed in the lower portion of the hydraulic jack and a fixed bracket for fixing the hydraulic jack.

In addition, the bridge upper structure lifting method using the bridge upper structure lifting device having a bridge support function according to the present invention for achieving the above object is the step of installing the bridge superstructure bonded steel plate on the bottom of the girder of the bridge upper structure ; Installing a fixing bracket with an anchor bolt on the upper surface of the bridge and the pier at an impression point of the bridge upper structure; Mounting a hydraulic jack to which a circular steel sheet absorbing rotational displacement is attached to the fixing bracket; Installing a displacement adjusting bracket on the hydraulic jack; Installing a sliding plate or an elastic rubber pad of a resin material on an upper surface of the displacement control bracket; Fastening the hydraulic jack fixing bolt to the fixing bracket to an outer circumferential surface of the hydraulic jack; Fastening the spacing bolts to the displacement adjusting bracket in a state of maintaining an appropriate interval in consideration of the displacement amount; Driving hydraulic pressure to the hydraulic jack to raise a bridge upper structure to a target lifting amount; Removing the existing bridge bearing and installing a new bridge bearing while raising the bridge superstructure to a target lifting amount; Subtracting the hydraulic pressure of the hydraulic jack is lowered, characterized in that consisting of the step of lowering the bridge upper structure.

As described above, the bridge upper structure lifting device having a bridge receiving function according to the present invention and the bridge upper structure lifting method using the same has the following effects.

First, the present invention does not need an expensive separate special hydraulic jack when replacing the bridge bearing, there is an advantage that can replace the bridge bearing at a very low cost by using a simple displacement absorbing device and the existing hydraulic jack.

Second, the present invention has the advantage that the bridge lifting device equipped with a hydraulic jack absorbs various displacements (horizontal, rotation, etc.) generated when the bridge upper structure is raised, so that the bridge support can be safely replaced.

Third, the bridge upper structure lifting device according to the present invention has the advantage that can be replaced very economically bridge support because it can be used and compatible with all hydraulic jacks regardless of the load tonnage or scale of the hydraulic jack.

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

1 is an exemplary view showing a bridge superstructure lifting device having a bridge support function according to the present invention installed on the girder and the pier, Figure 2 is a bridge superstructure lifting device having a bridge support function according to the present invention 3 is an exemplary view showing a state installed on the girder and the pier, Figure 3 is an exemplary view showing a state installed on the girder and the bridge upper structure lifting device having a bridge support function according to the present invention, Figure 4 5 is an exemplary view showing a state in which the bridge upper structure lifting device to raise the bridge upper structure according to the present invention, Figure 5 is a displacement control of the bridge upper structure lifting device having a bridge support function according to the present invention Figure 6 is a perspective view of the bracket, Figure 6 is a perspective view showing a fixing bracket of the bridge upper structure lifting device having a bridge support function according to the present invention.

As shown in these drawings, the bridge superstructure lifting device having a bridge support function according to the present invention is the bridge superstructure bonded steel plate 100 and fixedly installed on the lower surface of the girder (G) of the bridge upper structure (U) ; A displacement control bracket 200 fixedly installed under the bridge upper structure bonded steel sheet 100 and having a resin plate or elastic rubber pad 270 attached to an upper surface thereof; A hydraulic jack 300 fixed to the lower portion of the displacement control bracket 200 and having a plate-shaped circular steel plate 320 attached to an upper surface of the cylinder 310 to absorb a rotational displacement; It is installed in the lower portion of the hydraulic jack 300 and consists of a fixing bracket 400 for fixing the hydraulic jack 300.

That is, the bridge upper structure lifting device having a bridge support function according to the present invention is the bridge upper structure bonded steel sheet 100, displacement control bracket 200, the hydraulic jack 300 and the fixed bracket 400 is organically coupled Device.

Here, the bridge upper structure bonded steel sheet 100 has a structure in which the steel stopper 110 is attached to one or both directions on a square or circular steel sheet.

In addition, the displacement adjustment bracket 200 is attached to the steel plate 210, the circular steel pipe 220 is welded, the triangular bracing plate 230 is attached to the outer circumferential surface of the circular steel pipe 220, the interval bolt ( A bolt hole 250 for inserting and fixing the 240 is formed, and the upper surface has a structure in which a sliding plate or an elastic rubber pad 270 is attached.

The bolt bolt 250 drilled at a predetermined interval in the circular steel pipe 220 of the displacement control bracket 200 is fixed to the interval bolt 240 to be a certain interval with the hydraulic jack 300 of the displacement control bracket 220 It is configured not to be separated from the top of the hydraulic jack 300 by absorbing the displacement

In addition, the hydraulic jack 300 is a member having a plate-shaped circular steel plate 320 attached to the upper surface of the cylinder 310 to absorb the rotational displacement, is fixed to the lower portion of the displacement control bracket 200.

In addition, the fixed bracket 400 is a steel plate 410 is welded to the circular steel pipe 420, the triangular bracing plate 430 is attached to the outer peripheral surface of the circular steel pipe 420, the interval bolt 440 at a predetermined interval ) Is a structure in which a bolt hole 450 that can be inserted and fixed is formed.

And it is fixed by inserting the hydraulic jack fixing bolt 330 close to the outer circumferential surface of the hydraulic jack 300 with a bolt hole 450 bored at a predetermined interval in the circular steel pipe 420 of the fixing bracket 400.

Hereinafter, a description will be given of the bridge upper structure lifting using the bridge upper structure lifting device having a bridge bearing function according to the present invention having the configuration as described above.

2 is an exemplary view illustrating a state in which a bridge superstructure lifting device having a bridge support function according to the present invention is installed on a girder and a bridge, and FIG. 3 is a bridge superstructure lifting device having a bridge support function according to the present invention. Figure 4 is an exemplary view showing a state installed on the girder and the bridge, Figure 4 is an exemplary view showing a state in which to raise the bridge upper structure to the bridge upper structure lifting device having a bridge support function according to the present invention.

As shown in these drawings, the bridge superstructure lifting method having a bridge support function according to the present invention is to install the bridge superstructure bonded steel sheet 100 on the lower surface of the girder (G) of the point of the bridge upper structure (U) step; Installing a fixing bracket (400) as an anchor bolt (510) on the upper surface of the bridge upper structure (U) and the alternating and piercing (P) upper surfaces; Mounting a hydraulic jack (300) having a circular steel plate (320) absorbing rotational displacement on the fixing bracket (400); Installing a displacement adjusting bracket (200) on the hydraulic jack (300); Installing a sliding plate or an elastic rubber pad 270 of a resin material on an upper surface of the displacement control bracket 200; Fastening the hydraulic jack fixing bolt 330 to the fixing bracket 400 to an outer circumferential surface of the hydraulic jack 300; Fastening the spacing bolts 240 to the displacement adjusting bracket 200 in a state in which a proper spacing is maintained in consideration of the displacement amount; Driving a hydraulic pressure to the hydraulic jack 300 to raise a bridge upper structure U to a target lifting amount; Removing the existing bridge bearing and installing a new bridge bearing while raising the bridge upper structure (U) to a target lifting amount; Subtracting the hydraulic pressure of the hydraulic jack 300 is lowered, and consists of the step of lowering the bridge upper structure (U).

That is, the bridge upper structure lifting method using the bridge upper structure lifting device having a bridge support function according to the present invention is installed the bridge upper structure bonded steel plate 100 on the lower surface of the girder (G) of the lifting point of the bridge upper structure (U) And a fixing bracket 400 is installed as an anchor bolt 510 on the upper surface of the bridge upper structure U and the upper and the pier P, and a circular steel plate for absorbing the rotational displacement on the fixing bracket 400. Mounted on the hydraulic jack 300 is attached, the displacement control bracket 200 is installed on the hydraulic jack 300, and then the sliding plate or elastic rubber pad 270 on the top surface of the displacement control bracket 200 ), The hydraulic jack fixing bolt 330 is fastened to the outer peripheral surface of the hydraulic jack 300 to the fixing bracket 400, and then fixed to the displacement adjusting bracket 200 in consideration of the displacement amount. After tightening while keeping the gap, After driving the hydraulic pressure to the jack 300 to raise the bridge upper structure (U) to the target lifting amount, while removing the existing bridge support while raising the bridge upper structure (U) to the target lifting amount, a new bridge After installing the base, the hydraulic jack 300 by removing the hydraulic pressure is lowered, the bridge upper structure (U) is lowered, and then the step of removing the bridge upper structure lifting device.

Bridge upper structure lifting device having a bridge support function and the bridge upper structure lifting method using the same according to the present invention made of the configuration and construction as described above do not require a separate special expensive hydraulic jack, simple displacement control bracket and conventional hydraulic jack The construction cost is very inexpensive and the bridge superstructure lifting device configured in the hydraulic jack absorbs various displacements generated in the bridge superstructure so that the bridge bearing can be replaced safely. Regardless of whether the hydraulic jacks can be used interchangeably, there is an effect that can be very economical construction.

1 is an exemplary view showing a state in which a bridge superstructure lifting device having a bridge receiving function according to the present invention is installed on the girder and the pier,

2 is an exemplary view showing a state in which a bridge superstructure lifting device having a bridge support function according to the present invention installed on the girder and the pier,

3 is an exemplary view showing a state in which a bridge superstructure lifting device having a bridge support function according to the present invention installed on the girder and the pier,

Figure 4 is an exemplary view showing a state in which to raise the bridge upper structure to the bridge upper structure lifting device having a bridge receiving function according to the present invention.

Figure 5 is a perspective view showing a displacement adjustment bracket of the bridge upper structure lifting device having a bridge support function according to the present invention,

Figure 6 is a perspective view showing a fixing bracket of the bridge upper structure lifting device having a bridge receiving function according to the present invention.

Explanation of symbols on the main parts of the drawing

100: bridge superstructure bonded steel sheet 110: stopper

200: displacement adjustment bracket 210: steel plate

220: round steel pipe 230: bracing plate

240: bolt 250: bolt hole

260: elastic rubber pad 300: hydraulic jack

310: cylinder 320: circular steel sheet

330: hydraulic jack fixing bolt 400: fixing bracket

410: steel sheet 420: round steel pipe

430: brace 440: bolt

450: bolt hole 510: anchor bolt

G: Girder L: Bridge Superstructure Lifting Device

P: Pier U: Bridge Superstructure

Claims (6)

Bridge superstructure laminated steel plate 100 is fixed to the lower surface of the bridge girders (G) of the lifting point; A displacement control bracket 200 fixedly installed under the bridge upper structure bonded steel sheet 100 and having a resin plate or elastic rubber pad 270 attached to an upper surface thereof; A hydraulic jack 300 fixed to the lower portion of the displacement control bracket 200 and having a plate-shaped circular steel plate 320 attached to an upper surface of the cylinder 310 to absorb a rotational displacement; It is installed in the lower portion of the hydraulic jack 300 and at the same time comprises a fixing bracket 400 for fixing the hydraulic jack 300, the bridge upper structure bonded steel plate 100 is attached to the steel stopper 110 in one direction or in both directions, The displacement adjusting bracket 200 and the fixing bracket 400 are attached to the steel plate (210, 410) by the circular steel pipe (220, 420), the triangular bracing plate 230, the outer peripheral surface of the circular steel pipe (220, 420) 430 is attached, and bolt holes 250 and 450 are formed to insert and fix the spaced bolts 240 and 440 at predetermined intervals, and the hydraulic jack 300 is a circular steel pipe 420 of the fixing bracket 400. It is fixed by inserting the hydraulic jack fixing bolt 330 to the outer circumferential surface of the hydraulic jack 300 by a bolt hole 450 drilled at a predetermined interval in close contact, and drilled at a predetermined interval in the circular steel pipe 220 of the displacement control bracket 200 The bolt hole 250 is fixed so that the interval bolt 240 is fixed to the hydraulic jack 300 at a predetermined interval. Bridge superstructure pulling apparatus for a bridge support function, characterized by configured to prevent exit from the top of yuapjaek 300 absorbs the displacement of the displacement adjustment bracket 220. delete delete delete delete Installing the bridge superstructure bonded steel plate 100 on the bottom surface of the girder G of the point of impression of the bridge superstructure U; Installing a fixing bracket (400) as an anchor bolt (510) on the upper surface of the bridge upper structure (U) and the alternating and piercing (P) upper surfaces; Mounting a hydraulic jack (300) having a circular steel plate (320) absorbing rotational displacement on the fixing bracket (400); Installing a displacement adjusting bracket (200) on the hydraulic jack (300); Installing a sliding plate or an elastic rubber pad 270 of a resin material on an upper surface of the displacement control bracket 200; Fastening the hydraulic jack fixing bolt 330 to the fixing bracket 400 to an outer circumferential surface of the hydraulic jack 300; Fastening the spacing bolts 240 to the displacement adjusting bracket 200 in a state in which a proper spacing is maintained in consideration of the displacement amount; Driving a hydraulic pressure to the hydraulic jack 300 to raise a bridge upper structure U to a target lifting amount; Removing the existing bridge bearing and installing a new bridge bearing while raising the bridge upper structure (U) to a target lifting amount; Pulling down the hydraulic pressure of the hydraulic jack 300, and lowering the bridge upper structure (U) bridge bridge structure lifting method characterized in that the step consisting of.

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