KR101130166B1 - Apparatus and method for replacing bearings of box girder bridge - Google Patents

Abstract

The present invention is provided with a lifting means such as a plurality of hydraulic jack between the upper surface of the pier or alternating box girder is installed and the bottom of the box girder, the inside of the box girder such as a screw jack or hydraulic jack to adjust the height The present invention relates to a bridge support replacement device and method for a box-type girder bridge in which a height adjustment means is installed to raise a box girder and then replace the bridge support.
The present invention is provided with a lifting means such as a plurality of hydraulic jacks between the upper surface of the pier or alternating box girder and the bottom of the box-shaped girders around the bridge support, the inside of the box-shaped girders in accordance with the lifting center line of the lifting means The pedestal is installed upright, and the height adjustment means such as a screw jack or a hydraulic jack is installed between the upper end of the pedestal and the inner bottom of the box-shaped girder so as to adjust the height of the pedestal in accordance with the lifting center line. .

Description

Bridge Restoration Device and Method of Box Girder Bridge {APPARATUS AND METHOD FOR REPLACING BEARINGS OF BOX GIRDER BRIDGE}

The present invention relates to an apparatus and a method for replacing or repairing a bridge support of a bridge structure without damaging the box girder, and more particularly, a plurality of hydraulic jacks between the upper surface of the bridge or girder with the box girder and the bottom of the box girder; After installing the same lifting means, install the pedestal and the height adjusting means such as the screw jack or the hydraulic jack to adjust the height inside the box-type girder, and after replacing the bridge support by raising the box-type girder through the lifting means The present invention relates to a bridge support replacement device and method of a box-type girder bridge that can be easily changed in position and used for easy collection.

In general, a bridge structure using a box-shaped steel girder is a structure in which a box-type girder made of steel is installed on an upper portion of a bridge or a pier, and then an upper slab is installed thereon to build a bridge.

The box structure of the box girders is provided with an upper structure including an upper slab and a box girder, and a bridge bearing called a bridge device between a lower portion of an upper portion of an alternating bridge or a coping portion of a bridge. It is.

The bridge bearing not only plays an important function of transferring the load of the superstructure to the substructure, but also has a function of absorbing shock and horizontal displacement. Therefore, if the bridge support is damaged, it is critical to the safety of the bridge structure, so it is necessary to repair or replace it quickly.

In addition, recent earthquakes have occurred frequently on the Korean Peninsula and in the surrounding areas, and as a result, the threat of earthquake damage to structures has gradually increased and actualized, and earthquakes have been made to minimize damage from earthquakes and to prevent disasters and disasters. Performance evaluation and seismic reinforcement work are carried out, and the replacement of the bridge system frequently occurs in the process of collecting reinforcement plans for bridges without seismic design.

At this time, the lifting of the existing box-type girders is required to replace the bridge support of the pre-installed bridge structure, and the hydraulic jacks are installed on the upper surface of the coping part and the bottom of the girder.

However, the box structure of the box girder has a large lifting capacity, so that deformation occurs without structural reinforcement of the box girder, and during the replacement work of the bridge support, it is a site condition where the vehicle is in progress. Installation should be done when additional reinforcement is installed on.

Conventional reinforcement installation method (1), as shown in Figures 1a and 1b, jack-up the plate or "L" section 20 on the upper surface of the coping portion 12 of the bridge 10 is installed bridge (Jack- Coupling portion 52 of alternating 50 is attached to reinforcement by anchor bolt 44 to abdomen 40 or diaphragm 42 in the up (30) position, or as shown in FIGS. 2A and 2B. The perforation of the existing abdomen 60 and the diaphragm 62 on the upper surface was attached to the plate or "L" shaped steel 70 by anchor bolts 72 to reinforce, and to install the jack-up 80 below.

After the reinforcement is installed in this manner, the box girders 90 are elevated by the jack-ups 30 and 80, and the bridge supports 92 provided on the upper surfaces of the coping portions 12 and 52 of the pier 10 or the shift 50 are mounted. Will be replaced.

However, in the replacement work of the bridge support 92, the conventional reinforcement installation method forms a hole in the abdomen (40, 60) or diaphragm (42, 62) of the box-shaped girder 90 and anchor bolts (44, 72) ), Which is disadvantageous to structural stability and maintenance due to damage of existing members, and when installing plates or "L" section steels 20 and 70 to the abdomen 40 and 60, bolts 44 and 72) was exposed to the problem of hindering the urban aesthetics.

The present invention is to solve the conventional problems as described above, the object is to structurally reinforce the box-type girders without damage to the existing structure, can replace the bridge support, and after the replacement of the bridge support change the position in the box-type girders It is easy, and after use, it is easy to collect the used components can be easily reused, as well as to preserve the appearance of the box-type girder as it is, the bridge support replacement device of the box-type girder bridge so as not to impair the aesthetics of the city and In providing a method.

In order to achieve the above object, the present invention provides a lifting means such as a plurality of (two sets or four sets) hydraulic jack is provided between the upper surface of the pier or alternating girder or the box-shaped girder installed; A pedestal installed in correspondence with the lifting center line of the lifting means in the box-shaped girder; And height adjusting means such as a screw jack or a hydraulic jack installed between the upper end of the pedestal and the inner bottom of the box-shaped girder to adjust the height of the pedestal in accordance with the lifting center line. The means is provided to replace the bridge support of the box-type girder bridge to be assembled and installed respectively so that it can be repositioned and collected after use.

In another aspect, the present invention preferably provides a bridge support replacement device of the box-type girder bridge between the elevating means and the pedestal so that a reinforcing member for distributing and distributing the load applied to the box-type girder at the time of the elevating means such as a hydraulic jack is further provided. to provide.

And the present invention is preferably the pedestal so that steel such as H-shaped steel or circular pipes can be used, and a plurality of supporting members are connected to each other according to the inner space and height of the box-shaped girder can be installed integrally Provide bridge bridge replacement device for box type girder bridge.

In order to achieve the above object, the present invention provides a lifting means such as a plurality of hydraulic jacks between the upper surface of the pier or alternating box girder is installed and the bottom of the box girder around the bridge support (installation number according to the load size) Adjustment, 2 sets or 4 sets per girder), and inside the box girders, a pedestal is installed upright in accordance with the lifting center line of the lifting means, and between the top of the pedestal and the inner bottom of the box girders. And installing height adjustment means such as a screw jack or a hydraulic jack installed to adjust the height of the pedestal in accordance with the center line, wherein the elevating means, the pedestal, and the height adjusting means are respectively assembled and installed to change their position and use. Provides a bridge bridge replacement method of the box-type girder bridge that can be collected and reused.

And the present invention preferably provides a bridge bearing replacement method of the box-type girder bridge by distributing the load applied to the box-type girder during the lifting of the lifting means such as a hydraulic jack by installing a reinforcing member between the lifting means and the pedestal.

In addition, the present invention preferably the pedestal is made of steel, such as H-shaped steel or circular pipe, the bridge support replacement of the box-type girder bridge to be integrally installed by connecting a plurality of support members in accordance with the inner space and height of the box-shaped girder Provide a method.

In addition, the present invention is to support the bridge with the effect of distributing the load applied to the box girder during the lift by installing a reinforcement support that can be installed to avoid the rib interference when the lift position is raised and lowered in the ribs installed inside the box-shaped girder Provide a replacement method.

According to the present invention, a plurality of lifting means, such as a hydraulic jack, is installed around the bridge support between the pier or the upper surface of the box girder and the bottom of the box girder on the outside of the box girder. In accordance with this, the pedestal is installed in an upright position, and between the top of the pedestal and the inner bottom of the box-type girder, a height adjustment means such as a screw jack or a hydraulic jack that can adjust the height of the pedestal can be easily reinforced. Can be.

Therefore, the present invention can not only structurally reinforce the box girder without structural damage of the box girder, but also easily change the position of the pedestal and height adjusting means in the box girder after the bridge support is replaced, and after use Easy to reuse. In addition, it is not necessary to form holes in the box girders separately and mount anchor bolts, thereby obtaining an excellent effect of not impairing the aesthetic appearance.

FIG. 1A is a plan view showing a state in which a plurality of jack-ups and a plate or "L" shaped steel reinforcement are installed on a coping portion of a pier to replace or repair a bridge bearing according to a conventional technique.
FIG. 1B is a side view illustrating a state in which a plurality of jack-ups and a plate or "L" section reinforcement are installed on a coping portion of a pier to replace or repair a bridge bearing according to a conventional technique.
FIG. 2A is a plan view showing a state in which a plurality of jack-ups and plates or reinforcements of "L" sections are installed on alternating coping portions in order to replace or repair a bridge bearing according to the prior art.
FIG. 2B is a side view showing a state in which a plurality of jack-ups and plates or "L" shaped steel reinforcements are installed on alternating coping portions in order to replace or repair a bridge bearing according to the prior art.
Figure 3 is a partial cutaway perspective view showing a bridge support replacement device according to the present invention installed on the box-shaped girder bridge.
Figure 4 is a perspective view showing the bridge bearing replacement apparatus according to the present invention.
Figure 5a is a cross-sectional view of the bridge girder bridge installed in the box girder bridge of the present invention to replace or repair the bridge bearing in accordance with the present invention.
Figure 5b is a side cross-sectional view of the bridge girder bridge installed in the bridge girder bridge of the present invention to replace or repair the bridge bearing in accordance with the present invention.
FIG. 6A is a plan view of the pedestal provided in the bridge restoring apparatus according to the present invention in the case where there is no interference of the ribs in the box-type girder and is installed in the box-type girder bridge in an upright position in accordance with the lifting center line.
FIG. 6B is a plan view of the support provided in the bridge restoring device according to the present invention in the case where there is interference of the ribs inside the box-type girder, in which the pedestal provided in the box-type girder bridge is installed in an upright position to coincide with the lifting center line. .
FIG. 7A is a side cross-sectional view of the pedestal provided in the bridge restoring device of the present invention in a box-girder bridge in which the ribs are avoided and aligned with the elevating center line in an upright position to be provided with a plurality of pillars. FIG.
FIG. 7B is a cross-sectional view along the line AA of FIG. 7A.

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

Bridge bearing replacement device 100 of the box-type girder bridge according to the invention is installed between the upper surface of the pier or alternator 120 is installed box bottom girders 110 and the bottom of the box-type girders 110, as shown in Figure 3 as a whole It is provided with a lifting means (130).

As shown in FIG. 4, the elevating means 130 is formed of a powered device such as a hydraulic jack 132, and a coping part of the piers or alternating shafts 120 in which the box-type girder 110 is installed. 122 is installed around the bridge support 115 between the upper surface and the bottom surface 112 of the box-shaped girder 110.

And the pedestal 150 is installed inside the box-shaped girder 110, such a pedestal 150 is installed in accordance with the lifting center line (S) of the lifting means 130, for example, H-shaped steel Alternatively, a steel material such as a circular pipe may be used, and a plurality of support members 152 may be connected to each other and integrally installed according to the internal space and the height of the box-shaped girder 110.

That is, the pedestal 150 is composed of a plurality of supporting members 152, and the flanges 156 forming the bolt holes 154 are integrally attached to the ends of the supporting members 152, respectively. As the bolt 158 is inserted into and fixed to the 154, the support members 152 may be connected to each other to form an integrated pedestal 150.

As such, the pedestal 150 has a field assembly and disassembly structure composed of a plurality of support members 152, so that the operator can easily change the position by carrying the inside of the box-shaped girder 110 having a large internal space. After use, it can be disassembled and collected easily, and can be reused.

And the height adjustment means 170 is installed on the upper portion of the pedestal 150, since the height of the internal space of the box-shaped girder 110, such height adjustment means 170 is correspondingly the height of the pedestal 150 Used to adjust.

The height adjusting means 170 is installed between the upper end 162 of the pedestal 150 and the inner bottom 118 of the box-shaped girder 110 to match the lifting center line (S) of the height adjusting means 170. It is made of a device such as a screw jack (Screw Jack) 172 to adjust the height of the pedestal 150.

That is, when the height adjusting means 170 is made of a screw jack 172, the worker installs it between the upper end 162 of the pedestal 150 and the inner bottom 118 of the box-shaped girder 110, the intermediate By rotating the lever 174, the height of the screw jack 172 can be adjusted, and as a result, the height of the pedestal 150 is adjusted so that the top 162 of the pedestal 150 and the inner bottom of the box-shaped girder 110 can be adjusted. By fixing the pedestal 150 between the 118, the box-shaped girder 110 can be structurally firmly reinforced.

In addition, the height adjustment means 170 may be made of a hydraulic jack (not shown) instead of the screw jack 172 as described above. If the hydraulic jack is made in this way, since the operator can adjust the height of the pedestal 150 using a mechanical device without the need to directly adjust the screw jack 172 by manpower (human force), it is more preferable. And such height adjustment means 170 may be simply used an insertion plate (not shown) consisting of a plurality of plates. That is, a plurality of insertion plates may be stacked to be inserted between the upper end 162 of the pedestal 150 and the inner bottom 118 of the box girder 110 to fix the pedestal 150.

In addition, the present invention may further include a reinforcing member 180 between the lifting means 130 and the bottom surface of the pedestal 150, such a reinforcing member 180 is made of a thick steel plate, the hydraulic jack 132 and By lifting the same lifting means 130, the load applied to the box-type girder 110 can be distributed through a large area, thereby preventing stress from being concentrated on a part of the box-type girder 110, and thus the box-type girder 110 This is preferable because it can prevent the damage.

Hereinafter, a method 200 of replacing the bridge support 115 of the box-type girder bridge using the bridge support replacement device 100 of the box-type girder bridge according to the present invention will be described in more detail.

Bridge bearing replacement method 200 of the box-type girder bridge according to the present invention, as shown in Figure 5a and 5b, first the top of the coping portion 122 of the pier or alternating 120 is installed box-girder 110, Between the bottom surface 112 of the box-shaped girders 110, elevating means 130 such as a plurality of hydraulic jacks 132 is installed around the bridge support 115.

And the inside of the box-shaped girder 110 is installed in the upright (直立) in accordance with the lifting center line (S) of the lifting means 130, such a support 150 is H-shaped steel or circular It is made of a steel, such as a pipe, and the plurality of supporting members 152 are coaxially connected to each other bolts 158 according to the internal space and height of the box-shaped girder 110 is installed.

As shown in FIG. 6A, the pedestal 150 may be installed as a single upright column in accordance with the lifting center line S of the lifting means 130 in the box-shaped girder 110. As shown in FIG. 6B, a plurality of pedestals 150 are installed on the elevating center line S of the elevating means 130 to avoid the ribs 190 side by side and more firmly inside the girders 110. Can be structurally reinforced.

In addition, the height adjustment means 170, such as a screw jack 172 or a hydraulic jack, is installed between the inner bottom 118 of the box-type girder 110 on the upper end 162 of the pedestal 150 installed as described above, and the height adjustment means By extending the length of 170, the height of the pedestal 150 is adjusted in accordance with the lifting center line S of the elevating means 130 to adjust the height of the pedestal 150 and the inner bottom of the box-shaped girder 110. Firmly fixed between 118;

In this case, as shown in FIGS. 7A and 7B, when ribs 190 or the like are present on the inner bottom 118 of the box-shaped girder 110, a separate upper reinforcement support 192 is ribs 190. Between the height adjustment means 170 may be installed on top of the height adjustment means 170 can be fixed by extending the length.

Next, the reinforcing member 180 is inserted and installed between the lifting means 130 and the bottom of the pedestal 150, and then the hydraulic jack 132 of the lifting means 130 is operated to operate the box-type girder 110. In this process, the reinforcing member 180 distributes the load applied to the box-type girder 110 to prevent partial stress concentration of the box-type girder 110 to prevent damage.

As such, when the box-type girder 110 is elevated through the lifting means 130, the action force of the lifting means 130 is not only the lower surface of the box-type girder 110, but also the pedestal 150 and the height adjusting means (installed therein). The box-type girder 110 is stably raised without partial deformation by being transmitted to the upper surface of the box-type girder 110 and effectively distributed throughout the cross section of the box-type girder 110 through 170.

And the box-shaped girders 110 are raised from the upper surface of the coping portion 122 of the bridge or alternating 120, and then replace or repair the bridge bearing 115, the replacement operation of the bridge bearing 115 as desired process When this is completed, the lifting means 130 is operated by lowering the contrary to the above to return the box-type girder 110 to its original position.

In addition, when the replacement or repair work of the bridge support 115 is completed, the pedestal 150 and the height adjusting means 170 are disassembled and moved or repositioned, respectively, inside the box-type girder 110. In the outside of the box-type girder 110, the lifting means 130 is moved or changed in position, and then reworked or collected and reused later.

Bridge bearing replacement device 100 and method 200 of the box-type girder bridge according to the present invention as described above is between the top surface of the pier or alternating 120 and the bottom of the box-type girder 110 on the outside of the box-type girder 110 Lifting means 130, such as a plurality of hydraulic jack 132 is installed around the bridge support (115).

In addition, the inside of the box-shaped girder 110 is installed in an upright position in accordance with the lifting center line (S) of the lifting means 130, the upper end 162 and the box-shaped of the pedestal 150 Between the inner bottom surface 118 of the girder 110 by installing a height adjusting means 170 such as a screw jack 172 to adjust the height of the pedestal 150 can be easily structurally reinforce the box-shaped girder 110. Can be.

As described above, the present invention provides a box-type girder 110 without structural damage, such as forming a bolt hole in the abdomen or diaphragm, for example, in connection with the replacement of the bridge support 115. It can be easily reinforced structurally.

In addition, the present invention facilitates disassembly of the pedestal 150 and the height adjusting means 170 in the box-shaped girder 110 after the bridge support 115 is replaced, so that the pedestal 150 and the height adjusting means (in a narrow space) 170 is easy to move and change the position, and after use can be easily collected and reused.

In addition, the present invention forms a hole in the box-shaped girder 110 separately after the replacement of the bridge support 115, and there is no need to mount the anchor bolts 44, 72, the appearance of the box-shaped girder 110 This is preserved satisfactorily so that it does not impair the aesthetic appearance.

An embodiment of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Accordingly, such improvements and modifications are within the scope of the present invention as long as they are obvious to those skilled in the art.

1 ...... Conventional reinforcement installation method 10 ...... Pier
12,52 ..... Coping 20,70 ....... Plate or "L" section steel
30,80 ..... Jack-Up 40,60 ...... The abdomen
42,62 ..... Diaphragm 44,72 ...... Anchor Bolt
50 ...... Shift 90 ...... Box Girder
92 ...... bridge bearing 100 ...... bridge bearing replacement
110 ..... Box Girder 112 ......
115 ..... Bridge Bearings 118 ..... Inner Bottom of Box Girder
120 ...... Piers or shifts 122 ..... Copping
130 ..... Lifting means 132 ...... Hydraulic Jack
150 ..... Pedestal 152 .....
154 ...... bolt hole 156 ..... flange
158 ...... bolts 162 .....
170 ..... Height adjustment 172 ..... Screw jack
180 ..... Reinforcement 190 ..... Rib
192 ..... upper reinforcement stand 200 ...... bridge bridge replacement
S ...... elevating centerline

Claims (6)

Elevating means such as a plurality of hydraulic jacks installed between an upper surface of the piers or alternating boxes on which the box girders are installed and a bottom of the box girders;
A pedestal installed in correspondence with the lifting center line of the lifting means in the box-shaped girder; And
And height adjusting means such as a screw jack or a hydraulic jack installed between the upper end of the pedestal and the inner bottom of the box-shaped girder to adjust the height of the pedestal in accordance with the lifting center line. The bridge bearing replacement device of the box-type girder bridge, characterized in that the re-installation is possible by changing the location and use after collection so that each can be assembled and installed. The bridge support of the box-type girder bridge according to claim 1, further comprising a reinforcing member for distributing and distributing the load applied to the box-type girder during the elevating of the elevating means such as a hydraulic jack between the elevating means and the pedestal. Replacement device. According to claim 1 or 2, wherein the pedestal so that a steel such as H-shaped steel or a circular pipe can be used, a plurality of supporting members are connected to each other integrally installed in accordance with the inner space and height of the box-shaped girders. Bridge support device of the box-type girder bridge, characterized in that to enable. An elevating means such as a plurality of hydraulic jacks is installed around the bridge support between the pier or alternating top of the pier or alternating box and the bottom of the box girder, and the pedestal is erected in accordance with the elevating center line of the elevating means. And installing a height adjusting means such as a screw jack installed between the upper end of the pedestal and the inner bottom of the box girder so as to adjust the height of the pedestal in accordance with the lifting center line. The elevating means, the pedestal and the height adjusting means are assembled and installed respectively, so that the position change and the collection after use is possible to replace the bridge support of the box-type girder bridge, characterized in that it is possible to reuse. 5. The method according to claim 4, wherein a reinforcing member is installed between the elevating means and the pedestal to distribute and elevate the load applied to the box girders during the elevating of the elevating means such as a hydraulic jack. According to claim 4 or 5, wherein the pedestal is made of a steel, such as H-shaped steel or a circular pipe, and is installed integrally by connecting a plurality of supporting members to each other according to the inner space and height of the box-shaped girder and the seat support capacity. Bridge bearing replacement method of the box-type girder bridge, characterized in that.

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