KR101284777B1 - Vertical and horizontal jack king is a possible hydraulic jack unit and bridge construction method - Google Patents

Abstract

PURPOSE: A hydraulic jacking device capable of vertical and horizontal jacking and a bridge repairing method using the same are provided to safely perform a bridge repairing work by temporarily supporting an upper structure during change periods of a bridge support device in order to demonstrate a function of the bridge support device. CONSTITUTION: A hydraulic jacking device capable of vertical and horizontal jacking comprises a hydraulic housing (210), a lifting unit (220), a guide member (230), a guide plate (240), and a plurality of lamination members. The hydraulic housing comprises a line insertion groove (212) in which a hydraulic line is inserted. The lifting unit is inserted into the hydraulic housing and is lifted due to fluid pressure. The guide member is closely mounted on a curved unit (222) of the lifting unit and comprises a friction groove (236) on the upper part. The guide plate is mounted on the upper part of the guide member and comprises a falling prevention protrusion (246). The lamination member is mounted on an upper end of the guide plate and supports an upper structure.

Description

Vertical and horizontal jack king is a possible hydraulic jack unit and bridge construction method

The present invention relates to a hydraulic jack device capable of vertical and horizontal jacking and a bridge repair method using the same. More specifically, by temporarily configuring the bridge support function during the replacement period of the bridge support device supporting the upper structure of the bridge, to ensure the safe bridge repair work, as well as the impact of the replacement work It is possible to minimize the fall of the upper structure of the bridge due to the expansion and contraction of the bridge due to load, vibration, and temperature, the breakdown of the hydraulic jack device, the damage and the damage of the bridge structure. The present invention relates to a hydraulic jack device capable of vertical and horizontal jacking and a bridge repair method using the same.

In general, bridge supporting devices generate heavy live loads and impact loads such as overloading vehicle loads due to the characteristics of bridges, and inevitably damage due to expansion and corrosion in the longitudinal or transverse direction of bridges due to temperature changes due to the characteristics of the four seasons. do.

Accordingly, the hydraulic jack device is installed to replace the bridge support device supporting the upper structure of the bridge. The hydraulic jack device supports the bridge structure through the vertical jacking method and the horizontal jacking method. It performs the bridge bearing function.

First, the vertical jacking hydraulic jack device in which the vertical operation is performed, as well as supporting the bridge without violating the support mechanism and the bridge mechanism of the existing bridge. It should be able to accommodate the horizontal displacement due to the stretching action according to the temperature, and have the rotation function to absorb the longitudinal gradient, the lateral gradient and the bending deformation of the superstructure.

In addition, in the case of a bridge repair condition in which the hydraulic jack device cannot be integrated like a bridge support device, the existing hydraulic jack device that is simply attached with a sliding device may cause the hydraulic jack to be dislodged due to the impact load and vibration, and therefore, to some extent, except for special cases. It should consist of a structure that can adjust the frictional force.

However, the above-described hydraulic jack device has a structure in which the sliding structure is simply attached to the bridge structure when the bridge supporting device is very unstable, and thus the number of installation of the hydraulic jack in the bridge during an earthquake, live load, impact and abnormal behavior Bridge horizontal force is concentrated in the fixed end, one-way movable end hydraulic jack device, etc., which can only be arranged the least, there is a problem that the possibility of falling of the upper structure due to breakage, separation, etc. of the hydraulic jack device.

On the other hand, alternating lateral flow occurs due to excessive horizontal earth pressure action or pile construction error that resists horizontal earth pressure, which sometimes occurs in domestic bridges. It is not secured.

As a result, breakage of the expansion joint device and breakage of the bridge support device occurs primarily, and secondary breakage occurs due to the expansion action of the bridge due to an increase in temperature.

As a countermeasure against this, a horizontal jacking type hydraulic jack device is required to secure the clearance between the bridge upper structure and the shift as much as the amount of stretching. However, the hydraulic jack device of the horizontal jacking method requires a considerable expertise on the bridge, the bridge repair method using the same situation is rare in the domestic construction cases.

In addition, the hydraulic jack device according to the prior art is not only made of a structure that is difficult to operate the vertical jacking and horizontal jacking together, there is a problem that frequent malfunction due to the complicated configuration and coupling relationship of the hydraulic jack device.

In addition, the hydraulic jack device according to the prior art is made of a configuration in which only the sliding device is attached to the upper portion of the bridge supporting device replacement period as the occurrence of a risk such as the separation of the hydraulic jack due to the impact load and vibration frequently occurs There is a problem that does not perform the role of supporting the structure intact.

Republic of Korea Patent No. 0961547 (2010.05.27.)

In order to solve this problem, the present invention provides a hydraulic jack device capable of both vertical and horizontal jacking of the upper structure, thereby temporarily supporting the upper structure during the replacement period of the bridge support device to exert the function of the bridge support. The purpose of this is to allow safe bridge repair work to proceed.

In addition, the present invention is capable of supporting the upper structure for a long time by preventing the separation of the hydraulic jack device and falling of the upper structure due to the impact load, vibration, etc. generated during the replacement operation of the bridge support device, it is possible to support the bridge while minimizing damage to the bridge structure The purpose is to enable easy maintenance of the supporting device.

In addition, the present invention, in the vertical jacking method, by sharing a small amount of friction force in the hydraulic jack device installed in the bidirectional, one-way movable end, fixed end configured in the bridge structure as a hydraulic jack device installed in a few fixed end and one-way movable end The purpose is to prevent the accidents such as breakage and breakage of the hydraulic jack device by dispersing the concentrated bridge horizontal force to the entire hydraulic jack device.

In addition, an object of the present invention is to increase safety by additionally installing a fall prevention jaw so as to prevent a safety accident due to the possibility of falling out when the bridge support device is replaced.

According to an aspect of the present invention, there is provided a hydraulic jack device capable of vertical and horizontal jacking having a bridge support function, comprising: a hydraulic housing having a line insertion groove into which a hydraulic line for supplying and discharging hydraulic pressure is inserted; Lifting means is inserted into the hydraulic housing is a lifting operation is performed by the hydraulic pressure, the lifting means is formed a curved portion of the upper surface is recessed; A guide member coupled to the curved portion of the elevating means to support a horizontal resistance force of the upper structure and to form a horizontal groove on the upper portion to adjust the horizontal frictional force; Selectively seated on the upper side of the guide member in accordance with the characteristics of the one-way or two-way movable end and the fixed end of the bridge structure, and fall prevention bumps to limit the moving range of the upper structure to prevent falling in the vertical or horizontal direction of the bridge structure Formed guide plate; And a stacking member formed in a predetermined size to an upper portion of the guide plate and configured to be stacked according to a distance between the hydraulic jack device and the upper structure to be laminated to support the upper structure. Provide hydraulic jack device.

In addition, in the present invention, the guide member is formed with a sliding groove so that the guide plate is a sliding movement, the guide plate may be slid in any one of the left or right direction when displacement occurs along the sliding groove, It provides a hydraulic jack device capable of vertical and horizontal jacking, characterized in that the sliding portion is formed to resist the horizontal force due to the behavior of the bridge support device.

In addition, in the present invention, the guide plate is provided with a fixing member at its center side so that the hydraulic jack device can be installed at the fixed end, the guide member is characterized in that the insertion groove is formed is inserted into the fixing member And it provides a hydraulic jack device capable of horizontal jacking.

In addition, in the present invention, the sliding portion configured in the guide plate provides a hydraulic jack device capable of vertical and horizontal jacking, characterized in that the fastening means is detachably fastened with the guide plate.

In addition, in the present invention, provided on the upper side of the guide member, by minimizing the coefficient of friction with the upper structure, to prevent the occurrence of falling during vertical jacking and horizontal jacking, friction pad is further configured to mitigate the impact It provides a hydraulic jack device capable of vertical and horizontal jacking, characterized in that.

In addition, in the present invention, the friction pad is composed of a rubber pad in the vertical jacking, by increasing the friction coefficient with the upper structure to share the bridge horizontal force concentrated in the hydraulic jack device, PTFE for adjusting the friction coefficient during horizontal jacking It provides a hydraulic jack device capable of vertical and horizontal jacking, characterized in that consisting of (polytetrafluoroethylene) and a steel plate made of stainless steel.

In addition, in the present invention, in order to fix the position of the hydraulic jack device for supporting the upper structure, the hydraulic jack device capable of vertical and horizontal jacking is characterized in that the hydraulic jack fixing panel is formed with a fixed jaw is formed is fixed to the hydraulic jack device is inserted and fixed. to provide.

According to the present invention as described above, by temporarily supporting the upper structure during the replacement period of the bridge support device configured to exert the function of the bridge support, there is an effect that the safe bridge repair construction can proceed.

In addition, according to the present invention, it is possible to support the upper structure for a long time by preventing the separation of the hydraulic jack device and falling of the upper structure due to the impact load, vibration, etc. generated during the replacement operation of the bridge support device, minimizing damage to the bridge structure However, there is an effect that can be easily repaired bridge support device.

In addition, according to the present invention, in the case of the vertical jacking method, a small amount of frictional force is distributed to the hydraulic jack devices installed on the bidirectional, one-way movable end, and fixed end respectively configured in the bridge structure, the hydraulic jacks installed on the small number of fixed and one-way movable end By dispersing the bridge horizontal force concentrated in the device to the entire hydraulic jack device, it is possible to prevent accidents such as breakage and separation of the hydraulic jack device in advance.

In addition, according to the present invention, there is an effect that can increase the safety by additionally installing a fall prevention jaw so as to prevent a safety accident by the possibility of falling out when the bridge support device replacement work.

1 is a schematic view showing a bridge structure configured with a general bridge support device,
2 to 5 is a view showing a hydraulic jack device installed in the bidirectional movable stage according to a preferred embodiment of the present invention,
6 to 9 is a view showing a hydraulic jack device installed in the one-way movable end according to a preferred embodiment of the present invention,
10 to 12 is another embodiment showing a hydraulic jack device installed on the fixed end according to a preferred embodiment of the present invention,
13 is a view showing a state in which the bridge support device is installed according to a preferred embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

2 to 5 is a view showing a hydraulic jack device installed on the bidirectional movable end according to a preferred embodiment of the present invention, Figures 6 to 9 shows a hydraulic jack device installed on a one-way movable end in accordance with a preferred embodiment of the present invention 10 to 12 is another embodiment showing the hydraulic jack device installed in the fixed end according to a preferred embodiment of the present invention, Figure 13 is a view showing a state in which the bridge support device is installed according to a preferred embodiment of the present invention .

As shown, the hydraulic jack device of the present invention is a sliding movement is made in any one direction of the up, down or left, right, the hydraulic jack device 200 configured to be movable in all directions up, down, left, right. And, it comprises a hydraulic jack device 200 capable of horizontal jacking as well as vertical jacking.

3 to 5, the hydraulic jack device 200 is installed in the bidirectional or one-way movable end and the fixed end, respectively, so that the hydraulic housing 210, the lifting means 220 to replace the role of the bridge support device And a guide member 230.

The hydraulic housing 210 is a housing of a hydraulic jack configured to move the upper structure upward when the bridge supporting device is replaced, and the hydraulic housing 210 is capable of operating the lifting means 220 through the supply and discharge of hydraulic pressure therein. The lowering means 220 is inserted to guide the guide groove 216 is formed.

Here, the guide protrusion 224 configured in the elevating means 220 is inserted into the inner circumference of the guide groove 216 to limit the elevating range of the elevating means 220, so that the elevating means 220 is a hydraulic line ( The guide groove 214 is formed to vertically slide by the hydraulic pressure supplied and discharged from the 202.

In addition, the hydraulic line 202 is connected to one surface of the hydraulic housing 210 to communicate with the guide groove 216 to supply and discharge the hydraulic pressure into the guide groove 216. A line insertion groove 212 into which an end is inserted is formed.

Lifting means 220 is a guide protrusion 224 inserted into the guide groove 214 formed in the guide groove 216 of the hydraulic housing 210, and the curved portion formed in the upper surface is recessed to seat the guide member 230 222 is formed.

When the hydraulic pressure is supplied by the hydraulic line 202 configured on one surface of the hydraulic housing 210, the lifting means 220 moves upward through the pressure supplied by the hydraulic pressure, As the guide protrusion 224 is guided along the guide groove 214 and the upward movement is made, it is possible to closely adjust the height difference with the upper structure.

The guide member 230 may be selectively installed on the elevating means 220 in accordance with the characteristics of the bidirectional or one-way movable end and the fixed end of the bridge structure, so that the upper plate may be dislodged due to the impact load and vibration generated during the replacement operation. This is to prevent the component.

When the guide member 230 is first installed at the bidirectional movable end of the bridge structure, as shown in FIGS. 2 to 5, the guide member 230 is predetermined to be seated in close contact with the curved portion 222 of the lifting means 220. It has a curvature of, the upper portion is formed with a friction groove 236 to increase the friction force in both directions of the bridge structure, the guide plate 240 provided on the upper portion of the guide member 230 is upper, lower, left, right It is formed in the shape of a flat plate to be able to move by a certain range in the direction.

In addition, when the guide member 230 of the present invention is installed at the one-way movable end of the bridge structure, as shown in Figures 6 to 9, the lower seat is in close contact with the curved portion 222 of the lifting means 220 It has a predetermined curvature so that the upper guide plate 240 can be slid in any one of the left or right direction when the displacement occurs, the sliding groove 232 to resist the horizontal force to match the behavior of the existing high-volume support device Is formed.

Here, the sliding groove 232 is formed in the form of an elongated groove from one side to the other end, while the guide plate 240 is slid in the left or right direction through the sliding groove 232 and the hydraulic housing 210 and the lifting means According to the operation of the 220 is in close contact with the lower surface of the upper structure 10 to support the upper structure (10).

10 to 12, when the guide member 230 is installed at the fixed end, the insertion groove 238 into which the fixing member 360 formed on the guide plate 240 is inserted upward. Is formed.

On the other hand, the upper surface of the guide member 230 may be selectively attached to the friction pad 320 during vertical jacking and horizontal jacking to adjust the coefficient of friction with the guide plate 240.

Here, the friction pad 320 is composed of a rubber pad when vertical jacking, increases the friction coefficient with the upper structure to share the bridge horizontal force concentrated in the hydraulic jack device, when the horizontal jacking made of PTFE (Polytetrafluoroethylene) and stainless steel 330 is attached to the upper side of the guide member 230 to adjust the friction coefficient of the friction pad (320).

In particular, during the horizontal jacking, the friction pad 320 shares a small amount of frictional force concentrated by a hydraulic jack device installed at the positions of the bidirectional or one-way movable end and the fixed end, respectively, configured as the arrangement of the existing bridge support device. It is possible to minimize the horizontal force concentrated in the one-way moving hydraulic jack device.

The friction pad 320 is selectively provided according to a structure such as a longitudinal gradient and a lateral gradient of the bridge structure, and is preferably formed in the same shape according to the shape of the guide member 230, but is not limited thereto.

That is, when installed in the two-way movable end, the friction pad 320 is formed in the shape of a plate, when installed in the one-way movable end, a hole in communication with the sliding groove 232 is formed in the center side, the fixed end When installed in, it is configured to form a hole through which the fixing member in the center.

The guide plate 240 is provided on the upper part of the guide member 230, and can support both the vertical direction and the horizontal direction of the bridge structure, and temporarily the upper part during the replacement period of the bridge policy apparatus supporting the upper structure 10. As a component for supporting the structure 10 to prevent the possibility of detachment of the upper structure 10 due to the impact load, vibration, etc. generated during the replacement operation of the bridge support, one-way or two-way movable end and fixed end of the bridge support device According to the characteristics of the guide member 230, the friction pad 320 is to be formed in a variety of shapes.

When the guide plate 240 is installed in the bidirectional movable end, as shown in Figures 2 to 5, it is mounted on the upper portion of the guide member 230 to support the upper structure 10, each corner A fall prevention jaw 246 is formed to define a moving range of the upper structure 10 so as to prevent falling of the bridge structure in a vertical or horizontal direction.

The fall prevention jaw 246 is to prevent falling in a manner of limiting the amount of movement while in contact with the outer surface of the guide member 230 during the movement of the upper structure (10).

In addition, when the guide plate 240 is installed at the one-way movable end, as shown in FIGS. 6 to 9, the guide plate 240 is inserted into the sliding groove 232 configured in the guide member 230 to form the sliding groove 232. Accordingly, the sliding portion 242 protrudes downward so as to be slid in either the left or right direction according to the lateral displacement and the impact load.

Here, the sliding unit 242 is preferably configured integrally with the guide plate 240, but is not limited thereto, and may be configured to be detachably fastened to the guide plate 240 by the fastening means. .

In addition, when the guide plate 240 is installed at the fixed end, as shown in FIGS. 10 to 12, the fixing member 360 inserted into the insertion groove 238 of the guide member 230 has a lower center side. It is configured to protrude downward, the fixing member 360 is formed integrally with the guide plate 240, or be configured to be configured to be separated from the guide plate 240 by welding or fastening means such as bolts. Could be

The guide plate 240 is a component that allows to adjust the load generated during the replacement operation of the bridge support device while receiving the horizontal displacement acting on the upper structure according to the temperature of the bridge or the right angle to the bridge structure of the upper structure. .

On the other hand, when the gap between the hydraulic jack device 200 and the upper structure 10 of the present invention is formed in a predetermined size to the upper portion of the guide plate 240, the laminated member (to support the upper structure 10) 290 may be further provided.

The stacking member 290 is seated in such a manner as to be stacked on the top of the guide plate 240 of the hydraulic jack device 200 to support the upper structure 10, the stacking member 290 from the hydraulic jack device 200 Combination is made through components such as fastening means to prevent the departure of the plurality of laminated members 290 to be fastened to the bottom of the upper structure (10).

In addition, the hydraulic jack fixing panel 310 for fixing the position of the hydraulic jack device 200 for supporting the upper structure 10 may be further configured according to the bridge conditions, such as the longitudinal gradient of the bridge. The hydraulic jack fixing panel 310 is formed with a fixing jaw 312 is inserted and fixed to the hydraulic jack device 200 to fix the position of the hydraulic jack device (200).

The hydraulic jack device 200 of the present invention configured as described above can be installed in accordance with a fixed end, a one-way movable end, and a two-way movable end so as not only to accommodate displacement according to temperature, but also to resist the horizontal force generated by the arrangement of the existing bridge support device. The hydraulic jack device 200 may be provided.

The hydraulic jack device of the present invention configured as described above is installed on the top of the pier and the shift 20, as shown in Figure 13 to support the upper structure 10 to enable a stable replacement of the bridge support device, further replacement It is configured to support the upper structure for a long time by preventing the possibility of detachment of the upper plate due to the impact load, vibration, etc. generated during operation, the pier 20 located in the lower portion of the bridge is made of sliding movement left and right at the center side The hydraulic jack device 200 is provided with a guide plate 240 and a guide member 230 having a sliding part 242 configured to be provided, and the rest including the upper and lower sides of the hydraulic jack device 200 is bidirectionally displaced. A supporting hydraulic jack device 200 is installed to prevent damage to the bridge structure not only in one direction of the upper structure 10 but also in both directions of horizontal displacement and impact load. It is good.

In addition, the hydraulic jack device 200 of the present invention, the fixing member 360 is also configured at a fixed end for fixing the upper structure 10 to another bridge 20 formed between the bridges 20 positioned below the bridge. ), And the hydraulic jack device 200 of the one-way movable end capable of sliding movement in the longitudinal and transverse directions about the fixed end is installed quickly and stably to replace the bridge support device, while Even when the bridge is repaired, it is configured to stably support the upper structure 10.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

200: hydraulic jack device 202: hydraulic line
210: hydraulic housing 212: line insertion groove
214: guide groove 216: guide groove
220: lifting means 222: curved portion
224: guide protrusion 230: guide member
232: sliding groove 236: friction groove
240: guide plate 242: sliding part
246: falling chin bump 290: laminated member
310: fixing panel 312: fixing jaw
320: friction pad 330: steel sheet
360: fixed member

Claims (7)

A hydraulic jack device capable of vertical and horizontal jacking having a bridge support function,
A hydraulic housing having a line insertion groove into which a hydraulic line is inserted so as to supply and discharge hydraulic pressure;
The lifting and lowering operation is performed through the pressure supplied to the hydraulic housing, and the guide protrusion is formed to closely control the height difference with the upper structure during the lifting and lowering operation, and the curved portion in which the upper surface is recessed is formed. Lifting means formed;
A guide member coupled to the curved portion of the elevating means to support a horizontal resistance force of the upper structure and to form a horizontal groove on the upper portion to adjust the horizontal frictional force;
It is selectively seated on the upper side of the guide member according to the arrangement position of the one or two-way movable end and the fixed end of the bridge support device, to limit the movement range of the upper structure to prevent falling of the bridge structure in the vertical or horizontal direction A guide plate having a falling brace;
A stacking member formed in a predetermined size to an upper portion of the guide plate and configured to be stacked according to a gap between the hydraulic jack device and the upper structure to support the upper structure; And
It is provided on the upper side of the guide member, it is composed of a rubber pad during the vertical jacking to adjust the friction coefficient with the upper structure, to mitigate the impact, the bridge horizontal force concentrated in the hydraulic jack device by increasing the friction coefficient with the upper structure Friction pad consisting of PTFE (Polytetrafluoroethylene) and stainless steel to control the coefficient of friction during horizontal jacking
Hydraulic jack device capable of vertical and horizontal jacking comprising a.
The method of claim 1,
When the guide member is seated on the one-way fixed end, the guide plate is formed with a sliding groove so that the sliding movement can be made, the guide plate can be slid in either of the left or right direction when displacement occurs along the sliding groove. The hydraulic jack device capable of vertical and horizontal jacking, characterized in that the sliding portion is formed to resist the horizontal force due to the behavior of the bridge support device.
The method of claim 1,
The guide plate is provided with a fixing member at the center side thereof so that the hydraulic jack device can be installed at the two-way fixed end, the fixing member is formed integrally with the guide member, or vertically characterized in that the coupling by bolting or welding And a hydraulic jack device capable of horizontal jacking.
3. The method of claim 2,
Sliding portion configured in the guide plate is a hydraulic jack device capable of vertical and horizontal jacking, characterized in that the fastening means is detachably fastened with the guide plate.
delete delete The method of claim 1,
Hydraulic jack device capable of vertical and horizontal jacking, characterized in that the hydraulic jack fixing panel is formed with a fixing jaw is formed in which the hydraulic jack device is fixed to fix the position of the hydraulic jack device for supporting the upper structure.

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