KR100797526B1 - Oil jack structure and excution method - Google Patents

Abstract

An oil jack structure and an execution method using the same are provided to minimize power consumption of an oil jack by operating the oil jack only when moving up and down a top plate slab. An oil jack structure includes an oil jack body(10), a support pipe(20), and a plurality of support plates(30). A lift bar(11) is installed at a center of the oil jack body. The lift bar is lifted up by inner oil pressure and supports a top plate slab of a bridge with a predetermined height. The support pipe has a hollow to be inserted by the oil jack body. The support plates are mounted on an upper surface of the oil jack body and on an upper surface of the support pipe. An inner periphery of the hollow of the support pipe and an outer periphery of the oil jack body have the same shape. The support pipe and the oil jack body have the same height.

Description

Hydraulic jack structure and method for replacing the device using the same {OIL JACK STRUCTURE AND EXCUTION METHOD}

1 is a hydraulic jack separation state diagram according to an embodiment of the present invention.

Figure 2 is a state before mounting the support plate of the hydraulic jack of the present invention.

Figure 3 is a cross-sectional view of the operating state of the hydraulic jack of the present invention.

Figure 4 is a state diagram when the lifting bar descends of the hydraulic jack of the present invention.

Figure 5 is a plan view of the installation state of the hydraulic jack of the present invention.

Figure 6 is a flow chart of the construction process replacement device using the hydraulic jack of the present invention.

Figure 7 is a hydraulic jack installation state for replacing the device according to the prior embodiment.

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

1: top slab 2: pier

10: hydraulic jack body 11: lifting bar

20: support tube 21: hollow part

30: support plate 40: chair device

41: upper plate 42: lower plate

43: pad shoe

The present invention relates to a construction method for replacing the bridge device, and more particularly to a hydraulic jack structure and a construction method for securing the construction space by using a hydraulic jack when replacing the bridge device supporting the bridge top plate. .

In general, the bridge is installed on the upper part of the bridge pilings at regular intervals through the bridge device, it is possible to pass the vehicle through the upper surface of the top slab.

In this way, the bridges are supported by the device to expand or contract the upper slab slabs according to the stretching stress.

On the other hand, as the bridges pass over a long time, cracks or breakages occur in the top slabs and the bridges due to the natural ageing of the vehicle or the accumulation of loads due to the passage of the vehicle.In order to replace or repair the bridges, hydraulic jacks are applied between the bridge piers and the top slabs. After the upper slab is raised to a predetermined height, the replacement work is performed.

7 shows such a prior art, the actuation device in the state of lifting the upper slab 1 by operating the hydraulic jack 100 in a state where the hydraulic jack 100 is positioned between the upper slab 1 and the pier 2. The lower plate 111 of the 110 is dismantled, and the lower plate 111 is buried in the bad concrete, so to dismantle it, the concrete is crushed using a breaker.

However, such a replacement operation is a long time operation, the general hydraulic jack is a slight hydraulic fall phenomenon occurs over time, the upper slab (1) is gradually lowered, so that the replacement operation of the bridge device is not smooth.

In particular, since most of the replacement device construction work is carried out without blocking the traffic, there is a problem that the risk of large accidents can exist in the course of work.

The present invention has been proposed to improve the above problems in the prior art, by providing a hydraulic jack that can be stably supported by supporting the upper slab at a predetermined height for a predetermined time during the replacement operation of the chair, The purpose is to make it easy.

In addition, another object of the present invention is to minimize the power consumption of the hydraulic jack by operating the hydraulic jack only during the initial top slab raising process and finally the top slab lowering process.

The object of the present invention is a hydraulic jack having a lifting rod which is lifted by internal hydraulic pressure at the center of a hydraulic jack main body, the support tube forming a hollow having an upper and lower openings so that the hydraulic jack main body is inserted, and an upper surface and a support tube of the hydraulic jack main body. It can be achieved through a hydraulic jack structure, characterized in that consisting of a plurality of support plates that are seated in a multi-layered form across the top surface.

In addition, in the construction of replacing the bridge device by maintaining the state of raising the top slab for a predetermined time by using the hydraulic jack on the bridge device installed to support the bridge slab on the bridge, the top plate slab is driven by raising the lifting bar by driving the hydraulic jack. The slab ascending step to further increase to a certain height, a support tube installation step for mounting the support tube forming the same height as the hydraulic jack body on the outer circumferential side in the form of surrounding the circumference of the hydraulic jack body, simultaneously on the upper surface of the hydraulic jack body and the support tube Plate stacking step of stacking a plurality of support plates in a multi-layer to a height close to the bottom surface of the upper slab in the overlapped position, while the lifting height of the upper slab is maintained by the lifting rod and the support plate while removing and replacing the device Step of replacing the device, the bridge of the device Upon completion of the sieve, the hydraulic jack is driven to raise the lifting bar again and the supporting plate is removed to remove the stacked support plates. Finally, the hydraulic jack is reversed to lower the lifting bar to return the upper slab to its original position. It can be achieved through the construction method replacement device using a hydraulic jack comprising a.

Hereinafter, a specific embodiment of the present invention will be described with reference to FIGS. 1 to 6.

First, looking at the structure of the replacement construction hydraulic jack according to this embodiment with reference to Figures 1 and 2, the lifting bar 11 to be made by the hydraulic pressure supplied through the supply hose 12 is provided in the center A normal hydraulic jack main body 10, a support tube 20 having a predetermined height constituting the hollow portion 21 to be mounted in a form surrounding the hydraulic jack main body 10, and the upper surface of the support tube 20 Will be composed of a plurality of support plates 30 are stacked around the elevating bar (11).

In particular, the support tube 20 is provided with a height (H) equal to the height (h) of the hydraulic jack main body 10, the horizontal surface that the upper surface 20a of the support tube and the upper surface (10a) of the hydraulic jack body when the mounting is continuous To achieve the effect that the mounting surface of the support plate 30 is extended to achieve the shape, the shape of the hollow portion 21 also made the same circular shape as the outer peripheral surface of the hydraulic jack main body 10 to be in close contact with each other It is desirable to allow this to be done.

In addition, the support plate 30 is preferably composed of a metal material or a synthetic resin material having a certain hardness so as to stably support the upper load.

On the other hand, the support plate 30 has a horseshoe shape divided into symmetrical forms on the basis of the elevating bar (11), it was possible to maintain a stable coupling state fitted to the elevating bar (11).

Reference numeral 40 denotes a conventional teaching device composed of an upper plate 41, a lower plate 42, and a pad shoe 43.

With reference to the flow chart of Figure 6 will be described the replacement construction process of the device using the hydraulic jack of the present invention constituting such a structure.

In order to replace the bridge device 40 installed in order to support the upper slab (1) of the bridge on the bridge (2), it is necessary to maintain the state of raising the upper slab for a predetermined time using a hydraulic jack.

< ST  1> Support tube  Installation Step

That is, at this time, in the state in which the hydraulic jack main body 10 is disposed at an appropriate position on the pier 2, the support tube 20 of the present invention is installed in the form as shown in FIG. 2, and each of the upper surfaces 10a and 20a is one. By forming a horizontal plane of the, the support plate 30 to be seated so that the portion can be expanded.

< ST  2> Bridge deck  Ascent

Subsequently, when the hydraulic pressure is supplied through the hydraulic supply hose 12 by the operation of the hydraulic pump (not shown), the elevating rod 11 provided at the center of the hydraulic jack main body 10 is gradually raised, and the upper slab of the bridge 1 ) Is raised to a certain height (d ₁ ).

That is, at this time, as the upper slab 1 is raised, the upper plate 41 of the teaching device 40 coupled to the bottom is raised together, so that the upper plate 41 and the lower plate 42 are spaced apart. As they build up, they are released from each other.

< ST  3> Plate lamination step

The upper surface 10a of the hydraulic jack body and the support tube as shown in Figs. 3 and 5 in the state in which the upper slab 1 is raised to an appropriate height d ₁ by the lifting force of the elevating rod 11 in the second step. A plurality of support plates 30 are stacked in a symmetrical direction on the basis of the elevating rods 11 at positions simultaneously covering 20a.

That is, in this case, the horseshoe-shaped support plate 30 is provided in a symmetrical manner to be laminated in multiple layers up to a height in close contact with the bottom of the upper slab 1, and the upper slab 1 is not only the elevating rod 11. Not supported by the support plate 30 to a certain height.

< ST  4> Device  Replacement step

In this way, while the lifting height of the upper slab 1 is maintained by the elevating rod 11 and the support plate 30, the chair device 40 is safely separated from the upper slab 1 and the pier 2, and then a new chair. You will install the device.

In particular, such replacement is usually taken over 24 hours because it includes a concrete mortar work, as the lifting bar 11 is gradually lowered as the hydraulic pressure is gradually released from the hydraulic jack as shown in FIG. As will be achieved a state spaced apart from the upper slab (1).

However, even if the height of the elevating rod 11 is lowered in this way, since the support plate 30 surrounding the periphery maintains the initial raising height d ₁ of the upper slab 1 stably, the work is performed. It can be made easily.

< ST  5> support plate removal step

Then, when the replacement of the chair device 40 is completed, the support plate 30 is first removed before the lifting bar 11 of the hydraulic jack is lowered to its original position.

That is, at this time, by driving the hydraulic jack to raise the elevating rod 11 to a predetermined height (d ₂ ) higher than the initial raising height (d ₁ ), to remove the load of the upper slab (1) applied to the support plate 30 In this state, it is possible to easily remove the support plates 30 installed in the stack.

< ST  6> Lifting rod  Descent stage

When the removal of the support plate 30 is completed, the upper plate slab 1 can be returned to its original position by finally recovering the hydraulic pressure of the hydraulic jack and lowering the elevating bar 11.

Therefore, when the support tube 20 and the support plate 30 of the present invention are used, the upper slab 1 of the bridge can be maintained at an elevated constant height for a long time during which the replacement construction work of the bridge device 40 is performed. It can be seen that the work efficiency can be maximized.

In addition, although specific embodiments of the present invention have been described and illustrated above, it is obvious that the hydraulic jack structure and construction method of the present invention may be variously modified and implemented by those skilled in the art.

For example, in the above embodiment, the structure of the support tube 20 has a cylindrical shape, but the structure of the support tube 20 can be modified in various forms according to the external shape of the hydraulic jack body 10.

Therefore, such modified embodiments should not be individually understood from the technical spirit or the prospect of the present invention, and such modified embodiments shall fall within the appended claims of the present invention.

The present invention as described above, the construction so that the initial height of the bridge top plate can be stably supported for a certain time by changing the structure of the hydraulic jack used when replacing the bridge device supporting the bridge top plate construction The safety of the can be maximized.

In particular, by extending the seating surface of the support plate that is laminated in a multi-layer using the support tube, it shows an advantage that the laminated state can be maintained more stable.

Claims (7)

In the center of the hydraulic jack main body 10, in the hydraulic jack for replacing the bridge device provided with a lifting rod 11 for supporting the upper slab 1 of the bridge to a certain height while being elevated by internal hydraulic pressure, A support tube 20 which forms a hollow portion 21 in which the hydraulic jack main body 10 is inserted so that the hydraulic jack main body 10 is inserted; The hydraulic jack structure, characterized in that composed of a plurality of support plates (30) which are seated in a multi-layered form across the hydraulic jack body (10) upper surface (10a) and the support tube (20) upper surface (20a). The method according to claim 1, The support pipe 20 is a hydraulic jack structure, characterized in that the inner circumferential surface shape to form a hollow portion 21 is formed the same as the outer circumferential surface shape of the hydraulic jack body (10). The method according to claim 1 or 2, The height H of the support tube 20 is equal to the height h of the hydraulic jack body 10 so that the top surface 20a of the support tube 20 has the same height as the top surface 10a of the hydraulic jack body (H). = h) Hydraulic jack structure, characterized in that configured. The method according to claim 1, The support plate 30 is a hydraulic jack structure, characterized in that paired on the same layer and configured in a symmetrical form. delete In replacing and installing the bridge device by keeping the top slab raised for a certain time by using the hydraulic jack, the bridge device installed to support the bridge slab on the bridge, A support tube installation step of mounting the support pipe forming the same height as the hydraulic jack body on the outer circumferential side in the form surrounding the hydraulic jack body; (ST 1) The bridge top plate raising step of further raising the upper slab of the bridge to a predetermined height (d1) by raising the lifting bar of the hydraulic jack body; (ST 2) Plate stacking step of stacking a plurality of support plates in a position symmetrical with respect to the bottom surface of the upper slab in a multi-layer symmetrical form relative to the lifting bar at the same time across the upper surface of the hydraulic jack body and the support tube; (ST 3) Step of replacing the device to remove and replace the device while the height of the upper slab is maintained by the lifting bar and the support plate; (ST 4) A support plate removing step of removing the support plates that have been stacked and driving the hydraulic jacks to raise the lifting bar again when the replacement of the chair is completed; (ST 5) Lifting rod lowering step for returning the upper slab to the original position by lowering the elevating rod to reverse drive the hydraulic jack finally; (ST 6) Method of replacing the construction device using a hydraulic jack. The method according to claim 6, The lifting plate (d ₂ ) of the lifting bar in the step of removing the support plate (ST 5) The construction device replacement construction method using a hydraulic jack, characterized in that to raise the height (d ₁ ) or more in the slab rising step (ST 1).

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