KR200227594Y1 - Device pushing the steel box girder sidewise in incremental launching method - Google Patents

Abstract

The present invention relates to a transverse movement device for a continuous extrusion method, a pair of bases (10) installed on both sides on the pier (3), and a pair of hydraulic cylinders hinged to the inner end of each base (10) 20), a pair of pistons 30 inserted into each of the hydraulic cylinders 20 to slide, and a hydraulic pump 40 for moving the respective pistons 30 by adjusting the pressure in the hydraulic cylinders 20. And a pair of moving shafts 60 vertically erected on the respective bases 10 and slidably moved in the longitudinal direction of the respective bases 10 by the respective pistons 30, and inside the respective moving shafts 60. It consists of a pair of support rollers 70 fixedly installed at each end to support and move the girder 1, and by extruding the girder by correcting the linear deviation in the transverse direction, the extrusion construction is possible even in the compound linear section. Difficulty in section and lower construction Construction is now possible.

Description

Horizontal pushing device for continuous extrusion method {Device pushing the steel box girder sidewise in incremental launching method}

The present invention relates to a device used in the continuous extrusion method for constructing a girder bridge, and more particularly, to a transverse movement device for a continuous extrusion method provided on the upper end of the piers for moving the segment in the transverse direction.

In general, the continuous extrusion method among the methods of laying the girder bridge is a temporary construction method by in-site casting of the girder bridge, and the upper structure of the bridge is manufactured one by one at the mold production site installed at the rear of the alternating or first piers, The mold is pushed in the direction of the bridge, and after the extrusion is completed, the bridge device is permanently fixed to the segment body to complete the bridge.

In other words, in the mold making workshop, the propulsion nose is connected to the first segment, and the extrusion unit extrudes one segment by the longitudinal direction of the bridge.

Therefore, it is widely used when constructing bridges in valleys, railway sections and sections where temporary structures cannot be installed.

In the conventional continuous extrusion method, the copper bar is almost unnecessary and the replacement is completed by placing the segments sequentially in the production site, so the safety is high, and the construction place and the city factory are uniform, so the construction management is easy, and the work place is kept warm. Equipped with facilities, the construction can be carried out regardless of external climatic conditions, the process of 1 cycle is decided, and the construction can be repeated repeatedly without delay, making the process easy to manage.

Under the conventional continuous extrusion method, since the bottom points of the mold must pass through the bearing position to have the equivalent pressure stress, the linearity of the bottom of the mold must be a straight line or an arc. Therefore, the line + curve, relaxation curve + curve, straight line + In order to apply the ILM method because it is not applied to the relaxation curve, there has been a problem in that a linear design for excessively straightening the road line or excluding the relaxation curve has been made.

The present invention has been devised to solve all the problems described above, and is provided at the upper end of the piers when using the continuous extrusion method is a continuous to facilitate the construction of the girder bridge in the composite linear section by moving the girder in the transverse direction It is an object of the present invention to provide a transverse movement device for the extrusion method.

The present invention for achieving the above object, a pair of bases installed on both sides on the pier, a pair of hydraulic cylinders hinged to the inner end of each base, and inserted into each of the hydraulic cylinders to slide A pair of pistons, a hydraulic pump for moving the respective pistons by adjusting the pressure in the hydraulic cylinders, a pair of moving shafts vertically mounted on the respective bases, and slided in the longitudinal direction of the respective bases by the respective pistons, It is a structure consisting of a pair of support rollers fixed to each of the inside of the moving shaft to support and move the girder.

Therefore, in the state in which both sides of the girder are supported by the support rollers of the moving shaft, each of the moving shafts is moved by the piston, and the forward segment can be moved while moving the first segment in the lateral direction.

1 is a perspective view showing a transverse movement device for a continuous extrusion method according to the present invention,

2 is a plan view of FIG.

3 is a side view of FIG. 1;

Figure 4 is a side view showing an operating state of the present invention,

5 is a plan view showing an operating state of the present invention.

Explanation of symbols on the main parts of the drawings

1: girder 2: propulsion nose

3: pier 4: feed roller

10: Base 11: Guide Home

12: fixing bracket 20: hydraulic cylinder

30: piston 40: hydraulic pump

41: hydraulic line 50: connecting bracket

60: moving shaft 70: support roller

71: roller bracket

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

1 is a perspective view showing a lateral movement device for a continuous extrusion method according to the present invention, Figure 2 is a plan view of Figure 1, Figure 3 is a side view of Figure 1, Figure 4 is a side view showing an operating state of the present invention, 5 is a plan view showing an operating state of the present invention.

The present invention according to the drawings described above is installed on both sides so that the girder 1 can pass on the pier 3 where the first segment of the girder 1 and the propelling nose 2 are positioned when the bridge is used for continuous extrusion. A pair of bases 10, a pair of hydraulic cylinders 20 hinged to the inner end of each base 10 and installed in the longitudinal direction of each base 10, and inserted into the respective hydraulic cylinders 20 And a pair of pistons 30 which slide in the longitudinal direction of each base 10, a hydraulic pump 40 for moving each piston 30 by adjusting the pressure in the respective hydraulic cylinders 20, and each piston A pair of moving shafts coupled to the front end of the 30 by a connecting bracket 50 and vertically mounted on the respective bases 10 so as to slide in the longitudinal direction of the respective bases 10 by the respective pistons 30. 60, fixed to each of the vertical to the inside of the movable shaft 60, respectively A structure consisting of a pair of support rollers 70 for supporting and moving the left and right sides of the girder (1).

A feature of the present invention having the above structure is that a pair of moving shafts 60 operated by the hydraulic cylinder 20 and the piston 30 are provided on the pier where the first segment is located in the girder 1. Each of the moving shafts with the piston 30 in a state in which both sides of the girder 1 forward-fed to a plurality of piers are supported by the supporting rollers 70 of the moving shaft 60 by an extrusion device installed at the rear of the shift. 60), the first segment can be moved forward while moving in the lateral direction.

The pair of bases 10 are horizontally fixed to the upper end of the piers where the first segment is located to fix the hydraulic cylinder 20 and guide the moving shaft 60.

That is, the pair of bases 10 are respectively fixed at regular intervals according to the width of the girder 1 on both sides of the bridge, and fixedly installed, and guide grooves 11 are formed at the upper ends of the bases 10, A fixed bracket 12 for coupling the hydraulic cylinder 20 is formed at the front end of the pair of base 10 facing each other.

The hydraulic cylinders 20 are hinged to the fixing brackets 12 at the inner ends of the respective bases 10 so as to be rotatable, and are installed in the longitudinal direction of the base 10, and each of the hydraulic cylinders 20 A line 41 is connected to the hydraulic pump 40.

One end of each piston 30 is inserted into each of the hydraulic cylinder 20, the other end is coupled to the moving shaft 60 by the connection bracket 50, the moving shaft 60 is the length of the base 10 It slides in the direction.

The pair of pistons 30 slides in the longitudinal direction of the base 10, but simultaneously moves in the same direction to simultaneously move the pair of moving shafts 60 in the same direction. It is possible to move the girder 1 located in one side transverse direction.

The hydraulic pump 40 is connected to each of the hydraulic cylinder 20 and the hydraulic line 41 to adjust the pressure in the hydraulic cylinder (20).

Here, the pair of pistons 30 slides in the longitudinal direction of the base 10, but simultaneously moves in the same direction, so that the pair of pistons 30 are operated simultaneously by the operation of one hydraulic pump 40. You can do it.

That is, since the pressure is increased in the one side hydraulic cylinder 20 and the pressure is reduced in the other side hydraulic cylinder 20, the pair of hydraulic cylinders 20 are eventually connected to the solenoid valve by the hydraulic pump 40. Will do the same.

The pair of moving shafts (60) sandwich the girder (1) therebetween and push the girder (1) in the longitudinal direction of the base (10) with one side of the moving shaft (60) to move horizontally. Since the girder 1 also moves forward by the moving shaft 60 in the transverse direction, it is also moved forward by an extruder installed at the rear of the shift, so that the girder 1 is movable inward of each moving shaft 60. The support roller 70 is provided so that it may be carried out.

Each of the support rollers 70 is fixed to the inside of each moving shaft 60 by a roller bracket 71, and a plurality of rollers are rotatably installed to rotate the left and right sides of the girder 1. .

4 and 5 to further explain the operating state of the subject innovation, the girder 1 by the feed roller 4 installed in the traveling direction of the girder 1 on the pier girder 1 of both the moving shaft 60 To pass through, at this time to move the moving shaft 60 in the direction to proceed to change the direction of the girder 1, the operation of the moving shaft 60 pressurizes one side hydraulic cylinder 20 The other side of the hydraulic cylinder 20 is to be made by reducing the pressure.

Therefore, the angle can be adjusted as needed by pushing the girder 1 to one side by moving the girder 1 to one side with the one-side moving shaft 60, so that the bridge can be constructed by applying the continuous extrusion method in the compound linear section. It will be possible.

As described above, according to the lateral moving device for the continuous extrusion method according to the present invention, by the extrusion of the girder by correcting the deviation of the linear in the transverse direction, it is possible to extrude construction even in the compound linear section, valley section, railway and line section and lower construction Construction is improved even in difficult work, there is an effect that the temporary equipment is somewhat reduced compared to the crane construction.

Claims (1)

The device used in the continuous extrusion method of connecting the propulsion nose (2) to the tip of the first segment of the girder (1) manufactured at the rear of the shift, continuously extruding over the pier (3) by one segment to complete the bridge. To A pair of bases (10) installed on both sides to allow the girder (1) to pass on the piers (3) where the first segment is located; A pair of hydraulic cylinders 20 hinged to inner ends of the bases 10 and installed in the longitudinal direction of the bases 10, respectively; A pair of pistons (30) inserted into the hydraulic cylinders (20) and slidingly moved in the longitudinal direction of each base (10); A hydraulic pump 40 for moving the respective pistons 30 by adjusting the pressure in the hydraulic cylinders 20; It is coupled to the front end of each of the piston 30 by a connecting bracket 50, vertically erected on each of the base 10 to slide in the longitudinal direction of the base 10 by the respective piston 30 A pair of moving shafts 60; A pair of support rollers 70 fixedly installed on the inside of each of the moving shafts 60 to support and move the left and right sides of the girder 1; and a lateral movement device for a continuous extrusion method. .