KR20110087164A - Apparatus for constructing a bridge by using precast segmental method - Google Patents

Abstract

PURPOSE: A mounting device for PSM method is provided to minimize traffic inconvenience and the problem on construction safety. CONSTITUTION: A mounting device for PSM method comprises a main girder(110), a front nose, a rearward nose, a crane(150), a hoist, and a suspension beam(180). The crane moves on an upper rail of a main girder in a throttling direction. The suspension beam is installed on the top of the main girder. Upper plate segments are arranged and hanged on the lower part of the suspension beam.

Description

INSTALLATION DEVICE FOR PS M TECHNOLOGY {APPARATUS FOR CONSTRUCTING A BRIDGE BY USING PRECAST SEGMENTAL METHOD}

The present invention relates to a system for building a Precast Segmental Method (PSM) bridge, and more specifically, to enable forward movement of the main girder without dismantling the launching block from the main girder, A hinge shaft that can be rotated is installed at the connection point of the rear nose, and hydraulic cylinders are installed at both sides of the connection point for easy adjustment of angle between the curved sections, and the upper and lower parts can be folded without dismantling the main support. The hinge shaft and hydraulic cylinder can be installed so that it can be easily moved without interference with the suspension beam when moving forward, so that the bridge construction work can be completed as soon as possible, minimizing traffic inconvenience and safety problems due to traffic control, and construction period It relates to the installation device for the PS method that can achieve the reduction of the overall construction cost through the reduction of.

In general, in the case of constructing bridge structures used for overpass or light rail in the city center, it causes environmental and traffic problems around the site, and appropriate construction method is required to solve this problem.

As a construction method, a PSM (Precast Segmental Method) method is used. The PSM method is precisely manufactured in the factory with a uniform quality of the upper plate segment, which is a bridge upper structure divided into a predetermined length, and then is used in the field. It is a method that completes the bridge structure by aligning, joining and tensioning between alternating or pier using the installation device for construction method.

The conventional installation apparatus for the PS method has a main girder installed in the axial direction on the upper side of the alternating or pier, and the front nose and the rear nose (Rear Nose) on the front and rear of the main girder, respectively. ) Is extended.

And a crane is installed on the upper part of the main girder, such a crane is provided with a hoist, such a hoist lifts the upper plate segment from the ground through the lifting beam, and then walks to the main girder through the suspension beam between the shifts or piers The top plate structure is constructed by aligning and extending the top plate segments in turn to alternate between or between the piers.

Therefore, the installation device for the PS method such that when constructing a building such as an overpass or a bridge in the city, an advantage that can easily build the structure in the field assembly type is obtained.

However, the conventional installation apparatus 1 for the PS method is as shown in FIG. 1A in the process of moving the main girder in which the construction of the predetermined period is completed in the axial direction, as shown in FIG. "Integral Launching Block (Launching Block) 12 of the type is formed, as shown in Figure 1b, the launching wagon (Launching Wagon) 20 when moving the main girder 10 and the launching block 12 It is a structure that cannot be passed through the hydraulic cylinder 22 of the upper portion.

Therefore, when the main girder 10 is moved, the heavy launching block 12 must be completely dismantled and moved from the main girder 10, thus requiring a lot of time and manpower to disassemble and assemble the launching block 12.

In addition, the installation apparatus 1 for the conventional PS method is constructed in a straight section 30 as shown in Figure 2a, and a curved section 40 as shown in Figure 2b, such a curved section 40 In the construction at, the angle is changed by adjusting the connection angle θ at the intermediate connection point P of the main girder 10 and the connection point P of the front and rear noses 50a and 50b, respectively. This should be done.

However, as shown in FIG. 3A and FIG. 3B, the installation apparatus 1 for the conventional PS method is a connection point between the intermediate connection point P of the main girder 10 and the front and rear noses 50a and 50b. In the adjustment of the connection angle θ at (P), the manual jack or the screw jack 52 is used.

That is, hinge shafts 56 are formed at the connection points P of the intermediate connection point P of the main girder 10 and the front and rear noses 50a and 50b, respectively, on both sides of the connection points P. After the manual jack or screw jack 52 was installed, it was manually adjusted to adjust the connection angle θ of the connection point P.

Therefore, the conventional installation apparatus 1 for the PS method has a connection angle θ at the connection point P between the intermediate connection point P of the main girder 10 and the front and rear noses 50a and 50b. Coordination work took a lot of time and manpower, resulting in inefficient work elements and problems of improvement.

In addition, in the conventional installation apparatus 1 for the PS method, as shown in FIGS. 4A and 4B, the main girder 10 moves in the axial direction while moving the main support 70 from the upper side of the alternating or pier. In this case, the lower member 72 of the main support 70 mounted on the hoist 62 of the crane 60 is moved to the main girder 10 during the movement of the main support 70 by the crane 60. There was a problem in that the lower member 72 of the main support 70 must be completely dismantled and separated from the upper member 74 because it cannot pass through the installed suspension beam 80.

Thus, the process of completely dismantling and separating the lower member 72 of the main support 70 is because the lower member 72 of the main support 70 is a heavy object, the additional equipment (hydraulic crane) (not shown) After the lower member 72 is moved in advance, the upper member 74 of the main support 70 is subsequently moved, so that additional time and equipment are put in and the work process is delayed, and with safety problems. The cost of construction was greatly increased.

As such, the construction using the conventional PSM method is most often a construction that must be completed in a short time. Particularly, the light rail construction passes through the middle of the city, so there are many curved sections, and the construction of the city should be completed in a very short time.

Accordingly, the installation apparatus 1 for the conventional PS M method improves the structure of the launching block 12 of the wrenching wagon 20 in order to facilitate the movement in the curved section 40 and minimize the input of time and manpower during the movement. In the curve section 40, the structure of the connection angle θ of the front and rear noses 50a and 50b with respect to the main girder 10 is improved, and when the main support 70 is moved by the crane 60, the main There is an urgent need for technical development to improve the structural problem in which the lower member 72 of the support 70 collides with the suspension beam 80.

The present invention is to solve the conventional problems as described above, the object is to construct a bridge construction used for overpass or light rail construction in the city, the bridge construction work can be completed as soon as possible, due to traffic control It is to provide an installation device for the PS M method to minimize the inconvenience and safety problems, and to reduce the overall construction cost by reducing the construction period.

In order to achieve the above object, the present invention, in the installation method for the PSM method for building a PSM (Precast Segmental Method) bridge, in the axial direction from the top through the main support on the upper side of the alternating or pier, respectively A main girder installed to extend; A front nose and a rear nose which are connected coaxially with the main girder at the front and the rear of the main girder, respectively, and the front and rear leg portions are respectively installed at the lower portion thereof and are made of trusses; A crane movable in an axial direction on the upper rail of the main girder; A hoist which is movable in a transverse direction perpendicular to the throttling direction on the upper rail of the crane and for lifting a heavy object including the upper plate segment through a file hook; A suspension beam installed at an upper portion of the main girder, and arranged at a lower portion of the main girder by suspending the upper plate segments to align the shifts or the piers, and then extending and fixing the shifts between the piers or piers in turn; And installed between the main girder and the main support, the lower end of the launching block fixed to the lower surface of the main girder is connected to the rod of the hydraulic cylinder rotatably, the upper end is rotated toward the launching block side to the pin The launching wagon is detachable from the hydraulic cylinder through the dismantling of the pin while the launching block is connected to the main girder and is connected to the main girder through the launch wagon. To provide.

In addition, the present invention preferably is provided at the intermediate connection point of the main girder, and the connection point of the front and rear noses respectively coaxially connected to the front and rear, respectively, the brackets are provided on both sides thereof, and between the brackets. Hydraulic cylinders are disposed on both sides of the main girder between the intermediate connection point and the main girder and the front and rear nose connection points, respectively.In the straight section, the intermediate connection point of the main girder and the main girder and the front and rear The hydraulic cylinders on both sides of the connection point of the nose are arranged side by side in parallel, and in the curved section, one hydraulic cylinder is pushed and the other hydraulic cylinder is pulled to connect the intermediate connection point of the main girder with the main girder and the front and rear noses. It provides an installation device for the PS method to adjust the connection angle, respectively, around the hinge axis of the center point.

In addition, the present invention preferably the main support forms a hinge shaft on one side of the connecting portion of the upper member and the lower member, the body of the hydraulic cylinder is mounted on the side of the upper member, the side of the lower member to protrude the hydraulic support By connecting the rod of the cylinder rotatably, the operation of the hydraulic cylinder causes the lower member to be folded with respect to the upper member of the main support so that the lower member of the main support can be folded without being dismantled and carried by the crane to move beyond the upper part of the suspension beam. It provides an installation device for the PS method is configured to be.

According to the installation device for the PS method according to the present invention by connecting the hydraulic cylinder of the launching block and the launching wagon with a pin to enable the front movement of the main girder through the dismantling the pin without dismantling the launching block from the main girder, the main Rotating hinge shafts are installed at the intermediate connection points of the girder and the connection points of the front and rear noses, and the hydraulic cylinders are installed on both sides of the connection points, so that the angle of the construction period of the curved section can be easily adjusted.

In addition, by installing a hinge shaft and a hydraulic cylinder to fold the upper and lower parts of the lower support of the main support hanging on the hoist of the crane with respect to the upper member it can be easily moved without interference with the suspension beam when moving forward.

Therefore, the present invention can complete the bridge construction as soon as possible, minimize the inconvenience and safety problems due to traffic control, and can achieve an excellent effect of reducing the overall construction cost through the reduction of the construction period.

Figure 1a is a side view showing a structure in which the conventional "a" type integral launching block (Launching Block) is fixed to the lower surface of the main girder.
1B is an explanatory view showing a structure in which the launching block is separated from the main girder and the main girder is moved due to the conventional "a" type integrated launching block.
Figure 2a is a plan view showing a connection state of the main girder and the front, rear nose when the construction of a straight section in the conventional installation method for the PS method.
Figure 2b is a plan view showing a connection state of the main girder and the front, rear nose when the construction of the curved section in the conventional installation method for the PS method.
Figure 3a is a side view of the screw jack is installed in the connection point of the main girder and the front, rear nose in the conventional installation device for the PS method.
Figure 3b is a plan view for adjusting the angle of the connection point of the main girder and the front, rear nose using a screw jack in the conventional installation device for the PS method.
Figure 4a is a cross-sectional view showing a state in which the lower member of the main support is caught by the suspension beam does not pass on the installation device for a conventional PSM method.
4B is a cross-sectional view illustrating a state in which the lower member of the main support is separated from the upper member and passed on the suspension beam in the conventional installation apparatus for the PS method.
Figure 5 is a side view showing the overall installation device for the PS method according to the present invention.
Figure 6 is a plan view showing the overall installation device for the PS method according to the present invention.
Figure 7a is a cross-sectional view showing a structure for moving the upper plate segment to the crane in the installation method for the PS method according to the present invention.
Figure 7b is a cross-sectional view showing the front and rear nose and the front and rear legs coupled to the main girder in the installation method for the PS method according to the present invention.
FIG. 8A is a side view illustrating a structure in which a launching block of the type “—” is fixed to the lower surface of the main girder in the installation apparatus for the PS method according to the present invention.
8B is an explanatory view showing a structure in which the main girder is moved onto the launching wagon without removing the launching block from the main girder through the "-" type launching block in the installation apparatus for the PS method according to the present invention.
Figure 9a is a side view of the hydraulic cylinder is installed in the connection point of the intermediate connection point and the front, rear nose of the main girder in the installation device for the PS method according to the present invention.
9B is a plan view in which a hydraulic cylinder is installed at an intermediate connection point of the main girder and a connection point of the front and rear noses in the installation apparatus for the PS method according to the present invention.
Figure 9c is a plan view for adjusting the angle of the connection point of the main girder and the front, rear nose using a hydraulic cylinder in the installation method for the PS method according to the present invention.
10 is a cross-sectional view showing a state in which the lower member of the main support is folded using the hinge shaft and the hydraulic cylinder with respect to the upper member in the installation apparatus for the PS method according to the present invention.
11A, 11B and 11C are cross-sectional views illustrating a state in which the lower member of the main support is folded toward the upper member side and passed over the suspension beam in the installation apparatus for the PS method according to the present invention.

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

The installation apparatus 100 for the PS method according to the present invention is shown overall in FIGS. 5 and 6. The installation apparatus 100 for a PS method according to the present invention includes a main girder 110 installed in an axial direction on an upper side of an alternating or pier 105.

The main girder 110 as described above has a length of about 60 m and is composed of a plurality of plate boxes.

The main girder 110 has a connection point P formed at a middle portion thereof, and a front nose 120a and a rear nose 120b each having a truss member at the front and the rear thereof. As shown in FIG. 7A, a plurality of main supports 130 and launching wagons 140 are installed on the main girder 110 side, and the lower portion of the front nose 120a and the rear nose 120b are extended. As shown in FIG. 7B, front and rear leg portions 122a and 122b are respectively provided.

In addition, a crane 150 is installed at an upper portion of the main girder 110. The crane 150 includes a hoist 160 as a gantry type, and the hoist 160 is a lifting beam. Lift the top plate segments S from the ground via 170, then walk through the suspension beam 180 to the main girder 110 and align between the shifts or piers 105, and in turn alternately or piers 105. The upper plate structure Sa is constructed by extending and fixing in between.

Such a crane 150 is movable in the axial direction on the upper rail 112 of the main girder 110, the hoist 160 is transversely perpendicular to the axial direction on the upper rail 152 of the crane 150 It is movable in the direction, it is configured to lift the heavy object including the upper plate segment (S) through the rope hanger (162).

In addition, a suspension beam 180 is installed at an upper portion of the main girder 110, and the suspension beam 180 aligns between the alternating or piers 105 by suspending the upper plate segments S at the lower portion thereof. In turn, it is fixed by extending between the alternate or pier 105.

Such installation apparatus 100 for a PS method according to the present invention, as shown in Figures 8a and 8b, to move the main girder 110 is completed in a certain period of construction in the axial direction, where the conventional " Unlike the "a" type launching block 12, the "-" type of launching block 142 is provided.

That is, the launch wagon 140 installed between the main girder 110 and the main support 130 has a launch block 142 fixed to the lower surface of the main girder 110 to have a “-” type structure. The launch block 142 is connected to the rod 144a of the hydraulic cylinder 144 so as to be rotatable, and the upper end thereof is rotatably rotated to the launch block 142 to be detachably connected through the pin 146. The connecting lever 148 is mounted.

The connection lever 148 is rotatably connected to the rod 144a of the hydraulic cylinder 144. When the release block 142 is connected to the main girder 110, the pin 146 is dismantled. Separated from 144, and in this state, when moving with the main girder 110, as shown in Figure 8b, it is not caught on the upper portion of the launch wagon 150.

Therefore, the launching block 142 provided in the installation apparatus 100 for the PS method according to the present invention is not caught by the launching wagon 150 without being dismantled from the main girder 110 so that Enable forward movement.

In addition, the installation apparatus 100 for the PS method according to the present invention, as shown in Figure 9c, the middle connection point (P) and the front, rear nose (120a) of the main girder 110 in the curve section 240 At the connection point P of 120b, the angles are changed by respectively adjusting the connection angles θ, and then construction must be performed.

The installation apparatus 100 for the PS method according to the present invention is connected to the intermediate connection point P of the main girder 110 and coaxially with the front and rear, respectively, in the curved section 240. Hydraulic cylinders 244a and 244b operated by hydraulic power are mounted at the connection points P of the front and rear noses 120a and 120b, respectively.

That is, as shown in Figures 9a and 9b, the bracket 242 is installed on both sides of the intermediate connection point (P) of the main girder 110 and the connection point of the front and rear nose (120a, 120b), respectively, Between the brackets 242, the hydraulic cylinders 244a and 244b are provided on both sides so as to span between the connection points P, respectively.

Accordingly, as shown in FIG. 9B, in the straight section 230, both side hydraulic cylinders 244a and 244b are arranged in parallel in parallel at the connection point P, and in the curved section 240, shown in FIG. 9C. As described above, the one side hydraulic cylinder 244a is pushed and the other hydraulic cylinder 244b is pulled to adjust the connection angle θ at the connection point P about the central hinge axis 248, respectively. .

As described above, the installation apparatus 100 for the PS method according to the present invention has a connection angle P at the middle connection point P of the main girder 110 and the connection point P of the front and rear noses 120a and 120b. Since the adjustment method of θ) adopts the hydraulic cylinders 244a and 244b which are made by remote hydraulic operation, the angle adjustment of the curved section 240 is made easy and easy.

On the other hand, the installation apparatus 100 for the PS method according to the present invention, while moving the main support 130 in the upper side of the alternating or pier 105, the main girder 110 is moved in the axial direction, the crane ( During the movement of the main support 130 by 150, the lower member 134 is shown in FIG. 10 with respect to the upper member 132 of the main support 130 mounted on the hoist 160 of the crane 150. Similarly, it has a folding structure.

That is, as shown in Figure 11a, 11b and 11c, the main support 130, which hangs through the hook 162 to the hoist 160 is one side of the connecting portion of the upper member 132 and the lower member 134 The hinge shaft 260 is formed at the side, and the body 272 of the hydraulic cylinder 270 is mounted on the side of the upper member 132, and the support cylinder 274 is protruded on the side of the lower member 134 so that the hydraulic cylinder ( The rod 272a of the 270 is rotatably connected.

When the hydraulic cylinder 270 is operated through the above structure, the lower member 134 is lifted and folded about the upper member 132 of the main support 130, thereby dismantling the lower member 134 of the main support 130. Without the above, it is possible to fold upward and move beyond the top of the suspension beam 180.

As described above, the installation apparatus 100 for the PS method according to the present invention does not completely dismantle and separate the lower member 72 of the main support 70 from the upper member 74 as in the prior art (hydraulic crane). Do not need to put, the work process is made quickly, without causing problems of safety accidents due to disassembly and assembly of the main support 130, it is possible to significantly reduce the construction cost.

The installation apparatus 100 for the PS method according to the present invention as described above is launched by connecting the hydraulic cylinder 144 of the launching block 142 and the launching wagon 140 through the pin 146 and the connecting lever 148. The main girder 110 can be moved forward through the dismantling of the pin 146 without dismantling the block 142 from the main girder 110. Therefore, it can minimize the time required for a lot of work time and manpower.

In addition, the installation apparatus 100 for the PS method according to the present invention is a hinge shaft (rotating at the connecting point (P) of the intermediate connection point (P) of the main girder 110 and the front, rear nose (Nose) ( 248, and hydraulic cylinders 244a and 244b are installed at both sides of the connection point P, respectively, and the connecting angle θ of the main girder 110 and the front and rear noses 120a in the curved section 240. It is easy to adjust the connection angle (θ) of the (120b). Therefore, the present invention can significantly reduce the working time in the curve section 240, it is possible to achieve a reduction in construction costs.

In addition, the installation device 100 for the PS method according to the present invention, the upper and lower parts of the lower member 134 of the main support 130 hanging on the hoist 160 of the crane 150 with respect to the upper member 132 By installing the hinge shaft 260 and the hydraulic cylinder 270 to fold the front movement of the main support 130, it can be easily moved without interference with the suspension beam 180. Therefore, the present invention can greatly shorten the working time, it becomes unnecessary to add additional equipment can greatly reduce the construction cost.

As described above, the installation apparatus 100 for the PS method according to the present invention can complete the bridge construction work as soon as possible, minimize traffic inconveniences and safety problems due to traffic control, and reduce the overall construction cost by shortening the construction period. The savings can be achieved.

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 protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change 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 ...... Installation apparatus for conventional PS method
10 ..... Main girder 12 ...... "A" launching block
20 ..... Launching Wagon 22 ...... Hydraulic Cylinder
30 ..... Straight Section 40 ...... Curve Section
50a, 50b ..... front and rear nose 52 ...... screw jack
56 ...... Hinge shaft 60 ...... Crane
62 ...... Hoist 70 ...... Main Support
72 ...... lower member 74 ...... upper member
80 ..... Suspension beam 100 .... Installation device for the PS method of the present invention
105 .... shift or pier 110 ...... main girder
112,152 .... rail 120a, 120b ... front and rear nose
122a, 122b ...... Front and rear legs 130 ..... Main support
132 ...... upper member 134 ..... lower member
140 ..... Launching Wagon 142 .... Launching Block of "―" Type
144 .... Loading hydraulic cylinder 144a ......
146 .... Pin 148 ...... Connection lever
150 ..... crane 160 ..... hoist
170 ..... lifting beam 180 .... suspension beam
230 ...... Line Section 240 ...... Curve Section
244a, 244b ...... Hydraulic Cylinder 260 ...... Hinge Shaft
270 ..... Hydraulic cylinder 272 ...... Body
274 ...... Support 272a ..... Rod
P ....... Connection point S ...... Top segment
Sa ...... top structure θ ...... angle

Claims (3)

In the installation apparatus for the PM method to build a PM (Precast Segmental Method) bridge,
A main girder 110 installed to extend in an axial direction from the upper side of the alternating or pier 105 through the main support 130, respectively;
Front and rear legs of the main girder 110, respectively, coaxially connected with the main girder 110, the front and rear legs (122a, 122b) are respectively installed and the front nose made of a truss Front Nose and Rear Nose;
A crane 150 movable in an axial direction on the upper rail 112 of the main girder 110;
A hoist 160 which is movable on the upper rail 152 of the crane 150 and is movable in a transverse direction perpendicular to the throttling direction and lifting a heavy object including the upper plate segment S through the rope hanger 162;
It is installed on the upper part of the main girder 110, the lower portion of the upper segment (S) to align between the alternating or pier 105, and then in turn to extend between the alternating or pier 105 is fixed Suspension beam 180; And
The launch block 142 installed between the main girder 110 and the main support 130 and fixed to the lower surface of the main girder 110 has a lower end thereof on the rod 144a of the hydraulic cylinder 144. Rotatably connected, the upper end of which has a connecting lever 148 that is upwardly rotated toward the launching block 142 to be detachably connected through the pin 146, and the launching block 142 is connected to the main girder 110. And a launch wagon (150) separated from the hydraulic cylinder (144) through the dismantling of the pin (146) in the state, and moving together with the main girder (110). According to claim 1, Intermediate connection point (P) of the main girder 110, and the connection point (P) of the front and rear nose (120a) (120b) connected coaxially to the front and rear, respectively Brackets 242 are installed on both sides thereof, and between the brackets 242 is an intermediate connection point P of the main girder 110 and the main girder 110 and the front and rear noses 120a and 120b. Hydraulic cylinders (244a) and (244b) are disposed on both sides so as to span each of the connection points (P) of each, and in the straight section (230), the intermediate connection point (P) of the main girder (110) and the main girder ( Both sides of the hydraulic cylinders 244a and 244b at the connection point P between the 110 and the front and rear noses 120a and 120b are arranged side by side in parallel, and in the curved section 240, the one side hydraulic cylinder 244a is disposed. And the other hydraulic cylinder 244b is pulled to connect the intermediate connection point P of the main girder 110 with the connection point between the main girder 110 and the front and rear noses 120a and 120b. (P) P SM method for installing the device, characterized in that for adjusting a connection angle (θ), respectively about the hinge shaft 248 in the center. According to claim 1, The main support 130 forms a hinge shaft 260 on one side of the connecting portion of the upper member 132 and the lower member 134, the side of the upper member 132 is a hydraulic cylinder ( The body 272 of the 270 is mounted, and the side of the lower member 134 protrudes the support 274 to connect the rod 272a of the hydraulic cylinder 270 so as to rotatably operate the hydraulic cylinder 270. By lowering the lower member 134 with respect to the upper member 132 of the main support 130 to be folded without dismantling the lower member 134 of the main support 130 is carried by the crane 150 is suspended suspension ( 180) The installation apparatus for the PS method, characterized in that configured to move beyond the top.

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