KR101040664B1 - Crane for constructing girder - Google Patents

Abstract

PURPOSE: A crane for installing a bridge is provided to convert a crane direction to the opposite direction so as to omit crane deconstruction and re-installing works. CONSTITUTION: A crane for installing a bridge comprises a crane girder, a plurality of legs, and a rotating device. The crane girder forms the body of the crane. The plurality of legs is fixed to the crane girder in the longitudinal direction and comprises a second leg(114) located at the center of the crane girder. The legs further include a first leg fixed to a front bridge post and a third leg located at a predetermined distance from the second leg. The rotating unit is included in the lower part of the second leg and rotates the crane using the second leg as the center of rotation.

Description

Rotating bridge crane {CRANE FOR CONSTRUCTING GIRDER}

The present invention relates to a crane for installing a girder in the upper part of the pier for the construction of the bridge, and more specifically, 180 ° to move in the opposite direction by moving the crane 180 ° of the moving direction after installing the girder It relates to a crane provided with a rotating device that can rotate.

In recent years, research on the construction method by precasting the members constituting the structure in advance and assembling them in the field has been actively conducted, which can ensure the quality of the structure regardless of the site situation. Has an advantage.

In the case of bridges, only the pier is constructed by the casting method, and prefabricated girders are manufactured on site.

Precast girders are pre-fabricated and installed to act as beams when constructing a structure such as a bridge. For example, the full span launching (FSLM) method pre-fabricates all girders of a bridge at a manufacturing site installed near the site. It is installed in the upper part of the pier in order to move forward.

The crane is used to install the girder on the top of the pier, but since the conventional conventional crane moves only in the forward direction, it is necessary to dismantle and reinstall the whole crane in order to change the moving direction of the crane in the opposite direction. There was this.

When building roads including overpasses or bridges, for example interstate highways, at the site where the road is actually constructed, move the crane from one side of the road to the one side to complete one part of the road, and then Complete the entire road construction by coming to the intermediate point and constructing the road in the opposite direction.

Therefore, after completing part of the road, the direction of the crane must be reversed. In the conventional crane, since there is no structure that can change the forward direction, the conventional crane is completely removed and reinstalled to move to the intermediate point. After that, the remaining roads were constructed.

In the related art, since the cost of dismantling and reinstalling the crane is expensive, it is not only economical, but there is a risk factor for safety due to demolition work and installation work.

The present invention has been made to solve the above problems, an object of the present invention is to provide a crane capable of switching the forward direction.

Another object of the present invention is to provide a crane provided with a rotating means capable of rotating the crane 180 ° so as to move in the opposite direction by switching the movement direction of the crane 180 °.

Another object of the present invention is to provide a crane that is economical and safety is reduced by reducing the cost according to the dismantling and reinstallation of the crane.

In order to achieve the above objects, in the present invention, the pier is installed at a plurality of points at predetermined intervals along the longitudinal direction of the bridge, and moving forward to install the girder sequentially installed in each section on the upper side of the bridge A crane comprising: a plurality of legs including a crane girder constituting a body of a crane, a second leg fixedly installed in the crane girder in a longitudinal direction, and positioned at a center of the crane girder, and a lower portion of the second leg. There is provided a bridge mounting crane comprising a rotating means for rotating the crane.

In the present invention, the leg is a first leg to be fixed to the front pier of the piers, a second leg is installed so as to be located on the upper surface of the pre-installed girder, and the second leg is provided at a predetermined distance from the crane The center of gravity of the may be made of a third leg to be located in the rear portion than the second leg.

In the present invention, the rotating means is a rotational auxiliary legs which are installed on both sides of the lower portion of the second leg, a wheel assembly provided on the lower end of the rotational auxiliary legs, the wheel assembly is coupled to the lower portion of the wheel assembly It may be made of a ring-shaped rail for guiding to rotate.

The wheel assembly may include a wheel installed to rotate on the rail, a housing installed on both sides of the wheel, and a bearing supporting the shaft of the wheel.

In the present invention, the rotation auxiliary leg may be installed to be detachable to the second leg.

In the present invention, a plurality of the rotational auxiliary legs and the wheel assembly can be installed in the second leg, it is possible to provide a more stable structure when the crane rotates.

In the present invention, the lower end of the second leg may further include a cylinder device for distributing the load by preventing the load from being concentrated on the tire wheel when lifting or moving the girder.

The cylinder device may include a main cylinder installed at the center of the second leg, and four auxiliary cylinders arranged in a quadrangular shape with respect to the main cylinder.

In the present invention, the tire wheel and the hydraulic jack installed on the lower end of the third leg is rotatably installed to the outside around the hinge to provide a space in which the girder is lifted.

According to the present invention as described above, it is possible to change the direction of the crane, in particular, the direction can be changed to 180 °, it is possible to make the forward direction of the crane in the opposite direction.

Therefore, when constructing the interstate highway, etc., after completing a part of the road, the crane can be reversed in the opposite direction without demolishing the crane, and the remaining roads can be constructed.

Such a present invention is not only economical by reducing the cost of dismantling and reinstallation of the crane is not only economical, but also has the effect of improving safety by eliminating the demolition work and installation work.

1 is a side view showing an embodiment of a crane for bridge installation according to the present invention;
Figure 2 is a plan view showing one embodiment of the crane for bridge installation according to the invention,
Figure 3 is a bottom view showing an embodiment of a crane for bridge installation according to the present invention,
Figure 4 is a bottom view showing the configuration of the rotating means according to the invention,
5 is a longitudinal sectional view showing a configuration of a rotating means according to the present invention;
Figure 6 is a bottom view showing that the rotating means of the present invention,
7 is a bottom view showing that the crane of the present invention rotates,
8 is a front view showing a second leg of the present invention,
9 is a front view showing a third leg of the present invention,
10 is a plan view before and after the movement of the tire in the third leg of the present invention,
11 is a plan view before and after the movement of the cylinder in the third leg of the present invention.

Hereinafter, with reference to the accompanying drawings an embodiment of the crane for bridge installation of the present invention will be described in detail.

1 is a side view showing an embodiment of a bridge installation crane according to the invention, Figure 2 is a plan view showing an embodiment of the bridge installation crane according to the invention, Figure 3 is a bridge according to the invention Bottom view showing one embodiment of an installation crane.

The crane of the present invention is a crane used to install a precast girder manufactured in advance in a pier, the pier 10 is installed at a plurality of points at predetermined intervals along the longitudinal direction of the bridge, and the upper side of the pier 10 Each section has a structure to move forward while installing girders sequentially.

In the present invention, the girder is named to represent the beam installed to act as a beam when the construction of a structure, such as a bridge, PC beams (PC BEAM), etc. that are used a lot in recent construction of the bridge is of course included therein. .

Crane of the present invention is fixed to the crane girders 120, 122 constituting the body, and the crane girders 120, 122 in the longitudinal direction, the second located in the center of the crane girders (120, 122) It includes a plurality of legs including legs 114.

In one embodiment of the present invention, as shown in Figure 2, the crane girders 120, 122 are installed in pairs so that two are placed on the left and right of the bridge.

Legs fixed in the longitudinal direction to the crane girders (120, 122) is preferably installed a plurality, in one embodiment of the present invention and the first leg (112) installed in front of the crane girder, in the middle It consists of the 2nd leg 114 provided, and the 3rd leg 116 provided in the back, and it has a structure in which three legs are installed at predetermined intervals.

Here, the first leg 112 is to be fixed to the front piers 10 of the piers, the second leg 114 is located at the center of the crane girders 120, 122 and at the same time the girders are already installed It is installed to be located on the upper surface of the 30, the third leg 116 is located in the rear of the crane, the third leg 116 is provided at a predetermined distance from the second leg 114 is provided The center of gravity of the crane is to be located behind the second leg (114).

Therefore, as shown in FIG. 1, the third leg 116 should be installed such that the distance from the second leg 114 is widened by the gap between the piers, and may be wider than that, but considering the length of the crane. It is preferable to install so that the space | interval of the 3rd leg 116 and the 2nd leg 114 is not too long.

Meanwhile, as described above, the first leg 112 is installed and fixed to the front piers 10, and a lower end of the first leg 112 is provided with fixing means for fixing the front piers 10. In one embodiment of the present invention, the hydraulic jack 132 is installed as the fixing means.

The hydraulic jack 132 is driven by a separate hydraulic unit, the structure of installing the first leg 112 to the hydraulic jack 132 structure, the fixing of the first leg 112 is made stable. .

Hydraulic jacks 134 and 136 are also provided at the lower end of the second leg 114 and the third leg 116 to fix the second leg 114 and the third leg 116 to the girder 30. To help.

In addition, the second leg 114 and the third leg 116 are provided with a plurality of tire wheels 154 and 156 that can serve as wheels when the crane moves forward.

The tire wheels 154 and 156 should be able to support the weight of the crane when moving the crane forward, and the number is not limited in the present invention.

On the other hand, in one embodiment of the present invention as a structure for lifting the girder, the rail is formed in the longitudinal direction on the top of the crane girders (120, 122).

The rail is for guiding the trolley 140 when the trolley 140 for lifting the girder 40 moves on the crane girder 120, 122, one on each crane girder 120, 122. Is formed.

Two trolleys 140 are installed to lift the girders 40 to be installed from the front and rear, each trolley 140 is provided with a pulley 170 for raising and lowering the girders 30. do.

Two pulleys 170 are provided in each of the trolleys 140, and a total of four are provided. The pulleys 170 are connected to a hydraulic winch 168 installed at the rear of the crane and lifted hydraulically. In addition, at the lower end of the pulley 170, a road block 172 for raising and lowering the girder 30 is installed.

In the present invention, as a device for moving the trolley 140 on the rail of the crane girders (120, 122), a hydraulic cylinder clamp 160 that is driven hydraulically is provided.

On the other hand, the crane of the present invention is characterized in that the rotating means for rotating the crane in the lower portion of the second leg 114 is provided.

Since the second leg 114 is a bridge installed in the middle of the crane girder, it is possible to rotate the crane by using the second leg 114 as the rotation center, and turn 180 ° to move the crane in the opposite direction. This possible rotation means is provided.

Figure 4 is a bottom view showing the configuration of the rotation means according to the invention, Figure 5 is a side view of the second leg is installed, the rotation means of the present invention, is a longitudinal cross-sectional view showing the configuration of the rotation means.

Rotating means of the present invention is a rotation auxiliary leg 210 which is installed on both sides of the lower portion of the second leg 114, the wheel assembly provided on the lower end of the rotation auxiliary leg 210, and the wheel assembly Is coupled to the lower portion of the 200 consists of a ring-shaped rail (220) for guiding the wheel assembly 200 to rotate.

As shown in FIG. 4, the rail 220 is a ring-shaped rail having a diameter equal to the distance between the wheel assemblies 200 installed at both sides, and the wheel assembly 200 is connected to the rail 220. ) Is a component that allows you to rotate. As shown in FIG. 5, the rail 220 may be made of H-shaped steel having a cross-sectional shape of 'H', but the present invention is not limited thereto. Of course, a shaped rail can be used.

The wheel assembly 200 may be variously applied as long as the wheel assembly 200 may rotate on the rail 220 in a coupled state with the rail 220. In one embodiment of the present invention, the wheel 202 is installed to rotate on the rail 220, the housing 204 is installed on both sides of the wheel 202, the shaft 208 of the wheel 202 It comprises a bearing 206 for supporting the.

The wheel assembly 200 is configured such that the wheel 202 is supported by the bearing 206 in the housing 204 and rotates on the rail 220 about the wheel shaft 208.

When the wheel 202 rotates along the rail on the rail 220, the wheel assembly 200 moves along the rail 220, and rotation auxiliary legs installed on both sides of the second leg 114 ( By moving 210, the crane can be rotated clockwise or counterclockwise.

Therefore, it is possible to switch the forward direction of the crane in the opposite direction.

The rotation auxiliary leg 210 in the present invention is preferably installed to be detachable to the second leg (114). That is, in normal times, the lifting legs and the girder can be lifted and moved by using a crane in a state where the rotation auxiliary leg 210 is not installed on the second leg 114, and the crane is rotated to change the forward direction. In this case, the rotation auxiliary leg 210 is configured to be used by installing the second leg 114.

Here, the installation structure of the rotation auxiliary leg 210 is not particularly limited in the present invention, it is also possible to apply a known technique.

In addition, in the embodiment of the present invention, although the rotation auxiliary leg 210 and the wheel assembly 200 are shown to be installed on both sides of the second leg 114, in order to make the rotation of the crane more stable A plurality of rotation auxiliary legs 210 and the wheel assembly 200 may be installed on the second leg 114.

On the other hand, the crane of the present invention further includes a cylinder device for dispersing the load by preventing the load from being concentrated on the tire wheel 154 when lifting or moving the girder at the lower end of the second leg (114).

The cylinder device is a hydraulic jack 134 is operated hydraulically, the cylinder device presented in one embodiment in the present invention, as shown in Figure 8, the main cylinder 134a installed in the center of the second leg (114) And an auxiliary cylinder 134b, the auxiliary cylinders 134b are preferably configured such that four are arranged in a quadrangular shape around the main cylinder 134a.

When lifting and moving the girder by using a normal crane, a load of about 600 tons is concentrated on the second leg 114 so that it is impossible to support the load using only the tire wheel 154, so that the hydraulic jack cylinder 134 may be used to correct the load. Install it.

As described above, the hydraulic jack cylinder 134 of the present invention has four auxiliary cylinders 134b arranged in a square shape around the main cylinder 134a, so that it is very easy to distribute the load of the crane and hydraulically operate the cylinder. When the crane moves, lift the cylinder, and when the crane is fixed to lift the girder, the cylinder should be in close contact with the floor.

9 is a front view showing a third leg of the present invention, Figure 10 is a plan view before and after the movement of the tire in the third leg of the present invention, Figure 11 is a plan view before and after the movement of the cylinder in the third leg of the present invention .

As shown in the figure, the tire wheel 156 and the hydraulic jack 136 installed on the lower end of the third leg 116 of the present invention is rotatably installed to the outside around the hinges (136a) (156a) and the girder. It is possible to provide space for lifting.

That is, when the girder is lifted, the tire wheel 156 and the hydraulic jack 136 installed at the lower end of the third leg 116 may interfere with the girder. To prevent this, the tire wheel 156 and the hydraulic jack may be prevented. 136 is provided to be rotatable outward about the hinges 136a and 156a.

In the crane of the present invention having such a configuration, a method of switching the forward direction of the crane using the rotating means will be described below.

If you want to switch the direction of the crane in the opposite direction after completing a part of the road, first, the rotary means is installed on the lower end of the second leg 114 of the crane.

That is, the rotation auxiliary legs 210 are installed on both sides of the second leg 114, and the rail 220 is installed to be coupled to the lower end of the wheel assembly 200 so that the wheel assembly 200 is mounted on the rail. Allow 220 to move around.

At this time, by lifting the wheel assembly 200 of any one of the wheel assembly 200 installed on both sides to install the rail 220 and then install the rail 220 to the other wheel assembly 200, installation of the rotation means Is completed.

Thereafter, when the two wheel assemblies 200 are pushed in one direction (clockwise or counterclockwise), the wheel 202 is rotated on the rail 220.

As a result, as shown in FIG. 6, the wheel assembly 200 and the rotation auxiliary leg 210 may rotate, and the entire crane may rotate.

At this time, the main cylinder 134a and the auxiliary cylinder 134b of the cylinder device are lifted to allow the crane to rotate.

Thereafter, when the crane is rotated by 180 °, the rotation of the crane is completed, and if necessary, after removing the rotating means, the crane moves forward again to repeat the operation of installing the girder to build the bridges of the remaining roads.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

112: first leg 114: second leg
116: third leg 120, 122: crane girder
132, 134, 136: hydraulic jack 200: wheel assembly
202: wheel 210: rotation auxiliary leg
220: rail

Claims (9)

A crane is provided at a plurality of points along a longitudinal direction of a bridge at predetermined intervals, and the crane moves forward while the girders are sequentially transported and installed on each side of the bridge,
Crane girders forming the body of the crane;
A plurality of legs fixed to the crane girder in a longitudinal direction and including a second leg located at the center of the crane girder; And
Rotating means is provided in the lower portion of the second leg to rotate the crane to the center of rotation of the second leg;
Bridge installation crane comprising a. The method of claim 1,
The legs are provided with a first leg to be fixed to the front pier of the piers, a second leg is installed so as to be located on the upper surface of the pre-installed girders, and a predetermined distance from the second leg is installed so that the center of gravity of the crane A bridge mounting crane, comprising a third leg positioned to be located behind the second leg. The method according to claim 1 or 2,
The rotating means includes a rotation auxiliary leg installed at both sides of the lower portion of the second leg, a wheel assembly provided at a lower end of the rotation auxiliary leg, and a ring coupled to a lower portion of the wheel assembly to guide the wheel assembly to rotate. A bridge mounting crane, comprising: a rail of a ring shape. The method of claim 3,
The wheel assembly is a wheel that is installed to rotate on the rail;
Housings provided at both sides of the wheel; And
A bridge mounting crane comprising: a bearing for supporting the shaft of the wheel. The method of claim 3,
The rotating auxiliary leg is installed on the bridge, characterized in that the bridge is installed so as to be detachable. The method of claim 3,
The rotating auxiliary leg and the wheel assembly is a bridge mounting crane, characterized in that the plurality of the second leg can be installed. The method of claim 1,
And a cylinder device for distributing the load by preventing the load from being concentrated on the tire wheel when lifting or moving the girder at the lower end of the second leg. The method of claim 7, wherein
The cylinder device includes a main cylinder installed at the center of the second leg,
Bridge construction crane, characterized in that consisting of four auxiliary cylinders arranged in a square shape around the main cylinder. The method of claim 2,
The tire wheel and the hydraulic jack installed in the lower end of the third leg is installed so as to be rotated outward about the hinge to provide a space for lifting the girder, characterized in that the bridge installation crane.

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