KR20130024455A - Jig for welder transport - Google Patents

Abstract

PURPOSE: A jig for transferring welding machines is provided to prevent fallen accidents to workers and transfers various weights of the welding machines by changing the center of gravity according to the weights of the welding machines. CONSTITUTION: A jig for transferring welding machines comprises a support(110) and through-holes(111). A ballast weight(120) is fixed in one side of the support, and a hook(130) is installed in the other side thereof. The through-holes are formed in the middle of the support. A wire connected to the welding machines. A crane lifts up the support in a state where wires connected to a welding machine are hung on a hook, thereby transferring the welding machine in a state where the welding machine and the ballast weight are balanced.

Description

Jig for Welder Transport

The present invention relates to a transfer jig for mounting and transporting a welder so that the welder can be transported and installed at a desired position. In particular, when the welder is installed outside the working area of the crane, the welder can be transported to a desired position by a crane.

In order to build a large vessel, a crane for transporting blocks and steel sheets of a heavy weight constituting the vessel is required, and a welding machine for welding the blocks and steel sheets is required. In particular, the welding work is performed inside the building structure so that the welding work may be performed regardless of the weather, and an overhead crane which is movable in the longitudinal direction of the building structure is installed on the upper part of the building structure.

In addition, a welder is disposed in the building structure to be weldable in the building structure. The welder is installed on the sidewall of the building structure to increase space utilization in the building structure.

In the drawings, Figure 1 is a cross-sectional view showing the inside of the building structure is installed crane, Figure 2 is a conceptual view showing an example of installing a welder on the side wall of the conventional building structure using a conventional conventional crane.

As shown in Figure 1, the crane 20 is installed on the ceiling of the building structure 10, the rail 21 of the crane so that the crane 20 can move in the longitudinal direction of the building structure 10 the building structure It is provided in the longitudinal direction on both side walls of 10, and the hook 23 of the crane 20 moves to the longitudinal direction of the crane 20. As shown in FIG.

Therefore, the work area of the crane 20 is within a square area including two rails 21 positioned in parallel and transports objects using the hook 23 in the work area.

On the other hand, at the bottom of the building structure 10, the steel plates and the blocks (1) manufactured by welding the steel plate for the ship building are located, many steel plates and blocks (1) can be located at the bottom of the building structure (10). Consideration should be given to space utilization.

For this reason, in general, the welder 30 is installed on the side wall 11 of the building structure 10 to increase space utilization. In the installation of the welder 30 on the side wall 11 of the building structure 10. The side wall 11 on which the welder 30 is installed is located outside the working area of the crane 20, and thus it is difficult to transfer the welder 30 to the crane 20.

Due to such a problem, as shown in FIG. 2, the welding machine 30 is hooked to the hook 23 of the crane 20 and the hook 23 is moved toward the side wall 11. Then, in order to install the welder 30, the worker located on the side wall 11 hooks the long hook 3 on the hook 23 and pulls the welder 30 so that the welder 30 moves on the beam 13 of the side wall 11 to be installed. .

In moving the welder to the side wall in this manner, there is a problem that the operator has to pull the welder caught in the hook toward the side wall. At this time, when the worker who pulls the welder of the heavy weight to the manpower loses the center, a problem arises.

On the other hand, the development of a jig for installing a welder outside the working area of the crane has not been in the prior art and related art documents can not be found.

The present invention has been invented to solve the problems of the prior art as described above, to provide a welding machine transfer jig configured to be installed by transporting the welding machine outside the working area of the crane in transporting the welding machine using a crane. There is a purpose.

The welding machine transport jig according to the present invention for achieving the above object includes a support having a weight is fixed on one side and a hook is installed on the other side, a through hole formed in the middle of the length of the support, the wire connected to the welder to the hook By lifting the support by the hook crane, it is characterized in that the transfer of the welder in the state of balance of the weight of the welder and the weight.

In addition, according to a preferred embodiment of the present invention, a plurality of through holes are formed in the longitudinal direction of the support.

In addition, according to a preferred embodiment of the present invention, a plurality of through-holes are arranged in the longitudinal direction in the support, and when the support is lifted by a crane, the weight of the welder and the weight of the weight are equivalent to the support point of the equilibrium. The weight of the welder is displayed around the ball.

As described above, the welding machine transport jig according to the present invention connects the crane to a portion corresponding to the support point where the weight of the weight weight mounted on one side of the support and the weight of the welder located on the other side is balanced, and the crane is a building structure When moving to the side wall of the welder can be transported out of the rail by the distance from the support point to the welder, there is an advantage that can prevent the fall of the operator as the operator does not need to pull the welder as in the prior art.

In addition, the welding machine transfer jig according to the present invention has a merit that a plurality of through-holes are formed to change the position of the supporting point according to the weight of the welder to transfer the welder of various weights.

1 is a cross-sectional view showing the interior of the building structure is installed crane,
2 is a conceptual view illustrating an example in which a welding machine is conventionally installed on a side wall of a building structure using a crane.
3 is a perspective view showing a welding machine transfer jig according to an embodiment of the present invention,
4 is a conceptual diagram illustrating a process of transferring a welder using the welder transfer jig illustrated in FIG. 3.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the welding machine transfer jig according to the present invention will be described in detail.

3 is a perspective view illustrating a welding machine transfer jig according to an embodiment of the present invention, and FIG. 4 is a conceptual view illustrating a process of transferring a welder using the welding machine transfer jig illustrated in FIG. 3.

As shown in Figure 3, the welding machine transfer jig 100, the weight weight 120 is fixed to one end of the support 110, the hook 130 for hanging the welder 30 is fixed to the other end do. In the middle of the length of the support 110, the through-holes 111 are formed in a line in the longitudinal direction.

In the welding machine transfer jig 100 configured as described above, the first wire 31 fastened to the welder 30 is hooked to the hook 130, and the second wire 25 hooked to the hook 23 of the crane 20. ) Is fitted into any one of the through holes 111 formed in the support (110). At this time, when the second wire 25 is caught through the through hole 111 is lifted by the crane 20, the second wire 25 fitted in the through hole 111 to the support point 110 maintains a horizontal state.

Here, the weight of the welder 30 in which the support 110 can maintain a horizontal state when it is heard around the through-holes 111 formed in the support 110 so that the supporting point according to the weight of the welder 30 can be easily found. Is displayed.

Hereinafter, a relationship of transferring the welder to the side wall of the building structure by using the welder transfer jig configured as described above will be described.

As described above, since the crane 20 mounted in the building structure 10 moves along the rail 21, a work area for working with the crane 20 is set. In addition, in order to increase the utilization of the work space, as shown in FIG. 4, the welding machine 30 is installed on the beam 13 supporting the building structure 10 without installing the bottom of the building structure 10, in which case the crane Since the hook 23 of 20 moves only within the length of the crane 20, the welding machine transfer jig 100 which can transfer the welder 30 over the beam 13 of the side wall 11 is used.

Hook the welder 30 to the hook 130 fixed to the other end of the support 110, and find the support point by comparing the weight of the welder 30 and the weight weight 120. At this time, the second wire 25 is fastened to the through hole 111 in which the weight of the welder 30 and the welder weight displayed around the through holes 111 coincide or are close to each other. Then, the lifting machine 100 lifts the welding jig 100 using the crane 20. At this time, the weight weight 120 fixed to one end of the support 110 is directed toward the inside of the building structure 10 and the welder 30 is caught on the other end of the support 110 is the side wall 11 of the building structure (10) Lifting the welding machine transfer jig 100 to the crane 20 in the state facing toward the side.

Then, the crane 20 is operated to move the beam to the beam 13 to be installed by the welder 30. Then, even if the hook 23 of the crane 20 is located at the boundary line of the work area, the welder 30 is separated by the distance from the through hole 111 in which the second wire 25 is caught to the hook 130 in which the welder 30 is caught. Can be transported out of the working area. As the welder 30 is transferred to the beam 13 positioned outside the work area of the crane 20, the worker dismantles the welder 30 placed on the beam 13 from the hook 130 and removes the welder 30. It installs in the beam 13.

On the other hand, the hook 130 mounted on one side of the support 110 described above is a configuration that can hang the welding machine 30, it can be installed in place of the hook bar or ring in place of the hook 130.

10: building structure
11: sidewall
13: beam
20 crane
21: Rail
23: hook
25: second wire
30: welder
100: jig for welding
110: Support
111: through hole
120 weight
130: hook

Claims (3)

On one side the weight is fixed and the other side of the support hook is installed,
It includes a through hole formed in the middle of the length of the support,
A welding jig for transporting a welder, wherein the welding machine is transported in a state where the weight balance between the welder and the weight is lifted by hooking the wire connected to the welder to the hook and lifting the support by the crane.
The method of claim 1,
The support jig for welding machine transport, characterized in that a plurality of through-holes are formed in the longitudinal direction of the support.
The method of claim 2,
The support is formed by aligning a plurality of through holes in the longitudinal direction, and the weight of the welder is displayed around the through hole corresponding to the support point where the weight of the welder and the weight of the weight are balanced when the support is lifted by the crane. Welding jig for welding.

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