KR200465319Y1 - Jig for Transfer - Google Patents

Abstract

The present invention provides a jig for transporting a breakwater structure installed in a forklift truck capable of transferring a breakwater structure made of various sizes regardless of the size of the breakwater structure to a single transport jig.
The present invention for realizing this is a body plate having a predetermined length in the longitudinal direction in the form of a rectangle, and formed on both sides of the upper end of the body plate in the center for inserting the coupling is installed on the leg end of the forklift A holder having an insertion hole, at least two adjusting holes penetrating at a lower distance from each other at a lower end of the main body plate, and adjusting holes at any two of the adjusting holes according to the size of the breakwater structure. The technical gist of the present invention includes first and second shackles that are selectively fastened, and first and second wire ropes each having hooks that are hooked to the first and second shackles and wound around the breakwater structure.

Description

Jig for transfer of breakwater structure installed in forklift

The present invention relates to a jig for transporting a breakwater structure installed in a forklift, and more particularly, to a forklift for transporting a breakwater structure manufactured in various sizes regardless of the size of the breakwater structure to a single transport jig. It relates to a jig for transporting breakwater structures.

Tetraport, the most commonly known concrete structure used as a breakwater, is basically a tetrahedron and is formed in a shape in which four legs extend from the center of the tetrahedral toward each vertex.

The tetraport protects the foundation stones and the breakwater blocks thrown under water, which is a component of the breakwater, by being installed in the continuously affected portion of the breakwater. In addition, when a plurality of tetraports are provided, the force of the wave disappears or decreases through the empty space therebetween.

The tetrapots form a tetrahedron because the center of gravity of the tetrahedron is at the bottom and the safety is good, and even when rolling the tetrahedron, the same shape is always maintained.

In addition, various types of structures, such as concrete blocks having a rectangular parallelepiped shape, have been proposed as breakwater structures.

As described above, the breakwater structure is made of concrete, and the weight thereof is considerable. Therefore, the breakwater structure is transferred to the installation position one by one using a forklift that is heavy equipment.

In general, when the breakwater structure is to be transported by a forklift, the breakwater structure is bound with a wire rope, and then both ends of the wire rope are connected to the holder of the forklift to be transported. In this case, the breakwater structure is manufactured in various sizes as necessary. Holders also need to be equipped with a variety to fit the size of the breakwater structure, but the conventional equipment did not have such a variety has a disadvantage that the work is cumbersome, such as replacement of the holder according to the size of the breakwater structure.

Therefore, an object of the present invention for solving the problems as described above for transporting breakwater structures installed in a forklift truck to transport the breakwater structure produced in various sizes with one transport jig regardless of the size of the breakwater structure. In providing a jig.

The present invention for achieving the above object is a breakwater structure transport jig installed in the forklift to be able to transport the breakwater structure by a forklift, a body plate having a predetermined length in the longitudinal direction in the form of a rectangular, and the body The holder is formed on both sides of the upper end of the plate, and the center is formed with a holder having an insertion hole for inserting a coupling hole installed at the leg end of the forklift, and at least two penetratings are formed at a lower distance from the bottom of the body plate. And the first and second shackles selectively coupled to the two or more adjustment holes of the adjustment holes in accordance with the size of the breakwater structure, and the hooks are hung on the first and second shackles, respectively. It comprises a first and second wire rope wound around the structure.

A bolt hole is formed through the outer circumferential surface of the holder, and a through hole is formed through the outer circumferential surface of the coupler so as to be co-linear with the bolt hole. It is preferable to construct.

The present invention is formed in various sizes by allowing at least two or more adjustment holes to be penetrated at a predetermined distance from the bottom of the body plate coupled to the legs of the forklift to widen or narrow the space between the wire ropes according to the size of the breakwater structure. Implement the effect that can transfer the breakwater structure to a single jig.

1 is a view showing in three dimensions the configuration of the jig for transporting breakwater structure installed in the forklift according to the present invention.
FIG. 2 shows a cross section of FIG. 1; FIG.
3 is a front view of FIG. 1;
Figure 4 is a view showing a state of use of the jig for transporting breakwater structure installed in the forklift.
5 is a view showing the shape of the jig for transporting breakwater structure installed in the forklift according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following detailed description, exemplary embodiments of the present invention will be described. And other embodiments which may be suggested in the present specification are replaced by descriptions in the constitution of the present invention.

In the present invention, at least two or more adjustment holes are formed through the bottom of the body plate coupled to the legs of the forklift at predetermined intervals, so as to widen or narrow the space between the wire ropes according to the size of the breakwater structure. It is intended to implement a jig for transporting a breakwater structure installed in a forklift to transport the breakwater structure to a single jig.

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

1 is a view showing three-dimensional configuration of the jig for transporting breakwater structure installed in the forklift according to the present invention, Figure 2 is a view showing a cross-sectional view of Figure 1, Figure 3 is a front view of Figure 1 One drawing.

As shown in Figures 1 to 3, the jig 10 for transporting the breakwater structure of the present invention is installed in the forklift 100, preferably constitutes the forklift 100, and is driven by the hydraulic cylinder, The forklift 100 is fastened to the coupling hole 120 installed at the distal end of the leg 110 to move downward, and the first and second wire ropes 48 and 50 are wound on the breakwater structure 200. Refers to equipment designed to lift the breakwater structure 200 by driving.

The jig for transporting the breakwater structure 10 constitutes an outer shape with a body plate 12. The body plate 12 is manufactured to have a predetermined length in the form of a rectangle. The body plate 12 is preferably molded of a metallic material to support the stress when lifting the breakwater structure 200.

A plurality of holders 14 are installed at both sides of the upper end of the main body plate 12, and the coupling holes 120 are installed at the ends of the legs 110 of the forklift 100 to the holders 14.

The coupler 120 has a cylindrical shape, and a through hole 122 penetrates through an outer circumferential surface thereof.

The holder 14 has a cylindrical shape in the center is inserted through the insertion hole 16 for inserting the coupling hole 120 of the forklift 100, the bolt hole 18 is formed through the outer peripheral surface. The bolt hole 18 and the through hole 122 are positioned in the same line as the through hole 122 formed on the outer circumferential surface of the coupling hole 120 inserted into the insertion hole 16. The bolt 20 is sequentially passed through the nut, and the nut 22 is fastened to the end of the bolt 20 passing through the bolt hole 18 and the passage hole 122, and the insertion hole of the holder 14. Fixing the coupling sphere 120 is inserted into the (16).

At least two or more adjustment holes 30 are formed at a lower end of the main body plate 12 at predetermined intervals apart, and the first and second adjustment holes 30 are formed at any two of the adjustment holes 30. Shackles 40 and 42 are fastened to the bolts 44 and 46, respectively, and the first and second shackles 40 and 42 have a plurality of first and second wire ropes 48 and 50 which are bound to the breakwater structure 200. Hooks 48a and 50a are hooked respectively.

As mentioned above, the at least two penetrating through the lower end of the main body plate 12 as mentioned above, the first and second wound around the breakwater structure 200 in accordance with the size of the breakwater structure 200 The wire ropes 48 and 50 are fastened to the adjustment holes 30 formed at the bottom outside of the body plate 12 or to the adjustment holes 30 formed at the bottom inside of the body plate 12. In order to adjust the spacing between the first and second wire ropes 48 and 50 according to the size of the breakwater structure 200, a detailed description thereof will be described in the following description.

Hereinafter, the operation of the jig for transporting breakwater structures installed in the forklift according to the present invention will be described with reference to FIGS. 1 to 4.

First, when installing the breakwater structure transfer jig 10 according to the present invention to the forklift 100, the coupling hole 120 is installed at the tip of the leg 110 to move up and down by driving the hydraulic cylinder, the coupling The sphere 120 is inserted into the holder 14 insertion hole 16 of the body plate 12 constituting the jig 10 for transferring the breakwater structure.

Next, the bolt hole 18 of the holder 14 and the passage hole 122 of the coupler 120 are arranged in the same line with each other, and the bolt hole 18 and the passage hole 122 are bolted to the bolt hole 18 and the passage hole 122. 20 is inserted, and then the nut 22 is fastened to the end of the bolt 20 to fix the coupling hole 120 inserted into the insertion hole 16 of the holder 14. The main plate 12 constituting the 10 is installed in the forklift 100.

As described above, when the breakwater structure 200 is to be transferred using the forklift 100 provided with the breakwater structure transfer jig 10, a plurality of first and second wire ropes 48 and 50 are provided as shown in FIG. 3. After winding the breakwater structure 200, the hooks 48a and 50a formed at both ends of the first and second wire ropes 48 and 50 are hooked to the first and second shackles 40 and 42, respectively. The first and second shackles 40 and 42 are fastened to the bolts 44 and 46 to two control holes 30 formed at the lower end of the body plate 12.

Subsequently, when the leg 110 of the forklift 100 is lifted and lifted, the breakwater structure 200 wound around the first and second wire ropes 48 and 50 is lifted, and the forklift 100 is moved in this state to break the breakwater. The structure 200 is transferred to the desired place.

On the other hand, when the size of the breakwater structure 200 in transit is large, as shown in FIG. 4, the first and second wire ropes 48 and 50 are wound around the breakwater structure 200a, and then the first and second wire ropes ( After the first and second shackles 40 and 42 are hooked to the hooks 48a and 50a of the 48 and 50, the first and second shackles 40 and 42 are formed at the lower end of the body plate 12. Breakwater structure that is made large in size without needing to replace the jig by fitting bolts 44 and 46 into the adjustment holes 30 located at the bottom outside of the body plate 12 among the adjustment holes 30. Can be transferred.

On the other hand, Figure 5 is a view showing the shape of the jig for transporting breakwater structure installed in the forklift according to another embodiment of the present invention.

As shown in Figure 5, the jig for transporting breakwater structure installed in the forklift according to another embodiment of the present invention is replaced by a rectangular parallelepiped type body frame 212, instead of the body plate of the above-described embodiment, of the body frame 212 The shackles 40 and 42 are formed along the entire circumferential surface of the control hole 30 for fastening. A plurality of holders 214 are installed at both sides of the upper end of the main body frame 212, and the coupler 120 is installed at the tip of the leg 110 of the forklift 100 to the holder 214.

10: jig for transporting breakwater structure 12: body plate
14: holder 16: insertion hole
18: bolt hole 20: bolt
30: adjusting hole 40: first shackle
42: Second Shackle 48: First Wire Rope
50: second wire rope 100: forklift
110: leg 120: coupler
122: through hole 200, 200a: breakwater structure

Claims (2)

In the jig for transporting breakwater structure installed in the forklift to transport the breakwater structure 200 to the forklift 100,
A main body plate 12 having a predetermined length in a longitudinal direction in a rectangular shape;
The holder 14 is formed on both sides of the upper end of the main body plate 12 and the insertion hole 16 for inserting the coupling hole 120 is installed in the front end of the leg 110 of the forklift 100 Wow;
Control holes 30 formed through the bottom of the body plate 12;
First and second shackles 40, which are detachably fastened to bolts 44 and 46 and nuts to the adjusting holes 30 of any two of the adjusting holes 30 according to the size of the breakwater structure 200. 42) and;
A first and second wire ropes (48, 50) having hooks (48a, 50a) hooked to the first and second shackles (40, 42), respectively, wound around the breakwater structure (200);
A bolt hole 18 is formed through the outer circumferential surface of the holder 14, a through hole 122 is formed through the outer circumferential surface of the coupling hole 120 in the same line as the bolt hole 18, The bolt hole 18 and the through hole 122 are configured to be fastened to the nut 22 in a state where the bolt 20 is fitted;
The adjusting hole 30 to which the first and second wire ropes 48 and 50 are fastened may adjust the distance between the first and second wire ropes 48 and 50 according to the size of the breakwater structure. Breakwater structure iso jig characterized in that it is formed by penetrating at least two or more at a distance apart from each other along the entire lower surface of the plate (12). delete

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