KR101516296B1 - Turnover jig for block - Google Patents

Abstract

Block turning over jig is started. A block turnover jig according to an embodiment of the present invention includes a skeleton structure extending vertically and having a plurality of vertical frames spaced from each other and a horizontal frame connected to each other at an intermediate position of the vertical frame; And upper and lower ends of the vertical frame and a lug provided at the end of the protruding frame protruding outside the vertical frame.

Description

Block turnover jig {TURNOVER JIG FOR BLOCK}

The present invention relates to a block turnover jig.

Generally, a crane is used for lifting in a workplace or workplace where the load to be lifted is handled.

If the crane is used in a shipyard, one of the loads to be lifted may be a hull assembly or hull drying block, a plate member such as a flat plate or a bent plate used for assembling the block, or a rectangular plate.

Also, in the block-drying of the hull, the hull is divided into several hundreds or hundreds of blocks, the individual blocks are assembled on the ground, and the manufactured blocks are sequentially mounted on the front row and assembled into one hull.

For example, blocks of various shapes including a curved block used for assembling a bow of a ship, a stern of a ship, etc. are stably stood by a block stacking structure in a yard, a stacking carrier structure, a stacking stand, or the like.

During the block drying process, the upper plate and the lower plate may be bent at right angles to each other, or both sides of the block may be lifted by a crane to turnover to turn up or turn over.

That is, in the turnover, after the lifting cable of the crane is connected to the bent plate or the block which is the load, the crane lifts the lifting cable so that the folding plate or the block is lifted, .

However, in the related art, since the lifting cable is directly connected to the block to turn over, deflection deformation occurs in the bending plate or the block during the turnover, and thereafter, a degree problem occurs in the drying operation, There is a disadvantage that many reworking times are generated.

Particularly, since the bending plate is a relatively thin plate member as compared with the block, deflection deformation is excessively generated.

Even if a separate jig is used in connection with the block itself, since only a general lug for simply lifting the block is provided in the block, the operation of connecting or separating the block and the separate jig is complicated to be.

Patent Publication No. 10-2001-0073454

An embodiment of the present invention is to provide a block turnover jig capable of preventing deflection deformation when a plate member or a block of a bending plate or the like turns over.

According to an aspect of the present invention, there is provided a skeleton structure having a plurality of vertical frames extending in a vertical direction and spaced apart from each other, and a horizontal frame connected to each other at an intermediate position of the vertical frame; And a block turnover jig including upper and lower ends of the vertical frame and a lug provided at an end of the protruding frame protruding outward of the vertical frame.

The skeletal structure may be symmetrical with respect to an XY plane passing through the center of gravity of the skeleton structure, symmetrically symmetrical with respect to a YZ plane passing through the center of gravity, and an XZ The front and back symmetry can be made based on the plane.

The skeletal structure may include: the horizontal frame in the rectangular ring shape; A support frame connected to a plurality of spaced apart parallel portions in the inner space of the horizontal frame and connected to the inner side of the short side of the horizontal frame; The vertical frame extending up and down the same distance at the corners of the horizontal frame; The protruding frame protruding from the outer side of the vertical frame in the same direction as the extending direction of the horizontal frame; And a reinforcing frame disposed on the protruding frame and vertically symmetrically disposed at corner portions of the vertical frame and connecting the protruding frame and the vertical frame to each other.

The lugs may be provided on an inner surface of an end of the vertical frame facing the vertical frames and an outer surface of the protruding frame.

According to another aspect of the present invention, there is provided a block turnover jig further comprising a support portion that is disposed at a large distance from the support frame to support a bottom surface of the block and is coupled to a pair of protrusions on a bottom surface of the block .

In addition, the support portion may include: a column protruding from the upper surface of the support frame; A plate-like support plate connected to an upper end of the column and having a length wider than a plane of the column and narrower than an interval between the upper portions of the pair of pieces; And a pair of blade plates connected to the bottom surface of the support plate, both side surfaces of the column and the upper surface of the support frame, and having fastening holes respectively corresponding to the plurality of holes of the pair of pieces.

The block turnover jig according to an embodiment of the present invention provides a skeleton structure that can be closely attached to a horizontal plane or a vertical plane of a plate material such as a bending plate and a lug provided at an end of the skeleton structure, have.

In addition, in the embodiment of the present invention, since the skeleton structure is formed symmetrically or vertically symmetrically, other loads can be directly installed on the skeleton structure without having to return to the original position after the turnover.

According to another embodiment of the present invention, a plurality of support portions having a fastening hole capable of being pin-coupled with an engagement hole of a pair of pieces provided in the block are provided in the support frame of the skeleton structure, Or restraint.

1 is a perspective view of a block turnover jig according to a first embodiment of the present invention.
FIGS. 2 to 6 are plan views illustrating a turn-over method using the block turnover jig shown in FIG.
7 is a perspective view of a block turnover jig according to a second embodiment of the present invention.
8 is a perspective view of the receiving portion shown in Fig.
9 is a perspective view of a pair of pairs provided on a bottom surface of a block to be mounted on the skeletal structure shown in Fig.
Fig. 10 is a perspective view for explaining the coupling relationship between the pair of pieces in Fig. 9 and the receiving portion. Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1st Example

1 is a perspective view of a block turnover jig according to a first embodiment of the present invention.

Referring to FIG. 1, the block turnover jig according to the first embodiment may be applied to a block made of a thin plate, such as a thin plate block (e.g., LQ, DECK HOUSE, ENGINE CASE, etc.).

Here, in the case of the thin plate block, the block is divided according to the capacity that can be handled by the assembly factory rather than the safety of the block. When such a thin plate block is turned over or moved, deflection or deformation occurs in the block. To prevent this, a large amount of reinforcement material is required to prevent deformation due to handling rather than structural stability. In case of stiffener, damage may occur even if it is attached or removed, and it may cause a serious adverse effect on quality.

The first embodiment, taken in consideration of this point, can include the skeletal structure 110 and the lug 120 for simply laying the thin plate block and moving or turning over without any safety or deformation.

The skeletal structures 110 may each have a plurality of vertical frames 111 extending in the vertical direction and spaced apart from each other and a horizontal frame 112 connected to each other at an intermediate position between the vertical frames 111. Here, the horizontal frame 112 may have a rectangular ring shape connecting the vertical frames 111 along the XY plane.

The components constituting the skeletal structure 110 such as the vertical frame 111, the horizontal frame 112 and the protruding frame 113 may be made of structural steel such as an H beam, a hollow square beam, and a girder structural member. have. However, the structural steel material constituting the skeletal structure 110 such as the vertical frame 111, the horizontal frame 112, the protruding frame 113, etc., can be used for various purposes such as load of the object (e.g., thin plate block) In order to withstand, we can have dimensions such as material, thickness and so on selected through simulation.

The lug 120 is a crane connecting member used in a general shipyard, and may not be limited to a specific lug.

The lugs 120 may be fixed or welded to the upper and lower ends of the vertical frame 111 of the skeletal structure 110 and to the ends of the projecting frame 113 projecting outwardly of the vertical frame 111 have.

More specifically, the skeletal structure 110 includes a rectangular frame-shaped horizontal frame 112, a plurality of spaced apart portions parallel to each other in the inner space of the horizontal frame 112, and extending in the X- And a plurality of support frames 114 connected to the inner side of the short side of the support frame 114.

The skeletal structure 110 includes the vertical frame 111 extending upward and downward at equal distances from the corner of the horizontal frame 112 and the vertical frame 111 extending from the outer side of the vertical frame 111 to the horizontal frame 112 And the protruding frame 113 protruding in the same direction as the extending direction of the protruding frame 113.

The skeletal structures 110 are inclined vertically symmetrically at the corner portions of the protruding frame 113 and the vertical frame 111 and are reinforced to connect the protruding frame 113 and the vertical frame 111 to each other Frame 115 as shown in FIG.

The skeletal structure 110 is symmetrical in the XY plane passing through the center of gravity C of the skeletal structure 110 and symmetrically symmetrical with respect to the YZ plane passing through the center of gravity C , And the center of gravity (C).

 The lugs 120 may be provided on the inner surface of the end of the vertical frame 111 facing the vertical frames 111 and on the outer surface of the protruding frame 113.

Basically, the lug 120 includes a lug body plate having a lifting hole for the lifting cable to be connected, a hole reinforcement plate coupled before and after the lug body plate to reinforce the lifting hole, And a plurality of reinforcing ribs formed on the surface and the lug body plate for reinforcing each other.

Hereinafter, the use relationship of the block turnover according to the first embodiment will be described.

FIGS. 2 to 6 are plan views illustrating a turn-over method using the block turnover jig shown in FIG.

2, the work W to be lifted, moved, or turned over (for example, a thin plate block of a cross section) is guided by the horizontal frame 112 with respect to the inner space of the vertical frame 111 of the skeleton structure 110, As shown in FIG.

The workpiece W can be fixed to the vertical frame 111 and the horizontal frame 112 of the skeletal structure 110 by the securing means T (e.g., rope, fastener, etc.).

The end of one side lifting cable 10 extending from a crane (not shown) can be connected to the lug 120 on the side of the protruding frame 113 using a general coupling means such as a shackle.

In this state, the lifting cable 10 can be moved upward or lifted.

Accordingly, the skeleton structure 110 and the workpiece W can be stably sloped by the turnover, and then the state shown in FIG. 3 can be obtained. At this time, the work W is loaded on the skeletal structure 110, so that the work W can be safely supported by the skeletal structure 110, and the force acting on the lifting cable 10 is transmitted to the skeletal structure 110 As a result, deformation does not occur in the workpiece W.

3, an end of the other lifting cable 20 extending from a crane (not shown) may be connected to the lug 120a of the vertical frame 111 by using a general coupling means such as a shackle.

Thereafter, the skeleton structure 110 and the workpiece W float in the air in an inclined state by simultaneously moving the one lifting cable 10 and the other lifting cable 20 upward. Here, the public may mean a public that corresponds to a height that a worker or a worker can reach by the platform.

Thereafter, the crane keeps the one lifting cable 10 in a stopped state, and the worker separates the other lifting cable 20 from the lug 120a on the vertical frame 111 side.

In this case, the state shown in FIG. 4 can be obtained.

Referring to FIG. 4, the skeletal structure 110 and the work W may be rotated in a vertical state in the horizontal state of FIG. 2 and may be suspended by the single lifting cable 10.

Then, the operator connects the separated other lifting cable 20 to another lug 120b on the vertical frame 111 located on the opposite side of the lug 120a.

In addition, the crane can be in a state as shown in Fig. 5 by moving the other lifting cable 20 upward instead of keeping the one lifting cable 10 in a stopped state.

Referring to FIG. 5, the skeletal structure 110 and the workpiece W may be positioned in the air in a downward inclined state.

Thereafter, the crane moves the other lifting cable 20 upward, instead of moving the one lifting cable 10 downward, thereby matching the levels of the one lifting cable 10 and the other lifting cable 20 to each other.

Thereafter, the crane can simultaneously lower the one lifting cable 10 and the other lifting cable 20, and lower the skeletal structure 110 to the ground.

6, the work W is suspended from the skeletal structure 110 by the securing means T, and can be completely turned over.

At this time, since the skeleton structure 110 is vertically symmetrical, the workpiece W and the skeleton structure 110 are separated from each other without the need to return the skeleton structure 110 to the original state for the next turnover (Not shown) by using the upper portion Q of the skeletal structure 110. In this case,

Second Example

The block turnover jig of the present invention described in this embodiment has the same technical concept as the first embodiment except that a support portion that can be coupled to a pair of pieces provided on the bottom surface of the block is further provided in the skeleton structure. Therefore, the same or corresponding elements in FIGS. 1 to 10 will be given the same or similar reference numerals, and a description thereof will be omitted here.

7 is a perspective view of a block turnover jig according to a second embodiment of the present invention.

Referring to FIG. 7, the skeleton structure 110 includes a plurality of lugs 120 described in the first embodiment. In particular, the skeleton structure 110 includes other work materials having a larger and more cubic shape than the above- And further includes a plurality of receiving portions 130 for binding or connecting the ship building block B to the skeletal structure 110, for example.

Here, the support part 130 is installed on the support frame 114 of the skeletal structure 110, but it may be installed on the horizontal frame 112 of the skeletal structure 110 through a design change.

The support unit 130 may be installed under the support frame 114 of the skeletal structure 110 or under the horizontal frame 112 although it is not shown in the drawing, Can also be used when used.

FIG. 8 is a perspective view of the receiving portion shown in FIG. 7, and FIG. 9 is a perspective view of a pair of pairs provided on a bottom surface of a block to be mounted on the skeleton structure shown in FIG.

Referring to FIG. 7, the receiving portion 130 may mean a block supporting sheet having a kind of fastening hole 131.

The support portion 130 may be spaced apart from the support frame 114 to support the bottom surface of the block B and may be coupled to the pair of pieces 30 and 31 protruding from the bottom surface of the block B .

Referring to FIGS. 7 and 8, the receiving unit 130 may include a column 131 protruding from the upper surface of the supporting frame 114. Here, the column 131 may be one in which an H beam cut at a predetermined length is erected and fixed to the upper surface of the support frame 114 by welding.

The receiving portion 130 is connected to the upper end of the column 131 and has a length N that is wider than the plane of the column 131 and narrower than an interval L between the upper portions of the pair of pairs 30, Shaped support plate 132 having a flat plate shape.

The support portion 130 is connected to the bottom surface of the support plate 132, both side surfaces of the column 131 and the upper surface of the support frame 114, and a plurality of pairs of pieces 30 and 31 shown in FIG. 9 And may have a pair of blade plates 134, 135 having fastening holes 133 that coincide with the fitting holes 32, respectively.

9, the pair of pieces 30 and 31 includes a first b piece 30 connected to the bottom of the block B and a second b piece 30 extending from the first b piece 30 to a horizontally spaced reference line A second piece 31 connected to the bottom surface of the block B and having substantially the same shape but having a different shape by symmetrical arrangement with respect to the first piece 30 And a plurality of engaging holes 32 formed in the second piece 31 in the plate thickness direction.

Fig. 10 is a perspective view for explaining the coupling relationship between the pair of pieces in Fig. 9 and the receiving portion. Fig.

9 and 10, the crane lifts the unshown block and moves it toward the upper surface of the receiving portion 130 of the skeleton structure.

The crane then moves and stops the block so that the pair of pieces 30, 31 on the bottom of the block are in surface contact with the wing plates 134, 135 of the receiving portion 130.

In the movement process, the pair of pieces 30, 31 composed of the first piece 30 and the second piece 31 is formed by the distance L between the upper portions of the pair of pieces 30, To the support plate 132 of the base plate 132. [

In addition, the bent lower portions of the pair of pieces 30 and 31 which are in surface contact with each other can be positioned below the support plate 132 of the receiving portion 130, and can serve as a latching jaw.

The shake pin 40 for the ship drying or the bolt and nut assembly are coupled to the coupling holes 32 of the pair of pieces 30 and 31 and the coupling holes 133 of the blade plates 134 and 135, So that the receiving unit 130 and the block B can be connected or constrained to each other. In this state, the turn-over process described with reference to FIGS. 2 to 6 can be performed.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You will understand. For example, a person skilled in the art can change the material, size and the like of each constituent element depending on the application field or can combine or substitute the embodiments in a form not clearly disclosed in the embodiments of the present invention, Of the range. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, and that such modified embodiments are included in the technical idea described in the claims of the present invention.

110: skeletal structure 111: vertical frame
112: horizontal frame 113: protruding frame
114: support frame 115: reinforcing frame
120: lug 130:

Claims (6)

A skeletal structure extending in a vertical direction and having a plurality of vertical frames spaced apart from each other and a horizontal frame connected to each other at an intermediate position of the vertical frame;
Upper and lower ends of the vertical frame and a lug provided at the end of the protruding frame protruding outward of the vertical frame; And
A plurality of spaced-apart support frames connected to inner sides of the short side of the horizontal frame to support the bottom surface of the block, and a pair of protrusions And,
[0030]
A column protruding from an upper surface of the support frame;
A plate-like support plate connected to an upper end of the column and having a length wider than a plane of the column and narrower than an interval between the upper portions of the pair of pieces; And
And a pair of wing plates connected to a bottom surface of the support plate, both side surfaces of the column and an upper surface of the support frame, and having fastening holes respectively corresponding to the plurality of holes of the pair of pieces. The method according to claim 1,
The skeletal structure is symmetric with respect to an XY plane passing through the center of gravity of the skeleton structure. The skeletal structure has left and right symmetry with respect to a YZ plane passing through the center of gravity, and an XZ plane passing through the center of gravity Wherein the block turnover jig is symmetrical with respect to a reference point. The method according to claim 1,
Said skeletal structure comprising: a horizontal frame shaped like a square ring;
A support frame connected to a plurality of spaced apart parallel portions in the inner space of the horizontal frame and connected to the inner side of the short side of the horizontal frame;
The vertical frame extending up and down the same distance at the corners of the horizontal frame;
The protruding frame protruding from the outer side of the vertical frame in the same direction as the extending direction of the horizontal frame; And
And a reinforcing frame which is arranged obliquely and vertically symmetrically at corner portions of the protruding frame and the vertical frame and connects the protruding frame and the vertical frame to each other. The method of claim 3,
Wherein the lug is provided on an inner surface of an end of the vertical frame facing the vertical frames and an outer surface of the protruding frame. delete delete

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