KR20180078467A - Prefabricated lug for heavy lifting - Google Patents

Abstract

The present invention relates to a detachable lug for improving lifting efficiency of a unit module, capable of being quickly and conveniently installed to and removed from the unit module. According to the present invention, the detachable lug for improving lifting efficiency of a unit module comprises: a fixed plate disposed on the upper part of the unit module; a mounting slit formed by penetrating the fixed plate; a locking plate installed while penetrating the mounting slit to be uprightly installed on the upper surface of the fixed plate, forming a locking plate locked on the lower surface of the mounting slit with a part thereof, and having a fastening hole to which a lifting wire is fastened; and a shim plate installed in the mounting plate having the locking plate installed therein and pressing the locking plate to prevent the locking plate from being moved in the mounting slit.

Description

[0001] The present invention relates to a prefabricated lug for heavy lifting,

The present invention relates to a detachable lug for improving the lifting efficiency of a unit module, and more particularly, to a lug capable of quickly and conveniently installing and disassembling the lug on the top of the unit module, The present invention relates to a detachable lug for improving lifting efficiency of a unit module capable of quickly changing a position.

In general, as the importance of marine resource development increases, various types of offshore structures are installed on the sea besides ships. Most of the offshore structures float on the sea by float.

These offshore structures include both the structures and vessels that are floated in the sea where the flow occurs and have storage tanks for storing liquid cargo that are loaded at cryogenic temperatures like LNG. For example, LNG FPSO , Production, storage and offloading) and floating structures such as LNG FSRU (Floating Storage and Regasification Unit) as well as vessels such as LNG carriers and LNG RV (LNG Regasification Vessels).

LNG FPSO is used to produce natural gas by drilling the seabed and to directly liquefy the produced natural gas in the LNG storage tank and to transfer the LNG stored in the LNG storage tank to the LNG transport tank, It is a marine structure.

In addition, the LNG FSRU is a floating floating structure that stores LNG unloaded from an LNG carrier in the sea off the sea, and then supplies the LNG to the demanding customers when necessary.

Such an offshore structure has a structure in which a hull supports a topside, and a topside module installed on an upper structure is composed of several to dozens of unit modules depending on its role Since such a unit module weighs several tens to hundreds of tons, the unit module is transported using a crane.

For example, as shown in FIG. 1, in a shipyard, a unit module lifting work such as a ship and an offshore structure is performed using a crane. The lifting wire 11 connected to a crane is connected to a And is fastened to the lug 21 to be lifted.

However, since the weight of the unit module 20 is different from that of the unit module 20, the center of gravity of the unit module 20 is different from that of the unit module 20, .

In this case, since several lugs 21 are provided on the upper part of the unit module 20 in order to accurately balance the center of gravity, conventionally, a plurality of lugs 21 are welded to the upper part of the unit module 20 After the unloading of the unit module 20 is completed, another unit module may be loaded on the unit module 20, so that the welded lug 21 installed on the upper portion of the unit module 20 must be removed There is an inconvenience.

Particularly, the installation of the lug 21 of the unit module 20 as described above affects the quality because the precision of the welding process is changed according to the skill of the operator.

In order to remove the lug 21 provided on the upper part of the unloading unit module 20, the operator prepares a cutting torch, a gas cylinder, and the like and carries the cutting equipment to the upper part of the unit module 20 having a considerable height It takes a considerable amount of time to perform the cutting operation because the cutting operation must be performed, and there is a risk of a falling accident during the transportation and cutting operation of the cutting equipment.

Since the high temperature heat is applied to the unit module 20 during the cutting welding of the lug 21 as described above, the upper portion of the unit module 20 may be thermally deformed, and the rigidity of the unit module 20 may be adversely affected There is a problem that it is difficult to assemble the unit module 20 precisely according to the residues when the unit module 20 is loaded because residue such as slag is left on the unit module 20 even if the lug 21 is removed.

KR, A, 20-2015-0001794 (2015.05.11)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a unit module capable of quickly and conveniently installing and disassembling a lug provided at an upper portion of a unit module to perform a lifting operation for a unit module such as a ship, And an object of the present invention is to provide a detachable lug for improving lifting efficiency.

Another object of the present invention is to provide a detachable lug for improving the lifting efficiency of the unit module, which can shorten the work load and the working time of the worker, because the position of the lug according to the center of gravity of the unit module can be quickly and conveniently changed.

According to an aspect of the present invention to achieve the above object, there is provided a method of manufacturing a plasma display panel, including: a fixing plate provided on an upper portion of a unit module; a mounting slit formed through the fixing plate; And a part of which is engaged with a lower surface of the mounting slit and which is provided on the mounting slit on which the binding hole is formed and on which the lifting wire is coupled, And a shim plate which presses the slit so as not to move in the slit, is achieved by the detachable lug for enhancing the lifting efficiency of the unit module.

The fixing plate may have a plurality of fastening holes formed around the mounting slit, and the fastening holes may be formed with bolts that are screwed into the upper portion of the unit module.

Preferably, the fixing plate has a receiving groove formed therein for receiving the latching protrusion of the latching plate.

The fixing plate may include a first fixing plate on which the mounting slit is formed and a second fixing member which is stacked on the lower portion of the first fixing plate and which is located at an upper portion of the unit module and supports the lower ends of the latch plate and the shim plate. Plate.

Preferably, at least one of the lower surface of the first fixed plate and the upper surface of the second fixing plate has a receiving groove for receiving the latching jaw of the latching plate.

The mounting slit may include a penetrating portion formed on the upper surface of the fixing plate, and a latching portion formed on the fixing plate so as to intersect with the penetrating portion and the lower surface of the fixing slit is engaged with the latching jaw of the latching plate.

Further, it is preferable that the latching plate is formed between the latching jaw and the binding hole so that the bottleneck portion guided to the latching portion is formed as compared with the portion where the length is different.

In addition, it is preferable that the latching plate is formed with a latching protrusion whose lower portion is bent outward.

Preferably, the shim plate has a through hole communicating with a binding hole formed in the latch plate.

In addition, it is preferable that the latching plate is formed of a pair of right and left, and is located at one side and the other side of the mounting slit, and the shim plate is positioned therebetween.

According to the detachable lug for improving the lifting efficiency of the unit module according to the present invention, the fixing plate is fixed to the upper part of the unit module by bolting, and then the holding plate and the shim plate are vertically mounted from the upper surface of the fixing plate, So that the lugs can be installed and disassembled quickly and conveniently.

Particularly, according to the balance of the center of gravity of the unit module, the position of the lug of the present invention can be changed quickly and conveniently, so that the unloading of the unit module can be performed quickly.

Further, since the detachable lug for improving the lifting efficiency of the unit module according to the present invention does not require welding, thermal deformation of the upper part of the unit module due to cutting welding does not occur, and the rigidity of the unit module is not adversely affected.

Further, when the lug is removed from the upper part of the unit module, no residue such as slag due to cutting welding is left, and the unit module can be stacked precisely.

1 is a view illustrating a conventional unit module lifting operation.
2 is a perspective view illustrating a detachable lug for improving the lifting efficiency of a unit module according to the present invention.
3 is an exploded perspective view illustrating a detachable lug for improving lifting efficiency of a unit module according to the present invention.
4 is a plan view of a detachable lug for improving lifting efficiency of a unit module according to the present invention.
FIG. 5 is a cross-sectional view taken along the line AA of FIG. 4, illustrating a state in which a detachable lug for improving the lifting efficiency of a unit module according to the present invention is installed in a unit module.
6 and 7 are an exploded perspective view and a cross-sectional view illustrating another embodiment of a detachable lug for improving lifting efficiency of a unit module according to the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

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

FIG. 2 is a perspective view illustrating a detachable lug for improving lifting efficiency of a unit module according to the present invention, and FIG. 3 is an exploded perspective view illustrating a detachable lug for improving lifting efficiency of a unit module according to the present invention.

The detachable lug for improving lifting efficiency of a unit module according to the present invention includes a fixing plate 100 provided on an upper portion of a unit module, a mounting slit 200 formed through a fixing plate 100, And a retaining plate 300 having a retaining protrusion 310 so that the retaining plate 310 can be assembled to the mounting slit 200 in a state of being erected on the upper surface of the retaining plate 100, And a shim plate (400) for pressing the latching plate (300) in the mounting slit (200) so as not to move.

A fastening hole 320 is formed on the fastening plate 300 to be fastened to the fastening plate 100 on the mounting slit 200.

In other words, the fixing plate 100 is made of a steel material in the form of a plate having a predetermined thickness, and the mounting slit 200 is formed at the center of the upper surface thereof. A plurality of fastening holes 110 are formed around the mounting slit 200 formed in the fixing plate 100. The bolt 500 screwed to the upper part of the unit module is inserted into the fastening hole 110 to fix the fastening plate 100 to the upper surface of the unit module.

The fixing plate 100 is stacked on the lower portion of the first fixing plate 100a and the first fixing plate 100a on which the mounting slit 200 is formed and is positioned at the upper portion of the unit module, And a second fixing plate 100b that supports the lower end of the first fixing plate 400. [

The first fixing plate 100a and the second fixing plate 100b are formed with fixing holes 110 into which the bolts 500 are inserted so that the bolts 500 are inserted into the fixing holes formed in the first fixing plate 100a The first fixing plate 100a and the second fixing plate 100b can be integrally fixed to or separated from the upper portion of the unit module, So that a separate welding process is not required to be provided on the upper part of the unit module.

The fixing plate 100 has a receiving groove 120 in which the receiving jaw 310 of the receiving plate 300 is received. The fixing plate 100 is formed so as to be recessed toward the inside of the fixing plate 100 around the mounting slit 200 in the lower surface of the fixing plate 100 so that the locking protrusion 310 of the plate 300 is positioned.

When the receiving groove 120 is formed on the lower surface of the fixing plate 100 as described above, the latching protrusion 310 of the latching plate 300 mounted through the mounting slit 200 is positioned in the receiving groove 120, The lower surface of the plate 100 is not protruded by the latching protrusion 310 of the latching plate 300 so that the fixing plate 100 stably contacts the upper portion of the unit module.

When the fixing plate 100 is composed of the first fixing plate 100a and the second fixing plate 100b as described above, the receiving groove 120 is formed on the lower surface of the first fixing plate 100a, And the upper surface of the plate 100b.

3 and 5, when the receiving groove 120 is formed on the upper surface of the second fixing plate 100b, the latching protrusion 310 formed on the latching plate 300 is inserted into the second fixing plate 100b, The lower surface of the first fixing plate 100a and the lower surface of the second fixing plate 100b when the first fixing plate 100a and the second fixing plate 100b are stacked in the receiving groove 120 formed on the upper surface of the first fixing plate 100a, So that the upper surface of the substrate W is in surface contact.

The mounting slit 200 formed on the stationary plate 100 is formed to intersect the penetration portion 210 and the penetration portion 210 forming a passage through which the lower ends of the latch plate 300 and the shim plate 400 are inserted, And a latching part 220 formed on the upper surface of the fixing plate 100 and having a lower surface engaged with the latching protrusion 310 of the latching plate 300. The penetration part 210 and the engaging part 220 are formed in the shape of a cross at the center of the upper surface of the fixing plate 100 as shown in FIG.

The length of the penetration part 210 corresponds to the length of the lower end of the coupling plate 300 and the shim plate 400. The width of the penetration part 210 corresponds to the length of the coupling plate 300 and the shim plate 400 So that the latching plate 300 and the shim plate 400 are inserted into the through-hole 210.

The latching part 220 is formed on the upper surface of the fixing plate 100 in a direction crossing the longitudinal direction of the penetrating part 210 and the latching plate 300 inserted into the penetrating part 210 is inserted into the latching part 220, As shown in FIG.

When the mounting slit 200 is formed on the fixing plate 100 in the shape of a cross, the latching plate 300 has a structure corresponding to the latching portion 220. [ 3, the fastening plate 300 is smaller than the fastening holes 320 formed at the upper and lower portions of the fastening plate 300 and the fastening holes 310, The bottleneck portion 330 guided by the portion 220 is formed.

When the bottleneck 330 is formed on the retaining plate 300 in the state where the retaining plate 300 is inserted into the through portion 210 of the retaining plate 100, So that the latching plate 300 can be moved to the side of the penetrating portion 210. [

3 and 5, the latch plate 300 is disposed at one side and the other side of the mounting slit 200, and the shim plate 400 is positioned between the mounting slit 200 and the mounting slit 200 200 are fixed so as not to move.

As described above, the shim plate 400 positioned between the holding plates 300 and inserted into the mounting slit 200 is formed with a through hole 410 on the upper portion thereof, and the binding holes 320 formed in the holding plate 300 ).

5, the lifting wire 11 passes through the retaining plate 300 and the shim plate 400 so that the shim plate 400 is moved freely in the penetration portion 210 of the mounting slit 200 So that it is prevented from being separated.

The installation of the detachable lug for improving the lifting efficiency of the unit module according to the present invention having the above-described structure will be described with reference to FIGS. 4 and 5. FIG.

FIG. 4 is a plan view of a detachable lug for improving lifting efficiency of a unit module according to the present invention. FIG. 5 is a cross-sectional view taken along line AA of FIG. 4. Referring to FIG. 4, Fig.

Referring to the drawings, the fixing plate 100 is installed on the upper part of the unit module 20 in order to carry an ocean structure having a considerable weight and volume such as the unit module 20. At this time, an assembly hole in which the bolt 500 is screwed is formed on the upper part of the unit module 20 in conformity with the fastening hole 110 formed in the fastening plate 100.

After the fixing plate 100 is fastened to the upper part of the unit module 20 with the bolts 500, the fastening plate 300 is assembled upright on the upper surface of the fixing plate 100. At this time, the lower end of the latching plate 300 is inserted into the penetration part 210 of the mounting slit 200 formed on the upper surface of the fixing plate 100, and then the latching plate 300 is moved to the side of the mounting slit 200 do.

When the latching plate 300 is laterally moved while being inserted into the mounting slit 200, the bottleneck 330 of the latching plate 300 is guided by the latching portion 220 of the mounting slit 200, The engaging jaw 310 of the fastener 300 is hooked on the lower surface of the mounting slit 200.

After the latching plate 300 is mounted on the mounting slit 200 as described above, the shim plate 400 is positioned between the latching plates 300. At this time, the lower end of the shim plate 400 is inserted into the mounting slit 200, As shown in FIG.

When the shim plate 400 is positioned between the engaging plates 300, the binding holes 320 of the engaging plate 300 and the through holes 410 of the shim plate 400 are communicated with each other, The lifting wire 11 is pulled to the unit module 20 after the lifting wire 11 is bound to the through hole 320 and the through hole 410.

According to the above-described detachable lug for improving the lifting efficiency of the unit module according to the present invention, the fixing plate 100 is fixed to the upper portion of the unit module 20 by bolts, and then is vertically hooked from the upper surface of the fixing plate 100 Since the plate 300 and the shim plate 400 are attached to bind the lifting wire 11, the lug can be quickly and conveniently installed and disassembled.

In particular, according to the balance of the center of gravity of the unit module 20, the position of the lug of the present invention can be changed quickly and conveniently, so that the unloading of the unit module 20 can be performed quickly.

In addition, since the detachable lug for improving the lifting efficiency of the unit module according to the present invention does not require welding, thermal deformation of the upper portion of the unit module 20 due to cutting welding does not occur and adversely affects the rigidity of the unit module 20 Do not give.

In addition, when the lug is removed from the upper part of the unit module 20, no residue such as slag due to cutting welding is left, so that the unit module can be stacked precisely.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

For example, in the above description, the mounting slit 200 is formed with the latching portion 220 in a direction crossing the penetrating portion 210, but the mounting slit 200 is formed in the shape of a rectangle, 300 may be formed with an outwardly bent latching protrusion 310. This will be described with reference to FIGS. 6 and 7. FIG.

6 and 7 are an exploded perspective view and a cross-sectional view illustrating another embodiment of a detachable lug for improving lifting efficiency of a unit module according to the present invention. Referring to the drawings, the mounting slit 200 formed on the upper surface of the stationary plate 100 has a rectangular shape.

Further, the latching plate 300 has a length corresponding to the length of the mounting slit 200 having the rectangular shape as described above. Further, the latching plate 300 forms a latching protrusion 310 whose lower portion is bent outward.

The latching plate 300 having the latching protrusion 310 bent downward outward is inserted into the mounting slit 200 having the rectangular shape of the latching plate 100, The latching plate 300 is brought into close contact with the side surface of the mounting slit 200 so as to be housed in the groove 120.

After the retaining plate 300 having the retaining jaws 310 bent as described above is mounted on the mounting slit 200, the seam plate 400 is installed between the retaining plates 300 so that the retaining plate 300 is mounted So as not to move in the slit (200).

According to the detachable lug for improving the lifting efficiency of the unit module according to another embodiment as described above, the workability of the mounting slit 200 and the latching plate 300 of the stationary plate 100 is excellent, The manufacture of the plate 300 is easy and the manufacturing cost can be reduced accordingly.

11: lifting wire 20: unit module
100: Fixing plate 100a: First fixing plate
100b: second fixing plate 110: fastening hole
120: storage groove 200: mounting slit
210: penetrating part 220:
300: latching plate 310: latching jaw
320: binding hole 330: bottleneck
400: Shim plate 410: Through hole
500: Bolt

Claims (10)

A fixing plate provided on an upper portion of the unit module;
A mounting slit formed through the fixing plate;
A latching plate having a fastening hole through which the lifting wire is fastened, the fastening hole being formed in an upper surface of the fastening plate so as to penetrate through the fastening plate, and a part of which is fastened to a lower surface of the fastening plate; And
And a shim plate installed on the mounting slit provided with the latching plate and pressing the latching plate so as not to move on the mounting slit.
The method according to claim 1,
The stationary plate
Wherein a plurality of fastening holes are formed around the mounting slit, and a bolt screwed into the upper portion of the unit module is inserted into the fastening hole.
The method according to claim 1,
Wherein the fixing plate has a receiving groove formed therein for receiving the latching protrusion of the latching plate.
The method according to claim 1,
The stationary plate
A first fixing plate on which the mounting slit is formed; And
And a second fixing plate stacked on the lower side of the first fixing plate and positioned on the upper side of the unit module to support the lower ends of the latch plate and the shim plate. Type lugs.
The method of claim 4,
Wherein at least one of the lower surface of the first fixed plate and the upper surface of the second fixing plate has a receiving groove for receiving the latching jaw of the latching plate.
The method according to claim 1,
The mounting slit
A penetrating portion formed on an upper surface of the fixing plate; And
And a locking part formed on the fixing plate so as to intersect with the penetrating part and the lower surface of the locking part engaging with the locking protrusion of the locking plate.
The method of claim 6,
The retaining plate
And a bottleneck portion guided by the engaging portion is formed between the engaging jaw and the binding hole, the length being smaller than the length of the engaging jaw and the binding hole.
The method according to claim 1,
Wherein the latching plate is formed with a latching protrusion whose lower portion is bent outwardly.
The method according to claim 1,
The shim plate
And a through hole communicating with the binding hole formed in the latching plate is formed.
The method according to claim 1,
Wherein the latching plate comprises a pair of left and right latching plates, and the latching plate is located at one side and the other side of the mounting slit and the shim plate is positioned therebetween.

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