KR101676567B1 - Weight constructions position the moving device - Google Patents

Abstract

A position moving device for a weight structure is disclosed. The position moving device for a weight structure, according to an embodiment of the present invention, enables the stable movement of a weight structure through a relative moving part. The position moving device for a weight structure comprises: a relative moving part which is relatively moved toward the weight structure; and a support part which is selectively fitted to an insertion groove formed in a table while connected to the relative moving part.

Description

Technical Field [0001] The present invention relates to a weight moving device,

The present invention relates to a precise positioning of a weight structure at a marked marking position, and more particularly, to a precise positioner of a weight structure capable of precisely performing movement regardless of the angle at which the weight structure is positioned .

Generally, a lot of blocks for set-up must be installed on a table before using a shipyard or a machine tool for special processing.

Referring to FIG. 1 of the accompanying drawings, the lower surface of a block 2, which has been moved to the vicinity of a marking line preferentially displayed on the table 10 via a crane in order to place the block 2 at a specific position of the table 10, To move it to the marking line while pushing it to the foot.

The block 2 is difficult to move by the worker alone because it is a heavy object so that the moving operation to the block 2 is performed in such a manner that two or more people are paired to adjust the position with respect to the block 2 and one signal to the crane do.

When the block 2 is not correctly located on the marking line during the movement operation for the block, the block 2 must be lifted up through the crane and then repositioned. This caused considerable problems.

In addition, when the block 2 is to be inclined at a specific angle, it is difficult for the worker to move the block 2, which is a heavy object, to the workforce, which may cause the worker's muscular skeletal system disease.

Korean Patent Publication No. 10-2004-0064519

Embodiments of the present invention are intended to provide an apparatus for moving a weight structure in a simple manner by which a worker can easily move the weight structure.

The apparatus for accurately moving a weight structure according to an embodiment of the present invention is arranged to face the weight structure on the table so as to position a weight structure moved near the marking line on the table to the marking line, A relative moving part in which relative movement is performed toward the weight structure; And a support portion that is selectively held in engagement with the insertion groove formed in the table in a state of being connected to the relative movement portion, wherein the relative movement portion includes a first plate positioned to face one surface of the weight structure, A second plate positioned above the support in a state facing the first plate; A plurality of guide shafts, one end of which is fixed to the rear surface of the first plate and the other end of which extends via the second plate; And a moving unit positioned at a central position of a virtual region formed by the plurality of guide shafts located on the second plate and extending toward the first plate and relatively moving the first plate toward the weight structure, One of the guide shafts is disposed at the 12 o'clock position and spaced apart from the upper portion of the moving plate when the second plate is viewed from the front. One of the guide shafts is disposed at the lower left and the other is disposed at the lower right. Wherein the moving unit includes: a main shaft extending outwardly through the second plate and inserted into a guide tube having a first screw thread formed therein and having a second screw thread formed along the length thereof; And a handle provided at an end of the main shaft extending outwardly of the second plate, wherein the support portion is a third plate horizontally fixed to the lower surface of the second plate; And a fourth plate extending vertically from the lower surface of the third plate and extending downwardly and having a thickness corresponding to the insertion groove or a relatively small thickness.
The main shaft is formed with a scale along the longitudinal direction of the main shaft so that a worker can visually recognize a distance between the main plate and the first plate moved toward the weight structure with reference to the second plate.
The scale is characterized in that a luminous paint is applied.
And a handle extended outward from the upper surface of the second plate and gripped by the operator's hand.

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In another aspect of the present invention, there is provided an apparatus for moving a heavy structure, the apparatus comprising: a counterweight for moving a weight structure, which is inclined to a marking line near a marking line, A moving part; A supporting portion having a groove portion having a semi-circular path on an upper surface thereof, the supporting portion being selectively engaged with the insertion groove formed in the table in a state of being connected to the relative moving portion; An extension part having one end connected to the relative moving part and the other end extending to the upper surface of the supporting part; A rotary shaft having one end connected to the support portion and the other end connected to the extension portion so that the entire relative moving portion is relatively rotated toward an inclined weight structure; And a fixing portion extending from the extension portion toward the groove portion to selectively hold the relative movement portion relatively rotated toward the weight structure about the rotation axis.

The support portion further includes a supplementary fixing portion that is selectively fixed in the insertion groove.

Wherein the relative movement unit includes a first plate positioned to face one surface of the weight structure; A second plate positioned above the support in a state facing the first plate; A plurality of guide shafts, one end of which is fixed to the rear surface of the first plate and the other end of which extends via the second plate; And a moving part positioned at a central position of the virtual area defined by the plurality of guide shafts positioned on the second plate and extending toward the first plate and moving the first plate relative to the weight structure.

Wherein the moving unit includes: a main shaft extending outwardly through the second plate and inserted into a guide tube having a first screw thread formed therein and having a second screw thread formed along the length thereof; And a handle disposed at an end of the main shaft extending outside the second plate.

The supporting portion may be formed with a display portion having an angle so that the operator visually recognizes the angle of the currently rotated relative moving portion when the relative moving portion is rotated at a specific angle with the rotation axis as the rotation center point.

And the extension part is provided with an angle gauge which extends toward the display part and indicates the angle of the currently rotated relative moving part.

Embodiments of the present invention can easily move the heavy structure to the correct position by the worker alone, thereby improving the workability of the worker, shortening the work time, and preventing the muscular skeletal disease.

The embodiments of the present invention can perform the position shifting operation for the weight structure without any difficulty even when the blocks are placed in the inclined state.

1 is a perspective view showing a state in which an operator moves a heavy structure from a table in the related art.
FIG. 2 is a side view showing a moving device of a weight structure according to a first embodiment of the present invention. FIG.
3 to 4 are perspective views of a device for moving a position of a weight structure according to a first embodiment of the present invention.
FIGS. 5 to 6 are views showing the state of use of the apparatus for moving the position of a weight structure according to the first embodiment of the present invention. FIG.
FIG. 7 is a view showing a state where a device for moving a weight of a weight structure according to a second embodiment of the present invention is placed on a table; FIG.
8 is a plan view of an apparatus for moving a position of a weight structure according to a second embodiment of the present invention.
9 is a perspective view of a device for moving a position of a weight structure according to a second embodiment of the present invention;

A description will be made of an apparatus for moving a heavy structure according to a first embodiment of the present invention with reference to the drawings. FIG. 2 is a side view of a moving device for moving a heavy structure according to a first embodiment of the present invention, and FIGS. 3 to 4 are views showing a moving device of a moving device for a weight structure according to the first embodiment of the present invention. It is a perspective view.

2 to 4, the apparatus 1 for moving a heavy structure according to the first embodiment of the present invention moves the weight structure 2 selectively while being fixed to the table 10 .

The apparatus for moving a stationary structure 1 of a heavy structure includes a relative moving part 100 and a supporting part 200. The relative moving part 100 moves the weight structure (2) in the table (10) in order to position the marking line (2) on the marking line and a relative movement is made towards the weighting structure (2).

Since the heavy structure 2 is a block in which a steel structure or a plurality of beam members are assembled with each other, it is relatively difficult for an operator to move the marking line by a human force, So that the weight structure 2 can be accurately positioned on the marking line.

In the present invention, in order to install a weight structure (2), a weight structure (2) is moved to a marking line by a worker alone through a position moving device (1) The time for carrying out the movement to a plurality of weight structures positioned at a specific position is shortened.

In addition, the weight structure 2 can be moved without any additional tool or equipment, and a separate moving work for moving the weight structure 2 is not required by the operator. Thus, Thereby minimizing the number of safety incidents that may occur during the work of preventing the worker's muscular skeletal diseases and performing the correct positioning operation with respect to the weight structure 2, thereby maintaining a safe working environment .

The relative movement unit 100 includes a first plate 110 positioned to face one surface of the weight structure 2 and a second plate 110 disposed on the upper portion of the support 200 in a state of facing the first plate 110. [ A plurality of guide shafts 130 having one end fixed to the rear surface of the first plate 110 and the other end extending through the second plate 120, The first plate 110 is positioned at a center position with respect to a virtual region formed by the plurality of guide shafts 130 located in the first plate 110 and the second plate 110, 2 relative to each other.

The first plate 110 and the second plate 120 are arranged to face each other and the second plate 120 is fixed on the upper surface of the support part 200 to be described later, 110 are relatively moved in the second plate 120 toward the weight structure 2.

The first plate 110 is made of steel which is structurally stiff because the weight structure 2 is to be moved by the marking line in a state of being closely attached to one surface of the heavy structure 2 made of steel. And thus the opposite surface may be made of another material having a relatively light weight. In this case, the weight structure 2 is made of steel.

It is also possible that the entire first plate 110 is made of a non-metallic material other than steel, but an alloy that maintains rigidity may be used.

Although three guide shafts 130 are shown as being installed in this embodiment, the number of the guide shafts 130 is variable and is not limited to three. The arrangement of the guide shafts 130 may be arranged in a triangular shape.

For example, when the second plate 120 is viewed from the front, one of the guide shafts 130 is spaced apart from the upper portion of the moving unit 140, and one of the guide shafts 130 is disposed at the 12 o'clock position. , And the remaining one in the lower right is arranged in a triangular shape.

One end of the guide shaft 130 is fixed to the rear surface of the first plate 110 and the other end of the guide shaft 130 extends to a predetermined length toward the rear surface of the second plate 120, And a constant diameter is maintained along the longitudinal direction.

In addition, since the outer circumferential surface is maintained smooth, the first plate 110 is moved toward the weight structure 2, so that it can be moved more easily since the hooking state is not maintained at a specific position.

The moving unit 140 includes a main shaft 142 extending outwardly through the second plate 120 and inserted into a guide tube 141 having a first screw thread formed therein and having a second screw thread formed along the length thereof, And a handle 144 installed at an end of the main shaft 142 extending outside the second plate 120.

The main shaft 142 is formed with a second screw thread along the longitudinal direction of the outer circumference and a guide thread 141 is formed with a first screw thread (not shown) on the inner circumference surface so that the operator grips the handle 144 by hand The main shaft 142 is rotated relative to the first screw thread formed on the guide tube 141 and the first plate 110 is moved to one side of the weight structure 2 in a clockwise or counterclockwise direction.

The main shaft 142 has a triangular virtual area 142 formed by connecting the guide shafts 130 to each other so as to prevent the first plate 110 from being shaken or shifted in one direction when the first plate 110 is moved toward the weight structure 2. [ Center or downward in the downward direction. When the main shaft 142 is disposed at the above position, the first plate 110 can be stably moved toward the weight structure 2 when the operator rotates the handle 144, so that the rattling phenomenon can be minimized do.

The diameter of the main shaft 142 is relatively larger than that of the guide shaft 130 so that the operator can easily move the first plate 110 toward the weight structure 2 without rotating the handle 144 several times The mobility is improved.

The handle 144 is located at the rear end of the main shaft 142 and is configured in the form shown in the drawings so that the operator can easily grasp it by hand.

The moving unit 140 may be configured manually through the guide shaft 130 and the main shaft 142 as described above, or may be constructed in an automatic manner. In the case of the automatic method, the configuration of the guide shaft is the same and the configuration of the main shaft can be changed to a combination of the rack pinion gears. In this case, a motor unit (not shown) for providing the rotational force with the pinion gear is provided at one side of the support portion.

In this case, since the rotational force of the pinion gear according to the operation of the motor unit is transmitted after being switched to the specific rotational speed through the reduction gear unit (not shown), the first plate 110 can be easily moved toward the weight structure 2 have. In addition, since the operator can control the rotation speed of the main shaft 142 through a separate control lever (not shown) that can control the rotation speed of the pinion gear, the operator can easily move the weight structure without turning the lever .

3 to 4, a distance between the main shaft 142 and the first plate 110, which is moved toward the weight structure 2 with respect to the second plate 120, is visually measured A scale 142a is formed along the longitudinal direction of the main shaft 142 so that the first plate 110 is in close contact with the second plate 120 in a zero state And is displayed to allow the operator to visually recognize the distance that the first plate 110 is relatively far from the second plate 120 based on the state in which the first plate 110 is separated from the second plate 120.

The scale 142a is required for the operator to move the weight structure 2 accurately to the marking line and is moved to the moving part 140 through the scale 142a until the weight structure 2 is positioned at the marking line Can be adjusted so that the numerical error is minimized and the accuracy is improved.

In this case, when the roughness of the work site where the work is performed in the exact position with respect to the weight structure 2 is relatively low, or when the work in the fixed position with respect to the weight structure 2 is performed at night The visibility of the weight structure 2 can be improved. In particular, the scale 142a may be coated with a luminous paint in units of 10 mm or other units and is not necessarily limited to the above-described units.

The supporting part 200 is selectively inserted into the insertion groove 3 formed in the table 10 while being connected to the mover 100. The supporting part 200 is supported by the second plate 120 The third plate 210 is vertically connected to the lower surface of the third plate 210 and extends downward. The third plate 210 has a thickness corresponding to the insertion groove 3 or a relatively small And a fourth plate 220 of thickness.

The support part 200 is inserted into the insertion groove 3 so that the relative moving part 100 does not move in the table 10 when the weight structure 2 is moved, Can be stably supported on the supporting part 200 in a state in which the supporting part 200 is in close contact with the one surface of the weight structure 2, The shaking can be minimized.

The stationary moving device 1 of the heavy structure is provided with a handle 102 which extends outward from the upper surface of the second plate 120 and is gripped by a worker's hand, The protruded state of the upper surface of the second plate 120 may be maintained or the inserted state of the second plate 120 may be maintained.

5 to 6, the apparatus for moving the gravity structure 1 includes two or more of the gravitational structures 2 spaced apart from each other according to the size of the gravity structure 2, And is used for position work. In this case, after the first plate 110 is moved with priority to the outside of the weight structure 2 as shown by the arrow, the weight structure 2 is moved to the marking line So that it is possible to easily carry out the exact positioning of the weight structure 2 with a single operator.

A moving device for moving a heavy structure according to a second embodiment of the present invention will be described with reference to the drawings. In this embodiment, unlike the above-described embodiment, even when the weight structure is to be positively positioned in the inclined state on the table, the relative movement portion can be easily rotated at a specific angle, .

7 to 9, the weight structure 2 is moved relative to the weight structure 2 in order to position the weight structure 2, which has been tilted near the marking line shown on the table 10, A state of being selectively engaged with the insertion groove 3 formed in the table 10 in a state of being connected to the relative moving unit 1000 is maintained and a semicircular path is formed on the upper surface An extension part 3000 having one end connected to the relative moving part 1000 and the other end extended to the upper surface of the supporting part 2000, A rotating shaft 4000 having one end connected to the extension portion 3000 and the other end connected to the extended portion 3000 so that the entire relative moving portion 1000 is relatively rotated toward the inclined weight structure 2; And extending from the extension part (3000) toward the groove part (2002) in order to selectively maintain the relative movement part (1000) relatively rotated toward the weight structure (2) about the rotation axis (4000) And a fixing portion 5000 as shown in FIG.

The supporting part 2000 according to the present embodiment is formed with a groove 2002 having a semicircular path so that the relative moving part 1000 is rotated on the upper surface of the supporting part 2000. The groove 2002 is formed in a semicircular shape The reason for this is to allow the relative moving unit 1000 to conveniently move the weight structure 2, which is positioned in an inclined state, to the marking line.

For example, when the first weight structure 2a and the second weight structure 2b are positioned in an inclined state as shown in the drawing, the relative moving part 1000 moves the first weight structure 2a and the second weight structure 2b, The first weight structure 2a and the second weight structure 2b may be positioned on the marking line only after the first plate 1100 is moved relative to the first weight structure 2b after being rotated toward one side of the weight structure 2b.

In this case, since the entire relative moving part 1000 is rotated at a predetermined angle toward the first weight structure 2a or the second weight structure 2b with the rotation axis 4000 as the rotation center axis, The work can be easily performed in a fixed position even if it is positioned at an angle, so that the workability of the worker can be improved and the worker can easily perform the position shifting operation for a plurality of heavy structures in a short time.

The fixing part 5000 extends toward the groove part 2002 and when the relative moving part 1000 is rotated in a specific direction, the lower end of the fixing part 5000 is moved along the groove part 2002, The fixed state of the relative moving part 1000 can be conveniently fixed through the fixing part 5000 in a state where the relative moving part 1000 is rotated at an angle. For reference, bolts extending from the upper surface of the extension part 3000 to the groove part 2002 are used for the fixing part 5000, but they can be changed to other configurations.

In the extension part 3000, a screw thread is formed inside the insertion hole (not shown) in which the bolt is inserted for easy fixing and disengagement of the fixing part 5000, and a thread is formed in the bolt, When the bolt is rotated in the clockwise or counterclockwise direction, the bolt is in contact with the bottom surface of the groove 2002 or remains in the non-contact state to selectively change the fixed state.

For example, when the entire relative moving part 1000 is rotated in a specific direction around the rotating shaft 4000, the fixing state of the fixing part 5000 is maintained in the released state, and the first weight structure When the angle of the one side of the groove 2a is matched with the inclined angle of the rotated relative moving part 1000, the bolt is rotated to hold the fixed state on the bottom surface of the groove 2002.

The support portion 2000 further includes an auxiliary fixing portion 2300 that is selectively fixed to the insertion groove 3 and the auxiliary fixing portion 2300 is formed by a bolt or the like, Is located at the upper position.

The auxiliary fixing part 2300 is provided to prevent the weight of the weight structure 2 transmitted to the mover 1000 along with the fixing part 5000 from being pushed due to the weight of the weight 230, A reaction force is generated in the F1 direction and the F2 direction by the fourth plate 2200 inserted into the insertion groove 3 and the reaction force applied in the F1 direction and the F2 direction by the auxiliary fixing part 2300 The weight structure 2 is stably supported during the movement of the weight structure 2 by the marking line.

Therefore, even when the weight structure 2 is tilted, the occurrence of an accident caused by the reaction force of the support can be prevented, the worker can easily perform the work in the fixed position, and the work time can be shortened, The installation can be performed.

In the support part 2000, when the relative moving part 1000 is rotated at a specific angle with the rotation axis 4000 as a rotation center, an angle is set so that the operator visually recognizes the angle of the currently rotated relative moving part 1000 A display 2001 is formed. The operator can precisely set an angle through the display unit 2001 when using a plurality of weighting structure moving devices 1a.

Since the extension part 3000 is provided with the angle gauge 2003 which extends toward the display part 2001 and indicates the angle of the currently rotated relative moving part, the angle of inclination of the weight structure 2, The relative moving unit 1000 can be rotated.

Since the scale is displayed at a constant angle at 10 degrees or at a specific angle, the operator can visually easily grasp the scale, and the work for moving the heavy structures 2 to the marking line can be accurately performed.

The relative movement unit 1000 includes a first plate 1100 positioned to face one surface of the weight structure 2 and a second plate 1100 positioned on the upper portion of the support 2000 in a state of facing the first plate 1100. [ A plurality of guide shafts 1300 having one end fixed to the rear surface of the first plate 1100 and the other end extending through the second plate 1200, The first plate 1100 is positioned at a central position of the virtual region formed by the plurality of guide shafts 1300 located in the weight structure 1200 and extends toward the first plate 1100, And a moving unit 1400 that moves the moving unit 1400 relative to the moving unit 1400.

The first plate 1100 and the second plate 1200 are arranged to face each other and the second plate 1200 is fixed on the upper surface of the support part 2000 to be described later, 1100) are moved toward the weight structure (2).

The first plate 110 is made of steel which is structurally stiff because the weight structure 2 is to be moved by the marking line in a state of being closely attached to one surface of the heavy structure 2 made of steel. And thus the opposite surface may be made of another material having a relatively light weight. In this case, the weight structure 2 is made of steel.

It is also possible that the entire first plate 1100 is made of a non-metal material other than steel, but an alloy which maintains rigidity may be used.

Although three guide shafts 1300 are shown as being installed in this embodiment, the number of guide shafts 1300 is variable and is not necessarily limited to three. Further, the arrangement of the guide shaft 1300 may be arranged in any one of a triangular shape and a square shape, and is not necessarily limited to the shape shown in the drawings.

One end of the guide shaft 1300 is fixed to the rear surface of the first plate 1100 and the other end of the guide shaft 1300 extends a predetermined length toward the rear surface of the second plate 1200. The guide shaft 1300, And a constant diameter is maintained along the longitudinal direction.

In addition, since the outer circumferential surface is maintained smooth, the first plate 1100 can be easily moved when it is moved toward the weight structure 2. [

The moving unit 1400 includes a main shaft 1420 extending outwardly through the second plate 1200 and inserted into a guide tube having a first screw thread formed therein and having a second screw thread formed along the length thereof, And a handle 1440 provided at an end of the main shaft 1420 extending outwardly of the two plates 1200. [

The main shaft 1420 is formed with a second screw thread along the longitudinal direction of the outer circumferential surface and a first screw thread is formed on the inner circumferential surface of the guide tube so that the operator grips the handle 1440 by hand, The main shaft 1420 is rotated relative to the first screw thread formed on the guide tube to move the first plate 1100 to one surface of the weight structure 2. [

The main shaft 1420 includes a triangular shaped virtual area 1410 which is generated when the guide shafts 1300 are connected to each other so as to prevent the first plate 1100 from being shaken or shifted in one direction when moving the first plate 1100 toward the weight structure 2. [ Center or downward in the downward direction. When the main shaft 1300 is disposed at the above position, the first plate 1100 can be stably moved toward the weight structure 2 when the operator turns the handle 1440, thereby minimizing a malfunction.

The main shaft 1420 is relatively larger in diameter than the guide shaft 1300 so that the operator can easily move the first plate 1100 toward the weight structure 2 without rotating the handle 1440 a plurality of times The mobility is improved.

The handle 1440 is located at the rear end of the main shaft 1420 and is configured in the form shown in the drawings so that the operator can easily grasp it by hand.

As described above, the moving unit may be configured manually through the guide shaft 1300 and the main shaft 1420, or may be constructed in an automatic manner. In the case of the automatic method, the configuration of the guide shaft is the same and the configuration of the main shaft can be changed to a combination of the rack pinion gears. In this case, a motor unit (not shown) for providing the rotational force with the pinion gear is provided at one side of the support portion.

In this case, since the rotational force of the pinion gear according to the operation of the motor unit is transmitted after being switched to the specific rotational speed through the reduction gear unit (not shown), the first plate 1100 can be easily moved toward the weight structure 2 have. Further, since the operator can control the rotation speed of the main shaft 142 through a separate control lever (not shown) that can control the rotation speed of the pinion gear, the operator can conveniently move the weight structure conveniently without turning the lever .

The support part 2000 is selectively held in the insertion groove 3 formed in the table 10 while being connected to the mover 1000. The support part 2000 supports the second plate 1200 A third plate 2100 that is vertically connected to the lower surface of the third plate 2100 and extends downward and has a thickness corresponding to the insertion groove 3 or a relatively small And a fourth plate 2200 of thickness.

The support part 2000 is provided with a first plate 110 and a second plate 120 so that the fourth plate 2200 is inserted into the insertion groove 3 so that the relative moving part 1000 is not moved from the table 10 when the weight structure 2 is moved. The weight structure 2 can stably support the reaction force transmitted to the support part 2000 in a state of being closely attached to one surface of the weight structure 2, It is possible to prevent shaking.

The moving device 1a of the heavy structure is provided with a handle 1002 which extends outward from the upper surface of the second plate 1200 and is gripped by a worker's hand, The protruded state of the upper surface of the second plate 1200 may be maintained or the inserted state of the second plate 1200 may be maintained.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention as set forth in the appended claims. The present invention can be variously modified and changed by those skilled in the art, and it is also within the scope of the present invention.

2: Weight structure
3: Insert groove
10: Table
100, and 1000:
102: Handle
200, 2000: Support
110, 1100: a first plate
120, 1200: a second plate
130, 1300: guide shaft
140, 1400:
142, 1420: Main shaft
144, 1440:
142a: scale
210, 2100: third plate
220, 2200: fourth plate
2001: Display
2003: Angle gauge
2002: Groove
3000: extension part
4000:
5000:

Claims (14)

A relative movement part positioned in a state facing the weight structure in the table for positioning the weight structure moved near the marking line shown in the table to the marking line and relative movement is performed toward the weight structure; And
And a support portion which is selectively engaged with the insertion groove formed in the table in a state of being connected to the relative moving portion,
Wherein the relative movement unit includes a first plate positioned to face one surface of the weight structure; A second plate positioned above the support in a state facing the first plate; A plurality of guide shafts, one end of which is fixed to the rear surface of the first plate and the other end of which extends via the second plate; And a moving part positioned at a central position of a virtual area defined by the plurality of guide shafts positioned on the second plate and extending toward the first plate and relatively moving the first plate toward the weight structure,
One of the guide shafts is disposed at the 12 o'clock position and is spaced apart from the upper portion of the moving unit when the second plate is viewed from the front, ,
Wherein the moving unit includes: a main shaft extending outwardly through the second plate and inserted into a guide tube having a first screw thread formed therein and having a second screw thread formed along the length thereof; And a handle provided at an end of the main shaft extending outwardly of the second plate,
The support portion includes a third plate horizontally fixed to the lower surface of the second plate; And a fourth plate connected to the lower surface of the third plate in a vertical state and extending downwardly and having a thickness corresponding to the insertion groove or a relatively small thickness. delete delete delete The method according to claim 1,
In the main shaft,
And a scale is formed along the longitudinal direction of the main shaft so that the operator can visually recognize a distance between the second plate and the first plate moved toward the weight structure with reference to the second plate. Mobile device. 6. The method of claim 5,
The scale may be,
And a luminous paint is applied to the weight structure. delete The method according to claim 1,
And a handle that extends outward from an upper surface of the second plate and is gripped by the operator's hand. A relative moving unit that moves relative to the weight structure so as to position the weight structure shifted in an inclined state near the marking line on the table to the marking line;
A supporting portion having a groove portion having a semi-circular path on an upper surface thereof, the supporting portion being selectively engaged with the insertion groove formed in the table in a state of being connected to the relative moving portion;
An extension part having one end connected to the relative moving part and the other end extending to the upper surface of the supporting part;
A rotary shaft having one end connected to the support portion and the other end connected to the extension portion so that the entire relative moving portion is relatively rotated toward an inclined weight structure; And
And a fixing part extending from the extension part toward the groove part to selectively maintain the relative movement of the relative movement part about the rotation axis relative to the weight structure. 10. The method of claim 9,
The support portion
Further comprising: an auxiliary fixing part which is selectively fixed in the insertion groove. 10. The method of claim 9,
Wherein the relative movement unit comprises:
A first plate positioned to face one side of the weight structure;
A second plate positioned above the support in a state facing the first plate;
A plurality of guide shafts, one end of which is fixed to the rear surface of the first plate and the other end of which extends via the second plate;
And a moving portion positioned at a central position of the virtual region defined by the plurality of guide shafts positioned on the second plate and extending toward the first plate and relatively moving the first plate toward the weight structure, . 12. The method of claim 11,
The moving unit includes:
A main shaft extending outwardly via the second plate and inserted into a guide tube having a first screw thread formed therein and having a second screw thread formed along the length thereof;
And a handle provided at an end of the main shaft extending outside the second plate. 10. The method of claim 9,
In the supporting portion,
Wherein when the relative movement unit is rotated at a specific angle with the rotation axis as a rotation center point, a display unit having an angle is formed to visually recognize an angle of the currently rotated relative movement unit. 14. The method of claim 13,
In the extension portion,
And an angle gauge that extends toward the display unit and indicates an angle of the currently-rotated relative moving unit.

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