KR100905861B1 - Supporting device of a block for ship building - Google Patents

Abstract

A supporting device for a ship block operation is provided to easily support the block of the ship by moving a support stick and a body while being connected. A supporting device for a ship block operation comprises: a main body(100) of the pillar shape having rotating grooves at a lower end part to be separated and a screw thread at an upper end part; a supporting stand(200) supporting the block of the ship by being screwed in the screw thread of the main body; a magnetic force fixing part(300) and a magnetic generator to making the supporting stand attachable and separable to the block, installed at the supporting stand; and a movable part(400) moving on a surface of the main body. When the block supported by the supporting stand is moving, the supporting stand and the main body can be moved, while being connected to the block, by generating the magnetic force with the magnetic generator member.

Description

Supporting device of a block for ship building}

The present invention relates to a ship block carrying support device, and more particularly to a ship block carrying support device for supporting a large block assembled when the ship is built.

In general, the ship is built by the block division method, and the heavy weight blocks are manufactured in various factories, and then undergo painting, pre-erection, and erection processes. Here, a bogie or a crane is used to move the large block between each step, and each support uses a support for supporting the large block.

The support may be a simple pipe support or a trestle or A-carrier.

Here, the simple support, after manufacturing the block, to secure a space for the excess work of the lower portion of the block, or after lifting the block with a lifter, or through the block, or moving the block using a bogie lower the block Support the block to secure space for the bogie to approach. However, if the block is to be moved to the next step, the simple support, after lifting the block by the bogie, transfer the simple support using a transport means such as a forklift or truck, and then move the block There is a problem that needs to be reinstalled to support it.

On the other hand, the door-shaped support mounts the block on a heavy beam supported by support members at both ends. However, the door supports increase dead weight and fuel usage of the bogie when lifting and moving the block with the bogie due to the weight of the beam. In addition, there is a problem that a safety accident occurs according to the height of the operation by increasing the height of the block when supporting or moving the block due to the height of the beam.

An object of the present invention is to provide a ship block carrying support device capable of easily supporting a block of a ship.

The present invention, the pillar-shaped main body with a screw thread formed on the upper end; A support screwed to the thread of the main body and supporting a block of the ship; A magnetic fixing member provided on the support and provided with a magnetic generating member for detachably attaching the support to the block, and generating magnetic force in the magnetic generating member when moving the block supported by the support; Provided is a support for transporting a ship block to the support and the main body can be moved together in a state attached to the block by magnetic force.

At this time, the support is screwed to the screw thread of the main body so as to be elevated in the upper end in accordance with the rotation direction, the base of the column shape provided with an installation groove for the magnetic generating member; A mounting plate installed on the base; And a rotation bearing installed between the base and the mounting plate to enable the mounting plate to rotate on the support. Here, the mounting plate may be a rubber or polyurethane that can absorb the contact impact when supporting the block.

And, the magnetic fixing portion, the magnetic generating member is coupled to the upper portion, and the lower support plate formed with a guide shaft to slide up and down on the support; The support plate may further include a support elastic member installed below the support plate to support the support plate by elastic force so that the magnetic generating member is in close contact with the block.

In addition, the main body may further include a moving unit for enabling the main body to move on the ground. A plurality of rotating grooves are formed at the lower end of the main body so as to be spaced apart from each other by a predetermined interval, and the moving unit includes a wheel; One end is rotatably pin-coupled to the main body so as to be rotated up and down on each of the pivot grooves, and a plurality of wheel support legs on which the wheels are installed; It is rotatably installed on the main body, the wheel adjustment horizontal rotating shaft provided with a wheel adjustment handle at one end; A wheel adjusting vertical rotation shaft rotatably installed on the main body, the screw thread being formed on an outer circumferential surface thereof; A wheel adjustment connecting gear which connects the wheel adjustment horizontal rotation shaft and the wheel adjustment vertical rotation shaft to transmit the rotational force of the wheel adjustment horizontal rotation shaft to the wheel adjustment vertical rotation shaft when the wheel adjustment horizontal rotation shaft rotates; A wheel lift block screwed to a screw thread of the wheel control vertical rotation shaft to move up and down on the wheel control vertical rotation shaft according to the rotation direction of the wheel control vertical rotation shaft; And, one end is rotatably pin coupled to the wheel lifting block, the other end includes a plurality of connecting rods rotatably pin coupled to each of the wheel support legs, the wheel adjustment vertical axis of rotation in the first direction When the shaft is rotated, the wheel lifting block moves upwards, and the connecting rod pulls the wheel support leg upward, so that the wheel is positioned above the lower end of the main body, and the main body is in close contact with the ground. When the wheel adjustment vertical rotation axis is rotated in the second direction, the wheel lifting block is moved downward while the connecting rod pushes the wheel support legs downward so that the wheel protrudes below the lower end of the main body, The main body may be movable by the wheel. Here, the wheel support leg may be a leaf spring.

In addition, the main body may further include a height adjusting unit for rotating the support in the state screwed to the main body, so that the support is elevated on the main body. A screw thread is formed on an inner circumferential surface of the support, and the height adjusting part includes a height adjusting horizontal rotating shaft rotatably installed on the main body; A height adjusting vertical rotation shaft rotatably installed on the main body; A height adjusting connecting gear connecting the height adjusting horizontal rotating shaft and the height adjusting vertical rotating shaft to transmit the rotational force of the height adjusting horizontal rotating shaft to the height adjusting vertical rotating shaft when the height adjusting horizontal rotating shaft is rotated; A lifting gear installed at an upper end of the height adjusting vertical rotation shaft, the lifting gear being adapted to the thread of the support, when the height adjusting shaft rotates in the first direction, the lifting gear rotates the support in the third direction. And the support is moved upward on the main body, and when the height-adjusting vertical axis of rotation rotates in the second direction, the lifting gear rotates the support in the fourth direction, and the support moves downward on the main body. It can be done.

In the ship block carrying support apparatus according to the present invention, when a magnetic force is generated by the magnetic generating member of the magnetic fixing part, the support and the main body may be attached to the block of the ship. Therefore, when the block of the ship moves, it is possible to facilitate the block support of the ship while moving the support and the main body together in the attached state.

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

1 is a front view of a ship block carrying support apparatus according to an embodiment of the present invention, Figure 2 is a cross-sectional view taken along the line A-A of FIG. 1 and 2, the ship block carrying support device includes a main body 100, a support 200, and a magnetic fixing part 300.

The main body 100 transmits a block (not shown) load of the ship that is contacted and supported by the support 200 to the ground. The main body 100 is formed in a columnar shape of a cylinder or polygon having a hollow.

Here, the thread 110 is formed at the upper end of the main body 100 so that the support 200 to be described later can be screwed. In addition, a plurality of pivoting grooves 120 may be formed at lower ends of the main body 100 so as to be spaced apart from each other at regular intervals. Such, when provided with the moving unit 400 to be described later through the rotation groove 120, the wheel 310 can be rotated in the vertical direction.

The support 200 transmits and supports the load of the block to the main body 100 in a state of being in contact with the bottom surface of the block of the vessel. This, it is screwed to the thread 110 of the main body 100 to adjust the vertical height of the main body 100 of the support (200). Therefore, the support 200 moves linearly up and down on the main body 100 in accordance with the rotation direction of the support 200, thereby adjusting the height of the main body 100.

Such, the support 200 includes a base 210, the mounting plate 220, the rotation bearing 230.

The base 210 has a pillar shape that is screwed to the thread of the main body 100. Thus, the base 210 is elevated at the upper end of the main body 100 in the rotational direction. In addition, the base 210 is provided with an installation groove 211 in which the magnetic generating member 310 of the magnetic fixing part 300 is installed. In addition, a plurality of support wings 240 may be formed radially on the outer circumferential surface of the base 210.

The mounting plate 220 is installed on the base 210 to contact the bottom surface of the block. Here, the mounting plate 220 may use a rubber that can absorb the contact impact when supporting the block, or a synthetic resin having elasticity, wherein the synthetic resin is a polyurethane material.

The pivot bearing 230 is installed between the base 210 and the mounting plate 220. Such a rotation bearing 230 allows the mounting plate 220 to rotate on the base 210. Therefore, even if the block is mounted on the mounting plate 220 in a contact state, the operator can easily rotate the base 210 to adjust the vertical height of the support 200 on the main body 100. To be.

The magnetic fixing part 300 allows the support 200 to be attached to and detached from the block of the ship in a state in which the support 200 is installed on the support 200. That is, the magnetic fixing unit 300 may release the magnetic force and the magnetic force generation. Therefore, when the magnetic force is generated in the magnetic fixing portion 300, the support 200 is attached to the block. On the other hand, when the magnetic force generation is released from the magnetic fixing part 300, the support 200 is not detached to the block is in a removable state.

The magnetic fixing part 300 includes a magnetic generating member 310, a supporting plate 320, and a supporting elastic member 330.

The magnetic generating member 310 controls the generation of magnetic force, such that when the support 200 is in contact with the block, the support 200 is attached to or detached from the block. The magnetic generating member 310 is inserted into the installation groove 211 of the support 200. Here, the magnetic generating member 310 uses a permanent magnet or an electromagnet that can control the generation of magnetic force.

The support plate 320 is coupled to the magnetic generating member 310 at the top. The support plate 320 supports the magnetic generating member 310 to be vertically slidable in the installation groove 211 of the support 200. Accordingly, a guide shaft 321 is formed below the support plate 320 to guide the support plate 320 to slide up and down on the installation groove 211.

The support elastic member 330 supports the support plate 320 with an elastic force such that the magnetic generating member 310 installed on the support plate 320 is in close contact with the block of the ship. The support elastic member 330 is installed between the support plate 320 and the bottom surface of the base 210 of the support 200 or extrapolated to the guide shaft 321 of the support plate 320. Here, the support elastic member 330 is shown as an embodiment of the spring, but is not limited to this may be used to have an elastic force.

In addition, the main body 100 may be provided with a moving unit 400 to easily move the main body 100 on the ground. That is, the moving unit 400 facilitates the movement when the transport or the position change of the main body 100 is necessary.

The moving unit 400 is a wheel 410, a wheel support leg 420, a wheel control horizontal rotation shaft 430, a wheel control vertical rotation shaft 440, a wheel control connection gear 450, a wheel lifting block 460, The connecting table 470 is provided.

The wheel 410 allows movement in a state in which the main body 100 is supported.

The wheel support leg 420 rotatably supports the wheel 410 in the vertical direction to the body 100. One end of the wheel support leg 420 is rotatably pin-coupled to the main body 100, and the wheel 410 is coupled to the other end thereof. The wheel support legs 420 may be provided in plural numbers so that one end thereof is rotated vertically on the rotation groove 120 of each of the main bodies 100. Here, the wheel support leg 420 may be used to apply a leaf spring so that the wheel 410 can stably support the block load of the main body 100 and the vessel.

The wheel control horizontal rotating shaft 430 generates a rotational force so that the operator can adjust the position of the wheel 410. Such, the wheel adjustment horizontal rotation shaft 430 is installed in the horizontal direction so as to rotate the shaft on one side of the main body 100. In addition, at one end of the wheel control horizontal rotation shaft 430 is provided with a wheel control handle 431 to facilitate the grip of the worker, to enable the worker to axially rotate the wheel control horizontal rotation shaft 430.

The wheel control vertical rotation shaft 440 is rotated by receiving the rotational force generated from the wheel control horizontal rotation shaft 430. This, the wheel adjustment vertical rotation shaft 440 is installed in the vertical direction to enable the axis rotation to one side of the main body 100 below the wheel adjustment horizontal rotation shaft 430.

The wheel control connection gear 450 transmits the rotational force of the wheel control horizontal rotation shaft 430 is axially rotated by the operator to the wheel control vertical rotation shaft 440. Such, the wheel control connection gear 450 connects the wheel control horizontal rotation shaft 430 and the wheel control vertical rotation shaft 440. Here, the wheel control connection gear 450 uses a bevel gear (Bevel gear).

The wheel lifting block 460 is lifted on the wheel control vertical rotation shaft 440 according to the rotation direction of the wheel control vertical rotation shaft 440. This, the wheel lifting block 460 is screwed to the thread 441 of the wheel control vertical rotation shaft 440 so that it can be elevated in accordance with the rotation direction on the wheel control vertical rotation shaft 440.

The connecting table 470 rotates the wheel support leg 420 in accordance with the lifting and lowering of the wheel lifting block 460 to adjust the position of the wheel 410. One end of the connection table 470 is rotatably pinned to the wheel lifting block 460, and the other end is rotatably pinned to each of the wheel support legs 420.

3 and 4, when the wheel control vertical rotation shaft 440 rotated by the worker rotates in the first direction A, the main body 100 is not moved by the wheel 410. It is in a state of being closely fixed to the ground. That is, as the wheel lifting block 460 moves upward on the wheel adjustment vertical rotation shaft 440, the connecting rod 470 pulls the wheel support leg 420 upward, and the wheel 410 is It is located above the lower end of the main body 100. On the other hand, when the wheel control vertical rotation shaft 440 rotated by the operator in the second direction (B) is axially rotated, the main body 100 is in a state capable of moving by the wheel 410. That is, while the wheel lifting block 460 moves downward on the wheel control vertical rotation shaft 440, the connecting rod 470 pushes the wheel support leg 420 downward, and the wheel 410 is the It is positioned to protrude downward from the lower end of the main body 100.

In addition, the main body 100 may be provided with a height adjustment unit 500 to enable the worker to easily rotate the support 200 in the state screwed to the upper end of the main body 100. This, the height adjustment unit 500 allows the support 200 to be elevated on the main body 100, thereby enabling to adjust the vertical height. Here, when the height adjustment unit 500 is provided, the thread 250 is formed on the inner peripheral surface of the lower end of the support 200.

The height adjusting unit 500 includes a height adjusting horizontal rotating shaft 510, a height adjusting vertical rotating shaft 520, a height adjusting connecting gear 530, and a lifting gear 540.

The height adjustment horizontal rotating shaft 510 generates a rotational force so that the operator can adjust the vertical position at the upper end of the main body 100 of the support (200). The height adjustment horizontal rotation shaft 510 is installed in a horizontal direction so as to be axially rotated on one side of the main body 100. In addition, one end of the height adjustment horizontal rotation shaft 510 may be provided with a lift control handle 511 or an air tool (not shown) to rotate the height adjustment horizontal rotation shaft 510. Here, the lifting control handle 511 allows the worker to rotate the height adjustment horizontal rotation shaft 510.

The height adjustment vertical rotation shaft 520 is rotated by receiving the rotational force generated from the height adjustment horizontal rotation shaft 510. This, the height adjustment vertical rotation shaft 520 is installed in the vertical direction to enable the axis rotation to one side of the main body 100 below the height adjustment horizontal rotation shaft 510.

The height adjustment connecting gear 530 transmits the rotational force of the height adjustment horizontal rotation shaft 510 is axially rotated by the operator to the height adjustment vertical rotation shaft 520. The height adjustment connecting gear 530 connects the height adjustment horizontal rotation shaft 510 and the height adjustment vertical rotation shaft 520. Here, the height adjustment connecting gear 530 uses a bevel gear (Bevel gear).

The lifting gear 540 is fitted to the thread 250 of the inner circumferential surface of the support 200 in a state coupled to the upper end of the height adjustment vertical rotation shaft 520. Thus, the lifting gear 540 is rotated in the thread 250 of the support 200 by the rotational force of the height-adjustable horizontal rotating shaft 510, so that the support 200 is elevated in the vertical direction. Here, the lifting gear 540 uses a spur gear.

Referring to FIGS. 5 and 6, when the height adjusting vertical rotation shaft 520 rotated by the worker is axially rotated in the first direction C, the support 200 is formed at an upper end of the main body 100. Will move upwards. That is, the lifting gear 540 is rotated by the height-adjusting vertical rotation shaft 520 to move the fitted support 200 in the third direction D while moving upward. On the other hand, when the height-adjusted vertical rotation shaft 520 rotated by the worker is axially rotated in the second direction E, the support 200 moves downward from the upper end of the main body 100. . That is, the lifting gear 540 is rotated by the height-adjusting vertical rotation shaft 520 to move the fitted support 200 in the fourth direction (F) while moving downward.

Referring to Figures 1 to 6 the operation of the ship block carrying support device according to an embodiment made of such a configuration as follows.

First, the appropriate number of the main body 100 is installed on the ground to be unloaded of the ship's block. At this time, in order to allow the main body 100 to move to the correct position, the wheel adjusting handle 431 of the moving unit 400 is rotated to adjust the position of the wheel 410. That is, the wheel adjusting handle 431 is rotated to allow the wheel 410 to protrude from the lower end of the main body 100 so that the main body 100 can be moved. Thereafter, the wheel adjusting handle 431 is rotated again in the moved position so that the wheel 410 is inserted into the main body 100 so that the main body 100 is fixed at the moved position.

Thereafter, the ship's block carried by the conveying device is mounted on the support 200 coupled to the upper end of the main body 100. In this case, the support 200 is rotated by the height adjusting unit 500 at the upper end of the main body 100 before placing the block of the vessel, the height of the primary to correspond to the lower shape of the block of the vessel After that, the support 200 which does not touch the block of the vessel in the state of placing the block of the vessel is rotated by the height adjusting unit 500 again to adjust the height secondary to the support ( 200 can be supported in contact with the block of the vessel.

Thus, when it is necessary to move the block of the vessel supported by the main body 100 and the support 200 to another position, by generating a magnetic force in the magnetic generating member 310 of the magnetic fixing part 300 The main body 100 and the support 200 are coupled to the bottom surface of the block of the ship so that the main body 100 and the support 200 may be transported together with the block of the ship.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a front view of a ship block carrying support device according to an embodiment of the present invention.

2 is a cross-sectional view taken along the line A-A of FIG.

3 and 4 are operation state diagrams of the moving unit shown in FIG.

4 and 5 is an operating state diagram of the height adjustment unit shown in FIG.

<Brief description of symbols for the main parts of the drawings>

100: main body 200: support

300: magnetic fixing 310: magnetic generating member

320: support plate 330: support elastic member

400: moving part 410: wheels

420: wheel support 430: horizontal axis of wheel adjustment

440: wheel adjustment vertical rotation axis 450: wheel control connection gear

460: wheel lifting block 470: connecting rod

500: height adjustment unit 510: height adjustment horizontal rotating shaft

520: height adjusting vertical connecting shaft 530: height adjusting connecting gear

540: lifting gear

Claims (9)

A thread formed at an upper end thereof, and a lower end having a pillar-shaped main body having a plurality of rotating grooves spaced apart from each other by a predetermined distance; A support screwed to the thread of the main body and supporting a block of the ship; A magnetic fixing part installed on the support and provided with a magnetic generating member for attaching and detaching the support to the block; And, It is installed on the main body, including a moving unit for allowing the main body to move on the ground, The moving unit, With wheels; One end is rotatably pin-coupled to the main body so as to be rotated up and down on each of the pivot grooves, and a plurality of wheel support legs on which the wheels are installed; It is rotatably installed on the main body, the wheel adjustment horizontal rotating shaft provided with a wheel adjustment handle at one end; A wheel adjusting vertical rotation shaft rotatably installed on the main body, the screw thread being formed on an outer circumferential surface thereof; A wheel adjustment connecting gear which connects the wheel adjustment horizontal rotation shaft and the wheel adjustment vertical rotation shaft to transmit the rotational force of the wheel adjustment horizontal rotation shaft to the wheel adjustment vertical rotation shaft when the wheel adjustment horizontal rotation shaft rotates; A wheel lift block screwed to a screw thread of the wheel control vertical rotation shaft to move up and down on the wheel control vertical rotation shaft according to the rotation direction of the wheel control vertical rotation shaft; And, One end is rotatably pinned to the wheel lifting block, the other end includes a plurality of connecting rods rotatably pinned to each of the wheel support legs, When the wheel control vertical rotation axis is rotated in the first direction, the wheel lifting block is moved upward while the connecting rod pulls the wheel support leg upwards such that the wheel is located above the lower end of the main body, The main body is brought into close contact with the ground, and the wheel adjusting vertical rotation axis rotates in the second direction, while the wheel lifting block moves downward, the connecting rod pushes the wheel support leg downward, and the wheels of the main body By protruding below the lower end, the main body is movable by the wheel, When moving the block supported in contact with the support, by generating a magnetic force in the magnetic generating member, the support unit for ship block transport to enable the support and the body to be moved together in a state attached to the block by magnetic force. The method according to claim 1, The support is, A pillar-shaped base screwed to a screw thread of the main body so as to be elevated at an upper end of the main body in a rotational direction and provided with an installation groove in which the magnetic generating member is installed; A mounting plate installed on the base; And, Installed between the base and the mounting plate, the support device for ship block transport comprising a rotating bearing to enable the mounting plate to rotate on the support. The method according to claim 2, The mounting plate is a ship block carrying support device which is a rubber or polyurethane that can absorb the contact impact when supporting the block. The method according to claim 1, The self-government A support plate having a guide shaft formed at an upper portion thereof to which the magnetic generating member is coupled, and at a lower portion thereof to slide up and down on the support; And a support elastic member installed under the support plate to support the support plate by elastic force and allow the magnetic generating member to closely adhere to the block. delete delete The method according to claim 1, The wheel supporting leg is a leaf spring of the ship block carrying support device. The method according to claim 1, A thread is formed on the inner circumferential surface of the support, The main body further includes a height adjusting unit for rotating the support in the state screwed to the main body, so that the support is elevated on the main body, The height adjustment unit, A height adjusting horizontal rotating shaft rotatably installed on the main body; A height adjusting vertical rotation shaft rotatably installed on the main body; A height adjusting connecting gear connecting the height adjusting horizontal rotating shaft and the height adjusting vertical rotating shaft to transmit the rotational force of the height adjusting horizontal rotating shaft to the height adjusting vertical rotating shaft when the height adjusting horizontal rotating shaft is rotated; Installed on the upper end of the height-adjusting vertical rotation shaft, including a lifting gear that is fitted to the thread of the support, When the height-adjusting vertical axis of rotation rotates in the first direction, the elevating gear rotates the support in the third direction, causing the support to move upwards on the main body, and the height-adjusting axis of vertical rotation rotates in the second direction. When rotating, the lifting gear rotates the support in the fourth direction, so that the support is moved downward on the main body to support the ship block. delete

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