KR100782696B1 - Apparatus for preventing damage of a side face of coil - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a crane lift device used for transferring coils between steps in a cold rolled steel sheet manufacturing process. The present invention relates to a coil side breakage preventing lift device capable of preventing side breakage of a coil due to friction.

The present invention is a lift device for a crane for conveying steel coil,

A first magnet coupled to the lift side portion; A sliding block fitted to the lift side portion; A second magnet attached to the sliding block so as to face the first magnet and having the same polarity as the first magnet; A contact plate in contact with the sliding block and in contact with the coil; And an elastic body for elastically supporting the contact plate in the sliding block. If the contact plate contacts the side of the coil when the coil is hoisted, the side of the coil is supported without impact while the contact plate is stopped by the elasticity of the elastic body. The contact plate provides a coil side breakage preventing lift device that automatically returns to its original shape by the repulsive force of the first and second magnets when the coil is unwound.

Coil, anti-breakage, lift, sliding, spring

Description

Coil Side Breakage Prevention Lift Device {APPARATUS FOR PREVENTING DAMAGE OF A SIDE FACE OF COIL}

1 is a perspective view showing a lift for a conventional coil hoist;

2 is a perspective view of a lift apparatus according to the present invention;

3 is a detailed cross-sectional view of the portion “A” of FIG. 2;

4 is an exploded view of the lift apparatus according to the present invention; And

5 is an operational state diagram of the lift apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

1 ........... lift device according to the present invention

6 ............ groove 11,14,29 ........... magnet

13 ........... Base 16 ........... Sliding Block

19 ........... Ball 20 ........... Bottom Cap

21 .............. Top Cap 22 ........... Spring

23 ........... Fixture 24 ........... Proximity Sensor

26 ........... Cover 28 ........... Connection

30 ........... Contact plate 32 ........... Rubber plate

The present invention relates to a lift device for a crane used in the coil transfer between each step in the cold rolled steel sheet manufacturing process, and more particularly, to install a sliding device at the point of contact with the coil on the inner surface of the lift to lift the coil and the lift at the time of lifting the lift. The present invention relates to a coil side breakage preventing lift device capable of preventing side breakage of a coil due to friction with an inner side.

In general, to produce a cold rolled steel sheet goes through a number of work processes, there is a yard for loading the coil between each process, the coil in the lift 102 using the crane 101 during the transfer of the coil in the inter-yard yard The 100 is lifted and transported.

In the conventional lift apparatus, as shown in FIG. 1, when the lift 102 is closed to be inserted into an inner diameter portion of the coil 100, the lift 102 is in contact with the inner surface of the lift 102, that is, the side of the coil 100. The sliding plate 104 attached thereto is in contact with the side of the coil 100. When the lift 102 is hoisted using the crane 101 in the state where the sliding plate 104 is in contact, the loading plate 106 of the lift 102 inserted into the inner diameter of the coil 101 is coil 100. Only the lift 102 is raised until it is in contact with the inner side of the. At this time, damage occurs while the side part of the coil 100 is pushed by the sliding plate 104 in close contact with the side of the coil. In addition, when the work is performed in the next process, a damaged part of a certain pitch is formed at the edge of the coil 100 to reduce product quality, and in the case of severe damage, the error rate is remarkably decreased by carrying out a return process. There have been several problems.

The present invention is to solve the above problems, the contact plate attached to the lift side is configured to not move until the loading plate is in contact with the inner diameter of the coil to prevent damage to the coil side portion generated during the transfer operation of the coil It aims to improve product quality and increase the error rate.

As a construction means for achieving the above object, the present invention

In the lift apparatus of the crane for conveying the steel sheet coil,

A first magnet coupled to the lift side portion;

A sliding block fitted to the lift side portion;

A second magnet attached to the sliding block so as to face the first magnet and having the same polarity as the first magnet;

A contact plate in contact with the sliding block and in contact with the coil; And

An elastic body for elastically supporting the contact plate in the sliding block;

When the contact plate is in contact with the side of the coil when the coil is hoisted, the contact plate is supported by the elasticity of the elastic body while the contact plate is stopped without impact, the contact plate is the first and second of the coil when the coil Provided is a coil side breakage prevention lift device that automatically returns to its original shape by the repulsive force of a magnet.

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

Components having the same function in all the drawings use the same reference numerals and will not be repeated.

Figure 2 is a perspective view of the lift apparatus according to the present invention, Figure 3 is a detailed cross-sectional view "A" of Figure 2, Figure 4 is an exploded view of the lift apparatus according to the present invention.

According to this invention, the square groove part 6 is formed in the point which abuts the coil 100 inside the lift 1. The first magnet 11 is fixed to the inside of the groove 6 by bolts. Preferably, the first magnet 11 is a magnet of N pole or S pole. The base 13 is welded and fixed to the upper and lower portions of the groove 6. The groove 6 has a box shape in which one side is opened, and a groove is formed in the base 13 fixedly coupled to the upper and lower portions so that the sliding block 16 can be inserted.

On the inner surface of the sliding block 16 inserted into the groove 6, a second magnet 14 having the same polarity as the first magnet 11 is fixed to face the first magnet 11 fixed to the groove. Combined. Preferably, the second magnet 14 fixedly coupled to the sliding block 16 is a magnet having the same polarity as that of the first magnet 11 fixedly coupled to the groove portion.

In addition, support means for supporting an elastic body for supporting the contact plate is installed on the inner surface of the sliding block 16. Preferably the elastic body is a spring 22. The support means is welded and fixed to the wall surface of the sliding block 16 in a semi-circular annular shape 18, and a spring hook 17 for fastening a spring is welded and fixed to the center of the inner surface of the sliding block.

The contact plate 30, which is in contact with the coil 100 and installed to be in contact with the sliding block 16, is in contact with the sliding block 16 through a ball 19 having a circular sphere shape. The ball 19 is inserted and fixed between the lower cap 20 in the form of a circular tube and the upper cap 21 in the hemispherical shape, and the connecting table 28 is welded and attached to the side of the upper cap 21. The upper cap 21 is connected to the wall surface of the sliding block 16 through the spring 22 which is an elastic body in four directions and is supported up, down, left and right.

A rectangular contact plate 30 having a plurality of circular third magnets 29 inserted therein is fixed to the connecting table 28, and a rubber plate 32 may be attached to the contact plate 30, and the rubber plate 32 may be attached thereto. Is in contact with the uneven side of the coil to prevent damage to the coil side. In addition, the cover 26 of the contact plate 30 is installed by the proximity sensor 24 attached to the fixed base 23 to detect that the contact plate 30 is in full contact with the side of the lift.

The operation of the coil side breakage prevention lift apparatus according to the present invention as described above will be described with reference to FIG.

When the lift 1 in which the sliding device is incorporated to close the coil 100 is closed at the inner diameter position of the coil 100, the loading plate 106 is drawn into the inner diameter portion of the coil. At this time, the contact plate 30 with the rubber plate 32 is in contact with the side of the coil 100 is completely in contact with the third magnet 29 inserted into the contact plate 30. The contact plate 30 is pushed toward the wall surface of the groove 6 by the continuous close operation of the lift 1. The proximity sensor 24 installed in the cover 26 detects that the contact plate 30 is completely pushed out so that the second magnet 14 of the sliding block 16 is completely in contact with the first magnet 11 of the groove 6. Then, the start motor of the lift 1 device is controlled (not shown) and the close operation is stopped.

When the lift 1 is lifted to lift the coil 100 after the closing operation of the lift 1 is finished, a spring connected to the upper cap 21 installed on the connecting table 28 of the contact plate 30 ( 22, only the lift 1 is raised until the loading plate 106 of the lift 1 touches the inner diameter of the coil 100. At this time, the contact plate 30 attached to the side of the coil 100 is in a stopped state by the closing force of the third magnet 29 and the lift. On the other hand, when the sliding block 16 rises together with the lift 1, the ball 19 located inside the sliding block 16 is rotated, and the spring 22 connected to the upper side of the ball 19 extends and the lower side By the action of reducing the spring 22 of the contact plate 30 is stopped in close contact with the side of the coil 100 and only the lift 1 is raised.

Therefore, the side of the coil 100 can be wound up without being damaged. In particular, the contact plate 30 can raise the lift 1 without moving even when the lifter 1 moves up, down, left, and right by the springs 22 connected in four directions.

When the lift is lowered to seat the hoisted coil 100 at the transfer position, the loading plate 106 of the lift 1 is far from the inner diameter of the coil to a predetermined position, and the contact plate closely adhered to the side of the coil ( 30, only the lift 1 is lowered in the stopped state. When the lowering of the lift 1 is completed and the lift 1 is opened, the sliding block 16 is formed by the repulsive force of the first and second magnets 11 and 14 installed on the inner side of the groove 6 and the sliding block 16. This is pushed. As described above, the sliding block 16 is pushed so that the contact plate 30 is returned to its original position, and the ball is positioned at the center of the sliding block 16 by the springs 22 connected in four directions.

As described above, according to the present invention, since the contact plate contacting the coil is configured to lift and lower only the lift while being in close contact with the side of the coil by the action of the ball, the spring and the magnet, the coil side can be prevented from being damaged. This has the effect of improving product quality and error rate.

Claims (5)

In the lift apparatus of the crane for conveying the steel sheet coil, A first magnet coupled to the lift side portion; A sliding block fitted to the lift side portion; A second magnet attached to the sliding block so as to face the first magnet and having the same polarity as the first magnet; A contact plate in contact with the sliding block and in contact with the coil; And An elastic body for elastically supporting the contact plate in the sliding block; When the contact plate is in contact with the side of the coil when the coil is hoisted, the contact plate is supported by the elasticity of the elastic body while the contact plate is stopped without impact, the contact plate is the first and second of the coil when the coil A coil side breakage preventing lift apparatus, wherein the first and second magnets are automatically returned to the original shape by the repulsive force of the magnet, and the first and second magnets are magnets having the same poles. delete The method of claim 1, wherein the elastic body is a spring, the contact plate is in contact with the sliding block through the ball attached to the spring, the spring is connected to the sliding block and the ball in four directions around the ball The coil side breakage prevention lift apparatus characterized by supporting the said contact plate. 4. The coil side breakage preventing lift apparatus according to claim 1 or 3, wherein the contact plate attaches a rubber plate to a surface in contact with the coil so as to prevent damage to the coil side during coil hoisting. 5. The coil side breakage preventing lift apparatus according to claim 4, wherein at least one third magnet is provided between the contact plate and the rubber plate to completely contact the contact surface and the coil side when the coil is hoisted.

Images