KR20150009168A - Apparatus for maintaing reverse of reclaimer bucket - Google Patents

Abstract

Disclosed is an apparatus for maintaining a reversed state of a bucket mounted on a reclaimer by having constant and stable elastic force applied. For this, the present invention includes a rotary shaft penetrating a reclaimer wheel and a reversing lever; a hollow body; an elastic unit connecting the body to the rotary shaft; and a pressing unit slid inside the body to compress/expand the elastic unit.

Description

[0001] APPARATUS FOR MAINTAING REVERSE OF RECLAIMER BUCKET [0002]

More particularly, the present invention relates to a reclaimer bucket reversing and maintaining device, in which a bucket is inverted during a dispensing operation of a raw material, and a constant elastic force is applied to a rotary shaft connected to the bucket to facilitate reversal of the bucket, To a device for maintaining the reversal of a bucket mounted on a retainer that can be maintained.

Generally, as shown in Fig. 1A, the blending light, which is a raw material ore for sintering, segregates each kind of each blend into a yard 1c and is stacked on a south side file 1a on the south side and a north side file 1b on the north side, do.

When the blending light emitter dispenses the south side file 1a to the storage bin of the sintering process, the stacker places the north side file 1b, and when the blending light dispenser dispenses the north side file 1b, .

Since the dispensing direction is switched when the blending light emitter moves to the north side file 1b after the completion of dispensing of the south side file 1a and when it moves to the south side file 1a after the completion of the dispensing of the north side file 1b, The ore discharging bucket 3a must be switched.

The reversing operation which is the switching operation of the bucket 3a is performed by the striker of the manual reversing striker device 5 fixed to the wheel supporting beams 3e provided on both sides of the wheel 3b as shown in Figs. 5a are forwardly operated and inserted into the grooves of the rotating reversing lever 3g to rotate the bucket 3a.

That is, the operation lever 5c is held by the hand and the striker 5a is pushed along the sliding groove 5f to fix the operating lever 5c to the groove formed in the inside of the sliding groove 5f, When the striker 5a is inserted into the U-shaped groove of the inverting lever 3g provided through the wheel 3b on the side of the bucket 3a by rotating the wheel 3b of the rotating wheel 3b, The turning lever and the braking force of the fixed striker 5a rotate the turning lever 3g about the fixed shafts 3c and 3d so that the bucket 3a mounted on the fixed shafts 3c and 3d is reversed When the strike 5a leaves the reverse lever 3g, a plurality of buckets 3a are inverted continuously to the next bucket 3a, and the reverse operation is completed while the operation lever 5c and the striker 5a are moved backward and backward do.

Meanwhile, as shown in FIG. 2, when the wheel 3b is rotated in the opposite direction, the bucket 3a is reversed, and the reversing device is used so that the raw material can be scratched while maintaining the reversed state.

A bucket 3a capable of scraping the raw materials to the front and rear sides with respect to the circumferential direction of the wheel 3b is mounted to be rotatable with respect to the wheel 3b via the bucket shaft 6, The reversing lever 3g is fixed by keying so as to maintain a certain angle.

On the other hand, a through hole (not shown) is formed at the center so as to penetrate the bucket shaft 6, and on one surface of the cam 9 fixed to the wheel 3b by being positioned further outward than the reverse lever 3g, A plurality of inclined surfaces 10 are formed, and the inclined surfaces 10 are provided so as to incline upward in one direction (clockwise direction in the figure).

A pressing member 12 having a plurality of bearings 11 rotatable in contact with the inclined surface 10 is formed so as to be slidable on the outer side of the cam 9.

The disk shaped spring 13 is fitted to the bucket shaft 6 further outward than the pressing member 12 and a disk-shaped pressure plate 14 is formed on the outer side of the disk shaped spring 13.

The disk-shaped pressure plate 14 is supported by a nut 15 fixed to the bucket shaft 6 by screwing.

This conventional bucket reversing device tightens the nut 15 to an appropriate extent and the disk-like spring 13 is placed in a state where the repulsive force by the elastic force can be applied to the pressing member 12 by the tightening.

In this state, when the bucket 3a is reversed, the pressing member 12 rotated by the bucket shaft 6 moves closer to the direction in which the pressure plate 14 is located, Shaped spring 13 is set such that the repulsive force is applied to the pressing member 12 by the greatest elasticity since the disk-shaped spring 13 is located at the most projected portion of the inclined surface 10 formed on one surface of the buckle 9, The largest half power by the shrinkage of the disc-shaped spring 13 is applied to the shaft 6, so that the bucket 3a is maintained in the inverted state.

However, in the conventional bucket reversing device as described above, the inclined surface 10 and the bearing 11 formed on one surface of the cam 9 are continuously worn out due to continuous filling and unloading of the raw material, There has been a problem that the elastic repulsive force by the spring which the operator has already set at the beginning to maintain the inverted state of the bucket 3a is not transmitted or received and the bucket 3a can not maintain the inverted state and flows during the dispensing operation .

In addition, when the disk-shaped spring is generally narrow in its elastic width and is greater than the strength set by the tightening by the nut 15, the spring may be cut off. As a result, not only the pressing member 12 but also the bearing 11) have also been damaged.

In addition, when it is damaged due to the nature of the equipment, much time and effort are required for the maintenance, and it takes a long time to maintain and manage the bearing 11 by continuously injecting the lubricating oil. It was difficult to expect stable operation of the equipment due to the nature of the dispensing work environment.

With a known technique related thereto, Korean Patent Registration No. 10-0523103 (Oct. 13, 2005) entitled " Bucket Inversion Striker Apparatus of Blending Light Unloader "and Korean Patent Registration No. 10-0797963 (2008.1.18)" Branding Reclaimer Wheel bucket reversing device "

However, in the case of the "bucket reversal striker device of the blending light emitter," the striker is seated in the groove of the reversing lever to reduce breakage of the striker, and prevention of collision between the striker and the reversing lever However, the bucket is reversed, and there is no apparatus for continuously maintaining the reversed state. Therefore, there is still a conventional problem. In the case of the "wheel bucket reversing device of branding reclameer & In the wheel bucket reversing operation of the wheel, the direction of the wheel bucket is protected by stably switching the wheel bucket device to solve the cause of the delay in the operation and the decrease in the operation rate. However, the device for continuously maintaining the state when the bucket is reversed Due to the complexity of the device as well as the lack of a suitable work environment for dispensing .

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as adhering to the prior art already known to those skilled in the art.

Korean Patent Registration No. 10-0523103 (Oct. 13, 2005) Korean Patent Registration No. 10-0797963 (Jan. 18, 2008)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a reclaimer bucket reversing device for solving the problems as described above, which is capable of stable operation without failure of the equipment during dispensing operation and constantly applying repulsive force due to elasticity when the bucket is reversed, So that the bucket can be reversed and the inverted state of the bucket can be maintained more easily and securely.

An apparatus is disclosed that maintains the inverted state of the bucket mounted on the reclaimer due to constant and stable elasticity.

To this end, the present invention relates to a rotary axle passing through a reclaimer wheel and a reversing lever; Hollow body; An elastic unit connecting the body and the rotary shaft; And a pressing unit that slides inside the body and compresses / expands the elastic unit.

A rotation cam is mounted between the rotation shaft and the reversing lever, a fixing bracket coupled to one end of the elastic unit, and a fixing pin passing through the fixing bracket and the rotation cam.

Wherein the elastic unit includes a compression spring and a support base which supports one end of the compression spring and is coupled to the other end of the fixing bracket, and both ends of the compression spring are coupled to the inner circumferential surface of the body and the support, respectively do.

The pressing unit includes a pressing rod and a pressing plate coupled to one end of the pressing rod and reciprocating along the inner circumferential surface of the body.

And the inner circumferential surface of the body and the outer circumferential surface of the pressing plate are screwed together.

A fixing pin protruding from an outer circumferential surface of one side of the body; a mounting hole formed on one side of the body so that one end of the body can be inserted and fixed; And further includes a bracket.

The reclaimer bucket reversing device of the present invention having the above-described construction can realize various effects as follows.

First, the bucket is reversed and its reversal state is maintained constantly, so that the dispensing operation of the raw material is smooth.

Secondly, there is an advantage that a buckle is reversed and a pressing unit capable of adjusting the elastic force for maintaining the reversed state is provided, so that the conventional elastic force can not be controlled and the failure of the equipment is prevented.

Third, there is an advantage that the buckets are stably reversed and the breakage of the striker, which is seated in the groove of the reverse lever, is reduced.

Fourth, there are various advantages such as smoothly dispensing work and productivity improvement.

1A to 1C are diagrams showing a bucket inverted state and a striker of a conventional blending light emitter.
Fig. 2 is a view showing a device formed so that the bucket wheel is reversed at the same time when the conventional bucket wheel is rotated in the opposite direction, and the raw material can be scratched while maintaining the inverted state.
FIG. 3 (a) to FIG. 3 (b) are diagrams showing the overall configuration of the present invention and a state after inverting and inverting.
4 is a view showing a state in which the striker is inserted into the groove formed in the reverse lever so that the bucket is inverted.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a reclaimer bucket reversing maintenance apparatus of the present invention will be described with reference to the accompanying drawings.

3 (a) shows the reverse of the bucket 3a, and FIG. 3 (b) shows the reverse of the bucket 3a. As shown in the figure, An elastic unit 300, and a pressurizing unit 400.

The rotating shaft 100 passes through the reclaimer wheel 3b and the reversing lever 3g and the reversing lever 3g rotates within a range of a predetermined angle with respect to the rotating shaft 100 and is engaged with the rotating shaft 100 The connected bucket 3a is also inverted.

A hollow body 200 is seated on the outer side of the wheel 3b through a support bracket 240, which will be described later.

A pressing unit (not shown) which slides along the inner circumferential surface of the body 200 to compress or expand the elastic unit 300 by applying a predetermined pressure to the elastic unit 300 drawn into the body 200, 400 are provided on the opposite side of the elastic unit 300.

An elastic force is generated by the pressing unit 400 in the elastic unit 300, and the reverse state of the bucket 3a can be maintained by the elastic force.

In other words, by replacing the disc type spring which conventionally generates the elastic repulsion force with the coil type spring, the elastic repulsion force can be adjusted relatively easily and easily.

Meanwhile, as shown in the figure, the rotation cam 110 is mounted between the rotation shaft 100 and the reverse lever 3g.

The rotary cam 110 is connected to the rotary shaft 100 and the reverse operation is performed while the bucket 3a is also rotated at a predetermined angle in conjunction with the rotary cam 110.

 The elastic force of the elastic unit 300 is transmitted to the rotation cam 110 via the support bracket 340 and the fixing bracket 310 which will be described below and the elastic force transmitted to the rotation cam 110 The rotating shaft 100 connected to the rotating cam 110 is also transmitted with a constant force so that the rotating shaft 100 is prevented from flowing and the raw material is discharged in a state where the inverted state of the bucket 3a is maintained do.

That is, since the rotation cam 110 directly receives the elastic repulsive force by the compression of the elastic unit 300, the inverted state is maintained even if the bucket 3a is reversed, thereby preventing the equipment damage problem caused by the conventional abrasion.

Before the reversing process of the bucket 3a is performed, the pressing unit 400 is adjusted so that the elastic reaction force preset by the worker is maintained. When the set elastic reaction force is continuously applied to the rotating shaft 100, ) Is facilitated, and there is an advantage that it is performed safely.

The elastic unit 300 is provided at one end of the elastic unit 300 so that the elastic force generated by the elastic unit 300 is transmitted to the rotary cam 110 and the force is transmitted to the rotary shaft 100 at the same time to maintain the inverted state of the bucket 3a. A fixing bracket 310 is provided and a fixing pin 320 passing through the fixing bracket 310 and the rotation cam 110 is installed.

The fixing bracket 310 has a generally U-shaped cross section and a fixing pin 320 passing through the fixing bracket 310 and the rotation cam 110 is provided. The rotation cam 110 is fixed to the fixing pin 320 ).

When the bucket 3a is reversed, the rotation cam 110 rotates through the fixing pin 320. After the inversion is completed, the elastic force by the elastic unit 300 is transmitted to the rotation cam 110, The elastic force is transmitted to the rotating shaft 100 again, so that the rotating shaft 100 does not flow and the inverted state of the bucket 3a is maintained.

The elastic unit 300 includes a compression spring 330 and a support base 340.

The compression spring 330 uses a series compression spring 330 instead of a conventional disk spring and a support 340 which supports one end of the compression spring 330 and is coupled to the other end of the fixing bracket 310 .

Both ends of the compression spring 330 are coupled to the inner circumferential surface of the body 200 and the support base 340, respectively.

The compression spring 330 is compressed along the inner circumferential surface of the body 200 by the pressure of the pressing unit 400 and the elastic force by the compression is transmitted to the support 340.

The resilient force of the compression spring 330 is transmitted toward the support 340 and the elastic force is continuously transmitted in the direction of the coupled fixing bracket 310 of the support 340. When the fixing pin 320 is inserted into the fixing bracket 310 The resilient force is also transmitted to the rotation cam 110 connected thereto.

More specifically, when the bucket 3a is reversed and a certain elastic force is generated in the compression spring 330 through the compression unit 400 so that the inverted state is maintained, the elastic force is transmitted to the support base 340, The fixing pin 320 does not rotate.

In addition, since the fixing pin 320 is not rotated, the rotation cam 110 connected to the rotation pin 110 is not rotated, and the rotation axis 100 connected to the rotation cam 110 is also not rotated so that the inverted state of the bucket 3a is maintained .

The pressurizing unit 400 includes a pressurizing rod 410 and a pressurizing plate 420. The pressurizing unit 400 includes a pressurizing plate 410 and a pressurizing plate 420. The pressurizing unit 400 includes a pressurizing plate 410 and a pressurizing plate 420. [

When the pressing rod 410 is rotated, the pressing plate 420 is advanced inside the body, and the pressing spring 340 connected to the pressing plate 420 is pressed with a constant pressure to maintain the fixed position The compression spring 330 is compressed.

The amount of rotation of the pressing rod 410 can be adjusted so that an operator can apply an elastic force to a desired degree.

The pressing plate 420 may be formed of a disk-shaped plate corresponding to the cross section of the inside of the body 200 as shown in FIG.

The pressing plate 420 may be moved while being in contact with the inner circumferential surface of the body 200 and it is necessary to periodically lubricate the inside of the body 200 so that the pressing plate 420 is smoothly moved.

The inner circumferential surface of the body 200 and the outer circumferential surface of the pressing plate 420 are screwed to each other so that the pressing rod 410 is screwed when the pressing rod 410 rotates, The plate 420 advances and the compression spring 330 connected to the pressing plate 420 can be compressed or expanded.

With the above configuration, the degree of compression of the compression spring 330 is adjusted by adjusting the amount of rotation of the pressing rod 410.

A supporting bracket 240 is provided to support the body 200 such that the members such as the body 200, the elastic unit 300 and the pressing unit 400 are fixed to one side of the wheel 3b.

A fixing pin 320 protruding from both sides in the width direction of the body 200 is formed on one outer circumferential surface of the body 200. The supporting bracket 240 is opened on one side as shown in the enlarged view of FIG. A mounting hole 220 is formed to allow one end of the body 200 to be inserted and fixed and a tapered groove 230 on which the fixing pin 320 is slidably mounted.

The upper surface of the support bracket 240 is fixed to one side of the upper surface of the wheel 3b and the reversing lever 3g when the bucket 3a is reversed by the interaction of the fixing pin 320 and the mounting groove 230 And performs a sort of guiding function to rotate the wheel 3b while rotating at a certain angle.

A schematic operation of the reclaimer bucket reversal maintenance apparatus of the present invention having the above-described structure will be described with reference to FIGS. 3 to 4. FIG.

When the bucket 3a needs to be reversed during the work of dispensing the raw material, the striker 5a, which is fixed to the frame at an appropriate deceleration by gradually decreasing the rotational speed of the wheel 3b as shown in Fig. 4, And is inserted into the groove formed in the reversing lever 3g.

The inverted lever 3g rotates in the opposite direction due to the contact between the striker 5a and the groove formed in the inverting lever 3g and the bucket 3a is rotated in the opposite direction through the rotary shaft 100 fixing the inverting lever 3g And is placed in the inverted state.

At this time, the worker has already compressed the compression spring 330 by the pressing plate 420 by rotating the pressing rod 410 so that the elasticity enough to maintain the inverted state even when the bucket 3a is reversed .

The direction of the bucket 3a connected to the rotary shaft 100 is reversed as shown in FIG. 3 (b) by the interaction of the scraper 5a and the reverse lever 3g.

At this time, a constant force is applied to the rotary shaft 100 due to the compression spring 330 of the rotary cam 110, and the dispensing operation of the raw material proceeds while maintaining the inverted state of the bucket 3a.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

100: rotation shaft 110: rotation cam
200: body 210:
220: mounting hole 230: mounting groove
240: support bracket 300: elastic unit
310: Fixing bracket 320: Fixing pin
330 compression spring 340 support
400: pressure unit 410: pressure rod
420: pressure plate

Claims (6)

A rotary shaft 100 passing through the reclaimer wheel and the reverse lever 3g;
A hollow body (200);
An elastic unit 300 connecting the body 200 and the rotary shaft 100; And
And a pressing unit (400) slidably moving in the body (200) and compressing / expanding the elastic unit (300).
The method according to claim 1,
A rotary cam 110 is mounted between the rotary shaft 100 and the reverse lever 3g,
Further comprising a fixing bracket 310 coupled to one end of the elastic unit 300 and a fixing pin 320 passing through the fixing bracket 310 and the rotation cam 110, Device.
The method of claim 2,
The elastic unit (300)
A compression spring 330 and a support 340 supporting one end of the compression spring 330 and coupled to the other end of the fixing bracket 310,
Wherein both ends of the compression spring (330) are coupled to the inner circumferential surface of the body (200) and the support base (340), respectively.
The method of claim 3,
The pressing unit 400 includes a pressing rod 410 and a pressing plate 420 coupled to one end of the pressing rod 410 and reciprocating along the inner circumferential surface of the body 200, Inverting retaining device.
The method of claim 4,
Wherein the inner circumferential surface of the body (200) and the outer circumferential surface of the pressing plate (420) are screwed together.
The method according to any one of claims 2 to 5,
A fixing pin 210 protruding from an outer circumferential surface of one side of the body 200 and a mounting hole 220 formed on one side of the body 200 so that one end of the body 200 can be inserted and fixed, Further comprising a support bracket (240) provided with a mounting groove (230) so that the pin (320) can slide and be mounted.

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