KR101094707B1 - Unloading reclaimers bucket - Google Patents

Abstract

The present invention discloses a buffer bucket for unloading raw materials. The buffer bucket is composed of a combined structure of the outer bucket and the inner bucket, while forming a projection to form pores on the surface of the inner bucket, and forming a space between the outer bucket and the inner bucket. After that, in the separation space, a shock absorbing mechanism was formed to provide elasticity according to the change in the weight of the material contained in the inner bucket, thereby reducing the adhesion of the raw material in the inner bucket to prevent the material from sticking to the bucket. Dropping of raw materials Reduces the working time of unloading while increasing the amount of unloading according to the unloading of raw materials by reducing the amount of time the raw materials can be fixed to the maximum. I did it.

Shock Absorbing Bucket, Shock Absorber, Spring, Roller, Urethane, Fixing, Ore

Description

Buffer bucket for unloading raw materials {UNLOADING RECLAIMERS BUCKET}

The present invention relates to a bucket used for unloading a raw material such as nickel ore, and more particularly, to contain a high-adhesive raw material (nickel ore) in the bucket so that a part of the raw material falls off during the unloading. It relates to a buffer bucket for loading and unloading raw materials to prevent them from being stuck.

In general, an unloading machine is required for unloading raw materials such as nickel ore that is stacked on a conveying means (for example, a ship, a vehicle, etc.), and the unloading bucket has a wall made of metal (for example, iron) so as to contain the raw materials. And, a hopper for collecting the raw material contained in the bucket, and a transfer conveyor for transferring the raw material discharged through the hopper is provided.

However, when unloading the raw material through the bucket of the conventional unloading machine, when unloading the raw material with high adhesiveness by containing a certain amount (eg, 30%) of moisture, such as nickel ore, all of the raw material falls from the bucket But there is a problem that a part of the wall is fixed in the corners (corners) in the metal bucket.

In particular, each time a raw material is contained in the bucket, another raw material is fixed on the existing fixing part, and thus, the fixing part in the bucket becomes harder, so that the fixing area is inevitably expanded. From this, the area that can hold the raw material in the bucket was to be reduced by that much. This decreases the amount of unloading of the raw material using the bucket, and thus a problem arises in that a lot of time wasted in unloading the raw material.

Therefore, the fixing portion in the bucket has to be removed, but in this case, there is a problem that a separate manpower should be put at any time.

The present invention is to solve the above-mentioned problems, by constructing a bucket structure of the outer bucket and the inner bucket, while forming a projection on the surface of the inner bucket to form pores when the raw material is contained In addition, the main object of the present invention is to provide a buffer bucket for unloading the raw material to reduce the adhesion of the raw material in the internal bucket to prevent the problem of the raw material sticking.

Another object of the present invention, after forming a separation space between the outer bucket and the inner bucket, the separation space is provided in the bucket by providing a buffer mechanism for providing an elastic force in accordance with the weight change of the material contained in the inner bucket The aim is to provide a buffer bucket for unloading the raw material that allows the raw material to be released quickly while minimizing the time for the raw material to settle when the raw material is dropped.

The buffer bucket for unloading the raw material for achieving the above object, the outer bucket of the metal material; An urethane material having an urethane material installed to have a predetermined space inside the outer bucket; Comprising a predetermined space formed between the outer bucket and the inner bucket buffer mechanism for relaxing the surface of the inner bucket in accordance with the change in the weight of the material contained in the inner bucket; It is formed.

According to one embodiment of the invention, the buffer mechanism, the fixing bracket which is fixed to the inner surface of the outer bucket; A rotating rod axially fixed to the fixing bracket; A roller rotatably coupled to the tip of the rotating rod and in contact with the inner bucket; And both ends of one side of the fixing bracket and the rotating rod, and when the raw material is contained in the inner bucket, is compressed from the jungle of the inner bucket, and the raw material contained in the inner bucket is discharged to the outside. A spring extending to push the bucket outward; .

According to another embodiment of the present invention, the buffer mechanism is compressed from the crushing phenomenon of the inner bucket when the raw material is contained in the inner bucket, the inner bucket when the raw material contained in the inner bucket is released to the outside. It is a buffer spring that is elongated to be pushed outward.

According to another embodiment of the present invention, the shock absorbing mechanism, the power mechanism is fixed to the inner surface of the outer bucket; And an eccentric cam which is axially coupled to the power mechanism and contacts the surface of the inner bucket about the shaft so that the inner bucket is relaxed in accordance with the power generated by the power mechanism. ; .

According to one aspect of the invention, the surface of the inner bucket to form pores when the raw material is contained in the inner bucket to prevent the raw material is fixed; To form.

According to another aspect of the present invention, at the front end of the outer bucket is formed an anti-separation projection to prevent the departure when the inner bucket is installed.

As described above, the present invention constitutes a bucket having a combined structure of the outer bucket and the inner bucket, while forming projections to form pores on the surface of the inner bucket, and spaced apart between the outer bucket and the inner bucket. After forming the shock absorbing mechanism to provide elastic force in accordance with the change in the weight of the material contained in the internal bucket in the space, thereby reducing the material adhesion force in the internal bucket to prevent the problem of the raw material is fixed, Dropping the raw materials contained in the raw materials, while reducing the time that the raw materials can be fixed as quickly as possible to increase the amount of unloading according to the raw material unloading, reducing the working time of unloading, and also manpower You can expect the effect of preventing waste.

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

1 is a perspective view showing a structure of a buffer bucket according to an embodiment of the present invention, Figure 2 is an exploded view showing the structure of a buffer bucket according to an embodiment of the present invention, Figure 3 is a structure of a buffer bucket according to an embodiment of the present invention 4 is a partial cutaway perspective view showing a cross-sectional view showing a structure of a buffer bucket according to an embodiment of the present invention.

1 to 4, a buffer bucket for unloading raw materials according to an embodiment of the present invention includes an outer bucket 10, an inner bucket 20, and a buffer mechanism 30.

The outer bucket 10 is formed of a metal material so as to be rotatable in an unloading machine (not shown), and the departure prevention protrusion 11 protrudes along the circumferential surface of the outer bucket 10.

The inner bucket 20 is made of a urethane material, the coupling is made to form a predetermined space on the side and bottom surface in the outer bucket 10, as well as the front end side is caught in the separation preventing protrusion 11 in the coupled state. The separation is prevented, the surface is formed with a plurality of protrusions 21 protruding to form pores when the raw material is contained in the inner bucket 20 to prevent the raw material is fixed.

The buffer mechanism 30 is installed in a predetermined space formed on the side and bottom surface of the outer bucket 10 and the inner bucket 20, the compression according to the change in the weight of the material contained in the inner bucket (20) Or it is configured to extend, and includes a fixing bracket 31, the rotating rod 32, the roller 33, and a spring (34).

The fixing bracket 31 is fixed to the side and the bottom surface in the outer bucket 10, the rotating rod 32 is one end is coupled to the fixed bracket 31 to be rotatable.

The roller 33 is rotatably coupled to the tip of the rotating rod 32 to contact the inner bucket (20).

Both ends of the spring 34 are coupled to the fixing bracket 31 and the rotating rod 32 in a state where the spring 34 is coupled on the shaft for coupling the fixing bracket 31 and the rotating rod 32. When the raw material is contained in 20) is compressed from the jungle of the inner bucket 20, the raw material contained in the inner bucket 20 is extended to push the inner bucket 20 when throwing out. It is.

That is, the buffer bucket for unloading the raw material according to an embodiment of the present invention is coupled to the inside of the outer bucket 10 in a state in which the outer bucket 10 is erected through the unloader, as shown in FIGS. 1 to 4. The raw material is contained in the inner bucket 20 of the urethane material.

Then, the inner bucket 20 according to the weight of the raw material contained in the inner bucket 20, the buffer mechanism 30 is installed in the separation space formed between the inner bucket 20 and the outer bucket 10 Will be compressed.

In more detail, the roller 33 included in the shock absorbing mechanism 30 is in contact with the outer surface of the inner bucket 20, and the roller 33 is rotatable at the other end of the rotating rod 32. Coupled to one end of the rotary rod 32 is rotatably coupled to a fixed bracket 31 fixed to the outer bucket 10, and a spring (to the fixed bracket 31 and the rotary rod 32). 34, the both ends of the bar is locked, when a certain amount of raw material is contained in the inner bucket 20, the inner bucket 20 from the weight of the raw material is lowered toward the bottom surface of the outer bucket 10, Accordingly, while the rotation rod 32 is rotated, the spring 34 is compressed.

On the other hand, the outer bucket 10 is rotated upside down by driving the motor of the unloader to drop the raw material contained in the inner bucket 20 as described above.

Then, the dropping of the raw material contained in the inner bucket 20 is made, wherein the spring 34 is elongated gradually in accordance with the amount of raw material dropping from the inner bucket 20, and thus the rotating rod 32 The roller 33 in contact with the inner bucket 20 pushes the inner bucket 20.

Therefore, the inner bucket 20 is lifted from the rolling action of the rotating rod 32 and the roller 33 according to the stretching force of the spring 34 as described above, and thus the raw material contained in the inner bucket 20 is The drop can be made quickly.

On the other hand, Figure 5 shows another embodiment of the present invention for the buffer mechanism.

That is, the buffer mechanism according to another embodiment of the present invention is compressed from the jungle of the inner bucket 20 when the raw material is contained in the inner bucket 20, the raw material contained in the inner bucket 20 is external When released, the inner bucket 20 is configured as a buffer spring (34a) is extended to be pushed outward.

Hereinafter, the same parts as in the exemplary embodiment of the present invention will be denoted by the same reference numerals and description thereof will be omitted.

In addition, Figure 6 shows another embodiment of the present invention with respect to the shock absorbing mechanism, the shock absorbing mechanism 30 'according to another embodiment of the present invention is a power mechanism fixed to the inner surface of the outer bucket 10 (35) and the shaft (36) coupled to the power mechanism (35) and the shaft so that the surface of the inner bucket 20 is pushed outward in accordance with the power generated by the power mechanism (35) ( 36 is composed of an eccentric cam 37 that rotates eccentrically while contacting the surface of the inner bucket (20).

That is, when the raw material is injected into the inner bucket 20, the operation of the power mechanism 35 is not performed. Accordingly, the eccentric cam 37 is disposed between the outer bucket 10 and the inner bucket 20. The inner bucket 20 is not relaxed by maintaining the lying state in a predetermined space formed in the space.

On the other hand, in the case of discharging the raw material introduced into the inner bucket 20 to the outside, the eccentric cam 37 is eccentrically rotated about the shaft 36 from the operation of the power mechanism 35 In this way, the top dead center of the eccentric cam 37 pushes the surface of the inner bucket 20, and thus the inner bucket 20 is relaxed while the surface is pushed outward and contained in the inner bucket 20. Dropping the raw material is made quickly, as well as to prevent the raw material remaining in the inner bucket (20).

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

1 is a perspective view showing the structure of a buffer bucket according to an embodiment of the present invention.

Figure 2 is an exploded view showing the structure of the buffer bucket according to an embodiment of the present invention.

Figure 3 is a partially cut perspective view showing the structure of the buffer bucket according to an embodiment of the present invention.

Figure 4 is a cross-sectional view showing the structure of the buffer bucket according to an embodiment of the present invention.

5 is another embodiment of the present invention for a shock absorber.

Figure 6 is another embodiment of the present invention for the buffer mechanism.

* Description of the symbols for the main parts of the drawings *

10; Outer bucket 11; Departure prevention protrusion

20; Inner bucket 21; spin

30,30 '; Shock absorber 31; fixed bracket

32; Rotating rod 33; roller

34; Spring 34a; Shock Spring

35; Power mechanism 36; shaft

37; Eccentric Cam

Claims (6)

delete Outer buckets of metal material; An urethane material having an urethane material installed to have a predetermined spacing space inside the outer bucket; Consisting of, A predetermined space formed between the outer bucket and the inner bucket buffer mechanism for relaxing the surface of the inner bucket in accordance with the weight change of the material contained in the inner bucket; As containing, The buffer mechanism, A fixing bracket fixed to an inner surface of the outer bucket; A rotating rod axially fixed to the fixing bracket; A roller rotatably coupled to the tip of the rotating rod and in contact with the inner bucket; And, Both ends are fixed to one side of the fixing bracket and the rotating rod, and when the raw material is contained in the inner bucket, it is compressed from the jungle of the inner bucket, and when the raw material contained in the inner bucket is released to the outside, the inner bucket is A spring extending to be pushed outward; A buffer bucket for unloading raw materials, characterized in that consisting of. delete Outer buckets of metal material; An urethane material having an urethane material installed to have a predetermined spacing space inside the outer bucket; Consisting of, A predetermined space formed between the outer bucket and the inner bucket buffer mechanism for relaxing the surface of the inner bucket in accordance with the weight change of the material contained in the inner bucket; As containing, The buffer mechanism, A power mechanism fixed to an inner surface of the outer bucket; And, An eccentric cam axially coupled to the power mechanism, the eccentric cam rotating while contacting the surface of the inner bucket with respect to the shaft such that the inner bucket is relaxed in accordance with the power generated by the power mechanism to the surface; A buffer bucket for unloading raw materials, characterized in that consisting of. The method according to claim 2 or 4, Protrusions on the surface of the inner bucket to form pores when the raw material is contained in the inner bucket to prevent the raw material is fixed; A buffer bucket for unloading the raw material, characterized in that to form a. The method according to claim 2 or 4, A buffer bucket for unloading raw materials, characterized in that the front end of the outer bucket to form a departure preventing projection to prevent the departure when the inner bucket is installed.

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