KR102144217B1 - Chute for removing accumulated mineral - Google Patents

Abstract

The present invention relates to a chute for removing accumulated ores, which includes: a duct part guiding transferred objects supplied from a belt conveyor; a crushing part mounted on the duct part and rotated to hit the accumulated ores that are accumulated on the duct part when power is applied; and an operating part mounted on the duct part, connected to the crushing part, and moving the crushing part in the duct part so that the crushing part hits the accumulated ores, thereby removing the accumulated ores that are accumulated on the duct part.

Description

Chute for removing accumulated light{CHUTE FOR REMOVING ACCUMULATED MINERAL}

The present invention relates to a chute for removing cumulative light, and more particularly, to a chute for removing cumulative light to smoothly transport minerals by removing the accumulated light attached to the inside.

In general, minerals such as fuel or raw materials used in steel mills are transported to a desired location by a plurality of belt conveyors. Since the length of the belt conveyor cannot be infinite, a chute is provided between the belt conveyor and the belt conveyor. The chute has a duct shape to induce minerals transferred from one belt conveyor to fall to another belt conveyor.

On the other hand, the background technology of the present invention is disclosed in Korean Patent Publication No. 10-0870904 (registered on November 21, 2008, title of the invention: a chute of a belt conveyor equipped with a damper device).

An object of the present invention is to provide a suit for removing cumulative light to smoothly transport minerals by removing the accumulated light attached to the inside thereof.

A chute for removing accumulated light according to an aspect of the present invention includes: a duct portion for guiding the conveyed material supplied from the belt conveyor; A crushing unit mounted on the duct unit and rotating when power is applied to hit the accumulated light accumulated in the duct unit; And an operation part mounted on the duct part, connected to the crushing part, and moving the crushing part within the duct part so that the crushing part hits the accumulated light.

The duct portion is a duct top plate portion to which the operation portion is mounted; A duct side plate portion extending downward from an edge of the duct top plate portion and guiding the conveyed material supplied from the belt conveyor downward; And a duct guide portion formed on the duct top plate and guiding the crushed portion to be moved through.

The duct portion is mounted on the duct top plate portion, and covers the duct guiding portion to prevent scattering of the inside of the duct portion from being discharged to the outside through the duct guiding portion.

The duct blocking portion is formed on the duct top plate to cover the duct guide portion, and a blocking curtain portion deformable by the crushing portion; And a blocking cover part mounted on the duct top plate and surrounding the crushed part.

The crushing portion crushing pipe portion passing through the duct guide portion; A crushing plate part coupled to the crushing pipe part and seated on the duct upper plate part; A crushing motor unit mounted on the crushing pipe and driven when power is applied; A crushing rod portion mounted on the crushing motor and rotatable, passing through the crushing pipe portion and disposed inside the duct portion; And a crushing blade unit mounted on the outside of the crushing rod unit and crushing the accumulated light.

The operation unit includes an operation shaft portion rotatably mounted on the duct upper plate portion; An operating rod portion passing through the operating shaft portion and having one end coupled to the crushing portion; And an operation control unit coupled to the upper duct portion, coupled to the other end of the operation rod portion, and adjusting its own length to rotate the operation rod portion.

The suit for removing accumulated light according to the present invention includes: a sensor unit for detecting the accumulated light of the duct unit; And a control unit receiving the sensing signal of the sensor unit and driving the crushing unit and the operation unit for a set time.

The cumulative light removal chute according to the present invention can remove the cumulative light while the crushing unit is reciprocated by the operation unit.

In the chute for removing accumulated light according to the present invention, the shredding unit may pass through the duct top plate and move along the path, and the duct blocking unit may prevent scattering of scattering to the outside.

In the chute for removing accumulated light according to the present invention, when the crushing rod is rotated by the drive of the crushing motor unit, the crushing blade is spread and rotated by centrifugal force, thereby hitting the accumulated light.

In the suit for removing accumulated light according to the present invention, when the sensor unit detects the accumulated light, the crushing unit and the operation unit may be automatically driven under the control of the controller.

1 is a view schematically showing a suit for removing accumulated light according to an embodiment of the present invention.
2 is a view schematically showing a duct according to an embodiment of the present invention.
3 is a view schematically showing a duct blocking unit according to an embodiment of the present invention.
4 is a view schematically showing a crushing unit according to an embodiment of the present invention.
5 is a view schematically showing an operation unit according to an embodiment of the present invention.
6 is a diagram schematically showing an automated system of a suit for removing accumulated light according to an embodiment of the present invention.

Hereinafter, an embodiment of a suit for removing accumulated light according to the present invention will be described with reference to the accompanying drawings. In this process, the thickness of the lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention and may vary according to the intention or custom of users or operators. Therefore, definitions for these terms should be made based on the contents throughout the present specification.

1 is a view schematically showing a suit for removing accumulated light according to an embodiment of the present invention. Referring to FIG. 1, the chute 1 for removing accumulated light according to an embodiment of the present invention includes a duct part 10, a crushing part 20, and an operation part 30.

The duct part 10 guides the conveyed material supplied from the belt conveyor 100. As an example, the end of the belt conveyor 100 is inserted into the side of the duct unit 10 to move the transported object, and the transported object dropped from the belt conveyor 100 is guided downward by the duct unit 10 to be stored. Alternatively, it may be dropped and moved to a separate belt conveyor 100.

The crushing part 20 is mounted on the duct part 10 and rotates when power is applied to remove the accumulated light accumulated in the duct part 10. As an example, the crushing part 20 may be mounted on the duct part 10, and it is disposed close to the inner edge of the duct part 10 so as not to interfere with the moving path of the transported material in normal times, and if necessary, the duct part 10 Can be moved in to remove the accumulated light.

The operation part 30 is mounted on the duct part 10, is connected to the crushing part 20, and moves the crushing part 20 within the duct so that the crushing part 20 strikes the accumulated light. As an example, the operation unit 30 may be disposed outside the duct unit 10 and move the crushing unit 20 back and forth so that the crushing unit 20 can remove the accumulated light. In addition, the operation unit 30 may move the crushing unit 20 so that the crushing unit 20 deviates from the moving path of the transported object when the transported object falls.

2 is a view schematically showing a duct according to an embodiment of the present invention. Referring to FIG. 2, a duct part 10 according to an embodiment of the present invention includes a duct top plate 11, a duct side plate 12, and a duct guide part 13.

The duct top plate 11 forms the upper side of the duct 10, and the operation part 30 is mounted. The duct side plate part 12 extends downward from the edge of the duct top plate part 11 and guides the conveyed material supplied from the belt conveyor 100 downward. For example, a hole may be formed at one side of the duct side plate 12 so that the belt conveyor 100 is inserted.

The duct guide portion 13 is formed on the duct top plate portion 11 and guides the crushing portion 20 to pass through and move. As an example, the duct guide part 13 may be a hole guiding the penetrated crushing part 20, and may be a straight or curved shape according to an operation method of the operation part 30.

3 is a view schematically showing a duct blocking unit according to an embodiment of the present invention. 2 and 3, the duct portion 10 according to an embodiment of the present invention may further include a duct blocking portion 14.

The duct cut-off part 14 is mounted on the duct top plate part 11 and covers the duct guide part 13 to suppress the discharge of flying products formed inside the duct part 10 to the outside through the duct guide part 13 . As an example, the duct blocking portion 14 may be formed on the duct guide portion 13 and may be mounted on the upper or lower side of the duct top plate 11.

The duct blocking part 14 according to an embodiment of the present invention includes a blocking curtain part 141 and a blocking cover part 142.

The blocking curtain part 141 is mounted on the duct top plate part 11 to cover the duct guide part 13. The blocking curtain part 141 can be deformed by the crushing part 20. As an example, a plurality of blocking curtain parts 141 may protrude along the length of the duct guide part 13 to cover the duct guide part 13, and include an elastic material to enable the crushing part 20 to move. I can.

The blocking cover part 142 is mounted on the duct top plate part 11 and wraps the crushing part 20. For example, the blocking cover portion 142 may cover the crushing portion 20 penetrating the duct guiding portion 13 in addition to the duct guiding portion 13. At this time, the blocking cover portion 142 may be formed with a hole capable of allowing the operation of the operation portion (30).

4 is a view schematically showing a crushing unit according to an embodiment of the present invention. 4, the crushing unit 20 according to an embodiment of the present invention includes a crushing pipe part 21, a crushing plate part 22, a crushing motor part 23, a crushing rod part 24, and crushing It includes a blade part 25.

The crushed pipe part 21 passes through the duct guide part 13. For example, the crushed pipe part 21 may have a tube shape having a space therein, an upper end part may be disposed above the duct upper part 11, and a lower part may be disposed below the duct upper part 11.

The shredding plate part 22 is coupled to the shredding pipe part 21 and is seated on the duct top plate part 11. For example, the crushing plate part 22 may be extended to the outside of the crushing pipe part 21 and span the duct top plate part 11. For this reason, it is possible to limit the fall of the crushing pipe portion 21. On the other hand, a ball bearing is formed on the bottom surface of the crushing plate 22 to suppress friction when contacting the duct top plate 11.

The crushing motor part 23 is mounted on the crushing pipe part 21 and is driven when power is applied. The crushing rod part 24 which is mounted on the crushing motor part 23 and rotated is disposed inside the duct part 10 by passing through the crushing pipe part 21. As an example, the crushing motor part 23 is mounted on the upper end of the crushing pipe part 21, and the crushing rod part 24 may be formed longer than the crushing pipe part 21.

The crushing blade 25 is mounted on the outside of the crushing rod 24 and crushes the accumulated light. For example, a plurality of crushing blades 25 are disposed along the length of the crushing rod 24, and may be spread horizontally by centrifugal force when the crushing rod 24 is rotated. More specifically, the crushing blade portion 25 may be rotated by being ring-coupled with the crushing rod portion 24.

5 is a view schematically showing an operation unit according to an embodiment of the present invention. Referring to FIG. 5, the operation part 30 according to an embodiment of the present invention includes an operation shaft part 31, an operation rod part 32, and an operation control part 33.

The actuating shaft portion 31 is rotatably mounted on the duct top plate portion 11. As an example, the operation shaft portion 31 may be disposed between the duct guide portion 13 and the operation control portion 33, and the lower end portion may be rotatably mounted on the duct top plate portion 11. A hole may be formed in the central portion of the actuating shaft portion 31.

The working rod part 32 passes through the working shaft part 31 and one end is coupled to the crushing part 20. For example, the operation rod part 32 may be coupled to an outer surface of the crushing pipe part 21 disposed above the crushing plate part 22.

The operation control unit 33 is coupled to the duct top plate 11 and is coupled to the other end of the operation rod unit 32. This operation control unit 33 rotates the operation rod portion by adjusting its own length. For example, the operation control unit 33 is mounted so that one end is rotatable with the duct top plate 11, and the other end may be coupled to the other end of the operation rod unit 32. The operation control unit 33 can rotate the operation shaft 31 by increasing or decreasing its length by hydraulic or pneumatic pressure.

6 is a diagram schematically showing an automated system of a suit for removing accumulated light according to an embodiment of the present invention. Referring to FIG. 6, the chute 1 for removing accumulated light according to an embodiment of the present invention may further include a sensor unit 40 and a control unit 50.

The sensor unit 40 detects the accumulated light of the duct unit 10. As an example, the sensor unit 40 is mounted on the duct side plate 12 and may directly or indirectly sense the accumulated light. In addition, the sensor unit 40 is mounted on the crushing rod unit 24 and may detect whether or not there is contact with the accumulated light.

The control unit 50 receives a detection signal from the sensor unit 40 and drives the crushing unit 20 and the operation unit 30 for a set time. For this reason, even if the operator does not perform separate operation, the crushing unit 20 and the operation unit 30 are automatically driven to remove the accumulated light.

The operation of the suit for removing accumulated light according to an embodiment of the present invention having the above structure will be described as follows.

The conveyed material supplied from the belt conveyor 100 is supplied to the duct unit 10 and then falls downward of the duct unit 10 to be moved to the destination. In this case, the crushing unit 20 may be disposed at an inner edge of the duct unit 10 that is deviated from the movement path of the transported object in normal times.

Accumulated light is generated in the process of supplying the transported material to the duct part 10 for a long period of time. When the accumulated light is generated in the duct part 10, the crushing part 20 and the operation part 30 are driven to drive the duct part 10. Remove the accumulated light attached to the inside of

That is, when the length of the operation control unit 33 increases or decreases, the operation rod portion 32 is rotated with the operation shaft portion 31 as a rotation axis, and the crushed pipe portion 21 coupled to the end of the rotary rod portion 32 is It reciprocates along the duct guide part 13.

In addition, the crushing rod portion 24 passing through the crushing pipe portion 21 is rotated by the crushing motor portion 23, and the plurality of crushing blade portions 25 mounted on the crushing rod portion 24 are spread by centrifugal force and accumulated light Hit. At this time, the scattering of foreign matter to the duct guide part 13 may be suppressed by the duct blocking part 14.

Meanwhile, when the sensor unit 40 detects the accumulated light, the crushing unit 20 and the operation unit 30 automatically operate under the control of the control unit 50 to remove the accumulated light.

The cumulative light removal chute 1 according to an embodiment of the present invention may remove the cumulative light while the crushing unit 20 is reciprocated by the operation unit 30.

In the chute 1 for removing cumulative light according to an embodiment of the present invention, the crushing portion 20 is movable along the duct guiding portion 13 through the duct top plate portion 11, and by the duct blocking portion 14 It can prevent some of the flying products from scattering to the outside.

In the chute 1 for removing accumulated light according to an embodiment of the present invention, when the crushing rod part 24 is rotated by the driving of the crushing motor part 23, the crushing blade part 25 is spread and rotated by centrifugal force to hit the accumulated light. And can be crushed.

In the chute 1 for removing accumulated light according to an embodiment of the present invention, when the sensor unit 40 detects the accumulated light, the crushing unit 20 and the operation unit 30 are automatically driven under the control of the control unit 50 Can be.

The present invention has been described with reference to the embodiments shown in the drawings, but these are only exemplary, and those of ordinary skill in the field to which the present technology belongs, various modifications and equivalent other embodiments are possible. I will understand. Therefore, the true technical protection scope of the present invention should be determined by the following claims.

10: duct part 11: duct top plate part
12: duct side plate part 13: duct guide part
14: duct blocking part 20: crushing part
21: crushed pipe part 22: crushed plate part
23: crushing motor part 24: crushing rod part
25: crushing blade 30: operating part
31: operating shaft portion 32: operating rod portion
33: operation control unit 40: sensor unit
50: control unit

Claims (7)

A duct part for guiding the conveyed material supplied from the belt conveyor;
A crushing unit mounted on the duct unit and rotating when power is applied to hit the accumulated light accumulated in the duct unit; And
And an operation unit mounted on the duct part, connected to the crushing part, and moving the crushing part within the duct part so that the crushing part strikes the accumulated light,
The duct part
A duct top plate on which the operation unit is mounted;
A duct side plate portion extending downward from an edge of the duct top plate portion and guiding the conveyed material supplied from the belt conveyor downward; And
It is formed on the duct top plate, and includes; a duct guide portion for guiding the crushed portion to be moved through,
The operation part
An operation shaft portion rotatably mounted on the duct upper plate portion;
An operating rod portion passing through the operating shaft portion and having one end coupled to the crushing portion; And
And an operation control unit coupled to the upper duct portion, coupled to the other end of the operation rod portion, and adjusting its own length to rotate the operation rod portion. delete The method of claim 1, wherein the duct portion
A duct blocking unit mounted on the duct top plate and covering the duct guiding portion so as to prevent scattering of the inside of the duct portion from being discharged to the outside through the duct guiding portion; .
The method of claim 3, wherein the duct blocking portion
A blocking curtain part formed on the duct top plate to cover the duct guide part and deformable by the crushing part; And
A suit for removing accumulated light comprising a; a blocking cover unit mounted on the duct top plate and surrounding the crushing unit.
The method of claim 1, wherein the crushing part
A crushed pipe portion passing through the duct guide portion;
A crushing plate part coupled to the crushing pipe part and seated on the duct upper plate part;
A crushing motor unit mounted on the crushing pipe and driven when power is applied;
A crushing rod portion mounted on the crushing motor and rotatable, passing through the crushing pipe portion and disposed inside the duct portion; And
A shredding blade portion mounted on the outside of the shredding rod portion and shredding the accumulated light; a suit for removing accumulated light comprising a.
delete The method of claim 1,
A sensor unit detecting the accumulated light of the duct unit; And
A suit for removing accumulated light further comprising a; a control unit for receiving the detection signal of the sensor unit and driving the crushing unit and the operation unit for a set time.

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