KR20130088406A - Drop ore removing device for continuous ship unloader - Google Patents

Abstract

PURPOSE: A falling ore removal apparatus for continuous unloading equipment is provided to discharge falling ore to the outside of a rail after falling the falling ore which is collected by a bucket unit which is circulated in a caterpillar track between a drive wheel and an operation wheel, thereby reducing maintenance costs by preventing damage of the continuous unloading equipment which is caused by the falling ore. CONSTITUTION: A fallen ore removal apparatus (1) for continuous unloading equipment comprises a frame unit, an operation wheel, a power transmission unit, a bucket unit, and a discharge guide unit. A drive wheel of the continuous unloading equipment (10) which is moved along a pair of rails is installed rotatably installed on the frame unit. The operation wheel is separated from the drive wheel, and rotatably installed on the frame unit. The power transmission unit delivers the power of the drive wheel to the operation wheel to rotate the operation wheel. The bucket unit is rotated by the power transmission unit, and transfers falling ore by spreading the falling ore inside the rail. The discharge guide unit is fixed on the frame, and discharges the falling ore which falls from the bucket unit to the outside of the rail.

Description

[0001] DROP ORE REMOVING DEVICE FOR CONTINUOUS SHIP UNLOADER [0002]

The present invention relates to a fall light removal device for continuous unloading equipment, and more particularly, to a fall light removal device for continuous unloading equipment that can prevent damage to the continuous unloading equipment by removing the accumulated fall under the rail to which the continuous unloading equipment is moved. will be.

Generally, iron ore and coal used as raw fuel in steel mills during blast furnace operation are transported by ship, unloaded at the pier, and transported to the yard of the factory through conveying equipment such as belt conveyor.

The raw materials such as coal or iron ore loaded on the vessel are transferred to the outside of the vessel by means of a bucket continuously attached to the elevator post of the continuous handling equipment.

In the continuous unloading equipment, a boom is installed on the upper side of a running part moving along the wharf, and a plurality of buckets are moved in an endless track shape along an elevator post connected to one side of the boom.

The bucket positioned at the lower excavation portion enters the storage of the ship and excavates the raw material such as iron ore or coal and discharges it to the outside. The conveyed matter thus discharged flows along the belt conveyor provided on the boom, And is transported to the yard through several belt conveyors.

BACKGROUND OF THE INVENTION [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 2000-0020731 (published on Apr. 15, 2000, entitled "Burst Elevator Type Continuous Cargo Unloader").

An object of the present invention is to provide a fall light removal device for a continuous unloading equipment that can prevent damage to the continuous unloading equipment by removing the accumulated fall under the rail to which the continuous unloading equipment is moved.

The falling light removal device for continuous unloading equipment according to the present invention includes: a frame portion in which a traveling wheel of the continuous unloading equipment moved along a pair of rails is rotatably installed, and is rotatably spaced from the traveling wheel. Wheel and power transmission unit for transmitting the power of the driving wheel to the work wheel to rotate the work wheel, and the bucket portion and the frame portion is rotated along the power transmission portion to move by spreading the falling light inside the rail and the bucket portion It includes a discharge guide for discharging the falling falling rock to the outside of the rail.

The frame unit may further include a first communication member rotatably supporting a first rotation shaft connected to the driving wheel, a second communication member rotatably supporting a second rotation shaft spaced apart from the first communication member and connected to the work wheel; It is preferable to include a connecting member for connecting the first communication member and the second communication member.

In addition, the power transmission unit, it is preferable to include a drive sprocket rotated like a driving wheel, a driven sprocket rotated like a work wheel, and a chain member which is rotated by a drive sprocket and a driven sprocket and moves the bucket part.

In addition, the power transmission unit preferably includes a support sprocket for lifting and supporting the chain member located above the discharge guide unit.

In addition, the bucket portion is bent in a 'c' shape, the bucket body is provided on one side of the inlet portion for entering the fall light, the shielding member and the bucket body and the shielding member facing the inlet portion to shield the other side of the bucket body is installed It is preferable to include a connection side surface which forms a passage through which the falling light loaded inside the bucket body falls to the discharge guide portion.

In addition, the discharge guide portion is installed between the driving wheel and the work wheel and is inclined at the lower portion of the discharge body and the discharge body to form a passage through which the upper side is opened to the fall falling from the bucket portion to guide the fall light to the outside of the rail It is preferable to include an inclined member.

In addition, the discharge guide portion, which is installed on the discharge body, preferably comprises an injection unit for injecting water to the inclined member.

In the falling light removing device for continuous unloading equipment according to the present invention, since falling falls are collected by the bucket part which is rotated in an orbital manner between the traveling wheel and the work wheel, and falls to the discharge guide part, the falling light is discharged to the outside of the rail, Maintenance costs can be reduced by preventing damage to the continuous unloading equipment caused by falling lights on the inside of the rail.

1 is a front view schematically showing a continuous unloading equipment having a fall light removal device for continuous unloading equipment according to an embodiment of the present invention.
FIG. 2 is a perspective view schematically showing a lightening stripping apparatus for a continuous unloading area according to an embodiment of the present invention.
FIG. 3 is a perspective view illustrating an exploded perspective view of a lightening stripping apparatus for a continuous unloading station according to an embodiment of the present invention.
4 is a side cross-sectional view schematically illustrating a state in which a light fall is contained in a bucket part according to an exemplary embodiment of the present invention.
FIG. 5 is a side cross-sectional view schematically illustrating a state in which a falling light fall from the bucket part according to an embodiment of the present invention falls into the discharge guide part.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the falling light removal device for continuous unloading equipment according to the present invention. For convenience of explanation, a description will be given using an example of a rock removing device for continuous unloading equipment used in a workplace for transferring raw materials or fuel from a vessel. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a front view schematically showing a continuous unloading equipment having a continuous unloading apparatus for unloading equipment according to an embodiment of the present invention, Figure 2 is a schematic view of a continuous unloading apparatus for unloading equipment according to an embodiment of the present invention. 3 is a perspective view illustrating an exploded view of the apparatus for removing unloading continuous equipment according to an embodiment of the present invention, and FIG. 4 illustrates that a bucket is moved in a bucket part according to an embodiment of the present invention. FIG. 5 is a side cross-sectional view schematically illustrating a state, and FIG. 5 is a side cross-sectional view schematically illustrating a state in which a fall light falls from a bucket part according to an exemplary embodiment of the present invention to a discharge guide part.

As shown in Figures 1 to 3, the falling light removal device 1 for continuous unloading equipment according to an embodiment of the present invention, the traveling wheel of the continuous unloading equipment 10 is moved along a pair of rails (24) The frame portion 50 is rotatably installed, the working wheel 40 spaced apart from the travel wheel 30 and rotatably installed on the frame portion 50, and the driving wheel 30 is driven. Power transmission unit 60 to transmit to the work wheel 40 to rotate the work wheel 40, and rotates along the power transmission unit 60 to move by spreading the fall 90 inside the rail 24 It is fixed to the bucket portion 70 and the frame portion 50 and includes a discharge guide portion 80 for discharging the falling light 90 falling from the bucket portion 70 to the outside of the rail 24.

The continuous unloading equipment 10 is installed at the pier 22 where the vessel 20 is anchored, and ships raw materials such as ore used in steel mills and coal used as fuel for melting ore during blast furnace work. ) To wharf 22.

The continuous unloading equipment 10 includes an excavation part 12 for spreading fuel and a bucket elevator part 14 connected to the excavation part 12 and rotating.

The driving wheel 30 is installed in the wheel case 18 provided at the lower end of the body portion 16, and the driving wheel 30 may be moved along the rail 24 or a separate driving path.

A pair of rails 24 are installed on both sides of the body portion 16, and these rails 24 are spaced apart at a set distance and are installed in parallel.

The pair of traveling wheels 30 moving along the rails 24 are also rotatably installed in the frame part 50 fixed to the wheel case 18.

The transfer unit 19 for transferring the fuel material moved through the continuous unloading equipment 10 is installed on the lower side of the body portion 16, the transfer unit 19 includes a belt conveyor.

The frame part 50 is fixed to the wheel case 18, and the driving wheel 30 is rotatably installed at both sides of the frame part 50.

The traveling wheel 30 may be formed in various shapes within the technical concept of moving along the rail 24.

The first locking jaw 32 protrudes along the rim of the driving wheel 30, and the first locking jaw 32 is in contact with the side surface of the rail 24, so that the driving wheel 30 is separated from the rail 24. To prevent.

The work wheel 40 installed to be spaced apart from the travel wheel 30 is rotatably installed at both sides of the frame part 50.

A second locking jaw 42 protrudes in the circumferential direction on the outside of the work wheel 40, and the second locking jaw 42 is in contact with the side of the rail 24, so that the work wheel 40 is turned on the rail 24. ) To prevent separation.

The pair of driving wheels 30 are connected to the first rotating shaft 34, and the driving wheel 30 and the first rotating shaft 34 are rotated together. In addition, the pair of work wheels 40 are also connected to the second rotary shaft 44, the work wheel 40 and the second rotary shaft 44 is rotated together.

The frame part 50 on which the traveling wheel 30 and the work wheel 40 of the continuous unloading equipment 10 moved along the pair of rails 24 are rotatably supported on the inner side of the wheel case 18. It is installed in a fixed state.

The frame part 50 according to an embodiment may be spaced apart from the first communication member 52 and the first communication member 52 rotatably supporting the first rotational shaft 34 connected to the travel wheel 30. And a connection member connecting the second communication member 54 and the first communication member 52 and the second communication member 54 to rotatably support the second rotation shaft 44 connected to the work wheel 40. 56).

The first communication member 52 is formed in a pipe shape so as to penetrate the first rotation shaft 34, and the second communication member 54 is also formed in a pipe shape so as to penetrate the second rotation shaft 44.

Since both sides of the first communication member 52 is fixed to the wheel case 18, the frame portion 50 is installed in a fixed state inside the wheel case 18.

The first communicating member 52 and the second communicating member 54 are connected by the connecting member 56, and the number of the connecting members 56 is determined in consideration of structural rigidity and material cost.

The traveling wheel 30 is rotated by the movement of the continuous unloading equipment 10, and the power transmission unit 60 which transmits the power of the traveling wheel 30 to the work wheel 40 is together with the traveling wheel 30. Various kinds of power transmission devices may be used within the technical concept of moving the bucket part 70 while rotating the work wheel 40.

The power transmission unit 60 according to an embodiment includes a driving sprocket 62 that rotates together with the driving wheel 30, a driven sprocket 64 that rotates together with the work wheel 40, and a driving sprocket 62. It includes a chain member 66 is rotated by the driven sprocket 64 and moves the bucket portion 70.

The driving sprocket 62 is installed at the inner center of the driving wheel 30, and the driving sprocket 62 is coupled to the first rotation shaft 34 connecting the driving wheel 30, and thus, the driving wheel 30 and the driving wheel 30 are formed. The one rotating shaft 34 and the drive sprocket 62 are rotated together.

The driven sprocket 64 is installed at the inner center of the work wheel 40, and the driven sprocket 64 is coupled to the second rotating shaft 44 connecting the work wheel 40, thereby making it possible to work wheel 40 and the first wheel. The two rotating shafts 44 and the driven sprockets 64 are rotated together.

The chain member 66 is caught by the driving sprocket 62 and the driven sprocket 64 to transmit power, while the bucket part 70 is connected to the chain member 66 to accumulate falling lights inside the rail 24. 90) Remove.

The power transmission unit 60 of the discharge guide unit 80 so that the falling light 90 in the bucket portion 70 moving along the chain member 66 can be easily dropped into the discharge guide unit 80. It includes a support sprocket 68 for lifting up to support the chain member 66 located on the upper side.

The pair of support sprockets 68 are connected by the support shaft member 69, and the support shaft member 69 can be rotatably supported by the wheel case 18, and the frame portion 50 or the discharge guide. It may be rotatably installed on a supporting member (not shown) protruding upward of the portion 80.

Therefore, the chain member 66 on the upper side of the discharge guide unit 80 is lifted upward by the support sprocket 68 and is inclined downward, and the bucket part 70 passing through the support sprocket 68 is also inclined downward. Move.

As a result, the falling light 90 in the bucket part 70 may be easily dropped into the discharge guide part 80.

A pair of rails 24 are installed along a path in which the pair of driving wheels 30 are moved, and the space between the rails 24 and the rails 24 is called an inner side of the rail 24.

That is, the space between the rails 24 positioned below the frame part 50 moving along the rails 24 is referred to as the inside of the rail 24, and is not the inside of the rail 24, but the outside of the rail 24. The space is called the outside of the rail 24.

The bucket part 70 may be formed in various shapes within the technical concept of rotating along the chain member 66 of the power transmission part 60 and spreading and moving the falling light 90 inside the rail 24.

Bucket portion 70 according to an embodiment, the inlet portion 75 is bent in the '-' shape and the inlet portion 75 is introduced into the bucket body 71 and the inlet portion 75 is provided with the inlet 75 Opposed to the shielding member 72 and the bucket body 71 and the shielding member 72 to face the other side of the bucket body 71 and the falling light 90 loaded inside the bucket body 71 is discharge guide And a connection side surface 73 forming a passage that falls into the portion 80.

One side of the bucket body 71 is opened to form the inlet portion 75, and the other side of the bucket body 71 is shielded by the shielding member 72, the falling light 90 introduced through the inlet portion 75 Is contained inside the bucket body 71.

The connection side 73 which is installed in the direction from the bucket part 70 toward the chain member 66 is provided in contact with the bucket body 71 and the shielding member 72, and a part of the connection side 73 is cut off. To form a connection hole 74 which is a passage through which the falling light 90 is moved.

That is, the width of the connection side 73 is shorter than the width of the bucket body 71, the connection side 73 is installed on the side of the bucket body 71 bent in the '' 'shape, bucket Falling light 90 inside the portion 70 is dropped into the discharge guide portion 80 through the connection hole 74 of the inlet portion 75 and the connecting side 73.

Since the fixing member 76 protruding from the bucket portion 70 is connected to the chain member 66, the plurality of bucket portions 70 move together with the chain member 66.

The discharge guide part 80 is fixed to the frame part 50 or the wheel case 18 and has various shapes within the technical concept of discharging the falling light 90 falling from the bucket part 70 to the outside of the rail 24. Is formed.

Discharge guide unit 80 according to an embodiment, is installed between the driving wheel 30 and the working wheel 40, the upper side is a passage through which the fall light 90 falling from the bucket unit 70 is introduced It is formed to be inclined to the discharge body 82 and the lower portion of the discharge body 82 to form an inclined member 84 for guiding the fall light 90 to the outside of the rail (24).

The discharge guide portion 80 is fixed to the upper side of the frame portion 50, the upper side of the discharge guide portion 80 is installed in an open shape in order for the fall 90 to fall from the bucket portion 70 is introduced.

Since the inclined lower portion of the discharge guide portion 80 extends to the outside of the rail 24, the fall light 90 dropped to the inclined member 84 of the discharge guide portion 80 is the outside of the rail 24 by its own weight. Is discharged.

The discharge guide portion 80 is provided in the discharge body 82 is provided with an injection portion 86 for injecting water to the inclined member 84.

The injection unit 86 includes a plurality of injection nozzles 88 for injecting water, and the injection nozzles 88 inject water toward the inclined member 84 from the upper portion of the discharge body 82, thereby inclined members. The fall of the fall 90 and the foreign matter moving along the 84 is made easier.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, with reference to the accompanying drawings, a detailed description will be given of an operating state of a lightening stripping apparatus 1 for continuous unloading docking according to an embodiment of the present invention.

When the continuous unloading equipment 10 moves, the traveling wheel 30 installed on the upper side of the rail 24 moves along the rail 24.

When the driving wheel 30 is rotated, the driving sprocket 62 is rotated together with the driving wheel 30, and the driving sprocket 62 rotates the chain member 66.

The driven sprocket 64 and the support sprocket 68 are rotated by the rotation of the chain member 66, and the driven sprocket 64 rotates the work wheel 40 and the second rotation shaft 44.

Since the bucket part 70 is connected to the chain member 66, the bucket part 70 is rotated along the chain member 66 in a caterpillar manner.

As shown in FIG. 4, the bucket part 70 moves along with the lower side of the frame part 50 and contains the falling rock 90 and foreign matters accumulated in the inside of the rail 24 to move together with the chain member 66. do.

The bucket part 70 moving along the chain member 66 moves upward along the chain member 66, and then passes through the support sprocket 68 and is inclined downward.

As shown in FIG. 5, the falling light 90 and the foreign matter inside the bucket part 70 drop downward through the connection hole 74 and the inlet part 75 which are through the connection side 73.

Falling light 90 and the foreign matter dropped from the bucket portion 70 is dropped to the inclined member 84 of the discharge guide portion (80). Water is injected from the injection nozzle 88 of the injection unit 86 to the inclined member 84, while the falling light 90 and the foreign matter are lowered from the discharge guide unit 80 due to the inclined shape of the inclined member 84. Is moved to the outside of the rail 24.

After the falling of the fall 90 and the foreign matter on the inside of the rail 24 by the bucket portion 70 is rotated with the movement of the continuous unloading equipment 10, the continuous unloading equipment 10 along the rail 24 Since it moves, it is possible to prevent the damage of the continuous unloading equipment 10 including the driving wheel (30).

According to the configuration as described above, the falling light removal device 1 for continuous unloading equipment according to an embodiment, the bucket portion 70 that is rotated in an orbit manner between the traveling wheel 30 and the work wheel 40. After the fall 90 is collected and dropped to the discharge guide 80, the fall 90 is discharged to the outside of the rail 24, so that the unloading 90 is continuously carried out by the fall 90 accumulated inside the rail 24. Preventing damage to the equipment 10 can reduce the maintenance cost.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill 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 appended claims. I will understand.

In addition, although the description has been made by taking the lightening removal device for the continuous loading and unloading cost used in the workplace for transporting the raw material or the fuel from the ship as an example, the present invention is merely an example, and even in other work places using continuous unloading equipment, A light reducing device may be used.

Accordingly, the true scope of protection of the present invention should be defined by the claims.

1: Continuous loading and unloading system
10: continuous unloading equipment 12: excavator
14: bucket elevator portion 16: body portion
18: wheel case 19: transfer unit
20: ship 22: wharf
24: rail 30: driving wheel
32: first locking jaw 34: first rotating shaft
40: working wheel 42: second locking jaw
44: second rotation shaft 50: frame portion
52: first communication member 54: second communication member
56: connecting member 60: power transmission unit
62: drive sprocket 64: driven sprocket
66: chain member 68: support sprocket
69: support shaft member 70: bucket portion
71: bucket body 72: shielding member
73: connecting side 74: connecting hole
75: inlet portion 76: fixing member
80: discharge guide 82: discharge body
84: inclined member 86: injection portion
88: injection nozzle 90: falling light

Claims (7)

A frame unit in which a traveling wheel of the continuous unloading equipment which is moved along a pair of rails is rotatably installed;
A work wheel spaced apart from the driving wheel and rotatably installed in the frame part;
A power transmission unit for transmitting the power of the traveling wheel to the work wheel to rotate the work wheel;
A bucket part which rotates along the power transmission part and spreads and moves a fall light inside the rail; And
Fixed to the frame portion, falling light removal device for continuous unloading equipment, characterized in that it comprises a discharge guide for discharging the falling light falling from the bucket to the outside of the rail.
The method of claim 1,
The frame unit may include: a first communication member rotatably supporting a first rotation shaft connected to the driving wheel;
A second communication member spaced apart from the first communication member and rotatably supporting a second rotation shaft connected to the work wheel; And
And a connection member for connecting the first communication member and the second communication member.
The method of claim 1,
The power transmission unit, the driving sprocket which rotates with the traveling wheel;
A driven sprocket rotated with the work wheel; And
Rotating on the driving sprocket and the driven sprocket, the falling light removal device for continuous unloading equipment, characterized in that it comprises a chain member for moving the bucket portion.
The method of claim 3, wherein
The power transmission unit, falling light removal device for continuous unloading equipment, characterized in that it comprises a support sprocket for lifting up the chain member located above the discharge guide portion to support.
The method of claim 1,
The bucket part may be bent into a 'c' shape, and the bucket body having an inlet part on which one side of the daylight is introduced is provided;
A shielding member facing the inlet to shield the other side of the bucket body; And
It is installed in contact with the bucket body and the shield member, the falling light removal device for continuous unloading equipment, characterized in that it comprises a connecting side for forming a passage in which the fall light loaded inside the bucket body to the discharge guide portion.
The method of claim 1,
The discharge guide portion, the discharge body is provided between the traveling wheel and the work wheel, the upper side is opened to form a passage for entering the fall light falling from the bucket portion; And
Installed on the lower portion of the discharge body is inclined member for continuous unloading equipment, characterized in that it comprises an inclined member for guiding the fall light to the outside of the rail.
The method according to claim 6,
The discharge guide unit is installed on the discharge body, falling light removal device for continuous unloading equipment, characterized in that it further comprises an injection unit for injecting water to the inclined member.

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