KR101435050B1 - Transfer apparatus for rotary feeder of continuous ship unloader - Google Patents

Abstract

Disclosed is a feeder for a rotary feeder of a continuous unloading machine. A conveying device for a rotary feeder of a continuous unloading machine, comprising: a support part installed on a lower side along a periphery of a rotary feeder and on which a conveyed object dropped from a rotary feeder is placed; a conveying part which is moved along the receiving part to convey the conveyed object in one direction And a connecting member for connecting the panel and the movable panel to the rotary plate of the rotary feeder.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a rotary feeder for a continuous feeder,

The present invention relates to a continuous unloading machine, and more particularly, to a continuous unloader for a rotary feeder of a continuous type unloader capable of improving the conveying efficiency of the unloaded material by collecting the articles dropped from the rotary feeder of the continuous unloading machine and transferring them to a post- To a transfer device.

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 then transported to the yard of the factory through conveying equipment such as belt conveyor.

Deliveries such as coal or iron ore loaded on the vessel are transported to the outside of the vessel using a bucket that is continuously attached to the elevator post of the continuous offloader.

In the continuous type unloading unit, a boom is installed on an upper side of a body portion moving along a pier, and a plurality of buckets are moved in an endless track manner along an elevator post connected to one side of the boom.

The bucket positioned at the lower excavation portion enters the storage vessel of the vessel and excavates the conveyed articles such as iron ore or coal to be discharged to the outside. The thus transported matter is conveyed along the belt conveyor provided on the boom, And is conveyed to the yard through a plurality of 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 feeder for a rotary feeder of a continuous unloading machine capable of improving the feeding efficiency of a feed by collecting the feed dropped from a rotary feeder of a continuous unloading machine and transferring the feed to a subsequent process .

A conveying device for a rotary feeder of a continuous unloading machine according to the present invention comprises: a receiving part which is installed along the periphery of the rotary feeder and on which the articles to be dropped from the rotary feeder are stacked; And a connecting member for connecting the movable panel and the rotary plate of the rotary feeder.

The receiving portion includes a receiving body provided on the lower side of the rotary feeder in the form of a ring having an opened upper side and a discharge pipe extending from the lower side of the receiving body toward the belt conveyor and serving as a discharge passage of the conveyed material moved along the receiving body .

It is also preferable that the receiving portion includes a fixing member extending from the guide member of the rotary feeder and supporting the receiving body.

Further, the movable panel is formed in the same shape as the cross-sectional shape of the receiving portion, and it is preferable that a plurality of the moving panels are provided along the circumference of the rotating plate.

It is also preferable that the present invention further includes an elastic cushioning member provided around the moving panel contacting the receiving portion to reduce an impact.

A conveying device for a rotary feeder of a continuous unloading machine according to the present invention is characterized in that conveyed articles dropped from a rotary feeder of a continuous unloading machine are stacked on a receiving portion and a moving panel rotating along the receiving portion conveys the conveyed articles of the receiving portion to a belt conveyor Therefore, the conveying efficiency of the conveyed object can be improved.

1 is a perspective view schematically showing a feeder for a rotary feeder of a continuous unloading machine according to an embodiment of the present invention.
FIG. 2 is a perspective view schematically showing a state in which a moving member of a feeder for a rotary feeder of a continuous unloading machine is lowered and contacts a rotary feeder according to an embodiment of the present invention.
3 is a perspective view schematically showing a state in which the moving member and the crushing portion are rotated together with the elevator post according to an embodiment of the present invention.
4 is a plan view schematically showing a state in which a moving panel is installed on a receiving unit according to an embodiment of the present invention.
5 is a cross-sectional view schematically showing a mounting state of a pedestal and a moving panel according to an embodiment of the present invention.
6 is a perspective view schematically illustrating a shredding part according to an embodiment of the present invention.
7 is a block diagram of a feeder for a rotary feeder of a continuous unloading machine according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a conveying device for a rotary feeder of a continuous unloading machine according to the present invention will be described with reference to the accompanying drawings. For convenience of explanation, a rotary feeder transfer device for a continuous unloading machine installed at a steelworks is taken as an example. 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, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a perspective view schematically showing a feeder for a rotary feeder of a continuous unloading machine according to an embodiment of the present invention, and FIG. 2 is a perspective view of a feeder for a rotary feeder of a continuous unloading machine according to an embodiment of the present invention. 3 is a perspective view schematically showing a state in which the movable member and the crushing portion are rotated together with the elevator post according to an embodiment of the present invention, and FIG. 4 5 is a cross-sectional view schematically showing a mounting state of a pedestal and a moving panel according to an embodiment of the present invention. FIG. 5 is a cross- FIG. 6 is a perspective view schematically showing a crushing unit according to an embodiment of the present invention, and FIG. 7 is a perspective view illustrating a rotary pail of a continuous cargo handling unit according to an embodiment of the present invention. A block diagram of a transfer device for.

As shown in FIGS. 1, 4 and 5, a feeder 1 for a rotary feeder of a continuous unloading machine according to an embodiment of the present invention is installed on the lower side along the periphery of the rotary feeder 20, A support panel 90 on which the conveyed articles 26 falling from the feeder 20 are stacked, a movable panel 100 which is moved along the support portion 90 to convey the conveyed articles 26 in one direction, And a connecting member 104 connecting the rotating plate 24 of the rotary feeder 20 to the rotary feeder 100.

When a vessel loaded with conveyed matter 26 such as coal or iron ore is moored at the quay, the conveyed object 26 loaded on the vessel is unloaded using a continuous unloading machine.

An excavating portion (not shown) is provided below the elevator post 10 installed in the longitudinal direction, and the excavating portion is also rotated by the rotation of the elevator post 10.

A rotary feeder 20 is provided on the elevator post 10 and a conveyed article 26 contained in a bucket conveyed upward along the elevator post 10 is conveyed through a rotary feeder 20 to a belt conveyor 30 .

The rotary feeder 20 includes a rotary plate 24 installed horizontally along the elevator post 10 and a cylindrical guide member 24 surrounding the conveyed material 26 placed on the upper side of the rotary plate 24 22).

The feed 26 fed to the rotary feeder 20 is rotated as the rotary plate 24 because the rotary plate 24 rotates around the elevator post 10.

A space opened on the upper side by the elevator post 10 and the rotary feeder 20 is formed and the conveyed material 26 is supplied to the upper side of the rotary plate 24. [

The guide member 22 is installed in a state of being spaced apart from the elevator post 10 and a rotary plate 24 forming a bottom surface between the guide member 22 and the elevator post 10 is connected to the elevator post 10 Various conveying members may be used within the technical concept of conveying the conveyed material 26. [

One side of the guide member 22 is opened to form a connection port and a connection chute 38 for connecting the guide member 22 and the belt conveyor 30 is provided at the connection port.

One side of the connecting chute 38 extends to the inside of the guide member 22 to form the blocking member 39 and the conveyed matter 26 moved along the rotary plate 24 of the rotary feeder 20 is blocked by the blocking member 39 39 to the connecting chute 38.

The belt conveyor 30 connected to the connecting chute 38 to feed the conveyed material 26 includes a conveyor belt 32 which is an endless track for conveying the conveyed material 26 such as fuel and raw materials used in steelworks, And a main roller 34 installed on both sides of the belt 32 to rotate the conveyance belt 32. [

The conveyance belt 32 moving from the main roller 34 on one side to the main roller 34 on the other side is supported by the auxiliary roller 36 and prevented from being stuck.

The shifting member 50 and the crushing unit 60 are installed in a waiting state on the upper side of the rotary feeder 20 during normal operation of the rotary feeder 20. [

Such a shifting member 50 is a member for shifting the position of the rotary feeder 20 when an overload occurs in which the feed 26 fed to the rotary feeder 20 is frozen or the feed 26 is clogged, And may be formed in various shapes within the technical idea of being lowered in contact with the rotary plate 24 and rotating as the elevator post 10.

The linear driving part 40 according to one embodiment includes a rod 44 mounted on the elevator post 10 and linearly moved.

The linear driving unit 40 includes a driving body 42 that is driven by hydraulic or pneumatic driving to move the cylinder and the driving body 42 is mounted on the mounting bracket 46 and fixed to the elevator post 10 .

A rod-like moving member 50 is provided on the rod 44 projected from the driving body 42 and the moving member 50 is inserted into a space formed between the elevator post 10 and the guide member 22 And is stopped in a state of being in contact with the rotary plate 24.

The movable member 50 is rotated in the same manner as the elevator post 10 in a state of being in contact with the rotary feeder 20 installed along the periphery of the elevator post 10 to rotate the conveyed object 26 in the direction in which the connecting chute 38 is installed .

On the side surface of the elevator post 10, a rail member 52 for guiding the movement of the movable member 50 is provided. The rail member 52 can be formed in various shapes including a groove in the technical idea for guiding the longitudinal movement of the movable member 50. [

1 and 5, the crushing portion 60 provided on the side surface of the shifting member 50 is moved by the shifting member 50 and is conveyed to the conveyed object 26 loaded on the rotary feeder 20, Various kinds of crushing apparatuses can be used in the art of crushing crushing.

The crushing unit 60 according to one embodiment includes a bracket member 62 connected to the moving member 50, a rotation driving unit 64 mounted on the bracket member 62 for supplying rotational power, And a cutter member 76 protruding to the outside of the rotating shaft member 66 to crush the conveyed matter 26. The cutter member 76 is provided with a cutter member 76,

The bracket member 62 provided in the lateral direction of the movable member 50 can be formed in various shapes within the technical idea in which the rotation driving unit 64 and the rotating shaft member 66 are provided.

The crushing unit 60 includes a first sprocket 68 connected to the connecting shaft member 74 and the connecting shaft member 74 which is connected to the rotation driving unit 64 and rotated, And a power transmission chain 70 that is rotated by being engaged with the two sprockets 72. [

The rotary drive unit 64 using the electric motor is fixed to the bracket member 62 and the rotary shaft member 66 connected to the rotary drive unit 64 is rotatably mounted on the bracket member 62. [

A first sprocket 68 is provided on one side of the rotating shaft member 66 and a connecting shaft member 74 is provided so as to be spaced apart from the rotating shaft member 66.

The connecting shaft member 74 is also rotatably mounted on the bracket member 62 and the second sprocket 72 is also installed on one side of the connecting shaft member 74.

The rotational force transmitted to the first sprocket 68 is transmitted to the second sprocket 72 through the power transmission chain 70 because the power transmission chain 70 is engaged with the first sprocket 68 and the second sprocket 72, .

A plurality of cutter members 76 protrude outward of the connecting shaft member 74. The cutter members 76 are rotated together with the connecting shaft member 74 so as to be solidified in the mass of the inside of the rotary feeder 20 The conveyed object 26 is crushed.

1, 4 and 6, the rotary feeder 20 and the elevator post 10 are provided with a sensor unit 80 for sensing the position of the moving member 50. [

The sensor unit 80 includes a transmitter 82 that emits a light beam and a receiver 84 that receives a light beam from the transmitter 82.

The transmitting unit 82 is installed on the guide member 22 and the receiving unit 84 is installed on the elevator post 10 at a predetermined interval.

The light emitted from the transmitter 82 is radiated in the direction toward the elevator post 10 and is received by the receiver 84 and then reflected by the transmitter 82 again.

Since the receiving unit 84 has different positional information along the elevator post 10, when the receiving unit 84 is reflected to the transmitting unit 82 after being irradiated with the light beam, the transmitting unit 82 transmits, The degree of rotation of the elevator post 10 is measured.

The measured value of the sensor unit 80 is transmitted to the control unit 86 and the control unit 86 receives the measured value of the sensor unit 80 and controls the linear driving unit 40 and the crushing unit 60.

Meanwhile, the rotary plate 24 of the rotary feeder 20 according to an embodiment of the present invention is rotatably installed on the upper side of the base plate 28.

This rotary plate 24 is rotated separately from the rotation of the elevator post 10 to transfer the conveyed material 26 supplied to the rotary feeder 20 to the connection chute 38.

A space is formed between the rotary plate 24 and the guide member 22 and the conveyed material 26 inside the rotary feeder 20 is dropped to the outside of the rotary feeder 20 through the spacing space.

The feed 26 dropped to the outside of the rotary feeder 20 is loaded on the receiving portion 90 provided below the rotary feeder 20. [

The support portion 90 according to one embodiment is formed in a ring shape having an opened upper side and includes a support body 92 provided on the lower side of the rotary feeder 20 and a support body 92 extending downward from the support body 92, And a discharge pipe path 96 installed toward the discharge pipe.

A discharge hole 94 is formed at one side of the bottom of the receiving body 92 and a discharge pipe path 96 communicated with the discharge hole 94 is formed in the upper surface of the supporting body 92, And is installed in the direction of the conveyor belt 30 toward the conveyor belt 32.

The discharge duct path 96 may be formed in various shapes within the technical concept of forming the discharge passage of the conveyed material 26 moved along the receiving body 92.

Since the plurality of fixing members 98 extending from the guide member 22 of the rotary feeder 20 support the receiving body 92, the receiving body 92 is fixed to the lower side of the rotary feeder 20 Respectively.

That is, the guide member 22 of the rotary feeder 20 is fixed to the body of the continuous unloading machine, and the support portion 90 is fixed to the lower side of the guide member 22. Thus, 20).

The moving panel 100 which moves inside the receiving body 92 and pushes the conveyed matter 26 loaded on the receiving body 92 in the direction toward the discharging hole 94 has a cross section of the receiving section 90 And is formed in the same shape as the shape.

The movable panel 100 is connected to the rotary plate 24 of the rotary feeder 20 and is rotated as the rotary plate 24.

That is, since the plurality of connecting members 104 extend outward along the circumference of the rotary plate 24 and are connected to the movable panel 100, a plurality of the movable panels 100 installed along the circumference of the rotary plate 24, And rotates along the inner side of the supporting body 92 in interlock with the rotation of the rotary plate 24.

The cushioning member 102 provided around the moving panel 100 contacting the receiving portion 90 is provided to reduce the impact generated when the moving panel 100 directly contacts the inside of the receiving body 92. [

The cushioning member 102 is formed of an elastic material, and the cushioning member 102 according to an embodiment forms rubber with the main material in consideration of economical efficiency.

Hereinafter, the operating state of the feeder 1 for a rotary feeder of a continuous unloading machine according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The elevator post 10 is rotated to a position where rotation of the movable member 50 is started when the conveyed object 26 is overloaded or frozen light is generated in the rotary feeder 20. [

When the state in which the elevator post 10 is moved to the set position is confirmed by the operation of the transmitting section 82 and the receiving section 84 constituting the sensor section 80, the linear driving section 40 is operated.

When the driving body 42 is operated to lower the rod 44, the moving member 50 fixed to the rod 44 also descends along the rail member 52 to come in contact with the rotary plate 24 of the rotary feeder 20 .

When the rotation drive member 64 is operated and the rotation shaft member 66 is rotated, the first sprocket 68 connected to the rotation shaft member 66 is rotated.

The first sprocket 68 is rotated and the power transmission chain 70 engaged with the first sprocket 68 and the second sprocket 72 is rotated so that the connection shaft member 74 is rotated together with the second sprocket 72, Is rotated.

When the cutter member 76 is rotated together with the connecting shaft member 74, the mass formed by solidification of the conveyed matter 26 and the mass formed by freezing the conveyed matter 26 containing moisture are crushed.

When the elevator post 10 rotates, the moving member 50 and the crushing unit 60 rotate as in the elevator post 10, and the conveyed product 26 is transported toward the connecting chute 38.

The drive body 42 is operated and the rod 44 is moved upward while the conveyed object 26 loaded on the rotary plate 24 is conveyed to the belt conveyor 30 through the connection chute 38. [

The movable member 50 and the crushing unit 60 connected to the rod 44 are also moved upward so that the rotary feeder 20 in which the frozen light and the overloader are resolved normally operates.

On the other hand, the conveyed material 26 falls out of the rotary feeder 20 through the spacing space formed between the guide member of the rotary feeder 20 and the rotary plate 24.

The conveyed object 26 is placed on the inside of the receiving body 92 provided below the rotary feeder 20.

The moving panel 100 rotated together with the rotary plate 24 of the rotary feeder 20 moves along the receiving body 92 and pushes the conveyed object 26 loaded in the receiving body 92 in one direction .

For example, when the rotary plate 24 is rotated in the clockwise direction, the movable panel 100 rotated as the rotary plate 24 rotates the conveyed object 26 loaded in the receiving body 92 clockwise Push and transport.

The conveyed material 26 moved by being pushed by the moving panel 100 is conveyed to the discharge pathway 96 through the discharge hole 94 of the receiving part 90 and then conveyed to the conveyor belt 96 provided on the lower side of the discharge pathway 96, (32) of the conveying belt (30).

The conveying device 1 for a rotary feeder of a continuous unloading machine according to the embodiment has a configuration in which the conveyed material 26 dropped from the rotary feeder 20 of the continuous unloading machine is conveyed to the receiving portion 90, And the moving panel 100 rotating along the receiving unit 90 transfers the conveyed material 26 of the receiving unit 90 to the belt conveyor so that the conveying efficiency of the conveyed object 26 can be improved .

In the present invention, since the moving member 50 and the crushing unit 60 are rotated together with the elevator post 10 and the conveyed product 26 frozen in the rotary feeder 20 is crushed and transferred to a post-process, The transfer efficiency of the water 26 can be improved.

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 rotary feeder transfer device for a continuous unloading machine installed in a steelworks has been described as an example, the present invention is merely an example, and a continuous unloading machine used for transferring other types of transported goods, A feeder feeder may be used.

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

1: Feeder for rotary feeder of continuous unloader
10: Elevator Post
20: Rotary feeder 22: Guide member 24: Rotary plate 26: Feed
30: belt conveyor 32: conveying belt 34: main roller 36: auxiliary roller 38: connecting chute 39:
40: linear driving part 42: driving body 44: rod 46: mounting bracket
50: moving member 52: rail member
The present invention relates to a sprocket of a rotary type, and more particularly, it relates to a sprocket of a rotary type,
80: sensor unit 82: transmitting unit 84: receiving unit 86:
90: receiving portion 92: receiving body 94: exhaust hole 96: exhaust pipe 98: fixing member
100: moving panel 102: buffer member 104: connecting member

Claims (5)

A receiving unit 90 installed on the lower side along the periphery of the rotary feeder 20 and on which the articles 26 falling from the rotary feeder 20 are loaded;
A moving panel 100 that is moved along the receiving unit 90 and conveys the conveyed object 26 in one direction;
A cushioning member 102 of an elastic material disposed around the moving panel 100 in contact with the receiving portion 90 to reduce an impact; And
And a connecting member (104) connecting the moving panel (100) and the rotary plate (24) of the rotary feeder (20)
The receiving unit 90 includes a receiving body 92 provided on the lower side of the rotary feeder 20 in the form of a ring having an opened upper side; And
And a discharge pipe path 96 extending from the lower side of the receiving body 92 toward the belt conveyor 30 and serving as a discharge passage for the conveyed material 26 moved along the receiving body 92 ,
The moving panel 100 is formed in the same shape as the sectional shape of the receiving unit 90 and a plurality of the moving panels 100 are installed along the circumference of the rotating plate 24. [ .
delete The method according to claim 1,
Wherein the receiving portion 90 further includes a fixing member 98 extending from the guide member 22 of the rotary feeder 20 to support the receiving body 92. [ Feeding device for feeder. delete delete

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