KR101493855B1 - Apparatus for supplying raw material - Google Patents

Abstract

According to an embodiment of the present invention, a raw material supply apparatus includes a transfer unit that distributes raw materials supplied from outside to storage tanks arranged in a line, and is movable along the array direction of the storage tanks; A dust collecting pipe connected to one side of the storage tank for collecting dust of the raw material; And a damper installed on the dust collecting tube for opening and closing the dust collecting tube, wherein the damper is opened when the transfer unit dispenses the raw material to the storage tank by the movement of the transfer unit, location; And a shutoff position for shutting off the collection tube when the transfer unit stops dispensing the raw material to the storage tank.

Description

[0001] APPARATUS FOR SUPPLYING RAW MATERIAL [0002]

More particularly, the present invention relates to a raw material supply device, and more particularly, to a raw material supply device that is connected to one side of a storage tank of a blending bin to discharge dust generated by supplying raw materials, To a preventable raw material supply device.

Generally, various ores produced from various origin are placed on the yard by the raw material processing facility by the raw material processing facility. Then, each coke is ejected by reclaimer according to the blending scheme, and then crushed by crusher in each crusher. The shredded coking coal is stored in the blending bin for each of the cylinders. The coking coal stored in the blending bean is discharged by mixing ratio of coal, dried by passing through a coal dryer, and then transported to Colvin.

In the above-described carbonization process, the coking coal is transferred to a tripper installed on the upper end of the blending bin using a belt conveyor. The raw material transferred to the tripper is dropped into the blending bin through the chute and stored. The tripper moves along the running rail installed on the blending bin, and drops the cyan to the top of the blending bin opened through the chute.

As a result of this drop, the raw material is scattered in the form of dust, and a severe air vortex phenomenon occurs in the sealed space of the blending bin, and a strong scattering force is generated at the upper portion of the blending bin as the internal volume increases. A large amount of dust is scattered to the outside of the blending bin. There is a problem that environmental pollution is caused and the recovery rate of the coke to be conveyed to the blast furnace is lowered because there is no dust collecting facility for treating dust generated by the dry coke as it collides with each other during charging.

Korean Patent Registration No. 10-1175588. Aug. 22, 2012.

It is an object of the present invention to prevent the outflow of a large amount of dust generated by the dropping of the raw material into the storage tank.

Another object of the present invention is to open and close a damper installed on a collecting tube automatically in accordance with the movement of a transfer unit for transferring a raw material.

Other objects of the present invention will become more apparent from the following detailed description and drawings.

According to an embodiment of the present invention, a raw material supply apparatus includes a transfer unit that distributes raw materials supplied from outside to storage tanks arranged in a line, and is movable along the array direction of the storage tanks; A dust collecting pipe connected to one side of the storage tank for collecting dust of the raw material; And a damper installed on the dust collecting tube for opening and closing the dust collecting tube, wherein the damper is opened when the transfer unit dispenses the raw material to the storage tank by the movement of the transfer unit, location; And a shutoff position for shutting off the collection tube when the transfer unit stops dispensing the raw material to the storage tank.

The conveying unit includes a belt conveyor installed at the upper part of the reservoirs, the conveyor being moved by a plurality of rollers to convey the material. A head chute for distributing the raw material transferred from the belt conveyor to the storage tank; And a drop chute connected to a lower portion of the head suit to supply the raw material to an inlet of the reservoir.

Wherein the head chute comprises: a housing installed in the head chute and having an internal space through which the raw material is supplied from the belt conveyor; And a feed screw installed inside the housing and adapted to feed the raw material toward the drop chute by rotation.

The storage tank is installed in two rows, and the material supply device further includes a rail installed at the center of the upper portion of the storage tank along the array direction, and the transfer unit may be movable along the rail.

The raw material supply apparatus further includes a wing plate connected to the transfer unit and protruding toward the dust collecting tube, wherein the damper comprises: a blocking plate installed inside the dust collecting tube and capable of opening and closing the dust collecting tube by rotation; A rotating shaft connected to the blocking plate and rotatable together, the rotating shaft projecting toward the conveying unit; And a driving bar rotatable together with the protruding rotary shaft and rotated by the movement of the wing plate.

The lower end of the driving bar may be disposed lower than the upper end of the wing plate.

According to an embodiment of the present invention, only the dust collection tube of the dust generation storage tank is selectively opened, thereby blocking the inside of the storage tank where no dust is generated, thereby preventing the suction pressure of the dust collector from being lowered. In addition, it is possible to minimize the environmental pollution by preventing a large amount of dust from flowing out to the outside in the actual storage tank.

1 is a view schematically showing a general raw material storing process.
2 and 3 are views schematically showing a dust scattering prevention device according to an embodiment of the present invention.
4 is an enlarged view of A shown in Fig.
5 and 6 are views showing the operation of the damper shown in FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 6 attached hereto. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described below. The embodiments are provided to explain the present invention to a person having ordinary skill in the art to which the present invention belongs. Accordingly, the shape of each element shown in the drawings may be exaggerated to emphasize a clearer description. Also, the 'connection' referred to below should be construed to include not only the case where two components are directly connected but also the case where they are indirectly connected through another medium.

1 is a view schematically showing a general raw material storing process. 1, the tripper 20 travels along a rail 15 provided in a traveling direction of a belt conveyor 29 (or an arrangement direction of the storage tank 30) The raw material is dropped on the upper side of the corresponding storage tank 30 required to distribute the raw material among the plurality of storage tanks 30 provided on the lower side of the storage tank 30 through the inlet 35.

The belt conveyor 29 is comprised of a belt 28 and a plurality of rollers 21,22 and 23 which pass through the interior of the head chute 10 and move to the outside of the head chute 10 And a drop chute 12 is coupled to a lower portion of the head chute 10 to guide the raw material falling from the head chute 10 to the inside of the storage tank 30. [ The tripper 20 is provided with a traveling wheel 25, a traveling motor 26, and the like so as to be movable along the rail 15. A dust duct 14 is vertically connected to the top of the head chute 10 to collect dust generated in the head chute 10.

The main piping 5 is provided with a plurality of dust collecting hoods 7 protruding from the main piping 5 at an upper side of the tripper 20. The main piping 5 collects dust And communicates with the hood (14). When the dust collector 10 and the dust collecting duct 14 communicate with each other, the tripper 20 is stopped at the upper side of the storage tank 30 and the collecting hood 7 and the dust collecting duct 14 communicate with each other. Since the dust collecting ducts 14 can not be brought into close contact with each other, gaps are formed and the dust collecting efficiency is lowered.

In addition, since the inlet and outlet portions of the head chute 10 through which the belt 28 passes for opening the raw material are opened without any separate sealing means, the dust in the head chute 10 and the fall chute 12 There is a difficulty in collecting dust with the dust collecting duct 14 coupled to the upper portion. That is, the suction force for sucking dust through the main pipe 5 is primarily leaked through a gap between the dust collecting duct 14 and the dust collecting hood 7, and the suction force of the head chute 10 And the dust is secondarily leaked from the open space of the outlet and the outlet, thereby lowering the dust collecting efficiency.

Particularly, a suction force acts in a direction opposite to the direction of the drop of the raw material, air flows into the raw material and flows downward, and the airflow forms a pressure in the storage tank 30, Thereby increasing the amount of dust generated. As a result, the dust generated in the storage tank 30 is blocked by the inlet 35 formed at the upper end of the storage tank 30, and the dust collecting efficiency is lowered. Accordingly, in the following description, a dust scattering prevention device capable of preventing dust from being caused to flow out of a large amount due to the drop of the raw material when the raw material is put into the storage tank 30 and capable of sucking dust automatically according to the movement of the tripracer 20 I will explain. In addition, components and descriptions omitted in the following description can be replaced with those described in Fig.

FIG. 2 and FIG. 3 are views schematically showing a raw material supply apparatus according to an embodiment of the present invention, and FIG. 4 is an enlarged view of A shown in FIG. 2 to 4, the raw material is conveyed by the belt 28 to the head chute 10. A housing 65 provided with a conveying screw 60 may be installed inside the head chute 10. The housing 65 has an inner space, and at the upper part of the housing is formed a supply port 66 through which the material transferred by the belt 28 is supplied. The raw material fed through the feed screw 60 is supplied to the feed port 35 of the storage tank 30 through the drop chute 12 to feed the raw material to the feed port 35 of the storage tank 30, .

The feed screw 60 is connected to a motor (not shown) and can be provided with a plurality of screws on a rotating shaft having a driving force. The raw materials introduced through the feed port 11 are arranged in two rows in accordance with the rotation direction of the motor The raw materials can be distributed to the both side storage tanks 30. The feed screw 60 is provided in the housing 65 and cuts off the open upper portion of the drop chute 12 through the housing 65 and feeds the feed opening 66 and the discharge opening 68 of the housing 65 to the housing 65). Therefore, the raw material transferred by the belt 28 can minimize the outflow of dust generated during the process of distributing the raw material through the head chute 10 and the drop chute 12 to the storage tank 30. [

As described above, a rail 15 is provided below the head chute 10, and the tripper 20 can move along the rail 15. The rails 15 are arranged along a central portion of the plurality of storage tanks 30 arranged in two rows and are parallel to the arranging direction of the storage tanks 30 and are connected to the respective storage tanks 30 The raw material can be dispensed. Further, when the distribution is completed, the head chute 10 and the falling chute 12 can move along the rails 15 and repeat the process of distributing the raw material to the next storage bases 30. [

The dust collecting tubes 40 are connected to the respective storage tanks 30 and may be disposed at the central portions on both sides of the storage tanks 30 in the column direction. When the raw material is dropped in each of the storage tanks 30 by traveling of the tripper 20 and then moved toward the other storage tank 30, the dust generated is flowed out to the outside through the inlet 35 to cause contamination The dust collecting pipe 40 may be connected to one side of the storage tank 30 to absorb the dust. For example, each of the collecting tubes 40 can communicate with the main piping 5, and the main piping 5 and the collecting tube 40 are exhausted through a suction fan (not shown) connected to the main piping 5, can do.

At this time, since each of the dust collecting tubes 40 is connected to the main piping 5 and sucked through the suction fan at the same time, the suction force is dispersed in the respective dust collecting tubes 40. In other words, suction is performed simultaneously with respect to the storage tank 30 in which the dust is generated while the raw material is being supplied and the inside of the storage tank 30 in which dust has not yet been generated, so that the suction pressure is dispersed, There is a problem that a large amount of dust is leaked to the outside.

In order to compensate for this, a wing plate 70 protruding toward the collecting tube 40 is connected to both side surfaces of the triple pucker 20. The wing plate 70 may be connected to a central portion on the connecting portion between the head chute 10 and the fall chute 12 and may protrude in a direction perpendicular to the rail 15. A cam damper 50 is installed on each of the collecting tubes 40. The cam damper 50 includes a blocking plate 52 provided inside the dust collecting pipe 40 and a rotating shaft 54 connected to the blocking plate 52 and having one side protruding toward the head chute 10, And a driving bar 55 vertically connected to the driving bar 55. The driving bar 55 has a constant load and can maintain its vertical direction by its own weight in the absence of an external force.

The rotation shaft 54 is connected to the blocking plate 52 and is rotatable together. The driving bar 55 is vertically connected to the protruding rotation axis 54 and rotates together with the rotation axis 54. In other words, as the wing plate 70 moves, the driving bar 55 can be rotated to rotate the rotating shaft 54 and the blocking plate 52. The tripper 20 moves along the rails 15 provided between the storage tanks 30 arranged in two rows so that the raw materials can be distributed to the respective storage tanks 30 so that the wiper plates 20 projected on both sides of the tripper 20, (70) also move together.

That is, when the tripper 20 distributes the raw material to the predetermined storage tank 30, the driving bar 55 is rotated by the wing plate 70 to rotate the blocking plate 52 to open the collecting tube 40 When the raw material is distributed to the next storage tank 30 after the distribution of the raw materials is completed, the driving bar 55 returns to its original state by its own weight, and the blocking plate 52 closes the collecting tube 40. The opening and closing states of the driving bar 55, the rotating shaft 54 and the blocking plate 52 according to the movement of the wing plate 70 will be described with reference to FIGS. 5 and 6. FIG.

5 and 6 are views showing the operation of the damper shown in FIG. 5, the wing plate 70 is connected between the head chute 10 moving along the tripper 20 and the drop chute 12, and the wiper plate 70, together with the tripper 20, And is movable along the rails 15 provided at the upper portion. A cam damper 50 is installed on the dust collecting pipe 40 connected to each of the storage tanks 30 and the driving bar 55 is provided on the movement path of the wing plate 70. Accordingly, as the wing plate 70 moves, the driving bar 55 abuts the wing plate 70 and is rotated in the moving direction of the wing plate 70. [

The falling chute 12 is moved by the tripper 20 so as to correspond to the loading port 35 of the storage tank 30. As the tripper 20 moves as shown in Fig. 6, the wing plate 70 And abuts against the driving bar 55 to rotate the driving bar 55. As the driving bar 55 is rotated, the rotary shaft 54 connected to the driving bar 55 rotates together and the blocking plate 52 connected to the rotating plate 54 also rotates together to open the collecting tube 40.

As described above, the storage tanks 30 are arranged in two rows and stop at the upper side of the corresponding storage tank 30, which is required to distribute the raw material among the plurality of storage tanks 30 provided below the tripper 20, The raw material is dropped into the inside of the storage tank 30. 5, the wing plate 70 is moved away from the driving bar 55 by the movement of the wing plate 70 from the dispensing tank 30 to the other storage tank 30, So that the blocking plate 52 closes the dust collecting tube 40.

That is, only the dust collecting tube 40 of the dust generating storage tank 30 generated while supplying the raw material through the cam damper 50 provided on the wing plate 70 and the dust collecting tube 40 is selectively opened, The inside of the storage tank 30 is shut off, and the suction pressure drop of the suction fan can be prevented from occurring in advance. In addition, it is possible to prevent a large amount of dust from flowing out to the outside in the actual storage tank 30, thereby minimizing environmental pollution.

Although the present invention has been described in detail by way of examples, other forms of embodiments are possible. Therefore, the technical idea and scope of the claims set forth below are not limited to the embodiments.

5: main piping 7: dust collecting hood
10: Head suit 12: Falling suit
14: Dust duct 15: Rail
20: Tripper 28: Belt
29: belt conveyor 30: storage tank
35: Inlet port 40: Collector tube
50: cam damper 52: blocking plate
54: rotating shaft 55: driving bar
60: Feed screw 70: Wing plate

Claims (6)

A transfer unit that distributes raw materials supplied from outside to storage tanks arranged in a row and is movable along the array direction of the storage tanks;
A plurality of dust collecting tubes each connected to one side of the storage tank and collecting dust of the raw material;
A wing plate connected to the conveying unit and protruding toward the collecting tube;
A blocking plate installed inside the dust collecting tube and capable of opening and closing the dust collecting tube by rotation;
A rotating shaft connected to the blocking plate and rotatable together with the blocking plate, the rotating shaft projecting toward the conveying unit;
A driving bar vertically connected to the rotating shaft and rotated together with the rotating shaft, and rotated by the movement of the wing plate; And
And a main pipe installed above the transfer unit and connected to the suction fan and the plurality of dust collecting tubes,
The blocking plate
An open position in which the drive bar rotates in the advancing direction of the transfer unit by contact with the wing plate to open the collection pipe; And
Wherein the driving bar is separated from the wing plate so that the driving bar is rotated in a direction opposite to the traveling direction by the self weight of the driving bar,
The transfer unit
A belt conveyor installed at the upper part of the storage tanks for moving the material by a plurality of rollers;
A head chute for distributing the raw material transferred from the belt conveyor to the storage tank; And
And a drop chute connected to a lower portion of the head chute to supply the raw material to an inlet of the storage tank,
The head suit includes:
A housing provided in the head chute and having an internal space, a top portion formed with a supply port through which the raw material is supplied to the internal space from the belt conveyor, and an outlet through which the falling chute is connected, And
And a conveying screw provided in an inner space of the housing for conveying the raw material toward the falling chute by rotation and blocking an opened upper portion of the falling chute,
Wherein the supply port is disposed at a central portion of the housing and the discharge port is disposed at an end of the housing. delete delete The method according to claim 1,
The storage tank is installed in two rows,
The raw material supply apparatus further includes a rail installed at the center of the upper portion of the storage tanks along the array direction, and the transfer unit is movable along the rail. delete The method according to claim 1,
And the lower end of the driving bar is disposed lower than the upper end of the wing plate.

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