KR101419392B1 - Apparatus for preventing unbalance of material - Google Patents

Abstract

According to an embodiment of the present invention, a device for preventing the unbalance of materials comprises a storage tank having an internal space, and capable of receiving materials supplied from the outside through an inlet formed in one side; a body installed in the lower part of the inlet toward the internal space, having an internal space communicated with the inlet, and connected to the storage tank to be independently rotated from the storage tank; a support member connected to one side of the body, and protruding to the inside of the body; a rotary shaft connected to the body while penetrating the side wall of the body, and arranged in the upper part of the support member; a guide member connected to one side of the rotary member, and arranged in the upper part of the support member to rotate around the rotary shaft by the weight of the materials; an elastic member installed between the support member and the guide member, and providing elastic force toward the guide member; a driving bar connected to the other side of the rotary shaft, and rotating around the rotary shaft by the rotation of the guide member; and a fixing member fixed on the body, and hit by the driving bar when the driving bar moves.

Description

[0001] APPARATUS FOR PREVENTING UNBALANCE OF MATERIAL [0002]

The present invention relates to a raw material biasing prevention device, and more particularly, to a raw material biasing prevention device capable of uniformly distributing a raw material in a storage tank by rotation of a guide member provided inside the storage tank as the raw material supplied from the outside drops.

Generally, the raw material storage tank of the blast furnace facility continuously disperses and stores the sintered ores produced in the sintering process, and the sub-raw materials are dispersedly stored in the sub-raw material storage tank disposed between the raw material storage tanks. At this time, a plurality of raw material storage tanks and sub-raw material storage tanks are used, and a tripper is used in which the raw materials are transported through the conveyor to the upper part of the raw material storage tank and dropped. The tripper is movable along a running rail installed along the upper part of a plurality of raw material storage tanks, and automatically collects raw materials while checking the amount of loading according to the level in the raw material storage tank.

That is, the raw material is conveyed to the upper part of the storage tank by the conveyor, and is dropped into the raw material storage tank through the inlet formed above the raw material storage tank at the upper part of the raw material storage tank. The raw material falls freely into the storage tank and is stacked locally at the point where the raw material is stored in the raw material storage tank. This is locally accumulated relative to the total area of the raw material storage tank, and a relatively small amount of load is accumulated compared to the amount detected by the raw material storage tank internal load level sensor.

In addition, as the raw material is repeatedly mixed with the locally accumulated raw materials, the raw materials are combined and collapsed inside the raw material storage tank, and the opening / closing valve installed at the lower part of the storage tank is blocked. Therefore, there is a need for an improved apparatus to prevent segregation in the feed reservoir of the incoming feedstock.

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

An object of the present invention is to prevent segregation of raw materials introduced into a storage tank.

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, the raw material biasing prevention device includes: a reservoir having an internal space, the reservoir containing a raw material supplied from the outside through an inlet formed at one side; A body connected to the reservoir and rotatable independently from the reservoir, the reservoir being provided at a lower portion of the charging port toward the inner space and communicating with the charging port; A support member connected to one side of the body and projecting toward the inside of the body; A rotating shaft connected to the body through a side wall of the body, the rotating shaft being disposed on the supporting member; A guide member which is connected to one side of the rotation shaft and is disposed on the support member and is rotatable about the rotation axis by a load of the raw material; An elastic member provided between the support member and the guide member and providing an elastic force toward the guide member; A drive bar connected to the other side of the rotation shaft and rotatable about the rotation axis by rotation of the guide member; And a fixing member fixed to the body and being hammered by the driving bar when the driving bar moves.

The elastic members may include first and second elastic members arranged in the width direction of the support member and having different elastic moduli.

Wherein the driving bar comprises: an operating position in contact with the fixing member to strike the fixing member; And a standby position spaced apart from the stationary member.

And a striking rod connected to an upper end of the driving bar and capable of striking the fixing member by movement of the driving bar.

Wherein the body is a cylindrical shape opened up and down, the raw material biasing prevention device includes: a housing connected to the storage tank and disposed along the periphery of the body; And a bearing installed between the housing and the body, the body being rotatably connected to the housing.

The guide member may have a larger cross-sectional area than the support member, and may have a central concave shape along the longitudinal direction.

The support member may be vertically connected to a lower portion of the body, and the guide member may be disposed to be inclined downward from the rotation axis.

According to an embodiment of the present invention, it is possible to prevent segregation of raw materials introduced into the storage tank without external power supply. Particularly, as the raw material is supplied into the storage tank, the raw material is uniformly distributed by rotating 360 degrees by itself, which makes it possible to load the improved raw material, and the efficiency of the work can be improved by preventing such raw material segregation.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view schematically showing a state in which raw materials are mixed into a conventional storage tank. FIG.
2 is a view schematically showing a raw material bias preventing apparatus according to an embodiment of the present invention.
Fig. 3 is a plan view of the raw material bias preventing device shown in Fig. 2. Fig.
4 is a view cut along the AA direction in Fig.
FIGS. 5 to 7 are views showing the operation of the raw material bias preventing apparatus shown in FIG. 3. FIG.

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

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view schematically showing a state in which raw materials are mixed into a conventional storage tank. FIG. As shown in Fig. 1, a small to medium-sized storage facility generally used on a steel process is a raw material 5 (for example, iron ores having a size of about 30 to 40 mm produced by briquetted iron) Is transported to the upper part of the storage tank 10 through a bucket conveyer 8 (for example, a bucket conveyer) and falls into the storage tank 10 through the inlet 15 formed in the upper part of the storage tank 10.

These raw materials 5 are piled up locally in the storage tank 10 and operated at a level of a load level lower than the total capacity in the storage tank 10. In addition, as the raw material is repeatedly mixed with the locally accumulated raw material, the raw materials are combined and collapsed inside the storage tank 10, and the opening / closing valve 18 installed in the lower part of the storage tank 10 is blocked, so that it is difficult to discharge through the outlet. Therefore, a raw material biasing prevention device capable of preventing the occurrence of segregation in the raw material storage tank 10 can be improved.

Fig. 2 is a view schematically showing a raw material bi-unit prevention device according to an embodiment of the present invention, and Fig. 3 is a plan view of the raw material bi-unit prevention device shown in Fig. 4 is a sectional view taken along line AA in Fig. As shown in FIGS. 2 to 4, the raw material biasing device includes a body 20 having an interior communicating with an inlet 15 formed in an upper portion of a storage tank 10 having an internal space, Has a cylindrical shape with its top and bottom opened. The housing 30 is connected to the reservoir 10 and is disposed along the periphery of the body 20. A bearing 35 is provided between the housing 30 and the body 20 so that the body 20 can rotate separately from the housing 30.

The support member 40 is fixed to one side of the lower end of the body 20 and may have a plate shape having a predetermined width. Further, the support member 40 may be connected to the body 20 vertically. The rotating shaft 90 is connected to the body through the side wall of the body 20 and is disposed on the upper portion of the supporting member 40. A guide member 50 is provided at one side of the rotary shaft 90 and the guide member 50 is projected onto the inlet 15. The guide member 50 is wider than the cross-sectional area of the support member 40 and may have a downwardly inclined shape from the rotation axis 90. Therefore, the raw material (5) introduced through the inlet (15) is in contact with the guide member (50), and the movement path is changed.

A driving bar 70 is connected to the other side of the rotating shaft 90. The driving bar 70 is vertically connected to the rotating shaft 90 and is arranged in parallel to the longitudinal direction of the body 20. [ A plurality of elastic members 60 are provided on the upper surface of the support member 40 to provide an elastic force toward the guide member 50. The first and second elastic members 62 and 64 may be provided on both sides of the center of the width direction of the support member 40. The first and second elastic members 62 and 62 may have a second elasticity And has a greater elastic force than the member 64. [

Therefore, as the raw material 5 drops down toward the upper surface of the guide member 50 along the inlet 15, the elastic member 60 moves downward and tilts to one side, and the support member 40 by the elastic force of the first and second elastic members 62, 64 provided on the upper surface of the first and second elastic members 62, The first and second elastic members 62 and 64 may be elastic springs having different elastic moduli.

The driving bar 70 and the striking bar 75 connected to the rotating shaft 90 and the rotating shaft 90 by the movement of the guide member 50 can be connected to the upper portion of the driving bar 70, And is rotated together. The fixing member 80 is fixed to the body 20 and the striking bar 75 and the fixing member 80 are fixed to the body 20 in a state where the raw material 5 is not fed toward the guide member 50 And are spaced apart at predetermined intervals. When the raw material 5 falls down on the guide member 50, the striking rod 75 hits the holding member 80 and strikes the body 20 in a state in which the guide member 50 is inclined Lt; / RTI >

FIGS. 5 to 7 are views showing the operation of the raw material bias preventing apparatus shown in FIG. 3. FIG. 5, in the state in which the raw material 5 is not fed toward the charging port 15 (the "standby position"), the guide bar 50 is held in the first and second And is placed on the upper surface of the elastic members 62 and 64 at a predetermined angle.

6 and 7, when the raw material 5 fed through the conveying conveyor 8 is dropped toward the guide member 50 through the inlet 15 (the 'operation position'), The guide member 50 moves downward due to the force of the dropping of the raw material 5 and the elastic moduli of the first and second elastic members 62 and 64 are different from each other, do. Thus, the rotary shaft 90, the driving bar 70, and the striking rod 75 connected to the guide member 50 are rotated. As the striking rod 75 rotates, the striking member 80 strikes the fixing member 80 connected to the body 20. As the striking rod 75 strikes the fixing member 80, the body 20 is separated from the housing 30 Rotate. The guide member 50 rotates together with the body 20 and the raw material 5 can be evenly distributed to the receiving space 12 of the storage tank 10 according to the rotational direction of the guide member 50. [

That is, the present invention can prevent segregation of the raw material 5 flowing into the storage tank 10 without external power supply. Particularly, as the raw material 5 is fed into the storage tank 10, the raw material 5 can be loaded evenly by uniformly distributing the raw material 5 by rotating 360 degrees by itself. By preventing such raw material segregation, .

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: raw material 8: conveying conveyor
10: storage tank 20: body
30: housing 35: bearing
40: support member 50: guide member
60: elastic member 70: driving bar
75: striking rod 80: fixing member
90:

Claims (7)

A reservoir having an internal space and accommodating a raw material supplied from the outside through an inlet formed at one side;
A body connected to the reservoir and rotatable independently from the reservoir, the reservoir being provided at a lower portion of the charging port toward the inner space and communicating with the charging port;
A support member connected to one side of the body and projecting toward the inside of the body;
A rotating shaft connected to the body through a side wall of the body, the rotating shaft being disposed on the supporting member;
A guide member which is connected to one side of the rotation shaft and is disposed on the support member and is rotatable about the rotation axis by a load of the raw material;
An elastic member provided between the support member and the guide member and providing an elastic force toward the guide member;
A drive bar connected to the other side of the rotation shaft and rotatable about the rotation axis by rotation of the guide member; And
And a fixing member fixed to the body and struck by the driving bar when the driving bar moves. The method according to claim 1,
Wherein the elastic members include first and second elastic members disposed in the width direction of the support member and having different elastic moduli, respectively. 3. The method of claim 2,
Wherein:
An operating position in contact with the fixing member to strike the fixing member; And
And is capable of being switched to a standby position spaced apart from the stationary member. The method according to claim 1,
Further comprising a striking rod connected to an upper end of the driving bar and capable of striking the fixing member by movement of the driving bar. The method according to claim 1,
The body is cylindrical in the upper and lower openings,
The above-
A housing connected to the reservoir and disposed along the periphery of the body; And
And a bearing installed between the housing and the body, the body being rotatably connected to the housing. The method according to claim 1,
Wherein the guide member has a larger cross-sectional area than the support member and has a central concave shape along the longitudinal direction. The method according to claim 1,
Wherein the support member is vertically connected to a lower portion of the body, and the guide member is disposed downwardly inclined from the rotation shaft.

Images