KR101299331B1 - Hopper for sintered ore - Google Patents

Abstract

The present invention relates to a sintered ore raw material storage hopper, wherein a plate member, which is moved by a mobile device, is disposed in a storage hopper member into which a sintering raw material is charged, and thus, By flattening the surface evenly, particle size segregation in which particles of large particle size of the sintered raw material are biased to one side is prevented, and the quality and productivity of the sintered ore are improved.

Description

Sintered ore raw material storage hopper {HOPPER FOR SINTERED ORE}

The present invention relates to a sintered ore raw material storage hopper, and more particularly, to a sintered ore raw material storage hopper that evens the surface of the sintered raw material stored in the hopper to prevent particle size segregation of the sintered raw material.

In general, the blast furnace is a facility for producing molten iron by melting the charged iron ore by blowing hot air through the tuyere while repeatedly charging the fuel coke and iron ore.

Iron ore is charged into the blast furnace by crushing and screening to select only the appropriate size.

In the blast furnace, not only the above-mentioned iron ores but also sintered ores that are minified in minute iron ores are also used.

Related prior arts include Korean Patent Publication No. 10-1987-0003214, 'Sintered Mineral Manufacturing Method' (published on April 16, 1987).

SUMMARY OF THE INVENTION An object of the present invention is to provide a sintered ore raw material storage hopper which prevents particle size segregation of the sintered raw material charged into the sintered trolley to improve the quality and productivity of the sintered ore.

The object of the present invention is a storage hopper member is loaded with a raw material for sintering therein;

A plate member placed upright in the storage hopper member and moved before and after;

It is solved by providing a sintered ore raw material storage hopper including a mobile device for moving the plate member before and after.

The mobile device according to the present invention includes a screw member rotatably connected to the plate member through the storage hopper member and disposed in a moving direction of the plate member; A screw thread through which the screw member penetrates and is coupled to the screw member and is rotated at a fixed position; A motor connected to the rotating screw member to receive electric power to rotate the rotating screw member; And a gear unit transmitting the rotational force of the motor to the rotating screw member.

The sintered ore raw material storage hopper according to the present invention includes a lifting base member on which the mobile device is mounted; And a lifting device for moving the lifting base member up and down.

In the storage hopper member according to the present invention, the screw member penetrates a side portion thereof, and a vertically long moving guide hole is formed to move upward and downward, and a hole covering the moving guide hole in the lower portion of the elevating base member. The cover part is provided.

The plate member according to the present invention is connected to the mobile device, the support frame portion having a mounting groove therein; A plate part coupled to an upper end of the support groove of the support frame and disposed upright; And a vibration motor mounted in the mounting groove of the support frame and generating vibration in the plate.

The plate member according to the present invention further includes a spring portion mounted in the mounting groove portion to elastically support the plate portion.

The plate member according to the present invention includes a frame portion connected to the mobile device;

A plate part arranged to be rotatably connected in a left and right direction to a lower portion of the frame part; And a rotating motor unit mounted to the frame unit and connected to the plate unit to rotate the plate unit.

The sintered ore raw material storage hopper according to the present invention can evenly charge the sintered raw material by sintering trolley by evenly flattening the surface of the sintered raw material charged and stored therein to prevent particle size segregation of the sintered ore.

The sintered ore raw material storage hopper according to the present invention has an effect of preventing particle size segregation of the sintered raw material charged into the balance of the raw material for sintering to improve the quality and productivity of the sintered ore.

1 is a schematic view showing a sintered ore raw material storage hopper according to the present invention;
Figure 2 is a plan view showing a sintered ore raw material storage hopper according to the present invention
3 is a view showing an embodiment of a sintered ore raw material storage hopper according to the present invention;
Figure 4 is a cross-sectional view showing another embodiment of the sintered ore raw material storage hopper according to the present invention
5 is a view showing another embodiment of the sintered ore raw material storage hopper according to the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, the sintered ore raw material storage hopper according to the present invention includes a storage hopper member 10 into which a raw material for sintering is charged.

For example, the storage hopper member 10 may be formed in a rectangular box shape having a rectangular cross section in a plane, and the raw material for sintering is charged and stored therein, and the cross section decreases toward the outlet formed at the lower end thereof. Have

The sintered ore raw material is a granulated granulated mixture of ferrous ore, secondary raw materials, and fuel, and is manufactured as a sintered ore through a sintering process. Although the firing step is not shown, an ignition step of sintering the sintered ore raw material (assembly) into the sintered trolley of the sintering machine and then passing the sintered trolley through an ignition furnace to ignite the sintered ore raw material exposed to the upper surface of the sintered trolley; After the ignition process, the sintered trolley is moved along a path, and the sintered ore is manufactured by sintering the raw material of the sintered ore while drawing air into a blower disposed below.

In the quality of the sintered ore produced in the sintering process, the particle size segregation of the sintered ore raw material, ie, the granule, has an important effect. The sintered ore raw material is charged and stored in the storage hopper member 10, and then charged into a sinter bogie using a drum feeder or the like.

The sintered ore raw material is charged and stored so that large particles are deflected to one side according to the particle size when charged into the storage hopper member 10, and the sintered ore raw material charged and stored in the segregated state is charged into the sintered bogie as it is. As a result, segregation occurs in the sintered trolley.

The sintered ore raw material storage hopper according to the present invention includes a plate member 20 which is placed upright in the storage hopper member 10 and moved before and after, and the plate member 20 of the mobile device 30 It is moved before and after by operation.

In addition, the sintered ore raw material storage hopper according to the present invention includes a lifting base member 40 to which the mobile device 30 is mounted; And

It is preferable to further include a lifting device 50 for moving the lifting base member 40 up and down.

The plate member 20 is moved up and down together with the mobile device 30 to be height-adjustable inside the storage hopper member 10.

2, the mobile device 30 is rotatably connected to the plate member 20 by penetrating the storage hopper member 10, and the plate member 20 of the plate member 20. A screw member 31 disposed in the moving direction;

Rotating screw member 32 is passed through the screw member 31, the screw coupling, provided to rotate in a fixed position;

A motor 33 connected to the rotary screw member 32 to receive electric power to rotate the rotary screw member 32;

Gear portion 34 for transmitting the rotational force of the motor 33 to the rotary screw member 32.

Although not shown, the gear part 34 is provided on the outer circumferential surface of the gear coupled to the rotating shaft of the motor 33, the rotating screw member 32, and the two gears connected to the two gears. It includes a reduction gear to transmit the rotational force of the motor 33 to the rotary screw member (32).

The mobile device 30 is preferably spaced apart in the horizontal direction of the plate member 20 to allow the plate member 20 to move smoothly before and after.

When the motor 33 is rotated, the rotary screw member 32 is rotated at a fixed position by receiving the rotational force of the motor 33, and the screw screwed to the rotary screw member 32 according to the rotation direction. The screw member 31 is moved back and forth, and thus the plate member 20 connected to the screw member 31 moves back and forth.

The plate member 20 is moved back and forth by the operation of the mobile device 30 and evenly flattens the surface of the sintered ore raw material stacked in the storage hopper member 10 in accordance with the particle size, thereby sintering the sintered ore raw material. When charging into a furnace, particle segregation is prevented from occurring in the sinter bogie.

Meanwhile, referring to FIG. 3, in the storage hopper member 10, the screw member 31 penetrates a side portion thereof, and a vertically long moving guide hole 11 is formed to move up and down, and the lifting and lowering is performed. The lower portion of the base member 40 is preferably provided with a hole cover portion 41 to cover the movement guide hole (11).

The hole cover part 41 covers the movement guide hole 11 when the elevating base member 40 moves between the highest and the lowest heights so that the raw material for sintering is transferred through the movement guide hole 11. Prevent deviations.

In addition, the rotating screw member 32 is disposed in communication with the movement guide hole 11, and is rotatably mounted to the elevating base member 40 to transmit the rotational force of the motor 33 in a fixed position. It is rotated. The motor 33 is mounted to the elevating base member 40.

The rotary screw member 32, the screw member 31, the motor 33, that is, the mobile device 30 is mounted on the elevating base member 40, the lifting of the elevating base member 40 In the lowering movement is moved up and down, the screw member 31 is to be moved up and down in the movement guide hole (11).

The plate member 20 is raised and lowered together with the mobile device 30 which is lifted and lowered by the lifting device 50, and is adjusted according to the stacked height of the sintered ore raw material accumulated in the storage hopper member 10.

In addition, the plate member 20 is to be able to evenly flatten the surface of the sintered ore raw material by repeating the movement before and after the height adjustment according to the height of the sintered ore raw material is biased.

On the other hand, referring to Figure 4, the plate member 20 is connected to the mobile device 30, the support frame portion 21 is formed therein mounting groove portion 21a;

A plate part 22 having an upper end coupled to the mounting groove part 21a of the support frame and disposed upright;

And a vibration motor part 23 mounted in the mounting groove part 21a of the support frame part 21 and generating vibration in the plate part 22.

The vibration motor unit 23 may include a vibration motor 23a mounted to the support frame unit 21 in the mounting groove unit 21a; And

It is coupled to the rotating shaft of the vibration motor 23a, and includes a cam (23b) in contact with the plate portion (22).

When the vibration motor 23a rotates the cam 23b, the vibration motor 23 may cause the cam 23b to vibrate the plate part 22 by irregularly pushing the plate part 22. will be.

In addition, the plate member 20 may further include a spring portion 24 mounted in the mounting groove portion 21a to elastically support the plate portion 22.

The spring part 24 elastically supports the plate part 22 to reduce the shock and noise generated by the vibration when vibration is generated by the vibration motor part 23.

The plate portion 22 is in contact with the sintered ore raw material in the forward and backward movement to planarize the surface of the sintered ore raw material. The sintered ore raw material contains moisture and adheres to the surface during use.

The plate member 20 may generate vibrations in the plate part 22 by the operation of the vibration motor 23 to separate the sintered ore raw material attached to the plate part 22 during use.

Meanwhile, referring to FIGS. 5 to 6, the plate member 20 is a support frame portion 21 connected to the mobile device 30.

A plate part 22 which is rotatably connected to the lower part of the support frame part 21 in a left and right direction and is disposed; And

It is mounted to the support frame portion 21 and is connected to the plate portion 22 includes a rotary motor portion 25 for rotating the plate portion 22.

The rotary motor portion 25 is mounted on the upper surface of the support frame portion 21, the upper portion of the plate portion 22 through the plate portion 22 to be rotatable to the plate portion 22 Is coupled, the plate rotating shaft which is connected to the rotating shaft of the rotary motor unit 25 is protruded.

The plate portion 22 rotates in the left and right directions about the plate rotation axis by the operation of the rotary motor 25.

That is, the plate member 20 is easy to evenly flatten the surface of the raw material for sinter accumulated in a left and right direction by rotating the plate portion 22 in the left and right directions about the plate rotation axis.

The sintered ore raw material storage hopper according to the present invention evenly flattens the surface of the sintered raw material charged and stored therein, thereby preventing particle size segregation of the sintered ore generated during sintered ore production by biasing particles having large particle sizes.

The sintered ore raw material storage hopper according to the present invention evenly loads the sintered raw material into the sintered bogie to prevent particle size segregation of the sintered ore to improve the quality and productivity of the sintered ore.

It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: storage hopper member 11: moving guide hole
20 plate member 21 support frame portion
22 plate portion 23 vibration motor portion
24: spring portion 25: rotary motor portion
30: mobile device 31: screw member
32: rotating screw member 33: motor
34: gear portion 40: elevating base member
41: hole cover 50: lifting device

Claims (7)

A storage hopper member into which a raw material for sintering is charged;
A plate member placed upright in the storage hopper member and moved before and after;
It includes a mobile device for moving the plate member before, after,
The mobile device,
A screw member rotatably connected to the plate member through the storage hopper member and disposed in a moving direction of the plate member;
A screw thread through which the screw member penetrates and is coupled to the screw member and is rotated at a fixed position;
A motor connected to the rotating screw member to receive electric power to rotate the rotating screw member; And
Sintered ore raw material storage hopper comprising a gear portion for transmitting the rotational force of the motor to the rotary screw member. delete The method according to claim 1,
A lifting base member on which the mobile device is mounted; And
Sintered ore raw material storage hopper further comprises a lifting device for moving the lifting base member up and down. The method according to claim 3,
The storage hopper member is a side of the screw member penetrates, the vertically long moving guide hole is formed to be movable up and down,
The lower portion of the elevating base member sintered ore raw material storage hopper, characterized in that provided with a hole cover portion for covering the movement guide hole. The method according to claim 1,
The plate member,
A support frame portion connected to the mobile device and having a mounting groove portion therein;
A plate part coupled to an upper end of the support groove of the support frame and disposed upright; And
Sintered ore raw material storage hopper is mounted in the mounting groove portion of the support frame portion, characterized in that it comprises a vibration motor portion for generating vibration in the plate portion. The method according to claim 5,
The plate member,
Sintered ore raw material storage hopper further comprises a spring portion mounted in the mounting groove to elastically support the plate portion. The method according to claim 1,
The plate member,
A frame unit connected to the mobile device;
A plate part arranged to be rotatably connected in a left and right direction to a lower portion of the frame part; And
Sintered ore raw material storage hopper, characterized in that it comprises a rotary motor portion mounted to the frame portion and connected to the plate portion to rotate the plate portion.

Images