CN113734820A

CN113734820A - Feeding device of material tank for steel processing

Info

Publication number: CN113734820A
Application number: CN202111310569.4A
Authority: CN
Inventors: 蔡雪贞; 姜峰; 李卫波
Original assignee: Lianfeng Steel Zhangjiagang Co Ltd
Current assignee: Lianfeng Steel Zhangjiagang Co Ltd
Priority date: 2021-11-08
Filing date: 2021-11-08
Publication date: 2021-12-03
Anticipated expiration: 2041-11-08
Also published as: CN113734820B

Abstract

The invention belongs to the field of steel smelting, and particularly relates to a feeding device of a material tank for steel processing. The user pours into a large amount of iron ores into the storage vat earlier, start power device afterwards, through the device, the user only needs to accomplish initial filling work, can save subsequent artifical input link, moreover, the iron ore quantity that drops into in the storage vat is many, can throw the material for a long time, avoided artifical throw material can not keep up with the problem of the speed of iron and steel smelting consumption, avoid hindering the iron and steel productivity, improved the input efficiency of iron ore.

Description

Feeding device of material tank for steel processing

Technical Field

The invention belongs to the field of steel smelting, and particularly relates to a feeding device of a material tank for steel processing.

Background

When smelting steel, need constantly drop into iron ore as the smelting raw materials, through a series of processing such as smelting purification, finally become steel products, but because the iron content in the iron ore is lower usually, so when preparing steel, need a large amount of iron ores, this just requires to throw the material device and need constantly drop into the material groove with iron ore, the material device that throws that has the material groove that is arranged in steel processing has throws the material to the material groove mostly through artificial mode, but it is unreal to rely on the manual work to carry out a large amount of iron ore and put in work, and the efficiency of artifical input is low, once can not keep up with the speed that steel smelting consumed, not only can influence steel productivity, still can cause energy loss waste in process of production.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a feeding device of a material tank for steel processing, which solves the problem of low efficiency of manually feeding iron ores.

(II) technical scheme

The technical scheme adopted by the invention for solving the technical problems is as follows: the feeding device for the material tank in steel processing comprises a feeding device, wherein a feeding port is formed in the middle of an inner cavity of the feeding device, the upper surface of the feeding device is connected with a material storage barrel in a sliding mode through the feeding port, connecting arms are fixedly connected to two sides of the inner cavity of the feeding device, two ends of the feeding device are rotatably connected with power devices, and the lower surface of the feeding device is connected with a supporting base in a sliding mode;

preferably, the power device comprises a hollow connecting rod, an auxiliary rotating rod is arranged inside the hollow connecting rod, transmission guide plates are fixedly connected to two ends of the hollow connecting rod, grooves are formed in inner cavities of the transmission guide plates, and small transmission belts are rotatably connected to the inner cavities of the transmission guide plates through the grooves;

the feeding device comprises a guide sleeve, wherein two ends of the guide sleeve are respectively connected with a double-opening conveying belt in a sliding mode, two sides of the outer surface of the guide sleeve are symmetrically provided with a connecting force arm, one end of the connecting force arm is connected with a power rotating shaft in a sliding mode, the upper surface of the connecting force arm is fixedly connected with a residue push plate, and the inner wall of the guide sleeve is fixedly connected with an automatic switch.

Preferably, the top on linking arm surface and the fixed surface of storage vat are connected, the bottom on linking arm surface and the fixed surface who throws the material device are connected, the both ends of supplementary bull stick all extend to the outside of fretwork connecting rod, the both ends of supplementary bull stick respectively with one side fixed connection of small-size drive belt inner wall, the opposite side of small-size drive belt inner wall and the one end fixed connection who throws the material device.

Preferably, the auxiliary rotating rod comprises a rotating shaft rod, a pipe sleeve is fixedly connected to the outer surface of the rotating shaft rod, power motors are rotatably connected to two ends of the outer surface of the rotating shaft rod, and the outer surface of the pipe sleeve is uniformly and fixedly connected with the variable brush head.

Preferably, the outer surface of the power motor is fixedly connected with the inner wall of the hollow connecting rod, one end of an output shaft of the power motor is fixedly connected with one side of the outer surface of the rotating shaft rod, the other end of the output shaft of the power motor is fixedly connected with one side of the inner wall of the small-sized transmission belt, and the top end of the outer surface of the deformable brush head is slidably connected with the inner wall of the hollow connecting rod.

Preferably, the both ends of two mouthful of conveyer belt inner walls all with the surface sliding connection of power pivot, the both ends of power pivot all extend to the outside of two mouthful of conveyer belts.

Preferably, both ends of the power rotating shaft are fixedly connected with one side of the inner wall of the small-sized driving belt, and the automatic switch is fixedly connected with the inner cavity of the connecting force arm through a wire.

Preferably, the dregs push pedal includes the sheet frame, the right side fixedly connected with segmentation spring beam of sheet frame inner wall, the left end fixedly connected with of segmentation spring beam slides the pushing head, the left side of the surface of sliding the pushing head has the power to push away the strip through the gear shaping groove joint.

Preferably, the lower surface of sheet frame and the upper surface fixed connection who is connected the arm of force, the both ends of slip pushing head surface all with the inner wall sliding connection of sheet frame, the upper surface that the power pushed the strip and the inner wall fixed connection of two port conveyer belts.

Preferably, the automatic switch comprises a hollow snap ring, the two sides of the inner wall of the hollow snap ring are symmetrically provided with bearing shifting plates, the left bottom end of the outer surface of each bearing shifting plate is fixedly connected with a reset spring belt, and the left top end of the outer surface of each bearing shifting plate is fixedly connected with a wire.

Preferably, one side of cavity snap ring surface and guide sleeve's inner wall fixed connection, the spout has all been seted up to the both sides of cavity snap ring inner chamber, the bearing is dialled the one end of board and is passed through the outside that the spout extended to the cavity snap ring, the left side sliding connection of board surface is dialled with the bearing to the inner wall of cavity snap ring, the bottom in reset spring area and guide sleeve's inner wall fixed connection, the bearing is dialled the left top of board surface and is passed through the wire and be connected the inner chamber sliding connection of the arm of force.

The invention has the following beneficial effects:

1. before using the device to throw the material to the material groove, need carry out preparation work earlier, the user pours a large amount of iron ores into the storage vat earlier, start power device afterwards, the dog-house of throwing the material device both sides communicates with the bottom of storage vat, the inside iron ore of storage vat drops in the material groove under the effect of gravity this moment, accomplish and throw material work, through the device, the user only needs to accomplish initial filling work, can save subsequent artifical input link, and, the iron ore that drops into in the storage vat is in large quantity, can throw the material for a long time, avoided artifical material of throwing to follow up the problem of the speed that the iron and steel smelting consumed, avoid dragging tired iron and steel productivity, the input efficiency of iron ore has been improved.

2. Power motor among the fretwork connecting rod provides the rotation of the small-size drive belt of power control and rotation axostylus axostyle, when small-size drive belt rotates, throws the material device and moves along with it, and then opens the dog-house, and the material is thrown to the device beginning, and when the rotation axostylus axostyle rotated, the top of deformation brush head constantly contacted the friction with the surface of throwing the material device, and then will be stained with and attach and sweep away at the rubble residue of throwing the material device surface, prevents that the rubble residue from causing the problem of throwing the material device transmission card shell.

3. The feeding device is feeding the material during operation, and power motor passes through small-size drive belt control power pivot rotation, and through the rotation of friction control two port conveyer belts when the power pivot rotates, and when the dog-house of two port conveyer belt both sides and guide sleeve's both ends were met logical, the dog-house was opened, and the inside iron ore of storage vat falls out from the bottom of storage vat, and the light completion is thrown the material work, and the principle is simple, is favorable to manufacturing and maintenance work.

4. Use the device not only can easily accomplish and throw the material work, the user can control motor power, make the incomplete switch-on of dog-house of two port conveyer belt both sides, and then change the effective latus rectum of dog-house, the input volume of control ore, change input speed, if need stop putting, the user can control motor power, make the dog-house of two port conveyer belt both sides stagger completely, the bottom of storage vat contacts with the upper surface of two port conveyer belt this moment, the bottom of storage vat is stopped up to two port conveyer belt, the device stops throwing the material.

5. When the dog-house of two port conveyer belts both sides staggers, the inside some iron ore of storage vat can remain in the clearance department of two port conveyer belt dog-house, in order to clear away this part iron ore, be provided with the scum push pedal, when two port conveyer belts clockwise turning, the lower surface of two port conveyer belt promotes the slip pushing head through power pushing strip right, the segmentation spring spindle is compressed, iron ore falls on the left side of power pushing strip along with it, when two port conveyer belts time reset, the slip pushing head slides left under the thrust effect of segmentation spring spindle, in pushing the left iron ore of power pushing strip into the guide sleeve, accomplish the cleaning work of iron ore, prevent that remaining iron ore from drawing the surface of two port conveyer belts and damaging.

6. In the feeding process, iron ore in the storage barrel continuously passes through the guide sleeve under the action of gravity, the bearing shifting plate rotates clockwise after receiving the impact force of the iron ore, the reset spring belt is compressed, the top of the left side of the bearing shifting plate is disconnected with the inner cavity connected with the force arm, the force arm is fixed at the moment, the guide sleeve is prevented from offsetting, after the feeding of the iron ore in the storage barrel is finished, the bearing shifting plate does not receive the impact force of the iron ore any more, the bearing shifting plate resets, the top of the left side of the bearing shifting plate is communicated with the inner cavity connected with the force arm, the connection force arm has the tendency of extending from two ends, the position of the guide sleeve is unchanged, so that the other end connected with the force arm blocks the power rotating shaft, the power rotating shaft cannot rotate, the rotation of the double-port conveyor belt cannot be controlled by a user at the moment, and the user can quickly judge the exhaustion of the iron ore in the storage barrel under the condition of not observing the interior of the storage barrel, it needs to be supplemented in advance.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic structural view of the power plant of the present invention;

FIG. 3 is a schematic view of the structure of the auxiliary rotating rod of the present invention;

FIG. 4 is a cross-sectional view of a guide sleeve of the present invention;

FIG. 5 is a schematic structural view of a residue pusher plate according to the present invention;

fig. 6 is a schematic structural view of the automatic switch of the present invention.

In the figure: the device comprises a feeding device 1, a connecting arm 2, a storage barrel 3, a supporting base 4, a guide sleeve 11, a double-opening conveyor belt 12, a connecting force arm 13, a power rotating shaft 14, a power device 5, a hollow connecting rod 51, a transmission guide plate 52, a small-sized conveyor belt 53, an auxiliary rotating rod 6, a rotating shaft rod 61, a pipe sleeve 62, a power motor 63, a deformation brush plate head 64, a residue push plate 7, a plate frame 71, a sliding push head 72, a power push bar 73, a segmented spring rod 74, an automatic switch 8, a hollow clamping ring 81, a bearing push plate 82 and a reset spring belt 83.

Detailed Description

A charging device for a material tank used in steel processing according to an embodiment of the present invention will be described below with reference to fig. 1 to 6.

As shown in fig. 1-6, the feeding device for a material tank in steel processing according to the present invention comprises a feeding device 1, wherein a feeding port is formed in the middle of an inner cavity of the feeding device 1, the upper surface of the feeding device 1 is slidably connected to a material storage barrel 3 through the feeding port, two sides of the inner cavity of the feeding device 1 are fixedly connected to a connecting arm 2, two ends of the feeding device 1 are rotatably connected to a power device 5, and the lower surface of the feeding device 1 is slidably connected to a support base 4;

the power device 5 comprises a hollow connecting rod 51, an auxiliary rotating rod 6 is arranged inside the hollow connecting rod 51, two ends of the hollow connecting rod 51 are fixedly connected with transmission guide plates 52, the inner cavity of each transmission guide plate 52 is provided with a groove, and the inner cavity of each transmission guide plate 52 is rotatably connected with a small transmission belt 53 through the groove;

the feeding device 1 comprises a guide sleeve 11, two ends of the guide sleeve 11 are respectively connected with a double-opening conveyor belt 12 in a sliding mode, two sides of the outer surface of the guide sleeve 11 are symmetrically provided with a connecting force arm 13, one end of the connecting force arm 13 is connected with a power rotating shaft 14 in a sliding mode, the upper surface of the connecting force arm 13 is fixedly connected with a residue push plate 7, and the inner wall of the guide sleeve 11 is fixedly connected with an automatic switch 8. Before using the device to throw the material to the material groove, need carry out preparation work earlier, the user pours a large amount of iron ores into storage vat 3 earlier, start power device 5 afterwards, the dog-house of throwing material device 1 both sides communicates with the bottom of

storage vat

3, 3 inside iron ores of storage vat drop to the material groove under the effect of gravity this moment, accomplish and throw the material work, through the device, the user only needs to accomplish initial filling work, can save subsequent artifical input link, and, the iron ore that drops into in the storage vat 3 is in large quantity, can throw the material for a long time, avoided the artifical material of throwing to follow up the problem of the speed that the iron and steel smelting consumed, avoid dragging the tired yield of iron and steel, the input efficiency of iron ore has been improved.

The top on 2 surfaces of linking arm and the fixed surface connection of storage vat 3, the bottom on 2 surfaces of linking arm and the fixed surface connection of throwing material device 1, the both ends of supplementary bull stick 6 all extend to the outside of fretwork connecting rod 51, the both ends of supplementary bull stick 6 all with one side fixed connection of small-size drive belt 53 inner wall, the opposite side of small-size drive belt 53 inner wall with throw the one end fixed connection of material device 1.

The auxiliary rotating rod 6 comprises a rotating shaft rod 61, a pipe sleeve 62 is fixedly connected to the outer surface of the rotating shaft rod 61, two ends of the outer surface of the rotating shaft rod 61 are rotatably connected with power motors 63, a variable brush head 64 is uniformly and fixedly connected to the outer surface of the pipe sleeve 62, the power motors 63 in the hollow connecting rods 51 provide power for controlling the small transmission belt 53 and the rotating shaft rod 61 to rotate, when the small transmission belt 53 rotates, the feeding device 1 moves along with the small transmission belt, a feeding port is opened, the device starts to feed materials, and when the rotating shaft rod 61 rotates, the top end of the variable brush head 64 and the outer surface of the feeding device 1 are in contact friction, so that broken stone residues attached to the outer surface of the feeding device 1 are swept away, and the problem that the broken stone residues cause the transmission of the feeding device 1 to block a shell is prevented.

The outer surface of the power motor 63 is fixedly connected with the inner wall of the hollow connecting rod 51, one end of an output shaft of the power motor 63 is fixedly connected with one side of the outer surface of the rotating shaft rod 61, the other end of the output shaft of the power motor 63 is fixedly connected with one side of the inner wall of the small-sized transmission belt 53, and the top end of the outer surface of the deformation brush plate head 64 is slidably connected with the inner wall of the hollow connecting rod 51.

The two ends of the inner wall of the double-port conveyor belt 12 are connected with the outer surface of the power rotating shaft 14 in a sliding manner, the two ends of the power rotating shaft 14 extend to the outside of the double-port conveyor belt 12, when the feeding device 1 carries out feeding work, the power motor 63 controls the power rotating shaft 14 to rotate through the small-sized conveyor belt 53, the power rotating shaft 14 controls the double-port conveyor belt 12 to rotate through friction force when rotating, when the feeding ports on the two sides of the double-port conveyor belt 12 are communicated with the two ends of the guide sleeve 11, the feeding ports are opened, iron ore in the storage barrel 3 falls out from the bottom end of the storage barrel 3 to complete the feeding work, the feeding work can be easily completed by using the device, a user can control the power motor 63 to ensure that the feeding ports on the two sides of the double-port conveyor belt 12 are not completely communicated, the effective through diameters of the feeding ports are changed, the feeding amount of ore is controlled, the feeding speed is changed, and if the feeding is required to stop, the user can control power motor 63, makes the dog-house of two port conveyer belt 12 both sides stagger completely, and the bottom of storage vat 3 contacts with the upper surface of two port conveyer belt 12 this moment, and the bottom of storage vat 3 is plugged up to two port conveyer belt 12, and the device stops to throw the material.

Two ends of the power rotating shaft 14 are respectively fixedly connected with one side of the inner wall of the small-sized transmission belt 53, and the automatic switch 8 is fixedly connected with the inner cavity of the connecting force arm 13 through a lead.

The residue push plate 7 comprises a plate frame 71, a segmented spring rod 74 is fixedly connected to the right side of the inner wall of the plate frame 71, a sliding push head 72 is fixedly connected to the left end of the segmented spring rod 74, a power push bar 73 is connected to the left side of the outer surface of the sliding push head 72 in a clamping mode through a gear shaping groove, when the feeding ports on the two sides of the double-port conveyor belt 12 are staggered, a small part of iron ore in the storage barrel 3 can remain in the gap of the feeding ports of the double-port conveyor belt 12, the residue push plate 7 is arranged for clearing the part of iron ore, when the double-port conveyor belt 12 rotates clockwise, the lower surface of the double-port conveyor belt 12 pushes the sliding push head 72 rightwards through the power push bar 73, the segmented spring rod 74 is compressed, the iron ore falls on the left side of the power push bar 73, when the double-port conveyor belt 12 resets next time, the sliding push head 72 slides leftwards under the thrust action of the segmented spring rod 74 to push the iron ore on the left side of the power push bar 73 into the guide sleeve 11, the cleaning work of the iron ore is completed, and the residual iron ore is prevented from scratching the outer surface of the double-port conveyor belt 12.

The lower surface of sheet frame 71 and the upper surface fixed connection who is connected the arm of force 13, the both ends of slip pushing head 72 surface all with sheet frame 71's inner wall sliding connection, the upper surface that the power pushed away strip 73 and the inner wall fixed connection of two port conveyer belt 12.

Automatic switch 8 includes cavity snap ring 81, the bilateral symmetry of cavity snap ring 81 inner wall is provided with the bearing and dials board 82, the bearing is dialled the left bottom fixedly connected with reset spring area 83 of board 82 surface, the bearing is dialled the left top fixedly connected with wire of board 82 surface.

One side of the outer surface of the hollow snap ring 81 is fixedly connected with the inner wall of the guide sleeve 11, sliding grooves are formed in two sides of the inner cavity of the hollow snap ring 81, one end of the bearing shifting plate 82 extends to the outside of the hollow snap ring 81 through the sliding grooves, the inner wall of the hollow snap ring 81 is in sliding connection with the left side of the outer surface of the bearing shifting plate 82, the bottom end of the reset spring belt 83 is fixedly connected with the inner wall of the guide sleeve 11, the top end of the left side of the outer surface of the bearing shifting plate 82 is in sliding connection with the inner cavity connected with the force arm 13 through a lead, in the feeding process, iron ore in the storage barrel 3 continuously passes through the guide sleeve 11 under the action of gravity, the bearing shifting plate 82 rotates clockwise after receiving impact force of the iron ore, the reset spring belt 83 is compressed, the top of the left side of the bearing shifting plate 82 is disconnected with the inner cavity connected with the force arm 13, the force arm 13 is fixed at the moment, and the guide sleeve 11 is prevented from shifting, after the inside iron ore of storage vat 3 put in, bearing dial plate 82 no longer receives the impact force of iron ore, bearing dial plate 82 resets, bearing dial plate 82 left side top and the inner chamber of being connected the arm of force 13 and put through mutually, it has the trend of both ends extension to connect the arm of force 13, and guide sleeve 11 position is unchangeable, so the other end of connecting the arm of force 13 dies power pivot 14 card, power pivot 14 can not rotate, the rotation of user's uncontrollable two mouthful of conveyer belts 12 this moment, the user can be under the condition of observing storage vat 3 inside, judge fast that the inside iron ore of storage vat 3 exhausts, need supplement in advance.

The specific working process is as follows:

before using the device to throw the material to the material groove, need carry out preparation work earlier, the user pours a large amount of iron ores into storage vat 3 earlier, start power device 5 afterwards, the dog-house of throwing material device 1 both sides communicates with the bottom of

storage vat

The power motor 63 among the fretwork connecting rod 51 provides the rotation of the small-size drive belt 53 of power control and pivot axis pole 61, when small-size drive belt 53 rotated, throw the motion of material device 1 along with it, and then open the dog-house, the device begins to throw the material, when pivot axis pole 61 rotated, the top of deformation brush board head 64 constantly contacted the friction with the surface of throwing material device 1, and then will be stained with and attach and sweep away at the rubble residue of throwing material device 1 surface, prevent that the rubble residue from causing the problem of throwing the transmission card shell of material device 1.

When the feeding device 1 carries out feeding work, the power motor 63 controls the power rotating shaft 14 to rotate through the small-sized transmission belt 53, the power rotating shaft 14 controls the double-port transmission belt 12 to rotate through friction force when rotating, when the feeding ports on two sides of the double-port transmission belt 12 are communicated with two ends of the guide sleeve 11, the feeding ports are opened, iron ore in the storage barrel 3 falls out from the bottom end of the storage barrel 3 to finish feeding work, the feeding work can be finished easily by using the device, a user can control the power motor 63 to ensure that the feeding ports on two sides of the double-port transmission belt 12 are not completely communicated, the effective diameter of the feeding ports is changed, the feeding amount of ore is controlled, the feeding speed is changed, if the feeding is required to be stopped, the user can control the power motor 63 to ensure that the feeding ports on two sides of the double-port transmission belt 12 are completely staggered, and at the moment, the bottom end of the storage barrel 3 is contacted with the upper surface of the double-port transmission belt 12, the double-port conveying belt 12 blocks the bottom end of the storage barrel 3, and the device stops feeding.

When the feeding ports on the two sides of the double-port conveyor belt 12 are staggered, a small part of iron ore in the storage barrel 3 can remain in the gap of the feeding ports of the double-port conveyor belt 12, in order to clear the part of iron ore, a residual slag push plate 7 is arranged, when the double-port conveyor belt 12 rotates clockwise, the lower surface of the double-port conveyor belt 12 pushes the sliding push head 72 rightwards through the power push bar 73, the segmented spring rod 74 is compressed, the iron ore falls on the left side of the power push bar 73, when the double-port conveyor belt 12 resets next time, the sliding push head 72 slides leftwards under the thrust action of the segmented spring rod 74, the iron ore on the left side of the power push bar 73 is pushed into the guide sleeve 11, the cleaning work of the iron ore is completed, and the outer surface of the double-port conveyor belt 12 is prevented from being scratched by the residual iron ore.

In the feeding process, the iron ore in the storage barrel 3 continuously passes through the guide sleeve 11 under the action of gravity, the bearing shifting plate 82 rotates clockwise after receiving the impact force of the iron ore, the reset spring belt 83 is compressed, the top of the left side of the bearing shifting plate 82 is disconnected with the inner cavity of the connecting force arm 13, the connecting force arm 13 is fixed at the moment, the guide sleeve 11 is prevented from offsetting, after the feeding of the iron ore in the storage barrel 3 is finished, the bearing shifting plate 82 does not receive the impact force of the iron ore, the bearing shifting plate 82 resets, the top of the left side of the bearing shifting plate 82 is communicated with the inner cavity of the connecting force arm 13, the connecting force arm 13 has the trend of extending two ends, and the position of the guide sleeve 11 is unchanged, so that the other end of the connecting force arm 13 clamps the power rotating shaft 14, the power rotating shaft 14 cannot rotate, at the moment, a user cannot control the rotation of the double-port conveyor belt 12, and the user can observe the inside of the storage barrel 3, the iron ore in the storage barrel 3 is rapidly judged to be exhausted and needs to be supplemented in advance.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. The utility model provides a throw material device that is arranged in material groove of steel processing, is including throwing material device (1), its characterized in that: a feeding port is formed in the middle of an inner cavity of the feeding device (1), the upper surface of the feeding device (1) is connected with a storage barrel (3) through the feeding port in a sliding mode, two sides of the inner cavity of the feeding device (1) are fixedly connected with connecting arms (2), two ends of the feeding device (1) are rotatably connected with power devices (5), and the lower surface of the feeding device (1) is connected with a supporting base (4) in a sliding mode;

the power device (5) comprises a hollow connecting rod (51), an auxiliary rotating rod (6) is arranged inside the hollow connecting rod (51), two ends of the hollow connecting rod (51) are fixedly connected with transmission guide plates (52), a groove is formed in the inner cavity of each transmission guide plate (52), and a small-sized transmission belt (53) is rotatably connected to the inner cavity of each transmission guide plate (52) through the groove;

throw material device (1) including guide sleeve (11), the equal sliding connection in both ends of guide sleeve (11) has two mouthful conveyer belts (12), the bilateral symmetry of guide sleeve (11) surface is provided with the connection arm of force (13), the one end sliding connection of the connection arm of force (13) has power pivot (14), the last fixed surface of the connection arm of force (13) is connected with dregs push pedal (7), the inner wall fixedly connected with automatic switch (8) of guide sleeve (11).

2. The charging device for the material tank in the steel processing according to the claim 1 is characterized in that: the top of linking arm (2) surface and the fixed surface of storage vat (3) are connected, the bottom of linking arm (2) surface and the fixed surface who throws material device (1) are connected, the both ends of supplementary bull stick (6) all extend to the outside of fretwork connecting rod (51), the both ends of supplementary bull stick (6) all with one side fixed connection of small-size drive belt (53) inner wall, the opposite side of small-size drive belt (53) inner wall and the one end fixed connection who throws material device (1).

3. The charging device for the material tank in the steel processing according to the claim 1 is characterized in that: the auxiliary rotating rod (6) comprises a rotating shaft rod (61), a pipe sleeve (62) is fixedly connected to the outer surface of the rotating shaft rod (61), a power motor (63) is rotatably connected to two ends of the outer surface of the rotating shaft rod (61), and a variable brush head (64) is uniformly and fixedly connected to the outer surface of the pipe sleeve (62).

4. The charging device for the material tank in the steel processing according to the claim 3 is characterized in that: the outer surface of the power motor (63) is fixedly connected with the inner wall of the hollow connecting rod (51), one end of an output shaft of the power motor (63) is fixedly connected with one side of the outer surface of the rotating shaft rod (61), the other end of the output shaft of the power motor (63) is fixedly connected with one side of the inner wall of the small-sized transmission belt (53), and the top end of the outer surface of the deformation brush plate head (64) is in sliding connection with the inner wall of the hollow connecting rod (51).

5. The charging device for the material tank in the steel processing according to the claim 1 is characterized in that: the both ends of two mouthful conveyer belt (12) inner wall all with the surface sliding connection of power pivot (14), the both ends of power pivot (14) all extend to the outside of two mouthful conveyer belt (12).

6. The charging device for the material tank in the steel processing according to the claim 5 is characterized in that: the two ends of the power rotating shaft (14) are respectively fixedly connected with one side of the inner wall of the small-sized transmission belt (53), and the automatic switch (8) is fixedly connected with the inner cavity of the connecting force arm (13) through a lead.

7. The charging device for the material tank in the steel processing according to the claim 5 is characterized in that: the scum push pedal (7) includes plate frame (71), the right side fixedly connected with segmentation spring beam (74) of plate frame (71) inner wall, the left end fixedly connected with of segmentation spring beam (74) slides and pushes away head (72), the left side of sliding and pushing away head (72) surface has power to push away strip (73) through the gear shaping groove joint.

8. The charging device for the material tank in the steel processing according to the claim 7 is characterized in that: the lower surface of sheet frame (71) and the upper surface fixed connection who is connected the arm of force (13), the both ends of slip pushing head (72) surface all with the inner wall sliding connection of sheet frame (71), the upper surface that the power pushed away strip (73) and the inner wall fixed connection of two mouthful conveyer belt (12).

9. The charging device for the material tank in the steel processing according to the claim 5 is characterized in that: automatic switch (8) are including cavity snap ring (81), the bilateral symmetry of cavity snap ring (81) inner wall is provided with the bearing and dials board (82), the bearing is dialled board (82) surface left bottom fixedly connected with reset spring area (83), the bearing is dialled the left top fixedly connected with wire of board (82) surface.

10. The charging device for the material tank in the steel processing according to the claim 9, characterized in that: one side of cavity snap ring (81) surface and the inner wall fixed connection of guide sleeve (11), the spout has all been seted up to the both sides of cavity snap ring (81) inner chamber, the outside that the spout extended to cavity snap ring (81) is passed through to the one end that board (82) were dialled in the bearing, the left side sliding connection of board (82) surface is dialled with the bearing to the inner wall of cavity snap ring (81), the bottom of reset spring area (83) and the inner wall fixed connection of guide sleeve (11), the inner chamber sliding connection of wire and the arm of force of being connected (13) is passed through on the left top of board (82) surface is dialled in the bearing.