CN219447958U - Device for blanking and feeding electrolytic coverage material - Google Patents

Abstract

The utility model discloses a blanking and feeding device for electrolytic coverage materials, which relates to the field of materials, and comprises a material conveying main body, wherein the material conveying main body is used for storing and outputting materials, a rotary vibration assembly is arranged in the material conveying main body, and the rotary vibration assembly is used for rotating and vibrating the materials; the rotary vibration assembly comprises a fixed support, a vibration rod, rotating parts, an eccentric motor, a rotating motor and a rotating shaft, wherein the fixed support is fixed on a conveying main body, the rotating shaft is positioned at the bottom end of the fixed support, the rotating parts are positioned at two sides of the outer wall of the rotating shaft, the rotating motor is positioned at the bottom of the rotating shaft, the eccentric motor is positioned at the bottom of the rotating motor, and the vibration rod is positioned at the bottom of the eccentric motor. The rotary vibration assembly rotates clockwise in the silo and has a vibration effect on the rotary vibration assembly, so that the rotary vibration assembly can avoid blockage from the interior of the silo, reduce the labor intensity of personnel and improve the working efficiency.

Description

Device for blanking and feeding electrolytic coverage material

Technical Field

The utility model relates to the field of mechanical safety devices, in particular to a device for blanking and feeding electrolytic coverage materials.

Background

Along with the pushing of the new electrolysis process, the labor intensity of personnel is reduced, the mechanization is realized, the auxiliary charging of the multifunctional crown block is used frequently, when the crown block bin is used for charging, the problem that the charging is not carried out due to poor fluidity occurs due to the material reasons, the material needs to be knocked from the blanking pipe manually to slightly flow downwards, the large workload is brought to workers, and meanwhile, the hidden danger of high-altitude operation is large.

In order to solve the problems, the feeding device is additionally arranged, when the feeding device is not used for discharging, the feeding device is used for rotating, dredging the blocking material, reducing manual feeding and avoiding unsafe conditions of equipment.

Disclosure of Invention

Based on this, the present utility model aims to provide a device for blanking and feeding electrolytic coverage materials, so as to solve the technical problems set forth in the background.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the rotary vibration type material conveying device comprises a material conveying main body, wherein the material conveying main body is used for storing materials and outputting the materials, a rotary vibration component is arranged in the material conveying main body, and the rotary vibration component is used for rotating and vibrating the materials;

the rotary vibration assembly comprises a fixed support, a vibration rod, rotating parts, an eccentric motor, a rotating motor and a rotating shaft, wherein the fixed support is fixed on a conveying main body, the rotating shaft is located at the bottom end of the fixed support, the rotating parts are located at two sides of the outer wall of the rotating shaft, the rotating motor is located at the bottom of the rotating shaft, the eccentric motor is located at the bottom of the rotating motor, the vibration rod is located at the bottom of the eccentric motor, and the rotating motor drives the rotating shaft to work so as to drive the rotating parts to rotate around the circle center.

Through adopting above-mentioned technical scheme, through the rotatory vibrations effect of rotatory vibrations subassembly to improve the mobility of the inside material of silo, reduce the possibility that takes place to block up.

The utility model is further arranged that the rotating shaft is connected with the fixed support at the top through the fixed buckle, the rotating shaft is connected with the rotating motor inside the bottom box, the inner sides of the tops of the two groups of rotating parts are fixed on two sides of the outer wall of the rotating shaft, and the bottom ends of the two groups of rotating parts are connected with each other through the fixed ring.

By adopting the technical scheme, the stability of the rotating part is enhanced.

The utility model is further characterized in that a box body is fixed at the bottom of the rotary motor, an eccentric motor is fixed in the box body, a vibrating rod is connected to the bottom of the eccentric motor, and the vibrating rod consists of a vibrating column and a vibrating tube.

By adopting the technical scheme, the vibration effect of the eccentric motor on the vibration rod of the eccentric motor is realized.

The utility model further provides that the pushing assembly is arranged in the material conveying main body pipeline and comprises a track frame, a baffle plate, a bottom plate, a rotating wheel and a fixed column, the fixed column is fixed on the inner pipe wall of the material pipeline and fixedly connected with the driving motor, the rotating wheel is positioned on the side face of the driving motor, the baffle plate is positioned in the material pipeline, the track frame is fixed on the side face of the baffle plate, the bottom plate is fixed on the side face of the track frame, and the track of the track frame is in contact with the rotating wheel.

By adopting the technical scheme, the effect of forward movement of the baffle through the rotation of the rotating wheel is achieved.

The utility model is further arranged that the track frame is divided into four groups, one side of the track frame is fixed at the corner of the baffle plate, the track frame is divided into four groups, one side of the track frame is fixed at the corner of the bottom plate, and the driving motor is connected with the rotating wheels at two sides through the rotating shaft.

By adopting the technical scheme, the displacement effect that the rotating wheel rotates to drive the track frame is realized.

The utility model further provides that the bottom end of the material conveying main body pipeline is provided with the buffer assembly, the buffer assembly comprises a box body, a buffer pad and a spring, the box body is fixed at the bottom of the material pipeline, the spring is arranged at the bottom surface inside the box body, and the buffer pad is fixed at the top end of the spring.

Through adopting above-mentioned technical scheme, reach between the material with the effect of pipeline striking reduce the damaged risk of pipeline.

The utility model further provides that the material conveying main body comprises a silo, a discharging opening, a motor, a screw rod, a feeding pipe and a material pipeline, wherein the silo is positioned at the top end of the feeding pipe and is fixedly connected with the feeding pipe, the material pipeline is fixed at the bottom end of the feeding pipe, the discharging opening is arranged at the bottom of the material pipeline, the screw rod is arranged in the material pipeline, and the motor is arranged at the top end of the screw rod.

By adopting the technical scheme, the effect of basically storing materials and conveying the materials is realized.

The utility model is further arranged that the screw rod is positioned in the material pipeline, the screw rod penetrates through the material pipeline and is connected with the motor, and the bottom end of the motor is fixed at the top end of the material pipeline.

By adopting the technical scheme, the effect of discharging the material in the driving pipeline out of the feed opening is achieved.

In summary, the utility model has the following advantages:

1. the rotary vibration assembly rotates clockwise in the silo and gives a vibration effect to the rotary vibration assembly, so that the rotary vibration assembly avoids blockage from the interior of the silo, reduces labor intensity of personnel and improves working efficiency;

2. according to the utility model, through the matched use of the buffer assembly and the pushing assembly, the risk of pipeline damage caused by long-term impact of materials on the pipeline is reduced, the dredging and blocking materials are improved, the manual feeding is reduced, and the unsafe condition of equipment is avoided.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a cross-sectional view of a material conduit of the present utility model;

FIG. 3 is a schematic view of a rotary vibration assembly according to the present utility model;

FIG. 4 is a schematic view of the propulsion assembly of the present utility model;

FIG. 5 is a cross-sectional view of a cushioning assembly of the present utility model;

fig. 6 is a schematic diagram of the structure of the enlarged view of fig. 2 a according to the present utility model.

In the figure: 100. a material conveying main body; 200. a rotary vibration assembly; 400. a buffer assembly; 300. a propulsion assembly;

101. a silo; 102. a feed opening; 103. a motor; 104. a screw rod; 105. a feed pipe; 106. a material pipe;

201. a fixed bracket; 202. a vibrating rod; 203. a rotating member; 204. an eccentric motor; 205. a rotating electric machine; 206. a rotating shaft;

301. a track frame; 302. a baffle; 303. a bottom plate; 304. a rotating wheel; 305. fixing the column; 306. a driving motor;

401. a case; 402. a cushion pad; 403. and (3) a spring.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the utility model.

Hereinafter, an embodiment of the present utility model will be described in accordance with its entire structure.

The device for blanking and feeding the electrolytic coverage material comprises a material conveying main body 100, wherein a rotary vibration assembly 200 is fixed in the material conveying main body 100 and is used for realizing the effect of rotating and vibrating the interior of a silo 101, as shown in fig. 1 to 6.

On the basis of the structure, the inside of the silo 101 is provided with the rotary vibration assembly 200 consisting of the fixed support 201, the vibration rod 202, the rotary part 203, the eccentric motor 204, the rotary motor 205 and the rotating shaft 206, so that the material in the silo 101 cannot be blocked and cannot pass through the feeding pipe 105, as shown in fig. 3, the vibration rod 202 connected by the driving of the eccentric motor 204 generates a vibration effect, and the rotary part 203 connected with the rotating shaft 206 is driven by the rotary motor 205 to achieve the effect of rotating around the inside of the silo 101.

The internal structure and connection mode of the rotary vibration assembly 200 can also adopt other structures and connection modes, so long as the stirring vibration effect on the materials in the silo 101 can be achieved.

On the basis of the structure, the propulsion assembly 300 is composed of a track frame 301, a baffle plate 302, a bottom plate 303, a rotating wheel 304, fixing columns 305 and a driving motor 306, wherein the propulsion assembly 300 is positioned in a material pipeline 106, as shown in fig. 2 and 3, the driving motor 306 drives the rotating wheel 304 through a driving rotating shaft, so that the rotating wheel 304 transversely moves in four groups of track frames 301, the baffle plate 302 moves forwards to push and reset materials, and one ends of the upper fixing column 305 and the lower fixing column 305 are respectively fixed on the driving motor 306 and the material pipeline 106, so that the rotating wheel 304 is positioned at an origin for rotation.

Other connection and connection methods may be used for the internal structure and connection of the propulsion assembly 300, so long as the propulsion effect on the material in the material pipe 106 is achieved.

On the basis of the structure, the buffer assembly 400 is composed of the box 401, the buffer pad 402 and the springs 403, as shown in fig. 2 and 3, the buffer assembly 400 is located at the bottom of the material pipeline 106, materials firstly pass through the buffer pad 402 and then fall into the material pipeline 106 after entering the material pipeline 106 through the feeding pipe 105, the risk of impacting the pipeline between the materials is avoided, the buffer pad 402 is pressed into the box 401 through the upper part of the buffer assembly 400 when the pushing assembly 300 is pushed forward, and when the pushing assembly 300 is reset, four groups of springs 403 located in the box 401 move upwards to reset the buffer pad 402.

During the use, throw into the material inside the silo 101, rotatory vibrations subassembly 200 effectively makes the interior no jam condition of silo 101, avoids striking the pipeline to cause the damaged risk between the material through buffer assembly 400, and the material that pushes forward and the rotation of screw rod 104 makes the condition of material jam pipeline with the inside material of pipeline through propulsion assembly 300.

Although embodiments of the utility model have been shown and described, the detailed description is to be construed as exemplary only and is not limiting of the utility model as the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and modifications, substitutions, variations, etc. may be made in the embodiments as desired by those skilled in the art without departing from the principles and spirit of the utility model, provided that such modifications are within the scope of the appended claims.

Claims (8)

1. The utility model provides a device of electrolysis overburden unloading throw material, includes defeated material main part (100), defeated material main part (100) are used for depositing the material and export its characterized in that: a rotary vibration assembly (200) is arranged in the material conveying main body (100), and the rotary vibration assembly (200) is used for rotating and vibrating materials;

the rotary vibration assembly (200) comprises a fixed support (201), a vibration rod (202), rotating parts (203), an eccentric motor (204), rotating motors (205) and a rotating shaft (206), wherein the fixed support (201) is fixed on a conveying main body (100), the rotating shafts (206) are located at the bottom ends of the fixed support (201), the rotating parts (203) are located at two sides of the outer wall of the rotating shafts (206), the rotating motors (205) are located at the bottom of the rotating shafts (206), the eccentric motor (204) is located at the bottom of the rotating motors (205), the vibration rod (202) is located at the bottom of the eccentric motor (204), and the rotating motors (205) drive the rotating shafts (206) to do work so as to drive the rotating parts to rotate around the circle centers.

2. The electrolytic coating material discharging and feeding device according to claim 1, wherein: the rotating shaft (206) is connected with a fixed support arranged at the top through a fixed buckle, the rotating shaft (206) is connected with a rotating motor (205) arranged in a bottom box body, two groups of rotating parts (203) are fixed on two sides of the outer wall of the rotating shaft (206) on the inner side of the top, and the bottom ends of the two groups of rotating parts (203) are connected with each other through a fixed ring.

3. The electrolytic coating material discharging and feeding device according to claim 1, wherein: the rotary motor (205) bottom is fixed with the box, the inside eccentric motor (204) that is fixed with of box, eccentric motor (204) bottom is connected with vibrations pole (202), vibrations pole (202) are by vibrations post and vibrating tube constitution.

4. The electrolytic coating material discharging and feeding device according to claim 1, wherein: the conveying main body (100) pipeline is internally provided with a propelling component (300), the propelling component (300) comprises a track frame (301), a baffle (302), a bottom plate (303), a rotating wheel (304), a fixed column (305) and a driving motor (306), the fixed column (305) is fixed on the inner pipe wall of the material pipeline (106), the fixed column (305) is fixedly connected with the driving motor (306), the rotating wheel (304) is located on the side face of the driving motor (306), the baffle (302) is located in the material pipeline (106), the track frame (301) is fixed on the side face of the baffle (302), the bottom plate (303) is fixed on the side face of the track frame (301), and the track frame (301) is in contact with the rotating wheel (304).

5. The device for blanking and feeding electrolytic coverage material according to claim 4, wherein: the track frame (301) is divided into four groups, one side of the track frame is fixed at the corner of the baffle plate (302), the track frame (301) is divided into four groups, one side of the track frame is fixed at the corner of the bottom plate (303), and the driving motor (306) is connected with rotating wheels (304) on two sides through rotating shafts.

6. The electrolytic coating material discharging and feeding device according to claim 1, wherein: the conveying main body (100) is characterized in that a buffer assembly (400) is arranged at the bottom end of the pipeline, the buffer assembly comprises a box body (401), a buffer pad (402) and a spring (403), the box body (401) is fixed at the bottom of the material pipeline (106), the spring (403) is arranged at the bottom surface inside the box body (401), and the buffer pad (402) is fixed at the top end of the spring (403).

7. The electrolytic coating material discharging and feeding device according to claim 1, wherein: the material conveying main body (100) comprises a silo (101), a discharging opening (102), a motor (103), a screw rod (104), a feeding pipe (105) and a material pipeline (106), wherein the silo (101) is located at the top end of the feeding pipe (105) and fixedly connected with the feeding pipe, the material pipeline (106) is fixed at the bottom end of the feeding pipe (105), the discharging opening (102) is formed in the bottom of the material pipeline (106), the screw rod (104) is arranged inside the material pipeline (106), and the motor (103) is arranged at the top end of the screw rod (104).

8. The electrolytic coating material discharging and feeding device according to claim 7, wherein: the screw rod (104) is located inside the material pipeline (106), the screw rod (104) penetrates through the material pipeline (106) to be connected to the motor (103), and the bottom end of the motor (103) is fixed to the top end of the material pipeline (106).