CN219173385U - Material ware is thrown in transportation of electrolysis trough - Google Patents

Abstract

The utility model relates to the technical field of feeding equipment, in particular to a conveying feeder of an electrolytic tank, which comprises two groups of first supporting seats and a group of second supporting seats which are symmetrically distributed left and right, wherein connecting plates are arranged between the second supporting seats and the first supporting seats, and the conveying feeder also comprises: the first roll shaft assembly and the second roll shaft assembly have the same composition structure; the conveying belt is used for connecting the left and right symmetrical sleeve rollers; the connecting assembly is used for connecting the second roll shaft assembly and the second supporting seat in an up-and-down sliding way; and a driving motor for driving one of the rollers. According to the utility model, one sleeve roller rotates and simultaneously drives the guide roller and the other sleeve roller to synchronously rotate, and then the left sleeve roller and the right sleeve roller are connected through the conveying belt, so that the two conveying belts can conveniently move through the work of a single driving motor, and simultaneously, a plurality of substances to be electrolyzed can be conveniently and synchronously conveyed.

Description

Material ware is thrown in transportation of electrolysis trough

Technical Field

The utility model relates to the technical field of feeding equipment, in particular to a conveying feeder of an electrolytic cell.

Background

The electrolytic tank is mainly used for carrying out electrolytic precipitation and extraction on chemical substances, a large amount of substances to be electrolyzed need to be thrown into the electrolytic tank before electrolysis in the electrolytic tank, the conventional material delivery equipment generally adopts a straight-falling delivery mode, or is manually delivered into the electrolytic tank by means of delivery equipment so as to ensure safety, but in the material delivery process, the materials fall into the electrolytic tank vertically and have larger distances from electrolyte in the electrolytic tank, so that the electrolyte is easy to splash, and safety accidents are easy to generate; in view of the above-mentioned drawbacks, some factories use conveyor belts for horizontal feeding, but most of belt conveying mechanisms on conventional conveyors are provided with only a single conveyor belt, and in addition, when conveying large-sized substances to be electrolyzed, the width of the single conveyor belt cannot be adapted to the volume, so that inconvenience is caused; in addition, when the conventional flat belt conveying mechanism conveys for a long time, the conveying belt can be loosened, and the conveying mechanism on the conveyor used in the prior art cannot adjust the tension of the conveying belt.

Disclosure of Invention

The utility model aims to provide a conveying feeder of an electrolytic cell, which aims to solve the defects in the prior art.

The technical scheme of the utility model is as follows: the utility model provides a conveying feeder of electrolysis trough, includes two sets of bilateral symmetry distribution's first supporting seat, every group first supporting seat by two bilateral symmetry distribution first supporting seat constitutes, bilateral symmetry two all be equipped with the second supporting seat between the first supporting seat, the second supporting seat with all be equipped with the connecting plate between the first supporting seat, still include:

the first roll shaft assembly and the second roll shaft assembly have the same composition structure;

the conveying belt is used for connecting the left and right symmetrical sleeve rollers;

the connecting assembly is used for connecting the second roll shaft assembly and the second supporting seat in an up-and-down sliding way;

and a driving motor for driving one of the rollers.

As the preferable technical scheme, the first roll shaft assembly comprises a guide roll, a limiting ring is arranged at the middle position of the outer part of the guide roll, and sleeve rolls which are symmetrically distributed are arranged at the outer part of the guide roll and positioned at the two sides of the limiting ring.

As the preferable technical scheme, the inner wall of the sleeve roller is attached to the outer wall of the guide roller, the outer diameter of the limiting ring is identical with the outer diameter of the sleeve roller, and the sleeve roller is in sliding connection with the guide roller.

As the preferable technical scheme, the inner wall of the sleeve roller, which is close to one end of the limiting ring, is provided with a plurality of guide blocks which are in annular arrays, and the outer wall of the guide roller is provided with guide grooves which are in sliding connection with the guide blocks.

As the preferable technical scheme, the linking assembly comprises rectangular plates symmetrically distributed at two ends of the second roll shaft assembly, and the rectangular plates are connected with the corresponding second supporting seats through linking blocks.

As the preferable technical scheme, the lateral wall of second supporting seat all seted up with link up piece sliding connection's removal groove, two the inside in removal groove is equipped with threaded rod and locating lever respectively.

As the preferable technical scheme, two conical gears meshed with each other are arranged on the inner wall of the bottom end of the movable groove corresponding to the threaded rod, and the bottom end of the threaded rod penetrates through and is fixedly connected with the corresponding conical gear.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the two symmetrically distributed sleeve rollers are sleeved outside the guide roller, and then the guide block and the guide groove are matched for use, so that one sleeve roller can rotate and simultaneously drive the guide roller and the other sleeve roller to synchronously rotate, and then the left sleeve roller and the right sleeve roller are connected through the conveying belt, so that the two conveying belts can conveniently move through the work of a single driving motor, and the synchronous conveying of a plurality of substances to be electrolyzed is facilitated while the electric power resource is saved;

2. according to the utility model, the guide blocks are in sliding connection with the guide grooves so as to adjust the distance between the front sleeve roller and the rear sleeve roller, and then the distance between the opposite sides of the two conveying belts is adjusted so as to adapt to the transmission of substances to be electrolyzed with different volumes, thereby expanding the application range;

3. according to the utility model, the end part of the second roll shaft assembly is rotationally connected through the rectangular plate, and then the sliding connection of the connecting block and the moving groove is utilized, so that the height of the second roll shaft assembly is adjusted, and the tension of the conveying belt is adjusted.

Drawings

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

FIG. 2 is a schematic view of a portion of the structure of the present utility model;

FIG. 3 is a second schematic diagram of a portion of the structure of the present utility model;

FIG. 4 is a schematic view of a portion of a second support seat according to the present utility model;

FIG. 5 is a schematic view of a first roller assembly of the present utility model with a sleeve cut;

FIG. 6 is a schematic view of a partial structure of a sleeve roller of the present utility model after being cut away;

fig. 7 is an enlarged schematic view of the structure a in fig. 4 according to the present utility model.

The meaning of each reference numeral in the figures is:

1. a first support base; 11. a mounting plate; 12. a connecting plate; 13. a driving motor;

2. a second support base; 21. a moving groove; 211. a threaded rod; 212. a positioning rod; 213. a bevel gear; 2131. a hand wheel;

3. a first roller assembly; 31. a guide roller; 311. a guide groove; 3111. a guide rod; 32. a limiting ring; 33. sleeving rollers; 331. a guide block;

4. a second roller assembly;

5. a conveyor belt;

6. a rectangular plate; 61. and (5) connecting the blocks.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-7, the present utility model provides a technical solution:

the utility model provides a conveying feeder of electrolysis trough, including two sets of bilateral symmetry's first supporting seat 1, every first supporting seat 1 of group comprises two bilateral symmetry's first supporting seat 1, all be equipped with second supporting seat 2 between two bilateral symmetry's the first supporting seat 1, all be equipped with connecting plate 12 between second supporting seat 2 and the first supporting seat 1, the both ends of connecting plate 12 respectively rather than corresponding second supporting seat 2 and first supporting seat 1 fixed connection, the bottom of second supporting seat 2 and first supporting seat 1 all is equipped with mounting panel 11, mounting panel 11 passes through rag bolt and ground fixed connection, accessible mounting panel 11 is used with rag bolt's cooperation after the distance adjustment between two second supporting seats 2 and the front and back corresponding first supporting seat 1 to its position is fixed, thereby realize the fixed to the front and back both ends distance of first roller subassembly 3 and second roller subassembly 4, still include:

the two first roll shaft assemblies 3 and one second roll shaft assembly 4, wherein the first roll shaft assemblies 3 are positioned between the two first supporting seats 1 corresponding to each other in the front-back direction and close to the top end position, the second roll shaft assemblies 4 are positioned between the two second supporting seats 2 and close to the top end position, and the first roll shaft assemblies 3 and the second roll shaft assemblies 4 have the same composition structure;

specifically, the first roller shaft assembly 3 includes a guide roller 31, a limiting ring 32 is disposed in a middle position outside the guide roller 31, symmetrically distributed sleeve rollers 33 are disposed on two sides of the limiting ring 32 outside the guide roller 31, two sleeve rollers 33 are opposite to each other and are respectively connected with the corresponding first supporting seat 1 in a rotating manner, a plurality of guide blocks 331 in an annular array are disposed on an inner wall of the sleeve roller 33 near one end of the limiting ring 32, a guide groove 311 in sliding connection with the guide blocks 331 is disposed on an outer wall of the guide roller 31, so that the guide groove 311 is blocked by the guide blocks 331, and then the corresponding guide roller 31 can be driven to rotate when the sleeve roller 33 rotates;

further, the inner wall of the sleeve roller 33 is attached to the outer wall of the guide roller 31, the outer diameter of the limit ring 32 is consistent with the outer diameter of the sleeve roller 33, the sleeve roller 33 is slidably connected with the guide roller 31 so as to adjust the relative position between the sleeve roller 33 and the guide roller 31, thereby increasing the distance between the opposite sides of the two sleeve rollers 33, the end parts of the guide grooves 311 are not communicated with the outside, and the guide blocks 331 are prevented from being separated from the corresponding guide grooves 311 when moving in the guide grooves 311, so that the sleeve roller 33 is separated from the guide roller 31;

in addition, guide bars 3111 are disposed inside the guide grooves 311, and the guide bars 3111 are slidably connected to the corresponding guide blocks 331 so as to further limit the movement track of the guide blocks 331;

the conveying belt 5 is used for connecting the left and right symmetrical sleeve rollers 33, the conveying belt 5 is provided with two, and the inner wall of the conveying belt 5 is contacted with the outer wall of the corresponding sleeve roller 33, so that when one sleeve roller 33 rotates, the conveying belt 5 can drive the other sleeve roller 33 corresponding to the one sleeve roller to rotate, and the conveying of objects placed on the top of the conveying belt 5 is realized;

the connecting assembly is used for connecting the second roll shaft assembly 4 and the second supporting seat 2 in an up-down sliding way, and comprises rectangular plates 6 symmetrically distributed at two ends of the second roll shaft assembly 4, and the rectangular plates 6 are connected with the corresponding second supporting seats 2 through connecting blocks 61;

as a preference of this embodiment, the side walls of the second supporting seat 2 are provided with moving grooves 21 slidably connected with the engaging blocks 61, the inside of each moving groove 21 is respectively provided with a threaded rod 211 and a positioning rod 212, the end parts of the threaded rods 211 are rotationally connected with the inner walls of the end parts of the corresponding moving grooves 21, the threaded rods 211 are in threaded connection with the corresponding engaging blocks 61, the end parts of the positioning rods 212 are fixedly connected with the inner walls of the end parts of the corresponding moving grooves 21, and the positioning rods 212 are slidably connected with the corresponding engaging blocks 61;

further, two conical gears 213 meshed with each other are arranged on the inner wall of the bottom end of the moving groove 21 corresponding to the threaded rod 211, the bottom end of the threaded rod 211 passes through the conical gear 213 corresponding to the threaded rod and is fixedly connected with the conical gear 213, a connecting rod is fixedly connected to the center of the other conical gear 213, and one end of the connecting rod, which is far away from the conical gear 213, passes through the inner wall of the second supporting seat 2 corresponding to the conical gear and is provided with a hand wheel 2131;

the driving motor 13 is used for driving one of the sleeve rollers 33, the driving motor 13 is arranged on the side wall of one of the first supporting seats 1, one sleeve roller 33 corresponding to the driving motor 13 is coaxially connected with the output shaft of the driving motor 13 through a rotating shaft, and the rotating shaft and the corresponding sleeve roller 33 are driven to rotate after the driving motor 13 is powered, as is well known to a person skilled in the art;

it should be noted that, the rotating shaft is connected with the corresponding first supporting seat 1 through a bearing, so as to reduce the friction resistance of the rotating shaft in the rotating process.

When the conveying feeder of the electrolytic tank is used, the first supporting seat 1 and the second supporting seat 2 at the front side or the rear side are pulled to move towards one end far away from the first supporting seat 1 and the second supporting seat 2 at the other side, the sleeve roller 33 moves towards one side far away from the limiting ring 32 outside the corresponding guide roller 31 while the first supporting seat 1 moves, meanwhile, the plurality of guide blocks 331 corresponding to the inner wall of the sleeve roller 33 synchronously move in the corresponding guide grooves 311 along the axial direction of the corresponding guide rod 3111, so that the distance between the two ends of the front and rear first roller shaft assemblies 3 is adjusted, the first supporting seat 1 drives the second supporting seat 2 to synchronously move through the connecting plate 12 while moving, the distance between the two ends of the second roller shaft assemblies 4 is adjusted, and then the positions of the mounting plates 11 are fixed through the foundation bolts, so that the distance between the two ends of the first roller shaft assemblies 3 and the second roller shaft assemblies 4 is fixed;

then the rotating shaft and the corresponding sleeve roller 33 are driven to rotate by the driving motor 13, and then the guide block 331 is clamped in the guide groove 311, so that the front sleeve roller 33 and the rear sleeve roller 33 and the corresponding guide roller 31 can synchronously rotate, and meanwhile, the sleeve roller 33 can drive the other sleeve roller 33 parallel to the conveying belt 5 to rotate by being matched with the conveying belt 5, so that the two first roller shaft assemblies 3 synchronously rotate, and in addition, the outer wall of the second roller shaft assembly 4 is attached to the inner wall of the conveying belt 5, so that the conveying belt 5 can drive the second roller shaft assembly 4 to synchronously rotate when conveying objects;

when the conveyer belt 5 is conveyed for a long time and is loosened, the hand wheel 2131 is manually rotated, then the connecting rod drives the two bevel gears 213 meshed with each other to rotate, so that the threaded rod 211 is driven to synchronously rotate, then one connecting block 61 in threaded connection with the threaded rod 211 moves downwards in the corresponding moving groove 21 along the axial direction of the threaded rod 211, meanwhile, the other connecting block 61 moves downwards in the corresponding moving groove 21 along the axial direction of the positioning rod 212, and the connecting block 61 moves and simultaneously drives the rectangular plate 6 corresponding to the connecting block to move, so that the second roll shaft assembly 4 moves downwards synchronously and pushes the inner wall of the bottom end of the conveyer belt 5 downwards, and the conveyer belt 5 is tightened.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a conveying feeder of electrolysis trough which characterized in that: including two sets of bilateral symmetry first supporting seat (1), every group first supporting seat (1) by two bilateral symmetry distribution first supporting seat (1) are constituteed, two of bilateral symmetry all be equipped with second supporting seat (2) between first supporting seat (1), second supporting seat (2) with all be equipped with connecting plate (12) between first supporting seat (1), still include:

the device comprises two first roll shaft assemblies (3) and one second roll shaft assembly (4), wherein the first roll shaft assemblies (3) and the second roll shaft assemblies (4) have the same composition structure;

a conveyor belt (5) for connecting the left and right symmetric rollers (33);

the connecting assembly is used for connecting the second roll shaft assembly (4) and the second supporting seat (2) in an up-and-down sliding way;

and a drive motor (13) for driving one of the rollers (33).

2. The transport feeder of an electrolytic cell of claim 1, wherein: the first roll shaft assembly (3) comprises a guide roll (31), a limiting ring (32) is arranged at the middle position of the outer portion of the guide roll (31), and sleeve rolls (33) which are symmetrically distributed are arranged at the outer portion of the guide roll (31) and located at the two sides of the limiting ring (32).

3. The transport feeder of an electrolytic cell of claim 2, wherein: the inner wall of the sleeve roller (33) is attached to the outer wall of the guide roller (31), the outer diameter of the limiting ring (32) is identical to the outer diameter of the sleeve roller (33), and the sleeve roller (33) is in sliding connection with the guide roller (31).

4. A transport feeder for an electrolytic cell according to claim 3, wherein: the inner wall of the sleeve roller (33) close to one end of the limiting ring (32) is provided with a plurality of guide blocks (331) which are in annular arrays, and the outer wall of the guide roller (31) is provided with guide grooves (311) which are in sliding connection with the guide blocks (331).

5. The transport feeder of an electrolytic cell of claim 1, wherein: the connecting assembly comprises rectangular plates (6) symmetrically distributed at two ends of the second roll shaft assembly (4), and the rectangular plates (6) are connected with the corresponding second supporting seat (2) through connecting blocks (61).

6. The transport feeder of an electrolytic cell of claim 5, wherein: the side walls of the second supporting seat (2) are respectively provided with a moving groove (21) which is in sliding connection with the connecting block (61), and the interiors of the two moving grooves (21) are respectively provided with a threaded rod (211) and a positioning rod (212).

7. The transport feeder of an electrolytic cell of claim 6, wherein: two conical gears (213) meshed with each other are arranged on the inner wall of the bottom end of the moving groove (21) corresponding to the threaded rod (211), and the bottom end of the threaded rod (211) penetrates through the conical gears (213) corresponding to the threaded rod and is fixedly connected with the conical gears.

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