CN214439372U - Reducing mechanism for cathode material - Google Patents

Abstract

The utility model discloses a reducing mechanism for negative electrode material, the on-line screen storage device comprises a base, protruding type groove has been seted up to the base upper end, the inside bottom in protruding type groove is close to the intermediate position and is provided with the montant, the cover is equipped with T type pole on the montant, T type pole upper end is provided with branch, and is two sets of the storing box has been placed between the base, the branch upper end is provided with workstation one and workstation two, the spout has all been seted up near the intermediate position to a workstation two lateral walls, the inside guide bar that is provided with of spout, the activity is provided with the slider on the guide bar. This reducing mechanism for cathode material can carry on spacingly to the cathode material well, can continue to treat kibbling cathode material to the inside interpolation of device in the course of the work, and does not need staff's manual interpolation, avoids being injures by a crashing object, can slow down the device effectively and at the vibrations that the during operation produced, avoids the too big inside spill that leads to the crushed cathode material device of vibration range.

Description

Reducing mechanism for cathode material

Technical Field

The utility model relates to an anode material field specifically is a reducing mechanism for anode material.

Background

The cathode material is a raw material for forming a cathode in a battery, the common cathode materials at present comprise a carbon cathode material, a tin-based cathode material, a lithium-containing transition metal nitride cathode material, an alloy cathode material and a nano cathode material, the cathode refers to one end with lower potential in a power supply, the cathode refers to an electrode playing an oxidation role in an original battery, the cathode is written on the left in the battery reaction, and the cathode is a one-pole for electron outflow in a circuit from a physical perspective;

smashing device for the cathode material on the market, it is spacing to be not convenient for carry on to the cathode material mostly, be not convenient for add the cathode material to the device inside in the course of working, need manual the easy injures by a crashing object of adding the cathode material, the shock attenuation effect of device is not good, and the too big cathode material after leading to smashing of vibration range is from the inside spill of device, for this reason, we provide a smashing device for the cathode material.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a reducing mechanism for cathode material to solve the reducing mechanism for cathode material on the market that proposes in the above-mentioned background art, be not convenient for carry on spacingly to cathode material for the most, be not convenient for add cathode material to the device inside in the course of working, it is easy to be injured by a crashing object to need manual adding cathode material, and the shock attenuation effect of device is not good, and the too big problem that leads to the inside spill of the cathode material after smashing from the device of range of vibration.

In order to achieve the above object, the utility model provides a following technical scheme: a crushing device for a negative electrode material comprises a base, wherein a convex groove is formed in the upper end of the base, a vertical rod is arranged at the bottom end of the inner part of the convex groove, close to the middle position, a T-shaped rod is sleeved on the vertical rod, a supporting rod is arranged at the upper end of the T-shaped rod, a storage box is arranged between the two groups of bases, and a first workbench and a second workbench are arranged at the upper end of the supporting rod;

a two lateral walls of workstation are close to the intermediate position and have all seted up the spout, the inside guide bar that is provided with of spout, the activity is provided with the slider on the guide bar, and is two sets of be provided with the push pedal between the slider, the push pedal is close to two one sides of workstation and is provided with places board one, it is provided with a plurality of groups spacing groove one to place board one upper end equidistance, it is provided with places board two to be close to the workstation two position between the one two inside walls of workstation, place two upper end equidistance of board and seted up a plurality of groups spacing groove two, a plurality of groups circular slot have been seted up to two inside walls of workstation, the inside bottom of two workstations is provided with the sieve.

Preferably, the two outer side walls of the workbench are provided with supports close to the middle position, a transverse plate is arranged between the inner side walls of the supports close to the top, a hydraulic telescopic rod is arranged at the bottom end of the transverse plate close to the middle position, and a pressing plate is arranged at the bottom end of the hydraulic telescopic rod.

Preferably, the surface of the vertical rod is wound with a first spring, the T-shaped rod is movably arranged in the convex groove through the cooperation of the first spring and the vertical rod, and the support rod is movably arranged at the upper end of the base through the T-shaped rod.

Preferably, the surface of the guide rod is wound with a second spring at the left position of the sliding block, and the push plate slides left and right along the guide rod through the cooperation of the sliding block and the second spring.

Preferably, the height of the second placing plate is 1/2 the depth of the second workbench, and the first placing plate is movably arranged with the second placing plate through a push plate matching slide block.

Preferably, the circular groove is matched with the limit groove II, the circular groove, the limit groove I and the limit groove II are on the same horizontal line, and the pressing plate is movably arranged above the workbench II through a hydraulic telescopic rod matched with the transverse plate.

Compared with the prior art, the beneficial effects of the utility model are that: the crushing device for the cathode material moves the placing plate I to a position close to the left inner side wall of the workbench I by pushing the push plate I leftwards, the spring I is compressed, then one end of the cathode material is placed in the limiting groove I and clings to one side of the push plate I, then the other end of the cathode material is placed in a second limit groove formed in the second placing plate, then the push plate is loosened, the elastic force of a second spring in the sliding groove pushes the sliding block to move rightwards along the guide rod, the sliding block enables the placing plate to approach one side of the second placing plate through the push plate, in the process, one end of the negative electrode material passes through the corresponding circular groove and moves to the inside of the second workbench and is positioned on the surface of the sieve plate, and along with the continuous crushing of the right end of the negative electrode material, the elasticity of the second spring pushes the push plate to push the rest negative electrode material into the inside of the second workbench, so that the negative electrode material can be continuously added into the inside of the second workbench;

this reducing mechanism for negative material promotes T type pole along montant downwardly moving to protruding type bottom of the groove portion under the effect of pressure at during operation branch, the winding sets up the compression at the spring on montant surface this moment, later the ascending elasticity of spring, promote T type pole rebound, thereby promote branch rebound, through the repeated above-mentioned process, the elasticity of spring one makes T type pole slide from top to bottom in protruding type inslot portion, can slow down the vibrations that the device produced at the during operation effectively, avoid the too big negative material after leading to smashing of vibration range from two inside spills of workstation.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 is a schematic structural view of the workbench of the present invention;

fig. 4 is a schematic view of the internal structure of the middle base of the present invention.

In the figure: 1. a base; 2. a convex groove; 3. a vertical rod; 4. a T-shaped rod; 5. a strut; 6. a storage box; 7. a first workbench; 8. a chute; 9. a guide bar; 10. a slider; 11. pushing the plate; 12. placing the first plate; 13. a first limiting groove; 14. placing a second plate; 15. a second limiting groove; 16. a second workbench; 17. a circular groove; 18. a sieve plate; 19. a support; 20. a transverse plate; 21. a hydraulic telescopic rod; 22. and (7) pressing a plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a crushing device for a negative electrode material comprises a base 1, wherein a convex groove 2 is formed in the upper end of the base 1, a vertical rod 3 is arranged at the bottom end inside the convex groove 2 and close to the middle position, a T-shaped rod 4 is sleeved on the vertical rod 3, a supporting rod 5 is arranged at the upper end of the T-shaped rod 4, a storage box 6 is arranged between the two groups of bases 1, and a first workbench 7 and a second workbench 16 are arranged at the upper end of the supporting rod 5;

a7 both sides wall of workstation is close to the intermediate position and has all seted up spout 8, spout 8 is inside to be provided with guide bar 9, the activity is provided with slider 10 on the guide bar 9, be provided with push pedal 11 between two sets of sliders 10, push pedal 11 is close to workstation two 16 one side and is provided with places board one 12, it is provided with a plurality of groups spacing groove 13 to place board one 12 upper end equidistance, it is provided with places board two 14 to be close to workstation two 16 positions between the two inside walls of workstation one 7, it has seted up a plurality of groups spacing groove two 15 to place board two 14 upper end equidistance, a plurality of groups circular slot 17 have been seted up to workstation two 16 inside walls, the inside bottom of workstation two 16 is provided with sieve 18.

Two 16 lateral walls of workstation are close to the intermediate position and all are provided with support 19, are close to the top position between 19 inside walls of two sets of supports and are provided with diaphragm 20, and diaphragm 20 bottom is close to the intermediate position and is provided with hydraulic telescoping rod 21, and hydraulic telescoping rod 21 bottom is provided with clamp plate 22.

3 surface winding of montant is provided with spring one, T type pole 4 sets up inside convex groove 2 through 3 activities of spring one cooperation montant, branch 5 sets up in base 1 upper end through 4 activities of T type pole, branch 5 promotes T type pole 4 along montant 3 downstream to convex groove 2 bottoms under the effect of pressure, the winding sets up the compression at the spring on montant 3 surface this moment, later the ascending elasticity of spring, promote T type pole 4 upward movement, thereby promote branch 5 upward movement, through repeating the above-mentioned process, the elasticity of spring one makes T type pole 4 slide from top to bottom in convex groove 2 is inside, can slow down the vibrations that the device produced at the during operation effectively, avoid the too big negative pole material after leading to smashing of vibration range from the inside spill of workstation two 16.

A second spring is wound on the surface of the guide rod 9 and positioned at the left side of the sliding block 10, the push plate 11 is matched with the second spring through the sliding block 10 to slide left and right along the guide rod 9, the height of the second placing plate 14 is 1/2 of the depth of the second workbench 16, the first placing plate 12 is matched with the sliding block 10 and is movably arranged with the second placing plate 14 through the push plate 11, the first placing plate 12 is moved to a position close to the left inner side wall of the first workbench 7 by pushing the push plate 11 leftwards, at the moment, the first spring is compressed, then one end of the negative pole material is placed in the first limiting groove 13 and is tightly attached to one side of the push plate 11, then the other end of the negative pole material is placed in the second limiting groove 15 formed in the second placing plate 14, then the push plate 11 is loosened, at the moment, the elastic force of the second spring in the sliding groove 8 pushes the sliding block 10 to move rightwards along the guide rod 9, and the sliding block 10 enables the first placing plate 12 to be close to one side of the second placing plate 14 through the push plate 11, in the process, one end of the negative electrode material moves to the inside of the second worktable 16 through the corresponding circular groove 17.

The circular groove 17 is matched with the second limiting groove 15, the circular groove 17, the first limiting groove 13 and the second limiting groove 15 are on the same horizontal line, the pressing plate 22 is movably arranged above the second worktable 16 through the hydraulic telescopic rod 21 in cooperation with the transverse plate 20, the hydraulic telescopic rod 21 on the transverse plate 20 arranged between the two groups of supports 19 is started to extend, so that the pressing plate 22 is driven to move downwards to the inside of the second worktable 16 to be contacted with the negative electrode material, then the hydraulic telescopic rod 21 is shortened to enable the pressing plate 22 to move upwards, the operation is repeated, the negative electrode material can be hammered, when the size of the crushed negative electrode material particles is smaller than the diameter of a sieve pore on the sieve plate 18, the crushed negative electrode material particles fall into the storage box 6 through the sieve plate 18 to be stored, in the crushing process, the right end of the negative electrode material is continuously crushed, at the moment, the elasticity of the second spring pushes the pushing plate 11 to push the residual negative electrode material into the second worktable 16, so that the negative electrode material can be continuously added to the inside of the second stage 16.

The working principle is as follows: for the crushing device for the cathode material, firstly, an operator places an empty storage box 6 between two groups of bases 1 and is positioned under a sieve plate 18, the operator pushes a push plate 11 leftwards to move a placing plate I12 to a position close to the left inner side wall of a workbench I7, at the moment, a spring I is compressed, then one end of the cathode material is placed in a limiting groove I13 and is tightly attached to one side of the push plate 11, then the other end of the cathode material is placed in a limiting groove II 15 formed in the placing plate II 14, then the push plate 11 is loosened, at the moment, a slide block 10 is pushed by the elasticity of the spring II in a sliding groove 8 to move rightwards along a guide rod 9, the slide block 10 enables the placing plate I12 to be close to one side of a placing plate II 14 through the push plate 11, in the process, one end of the cathode material passes through a corresponding circular groove 17 to move to the inside of the workbench II 16 and is positioned on the surface of the sieve plate 18, then a hydraulic telescopic rod 21 on a transverse plate 20 arranged between two groups of supports 19 is started, the anode material is extended, so that the pressing plate 22 is driven to move downwards to the inside of the second workbench 16 to be contacted with the anode material, then the hydraulic telescopic rod 21 is shortened to enable the pressing plate 22 to move upwards, the operation is repeated, the anode material can be hammered, when the size of the crushed anode material particles is smaller than the diameter of a sieve pore on the sieve plate 18, the crushed anode material particles fall into the storage box 6 through the sieve plate 18 to be stored, in the crushing process, along with the continuous crushing of the right end of the anode material, the elastic force of the second spring pushes the push plate 11 to push the rest anode material into the second workbench 16, so that the anode material can be continuously added into the second workbench 16, the device can vibrate under the hammering of the pressing plate 22 in the working process, the support rod 5 pushes the T-shaped rod 4 to move downwards to the bottom of the convex-shaped groove 2 along the vertical rod 3 under the action of pressure, the first spring wound on the surface of the vertical rod 3 is compressed, then the upward elastic force of the first spring pushes the T-shaped rod 4 to move upwards, so that the supporting rod 5 is pushed to move upwards, the elastic force of the first spring enables the T-shaped rod 4 to slide up and down in the convex groove 2 by repeating the process, vibration generated by the device during working can be effectively reduced, and the phenomenon that crushed negative pole materials are splashed out of the inner part of the second workbench 16 due to the fact that the vibration amplitude is too large is avoided.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an anode material is with reducing mechanism, includes base (1), its characterized in that: the upper end of the base (1) is provided with a convex groove (2), the bottom end of the interior of the convex groove (2) is provided with a vertical rod (3) close to the middle position, the vertical rod (3) is sleeved with a T-shaped rod (4), the upper end of the T-shaped rod (4) is provided with a support rod (5), a storage box (6) is placed between the two groups of bases (1), and the upper end of the support rod (5) is provided with a first workbench (7) and a second workbench (16);

the utility model discloses a slide table, including workstation two (7) inside and outside, workstation two (16) inside and outside, the both sides wall of workstation is close to intermediate position and has all seted up spout (8), spout (8) inside is provided with guide bar (9), the activity is provided with slider (10) on guide bar (9), and is two sets of be provided with push pedal (11) between slider (10), push pedal (11) are close to workstation two (16) one side and are provided with places board one (12), it is provided with a plurality of groups spacing groove one (13) to place board one (12) upper end equidistance, be provided with between workstation one (7) two inside walls and place board two (14) near workstation two (16) position, place board two (14) upper end equidistance and seted up a plurality of groups spacing groove two (15), a plurality of groups circular slot (17) have been seted up to workstation two (16) inside walls, workstation two (16) inside bottom is provided with sieve (18).

2. The negative electrode material pulverizing apparatus according to claim 1, wherein: two lateral walls of workstation two (16) are close to the intermediate position and all are provided with support (19), and are two sets of be close to top position between support (19) the inside wall and be provided with diaphragm (20), diaphragm (20) bottom is close to the intermediate position and is provided with hydraulic telescoping rod (21), hydraulic telescoping rod (21) bottom is provided with clamp plate (22).

3. The negative electrode material pulverizing apparatus according to claim 1, wherein: the surface of the vertical rod (3) is wound with a first spring, the T-shaped rod (4) is movably arranged in the convex groove (2) through the cooperation of the first spring and the vertical rod (3), and the supporting rod (5) is movably arranged at the upper end of the base (1) through the T-shaped rod (4).

4. The negative electrode material pulverizing apparatus according to claim 1, wherein: the surface of the guide rod (9) is provided with a second spring in a winding mode at the position on the left side of the sliding block (10), and the push plate (11) slides left and right along the guide rod (9) through the sliding block (10) in a matching mode with the second spring.

5. The negative electrode material pulverizing apparatus according to claim 1, wherein: the height of the second placing plate (14) is 1/2 of the depth of the second workbench (16), and the first placing plate (12) is movably arranged with the second placing plate (14) through a push plate (11) matched with a sliding block (10).

6. The negative electrode material pulverizing apparatus according to claim 1, wherein: the circular groove (17) is matched with the second limiting groove (15), the circular groove (17), the first limiting groove (13) and the second limiting groove (15) are on the same horizontal line, and the pressing plate (22) is movably arranged above the second workbench (16) through a hydraulic telescopic rod (21) in cooperation with the transverse plate (20).

Images