CN115318560B - Sodium ion battery electrode coating device and operation method - Google Patents

Abstract

The invention discloses a sodium ion battery electrode coating device and an operation method, wherein the sodium ion battery electrode coating device comprises a conveying belt, an electrode plate to be coated, a supporting frame, a hydraulic cylinder and a fixing frame, wherein the conveying belt is fixed on the ground by utilizing a conveying belt frame, the conveying belt runs from left to right, the electrode plate to be coated is placed on the conveying belt, a bracket is arranged at the rear of the conveying belt, the bracket is fixed on the ground by utilizing a bolt, the upper part of the bracket spans the conveying belt, a sensor is arranged on the bracket and used for detecting the electrode plate to be coated, when the electrode plate to be coated moves to the lower part of the bracket, the sensor controls the hydraulic cylinder, a miniature motor and a motor, a storage barrel which is installed by a screw is arranged above the bracket, a feeding box is arranged below the storage barrel, and the hydraulic cylinder is arranged at the top of the storage barrel. The invention has reasonable design, the design of the roller can uniformly coat the material on the electrode plate to be coated, and meanwhile, the material can be quickly replaced when damaged.

Description

Sodium ion battery electrode coating device and operation method

Technical Field

The invention belongs to the field of battery processing, and particularly relates to a sodium ion battery electrode coating device and an operation method.

Background

The sodium ion battery is a secondary battery (rechargeable battery), mainly relies on sodium ion to remove between positive pole and negative pole and works, similar with lithium ion battery theory of operation, the electrode material that sodium ion battery used is the sodium salt, the sodium salt has the characteristics that the reserve is more abundant, the price is cheaper, sodium ion battery electrode need be with sodium salt material coating on the electrode plate when making, current coating device adopts the design when extruding more, the device is complicated and appears the problem and can not carry out quick maintenance, change, and current device needs to cooperate conveyor to use together, current coating device adopts the solenoid valve to control the coating material supply more, solenoid valve frequent opening, close easily appear damaging.

Disclosure of Invention

The invention aims to provide a sodium ion battery electrode coating device and an operation method thereof so as to solve the technical problems.

The invention adopts the following technical scheme for realizing the purposes:

the utility model provides a sodium ion battery electrode coating device, includes conveyer belt, treats coating electrode plate, support, storage bucket, feed box, support frame, pneumatic cylinder, mount, the conveyer belt utilizes the conveyer belt frame to fix subaerial, and the conveyer belt is from left to right operation, has put the electrode plate of treating coating on the conveyer belt, the rear of conveyer belt is equipped with the support, and the support utilizes the bolt fastening subaerial, and the top of support strides conveyer belt design, installs the sensor on the support, and the sensor detects the electrode plate of treating coating, when treating the electrode plate of treating coating to the support below, the sensor controls pneumatic cylinder, micro motor, the top of support is equipped with screw-mounted storage bucket, and the sensor is located the storage bucket below, and feed box is installed at the top of storage bucket, and the pneumatic cylinder carries out pressure regulation by oil pipe, and the below of support is equipped with screw-mounted support frame, and the top of support frame is equipped with screw-mounted mount, and the support frame is on same perpendicular line with the mount.

Preferably, the support frame is L type design, the cylinder is installed to the below of support frame, is equipped with the depression bar on the cylinder, and the depression bar runs through the support frame design, and the depression bar can reciprocate on the vertical direction, has seted up the round hole that supplies the depression bar to pass through on the support frame, and first spring housing is on the depression bar, and first spring is located the support frame top, the depression bar runs through the support, and the push rod is located the depression bar top, and enables the depression bar to descend after push rod and the contact of depression bar, push rod and mount sliding connection have been seted up on the mount and have been supplied the spout of push rod up and down to remove, are equipped with the ring of screw installation on the push rod, and stay cord one end is on the ring, and the other end winding of stay cord is in the axis of rotation, and the rotation axis is connected with micro motor through the axle connector, and micro motor is connected with the mount.

Preferably, the depression bar downwardly moving is with the cylinder downwardly pressing, enables the cylinder and wait to coat the electrode plate contact, the cylinder both ends are equipped with the bracing piece, and the bracing piece warp beam is connected with the cylinder, and the one end that the cylinder was kept away from to the bracing piece is equipped with the column spinner, column spinner and stopper sliding connection, and the stopper is equipped with the pull rod through screw fixation on the vertical board of support frame in the middle of the bracing piece, pull rod and fixed ear hinge, and fixed ear is connected at the bracing piece through screw fixation, and the one end and the pull rod of second spring are connected, and the transverse plate of other end support frame is connected.

Preferably, a feeding pipe is arranged in the feeding box, the feeding pipe is connected with the storage barrel, the feeding box is connected with the support through a hanging rib, a plugging block is arranged on one side of the feeding pipe, the plugging block can move left and right in the feeding pipe, a pushing block is arranged at the right end of the plugging block and is positioned on the same horizontal line, the pushing block is fixed below the rack through a screw, the length of the pushing block is greater than that of one half of the rack, the pushing block is positioned on one side of the rack, the rack is connected with the guide rail through a sliding block, the guide rail is arranged on the inner side wall of the feeding box, the rack is meshed with a gear, the gear is connected with a motor through a coupling, and the motor is fixed in the feeding box through a base.

Preferably, the motor has positive, reverse rotation function, and the both ends of rack all are equipped with the removal rack, all are equipped with the sleeve of screw installation on rack, removal rack, guide bar and telescopic link, and the guide bar both ends all are equipped with integrated into one piece's spacing dish and avoid guide bar and sleeve separation, and the third spring housing is on the guide bar, and the third spring is located between two sleeves, and when the motor clockwise rotation, rack and ejector pad are moved to being close to shutoff piece one side, push away the shutoff piece with the shutoff piece after contact in pushing into the feed pipe.

Preferably, the feeding pipe is provided with a notch for the plugging block to pass through, the inner wall of the feeding pipe far away from one end of the notch is embedded with a first magnet, the plugging block is embedded with a second magnet, the plugging block near one end of the second magnet is provided with an integrally formed anti-drop plate, and the polarities of the first magnet and the second magnet are the same.

Preferably, a disc is arranged in the storage barrel, the disc is connected with a piston rod of the hydraulic cylinder, and a release agent is smeared on the inner wall of the storage barrel.

Compared with the prior art, the invention has the following advantages: the invention has reasonable design; the device uses the conveyer belt to carry out coating, and meanwhile, the conveyer device is not required to be added for transportation, so that the cost is reduced; when coating is needed, the sensor senses the electrode plate to be coated and then pressurizes the hydraulic cylinder to enable the coating material to drop on the electrode plate to be coated, meanwhile, the push rod downwards presses the push rod, the push rod enables the roller to downwards move to be in contact with the electrode plate to be coated, the electrode plate to be coated moves forwards under the action of the conveying belt, and the roller uniformly coats the coating material on the electrode plate to be coated; the roller can adapt to electrode plates to be coated with different thicknesses; the design of the feeding box can enable the motor to rotate anticlockwise when feeding is needed, the motor rotates anticlockwise to enable the gear to rotate anticlockwise, the gear drives the rack to move to the side far away from the blocking block, after the blocking block is far away from the blocking block, the blocking block moves outwards along the notch under the action of repulsive force of the first magnet and the second magnet, the feeding pipe is opened to feed, when the gear is contacted with the movable rack to enable the third spring to compress to enable the movable rack to compress and reset under the action of the gear and the third spring, the motor does not need to be stopped, when the feeding pipe is needed to be blocked, the motor rotates clockwise, the rack and the blocking block move to the side close to the blocking block, the blocking block is pushed to enter the feeding pipe, the blocking block is utilized to block the feeding pipe, and the motor only needs to change the positive and negative directions without frequently starting and stopping the motor, so that the service life of the motor is prolonged; the roller and the compression bar on the support frame are damaged, so that the roller and the compression bar on the support frame can be quickly replaced and maintained, the miniature motor and the push bar of the fixing frame are damaged, and the motor and the rack in the feeding box are damaged, so that the miniature motor, the push bar and the rack can be quickly replaced and maintained.

Drawings

Fig. 1 is a schematic view of a sodium ion battery electrode coating device according to the invention.

Fig. 2 is a schematic diagram of a support frame and a fixing frame of the sodium ion battery electrode coating device of the invention.

Fig. 3 is a schematic view of a roller and a support rod of the electrode coating device for sodium ion batteries.

Fig. 4 is a cross-sectional view of a feed box of a sodium ion battery electrode coating apparatus of the present invention.

Fig. 5 is an exploded view of a rack and a moving rack of the sodium ion battery electrode coating device of the present invention.

Fig. 6 is an exploded view of the feed tube and the block of the sodium ion battery electrode coating device of the present invention.

Fig. 7 is a schematic diagram of a block of a sodium ion battery electrode coating apparatus of the present invention.

Fig. 8 is a sectional view of a bucket of the sodium ion battery electrode coating apparatus of the present invention.

Detailed Description

The invention is described in further detail below with reference to the drawings and the specific examples.

As shown in fig. 1-8, the sodium ion battery electrode coating device comprises a conveying belt 1, an electrode plate 2 to be coated, a bracket 3, a storage barrel 4, a feeding box 5, a supporting frame 6, a hydraulic cylinder 7 and a fixing frame 8, wherein the conveying belt 1 is fixed on the ground by utilizing a conveying belt frame, the conveying belt 1 runs from left to right, the electrode plate 2 to be coated is placed on the conveying belt 1, the bracket 3 is arranged at the rear of the conveying belt 1, the bracket 3 is fixed on the ground by utilizing bolts, the upper part of the bracket 3 spans the conveying belt 1, a sensor is arranged on the bracket 3 and used for detecting the electrode plate 2 to be coated, when the electrode plate 2 to be coated moves to the lower part of the bracket 3, the sensor controls the hydraulic cylinder 7, the miniature motor 14 and the motor 23, the storage barrel 4 mounted by bolts is arranged above the bracket 3 and is positioned below the storage barrel 4, a feeding box 5 is arranged below the storage barrel 4, a hydraulic cylinder 7 is arranged at the top of the storage barrel 4, the hydraulic cylinder 7 is regulated by an oil pipe, a support frame 6 which is installed by a screw is arranged below the support frame 3, a fixing frame 8 which is installed by the screw is arranged above the support frame 3, the support frame 6 and the fixing frame 8 are on the same vertical line, the support frame 6 is of L-shaped design, a roller 9 is arranged below the support frame 6, a pressure lever 10 is arranged on the roller 9, the pressure lever 10 runs through the support frame 6, the pressure lever 10 can move up and down in the vertical direction, a round hole for the pressure lever 10 to pass through is formed on the support frame 6, a first spring 11 is sleeved on the pressure lever 10, the first spring 11 is positioned above the support frame 6, the pressure lever 10 runs through the support frame 3, a push rod 12 is positioned above the pressure lever 10, the push rod 12 can enable the pressure lever 10 to descend after contacting the pressure lever 12 and the pressure lever 10, the push rod 12 is in sliding connection with the fixing frame 8, the fixing frame 8 is provided with a chute for the push rod 12 to move up and down, the push rod 12 is made of a material with higher density, the push rod 12 is provided with a circular ring installed by screws, one end of a pull rope 15 is tied on the circular ring, the other end of the pull rope 15 is wound on a rotating shaft 13, the rotating shaft 13 is connected with a miniature motor 14 through a coupling, the miniature motor is provided with forward and reverse rotation, the miniature motor 14 is connected with the fixing frame 8, a pressure rod 10 moves downwards to press the roller 9 downwards, the roller 9 can be contacted with an electrode plate 2 to be coated, two ends of the roller 9 are provided with support rods 16, the support rods 16 are connected with the roller 9 through shafts, one end of the support rods 16 far away from the roller 9 is provided with a rotating column 20, the rotating column 20 is in sliding connection with a limiting block 19, the limiting block 19 is fixed on a vertical plate of the support frame 6 through screws, a pull rod 17 is arranged in the middle of the support rods 16, the pull rod 17 is hinged with a fixed ear, and the fixed ear is fixed on the support rods 16 through screws, one end of the second spring 18 is connected with the pull rod 17, the transverse plate of the other end supporting frame 6 is connected, a feeding pipe 22 is arranged in the feeding box 5, the inner wall of the feeding pipe is smeared with isolation materials, the feeding pipe 22 is connected with the storage barrel 4, the feeding box 5 is connected with the bracket 3 by a hanging rib, a plugging block 21 is arranged on one side of the feeding pipe 22, the plugging block 21 can move left and right in the feeding pipe 22, a pushing block 26 is arranged at the right end of the plugging block 21, the pushing block 26 and the plugging block 21 are on the same horizontal line, the pushing block 26 is fixed below a rack 25 by screws, the length of the pushing block 26 is greater than one half of the length of the rack 25, the pushing block 26 is positioned on one side of the rack 25, the rack 25 is connected with a guide rail 27 by a sliding block, the guide rail 27 is arranged on the inner side wall of the feeding box 5, the rack 25 is meshed with a gear 24, the gear 24 is connected with a motor 23 by a coupling, the motor 23 is fixed in the feeding box 5 by a base, the motor 23 has positive, reverse rotation function, the both ends of rack 25 all are equipped with the removal rack 28, the rack 25, all be equipped with screw-mounted sleeve 29 on the removal rack 28, guide bar 30 and sleeve 29 are connected, and guide bar 30 both ends all are equipped with integrated into one piece's spacing dish and avoid guide bar 30 and sleeve 29 separation, the third spring 31 cover is on guide bar 30, and third spring 31 is located between two sleeves 29, when motor 23 clockwise rotation, rack 25 and ejector pad 26 remove to being close to the piece 21 side, ejector pad 26 pushes into the piece 21 in the feed pipe 22 after the piece 21 contacts, set up the breach 32 that supplies piece 21 to pass through on the feed pipe 22, inlay on the inner wall of feed pipe 22 that keeps away from breach 32 one end has first magnet 33, inlay on the piece 21 has second magnet 34, be equipped with integrated into one piece's anti-disengaging plate on the piece 21 that is close to second magnet 34 one end, the polarity of first magnet 33 is the same with second magnet 34, install disc 35 in the storage barrel 4, disc 35 is connected with the piston of pneumatic cylinder 7 on the inner wall of storage barrel 4, the coating agent has on the storage barrel.

The operation method of the working sodium ion battery electrode coating device comprises the following steps: the electrode plate 2 to be coated is firstly placed on the conveying belt 1, the electrode plate 2 to be coated moves backwards along with the conveying belt 1, when the electrode plate 2 to be coated moves to the position of the support 3, the sensor senses that the electrode plate 2 to be coated controls the hydraulic cylinder 7 to pressurize the disc 35, coating materials in the storage barrel 4 enter the feeding pipe 22 under the action of pressure, meanwhile, the motor 23 starts to rotate anticlockwise, the gear 24 drives the rack 25 to move towards the side far away from the sealing block 21, after the pushing block 26 is far away from the sealing block 21, the sealing block 21 moves outwards along the notch 32 under the action of the repulsive force of the first magnet 33 and the second magnet 34, the feeding pipe 22 is opened to feed materials, when the gear 24 moves to the position where the moving rack 28 contacts, the gear 24 meshes with the moving rack 28 to enable the third spring 31 to compress, the gear 24 is separated from the moving rack 28, the position of the rack 25 does not change, when the feeding pipe 22 needs to be stopped, the motor 23 rotates anticlockwise, the rack 25 and the pushing block 26 moves towards the side near the sealing block 21, the pushing block 26 pushes the motor 21 to enter the sealing block 21, the feeding pipe 22 to the sealing block 22 to the side, and then the material is uniformly coated with the material is contacted with the push rod 10, and the material is coated by the push rod 2, after the push rod 2 is contacted with the push rod 10, the material is dropped to the sealing block 2, and the material is coated by the roller, after the material is contacted with the sealing rod 10.

The foregoing is a preferred embodiment of the present invention, and it will be apparent to those skilled in the art from this disclosure that changes, modifications, substitutions and alterations can be made without departing from the principles and spirit of the invention.

Claims (2)

1. The utility model provides a sodium ion battery electrode coating device, includes conveyer belt (1), treats coating electrode plate (2), support (3), storage bucket (4), feed box (5), support frame (6), pneumatic cylinder (7), mount (8), its characterized in that, conveyer belt (1) utilize conveyer belt frame to fix subaerial, conveyer belt (1) from left to right operation, have put on conveyer belt (1) and have treated coating electrode plate (2), the rear of conveyer belt (1) is equipped with support (3), and support (3) utilize bolt fastening subaerial, and the top of support (3) strides conveyer belt (1) design, installs the sensor on support (3) and treats coating electrode plate (2), and when treating coating electrode plate (2) to remove to support (3) below, the sensor is controlled pneumatic cylinder (7), micro-motor (14), motor (23) top of support (3) is equipped with screw-installed storage bucket (4), and the sensor is located storage bucket (4) below, and the below of support frame (4) is equipped with feed box (5), and feed cylinder (7) is installed by pneumatic cylinder (7), a fixing frame (8) for mounting screws is arranged above the bracket (3), and the supporting frame (6) and the fixing frame (8) are on the same vertical line; the support frame (6) is of an L-shaped design, a roller (9) is arranged below the support frame (6), a pressing rod (10) is arranged on the roller (9), the pressing rod (10) penetrates through the support frame (6) and can move up and down in the vertical direction, a round hole for the pressing rod (10) to pass through is formed in the support frame (6), a first spring (11) is sleeved on the pressing rod (10), the first spring (11) is arranged above the support frame (6), the pressing rod (10) penetrates through the support (3), a pushing rod (12) is arranged above the pressing rod (10), the pushing rod (12) can enable the pressing rod (10) to descend after being contacted with the pressing rod (10), the pushing rod (12) is in sliding connection with the fixing frame (8), a chute for the pushing rod (12) to move up and down is formed in the fixing frame (8), a round ring for mounting a screw is formed in the pushing rod (12), one end of a pull rope (15) is tied on the round ring, the other end of the pull rope (15) is wound on a rotating shaft (13), and the rotating shaft (13) is connected with the miniature motor (14) through a shaft connector; the pressing rod (10) moves downwards to press the roller (9) downwards, the roller (9) can be in contact with the electrode plate (2) to be coated, supporting rods (16) are arranged at two ends of the roller (9), the supporting rods (16) are connected with the roller (9) through shafts, a rotating column (20) is arranged at one end, far away from the roller (9), of each supporting rod (16), each rotating column (20) is in sliding connection with a limiting block (19), each limiting block (19) is fixed on a vertical plate of the supporting frame (6) through a screw, a pull rod (17) is arranged in the middle of each supporting rod (16), each pull rod (17) is hinged with a fixed lug, each fixed lug is fixed with each supporting rod (16) through a screw, one end of each second spring (18) is connected with each pull rod (17), and the other end of each second spring is connected with a transverse plate of the supporting frame (6); the feeding box (5) is internally provided with a feeding pipe (22), the feeding pipe (22) is connected with the storage barrel (4), the feeding box (5) is connected with the bracket (3) by utilizing a hanging rib, one side of the feeding pipe (22) is provided with a plugging block (21), the plugging block (21) can move left and right in the feeding pipe (22), the right end of the plugging block (21) is provided with a pushing block (26), the pushing block (26) and the plugging block (21) are on the same horizontal line, the pushing block (26) is fixed below the rack (25) through screws, the length of the pushing block (26) is greater than the length of one half of the rack (25), the pushing block (26) is positioned on one side of the rack (25), the rack (25) is connected with the guide rail (27) through a sliding block, the guide rail (27) is arranged on the inner side wall of the feeding box (5), the rack (25) is meshed with the gear (24), the gear (24) is connected with the motor (23) through a coupler, and the motor (23) is fixed in the feeding box (5) through a base; the motor (23) has forward and reverse rotation functions, the two ends of the rack (25) are respectively provided with a movable rack (28), the racks (25) and the movable racks (28) are respectively provided with a sleeve (29) with screw installation, the guide rod (30) is connected with the sleeves (29), the two ends of the guide rod (30) are respectively provided with an integrally formed limit disc for preventing the guide rod (30) from being separated from the sleeves (29), the guide rod (30) is sleeved with a third spring (31), the third spring (31) is positioned between the two sleeves (29), and when the motor (23) rotates clockwise, the racks (25) and the push block (26) move towards the side close to the block (21), and the push block (26) is contacted with the block (21) to push the block (21) into the feed pipe (22); the feeding pipe (22) is provided with a gap (32) for the plugging block (21) to pass through, a first magnet (33) is embedded on the inner wall of the feeding pipe (22) far away from one end of the gap (32), a second magnet (34) is embedded on the plugging block (21), an integrally formed anti-falling plate is arranged on the plugging block (21) close to one end of the second magnet (34), and the polarities of the first magnet (33) and the second magnet (34) are the same.

2. The sodium ion battery electrode coating device according to claim 1, wherein a disc (35) is arranged in the storage barrel (4), the disc (35) is connected with a piston rod of the hydraulic cylinder (7), and a release agent is smeared on the inner wall of the storage barrel (4).