CN114950225A - Lithium cauldron is sunk to high-efficient separation type - Google Patents

Abstract

The invention relates to the technical field of lithium precipitating kettles, in particular to a high-efficiency separation type lithium precipitating kettle, which comprises a base, wherein support frames are arranged at four corners of the top of the base, a support device is arranged in the base, a buffer device is arranged at one end of each support frame, which is far away from the base, the buffer devices are connected through a support plate, and the lithium precipitating kettle penetrates through the support plate; the lithium precipitating kettle is characterized in that a movable groove is formed in the base, a movable opening is formed in the surface of the base and corresponds to the movable groove, the supporting device comprises a pressing block, a pressing rod, a first compression spring, a connecting rod, a supporting block, a socket, an inserting rod, a second compression spring and a driving lever, the first compression spring is arranged in the base, the connecting rod is arranged at the top of the first compression spring, and compared with the existing lithium precipitating kettle, the lithium precipitating kettle can improve the overall convenience, stability and practicability of the lithium precipitating kettle through design.

Description

Lithium cauldron is sunk to high-efficient separation type

Technical Field

The invention relates to the technical field of lithium precipitation kettles, in particular to a high-efficiency separation type lithium precipitation kettle.

Background

Along with the general promotion of current lithium cell preparation condition, it is more and more common to sink the use of lithium cauldron in the lithium cell preparation, nevertheless current heavy lithium cauldron is not carrying well in the big population, and the heavy lithium cauldron of those good transports is carrying out the displacement that just very easily of during operation, do not fix well, most of do not have buffer in current heavy lithium cauldron, make when using heavy lithium cauldron for a long time, the part that sinks on the lithium cauldron can lead to damaging because of long-time vibrations, in current heavy lithium cauldron, most heavy lithium cauldron is when the stirring, have partly material and the inside bonding of sinking the lithium cauldron, make the material can not be fine mix, consequently, to the improvement of current heavy lithium cauldron, design a novel high-efficient separation type heavy lithium cauldron in order to change above-mentioned technical defect, improve the practicality of whole heavy lithium cauldron, seem especially important.

Disclosure of Invention

The invention aims to provide a high-efficiency separation type lithium precipitation kettle to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a high-efficiency separation type lithium precipitating kettle comprises a base, wherein support frames are arranged at four corners of the top of the base, a support device is arranged in the base, a buffer device is arranged at one end of each support frame, which is far away from the base, the buffer devices are connected through a support plate, and the lithium precipitating kettle penetrates through the support plate;

the interior of the base is provided with a movable groove, the surface of the base corresponding to the movable groove is provided with a movable opening, the supporting device comprises a pressing block, a pressing rod, a first compression spring, a connecting rod, a supporting block, a socket, an inserting rod, a second compression spring and a deflector rod, a first compression spring is arranged in the base, a connecting rod is arranged at the top of the first compression spring, a pressure lever is arranged at the center of the top of the connecting rod, a pressing block is arranged at the top of the pressure lever, a supporting rod is arranged at one side of the connecting rod away from the pressure lever, a supporting block is arranged on one side of the supporting rod penetrating through the bottom of the base, an inserting rod is arranged inside the movable groove, the inserted bar is connected with the movable groove through a second compression spring, the position of the support bar corresponding to the inserted bar is provided with a socket, and the inserted bar is connected with the movable opening through a deflector rod;

the buffer device comprises a buffer block, a buffer seat and buffer springs, wherein the buffer seat is arranged at one end of the support frame, which is far away from the base, the buffer block is inserted in the buffer seat, and the buffer block is connected with the buffer seat through a plurality of groups of buffer springs;

the utility model discloses a lithium ion battery, including supporting disk, lithium cauldron, driving motor, puddler, discharge gate, support groove has been seted up at the top of supporting disk, the top of sinking the lithium cauldron is provided with driving motor, driving motor's expansion end extends to the internal connection who sinks the lithium cauldron and has the puddler, the outside of puddler is provided with scrapes the pole, the bottom of sinking the lithium cauldron is provided with the discharge gate, the inside of sinking the lithium cauldron and the position department that is close to the discharge gate are provided with the screen cloth, the bottom of discharge gate is provided with ejection of compact switch, the outside of sinking the lithium degree is provided with the connecting block.

As a preferable scheme of the invention, the size of the inner structure of the movable groove is in a corresponding structural design with the size of the outer structure of the inserted link.

In a preferred embodiment of the present invention, the outer structural size of the insertion rod and the inner structural size of the socket are designed to correspond to each other.

As the preferable scheme of the invention, the pressing block and the pressing rod are designed into an integrated structure, and the supporting rod and the supporting block are designed into an integrated structure.

As a preferable scheme of the present invention, the insertion rod is connected to the movable groove in a sliding manner, and the shift rod is connected to the movable opening in a sliding manner.

As a preferable scheme of the invention, the size of the external structure of the connecting block and the size of the internal structure of the supporting groove are in corresponding structural design.

As the preferable scheme of the invention, the stirring rod is designed in a spiral structure, and the screen is designed in a rhombic structure.

As a preferable scheme of the invention, the connection mode of the screen and the lithium precipitation kettle is threaded connection, and the connection mode of the discharge port and the lithium precipitation kettle is threaded connection.

As a preferable scheme of the invention, the connecting block and the supporting disc are fixed through bolts, and a feeding hole is formed in the front surface of the lithium precipitation kettle and above the connecting block.

As a preferable scheme of the invention, the connection mode of the buffer block and the buffer seat is sliding connection, and the bottom of the base is provided with universal wheels.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, through the design of the supporting device, when the lithium deposition kettle is supported, a user treads the pressing block by feet, when the user treads the pressing block by feet, the pressing block moves downwards to drive the pressing rod to move downwards, when the pressing rod moves downwards, the pressing rod drives the connecting rod to move downwards, when the pressing rod drives the connecting rod to move downwards, the connecting rod drives the supporting rod to move downwards, so that the supporting rod drives the supporting block to move downwards, after the supporting block is contacted with the ground, a socket in the supporting rod is aligned with the movable groove, when the socket is aligned with the movable groove, the second compression spring loses the compression force, so that the inserting rod is pushed to move inwards to the socket, after the inserting rod is inserted into the socket, the supporting device is fixed, so that the base is supported away from the ground, and when the lithium deposition kettle operates, the base cannot move due to the shaking of the lithium deposition kettle.

2. According to the invention, through the design of the lithium deposition kettle, when the lithium deposition kettle is used, the driving motor is started, when the driving motor operates, the movable end of the driving motor drives the stirring rod to rotate, when the movable end of the driving motor drives the stirring rod to rotate, the stirring rod can stir and mix materials in the lithium deposition kettle, when the stirring rod stirs and mixes the materials in the lithium deposition kettle, the stirring rod drives the scraping rod to move, when the stirring rod drives the scraping rod to move, the scraping rod scrapes the materials extruded on the inner wall of the lithium deposition kettle, so that the stirring rod can stir the materials more fully, as the stirring rod is designed spirally, the stirring rod can convey the materials downwards, when the stirring rod conveys the materials downwards, the screen screens screen the downwards conveyed materials to screen out large materials, and the small materials enter the discharge port through the screen, after the materials are fully filled with the discharged materials, the discharging switch is opened, and the stirred materials are discharged, so that the materials in the lithium precipitation degree can be stirred better.

3. According to the invention, through the design of the buffer device, when the lithium sinking kettle operates, the buffer device has a buffer effect on the lithium sinking kettle, firstly, the lithium sinking kettle can generate vibration when operating, when the lithium sinking kettle generates vibration, the lithium sinking kettle drives the buffer block to displace towards the buffer seat, when the buffer block displaces towards the buffer seat, the buffer block drives the buffer spring to compress, when the buffer block drives the buffer spring to compress, the buffer spring rebounds after compressing to the extreme, so that the buffer spring and the extrusion force are offset, and the buffer effect is realized.

Drawings

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

FIG. 2 is a schematic view of a supporting frame according to the present invention;

FIG. 3 is a schematic structural view of a lithium precipitation kettle according to the present invention;

FIG. 4 is an exploded view of a lithium precipitating tank according to the present invention;

FIG. 5 is a cross-sectional view of a structural cushioning device of the present invention;

FIG. 6 is a cross-sectional view of the base structure of the present invention.

In the figure: 1. a base; 101. a movable groove; 102. a movable opening; 2. a support frame; 3. a support device; 301. briquetting; 302. a pressure lever; 303. a first compression spring; 304. a connecting rod; 305. a support bar; 306. a support block; 307. a socket; 308. inserting a rod; 309. a second compression spring; 310. a deflector rod; 4. a buffer device; 401. a buffer block; 402. a buffer seat; 403. a buffer spring; 5. a support disc; 501. a support groove; 6. a lithium precipitation kettle; 601. a drive motor; 602. a stirring rod; 603. a scraping rod; 604. a discharge port; 605. screening a screen; 606. a discharging switch; 607. connecting blocks; 608. and (4) feeding a material inlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without any creative work based on the embodiments of the present invention belong to the protection scope of the present invention.

While several embodiments of the present invention will be described below in order to facilitate an understanding of the invention, with reference to the related description, the invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather are provided for the purpose of providing a thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present, that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, and that the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the terms used herein in the specification of the present invention are for the purpose of describing particular embodiments only and are not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-6, the present invention provides a technical solution:

a high-efficiency separation type lithium precipitating kettle comprises a base 1, wherein support frames 2 are arranged at four corners of the top of the base 1, a support device 3 is arranged inside the base 1, a buffer device 4 is arranged at one end, away from the base 1, of each support frame 2, the buffer devices 4 are connected through a support plate 5, and a lithium precipitating kettle 6 penetrates through the support plate 5;

the movable groove 101 is arranged in the base 1, the movable opening 102 is arranged on the surface of the base 1 corresponding to the movable groove 101, the supporting device 3 comprises a pressing block 301, a pressing rod 302, a first compression spring 303, a connecting rod 304, a supporting rod 305, a supporting block 306, a socket 307, an inserting rod 308, a second compression spring 309 and a shifting rod 310, the first compression spring 303 is arranged in the base 1, the connecting rod 304 is arranged at the top of the first compression spring 303, the pressing rod 302 is arranged at the center of the top of the connecting rod 304, the pressing block 301 is arranged at the top of the pressing rod 302, the supporting rod 305 is arranged at one side of the connecting rod 304 far away from the pressing rod 302, the supporting block 306 is arranged at one side of the supporting rod 305 penetrating through the bottom of the base 1, the inserting rod 308 is arranged in the movable groove 101, the inserting rod 308 is connected with the movable groove 101 through the second compression spring 309, the socket 307 is arranged at the position of the supporting rod 305 corresponding to the inserting rod 308, the inserting rod 308 is connected with the movable opening 102 through a shifting rod 310;

the buffer device 4 comprises a buffer block 401, a buffer seat 402 and buffer springs 403, the buffer seat 402 is arranged at one end of the support frame 2 far away from the base 1, the buffer block 401 is inserted into the buffer seat 402, and the buffer block 401 is connected with the buffer seat 402 through a plurality of groups of buffer springs 403;

support groove 501 has been seted up at the top of supporting disk 5, the top of sinking lithium cauldron 6 is provided with driving motor 601, driving motor 601's expansion end extends to the internal connection who sinks lithium cauldron 6 has puddler 602, puddler 602's outside is provided with scrapes pole 603, the bottom of sinking lithium cauldron 6 is provided with discharge gate 604, the inside of sinking lithium cauldron 6 and the position department that is close to discharge gate 604 are provided with screen cloth 605, the bottom of discharge gate 604 is provided with ejection of compact switch 606, the outside of sinking lithium degree 6 is provided with connecting block 607.

Furthermore, the inner structure size of the movable groove 101 corresponds to the outer structure size of the inserted link 308.

Further, the outer structure of the plug rod 308 is designed to correspond to the inner structure of the socket 307.

Further, the pressing block 301 and the pressing rod 302 are designed to be an integrated structure, and the supporting rod 305 and the supporting block 306 are designed to be an integrated structure.

Furthermore, the insertion rod 308 is connected with the movable slot 101 in a sliding manner, and the driving lever 310 is connected with the movable opening 102 in a sliding manner.

Furthermore, the external structure size of the connecting block 607 is corresponding to the internal structure size of the supporting groove 501.

Further, the stirring rod 602 is designed in a spiral structure, and the screen 605 is designed in a diamond structure.

Further, the screen 605 and the lithium precipitating kettle 6 are connected by a screw thread, and the discharge port 604 and the lithium precipitating kettle 6 are connected by a screw thread.

Further, the connecting block 607 is fixed with the supporting disk 5 through bolts, and a feed inlet 608 is arranged on the front surface of the lithium deposition kettle 6 and above the connecting block 607.

Further, the connection mode of buffer block 401 and buffer seat 402 is sliding connection, and the bottom of base 1 is provided with the universal wheel.

In an embodiment, referring to fig. 1, 2 and 6, when the supporting device 3 is used, the base 1 is placed stably, after the base 1 is placed stably, the user presses the pressing block 301 with his foot, when the user presses the pressing block 301 with his foot, the pressing block 301 is displaced downward, so as to drive the pressing rod 302 to displace downward, when the pressing rod 302 is displaced downward, the pressing rod 302 drives the connecting rod 304 to displace downward, when the pressing rod 302 drives the connecting rod 304 to displace downward, the connecting rod 304 drives the supporting rod 305 to displace downward, so that the supporting rod 305 drives the supporting block 306 to displace downward, when the supporting block 306 contacts with the ground, the socket 307 in the supporting rod 305 is aligned with the movable groove 101, when the socket 307 is aligned with the movable groove 101, the second compression spring 309 loses the compression force, so as to push the inserting rod 308 to displace into the socket 307, after the inserting rod 308 is inserted into the socket 307, the supporting device 3 is fixed, so as to support the base 1 off the ground, when the lithium precipitating kettle 6 is operated, the base 1 can not displace due to the shaking of the lithium precipitating kettle 6, after the use is finished, the inserted rod 308 is shifted towards the inside of the movable groove 101 through the shift lever 310, the connecting rod 304 drives the first compression spring 303 to compress when the connecting rod 304 displaces downwards, the inserted rod 308 is inserted into the socket 307 to fix the supporting device 3, so that the first compression spring 303 is always kept in a compressed state, when the inserted rod 308 displaces towards the inside of the movable groove 101, the inserted rod 308 is drawn out from the socket 307, so that the inserted rod 308 does not fix the supporting device 3, the force for compressing the first compression spring 303 disappears, after the force for compressing the first compression spring 303 disappears, the first compression spring 303 rebounds, when the first compression spring 303 rebounds, the first compression spring 303 drives the connecting rod 304 to displace upwards, so that the supporting rod 305 displaces upwards, make strutting arrangement 3 not carrying out the supporting role to base 1, after removing the support, can carry lithium cauldron 6 will sinking through the universal wheel on the limit.

In the embodiment, referring to fig. 1, 3 and 4, when the lithium precipitating reactor 6 is operated, firstly, the material is added into the lithium precipitating reactor 6 through the material inlet 608, after the material is added, the driving motor 601 is turned on, when the driving motor 601 is operated, the movable end of the driving motor 601 drives the stirring rod 602 to rotate, when the movable end of the driving motor 601 drives the stirring rod 602 to rotate, the stirring rod 602 stirs and mixes the material in the lithium precipitating reactor 6, when the stirring rod 602 stirs and mixes the material in the lithium precipitating reactor 6, the stirring rod 602 drives the scraping rod 603 to move, when the stirring rod 602 drives the scraping rod 603 to move, the scraping rod 603 scrapes the material extruded on the inner wall of the lithium precipitating reactor 6, so that the stirring rod 602 can stir the material more fully, because the stirring rod 602 is designed in a spiral shape, the stirring rod 602 transports the material downwards, when the stirring rod 602 is used to convey the material downwards, the screen 605 screens the material conveyed downwards to screen out larger pieces of material, while smaller pieces of material enter the discharge port 604 through the screen 605, and after the material fills the discharge port 604, the discharge switch 606 is turned on to discharge the stirred material.

In an embodiment, referring to fig. 1, fig. 2 and fig. 5, when the lithium deposition kettle 6 is in operation, the buffer device 4 buffers the lithium deposition kettle 6, firstly, the lithium deposition kettle 6 generates vibration during operation, when the lithium deposition kettle 6 generates vibration, the lithium deposition kettle 6 drives the buffer block 401 to displace towards the buffer seat 402, when the buffer block 401 displaces towards the buffer seat 402, the buffer block 401 drives the buffer spring 403 to compress, when the buffer block 401 drives the buffer spring 403 to compress, the buffer spring 403 is compressed to the extreme and then rebounded, so as to offset the extrusion force, thereby achieving the buffering effect.

The working process of the invention is as follows: when the lithium deposition kettle 6 is used, firstly, the lithium deposition kettle 6 is placed on the supporting plate 5, the connecting block 607 is placed in the supporting groove 501, after the placement is finished, the lithium deposition kettle 6 is fixed by using bolts, after the fixation is finished, the lithium deposition kettle 6 is transported to a proper position, after the transportation is finished, the base 1 is stably placed, after the base 1 is stably placed, a user steps on the pressing block 301 by using feet, when the user steps on the pressing block 301 by using feet, the pressing block 301 is downwards displaced, so that the pressing rod 302 is driven to downwards displace, when the pressing rod 302 downwards displaces, the pressing rod 302 drives the connecting rod 304 to downwards displace, when the pressing rod 302 drives the connecting rod 304 to downwards displace, the connecting rod 304 drives the supporting rod 305 to downwards displace, so that the supporting rod 305 drives the supporting block 306 to downwards displace, when the supporting block 306 is contacted with the ground, the jack 307 in the supporting rod 305 is aligned with the movable groove 101, when the jack 307 is aligned with the movable groove 101, the second compression spring 309 loses the compression force, so that the insertion rod 308 is pushed to move towards the socket 307, after the insertion rod 308 is inserted into the socket 307, the supporting device 3 is fixed, so that the base 1 is supported away from the ground, when the lithium deposition kettle 6 operates, the base 1 cannot move due to the shaking of the lithium deposition kettle 6, after the fixing is completed, the material is added into the lithium deposition kettle 6 through the feed port 608, after the material is added, the driving motor 601 is started, when the driving motor 601 operates, the movable end of the driving motor 601 drives the stirring rod 602 to rotate, when the movable end of the driving motor 601 drives the stirring rod 602 to rotate, the stirring rod 602 stirs and mixes the material in the lithium deposition kettle 6, when the stirring rod 602 stirs and mixes the material in the lithium deposition kettle 6, the stirring rod 602 drives the scraping rod 603 to move, and when the stirring rod 602 drives the scraping rod 603 to move, the scraping rod 603 scrapes the materials extruded on the inner wall of the lithium deposition kettle 6, so that the stirring rod 602 can stir the materials more fully, the stirring rod 602 is designed in a spiral shape, so that the materials can be conveyed downwards by the stirring rod 602, when the materials can be conveyed downwards by the stirring rod 602, the materials conveyed downwards by the screen 605 are screened out, larger materials are screened out, smaller materials enter the discharge port 604 through the screen 605, after the discharge port 604 is filled with the materials, the discharge switch 606 is opened to discharge the stirred materials, when the operation is performed, the buffer device 4 performs a buffer action on the lithium deposition kettle 6, firstly, the lithium deposition kettle 6 generates vibration during the operation, when the lithium deposition kettle 6 generates vibration, the lithium deposition kettle 6 drives the buffer block 401 to displace towards the buffer seat 402, when the buffer block 401 displaces towards the buffer seat 402, the buffer block 401 drives the buffer spring 403 to compress, when the buffer block 401 drives the buffer spring 403 to compress, the buffer spring 403 rebounds after compressing to the extreme, so as to offset the extrusion force, thereby achieving the buffer effect, after the buffer block is used, the inserting rod 308 is pushed towards the inside of the movable groove 101 through the pushing rod 310, when the connecting rod 304 displaces downwards, the connecting rod 304 drives the first compression spring 303 to compress, and because the inserting rod 308 is inserted into the inserting opening 307 to fix the supporting device 3, thereby keeping the first compression spring 303 in a compressed state all the time, when the inserting rod 308 displaces towards the inside of the movable groove 101, the inserting rod 308 is pulled out from the inserting opening 307, so that the inserting rod 308 does not fix the supporting device 3, so that the force compressing the first compression spring 303 disappears, after the force compressing the first compression spring 303 disappears, the first compression spring 303 rebounds, when the first compression spring 303 rebounds, the first compression spring 303 drives the connecting rod 304 to displace upwards, therefore, the supporting rod 305 moves upwards, the supporting device 3 does not support the base 1, the lithium deposition kettle 6 can be carried through the universal wheels after the support is removed, the whole operation process is simple and convenient, and compared with the existing lithium deposition kettle, the lithium deposition kettle provided by the invention can improve the overall convenience, stability and practicability of the lithium deposition kettle through design.

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 (10)

1. The utility model provides a lithium cauldron is sunk to high-efficient separation type, includes base (1), its characterized in that: four corners of the top of the base (1) are respectively provided with a support frame (2), a support device (3) is arranged inside the base (1), one end of the support frame (2) far away from the base (1) is provided with a buffer device (4), the buffer devices (4) are connected through a support disc (5), and a lithium deposition kettle (6) penetrates through the support disc (5);

the movable groove (101) is formed in the base (1), the movable opening (102) is formed in the surface of the base (1) and in the position corresponding to the movable groove (101), the supporting device (3) comprises a pressing block (301), a pressing rod (302), a first compression spring (303), a connecting rod (304), a supporting rod (305), a supporting block (306), a socket (307), an inserting rod (308), a second compression spring (309) and a shifting rod (310), the first compression spring (303) is arranged in the base (1), the connecting rod (304) is arranged at the top of the first compression spring (303), the pressing rod (302) is arranged at the center of the top of the connecting rod (304), the pressing block (301) is arranged at the top of the pressing rod (302), the supporting rod (305) is arranged at the side, away from the pressing rod (302), of the supporting rod (305) penetrates through the bottom of the base (1), and the supporting block (306) is arranged at the side, an inserting rod (308) is arranged inside the movable groove (101), the inserting rod (308) is connected with the movable groove (101) through a second compression spring (309), a socket (307) is formed in the position, corresponding to the inserting rod (308), of the supporting rod (305), and the inserting rod (308) is connected with the movable opening (102) through a shifting rod (310);

the buffer device (4) comprises a buffer block (401), a buffer seat (402) and buffer springs (403), the buffer seat (402) is arranged at one end, away from the base (1), of the support frame (2), the buffer block (401) is inserted into the buffer seat (402), and the buffer block (401) is connected with the buffer seat (402) through a plurality of groups of buffer springs (403);

support groove (501) have been seted up at the top of supporting disk (5), the top of sinking lithium cauldron (6) is provided with driving motor (601), the expansion end of driving motor (601) extends to the internal connection who sinks lithium cauldron (6) has puddler (602), the outside of puddler (602) is provided with scrapes pole (603), the bottom of sinking lithium cauldron (6) is provided with discharge gate (604), the inside of sinking lithium cauldron (6) and the position department that is close to discharge gate (604) are provided with screen cloth (605), the bottom of discharge gate (604) is provided with ejection of compact switch (606), the outside of sinking lithium degree (6) is provided with connecting block (607).

2. The high-efficiency separation type lithium precipitation kettle according to claim 1, wherein: the size of the internal structure of the movable groove (101) is in a corresponding structural design with the size of the external structure of the inserted rod (308).

3. The high-efficiency separation type lithium precipitation kettle according to claim 1, wherein: the external structure size of the inserted rod (308) and the internal structure size of the socket (307) are designed correspondingly.

4. The high-efficiency separation type lithium precipitation kettle according to claim 1, wherein: the pressing block (301) and the pressing rod (302) are designed into an integrated structure, and the supporting rod (305) and the supporting block (306) are designed into an integrated structure.

5. The high-efficiency separation type lithium precipitation kettle according to claim 1, wherein: the insertion rod (308) is connected with the movable groove (101) in a sliding mode, and the shifting rod (310) is connected with the movable opening (102) in a sliding mode.

6. The high-efficiency separation type lithium precipitation kettle according to claim 1, wherein: the external structure size of the connecting block (607) and the internal structure size of the supporting groove (501) are designed in a corresponding structure.

7. The high-efficiency separation type lithium precipitating kettle according to claim 1, wherein: the stirring rod (602) is designed to be of a spiral structure, and the screen (605) is designed to be of a diamond structure.

8. The high-efficiency separation type lithium precipitation kettle according to claim 1, wherein: the screen (605) is in threaded connection with the lithium deposition kettle (6), and the discharge port (604) is in threaded connection with the lithium deposition kettle (6).

9. The high-efficiency separation type lithium precipitation kettle according to claim 1, wherein: connecting block (607) are fixed through the bolt with supporting disk (5), the front of sinking lithium cauldron (6) and the top that is located connecting block (607) are provided with feed inlet (608).

10. The high-efficiency separation type lithium precipitation kettle according to claim 1, wherein: the buffer block (401) is connected with the buffer seat (402) in a sliding mode, and universal wheels are arranged at the bottom of the base (1).

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