CN116603483A - Basic nickel carbonate preparation facilities - Google Patents

Abstract

The application belongs to the technical field of chemical production equipment, and particularly relates to basic nickel carbonate preparation equipment, which comprises the following components: the kettle comprises a kettle body, wherein a top cover and a bottom cover are respectively arranged at the top and the bottom of the kettle body; the stirring device comprises a stirring motor arranged on the top cover and a stirring shaft arranged on an output shaft of the stirring motor, and stirring blades are arranged on the stirring shaft; the cleaning device is arranged on the kettle body and is used for cleaning the kettle body; wherein, the belt cleaning device passes the top cap and extends to the internal portion of cauldron. The beneficial effects of the application are as follows: through the setting of first mounting bracket, second mounting bracket and a plurality of rotatable first shower nozzle, second shower nozzle, can wash the inner wall of the cauldron body all-round, can also wash puddler and stirring vane, improved cleaning efficiency.

Description

Basic nickel carbonate preparation facilities

Technical Field

The application belongs to the technical field of chemical production equipment, and particularly relates to equipment for preparing basic nickel carbonate.

Background

The reaction kettle is widely applied in the field of chemical production, such as the preparation process of basic nickel carbonate, and the reaction kettle is needed.

The existing reaction kettle can accumulate a lot of dust and dirt during the use process, the normal operation of the reaction kettle can be influenced by the existence of the dust and dirt, the consumption of energy sources is increased, the vomiting stopping of products is reduced, the long-term accumulation can even influence the reaction, equipment and human bodies are very dangerous, therefore, the reaction kettle needs to be cleaned regularly, the cleaning is divided into mechanical cleaning and chemical cleaning, the chemical cleaning is complex, the components of the dust and dirt need to be identified firstly, then the corresponding cleaning solvent is selected according to the identified components, the mechanical cleaning is simple, the high-pressure water gun is generally adopted for cleaning, but in the existing reaction kettle for preparing basic nickel carbonate, no good cleaning equipment is provided, and any improvement is needed.

Disclosure of Invention

The application aims to provide basic nickel carbonate preparation equipment which can solve the problems.

The application aims to provide basic nickel carbonate preparation equipment, which comprises the following components:

the kettle comprises a kettle body, wherein a top cover and a bottom cover are respectively arranged at the top and the bottom of the kettle body;

the stirring device comprises a stirring motor arranged on the top cover and a stirring shaft arranged on an output shaft of the stirring motor, and stirring blades are arranged on the stirring shaft;

the cleaning device is arranged on the kettle body and is used for cleaning the kettle body;

wherein, the belt cleaning device passes the top cap and extends to the internal portion of cauldron.

Adopt foretell basic nickel carbonate preparation facilities, when preparing, through cauldron body and agitating unit and cooperation use, open agitator motor after throwing into the raw materials, agitator motor drives the (mixing) shaft and rotates, the (mixing) shaft is driven stirring vane and is rotated, stir the raw materials, when needs wash the cauldron body, come to wash the cauldron body through setting up belt cleaning device, both can wash the cauldron body, can also reduce the loss that causes the cauldron body, can not cause the corruption to the cauldron body moreover, play the guard action to the cauldron body.

Further, the cleaning device includes:

the first driving piece is arranged on the top cover, a first mounting frame is arranged on an output shaft of the first driving piece, the first mounting frame is semicircular, and a plurality of first spray heads are arranged on the first mounting frame;

the second driving piece is arranged on the top cover and is symmetrical to the first driving piece relative to the stirring motor, a second mounting frame is arranged on an output shaft of the second driving piece, the second mounting frame is semicircular, and a plurality of second spray heads are arranged on the second mounting frame;

the water tank is connected with the first spray head and the second spray head through water pipes;

the sliding component is arranged on the top cover and matched with the first driving piece and the second driving piece;

the first installation frame and the second installation frame are spliced to form a complete circle.

When cleaning reation kettle, first driving piece and second driving piece function alone, first driving piece drives first mounting bracket and reciprocates, the in-process of first mounting bracket reciprocates, first shower nozzle is opened and is washd the inner wall of the cauldron body, the second driving piece can drive the second mounting bracket and reciprocate, the in-process of second mounting bracket reciprocates, the second shower nozzle is opened and washs the inner wall of the cauldron body, first shower nozzle and second shower nozzle are rotatable shower nozzle, through the setting of a plurality of rotatable first shower nozzles, the second shower nozzle, can wash the inner wall of the cauldron body in all-round, still can wash puddler and stirring vane, the setting of water tank can be through the first shower nozzle of water pipe orientation and second shower nozzle water supply, wherein, through setting up sliding component, when first mounting bracket and second mounting bracket are moved to first driving piece, can make first mounting bracket and second mounting bracket remove more stable, avoid the possibility of collision between first mounting bracket and the second mounting bracket, in addition, the water pipe passes through the output shaft and the intercommunication of driving piece.

Further: one side that first mounting bracket is close to cauldron body inner wall is provided with first scraper, one side that the second mounting bracket is close to cauldron body inner wall is provided with the second scraper, and first scraper and second scraper all laminate with the inner wall of the cauldron body.

Through setting up first scraper on first mounting bracket, can be when first mounting bracket reciprocates, scrape the dirt that remains, adhere in cauldron internal wall one side, use first shower nozzle with first scraper cooperation, use first scraper to scrape the dirt that can't dash off, the dirt that scrapes then washes away through first shower nozzle, through setting up the second scraper on the second mounting bracket, can be when the second mounting bracket reciprocates, scrape the dirt that remains, adhere on cauldron body opposite side inner wall, use the second scraper cooperation second shower nozzle, use the second scraper to scrape the dirt that can't dash off, the dirt that scrapes then washes away through the second shower nozzle.

Further, the slip subassembly is including setting up on the top cap and with first driving piece complex first cooperation structure, first cooperation structure includes:

the first installation sleeve is arranged on the top cover, and through holes are respectively formed in the top and the bottom of the first installation sleeve;

the first mounting ring is arranged on the output shaft of the first driving piece, and a first sliding space for the first mounting ring to move is arranged in the first mounting sleeve;

the first matching groove is arranged on the inner wall of the first sliding space, and first sliding grooves are formed in two sides of the inner wall of the first matching groove;

the first matching piece is movably arranged on the first chute;

the first damping mechanism is arranged in the first matching groove and is connected with the first matching piece;

wherein, first collar and first cooperation spare mutually support.

When first mounting bracket is moved in the drive of first driving piece, first collar moves along with the output shaft of first driving piece, when first collar removes, be located the first fitting piece on the first spout and move along with first collar, first damping mechanism can cushion the removal of first fitting piece when first fitting piece removes, reduce the vibration that produces when first collar removes, thereby make the removal of first mounting bracket more stable, produce vibration, skew when preventing first mounting bracket to remove, and then collide with the second mounting bracket when avoiding first mounting bracket to remove, can also avoid the first scraper that is located first mounting bracket to take place extra with cauldron internal wall and scratch, lead to the cauldron body impaired.

Further, the first mating member includes:

one end of the first guide block is connected with the first damping mechanism;

the second guide block is arranged at the other end of the first guide block and hinged with the first guide block;

the first limiting chute is arranged on the inner wall of the first matching groove and is communicated with the first chute, and the first limiting chute is arc-shaped;

wherein, first guide block is connected with first collar.

When the output shaft of first driving piece is output, first mounting bracket moves down, at this in-process, first collar drives first guide block and moves on first spout, first damping mechanism atress is elongated during the removal, thereby play the cushioning effect, the stability of the output shaft output of first driving piece is improved, make first mounting bracket move down more stable, when the second guide block moves to the last of first spacing spout, the second guide block can move along with the crooked direction of first spacing spout, thereby make the angle between second guide block and the first guide block change, this moment influenced by the second guide block, first guide block can't continue to remove again, first collar also can't remove, first mounting bracket also can't move down, thereby make the contact between first collar and the first installation cover more stable, prevent to produce the striking between first collar and the first installation cover, the travel distance of first mounting bracket has been restricted.

Simultaneously, when the output shaft of first driving piece is retracted, first mounting bracket is influenced the lifting by first collar, first collar drives first guide block and moves on first spout, first damping mechanism atress is compressed during the removal, thereby play cushioning effect, improve the output shaft output's of first driving piece stability, make first mounting bracket move down more stably, when first guide block begins to remove, the second guide block slides out from first spacing spout, get back to on the first spout, thereby make the angle between second guide block and the first guide block reset, through the continuous reciprocates of first driving piece, make first shower nozzle on the first mounting bracket wash the cauldron body, buffer through first cooperation structure in-process reciprocates, make abluent process more stable.

Further, still be provided with first gag lever post on the first cooperation groove, the both ends of first gag lever post are connected with first cooperation inslot wall respectively, and first gag lever post is located the department of buckling of first spacing spout, be provided with the first link plate of connecting two second guide blocks on the one end that the second guide block kept away from first guide block, form between first link plate and the two second guide blocks with first gag lever post card and first hook structure.

Through setting up first gag lever post on first cooperation groove to set up first link between two second guide blocks, when first mounting bracket moves down to extreme position, by first link and the first hook structure that forms between two second guide blocks will cooperate with first gag lever post, thereby fix the position of first mounting bracket, make follow-up cleaning work more stable, first damping mechanism has buffered this process, make first mounting bracket more stable in the removal in-process, still avoided the production of striking between first mounting bracket and the first installation cover.

Further, the sliding component further comprises a second matching structure, the second matching structure is matched with the second driving piece, and the second matching structure comprises:

the second installation sleeve is arranged on the top cover and is symmetrical to the first installation sleeve relative to the stirring device, and through holes are respectively formed in the top and the bottom of the second installation sleeve;

the second mounting ring is arranged on the output shaft of the second driving piece, and a second sliding space for the second mounting ring to move is arranged in the second mounting sleeve;

the second matching groove is arranged on the inner wall of the second sliding space, and second sliding grooves are formed in two sides of the inner wall of the second matching groove;

the second matching piece is movably arranged on the second chute;

the second damping mechanism is arranged in the second matching groove and is connected with the first matching piece;

wherein, the second installation ring cooperates with the second cooperation piece each other.

The second driving piece and the first driving piece can operate simultaneously, also can operate alone, when the second driving piece drives the second mounting bracket to move, the second collar moves along with the output shaft of the second driving piece, when the second collar moves, the second fitting piece that is located on the second spout moves along with the second collar, the second damping mechanism can cushion the movement of the second fitting piece when the second fitting piece moves, vibration that produces when reducing the second collar and remove, thereby make the movement of the second mounting bracket more stable, produce vibration, skew when preventing the second mounting bracket to remove, and then collide with first mounting bracket when avoiding the second mounting bracket to remove, can also avoid the second scraper that is located the second mounting bracket to take place extra with cauldron internal wall and scratch, lead to the cauldron body impaired.

Further, the second mating member includes:

one end of the third guide block is connected with the second damping mechanism;

the fourth guide block is arranged at the other end of the third guide block and is hinged with the third guide block;

the second limiting chute is arranged on the inner wall of the second matching groove and is communicated with the second chute, and the second limiting chute is arc-shaped;

wherein, the third guide block is connected with the second installation ring.

When the output shaft of second driving piece outputs, the second mounting bracket moves down, at this in-process, the second collar drives the second guide block and moves on the second spout, second damping mechanism atress is elongated during the removal, thereby play the cushioning effect, improve the output shaft output's of second driving piece stability, make the second mounting bracket move down more stable, when the third guide block moves to the last of the spacing spout of second, the fourth guide block can move along with the crooked direction of the spacing spout of second, thereby make the angle between fourth guide block and the third guide block change, this moment influenced by the fourth guide block, the unable continuation of third guide block removes again, the second collar also can't move, the second mounting bracket also can't move down, thereby make the contact between second collar and the second installation cover more stable, prevent to produce the striking between second collar and the second installation cover, the travel distance of second mounting bracket has been restricted.

Meanwhile, when the output shaft of the second driving piece is retracted, the second mounting frame is lifted by the influence of the second mounting ring, the second mounting ring drives the third guide block to move on the second sliding groove, the second damping mechanism is stressed and compressed during movement, so that the buffer effect is achieved, the stability of the output shaft output of the second driving piece is improved, the second mounting frame moves downwards more stably, when the first three guide blocks start to move, the fourth guide blocks slide out of the second limiting sliding groove and return to the second sliding groove, and therefore the angle between the fourth guide blocks and the third guide blocks is reset, the second nozzle on the second mounting frame is enabled to clean the kettle body through continuous up-and-down movement of the second driving piece, and the cleaning process is enabled to be more stable through buffering of the second matching structure in the up-and-down movement process.

Further, the second matching groove is further provided with a second limiting rod, two ends of the second limiting rod are respectively connected with the inner wall of the second matching groove, the second limiting rod is located at the bending part of the second limiting chute, one end, far away from the third guiding block, of the fourth guiding block is provided with a second hanging plate connected with the two fourth guiding blocks, and a second hooking structure clamped with the second limiting rod is formed between the second hanging plate and the two fourth guiding blocks.

Through set up the second gag lever post on the second cooperation groove to set up first link plate between two second guide blocks, when the second mounting bracket moves down to extreme position, the second hook structure that forms between second link plate and two fourth guide blocks will cooperate with the second gag lever post, thereby fix the position of second mounting bracket, make follow-up cleaning work more stable, second damping mechanism has buffered this process, make the second mounting bracket more stable at the in-process that removes, the production of striking between second mounting bracket and the second installation cover has still been avoided.

The beneficial effects of the application are as follows:

1. through the arrangement of the first mounting frame, the second mounting frame, the plurality of rotatable first spray heads and the plurality of rotatable second spray heads, the inner wall of the kettle body can be cleaned in all directions, the stirring rod and the stirring blade can be cleaned, and the cleaning efficiency is improved;

2. through the arrangement of the first scraper and the second scraper, the first mounting frame and the second mounting frame can move up and down and simultaneously scrape off residual dust and dirt adhered to the inner wall of the kettle body, the first scraper is matched with the first spray head for use, the second scraper is matched with the second spray head for use, dust and dirt which cannot be washed off can be scraped off, and the scraped dust and dirt are washed away through the first spray head and the second spray head, so that the cleaning effect is improved and the cleaning efficiency is also improved;

3. through the setting of first cooperation structure and second cooperation structure, when first driving piece and second driving piece drive first mounting bracket, second mounting bracket remove, first damping mechanism and second damping mechanism can cushion both removal to reduce the vibration that produces when first mounting bracket and second collar remove, thereby make both remove more stable, produce vibration, skew when preventing that the second mounting bracket from removing, and then collide with the second mounting bracket when avoiding first mounting bracket to remove, can also avoid being located first scraper, second scraper and cauldron body inner wall take place extra and scratch, lead to the cauldron body impaired.

Drawings

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

FIG. 2 is a schematic view of the structure of the cleaning device of the present application;

FIG. 3 is a top view of the cleaning apparatus of the present application;

FIG. 4 is a cross-sectional view taken along the direction A-A in FIG. 3;

FIG. 5 is a cross-sectional view in the direction B-B of FIG. 3

FIG. 6 is a schematic structural view of a first mating structure of the present application;

FIG. 7 is a schematic structural view of a second mating structure of the present application;

fig. 8 is a sectional view of the structure of the cleaning device of the present application.

The reference numerals in the drawings are: 100. a kettle body; 110. a top cover; 120. a bottom cover; 200. a stirring device; 300. a cleaning device; 310. a first driving member; 311. a first mounting frame; 312. a first nozzle; 320. a second driving member; 321. a second mounting frame; 322. a second nozzle; 330. a water tank; 340. a first scraper; 350. a second scraper; 400. a first mating structure; 410. a first mounting sleeve; 420. a first mounting ring; 421. a first sliding space; 430. a first mating groove; 431. a first chute; 440. a first mating member; 441. a first guide block; 442. a second guide block; 443. the first limiting chute; 450. a first damping mechanism; 460. a first stop lever; 470. a first hanging plate; 500. a second mating structure; 510. a second mounting sleeve; 520. a second mounting ring; 521. a second sliding space; 530. a second mating groove; 531. a second chute; 540. a second mating member; 541. a third guide block; 542. a fourth guide block; 543. the second limiting chute; 550. a second damping mechanism; 560. a second limit rod; 570. and a second hanging plate.

Detailed Description

The technical solutions of the embodiments of the present application will be clearly described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which are obtained by a person skilled in the art based on the embodiments of the present application, fall within the scope of protection of the present application.

The terms first, second and the like in the description and in the claims, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged, as appropriate, such that embodiments of the present application may be implemented in sequences other than those illustrated or described herein, and that the objects identified by "first," "second," etc. are generally of a type, and are not limited to the number of objects, such as the first object may be one or more. Furthermore, in the description and claims, "and/or" means at least one of the connected objects, and the character "/", generally means that the associated object is an "or" relationship.

The basic nickel carbonate preparation equipment provided by the embodiment of the application is described in detail below through specific examples and application scenes thereof with reference to the accompanying drawings.

Example 1:

as shown in fig. 1, an embodiment of the present application provides a basic nickel carbonate preparation apparatus, including:

the kettle body 100, the top and bottom of the kettle body 100 are respectively provided with a top cover 110 and a bottom cover 120;

the stirring device 200 comprises a stirring motor arranged on the top cover 110 and a stirring shaft arranged on an output shaft of the stirring motor, and stirring blades are arranged on the stirring shaft;

the cleaning device 300 is arranged on the kettle body 100 and is used for cleaning the kettle body 100;

wherein, the cleaning device 300 extends into the kettle body 100 after passing through the top cover 110.

In some embodiments of the present disclosure, as shown in fig. 1, the basic nickel carbonate preparation apparatus is adopted, when the preparation is performed, through the kettle body 100 and the stirring device 200 and the cooperation use, the stirring motor is started after the raw materials are put into the kettle, the stirring motor drives the stirring shaft to rotate, the stirring shaft drives the stirring blade to rotate, and the raw materials are stirred, when the kettle body 100 needs to be cleaned, the cleaning device 300 is provided to clean the kettle body 100, so that the kettle body 100 can be cleaned, the loss caused to the kettle body 100 can be reduced, the kettle body 100 cannot be corroded, and the kettle body 100 is protected.

Example 2:

the embodiment of the application provides basic nickel carbonate preparation equipment, which comprises the following technical characteristics in addition to the technical characteristics.

As shown in fig. 1 to 4 and 8, the cleaning apparatus 300 includes:

the first driving piece 310 is arranged on the top cover 110, a first mounting frame 311 is arranged on an output shaft of the first driving piece 310, the first mounting frame 311 is semicircular, and a plurality of first spray heads 312 are arranged on the first mounting frame 311;

the second driving piece 320 is arranged on the top cover 110 and is symmetrical to the first driving piece 310 about the stirring motor, a second mounting frame 321 is arranged on an output shaft of the second driving piece 320, the second mounting frame 321 is also semicircular, and a plurality of second spray heads 322 are arranged on the second mounting frame 321;

the water tank 330, the water tank 330 is connected with the first spray head 312 and the second spray head 322 through water pipes;

a sliding assembly disposed on the top cover 110 and engaged with the first driving member 310 and the second driving member 320;

the first mounting frame 311 and the second mounting frame 321 form a complete circle after being spliced.

In the embodiment of the application, when the reaction kettle is cleaned, the first driving member 310 and the second driving member 320 are independently operated, the first driving member 310 drives the first installation frame 311 to move up and down, the first spraying nozzle 312 is opened to clean the inner wall of the kettle body 100 in the process of moving the first installation frame 311 up and down, the second driving member 320 can drive the second installation frame 321 to move up and down, the second spraying nozzle 322 is opened to clean the inner wall of the kettle body 100 in the process of moving the second installation frame 321 up and down, the first spraying nozzle 312 and the second spraying nozzle 322 are rotatable spraying nozzles, the inner wall of the kettle body 100 can be cleaned in all directions through the arrangement of the plurality of rotatable first spraying nozzles 312 and the second spraying nozzles 322, the stirring rod and the stirring blade can be cleaned, and the arrangement of the water tank 330 can supply water to the first spraying nozzle installation frame 312 and the second spraying nozzle 322 through a water pipe, wherein the sliding assembly is arranged, when the first driving member 310 and the second driving member 320 drive the first installation frame 321 to move up and down, the first installation frame 311 and the second installation frame 321 can be enabled to move more stably, and the first installation frame 321 and the second installation frame 321 can be prevented from being collided with each other.

In some embodiments of the present application, a first scraper 340 is disposed on a side of the first mounting frame 311 near the inner wall of the kettle body 100, a second scraper 350 is disposed on a side of the second mounting frame 321 near the inner wall of the kettle body 100, and the first scraper 340 and the second scraper 350 are both attached to the inner wall of the kettle body 100.

Through setting up first scraper 340 on first mounting bracket 311, can be when first mounting bracket 311 reciprocates, scrape the dirty that remains, adhere in cauldron body 100 inner wall one side, use first scraper 340 cooperation first shower nozzle 312, use first scraper 340 to scrape the dirty that can't wash off, the dirty that scrapes then washes away through first shower nozzle 312, through setting up second scraper 350 on second mounting bracket 321, can be when second mounting bracket 321 reciprocates, scrape the dirty that remains, adhere on cauldron body 100 opposite side inner wall, use second scraper 350 cooperation second shower nozzle 322, use second scraper 350 to scrape the dirty that can't wash off, the dirty that scrapes then washes away through second shower nozzle 322.

Example 3:

the embodiment of the application provides basic nickel carbonate preparation equipment, which comprises the following technical characteristics in addition to the technical characteristics.

As shown in fig. 2, 4, 5, 6 and 8, the sliding assembly includes a first engaging structure 400 disposed on the top cover 110 and engaged with the first driving member 310, the first engaging structure 400 including:

the first installation sleeve 410 is arranged on the top cover 110, and the top and the bottom of the first installation sleeve 410 are respectively provided with through holes;

the first mounting ring 420 is disposed on the output shaft of the first driving member 310, and a first sliding space 421 for moving the first mounting ring 420 is disposed in the first mounting sleeve 410;

the first matching groove 430 is arranged on the inner wall of the first sliding space 421, and both sides of the inner wall of the first matching groove 430 are provided with first sliding grooves 431;

the first matching piece 440 is movably arranged on the first chute 431;

the first damping mechanism 450 is disposed in the first fitting groove 430 and connected to the first fitting 440;

wherein the first mounting ring 420 is engaged with the first engagement member 440.

In the embodiment of the application, when the first driving member 310 drives the first mounting frame 311 to move, the first mounting ring 420 moves along with the output shaft of the first driving member 310, when the first mounting ring 420 moves, the first matching member 440 located on the first chute 431 moves along with the first mounting ring 420, and the first damping mechanism 450 can buffer the movement of the first matching member 440 when the first matching member 440 moves, so as to reduce the vibration generated when the first mounting ring 420 moves, thereby enabling the movement of the first mounting frame 311 to be more stable, preventing the movement of the first mounting frame 311 from generating vibration and offset, further avoiding collision with the second mounting frame 321 when the first mounting frame 311 moves, and avoiding the first scraper 340 located on the first mounting frame 311 from generating additional scratch with the inner wall of the kettle body 100, and further avoiding the kettle body 100 from being damaged.

Example 4:

the embodiment of the application provides basic nickel carbonate preparation equipment, which comprises the following technical characteristics in addition to the technical characteristics.

As shown in fig. 2, 4, 5, 6 and 8, the first fitting 440 includes:

the first guide block 441, one end of the first guide block 441 is connected with the first damping mechanism 450;

the second guide block 442 is disposed at the other end of the first guide block 441 and hinged to the first guide block 441;

the first limiting sliding groove 443 is arranged on the inner wall of the first matching groove 430 and is communicated with the first sliding groove 431, and the first limiting sliding groove 443 is arc-shaped;

wherein the first guide block 441 is coupled to the first mounting ring 420.

In the embodiment of the application, when the output shaft of the first driving member 310 outputs, the first mounting frame 311 moves downward, during this process, the first mounting ring 420 drives the first guide block 441 to move on the first chute 431, and when moving, the first damping mechanism 450 is stretched, thereby playing a role of buffering, improving the stability of the output shaft of the first driving member 310, so that the first mounting frame 311 moves downward more stably, when the second guide block 442 moves onto the first limiting chute 443, the second guide block 442 moves along with the bending direction of the first limiting chute 443, so that the angle between the second guide block 442 and the first guide block 441 changes, and at this time, the second guide block 442 is influenced, the first guide block 441 cannot move any more, the first mounting ring 420 cannot move, and the first mounting frame 311 cannot move downward, so that the contact between the first mounting ring 420 and the first mounting sleeve 410 is more stable, the collision between the first mounting ring 420 and the first mounting sleeve 410 is prevented, and the moving distance of the first mounting frame 311 is limited.

Meanwhile, when the output shaft of the first driving member 310 retracts, the first mounting frame 311 is lifted under the influence of the first mounting ring 420, the first mounting ring 420 drives the first guide block 441 to move on the first chute 431, and the first damping mechanism 450 is stressed and compressed during movement, so that a buffer effect is achieved, the stability of the output shaft output of the first driving member 310 is improved, the first mounting frame 311 moves down more stably, when the first guide block 441 starts to move, the second guide block 442 slides out of the first limiting chute 443 and returns to the first chute 431, so that the angle between the second guide block 442 and the first guide block 441 is reset, the first nozzle 312 on the first mounting frame 311 is continuously moved up and down through the first driving member 310, the kettle body 100 is cleaned, and the cleaning process is more stable through buffering of the first matching structure 400 in the up-down movement process.

Further, a first limiting rod 460 is further disposed on the first matching groove 430, two ends of the first limiting rod 460 are respectively connected with the inner wall of the first matching groove 430, the first limiting rod 460 is located at a bending position of the first limiting sliding groove 443, one end, far away from the first guiding block 441, of the second guiding block 442 is provided with a first hanging plate 470 connected with the two second guiding blocks 442, and a first hooking structure clamped with the first limiting rod 460 is formed between the first hanging plate 470 and the two second guiding blocks 442.

In some embodiments of the present application, by disposing the first stop lever 460 on the first engaging groove 430 and disposing the first hanging plate 470 between the two second guide blocks 442, when the first mounting frame 311 moves down to the limit position, the first hanging structure formed between the first hanging plate 470 and the two second guide blocks 442 will engage with the first stop lever 460, thereby fixing the position of the first mounting frame 311, making the subsequent cleaning operation more stable, and the first damping mechanism 450 buffers the process, so that the first mounting frame 311 is more stable during the moving process, and avoiding the occurrence of impact between the first mounting frame 311 and the first mounting sleeve 410.

Example 5:

the embodiment of the application provides basic nickel carbonate preparation equipment, which comprises the following technical characteristics in addition to the technical characteristics.

As shown in fig. 2, 4, 7 and 8, the sliding assembly further includes a second engagement structure 500, the second engagement structure 500 being engaged with the second driving member 320, the second engagement structure 500 including:

the second installation sleeve 510 is arranged on the top cover 110 and is symmetrical to the first installation sleeve 410 with respect to the stirring device 200, and the top and bottom of the second installation sleeve 510 are also respectively provided with through holes;

the second mounting ring 520 is disposed on the output shaft of the second driving member 320, and a second sliding space 521 for moving the second mounting ring 520 is disposed in the second mounting sleeve 510;

the second matching groove 530 is arranged on the inner wall of the second sliding space 521, and both sides of the inner wall of the second matching groove 530 are provided with second sliding grooves 531;

the second matching piece 540 is movably arranged on the second chute 531;

the second damping mechanism 550 is disposed in the second matching groove 530 and connected with the first matching piece 440;

wherein the second mounting ring 520 is mated with the second mating member 540.

In the embodiment of the application, the second driving member 320 and the first driving member 310 may operate simultaneously or may operate independently, when the second driving member 320 drives the second mounting frame 321 to move, the second mounting ring 520 moves along with the output shaft of the second driving member 320, when the second mounting ring 520 moves, the second matching member 540 located on the second sliding groove 531 moves along with the second mounting ring 520, and the second damping mechanism 550 may buffer the movement of the second matching member 540 when the second matching member 540 moves, so as to reduce the vibration generated when the second mounting ring 520 moves, thereby making the movement of the second mounting frame 321 more stable, preventing the second mounting frame 321 from vibrating and shifting, and further avoiding the collision between the second scraping knife 350 located on the second mounting frame 321 and the first mounting frame 311 when the second mounting frame 321 moves, and avoiding the additional scratch of the second scraping knife 350 located on the second mounting frame 321 and the inner wall of the kettle body 100, so as to cause the damage of the kettle body 100.

Example 6:

the embodiment of the application provides basic nickel carbonate preparation equipment, which comprises the following technical characteristics in addition to the technical characteristics.

As shown in fig. 2, 4, 7 and 8, the second mating member 540 includes:

a third guide block 541, one end of the third guide block 541 being connected to the second damping mechanism 550;

a fourth guide block 542 disposed at the other end of the third guide block 541 and hinged to the third guide block 541;

the second limiting chute 543 is arranged on the inner wall of the second matching groove 530 and is communicated with the second chute 531, and the second limiting chute 543 is arc-shaped;

wherein the third guide block 541 is coupled to the second mounting ring 520.

In the embodiment of the application, when the output shaft of the second driving member 320 outputs, the second mounting frame 321 moves downward, during this process, the second mounting ring 520 drives the second guide block 442 to move on the second chute 531, and when moving, the second damping mechanism 550 is stretched, thereby playing a role of buffering, improving the stability of the output shaft of the second driving member 320, so that the second mounting frame 321 moves downward more stably, when the third guide block 541 moves onto the second limiting chute 543, the fourth guide block 542 moves along with the bending direction of the second limiting chute 543, so that the angle between the fourth guide block 542 and the third guide block 541 changes, and at this time, the third guide block 541 cannot move any more, and the second mounting ring 520 cannot move, so that the contact between the second mounting ring 520 and the second mounting sleeve 510 is more stable, and the impact between the second mounting ring 520 and the second mounting sleeve 510 is prevented, thereby limiting the moving distance of the second 321.

Meanwhile, when the output shaft of the second driving piece 320 is retracted, the second mounting frame 321 is lifted under the influence of the second mounting ring 520, the second mounting ring 520 drives the third guide block 541 to move on the second chute 531, the second damping mechanism 550 is stressed and compressed during movement, so that a buffer effect is achieved, the stability of the output shaft output of the second driving piece 320 is improved, the second mounting frame 321 moves down more stably, when the first third guide block starts to move, the fourth guide block 542 slides out of the second limiting chute 543 and returns to the second chute 531, so that the angle between the fourth guide block 542 and the third guide block 541 is reset, the second nozzle 322 on the second mounting frame 321 continuously moves up and down through the second driving piece 320, the kettle body 100 is cleaned, and the cleaning process is more stable through the buffer of the second matching structure 500 in the up-down movement process.

Further, a second limiting rod 560 is further disposed on the second matching groove 530, two ends of the second limiting rod 560 are respectively connected with the inner wall of the second matching groove 530, the second limiting rod 560 is located at a bending position of the second limiting sliding groove 543, one end, far away from the third guiding block 541, of the fourth guiding block 542 is provided with a second hanging plate 570 connected with the two fourth guiding blocks 542, and a second hooking structure clamped with the second limiting rod 560 is formed between the second hanging plate 570 and the two fourth guiding blocks 542.

In some embodiments of the present application, the second engaging groove 530 is provided with the second stop lever 560, and the first hanging plate 470 is disposed between the two second guide blocks 442, so that when the second mounting frame 321 moves down to the limit position, the second hanging structure formed between the second hanging plate 570 and the two fourth guide blocks 542 will engage with the second stop lever 560, thereby fixing the position of the second mounting frame 321, making the subsequent cleaning operation more stable, and the second damping mechanism 550 buffers the process, so that the second mounting frame 321 is more stable during the movement, and avoiding the occurrence of impact between the second mounting frame 321 and the second mounting sleeve 510.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. Furthermore, it should be noted that the scope of the methods and apparatus in the embodiments of the present application is not limited to performing the functions in the order shown or discussed, but may also include performing the functions in a substantially simultaneous manner or in an opposite order depending on the functions involved, e.g., the described methods may be performed in an order different from that described, and various steps may be added, omitted, or combined. Additionally, features described with reference to certain examples may be combined in other examples.

The embodiments of the present application have been described above with reference to the accompanying drawings, but the present application is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present application and the scope of the claims, which are to be protected by the present application.

Claims (9)

1. The basic nickel carbonate preparation equipment is characterized in that: comprising the following steps:

the kettle comprises a kettle body (100), wherein a top cover (110) and a bottom cover (120) are respectively arranged at the top and the bottom of the kettle body (100);

the stirring device (200) comprises a stirring motor arranged on the top cover (110) and a stirring shaft arranged on an output shaft of the stirring motor, and stirring blades are arranged on the stirring shaft;

the cleaning device (300) is arranged on the kettle body (100) and is used for cleaning the kettle body (100);

wherein, the cleaning device (300) passes through the top cover (110) and then extends to the inside of the kettle body (100).

2. The basic nickel carbonate production apparatus according to claim 1, wherein: the cleaning device (300) comprises:

the first driving piece (310) is arranged on the top cover (110), a first mounting frame (311) is arranged on an output shaft of the first driving piece (310), the first mounting frame (311) is semicircular, and a plurality of first spray heads (312) are arranged on the first mounting frame (311);

the second driving piece (320) is arranged on the top cover (110) and is symmetrical to the first driving piece (310) relative to the stirring motor, a second mounting frame (321) is arranged on an output shaft of the second driving piece (320), the second mounting frame (321) is semicircular, and a plurality of second spray heads (322) are arranged on the second mounting frame (321);

the water tank (330) is connected with the first spray head (312) and the second spray head (322) through water pipes;

the sliding component is arranged on the top cover (110) and matched with the first driving piece (310) and the second driving piece (320);

the first mounting frame (311) and the second mounting frame (321) are spliced to form a complete circle.

3. The basic nickel carbonate production apparatus according to claim 2, wherein: one side that first mounting bracket (311) is close to cauldron body (100) inner wall is provided with first scraper (340), one side that second mounting bracket (321) is close to cauldron body (100) inner wall is provided with second scraper (350), and first scraper (340) and second scraper (350) all laminate with the inner wall of cauldron body (100).

4. A basic nickel carbonate production apparatus according to claim 3, wherein: the sliding assembly includes a first mating structure (400) disposed on the top cover (110) and mated with the first driver (310), the first mating structure (400) including:

the first mounting sleeve (410) is arranged on the top cover (110), and through holes are respectively formed in the top and the bottom of the first mounting sleeve (410);

the first mounting ring (420) is arranged on the output shaft of the first driving piece (310), and a first sliding space (421) for the first mounting ring (420) to move is arranged in the first mounting sleeve (410);

the first matching groove (430) is arranged on the inner wall of the first sliding space (421), and first sliding grooves (431) are formed in two sides of the inner wall of the first matching groove (430);

the first matching piece (440) is movably arranged on the first chute (431);

a first damping mechanism (450) disposed in the first fitting groove (430) and connected to the first fitting (440);

wherein the first mounting ring (420) is interfitted with a first mating member (440).

5. The basic nickel carbonate production apparatus according to claim 4, wherein: the first mating element (440) comprises:

a first guide block (441), wherein one end of the first guide block (441) is connected with a first damping mechanism (450);

the second guide block (442) is arranged at the other end of the first guide block (441) and hinged with the first guide block (441);

the first limiting sliding groove (443) is arranged on the inner wall of the first matching groove (430) and is communicated with the first sliding groove (431), and the first limiting sliding groove (443) is arc-shaped;

wherein the first guide block (441) is connected with a first mounting ring (420).

6. The basic nickel carbonate production apparatus according to claim 5, wherein: still be provided with first gag lever post (460) on first cooperation groove (430), the both ends of first gag lever post (460) are connected with first cooperation groove (430) inner wall respectively, and first gag lever post (460) are located the kink of first spacing spout (443), be provided with first link plate (470) of connecting two second guide blocks (442) on the one end that first guide block (441) was kept away from to second guide block (442), form between first link plate (470) and two second guide blocks (442) with first hook structure of first gag lever post (460) card sum.

7. The basic nickel carbonate production apparatus according to claim 6, wherein: the sliding assembly further comprises a second mating structure (500), the second mating structure (500) being mated with the second driver (320), the second mating structure (500) comprising:

the second installation sleeve (510) is arranged on the top cover (110) and symmetrical to the first installation sleeve (410) relative to the stirring device (200), and through holes are respectively formed in the top and the bottom of the second installation sleeve (510);

the second mounting ring (520) is arranged on the output shaft of the second driving piece (320), and a second sliding space (521) for the second mounting ring (520) to move is arranged in the second mounting sleeve (510);

the second matching groove (530) is arranged on the inner wall of the second sliding space (521), and second sliding grooves (531) are formed in two sides of the inner wall of the second matching groove (530);

the second matching piece (540) is movably arranged on the second chute (531);

a second damping mechanism (550) disposed in the second fitting groove (530) and connected to the first fitting (440);

wherein the second mounting ring (520) is mated with a second mating member (540).

8. The basic nickel carbonate production apparatus according to claim 7, wherein: the second mating element (540) comprises:

one end of the third guide block (541) is connected with the second damping mechanism (550);

the fourth guide block (542) is arranged at the other end of the third guide block (541) and is hinged with the third guide block (541);

the second limiting chute (543) is arranged on the inner wall of the second matching groove (530) and is communicated with the second chute (531), and the second limiting chute (543) is arc-shaped;

wherein the third guide block (541) is connected to the second mounting ring (520).

9. The basic nickel carbonate production apparatus according to claim 8, wherein: the second guide block (542) is provided with a second hanging plate (570) for connecting the two fourth guide blocks (542), and a second hooking structure for clamping the second limiting rod (560) is formed between the second hanging plate (570) and the two fourth guide blocks (542).