CN111420577A - A thick liquids mixing stirring equipment for battery sheet processing - Google Patents

Abstract

The invention discloses a slurry mixing and stirring device for processing a battery pole piece, which comprises a fixed shell, a fixed space arranged in the fixed shell, a supporting seat fixedly arranged on the lower end surface of the fixed shell, a motor fixedly arranged on the rear end surface of the fixed shell, a mounting groove arranged on the rear end wall of the fixed space, a transmission shaft fixedly arranged at the output end of the motor and positioned in the mounting groove, and a stirring device arranged on the transmission shaft, wherein the fixed space is arranged in the fixed shell; the stirring device comprises a rotary shell fixedly arranged on a transmission shaft.

Description

A thick liquids mixing stirring equipment for battery sheet processing

Technical Field

The invention belongs to the field of battery processing, and particularly relates to slurry mixing and stirring equipment for processing a battery pole piece.

Background

At present, lithium batteries are seen everywhere in life, a plurality of small household appliances are used, the lithium batteries are closely related to daily life of people, wherein the stirring of lithium battery cell slurry is a mixing and dispersing process, the influence degree on the quality of products in the whole production process of the lithium batteries is greater than 30%, and the most important link in the whole production process is provided.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the slurry mixing and stirring equipment for processing the battery pole piece, which can mix the solid small particles adhered to the inner wall and the small particles precipitated at the bottom with the slurry so as to uniformly mix the slurry.

In order to achieve the purpose, the invention adopts the following technical scheme: a slurry mixing and stirring device for processing a battery pole piece comprises a fixed shell, a fixed space arranged in the fixed shell, a supporting seat fixedly arranged on the lower end face of the fixed shell, a motor fixedly arranged on the rear end face of the fixed shell, a mounting groove arranged on the rear end wall of the fixed space, a transmission shaft fixedly arranged at the output end of the motor and positioned in the mounting groove, and a stirring device arranged on the transmission shaft; the stirring device comprises a rotary shell fixedly arranged on the transmission shaft, a rotary space arranged on the end face of the rotary shell, and two scraping components uniformly distributed on the upper inner wall of the rotary space in the circumferential direction.

The scraping component comprises a groove arranged in a rotating space, a plurality of rotating plates hinged to the bottom of the groove, first rectangular grooves respectively formed in the rotating plates, a moving block capable of moving along the bottom of the groove, a second rectangular groove formed in the moving block, and a plurality of first trapezoidal grooves formed in the bottom of the groove, wherein a first trapezoidal block is fixedly arranged at one end, close to the first trapezoidal groove, of each moving block, each first trapezoidal block can slide in the first trapezoidal groove, an extrusion spring is fixedly arranged between each first trapezoidal block and each first trapezoidal groove respectively, a torsion spring is fixedly arranged at the hinged position of each rotating plate, and one end of each torsion spring is fixedly arranged at the bottom of the groove.

The scraping component also comprises a matching groove arranged on the inner wall of the rotating space, an inclined block movably arranged in the matching groove, a telescopic spring fixedly arranged between the bottom of the matching groove and the inclined block, a push block fixedly arranged on the inclined block, a first rotating shaft rotatably arranged on the rear end wall of the rotating space, a first rotating block fixedly arranged on the first rotating shaft, a second rotating block capable of rotating relative to the first rotating block, a third rotating block capable of rotating relative to the second rotating block, a fourth rotating block capable of rotating relative to the third rotating block, and a fixing component for fixing the first rotating plate, the second rotating plate, the third rotating plate and the fourth rotating plate, wherein one end of the telescopic spring is fixedly arranged at one end of the inclined block close to the bottom of the matching groove, two first hinge components are symmetrically arranged between the first rotating block and the second rotating block, and two second hinge components are symmetrically arranged between the second rotating block and the third rotating block, two third hinge assemblies are symmetrically arranged between the third rotating block and the fourth rotating block; first articulated subassembly is including fixed first installation axle, the fixed setting of setting on first rotatory piece side second installation axle, cover on first installation axle and the epaxial mounting panel of second installation, the fixed epaxial work torsional spring of setting at first installation of second installation axle, the one end of work torsional spring is fixed to be set up on the mounting panel, the mounting panel is swing joint with first installation axle, the mounting panel is fixed connection with second installation axle, the structure of second articulated subassembly, third articulated subassembly is the same with the structure of first articulated subassembly.

The fixed component comprises a first movable cavity arranged on the first rotating block, a second movable cavity arranged on the second rotating block, a third movable cavity arranged on the third rotating block, a fourth movable cavity arranged on the fourth rotating block, a first movable inclined block movably arranged in the first movable cavity, a second movable inclined block movably arranged in the second movable cavity, a third movable inclined block movably arranged in the third movable cavity, a rotating plate fixedly arranged on the outer surface of the rotating shell, two sliding blocks capable of reciprocating relative to two end faces of the rotating plate, two annular blocks respectively symmetrically arranged on the outer surface of the rotating shell in the front-back direction, a stop block fixedly arranged on the outer surface of the rotating shell, two scraping blocks capable of moving around the two annular blocks, and two limiting grooves respectively fixedly arranged on two sides of the bottom of the two scraping blocks, wherein the two annular blocks are respectively positioned in the two limiting grooves, two second trapezoidal grooves are fixedly arranged on the end face, close to the rotating plate, of each sliding block respectively, two second trapezoidal grooves are formed in the end faces of the rotating plate respectively, and each second trapezoidal block is located in each second trapezoidal groove.

A supporting rod is fixedly arranged on the end wall of the fixed space, two fixed plates are respectively and fixedly arranged on the supporting rod along the circumferential direction, two rectangular grooves are respectively arranged on each fixed plate, a rectangular scraping block is respectively and fixedly arranged on each fixed plate, two first pushing slide blocks are fixedly arranged on one rectangular scraping block, two second pushing slide blocks are fixedly arranged on the other rectangular scraping block, the first pushing slide block and the second pushing slide block are uniformly distributed along the circumferential direction, two abutting rods are respectively and fixedly arranged on the end surface of the fixed space, the two abutting rods are uniformly distributed along the circumferential direction, a return spring is respectively and fixedly arranged between the end wall of one end of each rectangular groove close to the transmission shaft and one end of each rectangular hanging block close to the transmission shaft, two first check valves are respectively arranged at the bottoms of the two grooves, and two second check valves are respectively arranged on the inner wall of the rotating space.

In summary, the invention has the following advantages: this equipment structure is simple, thereby can also can mix the solid tiny particle of adhesion on the inner wall and deposit the tiny particle in the bottom with thick liquids and make thick liquids misce bene to avoid leading to subsequent thick liquids coated substandard product increase because of thick liquids misce bene.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is a sectional view taken at a-a in fig. 2.

Fig. 4 is a sectional perspective view at B-B in fig. 2.

Fig. 5 is an enlarged view of fig. 4 at C.

Fig. 6 is an enlarged view of fig. 4 at D.

Fig. 7 is an enlarged view of fig. 4 at E.

Fig. 8 is an enlarged view of fig. 3 at F.

Fig. 9 is a schematic view of a connection structure of the first rotating plate and the second rotating plate.

Fig. 10 is an enlarged view at Z in fig. 4.

Fig. 11 is an enlarged view of fig. 8.

Detailed Description

As shown in fig. 1-11, a slurry mixing and stirring apparatus for processing battery pole pieces comprises a fixed casing 1, a fixed space arranged in the fixed casing 1, a supporting seat 2 fixedly arranged on the lower end surface of the fixed casing 1, a motor 3 fixedly arranged on the rear end surface of the fixed casing 1, a mounting groove arranged on the rear end wall of the fixed space, a transmission shaft fixedly arranged at the output end of the motor 3 and positioned in the mounting groove, and a stirring device arranged on the transmission shaft; the stirring device comprises a rotary shell 4 fixedly arranged on a transmission shaft, a rotary space 5 arranged on the end surface of the rotary shell 4, and two scraping components uniformly distributed on the upper inner wall of the rotary space in the circumferential direction.

The scraping component comprises a groove arranged on the rotating space 5, a plurality of rotating plates 50 hinged to the bottom of the groove, first rectangular grooves respectively formed in the rotating plates 50, a moving block 51 capable of moving along the bottom of the groove, a second rectangular groove formed in the moving block 51 and a plurality of first trapezoidal grooves formed in the bottom of the groove, a first trapezoidal block is fixedly arranged at one end, close to the first trapezoidal groove, of each moving block 51, each first trapezoidal block can slide in the first trapezoidal groove, an extrusion spring is fixedly arranged between each first trapezoidal block and each first trapezoidal groove, a torsion spring is fixedly arranged at the hinge joint of each rotating plate 50, and one end of each torsion spring is fixedly arranged at the bottom of the groove.

The scraping component also comprises a matching groove arranged on the inner wall of the rotating space, an inclined block 100 movably arranged in the matching groove, a telescopic spring fixedly arranged between the bottom of the matching groove and the inclined block 100, a push block 101 fixedly arranged on the inclined block 100, a first rotating shaft rotatably arranged on the rear end wall of the rotating space, a first rotating block 102 fixedly arranged on the first rotating shaft, a second rotating block 103 capable of rotating relative to the first rotating block 102, a third rotating block 104 capable of rotating relative to the second rotating block 103, a fourth rotating block 105 capable of rotating relative to the third rotating block 104, and a fixing component for fixing the first rotating plate 102, the second rotating plate 103, the third rotating plate 104 and the fourth rotating plate 105, wherein one end of the telescopic spring is fixedly arranged at one end of the inclined block 100 close to the bottom of the matching groove, two first hinge components are symmetrically arranged between the first rotating block 102 and the second rotating block 103, two second hinge assemblies are symmetrically arranged between the second rotating block 103 and the third rotating block 104, and two third hinge assemblies are symmetrically arranged between the third rotating block 104 and the fourth rotating block 105; first articulated subassembly is including fixed first installation axle, the fixed second installation axle, the cover that sets up on first installation axle and the installation epaxial mounting panel 175 of second, the fixed epaxial work torsional spring that sets up at first installation of rotatory piece side of second installation axle, cover on the rotatory piece side of second, the one end of work torsional spring is fixed to be set up on the mounting panel, the mounting panel is swing joint with first installation axle, the mounting panel is fixed connection with second installation axle, the structure of second articulated subassembly, third articulated subassembly is the same with the structure of first articulated subassembly.

The fixed component comprises a first movable cavity arranged on the first rotating block 102, a second movable cavity arranged on the second rotating block 103, a third movable cavity arranged on the third rotating block 104, a fourth movable cavity arranged on the fourth rotating block 105, a first movable inclined block 106 movably arranged in the first movable cavity, a second movable inclined block 107 movably arranged in the second movable cavity, a third movable inclined block 108 movably arranged in the third movable cavity, a rotating plate 110 fixedly arranged on the outer surface of the rotating shell 4, two sliding blocks 111 capable of reciprocating relative to two end faces of the rotating plate 110, two annular blocks 777 respectively and symmetrically arranged on the outer surface of the rotating shell 4 in front and back, a blocking block 788 fixedly arranged on the outer surface of the rotating shell 4, two scraping blocks 120 capable of moving around the two annular blocks 777, and two limiting grooves respectively and fixedly arranged on two sides of the bottom of the two scraping blocks 120, the two annular blocks are respectively positioned in the two limiting grooves, two second trapezoidal grooves are respectively and fixedly arranged on the end face of one end, close to the rotating plate 110, of each sliding block 111, two second trapezoidal grooves are respectively arranged on the two end faces of the rotating plate 110, and each second trapezoidal block is positioned in the second trapezoidal groove.

A supporting rod 300 is fixedly arranged on the end wall of the fixed space, two fixing plates 301 are respectively and fixedly arranged on the supporting rod 300 along the circumferential direction, two rectangular grooves are respectively arranged on each fixing plate 301, a rectangular scraping block 302 is respectively and fixedly arranged on each fixing plate 301, two first pushing slide blocks 303 are fixedly arranged on one rectangular scraping block 302, two second pushing slide blocks 304 are fixedly arranged on the other rectangular scraping block 302, the first pushing slide blocks 303 and the second pushing slide blocks 304 are uniformly distributed along the circumferential direction, two abutting rods 305 are respectively and fixedly arranged on the end surface of the fixed space, the two abutting rods 305 are uniformly distributed along the circumferential direction, a reset spring 306 is respectively and fixedly arranged between the end wall of one end of each rectangular groove close to the transmission shaft and the end of the rectangular hanging block 302 close to the transmission shaft, and two first one-way valves 308 are respectively arranged at the bottoms of the two grooves, two second one-way valves 309 are respectively arranged on the inner walls of the rotating spaces; the materials to be mixed are put into a fixed space, a motor is started to drive a rotary shell 4 to rotate, the rotary shell 4 drives a first rotary plate, a second rotary plate, a third rotary plate and a fourth rotary plate to rotate, the first rotary plate, the second rotary plate, the third rotary plate and the fourth rotary plate which are positioned on the upper side are close to a fixed plate 301, the distance between the first rotary plate, the second rotary plate, the third rotary plate and the fourth rotary plate which are positioned on the upper side is reduced, air pressure is increased, slurry can be sprayed out from a second one-way valve 309 positioned on the upper side, the sprayed slurry can be sprayed onto the inner wall of the fixed space, therefore, air in the slurry can be removed through impact force generated by collision of the slurry and the inner wall of the fixed space, meanwhile, the distance between the first rotary plate, the second rotary plate, the third rotary plate and the fourth rotary plate and the fixed plate 301 is increased, the air pressure is reduced, the slurry enters through the first one-way valve 308, and the first one-way valve on the lower side sucks the slurry and then discharges the slurry through the second one-way valve on the lower side, so that small particle solids and the slurry can be uniformly mixed, and a stirring effect is achieved, when the rotating plate 110 is in contact with the scraping blocks 120 during movement, the rotating plate 110 can push the scraping blocks 120 to stop for a preset time at the top and then start, and the scraping blocks 120 rotate and fall to the bottom due to gravity within the preset time after stopping, so that the slurry is stirred, and meanwhile, the rotating plate 110 can be in contact with the outer surface of the rotating shell during movement of the two scraping blocks 120, so that the small particle solids adhered to the outer surface of the rotating shell can be scraped back into the slurry again to be mixed, and the rotating plate 110 can also scrape the small particle solids adhered to the inner wall of the fixed space back into the slurry again to be stirred; when the rotating shell rotates, the fixed plate 301 contacts with the inner wall of the rotating space to scrape residual particles on the inner wall into slurry to participate in stirring again, when the inclined block 100 contacts with the fixed plate 301, the fixed plate 301 pushes the inclined block 100 to move towards the bottom of the matching groove through the inclined surface, the inclined block 100 pushes the push block 101 to be away from the first movable inclined block 106, the first movable inclined block 106 can reset to move out of the second movable cavity, the second movable inclined block 107 can reset to move out of the third movable cavity, the third movable inclined block 108 can reset to move out of the fourth movable cavity, and the abutting rod 305 can contact with the first rotating plate to turn over the first rotating plate, so that the first rotating plate can not be blocked by the fixed plate 301 when moving, the second rotating plate, the third rotating plate and the fourth rotating plate turn over in sequence to pass through one side of the fixed plate 301, and simultaneously the first rotating plate, the second rotating plate, the third rotating plate and the fourth rotating plate turn over in sequence to push the rotating, therefore, the residual particles on the rotating plate 50 can be scraped back into the slurry by contacting one surface of the first rotating plate, the second rotating plate, the third rotating plate and the fourth rotating plate, meanwhile, the rotating plate 50 is overturned to push the moving block 51 to move, the moving block 51 is reset after the residual particles adhered to the bottom of the groove are scraped into the slurry, the residual particles on the surface of the first rotating plate, the second rotating plate, the third rotating plate and the fourth rotating plate, which are contacted with one end of the fixed plate 301, can be scraped into the slurry by the fixed plate 301, when the first rotating plate, the second rotating plate, the third rotating plate and the fourth rotating plate are sequentially reset under the action of the working torsion spring through the fixed plate 301, the first pushing slide block 303 or the second pushing slide block 304 can be pushed to move, so as to drive the pushing plate to move to scrape the residual solid particles on the two end surfaces of the fixed plate 301 into the slurry, and push against the supporting rod through one end of, therefore, solid particles remained on the outer surface of the supporting rod can be scraped into the slurry, so that a large amount of solid particles can be prevented from remaining on the inner wall of the equipment during stirring, and the slurry cannot be sufficiently mixed; the arrangement of the stop block 788 can prevent the two scrapers from moving together, so that particles can be scraped from two sides of the outer surface of the rotary shell respectively.

The upper end wall of the rotating space is provided with a first electric control door 999, the lower end wall of the rotating space is provided with a second electric control door 1000, and the first electric control door and the second electric control door are in the prior art and are not described again.

A clamping block 500 is fixedly arranged on the third movable inclined block, a limiting spring 501 is fixedly arranged between the clamping block 500 and the fourth movable cavity, and the limiting modes of the first movable inclined block, the second movable inclined block and the third movable inclined block are the same as those of the fourth movable inclined block.

The first one-way valve is used for sucking liquid, the second one-way valve is used for discharging liquid, and the first one-way valve and the second one-way valve are in the prior art and are not described again.

The cross-section of the annular block is trapezoidal, the interface of the limiting groove is also trapezoidal, and the scraping block 120 cannot fall off from the annular block when the annular block is positioned in the limiting groove.

Claims (5)

1. A slurry mixing and stirring device for processing a battery pole piece comprises a fixed shell (1), a fixed space arranged in the fixed shell (1), a supporting seat (2) fixedly arranged on the lower end face of the fixed shell (1), a motor (3) fixedly arranged on the rear end face of the fixed shell (1), a mounting groove arranged on the rear end wall of the fixed space, a transmission shaft fixedly arranged at the output end of the motor (3) and positioned in the mounting groove, and a stirring device arranged on the transmission shaft; the stirring device comprises a rotary shell (4) fixedly arranged on the transmission shaft, a rotary space (5) arranged on the end face of the rotary shell (4), and two scraping components uniformly distributed on the upper inner wall of the rotary space in the circumferential direction.

2. The slurry mixing and stirring device for processing the battery pole piece, according to claim 1, is characterized in that: the scraping component comprises a groove arranged on the rotating space (5), a plurality of rotating plates (50) hinged to the bottom of the groove, first rectangular grooves respectively formed in the plurality of rotating plates (50), a moving block (51) capable of moving along the bottom of the groove, a second rectangular groove formed in the moving block (51), and a plurality of first trapezoidal grooves formed in the bottom of the groove, wherein a first trapezoidal block is fixedly arranged at one end, close to the first trapezoidal groove, of each moving block (51), each first trapezoidal block can slide in the first trapezoidal groove, an extrusion spring is fixedly arranged between each first trapezoidal block and each first trapezoidal groove, a torsion spring is fixedly arranged at the hinged position of each rotating plate (50), and one end of each torsion spring is fixedly arranged at the bottom of the groove.

3. The slurry mixing and stirring device for processing the battery pole piece, according to claim 2, is characterized in that: the scraping component also comprises a matching groove arranged on the inner wall of the rotating space, an inclined block (100) movably arranged in the matching groove, a telescopic spring fixedly arranged between the bottom of the matching groove and the inclined block (100), a push block (101) fixedly arranged on the inclined block (100), a first rotating shaft rotatably arranged on the rear end wall of the rotating space, a first rotating block (102) fixedly arranged on the first rotating shaft, a second rotating block (103) capable of rotating relative to the first rotating block (102), a third rotating block (104) capable of rotating relative to the second rotating block (103), a fourth rotating block (105) capable of rotating relative to the third rotating block (104), and a fixing component for fixing the first rotating block (102), the second rotating block (103), the third rotating block (104) and the fourth rotating block (105), wherein one end of the telescopic spring is fixedly arranged at one end, close to the bottom of the matching groove, of the inclined block (100), two first hinge assemblies are symmetrically arranged between the first rotating block (102) and the second rotating block (103), two second hinge assemblies are symmetrically arranged between the second rotating block (103) and the third rotating block (104), and two third hinge assemblies are symmetrically arranged between the third rotating block (104) and the fourth rotating block (105); first articulated subassembly is including fixed first installation axle, the fixed second installation axle, the cover that sets up on first installation axle and the installation epaxial mounting panel of second (175), the fixed epaxial work torsional spring that sets up at first installation on the rotatory piece side of second of setting on first rotatory piece (102) side, the one end of work torsional spring is fixed to be set up on the mounting panel, the mounting panel is swing joint with first installation axle, the mounting panel is fixed connection with second installation axle, the structure of second articulated subassembly, third articulated subassembly is the same with the structure of first articulated subassembly.

4. The slurry mixing and stirring device for processing the battery pole piece, according to claim 3, is characterized in that: the fixed assembly comprises a first movable cavity arranged on a first rotating block (102), a second movable cavity arranged on a second rotating block (103), a third movable cavity arranged on a third rotating block (104), a fourth movable cavity arranged on a fourth rotating block (105), a first movable inclined block (106) movably arranged in the first movable cavity, a second movable inclined block (107) movably arranged in the second movable cavity, a third movable inclined block (108) movably arranged in the third movable cavity, a rotating plate (110) fixedly arranged on the outer surface of the rotating shell (4), two sliding blocks (111) capable of reciprocating relative to two end faces of the rotating plate (110), two annular blocks (777) respectively and symmetrically arranged on the outer surface of the rotating shell (4), a stop block (788) fixedly arranged on the outer surface of the rotating shell (4), two scraping blocks (120) capable of moving around the two annular blocks (777), The two limiting grooves are respectively and fixedly arranged on two sides of the bottom of the scraping block (120), the two annular blocks are respectively located in the two limiting grooves, two second trapezoidal grooves are respectively and fixedly arranged on the end face, close to the rotating plate (110), of each sliding block (111), two second trapezoidal grooves are respectively arranged on the two end faces of the rotating plate (110), and each second trapezoidal block is located in each second trapezoidal groove.

5. The slurry mixing and stirring device for processing the battery pole piece, according to claim 1, is characterized in that: a supporting rod (300) is fixedly arranged on the end wall of the fixed space, two fixing plates (301) are respectively and fixedly arranged on the supporting rod (300) along the circumferential direction, two rectangular grooves are respectively arranged on each fixing plate (301), a rectangular scraping block (302) is respectively and fixedly arranged on each fixing plate (301), two first pushing sliding blocks (303) are fixedly arranged on one rectangular scraping block (302), two second pushing sliding blocks (304) are fixedly arranged on the other rectangular scraping block (302), the first pushing slide block (303) and the second pushing slide block (304) are uniformly distributed along the circumferential direction, two abutting rods (305) are fixedly arranged on the end faces of the fixed space respectively, the two abutting rods (305) are uniformly distributed along the circumferential direction, and a reset spring (306) is fixedly arranged between the end wall of one end, close to the transmission shaft, of each rectangular groove and one end, close to the transmission shaft, of each rectangular hanging block (302).

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