CN210489732U - Button cell positive plate apparatus for producing - Google Patents

Button cell positive plate apparatus for producing Download PDF

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Publication number
CN210489732U
CN210489732U CN201921501298.9U CN201921501298U CN210489732U CN 210489732 U CN210489732 U CN 210489732U CN 201921501298 U CN201921501298 U CN 201921501298U CN 210489732 U CN210489732 U CN 210489732U
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CN
China
Prior art keywords
crushing
cavity
forming
bulk
shell
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CN201921501298.9U
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Chinese (zh)
Inventor
郭少雄
吴玉双
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Fujian Jinde Power Technology Co ltd
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Fujian Jinde Power Technology Co ltd
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Priority to CN201921501298.9U priority Critical patent/CN210489732U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries

Abstract

The utility model relates to a button cell positive plate production device, which comprises a mixing mechanism for mixing raw materials, a drying mechanism for drying the mixed raw materials, a crushing mechanism for crushing the dried raw materials, and a forming mechanism for punch forming the crushed raw materials; the raw materials are mixed by the mixing mechanism and then put into the drying mechanism for drying, the dried raw materials are crushed by the crushing mechanism, and finally the crushed raw materials are punched by the forming mechanism to form the sheet-shaped positive plate. The utility model has the advantages of reasonable design, the mixture of raw materials, stoving and crushing effect are good, and the serialization shaping of being convenient for obtains the positive plate of high quality, improves production efficiency.

Description

Button cell positive plate apparatus for producing
The technical field is as follows:
the invention relates to a button cell positive plate production device.
Background art:
a button cell (button cell) is also called a button cell, and refers to a cell with an external dimension like a small button, which generally has a larger diameter and a thinner thickness. The button cell is widely applied to various miniature electronic products due to small body size, the diameter is from 4.8mm to 30mm, and the thickness is from 1.0mm to 7.7 mm; the power supply is generally used as a backup power supply for various electronic products, such as computer mainboards, electronic watches, electronic dictionaries, electronic scales, remote controllers and the like.
The existing production equipment for the button battery positive plate is not reasonable enough in structure, long in production period and capable of influencing production efficiency.
The utility model has the following contents:
the utility model discloses make the improvement to the problem that above-mentioned prior art exists, promptly the utility model aims to solve the technical problem that a button cell positive plate apparatus for producing is provided, not only reasonable in design can improve production efficiency moreover.
In order to realize the purpose, the utility model discloses a technical scheme is: a button cell positive plate production device comprises a mixing mechanism for mixing raw materials, a drying mechanism for drying the mixed raw materials, a crushing mechanism for crushing the dried raw materials, and a forming mechanism for punch forming the crushed raw materials,
the mixing mechanism comprises a mixing box body, a feed inlet is formed in one end of the top of the mixing box body, a bulk material component is arranged at the feed inlet, a stirring component is vertically arranged in the middle of the mixing box body, and a plurality of air blowing pipes used for blowing compressed air downwards are vertically arranged on the inner wall of the mixing box body;
the drying mechanism comprises a drying box body and an air blowing heating device, wherein a baking cavity is arranged in the drying box body, a hollow plate A and a hollow plate B are symmetrically arranged on the left side and the right side of the baking cavity, a hollow plate C for dividing the baking cavity into a left cavity and a right cavity is vertically arranged in the middle of the baking cavity, a plurality of supporting channels are arranged in the left cavity and the right cavity, and a material tray is placed on the supporting channels;
the crushing mechanism comprises a rotary vibration sieve, a crushing rack, a first crushing mechanism and a second crushing mechanism, wherein the first crushing mechanism and the second crushing mechanism are arranged on the crushing rack;
the forming mechanism comprises a forming frame, a forming rotating shaft is vertically arranged on the forming frame, a forming motor for driving the forming rotating shaft to rotate is arranged on the forming frame, a turntable A, a turntable B and a turntable C are arranged on the forming rotating shaft at intervals from top to bottom,
vertical holes A are uniformly distributed on the periphery of the outer side of the turntable A, the side parts of the vertical holes A are communicated with the periphery of the turntable A through a strip groove A, a stamping column in sliding fit with the vertical holes A is arranged in the vertical holes A, a male die is arranged at the lower end of the stamping column, a radial rod A is arranged on the periphery of the stamping column, a pulley A is arranged on the periphery of the radial rod A, an annular guide rail A arranged on a forming rack is arranged on the periphery of the turntable A in a surrounding mode, and the pulley A is erected on the;
mounting grooves are uniformly distributed on the periphery of the outer side of the upper side of the rotary disc B, a female die is mounted in the mounting grooves, a feeding hopper, a discharging guide plate B and a discharging inclined plate are mounted on the forming machine frame, an output port of the feeding hopper is positioned above the female die and attached to the upper side surface of the rotary disc B, the discharging guide plate B is mounted beside the output port of the feeding hopper and attached to the upper side surface of the rotary disc B, the discharging inclined plate is positioned on the lower side of the rear end of the discharging guide plate, and the;
vertical holes B are uniformly distributed on the periphery of the outer side of the turntable C, the side parts of the vertical holes B are communicated with the periphery of the turntable C through the grooves B, ejection columns in sliding fit with the vertical holes B are arranged in the vertical holes B, ejector rods are mounted at the upper ends of the ejection columns, a top plate is mounted at the top of a cavity of the female die, the lower ends of the top plate are connected with the upper ends of the ejector rods, radial rods B are mounted on the periphery of the ejection columns, pulleys B are mounted on the periphery of the radial rods B, an annular guide rail B mounted on the forming rack is arranged on the periphery; the punching columns, the top columns and the female dies are arranged in a one-to-one correspondence manner.
Furthermore, the bulk material assembly comprises a feeding pipe connected with the feeding hole, a bulk material shaft driven by a bulk material motor A to rotate is longitudinally arranged in the feeding pipe, and a plurality of bulk material rods are uniformly arranged on the outer wall of the bulk material shaft along the axis direction; the stirring assembly comprises a vertical stirring shaft which is arranged in the middle of the mixing box body and is driven to rotate by a stirring motor, a plurality of stirring rods are uniformly arranged on the outer wall of the stirring shaft along the axis direction, the stirring rods are horizontally arranged, and the end, away from the stirring shaft, of each stirring rod is fixedly connected with a turnover plate.
Furthermore, a plurality of vertical baffles are uniformly arranged on the inner wall of the mixing box body along the circumferential direction, and the vertical edge of one end, close to the stirring assembly, of each vertical baffle is in a sawtooth shape; a plurality of bulk material claws are uniformly arranged on the inner wall of the mixing box body along the circumferential direction, the bulk material claws are driven by a bulk material motor B positioned outside the mixing box body to rotate bulk materials, and the bulk material claws are in a horizontal U shape; the bottom of mixing the box is provided with the discharge gate, discharge gate department is provided with discharge valve.
Further, the blowing heating device comprises a blowing motor, a fixing frame and a fan, wherein the fixing frame is arranged on the upper part of the drying box body, the blowing motor is vertically and upwards arranged on the fixing frame, a cavity for accommodating the fan is formed in the upper part in the drying box body, the fan is vertically arranged in the cavity, a resistance wire is arranged at the lower part of the fan, an air outlet is formed in the lower part of the cavity, a backflow port is formed in the lower part of the cavity, an opening communicated with the outside is formed in the upper part of the cavity, the fan is arranged at the lower end of a rotating shaft, the rotating shaft is vertically arranged on the box body, the upper end of the; the cavity board C left and right sides face is last, be provided with a plurality of ventilation holes on cavity board A medial surface and the cavity board B medial surface, and the gas outlet has all been seted up to cavity board A and cavity board B upper end, and the air inlet has all been seted up to cavity board C upper end, and cavity board C's air inlet is connected with the gas outlet of cavity through the pipeline, and cavity board A and cavity board B's gas outlet is all continuous through the backward flow mouth on pipeline and the cavity.
Furthermore, the two L-shaped angle irons are symmetrically arranged on the support channel, and the vertical parts of the two L-shaped angle irons are respectively welded on the left and right side walls of the left cavity or the left and right side walls of the right cavity in a bilateral symmetry manner; an air outlet is formed in the upper portion of the drying box body, and air outlets of the hollow plate A and the hollow plate B are connected with the air outlet through pipelines with electromagnetic valves.
Furthermore, the first crushing mechanism comprises a shell A, a motor A and a speed reducer which are installed on a crushing rack, wherein an upper roller and a lower roller which are transversely arranged are arranged in the shell A from top to bottom, a gap which is favorable for passing materials exists between the upper roller and the lower roller, an output shaft of the crushing motor is connected with an input shaft of the speed reducer through a coupling, the speed reducer is provided with two output shafts with opposite rotation directions, the two output shafts are respectively connected with a rotating shaft part on one side of the upper roller and one side of the lower roller through the coupling, a feeding guide plate and a discharging guide plate A which are tangent with the lower roller are respectively installed on the front side and the rear side of the upper part of the lower roller in the shell A, the output end of; the second crushing mechanism comprises a shell B and a motor B which are installed on a crushing rack, a transverse crushing rotating shaft is installed in the middle of the shell B, a knife rest is installed on the crushing rotating shaft, a crushing cutter is installed on the knife rest, a feeding port in the upper end of the shell B is connected with a discharging channel, and a discharging port in the lower end of the shell B is connected with a feeding end of a rotary vibrating screen through a pipeline.
Further, the feeding pipe is arranged transversely, a feeding rotating shaft is installed in the feeding pipe, dragon blades are welded on the feeding rotating shaft, a motor C is installed on the crushing rack, and an output shaft of the motor C is connected with the rear end of the feeding rotating shaft through a coupler; the knife rest comprises three sleeves, the sleeves are fixedly arranged on the crushing rotating shaft, at least three swing arms extend outwards along the radial direction from the periphery of each sleeve, the tail ends of the swing arms of the three sleeves are connected through a crushing shaft, the axis of the crushing shaft is parallel to the axis of each sleeve, a rotary drum is sleeved between every two adjacent swing arms on the crushing shaft, crushing cutters are arranged on the rotary drum at intervals, gear rings matched with the crushing cutters are arranged on the inner wall of the shell B, cutter teeth are arranged on the gear rings, and the gear rings are spirally distributed on the inner wall of the cylindrical shell; the crushing cutter is a hammer sheet, and protruding teeth are arranged on the outer side of the hammer sheet.
Further, a screen is arranged at a discharge port at the lower end of the shell B; the lower end of the shell A is provided with a blanking port, and the blanking port is connected with a feeding end of the rotary vibrating screen through a pipeline; a scraper tangent with the upper roller is arranged on the front side of the lower part of the upper roller in the shell A; the upper roller and the lower roller are arranged in the shell A through bearing blocks, and the crushing rotating shaft is arranged in the shell B through the bearing blocks.
Further, the male die is locked at the lower end of the stamping column through a screw, and the female die is locked in the mounting groove through a screw; a rubber sleeve is sleeved at the end part of the output port of the feeding hopper, and the lower side surface of the rubber sleeve is attached to the upper side surface of the turntable B; the upper end of the turntable C is provided with a guide sleeve which is coaxial with the vertical hole B, and the inner diameter of the guide sleeve is the same as that of the vertical hole B; the guide sleeve and the turntable C are manufactured into a whole; the length of the stamping column is greater than that of the vertical hole A, and the length of the top column is greater than that of the vertical hole B.
Compared with the prior art, the utility model discloses following effect has: the utility model has the advantages of reasonable design, the mixture of raw materials, stoving and crushing effect are good, and the serialization shaping of being convenient for obtains the positive plate of high quality, improves production efficiency.
Description of the drawings:
FIG. 1 is a schematic production flow diagram of an embodiment of the present invention;
FIG. 2 is a schematic front view of the mixing mechanism according to the embodiment of the present invention;
FIG. 3 is a schematic top view of the mixing mechanism (omitting the stirring assembly) according to the embodiment of the present invention;
FIG. 4 is a schematic view of the front view of the drying mechanism in the embodiment of the present invention;
FIG. 5 is an enlarged schematic view at A in FIG. 4;
fig. 6 is a schematic view of the structure of the crushing mechanism in the embodiment of the present invention;
FIG. 7 is a schematic view of the configuration of a blade carrier in the crushing mechanism;
FIG. 8 is a schematic view of the structure of the forming mechanism in the embodiment of the present invention;
fig. 9 is a schematic view of the mating structure of the endless track in the forming mechanism.
In FIGS. 2 to 3:
1 a-a mixing box body; 2 a-bulk assembly; 3 a-a feed inlet; 4 a-a stirring assembly; 5 a-an air blowing pipe; 6 a-a feed pipe; 7 a-bulk shaft; 8 a-bulk bar; 9 a-a stirring shaft; 10 a-a stir bar; 11 a-bulk claw; 12 a-bulk motor B; 13 a-a flipping panel; 14 a-a stirring motor; 15 a-vertical baffle; 16 a-a vibration exciter; 17 a-a discharge port;
in FIGS. 4 to 5:
1 b-drying the box body; 11 b-hollow plate C; 12 b-hollow plate a; 121 b-a vent hole; 13B-hollow plate B; 14 b-a material tray; 15 b-an exhaust port; 16 b-a temperature and humidity sensor; 17 b-a support channel; 21 b-a spring; 22 b-universal wheels; 23 b-a scaffold; 3 b-an electric cabinet; 4 b-a blowing heating device; 41 b-a mount; 42 b-a blower motor; 43 b-a sleeve; 44 b-a rotation axis; 45 b-a fan; 46 b-resistance wire; 47 b-a reflux port;
in FIGS. 6 to 7:
1 c-rotating and vibrating a sieve; 2 c-a first crushing mechanism; 201 c-shell A; 202 c-upper roller; 203 c-a bottom roll; 204 c-a blanking port; 205 c-a feeding guide plate; 206 c-discharge guide plate A; 207 c-a squeegee; 3 c-a second crushing mechanism; 301 c-housing B; 302 c-crushing rotor shaft; 303 c-tool holder; 304 c-a sleeve; 305 c-swing arm; 306 c-rotating drum; 307 c-crushing shaft; 4 c-feeding a hopper; 5C-Motor C; 6 c-a feeding pipe; 7 c-a discharge channel; 8 c-a crushing cutter; 9 c-a screen;
in FIGS. 8 to 9:
1 d-a forming frame; 2 d-forming the rotating shaft; 3 d-forming the motor; 4 d-a reducer; 5 d-Gear B; 6 d-Gear A; 7 d-turntable C; 701 d-top column; 702 d-groove B; 703 d-radial bar B; 704 d-Pulley B; 705 d-Top rod; 706 d-guide sleeve; 8 d-turntable B; 9 d-turntable A; 901 d-punching the column; 902 d-groove A; 903 d-radial rod A; 904 d-Pulley A; 10 d-feeding hopper; 11 d-a discharge guide plate B; 12 d-a blanking inclined plate; 13 d-male die; 14 d-a concave die; 15 d-ring rail A; 16 d-ring guide B.
The specific implementation mode is as follows:
the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
In this example, the positive electrode sheet of the button cell was prepared by mixing manganese dioxide, graphite, carbon black, a polytetrafluoroethylene concentrated dispersion, and other raw materials.
As shown in fig. 1, the utility model relates to a button cell positive plate apparatus for producing, include the mixing mechanism that is used for mixing the raw materials, be used for carrying out the stoving mechanism of drying with the raw materials after mixing, be used for carrying out broken mechanism, be used for the forming mechanism to the raw materials stamping forming after the breakage with the raw materials after drying.
As shown in fig. 2 to 3, the mixing mechanism includes a mixing box 1a, a feed inlet 3a is provided at one end of the top of the mixing box 1a, a bulk material component 2a is provided at the feed inlet 3a, a stirring component 4a is vertically provided at the middle part of the mixing box 1a, a plurality of blowing pipes 5a for blowing compressed air downwards are vertically provided on the inner wall of the mixing box 1a, and the raw materials in the mixing box 1a can be scattered by blowing the compressed air downwards; the bulk material assembly 2a comprises a feeding pipe 6a connected with the feeding port 3a, a bulk material shaft 7a driven by a bulk material motor A to rotate is longitudinally arranged in the feeding pipe 6a, a plurality of bulk material rods 8a are uniformly arranged on the outer wall of the bulk material shaft 7a along the axis direction, and the bulk material shafts are used for driving the bulk material rods to rotate, so that raw materials entering the mixing box body 1a can be scattered, and the raw materials can enter the mixing box body 1a in a scattered state; the stirring assembly 4a comprises a stirring shaft 9a which is vertically arranged in the middle of the mixing box body 1a and is driven to rotate by a stirring motor 14a, a plurality of stirring rods 10a are uniformly arranged on the outer wall of the stirring shaft 9a along the axis direction, and the stirring shaft 9a drives the stirring rods 10a to rotate so as to complete the stirring of the raw materials; the inner wall of mixing box 1a has evenly arranged a plurality of bulk cargo claw 11a along circumference, bulk cargo claw 11a is driven by bulk cargo motor B12a that is located mixing box 1a outside and is rotated the bulk cargo. Cooperate through stirring rod, bulk cargo claw and gas blow pipe three of blowing, mix the raw materials from a plurality of directions, not only increaseed the mixing speed of material, improved production efficiency, had good mixed effect moreover.
In this embodiment, the axis of the bulk material rod 8a is perpendicular to the axis of the bulk material shaft 7a, and the bulk material rod 8a is wavy; the wavy bulk cargo stick can improve the dispersion degree of contacting with the raw materials, and then improve the scattering effect.
In this embodiment, stirring rod 10a level sets up, and stirring rod 10a keeps away from the one end of (mixing) shaft 9a and has linked firmly returning face plate 13a, drives the raw materials through returning face plate 13a and overturns.
In this embodiment, the stirring motor 14a is installed on the top of the mixing box 1 a.
In this embodiment, a plurality of vertical baffles 15a are uniformly arranged on the inner wall of the mixing box 1a along the circumferential direction, so as to block the raw materials and heat the mixing uniformity of the raw materials; the vertical edge of the vertical baffle 15a close to one end of the stirring assembly 4a is in a sawtooth shape, so that the flow resistance can be reduced, the stirring efficiency is improved, and the stirring uniformity is ensured.
In this embodiment, the material-dispersing claw 11a is in a horizontal U shape.
In this embodiment, the upper end of the mixing box 1a is cylindrical and the lower end is funnel-shaped.
In this embodiment, the vibration exciter 16a is arranged on the outer wall of the lower end of the mixing box body 1a, and the vibration exciter generates vibration, so that the raw materials are prevented from being accumulated at the lower end of the mixing box body.
In this embodiment, the bottom of mixing box 1a is provided with discharge gate 17a, discharge gate department is provided with the discharge valve.
As shown in fig. 4-5, the drying mechanism comprises a drying box body 1B and an air blowing heating device 4B, a baking cavity is arranged in the drying box body, hollow plates a12B and a hollow plate B13B are symmetrically arranged on the left side and the right side of the baking cavity, a hollow plate C11B for dividing the baking cavity into a left cavity and a right cavity is vertically arranged in the middle of the baking cavity, a plurality of supporting channels 17B are arranged in the left cavity and the right cavity, and a material tray 14B is arranged on the supporting channels 17B;
the blowing heating device 4b comprises a blowing motor 42b, a fixing frame 41b and a fan 45b, the fixing frame 41b is installed on the upper portion of the drying box body 1b, the blowing motor 42b is vertically upwards installed on the fixing frame 41b, a cavity for accommodating the fan 45b is formed in the upper portion of the inside of the drying box body 1b, the fan 45b is vertically installed in the cavity, a resistance wire 46b is installed on the lower portion of the fan, a gas outlet is formed in the lower portion of the cavity, a backflow port 47b is formed in the lower portion of the cavity, an opening communicated with the outside is formed in the upper portion of the cavity, the fan 45b is installed at the lower end of a rotating shaft 44b, the rotating shaft 44b is vertically installed on the drying box body 1, the upper end of the rotating shaft 44b penetrates out of the cavity and is.
On the hollow plate C11B left and right sides face, the hollow plate A12B is inboard, all be provided with a plurality of ventilation holes on the hollow plate B13B medial surface, the gas outlet has all been seted up to hollow plate A12B and hollow plate B13B upper end, the air inlet has all been seted up to hollow plate C11B upper end, the air inlet of hollow plate C11B is connected with the gas outlet of cavity through the pipeline, the gas outlet of hollow plate A12B and hollow plate B13B all links to each other with the backward flow mouth 47B on the cavity through the pipeline. The blowing heating device 4b blows in the hollow plate C11b through the pipeline after heating the gas, gets into left and right chamber through the bleeder vent on the both sides face of hollow plate C11b, then gets into hollow plate A, B through the ventilation hole on the inboard board of hollow plate A, B, then returns to the blowing heating device through the pipeline and gives vent to anger the end, realizes the cyclic utilization of remaining heat energy.
In this embodiment, two L-shaped angle irons symmetrically arranged on the support channel 17b, the vertical portions of the two L-shaped angle irons are respectively welded on the left and right side walls of the left cavity or the right and left side walls of the right cavity in a bilateral symmetry manner.
In this embodiment, the rotating shaft 44b is provided with a bearing seat, and the bearing seat is fixedly installed on one side of the fixed frame.
In this embodiment, the upper portion of the drying cabinet 1b is provided with an exhaust port 15b, and the air outlets of the hollow plates A, B are connected to the exhaust port 15b through a pipeline with an electromagnetic valve.
In this embodiment, temperature and humidity sensors 16b are disposed in the left and right cavities.
In this embodiment, electric cabinet 3b is installed to stoving box 1b one side, and the electric cabinet includes the box body, is provided with the power in the box body, with power electric connection's automatically controlled ware, humiture panel, power, automatically controlled ware are equallyd divide and are do not connected with solenoid valve, humiture panel electricity on motor, resistance wire, temperature and humidity sensor, gas vent and the air inlet, temperature and humidity panel electricity is even connected, temperature and humidity sensor and humiture panel electricity are even connected.
In this embodiment, confirm the humiture of toasting the intracavity through observing the numerical value on the humiture panel, adjust resistance wire power and the solenoid valve opening on the gas vent intake pipe through the electric cabinet, and then temperature regulation and humidity.
In this embodiment, drying box 1b lower part is provided with a plurality of wheels that remove, removes the wheel and includes support 23b and install universal wheel 22b at support lower 23b end, and support 23b is connected with drying box 1b through spring 21b, avoids leading to drying box unbalance because of the unsmooth ground through the spring.
When the drying mechanism is used, raw materials are placed on the material disc 14b firstly, the material disc 14b is placed on the supporting channel 17b, a box door of the drying box body 1b is closed, a power supply is started, the blowing motor 42b is controlled to be started and drive the fan 45b to rotate, then the resistance wire 46b is electrified and heated, hot air enters the hollow plate C11b from the fan along a pipeline and then enters the baking cavity, the raw materials are dried, the hot air flows back to the fan 45b through the hollow plate A, B through the pipeline and circulates continuously until baking is completed, the heating resistance wire is stopped firstly, an exhaust port is opened until the temperature is reduced to normal temperature, the motor is closed, the box door is opened, the material disc is taken out, and drying is completed.
As shown in fig. 6 to 7, the crushing mechanism includes a rotary vibration sieve 1c, a crushing frame, a first crushing mechanism 2c and a second crushing mechanism 3c, the first crushing mechanism 2c and the second crushing mechanism 3c are mounted on the crushing frame, a feeding hopper 4c is mounted on the crushing frame, an output port of the feeding hopper 4 is connected with a feeding end of the first crushing mechanism 2c through a feeding pipe 6c, a discharging end of the first crushing mechanism 2c is connected with a feeding end of the second crushing mechanism 3c through a discharging channel 7c, and a discharging end of the second crushing mechanism 3c is connected with the feeding end of the rotary vibration sieve 1c through a pipeline.
In this embodiment, first crushing mechanism 2c is including installing casing A201c, motor A, the reduction gear in the crushing frame, be provided with horizontal last roller 202c, lower roller 203c from top to bottom in casing A201c, there is the clearance that does benefit to the material and pass through between last roller 202c, the lower roller 203c, crushing motor's output shaft is through coupling joint speed reducer input shaft, the speed reducer sets up two output shafts that turn to opposite, two output shafts are respectively through the pivot portion of coupling joint top running roller 202c, lower roller 203c one side, two output shaft output rotational speeds are the same, pan feeding guide plate 205c, ejection of compact guide plate A206c, ejection of compact guide plate A206c output connects discharging channel 7c, pan feeding pipe 6c is connected to pan feeding guide plate 205c input in casing A201c both sides around lower roller 203 upper portion respectively.
In this embodiment, the second crushing mechanism 3 includes a housing B301c and a motor B mounted on a crushing rack, a horizontal crushing rotating shaft 302c is mounted in the middle of the housing B301c, a knife rest 303c is mounted on the crushing rotating shaft 302c, a crushing cutter 8c is mounted on the knife rest 303c, a feeding port at the upper end of the housing B301c is connected with the discharging channel 7, and a discharging port at the lower end of the housing B301 is connected with a feeding end of the rotary vibrating screen 1c through a pipeline.
When crushing mechanism used: the raw materials are firstly rolled by an upper roller 202c and a lower roller 203c in the first crushing mechanism 2c, large particles are rolled into small particles, then the small particles enter the second crushing mechanism 3c, are further crushed by a crushing cutter 8c, and then enter the rotary vibration sieve 1 to separate the raw materials meeting the requirements.
In this embodiment, pan feeding pipe 6C is horizontal, installs the pan feeding pivot in the pan feeding pipe 6C, and the welding of pan feeding pivot has the flood dragon blade, installs motor C5C in the crushing frame, and motor C5C's output shaft is through coupling joint pan feeding pivot rear end.
In this embodiment, the tool holder 303 includes three sleeves 304c, the sleeves 304c are fixedly mounted on the crushing rotating shaft 302c, at least three swing arms 305c extend outward in the radial direction from the outer periphery of the sleeve 304, the ends of the swing arms 305c of the three sleeves 304c are connected through a crushing shaft 307c, the axis of the crushing shaft 307c is parallel to the axis of the sleeve 304c, a rotating drum 306c is sleeved between adjacent swing arms 305c on the crushing shaft 307c, and crushing tools 8c are arranged on the rotating drum 306c at intervals.
In this embodiment, in order to improve crushing effect, shell B301c inner wall is installed and is smashed cutter 8c matched with ring gear, be provided with the sword tooth on the ring gear, ring gear spiral distribution is in tube-shape shell B inner wall.
In this embodiment, the crushing cutter 8c is a hammer, and the outer side of the hammer is provided with protruding teeth.
In this embodiment, a screen 9c is installed at a discharge port at the lower end of the casing B301 c.
In this embodiment, the lower end of the casing a201c is provided with a blanking port 204c, and the blanking port 204c is connected to the feeding end of the rotary vibrating screen 1c through a pipeline.
In this embodiment, a scraper 207 is attached to the front side of the lower portion of the upper roller 202c in the casing a201c so as to be tangent to the upper roller 202 c.
In this embodiment, the upper roller 202c and the lower roller 203c are mounted in the casing a201c via bearing blocks, and the crushing rotating shaft 302 is mounted in the casing B301c via bearing blocks.
As shown in fig. 8 to 9, the forming mechanism includes a forming frame 1d, a forming spindle 2d is vertically installed on the forming frame 1d, a forming motor 3d for driving the forming spindle 2d to rotate is installed on the forming frame 1d, and a turntable A9d, a turntable B8d and a turntable C7d are arranged on the forming spindle 2d at intervals from top to bottom;
vertical holes A are uniformly distributed on the outer circumference of the turntable A9d, the side part of each vertical hole A is communicated with the outer periphery of the turntable A9d through a strip groove A902d, a stamping column 901d in sliding fit with the vertical hole A is arranged in the vertical hole A, a male die 13d is installed at the lower end of the stamping column 901d, a radial rod A903d is installed on the peripheral side of the stamping column 901d, a pulley A901d is installed on the peripheral side of a radial rod A903d, an annular guide rail A15d installed on the forming rack 1d is annularly arranged on the peripheral of the turntable A9d, and the pulley A901d is erected on the annular guide rail A15;
mounting grooves are uniformly distributed on the outer periphery of the upper side surface of the rotary disc B8d, a female die 14d is mounted in the mounting grooves, a feeding hopper 10d, a discharging guide plate B11d and a discharging inclined plate 12d are mounted on the forming rack 1d, the output port of the feeding hopper 10d is positioned above the female die 14d and attached to the upper side surface of the rotary disc B8d, a discharging guide plate B11d is mounted beside the output port of the feeding hopper 10d and attached to the upper side surface of the rotary disc B8d, the discharging inclined plate 12d is positioned on the lower side of the rear end of the discharging guide plate B11d, and the upper end of the discharging inclined plate;
vertical holes B are uniformly distributed on the periphery of the outer side of the turntable C7d, the side part of each vertical hole B is communicated with the periphery of the turntable C7d through a strip groove B702d, a top column 701d in sliding fit with the vertical hole B is arranged in the vertical hole B, a top rod 705d is arranged at the upper end of the top column 701d, a top plate is arranged at the top of a cavity of the female die 14d, the lower end of the top plate is connected with the upper end of the top rod 705d, a radial rod B703d is arranged on the peripheral side of the top column 701d, a pulley B704d is arranged on the periphery of the radial rod B703d, an annular guide rail B16d arranged on the forming rack 1d is annularly arranged on the peripheral of the turntable C7d, the pulley B704d is erected on the annular; the annular guide rail A15d and the annular guide rail B16d are matched with each other, and are provided with a high guide surface and a low guide surface, the high guide surface and the low guide surface are connected through an inclined guide surface, the high guide surface of the annular guide rail A15d is correspondingly matched with the high guide surface of the annular guide rail B16d, the low guide surface of the annular guide rail A15d is correspondingly matched with the low guide surface of the annular guide rail B16d, so that when the punching column 901d descends for punching, the ejection column 701d descends to a low position, when the punching column 901d finishes punching, the ejection column 701d ascends to eject a formed positive plate, the output ports of the discharge guide plate B11d and the feeding hopper 10d are both positioned above the high guide surface of the annular guide rail B16d, and in order that the ejected formed positive plate is guided out by the discharge guide plate B11d, and a guide slope is arranged above the cavity of the concave die 14.
When the forming mechanism is used, the forming motor 3d drives the forming rotating shaft 2d to rotate, the pulley A904d and the pulley B704d respectively move on the annular guide rail A15d and the annular guide rail B16d to respectively drive the punching column 901d and the ejection column 701d to act, raw materials enter the female die 14d from the feeding hopper 10d through an output port, then the punching column 901d drives the male die 13d to descend and enter the female die 14d to punch and form the raw materials into positive plates, after the punching and forming, the punching column 901d drives the male die 13d to ascend and reset, the ejection column 701d drives the ejection rod 705d to ascend to eject the positive plates, and the positive plates are guided by the discharging guide plate B11d and fall into the discharging inclined plate 12d to be output.
In this embodiment, the male die 13d is fastened to the lower end of the stamping column 901d by screws, and the female die 14d is fastened to the mounting groove by screws, so that the female die and the male die can be replaced by detachable arrangements.
In this embodiment, the end of the output port of the feeding hopper 10d is sleeved with a rubber sleeve, and the lower side surface of the rubber sleeve is attached to the upper side surface of the turntable B8 d.
In this embodiment, the upper end of the turntable C7d is provided with a guide sleeve 8d coaxial with the vertical hole B, and the inner diameter of the guide sleeve 8d is the same as that of the vertical hole B.
In this embodiment, a forming motor 3d and a speed reducer are installed on the upper portion of the forming frame 1d, a gear A6d is installed at the lower end of the forming rotating shaft 2d, an output shaft of the forming motor 3d is connected with an input shaft of the speed reducer through a coupling, and a gear B5d which is in meshing transmission with the gear A6d is installed on an output shaft of the speed reducer.
In this embodiment, the guide sleeve 706d is integrally formed with the turntable C7 d.
In this embodiment, the length of the stamping column 901d is greater than that of the vertical hole a, and the length of the top column 701d is greater than that of the vertical hole B.
In this embodiment, the operation includes the following steps:
step S1, mixing raw materials:
step S11: starting a bulk material motor A and driving a bulk material rod 8a to rotate through a bulk material shaft 7a, pouring raw materials such as manganese dioxide, graphite, carbon black, polytetrafluoroethylene concentrated dispersion liquid and the like into a mixing box body 1a along a feeding pipe 6a in sequence, and scattering the poured raw materials by the rotating bulk material rod 8 a;
step S12: the stirring motor 14a is started and drives the stirring rod 10a to rotate through the stirring shaft 9a, the stirring rod 10a stirs the mixed raw materials in the mixing box body 1a, meanwhile, the air blowing pipe 5a blows compressed air downwards, the bulk material motor B12a is started and drives the bulk material claw 11a to rotate, and the bulk material claw 11a rotates bulk materials;
step S2, drying the raw materials: manually taking out the raw materials mixed in the step S1 and placing the raw materials on a material tray 14B, placing the material tray 14B on a supporting channel 17B, closing a box door of a drying box body 1B, starting a blowing motor 42B and electrifying and heating a resistance wire 46B, driving a fan 45B to rotate by the blowing motor 42B, enabling hot air to enter a hollow plate C from the fan along a pipeline, then entering a baking cavity, drying the raw materials, and enabling the hot air to flow back to the fan 45B through the hollow plate A12B and the hollow plate B13B through the pipeline and circulate continuously until the baking is finished;
step S3, crushing raw materials: manually taking out the dried raw material obtained in the step S2 and pouring the dried raw material into a feeding hopper 4c, rolling the raw material by an upper roller 202c and a lower roller 203c in a first crushing mechanism 2c, rolling large particles into small particles, then feeding the small particles into a second crushing mechanism 3c, further crushing the small particles by a crushing cutter 8c, and then feeding the small particles into a rotary vibration sieve 1c to sieve the raw material meeting the requirements;
step S4, press forming: the forming motor 3d is started and drives the forming rotating shaft 2d to rotate, the pulley A904d and the pulley B704d respectively move on the annular guide rail A15d and the annular guide rail B16d to respectively drive the punching column 901 and the ejection column 701d to act, raw materials enter the female die 14d from the feeding hopper 10d through an output port, then the punching column 901 drives the male die 13d to descend and enter the female die 14d to punch and form the raw materials into a positive plate, after the punching and forming, the punching column 901d drives the male die 13d to ascend and reset, the ejection column 701d drives the ejection rod 705d to ascend to eject the positive plate, and the positive plate falls into the blanking inclined plate 12d to be output after being guided by the discharging guide plate B11 d.
The above is only the preferred embodiment of the present invention, and all the equivalent changes and modifications made according to the claims of the present invention should be covered by the present invention.

Claims (9)

1. The utility model provides a button cell positive plate apparatus for producing which characterized in that: comprises a mixing mechanism for mixing the raw materials, a drying mechanism for drying the mixed raw materials, a crushing mechanism for crushing the dried raw materials, and a forming mechanism for punch forming the crushed raw materials,
the mixing mechanism comprises a mixing box body, a feed inlet is formed in one end of the top of the mixing box body, a bulk material component is arranged at the feed inlet, a stirring component is vertically arranged in the middle of the mixing box body, and a plurality of air blowing pipes used for blowing compressed air downwards are vertically arranged on the inner wall of the mixing box body;
the drying mechanism comprises a drying box body and an air blowing heating device, wherein a baking cavity is arranged in the drying box body, a hollow plate A and a hollow plate B are symmetrically arranged on the left side and the right side of the baking cavity, a hollow plate C for dividing the baking cavity into a left cavity and a right cavity is vertically arranged in the middle of the baking cavity, a plurality of supporting channels are arranged in the left cavity and the right cavity, and a material tray is placed on the supporting channels;
the crushing mechanism comprises a rotary vibration sieve, a crushing rack, a first crushing mechanism and a second crushing mechanism, wherein the first crushing mechanism and the second crushing mechanism are arranged on the crushing rack;
the forming mechanism comprises a forming frame, a forming rotating shaft is vertically arranged on the forming frame, a forming motor for driving the forming rotating shaft to rotate is arranged on the forming frame, a turntable A, a turntable B and a turntable C are arranged on the forming rotating shaft at intervals from top to bottom,
vertical holes A are uniformly distributed on the periphery of the outer side of the turntable A, the side parts of the vertical holes A are communicated with the periphery of the turntable A through a strip groove A, a stamping column in sliding fit with the vertical holes A is arranged in the vertical holes A, a male die is arranged at the lower end of the stamping column, a radial rod A is arranged on the periphery of the stamping column, a pulley A is arranged on the periphery of the radial rod A, an annular guide rail A arranged on a forming rack is arranged on the periphery of the turntable A in a surrounding mode, and the pulley A is erected on the;
mounting grooves are uniformly distributed on the periphery of the outer side of the upper side of the rotary disc B, a female die is mounted in the mounting grooves, a feeding hopper, a discharging guide plate B and a discharging inclined plate are mounted on the forming machine frame, an output port of the feeding hopper is positioned above the female die and attached to the upper side surface of the rotary disc B, the discharging guide plate B is mounted beside the output port of the feeding hopper and attached to the upper side surface of the rotary disc B, the discharging inclined plate is positioned on the lower side of the rear end of the discharging guide plate, and the;
vertical holes B are uniformly distributed on the periphery of the outer side of the turntable C, the side parts of the vertical holes B are communicated with the periphery of the turntable C through the grooves B, ejection columns in sliding fit with the vertical holes B are arranged in the vertical holes B, ejector rods are mounted at the upper ends of the ejection columns, a top plate is mounted at the top of a cavity of the female die, the lower ends of the top plate are connected with the upper ends of the ejector rods, radial rods B are mounted on the periphery of the ejection columns, pulleys B are mounted on the periphery of the radial rods B, an annular guide rail B mounted on the forming rack is arranged on the periphery;
the punching columns, the top columns and the female dies are arranged in a one-to-one correspondence manner.
2. The button cell positive plate production device according to claim 1, characterized in that: the bulk material assembly comprises a feeding pipe connected with a feeding port, a bulk material shaft driven by a bulk material motor A to rotate is longitudinally arranged in the feeding pipe, and a plurality of bulk material rods are uniformly arranged on the outer wall of the bulk material shaft along the axis direction; the stirring assembly comprises a vertical stirring shaft which is arranged in the middle of the mixing box body and is driven to rotate by a stirring motor, a plurality of stirring rods are uniformly arranged on the outer wall of the stirring shaft along the axis direction, the stirring rods are horizontally arranged, and the end, away from the stirring shaft, of each stirring rod is fixedly connected with a turnover plate.
3. The button cell positive plate production device according to claim 1, characterized in that: a plurality of vertical baffles are uniformly arranged on the inner wall of the mixing box body along the circumferential direction, and the vertical edge of one end, close to the stirring assembly, of each vertical baffle is in a sawtooth shape; a plurality of bulk material claws are uniformly arranged on the inner wall of the mixing box body along the circumferential direction, the bulk material claws are driven by a bulk material motor B positioned outside the mixing box body to rotate bulk materials, and the bulk material claws are in a horizontal U shape; the bottom of mixing the box is provided with the discharge gate, discharge gate department is provided with discharge valve.
4. The button cell positive plate production device according to claim 1, characterized in that: the blowing heating device comprises a blowing motor, a fixing frame and a fan, wherein the fixing frame is arranged on the upper part of the drying box body, the blowing motor is vertically and upwards arranged on the fixing frame, a cavity for accommodating the fan is formed in the upper part in the drying box body, the fan is vertically arranged in the cavity, a resistance wire is arranged at the lower part of the fan, an air outlet is formed in the lower part of the cavity, a backflow port is formed in the lower part of the cavity, an opening communicated with the outside is formed in the upper part of the cavity, the fan is arranged at the lower end of a rotating shaft, the rotating shaft is vertically arranged on the box body, the upper end; the cavity board C left and right sides face is last, be provided with a plurality of ventilation holes on cavity board A medial surface and the cavity board B medial surface, and the gas outlet has all been seted up to cavity board A and cavity board B upper end, and the air inlet has all been seted up to cavity board C upper end, and cavity board C's air inlet is connected with the gas outlet of cavity through the pipeline, and cavity board A and cavity board B's gas outlet is all continuous through the backward flow mouth on pipeline and the cavity.
5. The button cell positive plate production device according to claim 4, characterized in that: the vertical parts of the two L-shaped angle irons are respectively welded on the left and right side walls of the left cavity or the left and right side walls of the right cavity in a bilateral symmetry manner; an air outlet is formed in the upper portion of the drying box body, and air outlets of the hollow plate A and the hollow plate B are connected with the air outlet through pipelines with electromagnetic valves.
6. The button cell positive plate production device according to claim 1, characterized in that: the first crushing mechanism comprises a shell A, a motor A and a speed reducer which are arranged on a crushing rack, wherein a transverse upper roller and a transverse lower roller are arranged in the shell A from top to bottom, a gap which is favorable for passing materials exists between the upper roller and the lower roller, an output shaft of the crushing motor is connected with an input shaft of the speed reducer through a coupling, the speed reducer is provided with two output shafts with opposite rotation directions, the two output shafts are respectively connected with a rotating shaft part on one side of the upper roller and the lower roller through the coupling, a feeding guide plate and a discharging guide plate A which are tangent with the lower roller are respectively arranged on the front side and the rear side of the upper part of the lower roller in the shell A, the output end of the discharging guide; the second crushing mechanism comprises a shell B and a motor B which are installed on a crushing rack, a transverse crushing rotating shaft is installed in the middle of the shell B, a knife rest is installed on the crushing rotating shaft, a crushing cutter is installed on the knife rest, a feeding port in the upper end of the shell B is connected with a discharging channel, and a discharging port in the lower end of the shell B is connected with a feeding end of a rotary vibrating screen through a pipeline.
7. The button cell positive plate production device according to claim 6, characterized in that: the crusher comprises a crushing rack, a feeding pipe, a crushing rack, a motor C, a shaft coupling, a feeding rotating shaft, a dragon blade, a motor C, a crushing blade, a crushing; the knife rest comprises three sleeves, the sleeves are fixedly arranged on the crushing rotating shaft, at least three swing arms extend outwards along the radial direction from the periphery of each sleeve, the tail ends of the swing arms of the three sleeves are connected through a crushing shaft, the axis of the crushing shaft is parallel to the axis of each sleeve, a rotary drum is sleeved between every two adjacent swing arms on the crushing shaft, crushing cutters are arranged on the rotary drum at intervals, gear rings matched with the crushing cutters are arranged on the inner wall of the shell B, cutter teeth are arranged on the gear rings, and the gear rings are spirally distributed on the inner wall of the cylindrical shell; the crushing cutter is a hammer sheet, and protruding teeth are arranged on the outer side of the hammer sheet.
8. The button cell positive plate production device according to claim 6, characterized in that: a screen is arranged at a discharge port at the lower end of the shell B; the lower end of the shell A is provided with a blanking port, and the blanking port is connected with a feeding end of the rotary vibrating screen through a pipeline; a scraper tangent with the upper roller is arranged on the front side of the lower part of the upper roller in the shell A; the upper roller and the lower roller are arranged in the shell A through bearing blocks, and the crushing rotating shaft is arranged in the shell B through the bearing blocks.
9. The button cell positive plate production device according to claim 1, characterized in that: the male die is locked at the lower end of the stamping column through a screw, and the female die is locked in the mounting groove through a screw; a rubber sleeve is sleeved at the end part of the output port of the feeding hopper, and the lower side surface of the rubber sleeve is attached to the upper side surface of the turntable B; the upper end of the turntable C is provided with a guide sleeve which is coaxial with the vertical hole B, and the inner diameter of the guide sleeve is the same as that of the vertical hole B; the guide sleeve and the turntable C are manufactured into a whole; the length of the stamping column is greater than that of the vertical hole A, and the length of the top column is greater than that of the vertical hole B.
CN201921501298.9U 2019-09-10 2019-09-10 Button cell positive plate apparatus for producing Active CN210489732U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921501298.9U CN210489732U (en) 2019-09-10 2019-09-10 Button cell positive plate apparatus for producing

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921501298.9U CN210489732U (en) 2019-09-10 2019-09-10 Button cell positive plate apparatus for producing

Publications (1)

Publication Number Publication Date
CN210489732U true CN210489732U (en) 2020-05-08

Family

ID=70541375

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201921501298.9U Active CN210489732U (en) 2019-09-10 2019-09-10 Button cell positive plate apparatus for producing

Country Status (1)

Country Link
CN (1) CN210489732U (en)

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