A kind of lithium cell cathode material makes special graphite powder integrated processing device
Technical field
The utility model is related to lithium cell cathode material recycling graphite technical field, more particularly to a kind of lithium ion battery anode material
Material makes special graphite powder integrated processing device.
Background technology
Graphite silty is soft, black gray expandable;There is greasy feeling, paper can be polluted.Hardness is 1~2, vertically with the increasing of impurity
Add its hardness that can increase to 3~5, proportion is 1.9~2.3;Under the conditions of starvation, fusing point is most resistance at 3000 DEG C or more
One of mineral of temperature;The chemical property of graphite powder is more stable under room temperature, not soluble in water, diluted acid, diluted alkaline and organic solvent;Material
With high temperature resistant electric conductivity, refractory material, conductive material, wear-resisting lubriation material can be done.
Generally using graphite cake or graphite finished product, this processing method can not the special stone of machining shape for the processing of graphite powder
Black waste material, and the shape that graphite powder adds man-hour requirement cut into rule, this work are carried out to graphite cake or graphite finished product
As mode there are work efficiency is low, mechanization degree is low, graphite waste can not be recycled, when being crushed to graphite waste
Certain fineness can not be ground into, the applicable requirement of graphite powder can not be met, to the graphite powder that processes can not automatic sieving, and
It is widely used in the making of lithium cell cathode material after the recycling processing of these graphite wastes.
Utility model content
To solve the above-mentioned problems, the utility model provides a kind of lithium cell cathode material and makes special graphite powder one
Change process equipment, can solve it is existing to graphite flake carry out graphite powder processing when existing work efficiency is low, mechanization degree is low,
Certain fineness can not be ground into when being crushed to graphite waste, graphite particle can be stuck in transmission channel, the graphite to processing
Powder can not Automatic sieve grade problem;It can realize that graphite waste automatic crushing into the function of graphite powder, has work efficiency height, machine
Can be ground into when tool degree is high, mechanization scraping delivery graphite particle will not be stuck in transmission channel, graphite waste is crushed will
Seek fineness, can be with automatic sieving to the graphite powder processed the advantages that.
To achieve these goals, the utility model uses following technical scheme, and a kind of lithium cell cathode material makes special
With graphite powder integrated processing device, including support baseboard, preliminary crushing device, transmitting device, separating twice device and the sieve that shakes
Device, the support baseboard are rectangular parallelepiped structure, and preliminary crushing device is connected with transmitting device, and transmitting device is mounted on branch
It supports on bottom plate, separating twice device is located at below transmitting device, and separating twice device is mounted on support baseboard, and shake screen device position
In the lower section of separating twice device, the screen device that shakes is connected with support baseboard.
As a kind of optimal technical scheme of the utility model, the preliminary crushing device includes crushing feed bin, feed bin
Motor, feed bin connecting plate for electric motor, feed bin gear, driven feed bin gear, two feed bin rotors, feed bin drive shaft, feed bin motor
Transmission shaft and two cleaning branches, crush feed bin and are mounted on transmitting device, crush and be symmetrically arranged on the front and back sides of feed bin
Cutter tooth, two feed bin rotors, which are located at, to be crushed in feed bin, and the left end of feed bin rotor is mounted on the left surface for crushing feed bin by bearing
On, for the right end of feed bin rotor by bearing through the right side for crushing feed bin, feed bin motor is located at the right side for crushing feed bin, feed bin
Motor is mounted on by motor set on feed bin connecting plate for electric motor, and feed bin connecting plate for electric motor is connected with transmitting device, feed bin motor
Output shaft be connected by shaft coupling with the right end of feed bin motor transmission shaft, the left end of feed bin motor transmission shaft with positioned at crush
The right end of feed bin rotor is connected on rear side of feed bin, and feed bin gear is mounted on feed bin motor transmission shaft, and driven feed bin gear is located at
The front side of feed bin gear, driven feed bin gear are meshed with feed bin gear, and driven feed bin gear is mounted on feed bin drive shaft,
The right end of feed bin drive shaft is mounted on by bearing on feed bin connecting plate for electric motor, and the left end of feed bin drive shaft is crushed with being located at
The right end of feed bin rotor is connected on front side of feed bin, crushes the contour structures of the cutter tooth contour structures and feed bin rotor set on feed bin
It is engaged, two clean unbranched symmetric and are mounted on crushing feed bin lower end inside face;The cleaning branch includes cleaning electronic
Sliding block cleans connecting plate, cleans motor and cleaning brush, cleans electronic sliding block and is mounted on crushing feed bin lower end inside face, cleans
Cleaning connecting plate on electronic sliding block is installed, motor is cleaned and is mounted on by motor set on cleaning connecting plate, clean the defeated of motor
Cleaning brush on shaft is installed, during specific works, is crushed first by manually pouring into graphite waste in feed bin, is then turned on expecting
Storehouse motor, feed bin motor drive feed bin gear to rotate, and feed bin gear drives driven feed bin gear to reversely rotate so that two feed bins
Rotor carries out the rotation of opposite direction, so as to improve the crushing effect of graphite waste, crushes the cutter tooth energy set on feed bin
Graphite waste is enough prevented from two feed bin rotors and crushes the gap landing between feed bin, while assisted comminution can also be played
Function, after preliminary crushing, control cleans electronic sliding block and moves left and right, and opens and cleans motor so that cleaning brush is to two
Feed bin rotor is cleaned, and can be cleared up the graphite residues on two feed bin rotors, the present apparatus can be to graphite waste
It carries out preliminary crushing and cleans out two feed bin rotors.
As a kind of optimal technical scheme of the utility model, the transmitting device includes transmission electrical machine, transmission electrical machine
Connecting plate, transmission feed bin, blanking slideway, transmission driving roller, transmission driven roller, transmission carrier bar, scraper plate, chain and two biographies
Defeated fixed frame, the top for transmitting feed bin are mounted on the bottom for crushing feed bin, and two transmission fixed frames are symmetrically mounted on transmission material
On the front and back sides in storehouse, the bottom for transmitting fixed frame is connected with support baseboard, transmits and blanking cunning is equipped on the bottom of feed bin
Road, blanking slideway are U-shaped structure, and transmission electrical machine connecting plate is mounted on the leading flank of transmission feed bin, and transmission driving roller is located at
The interior lower end of feed bin is transmitted, the rear end for transmitting driving roller is mounted on by bearing on the trailing flank of transmission feed bin, transmission master
The front end of dynamic idler wheel is connected through transmission feed bin by shaft coupling with the output shaft of transmission electrical machine, and transmission electrical machine passes through motor set
On transmission electrical machine connecting plate, transmission driven roller is located at the left upper end of transmission driving roller, and transmission driven roller passes through
Bearing is mounted on the inside of transmission feed bin, and chain is mounted between transmission driving roller and transmission driven roller, transmits carrier bar
On chain, each transmit is respectively mounted on carrier bar there are one scraper plate, and scraper plate is U-shaped structure, and the outside of scraper plate U-shaped structure is
Pointed, transmission carrier bar and scraper plate are flexible material, during specific works, when preliminary reducing mechanism carries out preliminary powder to graphite waste
After broken, controlling transmission motor rotates first, and transmission electrical machine drives transmission driving roller to rotate, so as to which chain be driven to transmit actively
With being rotated on transmission driven roller, the transmission carrier bar installed on chain can move idler wheel, and transmitting the scraper plate on carrier bar can incite somebody to action
The graphite particle of accumulation is scraped on blanking slideway in transmission feed bin, and graphite particle can be slipped to separating twice from blanking slideway
In device, transmitting device can prevent graphite particle is deposited in transmission feed bin can not slide into separating twice device, play
The effect of transmission graphite particle.
As a kind of optimal technical scheme of the utility model, the separating twice device includes grinding barrel, crushes electricity
Machine crushes transmission shaft, crushes drive connection plate, crushing knife, crushes link, crushing tremie pipe and two crushing motor supports
Frame, grinding barrel are located at the lower section of blanking slideway, are hollow cylinder structure in the middle part of grinding barrel, and the lower section of grinding barrel is conical hollow
Structure, the bottom of grinding barrel is hatch frame, crushes tremie pipe and is mounted on the hatch frame for crushing bottom of the barrel, two crush electricity
Machine supporting rack is symmetrically distributed on the left and right sides of grinding barrel, is crushed motor support frame upper end and is connected with grinding barrel, crushes electricity
The lower end of machine supporting rack is connected with crushing tremie pipe, and by motor set installation, there are one powder on each crushing motor support frame
Broken motor, each output shaft for crushing motor are connected by shaft coupling with the lower end of a crushing transmission shaft, crush transmission
The upper end of axis is connected by bearing with crushing drive connection plate, is crushed drive connection plate and is mounted on the top of grinding barrel, often
It is mounted on one group of crushing knife on a crushing transmission shaft, the interlaced arrangement in position of two groups of crushing knifes, the sky in the middle part of grinding barrel
Be provided in heart column structure with the matched crushing liner of two groups of crushing knifes, it is incline structure to crush liner upper end, Neng Goufang
Only graphite particle is slid around crushing knife so that not having cut graphite particle to drop to the screen device that shakes, so as to improve this
The effect of utility model separating twice, each crush are respectively mounted on the outside of motor support frame there are one link is crushed, and crushing connects
It connects the bottom of frame with the upper surface of support baseboard to be connected, during specific works, when graphite particle is dropped in grinding barrel, first
It opens and crushes motor, crush motor and the crushing knife crushed on transmission shaft is driven to be rotated, due to the position phase of two groups of crushing knifes
Mutual interlaced arrangement so that graphite particle can be cut into powdery, and graphite powder can be conical hollow structure from the lower section of grinding barrel
It slides down to and crushes in tremie pipe, be finally slipped to and shake in screen device, separating twice device can carry out graphite particle thorough
Bottom is crushed into powder, and has good crushing effect.
As a kind of optimal technical scheme of the utility model, the screen device that shakes includes shake sieve motor, sieve transmission of shaking
Axis, the sieve drive connection frame that shakes, cam, sieve, two screen frame (unit) connecting rods, two screen frame (unit) sliding slots, three sliding bars, contraction spring,
Sliding bar stent, collection box and two screen frame (unit) connecting plates, sieve are located at the lower section for crushing tremie pipe, sieve pore are provided on sieve,
The rear and front end of sieve is symmetrically installed there are two screen frame (unit) connecting plate, is symmetrically installed that there are two sieves on each screen frame (unit) connecting plate bottom
Frame connecting rod, the bottom of screen frame (unit) connecting rod is slide block structure, and two screen frame (unit) sliding slots are symmetrically distributed in the left and right sides of sieve, screen frame (unit)
Sliding slot is mounted on support baseboard, and screen frame (unit) sliding slot and the slide block structure of screen frame (unit) connecting rod are in mating connection, before three sliding bars
End is mounted on the screen frame (unit) connecting plate on rear side of sieve, and the rear end of three sliding bars is mounted on by way of being slidably matched to be slided
On lever stent, sliding bar stent is connected with support baseboard, is respectively provided on the outside of each sliding bar there are one contraction spring, shunk
Spring is mounted between the screen frame (unit) connecting plate on rear side of sieve and sliding bar stent, and collection box is placed on the support of sieve lower end
On bottom plate, the sieve motor that shakes is mounted on by motor set on front side of support baseboard, and the output shaft for sieving motor that shakes is by shaft coupling with shaking
The bottom of sieve transmission shaft is connected, and the top for the sieve transmission shaft that shakes is mounted on by bearing to shake on sieve drive connection frame, sieve transmission of shaking
Link is mounted on support baseboard, and cam, which is mounted on, to shake on sieve transmission shaft middle part, height and position and the screen frame (unit) connecting plate of cam
Height and position it is corresponding, during specific works, when graphite powder, which is slipped to, to shake on screen device, the control sieve motor that shakes first rotates,
The sieve motor that shakes drives the cam rotation of upper end, and sieve can move left and right under the action of the restoring force of contraction spring, and sieve exists
It can only be moved left and right under the position-limiting action of sliding bar so that the graphite powder on sieve can be sieved, the small meeting of fineness
It falls into collection box, the larger graphite powder of fineness can be stayed on sieve, manually that fineness on sieve is larger after screening
Graphite powder, which pours into, to be crushed in feed bin, cycling crushing is carried out, so as to complete the screening to graphite powder.
During work, the first step:It is crushed first by manually pouring into graphite waste in feed bin, is then turned on feed bin motor,
Feed bin motor drives feed bin gear to rotate, and feed bin gear drives driven feed bin gear to reversely rotate so that two feed bin rotors into
The rotation of row opposite direction, so as to improve the crushing effect of graphite waste, crushing the cutter tooth set on feed bin can prevent
Graphite waste is from two feed bin rotors and crushes the gap landing between feed bin, while can also play the function of assisted comminution,
After preliminary crushing, control cleans electronic sliding block and moves left and right, and opens and cleans motor so that cleaning brush can expect two
Storehouse rotor is cleaned, and can be cleared up the graphite residues on two feed bin rotors, preliminary crushing device can be to graphite
Waste material carries out preliminary crushing and cleans out two feed bin rotors, second step:When preliminary reducing mechanism carries out graphite waste
After preliminary crushing, controlling transmission motor rotates first, and transmission electrical machine drives transmission driving roller to rotate, so as to which chain be driven to pass
With being rotated on transmission driven roller, the transmission carrier bar installed on chain can move defeated driving roller, transmit scraping on carrier bar
Plate can scrape the graphite particle accumulated in transmission feed bin on blanking slideway, and graphite particle can be slipped to powder from blanking slideway
In broken bucket, transmitting device can prevent graphite particle is deposited in transmission feed bin can not slide into grinding barrel, play transmission
The effect of graphite particle, the 3rd step:When graphite particle is dropped in grinding barrel, crushing motor is first turned on, crushes motor band
The dynamic crushing knife crushed on transmission shaft is rotated, due to the interlaced arrangement in the position of two groups of crushing knifes so that graphite particle
Powdery can be cut into, graphite powder can slide down to for conical hollow structure from the lower section of grinding barrel and crush in tremie pipe,
It is finally slipped in sieve, graphite particle can be thoroughly crushed into powder by separating twice device, and there is good crush to imitate
Fruit, the 4th step:When graphite powder is slipped on sieve, control, which is shaken, first sieves motor rotation, and the sieve motor that shakes drives the cam of upper end
It rotates, sieve can move left and right under the action of the restoring force of contraction spring, and sieve can only under the position-limiting action of sliding bar
Moved left and right so that the graphite powder on sieve can carry out rocking screening, and the small meeting of fineness is fallen into collection box, fineness compared with
Big graphite powder can be stayed on sieve, and after screening, the larger graphite powder of fineness on sieve manually is poured into crushing feed bin
It is interior, cycling crushing is carried out, completes the screening to graphite powder, graphite waste automatic crushing can be realized into the function of graphite powder.
The beneficial effects of the utility model are:
First, the utility model can solve that existing existing work efficiency is low, machine when carrying out graphite powder processing to graphite flake
Tool degree is low, can not be ground into certain fineness when being crushed to graphite waste, graphite particle can be stuck in transmission channel, to processing
Graphite powder out can not Automatic sieve grade problem;It can realize that graphite waste automatic crushing into the function of graphite powder, has work
Make energy when efficient, mechanization degree is high, mechanization scraping delivery graphite particle will not be stuck in transmission channel, be crushed to graphite waste
It is enough ground into and requires fineness, can be with automatic sieving to the graphite powder processed the advantages that;
2nd, the utility model is provided with preliminary crushing device and separating twice device, and preliminary crushing device can will be from stone
The graphite waste that ink pad on piece is cut carries out preliminary crushing, and separating twice device can carry out separating twice to graphite waste, make
The graphite powder of fineness very little can be processed by obtaining graphite waste;
3rd, the utility model is provided with transmitting device, and transmitting device can prevent graphite particle to be deposited in transmission feed bin
It can not slide into grinding barrel, transmitting device plays the role of transmitting graphite particle;
4th, the utility model is provided with the screen device that shakes, and the screen device that shakes being capable of graphite powder progress of the mechanization to processing
Screening, the small meeting of fineness are fallen into collection box, and the larger graphite powder of fineness can be stayed on sieve.
Description of the drawings
The utility model is further illustrated with reference to the accompanying drawings and examples.
Fig. 1 is the structure diagram of the utility model;
Fig. 2 is the structure diagram between the utility model preliminary crushing device and transmitting device;
Fig. 3 is the A of Fig. 2 to partial enlarged view;
Fig. 4 is that the utility model crushes feed bin and transmits the sectional view between feed bin;
Fig. 5 is the structure diagram between the utility model support baseboard, separating twice device and the screen device that shakes.
Specific embodiment
In order to which the technical means, creative features, achievable purpose and effectiveness for realizing the utility model are easy to understand, under
Face combines and is specifically illustrating, and the utility model is expanded on further.It should be noted that in the case where there is no conflict, in the application
Feature in embodiment and embodiment can be combined with each other.
As shown in Figures 1 to 5, a kind of lithium cell cathode material makes special graphite powder integrated processing device, including branch
Bottom plate 1, preliminary crushing device 4, transmitting device 5, separating twice device 6 and the screen device 7 that shakes are supportted, the support baseboard 1 is length
Cube structure, preliminary crushing device 4 are connected with transmitting device 5, and transmitting device 5 is mounted on support baseboard 1, separating twice dress
It puts 6 and is located at 5 lower section of transmitting device, separating twice device 6 is mounted on support baseboard 1, and the screen device 7 that shakes is located at separating twice device
6 lower section, the screen device 7 that shakes are connected with support baseboard 1.
The preliminary crushing device 4 includes crushing feed bin 44, feed bin motor 45, feed bin connecting plate for electric motor 46, feed bin tooth
Wheel 47,48, two feed bin rotors 49 of driven feed bin gear, feed bin drive shaft 411, feed bin motor transmission shaft 412 and two are clear
Branch 413 is swept, feed bin 44 is crushed and is mounted on transmitting device 5, crushes and cutter tooth is symmetrically arranged on the front and back sides of feed bin 44, two
A feed bin rotor 49, which is located at, to be crushed in feed bin 44, and the left end of feed bin rotor 49 is mounted on the left surface for crushing feed bin 44 by bearing
On, for the right end of feed bin rotor 49 by bearing through the right side for crushing feed bin 44, feed bin motor 45, which is located at, crushes feed bin 44
Right side, feed bin motor 45 are mounted on by motor set on feed bin connecting plate for electric motor 46, feed bin connecting plate for electric motor 46 and transmitting device 5
It is connected, the output shaft of feed bin motor 45 is connected by shaft coupling with the right end of feed bin motor transmission shaft 412, and feed bin motor passes
The left end of moving axis 412 is connected with positioned at the right end for crushing 44 rear side feed bin rotor 49 of feed bin, and feed bin gear 47 is mounted on feed bin
On motor transmission shaft 412, driven feed bin gear 48 is located at the front side of feed bin gear 47, driven feed bin gear 48 and feed bin gear 47
It is meshed, driven feed bin gear 48 is mounted on feed bin drive shaft 411, and the right end of feed bin drive shaft 411 is pacified by bearing
On feed bin connecting plate for electric motor 46, the left end of feed bin drive shaft 411 crushes 44 front side feed bin rotor 49 of feed bin with being located at
Right end is connected, and crushes the cutter tooth contour structures set on feed bin 44 and is engaged with the contour structures of feed bin rotor 49, and two clear
Branch 413 is swept to be symmetrically mounted on 44 lower end inside face of crushing feed bin;The cleaning branch 413 includes cleaning electronic sliding block
4131st, clean connecting plate 4132, clean motor 4133 and cleaning brush 4134, clean electronic sliding block 4131 and be mounted on crushing feed bin 44
It on lower end inside face, cleans and cleaning connecting plate 4132 is installed on electronic sliding block 4131, clean motor 4133 and pacified by motor set
Mounted in cleaning on connecting plate 4132, clean and cleaning brush 4134 is installed on the output shaft of motor 4133, it is logical first during specific works
It crosses manually to pour into graphite waste and crush in feed bin 44, be then turned on feed bin motor 45, feed bin motor 45 drives feed bin gear 47
It rotates, feed bin gear 47 drives driven feed bin gear 48 to reversely rotate so that two feed bin rotors 49 carry out the rotation of opposite direction
Turn, so as to improve the crushing effect of graphite waste, crushing the cutter tooth set on feed bin 44 can prevent graphite waste from two
A feed bin rotor 49 and the gap crushed between feed bin 44 slide, while can also play the function of assisted comminution, when preliminary powder
After broken, control cleans electronic sliding block 4131 and moves left and right, and opens and cleans motor 4133 so that cleaning brush 4134 expects two
Storehouse rotor 49 is cleaned, and can be cleared up the graphite residues on two feed bin rotors 49, the present apparatus can give up to graphite
Material carries out preliminary crushing and cleans out two feed bin rotors 49.
The transmitting device 5 include transmission electrical machine 51, transmission electrical machine connecting plate 52, transmission feed bin 53, blanking slideway 54,
Driving roller 55, transmission driven roller 56, transmission carrier bar 57, scraper plate 58, chain 59 and two transmission fixed frames 510 are transmitted, are passed
The top in conveying storehouse 53 is mounted on the bottom for crushing feed bin 44, and two transmission fixed frames 510 are symmetrically mounted on transmission feed bin 53
Front and back sides on, transmission fixed frame 510 bottom be connected with support baseboard 1, transmission feed bin 53 bottom on be equipped with down
Expect slideway 54, blanking slideway 54 is U-shaped structure, and transmission electrical machine connecting plate 52 is mounted on the leading flank of transmission feed bin 53, transmission
Driving roller 55 is located at the interior lower end of transmission feed bin 53, and the rear end for transmitting driving roller 55 is mounted on transmission feed bin by bearing
On 53 trailing flank, the front end of transmission driving roller 55 passes through shaft coupling and the output shaft of transmission electrical machine 51 through transmission feed bin 53
It is connected, transmission electrical machine 51 is mounted on by motor set on transmission electrical machine connecting plate 52, and transmission driven roller 56, which is located at transmission, to be led
The left upper end of dynamic idler wheel 55, transmission driven roller 56 are mounted on by bearing on the inside of transmission feed bin 53, and chain 59 is mounted on
It transmits between driving roller 55 and transmission driven roller 56, transmission carrier bar 57 is installed on the chain 59, each to transmit on carrier bar 57
It is respectively mounted there are one scraper plate 58, scraper plate 58 is U-shaped structure, and the outside of scraper plate 58U type structures is pointed, transmits carrier bar 57 and scraper plate
58 be flexible material, and during specific works, after preliminary reducing mechanism 4 carries out preliminary crushing to graphite waste, control first passes
Transmission of electricity machine 51 rotates, and transmission electrical machine 51 drives transmission driving roller 55 to rotate, so as to drive chain 59 in transmission driving roller 55
With being rotated on transmission driven roller 56, the transmission carrier bar 57 installed on chain 59 can move, and transmit the scraper plate on carrier bar 57
58 can scrape the graphite particle for transmitting accumulation in feed bin 53 on blanking slideway 54, and graphite particle can be slided from blanking slideway 54
Fall in separating twice device 6, transmitting device 5 can prevent graphite particle be deposited in transmission feed bin 53 in can not slide into it is secondary
In reducing mechanism 6, play the role of transmitting graphite particle.
The separating twice device 6 includes grinding barrel 61, crushes motor 62, crush transmission shaft 63, crush drive connection
Plate 64, crushing knife 65 crush link 66, crushing tremie pipe 67 and two crushing motor support frames 68, under grinding barrel 61 is located at
Expect the lower section of slideway 54,61 middle part of grinding barrel is hollow cylinder structure, and the lower section of grinding barrel 61 is conical hollow structure, is crushed
The bottom of bucket 61 is hatch frame, crushes tremie pipe 67 and is mounted on the hatch frame of 61 bottom of grinding barrel, two crushing motors
Supporting rack 68 is symmetrically distributed on the left and right sides of grinding barrel 61, is crushed 68 upper end of motor support frame and is connected with grinding barrel 61,
The lower end for crushing motor support frame 68 is connected with crushing tremie pipe 67, and each crush passes through motor set on motor support frame 68
Installation is crushed by shaft coupling and one under transmission shaft 63 there are one motor 62, each output shaft for crushing motor 62 is crushed
End is connected, and the upper end for crushing transmission shaft 63 is connected by bearing with crushing drive connection plate 64, crushes drive connection plate 64
On the top of grinding barrel 61, each crush is mounted on one group of crushing knife 65 on transmission shaft 63, two groups of crushing knifes 65
The interlaced arrangement in position is provided with and two groups of 65 matched crushing of crushing knife in the hollow cylinder structure at the middle part of grinding barrel 61
Liner, it is incline structure to crush liner upper end, can prevent graphite particle from being slid around crushing knife 65 so that not cleaved
Graphite particle drop to the screen device 7 that shakes, so as to improve the effect of the utility model separating twice, each crush motor support
The outside of frame 68 is respectively mounted there are one link 66 is crushed, and the bottom for crushing link 66 is connected with the upper surface of support baseboard 1
It connects, during specific works, when graphite particle is dropped in grinding barrel 61, first turns on and crush motor 62, crush motor 62 and drive
The crushing knife 65 crushed on transmission shaft 63 is rotated, due to the interlaced arrangement in the position of two groups of crushing knifes 65 so that graphite
Particle can be cut into powdery, and graphite powder can slide down to crushing blanking from the lower section of grinding barrel 61 for conical hollow structure
It in pipe 67, is finally slipped to and shakes in screen device 7, graphite particle can be thoroughly crushed into powder by separating twice device 6, be had
Good crushing effect.
The screen device 7 that shakes, which includes shaking, to be sieved motor 71, the sieve transmission shaft 72 that shakes, shakes and sieve drive connection frame 73, cam 74, sieve
75, two, the net screen frame (unit) sliding slot of screen frame (unit) connecting rod 76, two, 77, three sliding bars 78, contraction spring 79, sliding bar stent 710, receipts
Collect box 711 and two screen frame (unit) connecting plates 712, sieve 75 is located at the lower section for crushing tremie pipe 67, sieve pore is provided on sieve 75, sieves
The rear and front end of net 75 is symmetrically installed there are two screen frame (unit) connecting plate 712, is symmetrically installed on each 712 bottom of screen frame (unit) connecting plate
Two screen frame (unit) connecting rods 76, the bottom of screen frame (unit) connecting rod 76 is slide block structure, and two screen frame (unit) sliding slots 77 are symmetrically distributed in sieve 75
The left and right sides, screen frame (unit) sliding slot 77 is mounted on support baseboard 1, and the slide block structure of screen frame (unit) sliding slot 77 and screen frame (unit) connecting rod 76 matches
Connection is closed, the front ends of three sliding bars 78 is mounted on the screen frame (unit) connecting plate 712 of 75 rear side of sieve, three sliding bars 78
Rear end is mounted on by way of being slidably matched on sliding bar stent 710, and sliding bar stent 710 is connected with support baseboard 1, often
A 78 outside of sliding bar is respectively provided with there are one contraction spring 79, and contraction spring 79 is mounted on the screen frame (unit) connection of 75 rear side of sieve
Between plate 712 and sliding bar stent 710, collection box 711 is placed on the support baseboard 1 of 75 lower end of sieve, and the sieve motor 71 that shakes is logical
Motor set is crossed on 1 front side of support baseboard, the output shaft for the sieve motor 71 that shakes, which passes through shaft coupling and shakes, sieves the bottom of transmission shaft 72
Portion is connected, and the top for the sieve transmission shaft 72 that shakes is mounted on by bearing to shake on sieve drive connection frame 73, and shake sieve drive connection frame 73
On support baseboard 1, cam 74, which is mounted on, to shake on 72 middle part of sieve transmission shaft, height and position and the screen frame (unit) connecting plate of cam 74
712 height and position is corresponding, and during specific works, when graphite powder, which is slipped to, to shake on screen device 7, control first is shaken sieve motor 71
It rotates, the sieve motor 71 that shakes drives the cam 74 of upper end to rotate, and sieve 75 can be left under the action of the restoring force of contraction spring 79
It moves right, sieve 75 can only be moved left and right under the position-limiting action of sliding bar 78 so that the graphite powder on sieve 75 can
It is sieved, the small meeting of fineness is fallen into collection box 711, and the larger graphite powder of fineness can be stayed on sieve 75, when screening terminates
Afterwards, manually the larger graphite powder of fineness on sieve 75 is poured into and crushed in feed bin 44, cycling crushing is carried out, so as to complete to graphite
The screening of powder.
During work, the first step:It is crushed first by manually pouring into graphite waste in feed bin 44, is then turned on feed bin motor
45, feed bin motor 45 drives feed bin gear 47 to rotate, and feed bin gear 47 drives driven feed bin gear 48 to reversely rotate so that two
Feed bin rotor 49 carries out the rotation of opposite direction, so as to improve the crushing effect of graphite waste, crushes and is set on feed bin 44
Cutter tooth can prevent graphite waste from two feed bin rotors 49 and crush the gap between feed bin 44 and slide, while can also rise
To the function of assisted comminution, after preliminary crushing, control cleans electronic sliding block 4131 and moves left and right, and opens and cleans motor
4133 so that cleaning brush 4134 can clean two feed bin rotors 49, can be by the graphite on two feed bin rotors 49
Residue is cleared up, and preliminary crushing device 4 can carry out preliminary crushing to graphite waste and clear up two feed bin rotors 49 dry
Only, second step:After preliminary reducing mechanism 4 carries out preliminary crushing to graphite waste, controlling transmission motor 51 rotates first, transmission
Motor 51 drives transmission driving roller 55 to rotate, so as to drive chain 59 in transmission driving roller 55 with transmitting on driven roller 56
It rotates, the transmission carrier bar 57 installed on chain 59 can move, and transmitting the scraper plate 58 on carrier bar 57 can will transmit in feed bin 53
The graphite particle of accumulation is scraped on blanking slideway 54, and graphite particle can be slipped in grinding barrel 61 from blanking slideway 54, is passed
Defeated device 5 can prevent graphite particle is deposited in transmission feed bin 53 can not slide into grinding barrel 61, play transmission graphite
The effect of particle, the 3rd step:It when graphite particle is dropped in grinding barrel 61, first turns on and crushes motor 62, crush motor 62
The crushing knife 65 crushed on transmission shaft 63 is driven to be rotated, due to the interlaced arrangement in the position of two groups of crushing knifes 65 so that
Graphite particle can be cut into powdery, and graphite powder can slide down to crushing from the lower section of grinding barrel 61 for conical hollow structure
It in tremie pipe 67, is finally slipped in sieve 75, graphite particle can be thoroughly crushed into powder by separating twice device 6, tool
There are good crushing effect, the 4th step:When graphite powder is slipped on sieve 75, the sieve motor 71 that shakes is controlled to rotate first, shake sieve
Motor 71 drives the cam 74 of upper end to rotate, and sieve 75 can move left and right under the action of the restoring force of contraction spring 79, sieve
Net 75 can only be moved left and right under the position-limiting action of sliding bar 78 so that the graphite powder on sieve 75 can carry out rocking sieve
Point, the small meeting of fineness is fallen into collection box 711, and the larger graphite powder of fineness can be stayed on sieve 75, after screening, manually
The larger graphite powder of fineness on sieve 75 is poured into and is crushed in feed bin 44, cycling crushing is carried out, completes the screening to graphite powder,
Graphite waste automatic crushing is realized into the function of graphite powder, is solved existing during the existing progress graphite powder processing to graphite flake
Work efficiency is low, mechanization degree is low, can not be ground into certain fineness when being crushed to graphite waste, graphite particle can be stuck in transmission
In passage, to the graphite powder that processes can not Automatic sieve grade problem, reached purpose.
The basic principle, main feature and advantage of the utility model has been shown and described above.The technical staff of the industry
It should be appreciated that the present utility model is not limited to the above embodiments, the simply explanation of the description in above embodiments and description
The principle of the utility model, on the premise of not departing from the spirit and scope of the utility model, the utility model also have various changes
Change and improve, these various changes and improvements fall within the scope of the claimed invention.The requires of the utility model protects model
It encloses and is defined by the appending claims and its equivalent thereof.