A kind of machining grinding shot Destaticizing device of rotary eccentric movement
Technical field
The present invention relates to a kind of Destaticizing device, the machining grinding shot of more particularly to a kind of rotary eccentric movement is except quiet
Electric installation.
Background technology
Shot is ground using the high-speed cutting of potassium steel silk into cylinder, then carries out a kind of product of lead angle rounding again;Nothing
Sky, no cracking, do not crush, its consumption shape it is descending until particle it is small to former particle 3/10 when, just taken out by shot-blasting machine
Dirt system or separation equipment are walked clearly, complete its whole service life cycle.It is the new varieties of steel wire cut pill, i.e., cuts into steel wire
It is ground again after the steel wire cut pill of the length cylinder equal with diameter, removing its corner angle makes its balling-up bead.Such production
Product are provided simultaneously with the advantages of cast steel ball and steel wire cut pill:Can uniformly rubbing down, do not hinder workpiece, be not easily broken, abrasion resistance high circulation throw
The long lifespan of mill.Grinding shot be vapour rub wait accessory finish main flow metal grinding material.Static removal equipment is by ion wind
The a series of equipment composition such as rod, ion wind gun, ion blower, ion wind nozzle/tuyere, ionic wind snake.They can be produced largely
The air-flow with positive and negative charge, the charging neutrality carried on object can be fallen.When body surface institute band is negative electrical charge,
They will attract positive charge in air-flow, and when body surface institute band is positive charge, they will attract the negative electrical charge in air-flow,
So that the electrostatic on body surface is neutralised, reach the purpose for eliminating electrostatic.Ion wind gun be one kind can provide strength from
Hand-held electrostatic arrester on sub- wind to object, the substantial amounts of air mass for carrying positive and negative charge can be produced, be blown at a high speed by compressed gas
Go out, when it is negative electrical charge that body surface institute is electrically charged, it can attract the positive charge in air-flow, and when body surface, institute is electrically charged for just
During electric charge, it can attract the negative electrical charge in air-flow, so that the electrostatic on body surface is neutralized, reach the mesh for eliminating electrostatic
, the compressed gas of high speed can also blow away the obstinate laying dust on object.Existing static removal equipment inconvenience is to grinding shot
Centrifugal motion manipulation is carried out, and grinding shot is carried out destaticing operating efficiency low.
The content of the invention
The technical problems to be solved by the invention be to provide it is a kind of can facilitate the grinding shot in centrifugal pan is carried out from
Heart manipulation, it can be facilitated by the electrostatic eliminating brush on centrifugal pan inner bottom surface and grinding shot is carried out destaticing processing, greatly improved
Shot Destaticizing device is ground in the machining for grinding shot destatic the rotary eccentric movement of the efficiency of processing.
The present invention is achieved through the following technical solutions:
A kind of machining grinding shot Destaticizing device of rotary eccentric movement, including positioning disk, the top of positioning disk is opening
Structure;The corner location of positioning disk is equipped with guide duct, and the end sleeve of guide duct is equipped with support shaft, set between guide duct
There is link;The inner bottom part position of positioning disk is provided with centrifugal pan, and the inner bottom surface of centrifugal pan is provided with electrostatic eliminating brush;The edge of centrifugal pan
Position is provided with bulge loop, and the centre position of centrifugal pan is provided with convex portion;The center of centrifugal pan is provided with rotating cylinder, the bottom of positioning disk
Provided with guide cylinder, driven shaft is set with guide cylinder, the end of driven shaft is provided with locking cap, and locking cap is arranged on the end of rotating cylinder
In portion;Link is provided with motor, and the front portion of motor is provided with drive shaft, and the outer peripheral face of drive shaft is set with driving
Pipe, the outer peripheral face of driving tube are set with drive gear, and the upper end of drive shaft is arranged on the bottom of positioning disk, the lower end of drive shaft with
The anterior connection of motor, the outer peripheral face of driven shaft are set with driven gear, and driven gear passes through sliding tooth with drive gear
Bar connects;The bottom of positioning disk is provided with blanking pipe, and the upper end of blanking pipe is arranged on the bottom of positioning disk, the bottom of centrifugal pan
Provided with feed opening, the upper end of blanking pipe connects with feed opening, and the lower end of blanking pipe is provided with fixed plate, and fixed plate is provided with and led
Expect seat, the top of guide seat is provided with deflector chute, and the lower end of blanking pipe connects with deflector chute;The bottom of fixed plate is provided with blanking
Bucket, hopper connect with deflector chute;Switch column is provided with deflector chute.
Further, the deflector chute is coniform shape, and the lower end of deflector chute is feed opening, and the upper end of deflector chute is to open
Mouth structure, switch column are coniform shape, and switch column is plugged in deflector chute;The inside of switch column is hollow-core construction.
Further, the front portion of the motor is provided with gear-box, and the front portion of gear-box is provided with set sabot, drive shaft
Lower end, which passes through, covers sabot, the gear pair connection in the lower end and gear-box of drive shaft.
Further, the bottom outer peripheral face of the positioning disk is provided with retainer ring, and the end of support shaft is connected with retainer ring.
Further, the axial location of the guide duct is provided with guide groove, and the lower end of support shaft is arranged in guide groove.
Further, the bottom of the guide duct is provided with support base, and the bottom of guide duct is provided with support feet, support feet
It is arranged vertically, the lower end of support feet is arranged on support base.
Further, the outer peripheral face of the support base is set with magnetic ring.
Further, the top edge position of the support base is provided with some perforates.
Further, it is provided with fixing axle between the end of the locking cap and driven shaft.
Further, the upper end of the driving tube is provided with the first traction wheel.
Further, the lower end of the driven shaft is provided with the second traction wheel.
Further, the inner bottom part position of the centrifugal pan is provided with boss, one end of boss and the edge of centrifugal pan
Position connects, and the other end of boss and the axis center position of centrifugal pan connect.
The beneficial effects of the invention are as follows:Operator pours into pending grinding shot in positioning disk, and grinding shot is fallen
Enter into centrifugal pan;Start motor, motor controls driving tube to realize and rotated by drive shaft, the rotational band of driving tube
Dynamic drive gear, which is realized, to be rotated, and drive gear is rotated by driving rack drives driven gear to realize, the rotational band of driven gear
Dynamic driven shaft, which is realized, to be rotated, and the rotation of driven shaft drives rotating cylinder to realize and rotated by fixing axle, the rotation of rotating cylinder drive from
Cartridge, which is realized, to be rotated, and centrifugation manipulation is carried out to the grinding shot in centrifugal pan so as to convenient, by centrifugal pan inner bottom surface
Electrostatic eliminating brush can facilitate to grinding shot carry out destaticing processing, substantially increase to grind shot carry out destaticing processing
Efficiency;By blanking pipe can to after destaticing grinding shot carry out blanking control, by deflector chute can conveniently pair
Grinding shot after destaticing carries out guiding conveying, can conveniently be realized to destaticing the grinding shot after handling by hopper
Carry out blanking operation.
Brief description of the drawings
For ease of explanation, the present invention is described in detail by following specific embodiment and accompanying drawing.
Fig. 1 is the structural representation one of the machining grinding shot Destaticizing device of rotary eccentric movement of the present invention.
Fig. 2 is the structural representation two of the machining grinding shot Destaticizing device of rotary eccentric movement of the present invention.
Fig. 3 is the structural representation of guide seat of the present invention.
Embodiment
The preferred embodiments of the present invention are described in detail below in conjunction with the accompanying drawings, so that advantages and features of the invention energy
It is easier to be readily appreciated by one skilled in the art, apparent is clearly defined so as to be made to protection scope of the present invention.
As shown in Figure 1 to Figure 3, the machining grinding shot Destaticizing device of a kind of rotary eccentric movement, including positioning disk
11, the top of positioning disk 11 is hatch frame;The corner location of positioning disk 11 is equipped with guide duct 12, the end of guide duct 12
Portion is set with support shaft 13, and link 20 is provided between guide duct 12;The inner bottom part position of positioning disk 11 is provided with centrifugal pan 21,
The inner bottom surface of centrifugal pan 21 is provided with electrostatic eliminating brush;The marginal position of centrifugal pan 21 is provided with bulge loop 22, the centre position of centrifugal pan 21
Provided with convex portion 23;The center of centrifugal pan 21 is provided with rotating cylinder 24, and the bottom of positioning disk 11 is provided with guide cylinder 28, guide cylinder 28
Driven shaft 29 is inside set with, the end of driven shaft 29 is provided with locking cap 26, and locking cap 26 is arranged on the end of rotating cylinder 24;Even
Connect frame 20 and be provided with motor 31, the front portion of motor 31 is provided with drive shaft 32, and the outer peripheral face of drive shaft 32 is set with drive
Dynamic pipe 33, the outer peripheral face of driving tube 33 are set with drive gear 34, and the upper end of drive shaft 32 is arranged on the bottom of positioning disk 11, drives
The lower end of moving axis 32 is connected with the front portion of motor 31, and the outer peripheral face of driven shaft 29 is set with driven gear 30, driven gear
30 with drive gear 34 by driving rack 35 to be connected;The bottom of positioning disk 11 is provided with blanking pipe 40, blanking pipe 40 it is upper
End is provided with feed opening installed in the bottom of positioning disk 11, the bottom of centrifugal pan 21, and the upper end of blanking pipe 40 connects with feed opening,
The lower end of blanking pipe 40 is provided with fixed plate 41, and fixed plate 41 is provided with guide seat 42, and the top of guide seat 42 is provided with deflector chute
43, the lower end of blanking pipe 40 connects with deflector chute 43;The bottom of fixed plate 41 is provided with hopper 50, hopper 50 and deflector chute
43 connections;Switch column 45 is provided with deflector chute 43;Deflector chute 43 is coniform shape, and the lower end of deflector chute 43 is feed opening, is led
The upper end of hopper 43 is hatch frame, and switch column 45 is coniform shape, and switch column 45 is plugged in deflector chute 43;Switch column 45
Inside be hollow-core construction;The front portion of motor 31 is provided with gear-box 38, and the front portion of gear-box 38 is provided with set sabot 39, driving
Through set sabot 39, the lower end of drive shaft 32 is connected with the gear pair in gear-box 38 for the lower end of axle 32;The bottom of positioning disk 11
Outer peripheral face is provided with retainer ring 14, and the end of support shaft 13 is connected with retainer ring 14;The axial location of guide duct 12, which is provided with, to be oriented to
Groove 15, the lower end of support shaft 13 are arranged in guide groove 15;The bottom of guide duct 12 is provided with support base 16, guide duct 12
Bottom is provided with support feet 17, and support feet 17 is arranged vertically, and the lower end of support feet 17 is arranged on support base 16;Support base 16
Outer peripheral face is set with magnetic ring 18;The top edge position of support base 16 is provided with some perforates 19;Locking cap 26 and driven shaft 29
End between be provided with fixing axle 25;The upper end of driving tube 33 is provided with the first traction wheel 36;The lower end of driven shaft 29 is provided with second
Traction wheel 37;The inner bottom part position of centrifugal pan 21 is provided with boss 27, one end of boss 27 and the marginal position of centrifugal pan 21
Connection, the other end of boss 27 are connected with the axis center position of centrifugal pan 21;Guide seat 42 is provided with footstock 44, and footstock 44 is pacified
Mounted in the top of deflector chute 43, the top of footstock 44 is provided with eccentric wheel 46, and the top of eccentric wheel 46 is arranged on by installation axle 47
On the top of footstock 44, the marginal position of eccentric wheel 46 is provided with motion arm 48, and the sidepiece of motion arm 48 is provided with operation handle 49, partially
The bottom of heart wheel 46 is connected with the upper end of switch column 45.
The machining grinding shot Destaticizing device of rotary eccentric movement of the present invention, operator is by pending grinding shot
Pour into positioning disk 11, grinding shot is poured into centrifugal pan 21;Start motor 31, motor 31 passes through drive shaft
32 control driving tubes 33, which are realized, to be rotated, and the rotation of driving tube 33 drives drive gear 34 to realize and rotated, and drive gear 34 passes through drive
Carry-over bar 35 drives driven gear 30 to realize and rotated, and the rotation of driven gear 30 drives driven shaft 29 to realize and rotated, driven shaft 29
Rotation drive rotating cylinder 24 to realize by fixing axle 25 to rotate, the rotation of rotating cylinder 24 drives centrifugal pan 21 to realize and rotated, from
And can facilitate and centrifugation manipulation is carried out to the grinding shot in centrifugal pan 21, can by the electrostatic eliminating brush on the inner bottom surface of centrifugal pan 21
Grinding shot is carried out destaticing processing to facilitate, substantially increases the efficiency for grinding shot destatic processing;Pass through
Blanking pipe 40 can carry out blanking control to the grinding shot after destaticing, after being facilitated by deflector chute 43 to destaticing
Grinding shot carry out guiding conveying, by hopper 50 can conveniently realize to destatic processing after grinding shot carry out down
Material operation.
Wherein, deflector chute 43 is coniform shape, and the lower end of deflector chute 43 is feed opening, and the upper end of deflector chute 43 is opening
Structure, switch column 45 are coniform shape, and switch column 45 is plugged in deflector chute 43;The inside of switch column 45 is hollow-core construction;
On and off manipulation is carried out to deflector chute 43 so can facilitate by switch column 45, the convenient blanking to grinding shot is carried out
Switch manipulation.
Wherein, the front portion of motor 31 is provided with gear-box 38, and the front portion of gear-box 38 is provided with set sabot 39, drive shaft 32
Lower end through set sabot 39, the lower end of drive shaft 32 is connected with the gear pair in gear-box 38;So motor 31 passes through
Gear-box 38 can make the rotational stability of drive shaft 32 better.
Wherein, the bottom outer peripheral face of positioning disk 11 is provided with retainer ring 14, and the end of support shaft 13 is connected with retainer ring 14;Institute
Can firmly be installed to the end of support shaft 13 and the bottom of positioning disk 11.
Wherein, the axial location of guide duct 12 is provided with guide groove 15, and the lower end of support shaft 13 is arranged in guide groove 15;
So guiding installation is carried out by the convenient lower end to support shaft 13 of guide groove 15.
Wherein, the bottom of guide duct 12 is provided with support base 16, and the bottom of guide duct 12 is provided with support feet 17, support feet
17 are arranged vertically, and the lower end of support feet 17 is arranged on support base 16;The outer peripheral face of support base 16 is set with magnetic ring 18;Branch
The top edge position of support seat 16 is provided with some perforates 19;So bottom of the support base 16 by support feet 17 to guide duct 12
It is supported, and can be facilitated by magnetic ring 18 and magnetic absorption installation is carried out to the outer peripheral face of support base 16.
Wherein, the upper end of driving tube 33 is provided with the first traction wheel 36;The lower end of driven shaft 29 is provided with the second traction wheel 37;Institute
By the first traction wheel 36 rotational stability of driving tube 33 can be made better, driven shaft can be made by the second traction wheel 37
29 rotational stabilities are better.
Wherein, guide seat 42 is provided with footstock 44, and footstock 44 is arranged on the top of deflector chute 43, and the top of footstock 44 is provided with
Eccentric wheel 46, the top of eccentric wheel 46 are arranged on by installation axle 47 on the top of footstock 44, and the margin location of eccentric wheel 46 installs
There is motion arm 48, the sidepiece of motion arm 48 is provided with operation handle 49, and the bottom of eccentric wheel 46 is connected with the upper end of switch column 45;Institute
Motion arm 48 can be operated by operation handle 49 with operator, can facilitate to enter eccentric wheel 46 by motion arm 48
Row operation, the top of eccentric wheel 46 is realized around installation axle 47 to be rotated, so as to carry out eccentric motion to the bottom of eccentric wheel 46
Operation, it can be facilitated by eccentric wheel 46 and vertical lifting fine setting is carried out to switch column 45, so as to so that switch column 45 is cleverer
The switch of deflector chute 43 is controlled livingly.
The foregoing is only a specific embodiment of the invention, but protection scope of the present invention is not limited thereto, any
The change or replacement expected without creative work, it should all be included within the scope of the present invention.Therefore, it is of the invention
Protection domain should be determined by the scope of protection defined in the claims.