CN109366335B - A kind of antifouling polished device of ceramic device - Google Patents
A kind of antifouling polished device of ceramic device Download PDFInfo
- Publication number
- CN109366335B CN109366335B CN201811308874.8A CN201811308874A CN109366335B CN 109366335 B CN109366335 B CN 109366335B CN 201811308874 A CN201811308874 A CN 201811308874A CN 109366335 B CN109366335 B CN 109366335B
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- clamping
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- fixedly connected
- plate
- belt wheel
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B29/00—Machines or devices for polishing surfaces on work by means of tools made of soft or flexible material with or without the application of solid or liquid polishing agents
- B24B29/02—Machines or devices for polishing surfaces on work by means of tools made of soft or flexible material with or without the application of solid or liquid polishing agents designed for particular workpieces
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B41/00—Component parts such as frames, beds, carriages, headstocks
- B24B41/06—Work supports, e.g. adjustable steadies
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B47/00—Drives or gearings; Equipment therefor
- B24B47/10—Drives or gearings; Equipment therefor for rotating or reciprocating working-spindles carrying grinding wheels or workpieces
- B24B47/12—Drives or gearings; Equipment therefor for rotating or reciprocating working-spindles carrying grinding wheels or workpieces by mechanical gearing or electric power
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
Abstract
The present invention relates to a kind of burnishing devices, it in particular is a kind of antifouling polished device of ceramic device, including bottom bracket, top-support, power mechanism, pushing mechanism, push bracket, clamping mechanism, transmission mechanism, polishing mechanism I and polishing mechanism II, it can be simultaneously pushing mechanism by power mechanism, polishing mechanism I and polishing mechanism II provide power, it can be adapted for pushing mechanism by the power that the diameter difference of drive pulley I and drive pulley II on transmission mechanism exports power mechanism, polishing mechanism I and polishing mechanism II, the different ceramics of diameter can be subjected to clamping by clamping mechanism, being driven by pushing mechanism pushes bracket to swing, push bracket that clamping mechanism is driven to swing, ceramics is driven to be swung for clamping mechanism so that ceramics generate relative motion with polishing mechanism I and polishing mechanism II, it throws Ray machine structure I is opposite with II rotation direction of polishing mechanism.
Description
Technical field
The present invention relates to a kind of burnishing devices, are in particular a kind of antifouling polished devices of ceramic device.
Background technique
Such as a kind of antifouling polished device of ceramic device of publication number CN205600471U, including hand holding handle, the hand
It holds and speed regulating motor, speed reducer is installed in handle, the speed regulating motor is connected with the speed reducer, and the output shaft of speed reducer reaches
Handle is held, big polishing disk and small polishing disk are installed on the output shaft, is provided with and starts switch on the hand holding handle, and
The knob for adjusting speed regulating motor speed is provided on hand holding handle.The utility model simple structure and reasonable design, big polishing disk
Ceramic device can be polished with small polishing disk, by adjusting knob, the speed of speed regulating motor can be changed, thus according to
It needs to adjust the revolving speed of big polishing disk and small polishing disk, and easy to operate, convenient for promoting the use of;The shortcomings that utility model is
Efficiently ceramics cannot be processed by shot blasting, rely on the degree of automation hand-manipulated bottom.
Summary of the invention
The object of the present invention is to provide a kind of antifouling polished device of ceramic device, can repeat efficiently to ceramics into
Row polishing treatment needs not rely on high degree of automation hand-manipulated, and streamlined production may be implemented.
The purpose of the present invention is achieved through the following technical solutions:
A kind of antifouling polished device of ceramic device, including bottom bracket, top-support, power mechanism, pushing mechanism,
Bracket, clamping mechanism, transmission mechanism, polishing mechanism I and polishing mechanism II are pushed, the bottom bracket includes support plate I, support
Plate II, sliding groove, stent foot, connecting plate I, motor mounting plate and connecting plate II, support plate I and support plate II are provided with two
A, the upper end of two support plate I and two support plates II is provided with sliding groove, two support plate I and two support plates II
Lower end is fixedly connected to stent foot, and connecting plate I, two companies are fixedly connected between two support plate I and two support plates II
The lower end of fishplate bar I is fixedly connected to motor mounting plate, and connecting plate II, two supports are fixedly connected between two support plates I
Connecting plate II is fixedly connected between plate II;
The top-support includes top plate, support plate III and rotor plate, is fixedly connected to support on four angles of top plate
Plate III is fixedly connected with rotor plate on top plate, and the lower end of four support plates III is respectively fixedly connected on four stent foots;
The power mechanism includes motor, power cone tooth I, line shaft, power cone tooth II, power belt wheel and power cone tooth
III, motor is Dual-output shaft motor, and the both ends of motor output shaft are respectively fixedly connected with dynamic cone tooth I and power cone tooth III, electricity
Machine is fixedly connected between two motor mounting plates, and the middle-end of line shaft is fixedly connected with dynamic cone tooth II, the both ends of line shaft
It is fixedly connected to power belt wheel, power bores II engaged transmission of tooth I and power cone tooth, and the both ends of line shaft are rotatably connected on respectively
In two support plates I;
The pushing mechanism includes impeller-hub, pushes belt wheel, throw crank and push column, and the both ends of impeller-hub are fixed respectively
It is connected with and pushes belt wheel and throw crank, column is pushed to be fixedly connected on the eccentric position of throw crank, pushing mechanism is provided with two
A, two impeller-hubs are rotatably connected on respectively on two connecting plates I, and two promotion belt wheels pass through band with two power belt wheels respectively
Transmission connection;
The promotion bracket includes pushing bottom plate, pushing baffle, push waist hole, push connecting rod, vertical sliding hole, rotation
Support plate I and rotational support plate II push the both ends of bottom plate to be fixedly connected to promotion baffle, push on bottom plate there are two settings
Waist hole is pushed, pushes the two sides of bottom plate to be fixedly connected to promotion connecting rod, is provided with vertical cunning in two promotion connecting rods
The lower end in dynamic hole, two promotion baffles is fixedly connected to rotational support plate I, pushes fixed on four angles of bottom plate lower end connect
It is connected to rotational support plate II, the two sides of bottom plate is pushed to be slidably connected in four sliding grooves respectively, two promotion columns slide respectively
It is connected in two vertical sliding holes;
The clamping mechanism include clamping axis, clamping handle, clamping cone tooth I, clamping screw rod, clamping cone tooth II, clamping plate,
Clamping arc panel and clamping slide post, the both ends of clamping axis have been respectively fixedly connected with clamping handle and clamping cone tooth I, clamping screw rod
The thread rotary orientation at both ends on the contrary, clamping plate and clamping arc panel be symmetrical arranged there are two, the lower end of two clamping plates leads to respectively
The both ends for being threaded in clamping screw rod are crossed, are fixedly connected to two clamping slide posts on the outside of two clamping arc panels, four
A clamping slide post is slidably connected at respectively on two clamping plates, is set with compressed spring on four clamping slide posts, compression
For spring between clamping plate and clamping arc panel, the middle-end of clamping screw rod is fixedly connected with clamping cone tooth II, and clamping bores tooth II
With I engaged transmission of clamping cone tooth, there are two clamping mechanism settings, and two clamping axis are rotatably connected on two rotational support plates respectively
On I, the both ends of two clamping screw rods are rotatably connected on respectively on four rotational support plates II, and four clamping plates are slidably connected respectively
In two promotion waist holes;
The transmission mechanism includes transmission shaft I, transmission cone tooth I, drive pulley I, transmission shaft II, drive pulley II and transmission
Tooth II is bored, the both ends of transmission shaft I have been respectively fixedly connected with transmission cone tooth I and drive pulley I, transmission shaft I are rotatably connected on side
Support plate II on, transmission cone tooth I and the power cone engaged transmission of tooth III, the both ends of transmission shaft II have been respectively fixedly connected with transmission belt
Wheel II and transmission cone tooth II, transmission shaft II are rotatably connected on rotor plate, and drive pulley II and drive pulley I are connected by V belt translation
It connects;
The polishing mechanism I includes buff spindle I, polishing belt wheel I, buffing cone tooth, burnishing gear I, polishing cleaning wheel I, throws
Optical axis II, polishing belt wheel II and polishing cleaning wheel II, buff spindle I is fixedly connected sequentially from top to bottom polishing cleaning wheel I, polishing
Gear I, buffing cone tooth and polishing belt wheel I, buff spindle I are rotatably connected on top plate, and buffing cone tooth and the transmission cone engagement of tooth II pass
Dynamic, buff spindle II is fixedly connected sequentially from top to bottom polishing belt wheel II and polishing cleaning wheel II, and buff spindle II is rotatably connected on
On top plate, polishing belt wheel II is connected with polishing belt wheel I by V belt translation;
The polishing mechanism II includes buff spindle III, polishing belt wheel III, burnishing gear II, polishing cleaning wheel III, buff spindle
IV, belt wheel IV and polishing cleaning wheel IV are polished, buff spindle III is fixedly connected sequentially from top to bottom burnishing gear II, polishing belt wheel
III is rotatably connected on top plate with polishing cleaning wheel III, buff spindle III, I engaged transmission of burnishing gear II and burnishing gear, polishing
Axis IV is fixedly connected sequentially from top to bottom polishing belt wheel IV and polishing cleaning wheel IV, and buff spindle IV is rotatably connected on top plate,
Polishing belt wheel IV is connected with polishing belt wheel III by V belt translation.
As advanced optimizing for the technical program, a kind of antifouling polished device of ceramic device of the present invention is described dynamic
The number of teeth of power cone tooth I, power cone tooth II and power cone tooth III is identical, and power belt wheel is identical with the drive diameter of belt wheel is pushed.
As advanced optimizing for the technical program, a kind of antifouling polished device of ceramic device of the invention, described two
Flexible material is respectively arranged on the inside of a clamping arc panel.
As advanced optimizing for the technical program, a kind of antifouling polished device of ceramic device of the present invention, the biography
The diameter of movable belt pulley I is greater than the diameter of drive pulley II, and the diameter of buffing cone tooth is less than the diameter of transmission cone tooth II.
As advanced optimizing for the technical program, a kind of antifouling polished device of ceramic device of the present invention, the throwing
Light gear I is identical with the number of teeth of burnishing gear II, and polishing belt wheel I, polishing belt wheel II polish belt wheel III and polish the straight of belt wheel IV
Diameter is identical.
As advanced optimizing for the technical program, a kind of antifouling polished device of ceramic device of the present invention, the throwing
Light cleaning wheel I, polishing cleaning wheel II, polishing cleaning wheel III and polishing cleaning wheel IV are flexible material.
A kind of antifouling polished device of ceramic device of the invention has the beneficial effect that
A kind of antifouling polished device of ceramic device of the present invention can be pushing mechanism by power mechanism, throw simultaneously
Ray machine structure I and polishing mechanism II provide power, are made by drive pulley I on transmission mechanism and the diameter difference of drive pulley II
The power of power mechanism output can be adapted for pushing mechanism, polishing mechanism I and polishing mechanism II, can be with by clamping mechanism
The different ceramics of diameter are subjected to clamping, is driven by pushing mechanism and bracket is pushed to swing, bracket is pushed to drive clamping mechanism pendulum
Dynamic, ceramics is driven to be swung for clamping mechanism so that ceramics generate relative motion, polishing machine with polishing mechanism I and polishing mechanism II
Structure I and II rotation direction of polishing mechanism are on the contrary, polishing mechanism I and polishing mechanism II pass through relative motion to the pottery on clamping mechanism
Porcelain is cleaned and is polished.
Detailed description of the invention
The present invention will be further described in detail with specific implementation method with reference to the accompanying drawing.
Fig. 1 is the antifouling polished device overall structure diagram of ceramic device of the invention;
Fig. 2 is the antifouling polished device drive mechanism schematic diagram of ceramic device of the invention;
Fig. 3 is bottom bracket structural schematic diagram of the invention;
Fig. 4 is top-support structural schematic diagram of the invention;
Fig. 5 is power mechanism structural schematic diagram of the invention;
Fig. 6 is pushing mechanism structural schematic diagram of the invention;
Fig. 7 is promotion supporting structure schematic diagram one of the invention;
Fig. 8 is promotion supporting structure schematic diagram two of the invention;
Fig. 9 is clamping mechanism structural schematic diagram of the invention;
Figure 10 is schematic diagram of transmission mechanism of the invention;
Figure 11 is I structural schematic diagram of polishing mechanism of the invention;
Figure 12 is II structural schematic diagram of polishing mechanism of the invention.
In figure: bottom bracket 1;I 1-1 of support plate;II 1-2 of support plate;Sliding groove 1-3;Stent foot 1-4;I 1-5 of connecting plate;
Motor mounting plate 1-6;II 1-7 of connecting plate;Top-support 2;Top plate 2-1;III 2-2 of support plate;Rotor plate 2-3;Power mechanism 3;
Motor 3-1;Power bores I 3-2 of tooth;Line shaft 3-3;Power bores II 3-4 of tooth;Power belt wheel 3-5;Power bores III 3-6 of tooth;Promotion machine
Structure 4;Impeller-hub 4-1;Push belt wheel 4-2;Throw crank 4-3;Push column 4-4;Push bracket 5;Push bottom plate 5-1;Push gear
Plate 5-2;Push waist hole 5-3;Push connecting rod 5-4;Vertical sliding hole 5-5;I 5-6 of rotational support plate;II 5-7 of rotational support plate;
Clamping mechanism 6;Clamping axis 6-1;Clamping handle 6-2;Clamping bores I 6-3 of tooth;Clamping screw rod 6-4;Clamping bores II 6-5 of tooth;Clamping plate
6-6;Clamping arc panel 6-7;Clamping slide post 6-8;Transmission mechanism 7;I 7-1 of transmission shaft;Transmission cone I 7-2 of tooth;I 7- of drive pulley
3;II 7-4 of transmission shaft;II 7-5 of drive pulley;Transmission cone II 7-6 of tooth;Polishing mechanism I 8;I 8-1 of buff spindle;Polish I 8-2 of belt wheel;
Buffing cone tooth 8-3;I 8-4 of burnishing gear;Polish I 8-5 of cleaning wheel;II 8-6 of buff spindle;Polish II 8-7 of belt wheel;Polish cleaning wheel
Ⅱ8-8;Polishing mechanism II 9;III 9-1 of buff spindle;Polish III 9-2 of belt wheel;II 9-3 of burnishing gear;Polish III 9-4 of cleaning wheel;It throws
IV 9-5 of optical axis;Polish IV 9-6 of belt wheel;Polish IV 9-7 of cleaning wheel.
Specific embodiment
The present invention is described in further detail below in conjunction with the accompanying drawings.
Before illustrating specific embodiment, to avoid repeating language, illustrating " being fixedly connected " as described below can be with
It is: is bolted, welds and the modes such as rivet interlacement are fixed, those skilled in the art can be according to different applications
Scene selects the different modes that is fixedly connected, and main purpose is that two pieces part is fixed.
Specific embodiment 1:
Illustrate present embodiment, a kind of antifouling polished device of ceramic device, including bottom branch below with reference to Fig. 1-12
Frame 1, power mechanism 3, pushing mechanism 4, pushes bracket 5, clamping mechanism 6, transmission mechanism 7, I 8 and of polishing mechanism at top-support 2
Polishing mechanism II 9 can provide power simultaneously by power mechanism 3 for pushing mechanism 4, polishing mechanism I 8 and polishing mechanism II 9,
The power for by the diameter difference of I 7-3 of drive pulley and II 7-5 of drive pulley on transmission mechanism 7 power mechanism 3 being exported
It can be adapted for pushing mechanism 4, polishing mechanism I 8 and polishing mechanism II 9, ceramics that can be different by diameter by clamping mechanism 6
Clamping is carried out, is driven by pushing mechanism 4 and bracket 5 is pushed to swing, pushes bracket 5 that clamping mechanism 6 is driven to swing, clamping mechanism 6
Ceramics are driven to be swung so that ceramics generate relative motion, polishing mechanism I 8 and throwing with polishing mechanism I 8 and polishing mechanism II 9
II 9 rotation direction of ray machine structure on the contrary, polishing mechanism I 8 and polishing mechanism II 9 by relative motion to the ceramics on clamping mechanism into
Row cleaning and polishing.
The bottom bracket 1 includes I 1-1 of support plate, II 1-2 of support plate, sliding groove 1-3, stent foot 1-4, I 1- of connecting plate
5, there are two II 1-7 of motor mounting plate 1-6 and connecting plate, I 1-1 of support plate and II 1-2 of support plate are respectively provided with, two support plates I
The upper end of 1-1 and two II 1-2 of support plate is provided with sliding groove 1-3, two support plates, I 1-1 and two II 1-2's of support plate
Lower end is fixedly connected to stent foot 1-4, is fixedly connected with connecting plate between two support plates, I 1-1 and two II 1-2 of support plate
I 1-5, the lower end of two I 1-5 of connecting plate are fixedly connected to motor mounting plate 1-6, are fixedly connected between two I 1-1 of support plate
There is II 1-7 of connecting plate, is fixedly connected with II 1-7 of connecting plate between two II 1-2 of support plate;
The top-support 2 includes top plate 2-1, support plate III 2-2 and rotor plate 2-3, solid on four angles of top plate 2-1
Surely it is connected with III 2-2 of support plate, rotor plate 2-3 is fixedly connected on top plate 2-1, the lower end of four III 2-2 of support plate is solid respectively
Surely it is connected on four stent foot 1-4;
The power mechanism 3 includes motor 3-1, power cone I 3-2 of tooth, line shaft 3-3, power cone II 3-4 of tooth, powered belt
It takes turns 3-5 and power bores III 3-6 of tooth, motor 3-1 is Dual-output shaft motor, and the both ends of motor 3-1 output shaft have been respectively fixedly connected with
Power bores I 3-2 of tooth and power bores III 3-6 of tooth, and motor 3-1 is fixedly connected between two motor mounting plate 1-6, line shaft 3-3
Middle-end be fixedly connected with dynamic II 3-4 of cone tooth, the both ends of line shaft 3-3 are fixedly connected to power belt wheel 3-5, and power bores tooth
I 3-2 and power cone II 3-4 of tooth engaged transmission, the both ends of line shaft 3-3 are rotatably connected on respectively on two I 1-1 of support plate;
The pushing mechanism 4 includes impeller-hub 4-1, pushes belt wheel 4-2, throw crank 4-3 and push column 4-4, impeller-hub
The both ends of 4-1, which have been respectively fixedly connected with, pushes belt wheel 4-2 and throw crank 4-3, and column 4-4 is pushed to be fixedly connected on throw crank 4-
3 eccentric position, there are two the settings of pushing mechanism 4, and two impeller-hub 4-1 are rotatably connected on respectively on two I 1-5 of connecting plate,
Two promotion belt wheel 4-2 are connect with two power belt wheel 3-5 by V belt translation respectively;
The promotion bracket 5 includes pushing bottom plate 5-1, pushing baffle 5-2, push waist hole 5-3, push connecting rod 5-4, is perpendicular
Straight sliding eye 5-5, II 5-7 of I 5-6 of rotational support plate and rotational support plate, push the both ends of bottom plate 5-1 to be fixedly connected to promotion
Baffle 5-2 pushes setting on bottom plate 5-1 to push the two sides of bottom plate 5-1 to be fixedly connected to promotion there are two waist hole 5-3 is pushed
Vertical sliding hole 5-5 is provided on connecting rod 5-4, two promotion connecting rod 5-4, the lower end of two promotion baffle 5-2 is solid
Surely it is connected with I 5-6 of rotational support plate, pushes and is fixedly connected to II 5-7 of rotational support plate on four angles of the lower end bottom plate 5-1,
The two sides of bottom plate 5-1 are pushed to be slidably connected in four sliding groove 1-3 respectively, two promotion column 4-4 are slidably connected at two respectively
In a vertical sliding hole 5-5;
The clamping mechanism 6 includes clamping axis 6-1, clamping handle 6-2, clamping cone I 6-3 of tooth, clamping screw rod 6-4, clamping
Cone II 6-5 of tooth, clamping plate 6-6, clamping arc panel 6-7 and clamping slide post 6-8, the both ends of clamping axis 6-1 are respectively fixedly connected with
There are clamping handle 6-2 and clamping cone I 6-3 of tooth, the thread rotary orientation at the both ends clamping screw rod 6-4 is on the contrary, clamping plate 6-6 and clamping arc
There are two plate 6-7 is symmetrical arranged, the lower end of two clamping plate 6-6 is threadedly attached in the both ends of clamping screw rod 6-4 respectively,
Two clamping slide post 6-8 are fixedly connected on the outside of two clamping arc panel 6-7, four clamping slide post 6-8 are slided respectively
It is dynamic to be connected on two clamping plate 6-6, compressed spring is set on four clamping slide post 6-8, compressed spring is located at clamping
Between plate 6-6 and clamping arc panel 6-7, the middle-end of clamping screw rod 6-4 is fixedly connected with clamping cone II 6-5 of tooth, and clamping bores tooth II
6-5 and clamping cone I 6-3 of tooth engaged transmission, there are two the settings of clamping mechanism 6, and two clamping axis 6-1 are rotatably connected on two respectively
On I 5-6 of rotational support plate, the both ends of two clamping screw rod 6-4 are rotatably connected on respectively on four II 5-7 of rotational support plate, and four
A clamping plate 6-6 is slidably connected at respectively in two promotion waist hole 5-3;
The transmission mechanism 7 includes I 7-1 of transmission shaft, transmission cone I 7-2 of tooth, I 7-3 of drive pulley, II 7-4 of transmission shaft, passes
II 7-5 of movable belt pulley and transmission cone II 7-6 of tooth, the both ends of I 7-1 of transmission shaft have been respectively fixedly connected with transmission cone I 7-2 of tooth and transmission belt
I 7-3 is taken turns, I 7-1 of transmission shaft is rotatably connected on II 1-2 of support plate of side, and transmission cone I 7-2 of tooth and power cone III 3-6 of tooth are nibbled
Transmission is closed, the both ends of II 7-4 of transmission shaft have been respectively fixedly connected with II 7-5 of drive pulley and transmission cone II 7-6 of tooth, II 7- of transmission shaft
4 are rotatably connected on rotor plate 2-3, and II 7-5 of drive pulley is connected with I 7-3 of drive pulley by V belt translation;
The polishing mechanism I 8 includes I 8-1 of buff spindle, polishing I 8-2 of belt wheel, buffing cone tooth 8-3, I 8-4 of burnishing gear, throws
I 8-5 of light cleaning wheel, II 8-6 of buff spindle, polishing II 8-7 of belt wheel and polishing II 8-8 of cleaning wheel, I 8-1 of buff spindle from top to bottom according to
It is secondary to be fixedly connected with polishing I 8-5 of cleaning wheel, I 8-4 of burnishing gear, buffing cone tooth 8-3 and polishing I 8-2 of belt wheel, I 8-1 of buff spindle
Be rotatably connected on top plate 2-1, buffing cone tooth 8-3 and transmission cone II 7-6 of tooth engaged transmission, II 8-6 of buff spindle from top to bottom according to
Secondary to be fixedly connected with polishing II 8-7 of belt wheel and polish II 8-8 of cleaning wheel, II 8-6 of buff spindle is rotatably connected on top plate 2-1, is thrown
II 8-7 of light belt wheel is connected with polishing I 8-2 of belt wheel by V belt translation;
The polishing mechanism II 9 includes III 9-1 of buff spindle, polishing III 9-2 of belt wheel, II 9-3 of burnishing gear, polishing cleaning wheel
III 9-4, IV 9-5 of buff spindle, it polishes IV 9-6 of belt wheel and polishes IV 9-7 of cleaning wheel, III 9-1 of buff spindle is successively fixed from top to bottom
It is connected with II 9-3 of burnishing gear, polishing III 9-2 of belt wheel and polishing III 9-4 of cleaning wheel, III 9-1 of buff spindle is rotatably connected on top plate
On 2-1, II 9-3 of burnishing gear and burnishing gear I 8-4 engaged transmission, IV 9-5 of buff spindle are fixedly connected sequentially have throwing from top to bottom
IV 9-6 of light belt wheel is rotatably connected on top plate 2-1 with polishing IV 9-7 of cleaning wheel, IV 9-5 of buff spindle, polishes IV 9-6 of belt wheel and throwing
III 9-2 of light belt wheel is connected by V belt translation;Two clampings that the ceramics for polishing or cleaning will be needed to be placed on side when use
Between arc panel 6-7, it is respectively arranged with flexible material on the inside of two clamping arc panel 6-7, guarantees that two clamping arc panel 6-7 are being squeezed
Pressure compressed spring will not damage ceramics when carrying out clamping to ceramics, rotate clamping handle 6-2, and clamping handle 6-2 drives
Clamping axis 6-1 is rotated centered on the axis of clamping axis 6-1, and clamping axis 6-1 drives clamping cone I 6-3 of tooth with clamping axis 6-1
Axis centered on rotated, clamping bore I 6-3 of tooth drive clamping cone II 6-5 of tooth centered on the axis of clamping screw rod 6-4 into
Row rotation, clamping cone II 6-5 of tooth drive clamping screw rod 6-4 to be rotated centered on the axis of clamping screw rod 6-4, clamping screw rod
The thread rotary orientation at the both ends 6-4 is on the contrary, clamping screw rod 6-4 drives two clamping plate 6-6 to be slided in sliding groove 1-3 by screw thread
It is dynamic, ceramics are subjected to clamping when two clamping plate 6-6 are close to each other, there are two the settings of clamping mechanism 6, can make pottery simultaneously to two
Porcelain carries out clamping, improves working efficiency;Start motor 3-1, the output shaft of motor 3-1 starts turning, the output shaft band of motor 3-1
Dynamic power cone I 3-2 of tooth and power cone III 3-6 of tooth are rotated centered on the axis of motor 3-1 output shaft, and power bores I 3-2 of tooth
Drive power cone II 3-4 of tooth rotated centered on the axis of line shaft 3-3, power bore II 3-4 of tooth drive line shaft 3-3 with
It is rotated centered on the axis of line shaft 3-3, two power belt wheel 3-5 of line shaft 3-3 drive are with the axis of line shaft 3-3
Center is rotated, and two power belt wheel 3-5 drive two promotion belt wheel 4-2 respectively with the axis of two impeller-hub 4-1 respectively
Centered on rotated, two promotion belt wheel 4-2 are driven respectively during two impeller-hub 4-1 with the axis of two impeller-hub 4-1 are
The heart is rotated, two impeller-hub 4-1 drive two throw crank 4-3 respectively centered on the axis of two impeller-hub 4-1 into
Row rotation, two throw crank 4-3 pass through two promotion column 4-4 respectively and carry out sliding promotion in two vertical sliding hole 5-5
It pushes bracket 5 to move back and forth under the limit of four sliding groove 1-3, pushes bracket 5 that clamping mechanism 6 is driven back and forth to be transported
Dynamic, clamping mechanism 6 drives ceramics to move back and forth, and pushing mechanism 4 is that two stress make that bracket 5 is pushed to move back and forth
When stress more evenly;Clamping cone I 6-3 of tooth drives transmission cone I 7-2 of tooth to be rotated centered on the axis of I 7-1 of transmission shaft,
Transmission cone I 7-2 of tooth drives I 7-1 of transmission shaft to be rotated centered on the axis of I 7-1 of transmission shaft, and I 7-1 of transmission shaft drives transmission
I 7-3 of belt wheel is rotated centered on the axis of I 7-1 of transmission shaft, and I 7-3 of drive pulley drives II 7-5 of drive pulley to be driven
It is rotated centered on the axis of II 7-4 of axis, II 7-5 of drive pulley drive, II 7-4 of transmission shaft is with the axis of II 7-4 of transmission shaft
Center is rotated, and II 7-4 of transmission shaft drives transmission cone II 7-6 of tooth to be rotated centered on the axis of II 7-4 of transmission shaft, is passed
II 7-6 of mantle tooth drives buffing cone tooth 8-3 to be rotated centered on the axis of I 8-1 of buff spindle, and buffing cone tooth 8-3, which drives, to be thrown
I 8-1 of optical axis is rotated centered on the axis of I 8-1 of buff spindle, and I 8-1 of buff spindle drives polishing I 8-2 of belt wheel, burnishing gear I
8-4 and polishing I 8-5 of cleaning wheel are rotated centered on the axis of I 8-1 of buff spindle, and I 8-4 of burnishing gear drives burnishing gear
II 9-3 is rotated centered on the axis of III 9-1 of buff spindle, the rotation direction of I 8-4 of II 9-3 of burnishing gear and burnishing gear
On the contrary, II 9-3 of burnishing gear drives III 9-1 of buff spindle to be rotated centered on the axis of III 9-1 of buff spindle, III 9- of buff spindle
1 drive polishing III 9-2 of belt wheel, II 9-3 of burnishing gear and polishing III 9-4 of cleaning wheel centered on the axis of III 9-1 of buff spindle into
The rotation direction of row rotation, polishing III 9-4 of cleaning wheel and polishing I 8-5 of cleaning wheel are on the contrary, polishing III 9-4 of cleaning wheel and polishing are clear
I 8-5 of clean wheel carries out polished and cleaned to the ceramics of side, and polishing I 8-2 of belt wheel drives polishing II 8-7 of belt wheel with II 8-6's of buff spindle
It is rotated centered on axis, polishing II 8-7 of belt wheel drives II 8-6 of buff spindle to carry out centered on the axis of II 8-6 of buff spindle
Rotation, II 8-6 of buff spindle are driven polishing II 8-8 of cleaning wheel to be rotated centered on the axis of II 8-6 of buff spindle, polish belt wheel
III 9-2 drives polishing IV 9-6 of belt wheel to be rotated centered on the axis of IV 9-5 of buff spindle, and polishing IV 9-6 of belt wheel drives polishing
IV 9-5 of axis is rotated centered on the axis of IV 9-5 of buff spindle, and IV 9-5 of buff spindle drives polishing IV 9-7 of cleaning wheel to polish
It is rotated centered on the axis of IV 9-5 of axis, the rotation direction of polishing IV 9-7 of cleaning wheel and polishing II 8-8 of cleaning wheel are on the contrary, throw
IV 9-7 of light cleaning wheel and polishing II 8-8 of cleaning wheel clean the ceramics under reciprocating motion state.
The number of teeth of power cone I 3-2 of tooth, power cone II 3-4 of tooth and power cone III 3-6 of tooth are identical, power belt wheel 3-5 and
Push the drive diameter of belt wheel 4-2 identical;Guarantee between power cone I 3-2 of tooth, power cone II 3-4 of tooth and power cone III 3-6 of tooth
Transmission ratio is one, guarantees power belt wheel 3-5 and push the transmission ratio between belt wheel 4-2 to be one.
Flexible material is respectively arranged on the inside of described two clamping arc panel 6-7;Guarantee that two clamping arc panel 6-7 are being squeezed
Compressed spring will not damage ceramics when carrying out clamping to ceramics.
The diameter of I 7-3 of drive pulley is greater than the diameter of II 7-5 of drive pulley, and the diameter of buffing cone tooth 8-3, which is less than, to be passed
The diameter of II 7-6 of mantle tooth;The transmission of II 7-5 diameter of I 7-3 of drive pulley and drive pulley, I 7-3 of drive pulley drive transmission
When II 7-5 of belt wheel is rotated, velocity of rotation of the velocity of rotation greater than I 7-3 of drive pulley of II 7-5 of drive pulley plays the work of speedup
With when transmission cone II 7-6 of tooth drives buffing cone tooth 8-3 rotation, the velocity of rotation of buffing cone tooth 8-3 is greater than transmission cone II 7-6 of tooth
Velocity of rotation play the role of speedup, polishing I 8-5 of cleaning wheel, polishing II 8-8 of cleaning wheel, polishing III 9-4 of cleaning wheel and polishing
IV 9-7 of cleaning wheel needs faster speed to rub ceramics.
I 8-4 of burnishing gear is identical with the number of teeth of II 9-3 of burnishing gear, polishing I 8-2 of belt wheel, polishing II 8-7 of belt wheel,
It is identical with the polishing diameter of IV 9-6 of belt wheel to polish III 9-2 of belt wheel;Guarantee between I 8-4 of burnishing gear and II 9-3 of burnishing gear
Transmission ratio is one, is guaranteed between polishing I 8-2 of belt wheel, polishing II 8-7 of belt wheel, polishing III 9-2 of belt wheel and polishing IV 9-6 of belt wheel
Transmission ratio is one.
I 8-5 of polishing cleaning wheel, polishing II 8-8 of cleaning wheel, polishing III 9-4 of cleaning wheel and polishing IV 9-7 of cleaning wheel are equal
For flexible material;So that polishing I 8-5 of cleaning wheel, polishing II 8-8 of cleaning wheel, polishing III 9-4 of cleaning wheel and polishing IV 9- of cleaning wheel
7 are adapted to ceramics of different shapes, and ceramics of different shapes can be cleaned and be polished, and I 8- of cleaning wheel is polished
5, II 8-8 of cleaning wheel, polishing III 9-4 of cleaning wheel are polished and polishing IV 9-7 of cleaning wheel will not be to ceramics in cleaning or polishing
Generate injury.
A kind of antifouling polished device of ceramic device of the invention, its working principle is that:
The ceramics for polishing or cleaning will be needed to be placed between two clamping arc panel 6-7 of side when use, two
Be respectively arranged with flexible material on the inside of clamping arc panel 6-7, guarantee two clamping arc panel 6-7 squeeze compressed spring to ceramics into
Luggage will not damage ceramics when pressing from both sides, and rotate clamping handle 6-2, and clamping handle 6-2 drives clamping axis 6-1 with clamping axis 6-
It is rotated centered on 1 axis, clamping axis 6-1 drives clamping cone I 6-3 of tooth to be turned centered on the axis of clamping axis 6-1
Dynamic, clamping cone I 6-3 of tooth drives clamping cone II 6-5 of tooth to be rotated centered on the axis of clamping screw rod 6-4, and clamping bores tooth II
6-5 drives clamping screw rod 6-4 to be rotated centered on the axis of clamping screw rod 6-4, the thread rotary orientation at the both ends clamping screw rod 6-4
On the contrary, clamping screw rod 6-4 drives two clamping plate 6-6 to be slided in sliding groove 1-3 by screw thread, two clamping plate 6-6
Ceramics are subjected to clamping when close to each other, there are two the settings of clamping mechanism 6, can carry out clamping to two ceramics simultaneously, improve
Working efficiency;Start motor 3-1, the output shaft of motor 3-1 starts turning, and the output shaft of motor 3-1 drives power to bore I 3-2 of tooth
It is rotated centered on the axis of motor 3-1 output shaft with power cone III 3-6 of tooth, power bores I 3-2 of tooth and power is driven to bore tooth II
3-4 is rotated centered on the axis of line shaft 3-3, and power bores II 3-4 of tooth and drives line shaft 3-3 with the axis of line shaft 3-3
It being rotated centered on line, line shaft 3-3 drives two power belt wheel 3-5 to be rotated centered on the axis of line shaft 3-3,
Two power belt wheel 3-5 drive two promotion belt wheel 4-2 to be turned centered on the axis of two impeller-hub 4-1 respectively respectively
Dynamic, two promotion belt wheel 4-2 drive two impeller-hub 4-1 to be rotated centered on the axis of two impeller-hub 4-1 respectively, and two
A impeller-hub 4-1 drives two throw crank 4-3 to be rotated centered on the axis of two impeller-hub 4-1 respectively, and two push away
Dynamic crank 4-3 passes through two promotion column 4-4 respectively and carries out sliding promotion promotion bracket 5 in two vertical sliding hole 5-5 four
It moves back and forth under the limit of a sliding groove 1-3, pushes bracket 5 that clamping mechanism 6 is driven to move back and forth, clamping mechanism 6
Ceramics are driven to move back and forth, pushing mechanism 4 is that two stress make stress when bracket 5 being pushed to move back and forth more equal
It is even;Clamping cone I 6-3 of tooth drives transmission cone I 7-2 of tooth to be rotated centered on the axis of I 7-1 of transmission shaft, transmission cone I 7-2 of tooth
I 7-1 of transmission shaft is driven to be rotated centered on the axis of I 7-1 of transmission shaft, I 7-1 of transmission shaft drives I 7-3 of drive pulley to pass
It is rotated centered on the axis of I 7-1 of moving axis, I 7-3 of drive pulley drives II 7-5 of drive pulley with the axis of II 7-4 of transmission shaft
Centered on rotated, II 7-5 of drive pulley drive II 7-4 of transmission shaft rotated centered on the axis of II 7-4 of transmission shaft,
II 7-4 of transmission shaft drives transmission cone II 7-6 of tooth to be rotated centered on the axis of II 7-4 of transmission shaft, transmission cone II 7-6 band of tooth
Dynamic buffing cone tooth 8-3 is rotated centered on the axis of I 8-1 of buff spindle, and buffing cone tooth 8-3 drives I 8-1 of buff spindle to polish
It is rotated centered on the axis of I 8-1 of axis, I 8-1 of buff spindle drives polishing I 8-2 of belt wheel, I 8-4 of burnishing gear and polishing cleaning
It takes turns I 8-5 to be rotated centered on the axis of I 8-1 of buff spindle, I 8-4 of burnishing gear drives II 9-3 of burnishing gear with buff spindle
It is rotated centered on the axis of III 9-1, the rotation direction of I 8-4 of II 9-3 of burnishing gear and burnishing gear is on the contrary, burnishing gear
II 9-3 drives III 9-1 of buff spindle to be rotated centered on the axis of III 9-1 of buff spindle, and III 9-1 of buff spindle drives polishing belt wheel
III 9-2, II 9-3 of burnishing gear and polishing III 9-4 of cleaning wheel are rotated centered on the axis of III 9-1 of buff spindle, and polishing is clear
The rotation direction of III 9-4 of clean wheel and polishing I 8-5 of cleaning wheel are on the contrary, polish III 9-4 of cleaning wheel and polishing I 8-5 of cleaning wheel to side
Ceramics carry out polished and cleaned, polishing I 8-2 of belt wheel drive polishing II 8-7 of belt wheel carried out centered on the axis of II 8-6 of buff spindle
Rotation, polishing II 8-7 of belt wheel drive II 8-6 of buff spindle to be rotated centered on the axis of II 8-6 of buff spindle, II 8- of buff spindle
6 drive polishing II 8-8 of cleaning wheel to be rotated centered on the axis of II 8-6 of buff spindle, and polishing III 9-2 of belt wheel drives sand belt
It takes turns IV 9-6 to be rotated centered on the axis of IV 9-5 of buff spindle, polishing IV 9-6 of belt wheel drives IV 9-5 of buff spindle with buff spindle
It is rotated centered on the axis of IV 9-5, IV 9-5 of buff spindle drive polishing, IV 9-7 of cleaning wheel is with the axis of IV 9-5 of buff spindle
Center is rotated, polishing IV 9-7 of cleaning wheel and polish II 8-8 of cleaning wheel rotation direction on the contrary, polishing IV 9-7 of cleaning wheel and
Polishing II 8-8 of cleaning wheel cleans the ceramics under reciprocating motion state.
Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art
The variations, modifications, additions or substitutions that those of ordinary skill is made within the essential scope of the present invention also belong to guarantor of the invention
Protect range.
Claims (6)
1. a kind of antifouling polished device of ceramic device, including bottom bracket (1), top-support (2), power mechanism (3), push away
Motivation structure (4) pushes bracket (5), clamping mechanism (6), transmission mechanism (7), polishing mechanism I (8) and polishing mechanism II (9),
Be characterized in that: the bottom bracket (1) includes support plate I (1-1), support plate II (1-2), sliding groove (1-3), stent foot (1-
4), connecting plate I (1-5), motor mounting plate (1-6) and connecting plate II (1-7), support plate I (1-1) and support plate II (1-2) are equal
There are two settings, and the upper end of two support plates I (1-1) and two support plates II (1-2) is provided with sliding groove (1-3), and two
The lower end of support plate I (1-1) and two support plates II (1-2) is fixedly connected to stent foot (1-4), two support plates I (1-1)
It is fixedly connected with connecting plate I (1-5) between two support plates II (1-2), the lower end of two connecting plates I (1-5) is fixed to be connected
It is connected to motor mounting plate (1-6), is fixedly connected with connecting plate II (1-7) between two support plates I (1-1), two support plates II
Connecting plate II (1-7) is fixedly connected between (1-2);
The top-support (2) includes top plate (2-1), support plate III (2-2) and rotor plate (2-3), four angles of top plate (2-1)
On be fixedly connected to support plate III (2-2), be fixedly connected on top plate (2-1) rotor plate (2-3), four III (2- of support plate
2) lower end is respectively fixedly connected on four stent foots (1-4);
The power mechanism (3) include motor (3-1), power cone tooth I (3-2), line shaft (3-3), power cone tooth II (3-4),
Power belt wheel (3-5) and power cone tooth III (3-6), motor (3-1) are Dual-output shaft motor, the both ends of motor (3-1) output shaft
It is respectively fixedly connected with dynamic cone tooth I (3-2) and power cone tooth III (3-6), motor (3-1) is fixedly connected on two motor installations
Between plate (1-6), the middle-end of line shaft (3-3) is fixedly connected with dynamic cone tooth II (3-4), and the both ends of line shaft (3-3) are solid
Surely it is connected with power belt wheel (3-5), power cone tooth I (3-2) and power cone tooth II (3-4) engaged transmission, the two of line shaft (3-3)
End is rotatably connected on respectively on two support plates I (1-1);
The pushing mechanism (4) includes impeller-hub (4-1), pushes belt wheel (4-2), throw crank (4-3) and push column (4-4),
The both ends of impeller-hub (4-1) have been respectively fixedly connected with promotion belt wheel (4-2) and throw crank (4-3), push column (4-4) is fixed to connect
The eccentric position in throw crank (4-3) is connect, there are two pushing mechanism (4) settings, and two impeller-hubs (4-1) are rotatablely connected respectively
On two connecting plates I (1-5), two promotion belt wheels (4-2) are connect with two power belt wheels (3-5) by V belt translation respectively;
The promotion bracket (5) includes pushing bottom plate (5-1), pushing baffle (5-2), push waist hole (5-3), push connecting rod
(5-4), vertical sliding hole (5-5), rotational support plate I (5-6) and rotational support plate II (5-7) push the both ends of bottom plate (5-1)
It is fixedly connected to and pushes baffle (5-2), setting on bottom plate (5-1) is pushed to push bottom plate (5- there are two waist hole (5-3) is pushed
1) two sides, which are fixedly connected to, pushes connecting rod (5-4), is provided with vertical sliding hole on two promotion connecting rods (5-4)
(5-5), two push the lower end of baffle (5-2) to be fixedly connected to rotational support plate I (5-6), push the lower end bottom plate (5-1)
It is fixedly connected on four angles rotational support plate II (5-7), the two sides of bottom plate (5-1) is pushed to be slidably connected at four cunnings respectively
In dynamic slot (1-3), two promotion columns (4-4) are slidably connected at respectively in two vertical sliding holes (5-5);
The clamping mechanism (6) includes clamping axis (6-1), clamping handle (6-2), clamping cone tooth I (6-3), clamping screw rod (6-
4), clamping cone tooth II (6-5), clamping plate (6-6), clamping arc panel (6-7) and clamping slide post (6-8), clamping axis (6-1)
Both ends have been respectively fixedly connected with clamping handle (6-2) and clamping cone tooth I (6-3), the thread rotary orientation phase at the both ends clamping screw rod (6-4)
Instead, there are two clamping plate (6-6) and clamping arc panel (6-7) are symmetrical arranged, the lower end of two clamping plates (6-6) passes through respectively
The both ends of clamping screw rod (6-4) are threaded in, it is sliding that two clampings are fixedly connected on the outside of two clamping arc panels (6-7)
Dynamic column (6-8), four clamping slide posts (6-8) are slidably connected at respectively on two clamping plates (6-6), four clamping slide posts
Compressed spring is set on (6-8), compressed spring is located between clamping plate (6-6) and clamping arc panel (6-7), clamping screw rod
The middle-end of (6-4) is fixedly connected with clamping cone tooth II (6-5), and clamping bores tooth II (6-5) and clamping cone tooth I (6-3) engaged transmission,
There are two clamping mechanism (6) settings, and two clamping axis (6-1) are rotatably connected on respectively on two rotational support plates I (5-6), and two
The both ends of a clamping screw rod (6-4) are rotatably connected on respectively on four rotational support plates II (5-7), four clamping plates (6-6) point
It is not slidably connected in two promotion waist holes (5-3);
The transmission mechanism (7) includes transmission shaft I (7-1), transmission cone tooth I (7-2), drive pulley I (7-3), II (7- of transmission shaft
4), drive pulley II (7-5) and transmission cone tooth II (7-6), the both ends of transmission shaft I (7-1) have been respectively fixedly connected with transmission cone tooth I
(7-2) and drive pulley I (7-3), transmission shaft I (7-1) are rotatably connected in the support plate II (1-2) of side, transmission cone tooth I
(7-2) and power bore tooth III (3-6) engaged transmission, and the both ends of transmission shaft II (7-4) have been respectively fixedly connected with II (7- of drive pulley
5) it is rotatably connected on rotor plate (2-3) with transmission cone tooth II (7-6), transmission shaft II (7-4), drive pulley II (7-5) and biography
Movable belt pulley I (7-3) is connected by V belt translation;
The polishing mechanism I (8) includes buff spindle I (8-1), polishing belt wheel I (8-2), buffing cone tooth (8-3), burnishing gear I
(8-4), polishing cleaning wheel I (8-5), buff spindle II (8-6), polishing belt wheel II (8-7) and polishing cleaning wheel II (8-8), polishing
Axis I (8-1) be fixedly connected sequentially from top to bottom have polishing cleaning wheel I (8-5), burnishing gear I (8-4), buffing cone tooth (8-3) and
It polishes belt wheel I (8-2), buff spindle I (8-1) is rotatably connected on top plate (2-1), buffing cone tooth (8-3) and transmission cone II (7- of tooth
6) engaged transmission, buff spindle II (8-6) is fixedly connected sequentially from top to bottom polishing belt wheel II (8-7) and polishing cleaning wheel II
(8-8), buff spindle II (8-6) are rotatably connected on top plate (2-1), polish belt wheel II (8-7) and polishing belt wheel I (8-2) passes through
V belt translation connection;
The polishing mechanism II (9) includes buff spindle III (9-1), polishing belt wheel III (9-2), burnishing gear II (9-3), polishes clearly
III (9-4) of clean wheel, buff spindle IV (9-5), polishing belt wheel IV (9-6) and polish cleaning wheel IV (9-7), buff spindle III (9-1) from
Being fixedly connected sequentially under has burnishing gear II (9-3), polishing belt wheel III (9-2) and polishing cleaning wheel III (9-4), buff spindle
III (9-1) is rotatably connected on top plate (2-1), burnishing gear II (9-3) and burnishing gear I (8-4) engaged transmission, buff spindle IV
(9-5) is fixedly connected sequentially from top to bottom polishing belt wheel IV (9-6) and polishing cleaning wheel IV (9-7), and buff spindle IV (9-5) turns
Dynamic to be connected on top plate (2-1), polishing belt wheel IV (9-6) is connected with polishing belt wheel III (9-2) by V belt translation.
2. a kind of antifouling polished device of ceramic device according to claim 1, it is characterised in that: the power bores tooth
I (3-2), power cone tooth II (3-4) are identical with the power cone number of teeth of tooth III (3-6), power belt wheel (3-5) and promotion belt wheel (4-
2) drive diameter is identical.
3. a kind of antifouling polished device of ceramic device according to claim 2, it is characterised in that: described two clampings
Flexible material is respectively arranged on the inside of arc panel (6-7).
4. a kind of antifouling polished device of ceramic device according to claim 3, it is characterised in that: the drive pulley
The diameter of I (7-3) is greater than the diameter of drive pulley II (7-5), and the diameter of buffing cone tooth (8-3) is less than transmission cone tooth II (7-6)
Diameter.
5. a kind of antifouling polished device of ceramic device according to claim 4, it is characterised in that: the burnishing gear
I (8-4) is identical with the number of teeth of burnishing gear II (9-3), polishing belt wheel I (8-2), polishing belt wheel II (8-7), polishing belt wheel III
(9-2) is identical with the polishing diameter of belt wheel IV (9-6).
6. a kind of antifouling polished device of ceramic device according to claim 5, it is characterised in that: the polishing cleaning
Taking turns I (8-5), polishing cleaning wheel II (8-8), polishing cleaning wheel III (9-4) and polishing cleaning wheel IV (9-7) is flexible material.
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CN201811308874.8A CN109366335B (en) | 2018-11-05 | 2018-11-05 | A kind of antifouling polished device of ceramic device |
PCT/CN2019/113300 WO2020093882A1 (en) | 2018-11-05 | 2019-10-25 | Anti-fouling polishing device for ceramic apparatus |
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CN201811308874.8A CN109366335B (en) | 2018-11-05 | 2018-11-05 | A kind of antifouling polished device of ceramic device |
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US3197921A (en) * | 1962-08-17 | 1965-08-03 | Heald Machine Co | Grinding machine |
GB1203584A (en) * | 1966-12-02 | 1970-08-26 | Cincinnati Milling Machines Lt | Improvements in or relating to grinding and like machines |
JP3355290B2 (en) * | 1997-07-11 | 2002-12-09 | 光研工業株式会社 | Glass disk polishing machine |
KR20120131812A (en) * | 2011-05-26 | 2012-12-05 | 주식회사 신생테크 | Manufacturing device of plates |
CN203228099U (en) * | 2013-04-25 | 2013-10-09 | 李汉超 | Anti-fouling polishing device for ceramic device |
CN203343862U (en) * | 2013-07-20 | 2013-12-18 | 李汉超 | Polishing device applied to ceramic apparatus |
CN204736041U (en) * | 2015-06-10 | 2015-11-04 | 浙江天丰陶瓷有限公司 | A deburring polisher for ceramic machining |
CN104942674A (en) * | 2015-07-23 | 2015-09-30 | 福州恒光光电有限公司 | Variable-frequency edge grinding machine and grinding method thereof |
CN205600471U (en) * | 2016-03-30 | 2016-09-28 | 大埔县桃源镇富源陶瓷工艺厂 | Antifouling polishing device for ceramic equipment |
CN107584363A (en) * | 2016-07-06 | 2018-01-16 | 印杰 | A kind of glass plate edge polishing machine |
CN107186570B (en) * | 2017-06-30 | 2023-11-17 | 江西星星科技股份有限公司 | Edging machine of glass apron |
CN107445653A (en) * | 2017-09-15 | 2017-12-08 | 王佳庆 | A kind of ceramics use polished tile anti-fouling apparatus for waxing |
CN109366335B (en) * | 2018-11-05 | 2019-11-01 | 浙江海鸿工业产品设计有限公司 | A kind of antifouling polished device of ceramic device |
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