CN106985057A - A kind of micro- texture former of inner surface based on jet - Google Patents
A kind of micro- texture former of inner surface based on jet Download PDFInfo
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- CN106985057A CN106985057A CN201710304471.5A CN201710304471A CN106985057A CN 106985057 A CN106985057 A CN 106985057A CN 201710304471 A CN201710304471 A CN 201710304471A CN 106985057 A CN106985057 A CN 106985057A
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- plant
- processing unit
- abrasive particle
- limiting section
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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
- B24B31/00—Machines or devices designed for polishing or abrading surfaces on work by means of tumbling apparatus or other apparatus in which the work and/or the abrasive material is loose; Accessories therefor
- B24B31/10—Machines or devices designed for polishing or abrading surfaces on work by means of tumbling apparatus or other apparatus in which the work and/or the abrasive material is loose; Accessories therefor involving other means for tumbling of work
- B24B31/116—Machines or devices designed for polishing or abrading surfaces on work by means of tumbling apparatus or other apparatus in which the work and/or the abrasive material is loose; Accessories therefor involving other means for tumbling of work using plastically deformable grinding compound, moved relatively to the workpiece under the influence of pressure
-
- 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
- B24B31/00—Machines or devices designed for polishing or abrading surfaces on work by means of tumbling apparatus or other apparatus in which the work and/or the abrasive material is loose; Accessories therefor
- B24B31/12—Accessories; Protective equipment or safety devices; Installations for exhaustion of dust or for sound absorption specially adapted for machines covered by group B24B31/00
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
Abstract
The invention discloses a kind of micro- texture former of inner surface based on jet.The equipment includes:Retractor device, the processing unit (plant) on retractor device and the fluidic device and adsorbent equipment for being connected to the processing unit (plant).Fluidic channel of the processing unit (plant) provided with output fluid, the fluidic channel is provided with the limiting section to limit abrasive particle, and the adsorbent equipment is used to abrasive particle absorption being assembled to the limiting section.The retractor device promotes the processing unit (plant) to be moved to predeterminated position, and the fluid of the processing unit (plant) output with preset pressure, the fluid forms barrier film between abrasive particle and limiting section and rotates abrasive particle, makes the internal chamber wall of the abrasive machining workpiece.It has high in machining efficiency, the characteristics of can processing micro- texture in complicated face.
Description
Technical field
The present invention relates to precision processing technology field, set more particularly, to a kind of micro- texture shaping of inner surface based on jet
It is standby.
Background technology
Friction phenomenon generally existing, if useless frictional dissipation can be reduced, just can save the substantial amounts of energy.In machinery
In device, various forms of frictions are there are, many unnecessary energy losses are caused.Useless frictions loss is reduced, is to subtract
One of effective means of little waste and raising mechanical system operational efficiency.The micro- texture in suitable surface is processed in particular surface,
The frictional behaviour of friction pair can be improved, useless frictions loss is reduced.
The processing of the micro- texture in surface mainly using etching, honing, Laser Processing, press quarter, micro-electrochemical machining, vibratory impulse,
The methods such as LIGA.And micro- texture is processed in the inner surface of part, as in the hole wall surface or cavity that part cooperates
Inner surface processes micro- texture, and processing unit (plant) need to be deep into the inner chamber of part.The above method due to process principle, technique,
The limitation of control, efficiency etc., the micro- texture being had higher requirements for some textured finish or position, it is impossible to realize effectively processing.
Accordingly, it would be desirable to be improved.
The content of the invention
The deficiency existed for above-mentioned prior art, is knitted it is an object of the invention to provide a kind of inner surface based on jet is micro-
Structure former.It has high in machining efficiency, the characteristics of can processing micro- texture in complicated face.
To achieve these goals, the technical solution adopted in the present invention is:A kind of micro- texture of inner surface based on jet
Former, the equipment includes:Retractor device, the processing unit (plant) on retractor device and it is connected to the processing unit (plant)
Fluidic device and adsorbent equipment, the processing unit (plant) provided with output fluid fluidic channel, the fluidic channel provided with use
To limit the limiting section of abrasive particle, the adsorbent equipment is used to abrasive particle absorption being assembled to the limiting section;The retractor device is pushed away
Move the processing unit (plant) and be moved to predeterminated position, the fluid of the processing unit (plant) output with preset pressure, the fluid is being ground
Barrier film is formed between grain and limiting section and abrasive particle is rotated, makes the internal chamber wall of the abrasive machining workpiece.
Further, the processing unit (plant) includes deflector and is attached on the processing disk of the deflector, the deflector
Provided with some pod apertures being connected with the fluidic device, offer some jet orifices on the processing disk, the pod apertures with
The jet orifice turns on to form fluidic channel, and the limiting section is located at the output end of the jet orifice.
Further, the deflector is provided with the blending space for converging some pod apertures, and the processing disk is enclosed in institute
State at the opening of blending space, the jet orifice is turned on the blending space.
Further, pressing plate is installed on the processing disk, the pressing plate is protruding with guide portion, and the guide portion is inserted in
In the jet orifice and the limiting section is extended to, the center line of the jet orifice is deviateed the center of the limiting section.
Further, the pressing plate includes body and at least two foot sections along body radially protruding, the guide portion
Along the axially projecting of the body.
Further, the pressing plate be provided with elastic device, the elastic device include be connected in it is described processing disk guide pillar and
Flexible member on guide pillar, the flexible member elasticity pushing and pressing are between the pressing plate and the processing disk.
Further, the abrasive particle has one kind in irregular raised particle using particulate knife, circular granular or surface.
Further, the retractor device includes longitudinal extension mechanism and the transversal stretching machine in longitudinal extension mechanism
Structure, the longitudinal extension mechanism drives the movement of transversal stretching mechanism and/or rotated, and the transversal stretching mechanism drives the processing
Device is moved.
Further, the transversal stretching mechanism includes lead and the telescopic component on lead, the processing
Device is arranged on the output end of telescopic component.
Further, the adsorbent equipment includes the adsorption tube of vavuum pump and connection vavuum pump and processing unit (plant), the absorption
Pipe is turned on the fluidic channel.
After said structure, the invention has the advantages that compared with the prior art,:
Limiting section is set in fluidic channel on processing unit (plant), the position of abrasive particle is limited by limiting section, makes abrasive particle
It can be evenly distributed on processing unit (plant) and form micro- texture to be processed on the inner surface of workpiece, it is high in machining efficiency.Jet action exists
On abrasive particle so that barrier film is formed between abrasive particle energy and limiting section, the service life of processing unit (plant) is improved.Jet can drive abrasive particle to exist
Rotated in limiting section, make the abrasion of abrasive particle more uniform, improve the service life and ground effect of abrasive particle.Processing unit (plant) connection is inhaled
Adsorption device is easy to the handling of abrasive particle, processing unit (plant) is processed micro- texture in the inner surface of complex-shaped surface mould.
Brief description of the drawings
The present invention is further described with reference to the accompanying drawings and examples:
Fig. 1 is the main structure diagram of the present invention.
Fig. 2 is processing unit (plant) and fluidic device and the structural representation of adsorbent equipment in the present invention.
Fig. 3 is the partial enlargement structural representation of particulate processing workpiece in the present invention.
Fig. 4 is the mplifying structure schematic diagram of center platen of the present invention.
Fig. 5 is the structural representation of water circulation system in the present invention.
In figure:Retractor device 10;Longitudinal extension mechanism 11;Transversal stretching mechanism 12;Lead 121;Telescopic component 122;
Nut assembly 123;Processing unit (plant) 20;Deflector 21;Pod apertures 211;Process disk 22;Limiting section 221;Jet orifice 222;Mixing is empty
Between 223;Pressing plate 23;Guide portion 231;Foot section 232;Pilot hole 233;Body 234;Elastic device 24;Guide pillar 241;Elasticity
Element 242;Fluidic device 30;Water tank 31;Water inlet pipe 32;Booster pump 33;Adsorbent equipment 40;Vavuum pump 41;Adsorption tube 42;Locking
Switch 43;Workpiece 50;Abrasive particle 60;Frame 70;Fixed plate 71;Working chamber 72;Table device 73;Water circulation system 80;Filtering
Plate 81;Return pipe 82.
Embodiment
As described below is only presently preferred embodiments of the present invention, is not intended to limit the scope of the present invention.
Embodiment, as shown in Fig. 1 to Fig. 5:A kind of micro- texture former of inner surface based on jet, equipment includes frame
70, fixed plate 71 is installed in frame 70, retractor device 10 is installed in fixed plate 71.It is provided with and adds on retractor device 10
Frock puts 20 and is connected to the fluidic device 30 and adsorbent equipment 40 of processing unit (plant) 20.Frame 70, which is provided with, to be used to place workpiece
50 table device 73, table device 73, processing unit (plant) 20 are respectively positioned in the working chamber 72 in frame 70, fluid and abrasive particle
60 in the interior circulation of working chamber 72.Preferably, processing unit (plant) 20 is provided with two and the above and is distributed on retractor device 10.
Fluidic channel of the processing unit (plant) 20 provided with output fluid, the output end of fluidic channel is provided with to limit abrasive particle 60
Limiting section 221, adsorbent equipment 40 be used for by abrasive particle 60 absorption is assembled to the limiting section 221.Retractor device 10 promotes processing
Device 20 is moved to predeterminated position, i.e. processing unit (plant) 20 and is moved to the face to be processed of workpiece 50 and has space between the two, together
When, close adsorbent equipment 40 and start fluidic device 30, fluid of the output of fluidic device 30 with preset pressure, fluid is in abrasive particle
Barrier film is formed between 60 and limiting section 221 and abrasive particle 60 is rotated, makes abrasive particle 60 rotation and grinding work under fluid driving
The internal chamber wall of part 50.Preferably, by the inner chamber of workpiece to be processed 50 along genesis analysis, after processing unit (plant) 20 first moves longitudinally
Laterally move to default Working position and process internal chamber wall.Wherein abrasive particle 60 is had using particulate knife, circular granular or surface
One kind in irregular projection particle.Wherein, particulate knife includes knife body and cutter head, and the segment design is into a spur shape
On shape, the outer surface for being arranged at the knife body, the physical dimension of the cutter head is 10nm~1mm, described knife its evagination
The balancing weight that described cutter head can be made to deflect down all the time is additionally provided with body.
Adsorbent equipment 40 includes the adsorption tube 42 of vavuum pump 41 and connection vavuum pump 41 and processing unit (plant) 20, adsorption tube 42
Turned on fluidic channel.Start vavuum pump 41, abrasive particle 60 is adsorbed on processing unit (plant) 20 by adsorbent equipment 40 from upper cutter device,
Abrasive particle 60 is set to adsorb on limiting section 221.The drive processing unit (plant) 20 of retractor device 10 is moved to the work surface of workpiece 50, its
In, gap is formed between processing unit (plant) 20 and workpiece to be processed 50, the width in the gap is less than the original outer diameter of abrasive particle 60.
Lock-up cock 43 is provided between adsorption tube 42 and processing unit (plant) 20, processing unit (plant) 20 is moved to after predeterminated position, closes vavuum pump
41 close with control lock-up cock 43, and abrasive particle 60 is in free state.Start fluidic device 30, fluidic device 30 passes through water inlet pipe
32 input fluid into the fluidic channel on processing unit (plant) 20, and the fluid has a preset pressure, the pressure of such as fluid can 10~
Adjusted between 30MPa, such as 10,15,20,25,30MPa.The connection adsorbent equipment 40 of processing unit (plant) 20 is easy to the dress of abrasive particle 60
Unload, enable the processed complex die cavity of processing unit (plant) 20.
Jet action forms barrier film on abrasive particle 60 between the inwall of abrasive particle 60 and limiting section 221, in processing unit (plant) 20
During mobile driving abrasive particle 60 polishing grinding 50 surface of workpiece, abrasive particle 60 will not be acted directly on limiting section 221, can be extended and be added
Frock puts 20 service life.Jet action makes abrasive particle 60 have the active force to horizontal direction on abrasive particle 60, and abrasive particle 60 exists
The predeterminated position of workpiece 50 is limited in the presence of processing unit (plant) 20, while abrasive particle 60 carries out rotating operation with the surface of workpiece 50
Process micro- texture.Rotated by jetting flow abrasive particle 60 so that abrasive particle 60 be ground workpiece 50 during, abrasive particle 60 itself
Loss is uniform, extends the grinding life-span of abrasive particle 60.Meanwhile, jet can rinse the abrasive dust on the surface of workpiece 50 and the mill of loss in time
Grain 60, it is to avoid the injury of abrasive dust or loss abrasive particle 60 that the surface of workpiece 50 may be subject to.
By jet action in the abrasive particle 60 being defined at limiting section 221, abrasive particle 60 is evenly distributed so that processing unit (plant) 20
Energy Even Grinding workpiece 50, ground effect is stable, high in machining efficiency.
Process workpiece 50 when, limiting section 221 be arranged on workpiece 50 just to processing unit (plant) 20 on, such as work as workpiece 50
When finished surface is vertically placed, active force of the limiting section 221 by horizontal direction so that processing unit (plant) 20 can uniformly add
The surface of work workpiece 50.After abrasive particle 60 processes workpiece 50 and is lost, the diameter of abrasive particle 60 be less than be presently in limiting section 221 with
Behind gap between workpiece 50, abrasive particle 60 can depart under fluid matasomatism from limiting section 221, can be after after the abrasive particle 60 more renewed
Continuous grinding workpiece 50, and circulate successively, until the completion of processing of workpiece 50.
As shown in Fig. 2 and Fig. 3:In one embodiment, processing unit (plant) 20 includes deflector 21 and is attached to deflector 21
Processing disk 22.Deflector 21 is provided with some pod apertures 211 for be connected with fluidic device 30, process offered on disk 22 it is some
Jet orifice 222, pod apertures 211 form fluidic channel with the conducting of jet orifice 222, and limiting section 221 is located at the output of jet orifice 222
End.Further, deflector 21 is provided with the blending space 223 for converging some pod apertures 211, and processing disk 22 is enclosed in blending space
At 223 opening, jet orifice 222 is set to be turned on blending space 223.Adsorption tube 42 is also turned on the blending space 223, and is passed through
The blending space 223 produces absorption affinity to jet orifice 222, abrasive particle 60 is attracted on limiting section 221.By setting processing disk
22 surface is matched with the face to be processed of workpiece 50, and processing unit (plant) 20 can be made to process micro- texture in complex surface.
Blending space 223 is recessed downwards to be formed from the side space of deflector 21, and processing disk 22 blocks blending space 223
Opening, make fluidic device 30 input fluid filling after blending space 223 along jet orifice 222 uniformly export.Preferably,
Pod apertures 211 are evenly distributed on deflector 21 so that the fluid that fluidic device 30 is input to blending space 223 is uniform, then
So that the Fluid pressure exported from jet orifice 222 is uniform.
By setting deflector 21 to facilitate the connection of processing unit (plant) 20 and fluidic device 30, the quantity of jet orifice 222
More than the quantity of pod apertures 211, deflector 21 can further adjust the pressure and the uniformity of the output fluid of jet orifice 222, improve
Jet effect.Process disk 22 easily to wear and tear, can be fixed on by way of being fastenedly connected on deflector 21, can be timely upon wear
Change, reduce the cost of equipment, improve machining accuracy.
Limiting section 221 is recessed along jet orifice 222 from the surface for processing disk 22 and formed, the diameter of limiting section 221 from and jet
The intersection in hole 222 gradually increases to the surface direction of processing disk 22, wherein, limiting section 221 is recessed in cone-shaped or arc surfaced.
Abrasive particle 60 is limited in limiting section 221, and jet action is flowed out on abrasive particle 60 and along the surface of limiting section 221.
As shown in Fig. 3 and Fig. 4:Pressing plate 23 is installed on processing disk 22, pressing plate 23 is protruding with guide portion 231, guiding
Portion 231 is inserted in jet orifice 222 and extends to limiting section 221, the center line of jet orifice 222 is deviateed in limiting section 221
The heart.Pressing plate 23 is arranged in blending space 223, and just to jet orifice 222.Pressing plate 23 includes body 234 and along body 234
At least two foot sections 232 of radially protruding, guide portion 231 is axially projecting along body 234.Alternatively, pressing plate 23 is rounded
Structure, foot section 232 is provided with three and is evenly distributed on body 234, sets foot section 232 to reduce the convection current of pressing plate 23
The influence of body.Fluid can be by the interval between the space between foot section 232 and body 234 and pressing plate 23 and processing disk 22
Space is entered in jet orifice 222.Because abrasive particle 60 is in eccentric state in limiting section 221, and what the top of abrasive particle 60 was subject to penetrates
Flow impulsive force and be more than bottom, so that the inner surface of the rotating machined workpiece 50 of abrasive particle 60.Alternatively, jet orifice 222 is centrally located at
The top at the center of limiting section 221.
Elastic device 24 is provided with pressing plate 23, elastic device 24 is to elasticity pushing and pressing on processing disk 22 so that pressing plate 23
Along the direction elastic telescopic of jet orifice 222.Specifically, elastic device 24 includes being connected in the guide pillar 241 of processing disk 22 and is arranged on
Flexible member 242 on guide pillar 241, the pushing and pressing of the elasticity of flexible member 242 are between pressing plate 23 and processing disk 22, flexible member 242
It may include stage clip etc..Guide pillar 241 is fixed on processing disk 22, pilot hole 233 is offered in foot section 232, guide pillar 241 is plugged
In pilot hole 233.Pressing plate 23 is accurately arranged on processing disk 22, and the flexible of elastic device 24 can be in blending space 223
Fluid pressure regulation, fluid is stable, the anglec of rotation of convenient regulation abrasive particle 60.
As shown in Figure 1:Retractor device 10 includes longitudinal extension mechanism 11 and the transverse direction in longitudinal extension mechanism 11
Telescoping mechanism 12, longitudinal extension mechanism 11 drives transversal stretching mechanism 12 to move and/or rotate, and transversal stretching mechanism 12, which drives, to be added
Frock puts 20 movements.Longitudinal extension mechanism 11 is arranged in the fixed plate 71 of frame 70, is such as used cylinder or hydraulic cylinder, can be driven
Transversal stretching mechanism 12 moves longitudinally, or using motor etc. transversal stretching mechanism 12 can be driven to rotate, or using both
With reference to enabling transversal stretching mechanism 12 to vertically move and rotate.
Transversal stretching mechanism 12 includes lead 121 and the telescopic component 122 on lead 121, processing unit (plant)
20 are arranged on the output end of telescopic component 122.Transversal stretching mechanism 12 drives processing unit (plant) 20 to move, and is fitted in processing disk 22
On the face to be processed of workpiece 50.Transversal stretching mechanism 12 can use cylinder, hydraulic cylinder or linkage.
When transversal stretching mechanism 12 is driven using linkage, lead 121 uses screw mandrel, and telescopic component 122 is by extremely
Few two groups are connected in sequence in the connecting rod of X-shaped.Processing unit (plant) 20 is arranged on one end of telescopic component 122, in telescopic component
Nut assembly 123 is installed on the connecting rod of 122 other end and lead 121 is connected to, wherein, two nut assemblies 123 are anti-
Screw thread.When lead 121 is rotated, two nuts draw in or deployed along lead 121, drive the treating to workpiece 50 of processing unit (plant) 20
Machined surface is drawn close or remote, and telescopic extensions are big, realizes the cavity inner wall processing of big workpiece 50.
The longitudinal direction shifting that table device 73 includes the transverse moving mechanism moved in the horizontal direction and moved in the horizontal direction
Motivation structure, transverse moving mechanism is mutually perpendicular to longitudinal moving mechanism, and transverse moving mechanism is with longitudinal moving mechanism to fixation
Workpiece 50 simultaneously drives workpiece 50 to move in the horizontal direction.Coordinate the linear motion vertically of processing unit (plant) 20, many fortune
The cooperation in dynamic direction, can form micro- texture in the predeterminated position of workpiece 50, high in machining efficiency.Wherein, processing unit (plant) 20, workbench
Device 73 and workpiece 50 are in a working chamber 72.
As shown in Figure 5:Fluidic device 30 includes water tank 31, is connected to the water inlet pipe 32 of water tank 31 and on water inlet pipe 32
Booster pump 33, water inlet pipe 32 is connected to processing unit (plant) 20.The equipment also includes water circulation system 80, and water circulation system 80 includes
Filter 81 in frame 70 and the return pipe 82 for being connected to water tank 31, filter 81 are located at the another of return pipe 82
End.Drive abrasive particle 60 to process the surface of workpiece 50 by fluidic device 30, fluid is reclaimed by water circulation system 80, circulate
Utilize, economize on resources, reduce cost.Output pressure of the booster pump 33 to adjust and control fluid, it is easy to adjust.
The micro- texture former of inner surface based on jet also includes the circulatory system of abrasive particle 60 and water-abrasive particle 60 is separated
Device, grinding smear removal device.Water can be recycled after multiple times of filtration, and abrasive particle 60 is after sub-sieve, the mill of same mesh number
Grain 60 can continue to use after collecting, and greatly save resource, reduces and wastes.
It is noted that in the process of processing unit (plant) 20, being moved by longitudinal extension mechanism 11 along longitudinally reciprocal
Drive transversal stretching mechanism 12 and processing unit (plant) 20 to move, processed with the micro- texture of the longitudinal strip for realizing internal chamber wall.Or axially
Rotate and drive transversal stretching mechanism 12 and processing unit (plant) 20 to rotate, processed with the micro- texture of the circumferential strip for realizing internal chamber wall.And or
Longitudinal extension mechanism 11 is moved and rotated along longitudinally reciprocal, drives transversal stretching mechanism 12 and processing unit (plant) 20 to move, to realize
The micro- texture processing of curve of internal chamber wall, it is easy to process.
The device of jet is widely used at present, and other structures and principle are same as the prior art, repeat no more here.
Claims (10)
1. the micro- texture former of a kind of inner surface based on jet, it is characterised in that the equipment includes:Retractor device, installation
Processing unit (plant) on retractor device and the fluidic device and adsorbent equipment for being connected to the processing unit (plant), the processing unit (plant)
Fluidic channel provided with output fluid, the fluidic channel is provided with the limiting section to limit abrasive particle, and the adsorbent equipment is used
The limiting section is assembled in abrasive particle is adsorbed;The retractor device promotes the processing unit (plant) to be moved to predeterminated position, described
Fluid of the processing unit (plant) output with preset pressure, the fluid forms barrier film between abrasive particle and limiting section and revolves abrasive particle
Turn, make the internal chamber wall of the abrasive machining workpiece.
2. equipment according to claim 1, it is characterised in that the processing unit (plant) includes deflector and is attached to described lead
The processing disk of plate is flowed, the deflector is provided with some pod apertures being connected with the fluidic device, the processing disk and opened up
There are some jet orifices, the pod apertures turn on to form fluidic channel with the jet orifice, and the limiting section is located at the jet orifice
Output end.
3. equipment according to claim 2, it is characterised in that the deflector is mixed provided with convergence some pod apertures
Space is closed, the processing disk is enclosed at the opening of the blending space, the jet orifice is turned on the blending space.
4. equipment according to claim 2, it is characterised in that pressing plate is provided with the processing disk, the pressing plate is convex
Going out has guide portion, and the guide portion is inserted in the jet orifice and extends to the limiting section, makes the center of the jet orifice
Line deviates the center of the limiting section.
5. equipment according to claim 4, it is characterised in that the pressing plate includes body and along body radially protruding
At least two foot sections, the guide portion is axially projecting along the body.
6. equipment according to claim 4, it is characterised in that the pressing plate is provided with elastic device, the elastic device bag
The guide pillar and the flexible member on guide pillar for being connected in the processing disk are included, the flexible member elasticity pushing and pressing are described
Between pressing plate and the processing disk.
7. equipment according to claim 1, it is characterised in that the abrasive particle is using particulate knife, circular granular or surface tool
There is one kind in irregular raised particle.
8. equipment according to claim 1, it is characterised in that the retractor device includes longitudinal extension mechanism and is arranged on
Transversal stretching mechanism in longitudinal extension mechanism, the longitudinal extension mechanism drives the movement of transversal stretching mechanism and/or rotated, institute
State transversal stretching mechanism and drive the processing unit (plant) movement.
9. equipment according to claim 8, it is characterised in that the transversal stretching mechanism includes lead and installed in leading
To the telescopic component on post, the processing unit (plant) is arranged on the output end of telescopic component.
10. equipment according to claim 1, it is characterised in that the adsorbent equipment includes vavuum pump and connection vavuum pump
With the adsorption tube of processing unit (plant), the adsorption tube is turned on the fluidic channel.
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CN201710304471.5A CN106985057B (en) | 2017-05-03 | 2017-05-03 | A kind of micro- texture former of inner surface based on jet stream |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110588228A (en) * | 2019-10-23 | 2019-12-20 | 江苏科技大学 | Device and method for processing inner surface texture of sliding bearing of marine diesel engine |
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TWI469207B (en) * | 2011-04-20 | 2015-01-11 | 中國砂輪企業股份有限公司 | Chemical mechanical grinding dresser |
CN104526592A (en) * | 2014-12-31 | 2015-04-22 | 广东工业大学 | Device and method for abrasive material multilayer orderly arraying |
CN204450259U (en) * | 2014-12-31 | 2015-07-08 | 广东工业大学 | The ordered arrangement device of abnormal curved surface revolving body grinding tool single layer of abrasive particles |
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JP2003285268A (en) * | 2002-03-27 | 2003-10-07 | Sugino Mach Ltd | Deburring and rounding method |
CN2871100Y (en) * | 2006-01-25 | 2007-02-21 | 林寅仁 | Centrifugal sand blower |
TWI469207B (en) * | 2011-04-20 | 2015-01-11 | 中國砂輪企業股份有限公司 | Chemical mechanical grinding dresser |
CN103143881A (en) * | 2013-01-22 | 2013-06-12 | 李辉玲 | Low-resistance rolling polishing method |
CN104526592A (en) * | 2014-12-31 | 2015-04-22 | 广东工业大学 | Device and method for abrasive material multilayer orderly arraying |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN110588228A (en) * | 2019-10-23 | 2019-12-20 | 江苏科技大学 | Device and method for processing inner surface texture of sliding bearing of marine diesel engine |
CN110588228B (en) * | 2019-10-23 | 2021-11-26 | 江苏科技大学 | Device and method for processing inner surface texture of sliding bearing of marine diesel engine |
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