US20090170411A1 - Micropolishing assembly for micropolishing piston rings - Google Patents
Micropolishing assembly for micropolishing piston rings Download PDFInfo
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- US20090170411A1 US20090170411A1 US12/005,925 US592507A US2009170411A1 US 20090170411 A1 US20090170411 A1 US 20090170411A1 US 592507 A US592507 A US 592507A US 2009170411 A1 US2009170411 A1 US 2009170411A1
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- United States
- Prior art keywords
- micropolishing
- flexible
- piston ring
- arbor
- flexible roller
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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
- B24B19/00—Single-purpose machines or devices for particular grinding operations not covered by any other main group
- B24B19/08—Single-purpose machines or devices for particular grinding operations not covered by any other main group for grinding non-circular cross-sections, e.g. shafts of elliptical or polygonal cross-section
- B24B19/11—Single-purpose machines or devices for particular grinding operations not covered by any other main group for grinding non-circular cross-sections, e.g. shafts of elliptical or polygonal cross-section for grinding the circumferential surface of rings, e.g. piston rings
-
- 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
- B24B21/00—Machines or devices using grinding or polishing belts; Accessories therefor
- B24B21/04—Machines or devices using grinding or polishing belts; Accessories therefor for grinding plane surfaces
- B24B21/06—Machines or devices using grinding or polishing belts; Accessories therefor for grinding plane surfaces involving members with limited contact area pressing the belt against the work, e.g. shoes sweeping across the whole area to be ground
Definitions
- This invention relates generally to a flexible micropolishing assembly for micropolishing a plurality of piston rings.
- Microfinishing, superfinishing or micropolishing is a surface finishing process wherein a grinding means is brought to bear against a workpiece which has been previously ground.
- Micropolishing is a low velocity abrading process which generally follows grinding. Because micropolishing incorporates lower cutting speeds than grinding, heat and pressure variants may be minimized to provide improved size, surface characteristics and geometry control.
- surface quality or roughness is measured in roughness average values (R a ) wherein R a is the arithmetical average deviation of minute surface irregularities from hypothetical perfect surfaces.
- Micropolishing can provide surface quality of approximately 1 to 10 ⁇ in. (0.025 to 0.25 ⁇ m). Bearing surfaces of crankshafts, cam shafts, power transmission shafts and piston rings and other similar machine components that reciprocate or rotate on journal bearing surfaces generally require this surface finish for satisfactory operation.
- micropolishing machines have the ability to finish all the bearing surfaces on a workpiece in one operation. These machines contain a plurality of abrasive tape segments which are aligned with respect to the bearing or working surfaces. In operation, the workpieces are rotated as the micropolishing machine causes abrasive tape segments to contact and thus finish the bearing or working surfaces.
- Micropolishing processes are used in automotive applications in the manufacture, repair and rebuilding of internal combustion (IC) engines. Such engines not only require finely finished bearing surfaces for engine efficiency, but also for increased durability and longevity.
- crankshaft and camshaft bearing surfaces are microfinished to particular roughness specifications by previously mentioned, conventional mass production micropolishing machines.
- Piston rings have unique surfaces that also require a micropolishing process.
- the piston ring outer surface may have several surface contours, angles and shapes that are not conducive to the engine system.
- the initial grinding process sizes and shapes the piston ring, but does not correct the surface contour concerns and required surface characteristics. Without correction, the performance and wear characteristics of the piston rings and the mating surface is not consistent.
- the arbor accepts the pistons rings and they can be adjusted along the length of the arbor.
- the arbor is designed to be mounted between a headstock and tailstock such as a lathe or grinder set up.
- the arbor includes a tab or notch to allow the arbor to rotate about its central axis.
- the rings are ground on an outside diameter with the use of a conventional arbor and grinding machine. The grinding process sizes and shapes the outside diameter of the piston rings. In this process the piston rings do not obtain the desired geometry and surface characteristics on the outside diameter.
- the piston rings may have several surface contours, angles and shapes that need proper surface preparation and may or may not mate or cooperate properly with the engine block cylinder or cylinder liners located in the engine block.
- the surface contours, angles and shapes will not change due to the micropolishing process, however, the wear and performance of the engine as it changes the surface contact characteristics of the piston ring will improve the relationship to the engine block cylinder or cylinder liners located in the engine block.
- piston rings Due to the imperfections of the piston ring grinding process, piston rings often require an added surface finishing process after the grinding process.
- Current practice is place the arbor with the attached piston rings and compress them into a tube. The piston rings are them allowed to expand against the tube inner surface.
- a liquid slurry type abrasive material is added into the tube and the arbor is pushed and pulled in an repeated motion to allow the liquid slurry type abrasive material to polish the piston ring outside diameters against the inside diameter of the tube.
- This process allows for micropolishing of the shapes of the piston ring outside diameter and will only polish a flat surface. This process has many variants and is hard to control.
- a flexible micropolishing machine for micropolishing a piston ring comprising an arbor for accepting at least one piston ring, a means for rotating the arbor, a flexible roller arm located adjacent the arbor and an indexable step or continuous abrasive material located between the flexible roller arm and the piston ring wherein the flexible roller arm is movable toward the arbor such that the flexible roller arm applies a micropolishing pressure to the indexable abrasive tape thereby micropolishing the piston ring outer diameter.
- It is still another object of the present invention is to provide flexible micropolishing machine of such that the flexible roller arm includes a flexible roller manufactured from a soft resilient material capable of conforming to the shape of a piston ring.
- Yet another object of the present invention is to provide a flexible micropolishing arm for micropolishing a piston ring comprising a flexible roller arm and an indexable step or continuous abrasive material system located between the flexible roller arm and the piston ring wherein the flexible roller arm is movable toward the piston ring such that flexible roller arm applies a micropolishing pressure to the indexable abrasive material system thereby micropolishing the one piston ring when the piston ring is rotated.
- FIG. 1 is a top view of the flexible micropolishing system of the present invention.
- FIG. 2 is a side view of the flexible micropolishing system of the present invention.
- FIG. 3 is side view of the flexible micropolishing machine of the present invention.
- FIGS. 1 and 2 also illustrate a flexible micropolishing arm 20 for micropolishing piston ring 12 .
- the flexible micropolishing system 20 includes an arbor 22 for accepting at least one piston ring 12 .
- the arbor 22 is capable of accepting 50 to 100 piston rings.
- FIG. 1 illustrates the arbor 22 accepting a plurality of piston rings 12 but the present invention contemplates an arbor 22 capable of accepting any number of piston rings 12 corresponding to the size of the arbor 12 and the size of the flexible roller 14 .
- Rotator 24 is a means for rotating arbor 22 .
- Rotator 24 may be a variety of methods such as a pin, dog, collet, friction and other type of driving methods.
- a conventional headstock 32 and tailstock 34 are used.
- Flexible polishing arm unit 20 is shown located adjacent arbor 22 .
- FIG. 2 is a indexable abrasive material 26 located between the flexible polisher arm unit 20 and the piston rings 12 .
- the indexable abrasive material 26 can be indexed in a step or continuous fashion.
- flexible arm unit 20 is movable toward arbor 22 such that flexible roller arm unit 20 appropriately applies a micropolishing pressure to the indexable abrasive material 26 thereby micropolishing piston rings 12 .
- the indexable abrasive material 26 is an abrasive tape 28 .
- abrasive tape 28 is also indexable at the same speed as the flexible roller 14 to provide new abrasive material to the piston rings 12 being micropolished.
- arbor 22 with piston rings 12 may be rotated in one direction as represented by arrow A and the flexible roller 14 and tape 28 may be set up to move in a different and opposite direction represented by the arrow B.
- the flexible micropolishing machine 30 includes the flexible micropolishing system 10 described above having the flexible micropolishing arm 20 .
- rotating arbor 22 is designed to accept a plurality of piston rings 12 .
- the means for rotating the arbor is a head stock 32 and tail stock 34 .
- the head stock 32 and tailstock 34 are part of a standard rotating machine system 40 used for rotating an arbor about a central axis 36 .
- the arbor 22 with the piston rings 12 is located between the head stock 32 and tail stock 34 .
- the standard rotating machine system 40 is engaged and rotates the arbor 22 about the central axis 36 .
- Flexible roller 14 and abrasive tape 28 are advanced against the piston ring surface 54 as shown in FIG. 2 .
- the abrasive tape 28 is moved slowly past the piston ring surface 54 by using a tape feed mechanism 56 .
- the flexible roller 14 rotates at the same rate as the abrasive tape 28 indexing.
- the flexible roller 14 applies a controlled pressure on the abrasive tape 28 and piston rings 12 and compresses the abrasive tape 28 such that it follows the piston ring surfaces 54 .
- the rotation of the arbor 22 and piston rings 12 is faster than that of the abrasive tape and therefore the abrasive film micropolishes the outside surface 54 of the piston rings 12 .
- the abrasive tape 28 may be indexed in a step fashion or in a continuous fashion depending on the desires surface geometry or characteristics.
- the process may take from ten seconds to several minutes depending on the material removal needed to meet the surface specification. In some circumstances, additional movement is necessary.
- a lateral oscillating movement during micropolishing is sometime desired to acquire the appropriate surface characteristics.
- the flexible roller 14 and indexable abrasive tape 28 are laterally moved back and forth or oscillated in a line substantially parallel to the central axis 36 .
- This oscillating movement is in a range from 0.010 to 0.080 inches and in the preferred embodiment is in a range from 0.030 to 0.060 inches. It is contemplated by the present invention that other ranges large ranges may be required for certain surface characteristics.
- This method is used when the piston rings 12 outside diameter 54 is flat and a cross hatch pattern is required on the outside surface.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
Abstract
A flexible micropolishing machine for micropolishing a piston ring comprising an arbor for accepting at least one piston ring, a means for rotating the arbor, a flexible roller arm located adjacent the arbor, and an indexable abrasive material located between the flexible roller arm and the at least one piston ring wherein the flexible roller arm is movable toward the arbor such that flexible roller arm applies a micropolishing pressure to the indexable abrasive tape thereby micropolishing the piston ring.
Description
- This invention relates generally to a flexible micropolishing assembly for micropolishing a plurality of piston rings.
- Microfinishing, superfinishing or micropolishing, as it is known in the art, is a surface finishing process wherein a grinding means is brought to bear against a workpiece which has been previously ground. Micropolishing is a low velocity abrading process which generally follows grinding. Because micropolishing incorporates lower cutting speeds than grinding, heat and pressure variants may be minimized to provide improved size, surface characteristics and geometry control. Those skilled in the art recognize that surface quality or roughness is measured in roughness average values (Ra) wherein Ra is the arithmetical average deviation of minute surface irregularities from hypothetical perfect surfaces. Micropolishing can provide surface quality of approximately 1 to 10 μin. (0.025 to 0.25 μm). Bearing surfaces of crankshafts, cam shafts, power transmission shafts and piston rings and other similar machine components that reciprocate or rotate on journal bearing surfaces generally require this surface finish for satisfactory operation.
- Conventional mass production micropolishing machines have the ability to finish all the bearing surfaces on a workpiece in one operation. These machines contain a plurality of abrasive tape segments which are aligned with respect to the bearing or working surfaces. In operation, the workpieces are rotated as the micropolishing machine causes abrasive tape segments to contact and thus finish the bearing or working surfaces.
- As is common in large scale production, failures may occur at one or more of the grinding areas or abrasive tape positions. As a result, workpieces may be produced with one or more work or bearing surfaces which are not finished to the required surface quality specifications. In such cases, the grinding machine operator must then remove and scrap the defective workpiece. Because micropolishing is the final stage in surface treatment operations, i.e. after grinding and finish grinding, the scrapping of micropolished parts results in a substantial loss of both material and labor to the machinist.
- Micropolishing processes are used in automotive applications in the manufacture, repair and rebuilding of internal combustion (IC) engines. Such engines not only require finely finished bearing surfaces for engine efficiency, but also for increased durability and longevity. In the initial manufacturing stage, crankshaft and camshaft bearing surfaces are microfinished to particular roughness specifications by previously mentioned, conventional mass production micropolishing machines.
- Piston rings have unique surfaces that also require a micropolishing process. The piston ring outer surface may have several surface contours, angles and shapes that are not conducive to the engine system. The initial grinding process sizes and shapes the piston ring, but does not correct the surface contour concerns and required surface characteristics. Without correction, the performance and wear characteristics of the piston rings and the mating surface is not consistent.
- In the current practice, 50 to 100 piston rings are loaded laterally on a piston arbor. The arbor accepts the pistons rings and they can be adjusted along the length of the arbor. The arbor is designed to be mounted between a headstock and tailstock such as a lathe or grinder set up. The arbor includes a tab or notch to allow the arbor to rotate about its central axis. In the process of manufacturing the piston rings, the rings are ground on an outside diameter with the use of a conventional arbor and grinding machine. The grinding process sizes and shapes the outside diameter of the piston rings. In this process the piston rings do not obtain the desired geometry and surface characteristics on the outside diameter. As noted above, the piston rings may have several surface contours, angles and shapes that need proper surface preparation and may or may not mate or cooperate properly with the engine block cylinder or cylinder liners located in the engine block. The surface contours, angles and shapes will not change due to the micropolishing process, however, the wear and performance of the engine as it changes the surface contact characteristics of the piston ring will improve the relationship to the engine block cylinder or cylinder liners located in the engine block.
- Due to the imperfections of the piston ring grinding process, piston rings often require an added surface finishing process after the grinding process. Current practice is place the arbor with the attached piston rings and compress them into a tube. The piston rings are them allowed to expand against the tube inner surface. A liquid slurry type abrasive material is added into the tube and the arbor is pushed and pulled in an repeated motion to allow the liquid slurry type abrasive material to polish the piston ring outside diameters against the inside diameter of the tube. This process allows for micropolishing of the shapes of the piston ring outside diameter and will only polish a flat surface. This process has many variants and is hard to control.
- The flexible micropolishing machine of the present invention has been developed to meet the need for a machine that can effectively and quickly polish or micropolish a few or a large number of piston rings in a controlled process.
- Accordingly, it is an object of the present invention to provide a flexible micropolishing machine for micropolishing a piston ring comprising an arbor for accepting at least one piston ring, a means for rotating the arbor, a flexible roller arm located adjacent the arbor and an indexable step or continuous abrasive material located between the flexible roller arm and the piston ring wherein the flexible roller arm is movable toward the arbor such that the flexible roller arm applies a micropolishing pressure to the indexable abrasive tape thereby micropolishing the piston ring outer diameter.
- Another object of the present invention is to provide flexible micropolishing machine of such that the flexible roller arm includes a flexible roller manufactured from a soft resilient material such as urethane.
- It is still another object of the present invention is to provide flexible micropolishing machine of such that the flexible roller arm includes a flexible roller manufactured from a soft resilient material capable of conforming to the shape of a piston ring.
- Yet another object of the present invention is to provide a flexible micropolishing arm for micropolishing a piston ring comprising a flexible roller arm and an indexable step or continuous abrasive material system located between the flexible roller arm and the piston ring wherein the flexible roller arm is movable toward the piston ring such that flexible roller arm applies a micropolishing pressure to the indexable abrasive material system thereby micropolishing the one piston ring when the piston ring is rotated.
- It is yet another object of the present invention to provide a flexible polishing machine including a flexible roller arm unit including a means for lateral or vertical oscillation to provide a desired surface finishing process.
- The above objects and other objects, features and advantages of the present invention are readily apparent from the following detailed description of the best mode for carrying out the invention to be taken in connection with the accompanying drawings.
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FIG. 1 is a top view of the flexible micropolishing system of the present invention; and -
FIG. 2 is a side view of the flexible micropolishing system of the present invention. -
FIG. 3 is side view of the flexible micropolishing machine of the present invention. - Referring now to
FIG. 1 , there is shown a flexiblemicropolishing system 10 formicropolishing piston rings 12. Flexiblemicropolishing system 10 includes aflexible roller 14. Theflexible roller 14 is, in the preferred embodiment, manufactured from urethane. Also in the preferred embodiment, theflexible roller 14 has a hardness in a range from 40 to 60 durometer. It is understood that this range can be increased for any special surface or geometry requirement. Theflexible roller 14, according to the present invention, is manufactured from a soft material such as a soft durometer rubber or, as stated, a urethane or polyurethane material which is capable of conforming to the shape of the piston ring orrings 12. In the present invention, the flexiblemicropolishing system 10 can be used as a stand alone system attachable to any machine capable or rotating an arbor with the attached one ormore piston rings 12. This flexiblemicropolishing system 10 can also be attached to an existing grinder or lathe system. -
FIGS. 1 and 2 also illustrate a flexiblemicropolishing arm 20 formicropolishing piston ring 12. Theflexible micropolishing system 20 includes anarbor 22 for accepting at least onepiston ring 12. In the preferred embodiment, thearbor 22 is capable of accepting 50 to 100 piston rings.FIG. 1 illustrates thearbor 22 accepting a plurality ofpiston rings 12 but the present invention contemplates anarbor 22 capable of accepting any number ofpiston rings 12 corresponding to the size of thearbor 12 and the size of theflexible roller 14. - As shown in
FIG. 1 ,rotator 24 is a means for rotatingarbor 22.Rotator 24 may be a variety of methods such as a pin, dog, collet, friction and other type of driving methods. In the present invention, as shown inFIG. 3 , aconventional headstock 32 andtailstock 34 are used. Flexiblepolishing arm unit 20 is shown locatedadjacent arbor 22. Also shown inFIG. 2 is a indexableabrasive material 26 located between the flexiblepolisher arm unit 20 and the piston rings 12. The indexableabrasive material 26 can be indexed in a step or continuous fashion. In operation,flexible arm unit 20 is movable towardarbor 22 such that flexibleroller arm unit 20 appropriately applies a micropolishing pressure to the indexableabrasive material 26 thereby micropolishing piston rings 12. In the present invention the indexableabrasive material 26 is anabrasive tape 28. - The
flexible micropolishing system 10 includingarbor 22 is capable of accepting a plurality ofpiston rings 12 and theflexible micropolishing system 10 is capable of micropolishing the plurality ofpiston rings 12 in a single operation. In certain embodimentsflexible roller arm 20 of thesystem 10 applies pressure to operate theflexible roller 14. The rotational speed of theroller 14 is determined by the type and speed of the abrasive tape index which can vary in regards to the tape index length or speed at which thetape 28 is traveling with the continuous tape index method. Theflexible roller 14 is rotatable at varying speeds to obtain different micropolishing characteristics. - In addition the
flexible micropolishing system 10abrasive tape 28 is also indexable at the same speed as theflexible roller 14 to provide new abrasive material to the piston rings 12 being micropolished. As shown inFIG. 2 ,arbor 22 withpiston rings 12, may be rotated in one direction as represented by arrow A and theflexible roller 14 andtape 28 may be set up to move in a different and opposite direction represented by the arrow B. - Referring now to
FIG. 3 there is shown aflexible micropolishing machine 30 for micropolishing piston rings 12. Theflexible micropolishing machine 30 includes theflexible micropolishing system 10 described above having theflexible micropolishing arm 20. In general, rotatingarbor 22 is designed to accept a plurality of piston rings 12. In this preferred embodiment, the means for rotating the arbor is ahead stock 32 andtail stock 34. Thehead stock 32 andtailstock 34 are part of a standardrotating machine system 40 used for rotating an arbor about acentral axis 36. - A
slidable roller arm 38 is locatedadjacent arbor 24. Theslidable roller arm 38, in a preferred embodiment, is located on a slidingbase 50. In this embodiment, the flexible roller arm is slidable alongaxis 36 and also capable of oscillation in controlled lateral movements along thebase guide 52. As shown, the indexableabrasive material 26 is located betweenslidable roller arm 38 and the plurality ofpiston rings 12 wherein theslidable roller arm 38 is movable toward thearbor 22 such that theslidable roller arm 38 applies a micropolishing pressure to the indexableabrasive tape 28 thereby micropolishing the plurality of piston rings 12. - More specifically in operation, the
arbor 22 with the piston rings 12 is located between thehead stock 32 andtail stock 34. The standardrotating machine system 40 is engaged and rotates thearbor 22 about thecentral axis 36.Flexible roller 14 andabrasive tape 28 are advanced against thepiston ring surface 54 as shown inFIG. 2 . Theabrasive tape 28 is moved slowly past thepiston ring surface 54 by using atape feed mechanism 56. In this operation, theflexible roller 14 rotates at the same rate as theabrasive tape 28 indexing. Theflexible roller 14 applies a controlled pressure on theabrasive tape 28 andpiston rings 12 and compresses theabrasive tape 28 such that it follows the piston ring surfaces 54. - The rotation of the
arbor 22 andpiston rings 12 is faster than that of the abrasive tape and therefore the abrasive film micropolishes theoutside surface 54 of the piston rings 12. Theabrasive tape 28 may be indexed in a step fashion or in a continuous fashion depending on the desires surface geometry or characteristics. - In this operation, the process may take from ten seconds to several minutes depending on the material removal needed to meet the surface specification. In some circumstances, additional movement is necessary. A lateral oscillating movement during micropolishing is sometime desired to acquire the appropriate surface characteristics. The
flexible roller 14 and indexableabrasive tape 28 are laterally moved back and forth or oscillated in a line substantially parallel to thecentral axis 36. This oscillating movement is in a range from 0.010 to 0.080 inches and in the preferred embodiment is in a range from 0.030 to 0.060 inches. It is contemplated by the present invention that other ranges large ranges may be required for certain surface characteristics. This method is used when the piston rings 12 outsidediameter 54 is flat and a cross hatch pattern is required on the outside surface. - While the best mode for carrying out the invention has been described in detail, those familiar with the art to which this invention relates will recognize various alternative designs and embodiments for practicing the invention as defined by the following claims.
Claims (20)
1. A flexible micropolishing system for micropolishing a piston ring comprising:
an arbor for accepting at least one piston ring;
a means for rotating said arbor;
a flexible roller arm located adjacent said arbor; and
an indexable abrasive material located between said flexible roller arm and said at least one piston ring wherein said flexible roller arm is movable toward said arbor such that flexible roller arm applies a micropolishing pressure to said indexable abrasive tape thereby micropolishing said at least one piston ring.
2. The flexible micropolishing system of claim 1 wherein said flexible roller arm includes a flexible roller.
3. The flexible micropolishing system of claim 2 wherein said flexible roller is manufactured from urethane.
4. The flexible micropolishing system of claim 2 wherein said flexible roller has hardness in a range from 40 to 60 durometer.
5. The flexible micropolishing system of claim 1 wherein said flexible roller arm includes a flexible roller manufactured from a soft material capable of conforming to the shape of said at least one piston ring.
6. The flexible micropolishing system of claim 1 wherein said arbor accepts a plurality of piston rings and said flexible micropolishing machine is capable of micropolishing said plurality of piston rings.
7. The flexible micropolishing system of claim 1 wherein said flexible roller arm includes a flexible roller which is rotatable at varying speeds.
8. The flexible micropolishing system of claim 7 wherein said indexable abrasive material is an abrasive tape and said indexable abrasive tape is indexable at the same speed as said flexible roller to provide abrasive material to said piston ring.
9. A flexible micropolishing arm for micropolishing a piston ring comprising:
a flexible roller arm; and
an indexable abrasive material system located between said flexible roller arm unit and said piston ring wherein said flexible roller arm unit is movable toward said piston ring such that flexible roller arm unit applies a micropolishing pressure to said indexable abrasive material system thereby micropolishing said at least one piston ring when said piston ring is rotated.
10. The flexible micropolishing arm of claim 9 wherein said flexible roller arm includes a flexible roller.
11. The flexible micropolishing arm of claim 10 wherein said flexible roller is manufactured from urethane.
12. The flexible micropolishing arm of claim 10 wherein said flexible roller has a hardness in a range from 40 to 60 durometer.
13. The flexible micropolishing arm of claim 9 wherein said flexible roller arm includes a flexible roller manufactured from a soft material capable of conforming to the shape of said at least one piston ring.
14. The flexible micropolishing arm of claim 9 wherein said flexible roller arm includes a flexible roller which is rotatable at varying speeds.
15. A flexible micropolishing machine for micropolishing a piston ring comprising:
a rotating arbor for accepting a plurality of piston rings;
a head stock and tail stock for rotating said arbor about a central axis;
a slidable roller arm located adjacent said arbor, said roller arm including a flexible roller; and
an indexable abrasive material located between said slidable roller arm and said plurality piston rings wherein said slidable roller arm is movable toward said arbor such that slidable roller arm applies a micropolishing pressure to said indexable abrasive tape thereby micropolishing said plurality of piston rings.
16. The flexible micropolishing machine of claim 15 wherein said flexible roller has a hardness of in a range from 40 to 60 durometer.
17. The flexible micropolishing machine of claim 15 wherein said flexible roller arm includes a flexible roller manufactured from a soft material capable of conforming to the shape of said at least one piston ring.
18. The flexible micropolishing machine of claim 15 further including an oscillation mechanism for laterally moving the said indexable abrasive material during micropolishing.
19. The flexible micropolishing machine of claim 18 wherein said oscillation mechanism laterally oscillates said indexable abrasive material during micropolishing.
20. The flexible micropolishing machine of claim 19 wherein said oscillation mechanism laterally oscillates said indexable abrasive material in a range from 0.010 to 0.080 inches during micropolishing.
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US12/005,925 US20090170411A1 (en) | 2007-12-29 | 2007-12-29 | Micropolishing assembly for micropolishing piston rings |
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US12/005,925 US20090170411A1 (en) | 2007-12-29 | 2007-12-29 | Micropolishing assembly for micropolishing piston rings |
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CN101985205A (en) * | 2010-07-07 | 2011-03-16 | 安徽金斗机械制造有限责任公司 | Piston ring coping machine |
CN102275059A (en) * | 2011-07-13 | 2011-12-14 | 江苏环洋组合机床有限公司 | Automatic opening repairing machine tool for piston rings |
CN103341566A (en) * | 2013-07-04 | 2013-10-09 | 安庆联控机电科技发展有限公司 | Wave ring material receiving tailstock device of piston ring wave ring cut-off machine |
CN103753374A (en) * | 2014-01-01 | 2014-04-30 | 安徽省佳瑞德机械设备有限公司 | Automatic gap grinding machine for piston rings |
CN103753375A (en) * | 2014-01-01 | 2014-04-30 | 安徽省佳瑞德机械设备有限公司 | Grinding head device of automatic gap grinding machine for piston rings |
CN103831689A (en) * | 2014-02-26 | 2014-06-04 | 安徽省佳瑞德机械设备有限公司 | Pressing device of piston ring automatic opening repairing machine |
CN109590850A (en) * | 2018-12-03 | 2019-04-09 | 嵊州市远昌机械有限公司 | A circle grinds device for hardware fitting production |
CN111515787A (en) * | 2020-05-17 | 2020-08-11 | 耿广富 | Workpiece burr grinding device capable of grinding multiple workpieces simultaneously |
CN111531421A (en) * | 2020-05-19 | 2020-08-14 | 四川省仁寿县金鹅纺织有限公司 | Novel drawing roller back grinding device |
CN111618708A (en) * | 2020-06-08 | 2020-09-04 | 湖南省春龙竹艺有限公司 | Bamboo summer sleeping mat processing is with equipment of polishing |
CN112059830A (en) * | 2020-09-09 | 2020-12-11 | 朱伟人 | Automatic finish machining system for manufacturing piston ring of automobile engine |
CN112872950A (en) * | 2020-12-29 | 2021-06-01 | 徐州中液过滤技术有限公司 | Hydraulic accessory machining device for filtering equipment |
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