EP0971810B1 - Method and apparatus for polishing ophthalmic lenses - Google Patents

Method and apparatus for polishing ophthalmic lenses Download PDF

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Publication number
EP0971810B1
EP0971810B1 EP99901554A EP99901554A EP0971810B1 EP 0971810 B1 EP0971810 B1 EP 0971810B1 EP 99901554 A EP99901554 A EP 99901554A EP 99901554 A EP99901554 A EP 99901554A EP 0971810 B1 EP0971810 B1 EP 0971810B1
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EP
European Patent Office
Prior art keywords
membrane
tool head
lapping
lapping tool
lens
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
EP99901554A
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German (de)
English (en)
French (fr)
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EP0971810A1 (en
Inventor
Marc Y. Savoie
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Micro Optics Design Corp
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Micro Optics Design Corp
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Publication date
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Publication of EP0971810A1 publication Critical patent/EP0971810A1/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B13/00Machines or devices designed for grinding or polishing optical surfaces on lenses or surfaces of similar shape on other work; Accessories therefor
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B13/00Machines or devices designed for grinding or polishing optical surfaces on lenses or surfaces of similar shape on other work; Accessories therefor
    • B24B13/02Machines or devices designed for grinding or polishing optical surfaces on lenses or surfaces of similar shape on other work; Accessories therefor by means of tools with abrading surfaces corresponding in shape with the lenses to be made
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B37/00Lapping machines or devices; Accessories
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B41/00Component parts such as frames, beds, carriages, headstocks
    • B24B41/04Headstocks; Working-spindles; Features relating thereto

Definitions

  • This invention pertains to the polishing of ophthalmic lenses, and more particularly, it pertains to a method and an apparatus for polishing ophthalmic lenses, using a lapping tool having a dynamically formable lapping membrane, as per the preamble of claims 1, 10 and 17.
  • a lens polishing operation is limited to the removing of minor scratches and machining marks in a lens while maintaining perfectly the prescribed curvatures. It will be appreciated that any uncontrolled pressure point in a lapping membrane of a lapping tool head, or a depletion of polishing slurry at any location over the membrane can cause the polishing operation to remove more or less material in one region of the lens, thereby changing the prescribed curvature of that lens and causing optical defects.
  • the first group utilizes a lapping tool head having a resilient or flexible lapping membrane which is deformable upon contact with the surface of a lens to adapt to the curvature of the lens. Examples of apparatus belonging to this first group are described in the following US Patents:
  • the second type of lens polishing apparatus of the prior art uses a plurality of plungers for applying pressure gradients over a lens polishing membrane. Although these apparatus are designed for polishing large telescope mirrors, this is the type of apparatus that is of interest herein. Examples of these apparatus are illustrated in the following US Patents:
  • polishing apparatus having a plurality of actuators for applying different pressures at different areas of a polishing membrane.
  • the different pressures are adjusted according to the amount of material to be removed at different locations on the lens surface, such that a polishing operation is effected more quickly.
  • These apparatus have undeniable merits and are believed to be great advances in the polishing of optical surfaces.
  • the present invention provides a new method for polishing an ophthalmic lens as per claim 1 a lapping tool as per claim 10 and a polishing apparatus as per claim 17.
  • a major advantage of this new method is that the lapping slurry is efficiently moved over the entire surface of the lens for improving the quality of the lenses polished by this process.
  • the new method also includes the step of shaping the membrane along a pair of right angle axes and defining membrane profiles along these axes that are respectively similar to and aligned with a base and cross curvatures of the lens being polished.
  • This shaping of the membrane ensures that a lapping operation is effected evenly without applying any pressure point or relaxed sector over the lapping portion of the lapping membrane.
  • the array of cylinders in the lapping tool head comprises an inner and outer concentric circles around the sleeve.
  • the membrane is undulated in circular waves for advantageously moving lapping slurry over the surface of the lens.
  • the array of cylinders is divisible in four diametrically opposite segments of the tool head, and the cylinders in each pair of opposite segments are operable in a group for generating radial waves in the membrane for the purpose of moving lapping slurry over the surface of the lens.
  • the array of cylinders comprises two concentric circles.
  • Each cylinder has an extendible end, and the extendible ends on the cylinders in the outer circle have D-shaped pads mounted thereon, with a short segment of the pad extending along a circumference of the circular array, and each pad being pivoted on a respective extendible end, along an axis which is also aligned with the circumference of the circular array.
  • the extendible ends in the cylinders in the inner circle may have suction-cup-shaped caps mounted thereon.
  • the suction caps are optionally connectional to a source of a vacuum as well as the cylinders in the inner circle. Therefore when the cylinders in the outer circle may be connected to a source of pressure and the cylinders in the inner circle and the suction caps are connected to a source of a vacuum, this array of cylinders is usable for shaping the membrane according to extreme lens curvatures.
  • the array of cylinders is a compact arrangement that is substantially similar to an area defined by a common ophthalmic lens blank.
  • the array of cylinders is mountable in a tool head that has a common size and that is adaptable to conventional lens lapping and polishing apparatus, for retrofitting an existing lens polishing apparatus for example, thereby making such lapping tool head economically available to the optical industry.
  • FIGS. 1, 2 and 3 illustrating respectively, a simplified perspective view of the apparatus according to a preferred embodiment of the present invention, for carrying out a new method for polishing ophthalmic lenses, atypical ophthalmic lens mounted on a support block, and a lapping tool head incorporated in the apparatus.
  • the polishing of ophthalmic lenses referred to herein pertains to an optional step in the manufacturing of ophthalmic lenses on an ultra-precision lens generating apparatus wherein the final curvature of a lens' surfaces is determined by a machining process and shall not be altered during the polishing operation.
  • the polishing of ophthalmic lenses is a light lapping operation which is optionally carried out to remove invisible or hardly visible machining defects from the lens' surfaces, in order to produce lenses of a finest quality.
  • the polishing of the lenses is carried out prior to applying an optional final clear resinous coating to the lenses.
  • the apparatus comprises in combination: a wash station 20; a polishing station 22 and a robotic manipulator 24 for transporting an ophthalmic lens 26 with a lens block 28 affixed thereto from a placement station (not shown) to the wash station 20; from the wash station 20 to the polishing station 22; and from the polishing station 22 back to the wash station and then to a placement station (not shown) where an operator can remove the lens 26 from the apparatus.
  • a placement station may be incorporated into the wash station, and the lens 26 and block 28 may be initially placed in the wash station 20 by an operator of the apparatus.
  • the robotic picker 24 comprises a gripper assembly 40, for engaging and holding the lens block 28, and a pair of a first and second linear actuators and slide assemblies 42,44 for moving the gripper assembly 40 in transversal and longitudinal directions respectively as indicated by arrow 42' and 44'.
  • the robotic picker 24 is preferably also movable in up and down directions to grab and release a lens block 28.
  • the lens 26 is preferably introduced in the wash station or in the lens placement station (not shown) by manually orienting a reference slot 50 with a corresponding indentation (not shown) in the chuck of one of these stations.
  • the wash station 20 comprises a first vacuum chuck 60 (similar to 80 in FIG. 3), for retaining the lens block 28.
  • the first vacuum chuck 60 is mounted on the arbor of a rotary actuator 62 such that the lens 26 is rotatable during the wash cycle.
  • the first vacuum chuck 60 has a splash guard plate 70 movably attached thereto, and a spray nozzle 72 is mounted inside the wash basin 64.
  • the wash basin 64 rises up against the splash guard plate 70 and encloses the lens 26, the lens block 28 and the spray nozzle 72 completely. Water or a mixture of water and detergent is then sprayed against the lens while the lens 26 rotates several turns.
  • the lens 26 is transferred to the polishing station 22 by the robotic picker 24.
  • the polishing station comprises a second vacuum chuck 80 for holding the lens 26 during the polishing cycle.
  • the second vacuum chuck 80 is mounted above a lapping tool head 82 such that the surface of the lens 26 to be polished is oriented downward facing the top portion of the lapping tool head 82.
  • the second vacuum chuck 80 is mounted on a second structure which is only partly drawn for maintaining the clarity of the drawing.
  • the second structure comprises a fourth, fifth and sixth linear actuators and slide assemblies 84, 86 and 88 respectively. These linear actuator and slide assemblies are operable for moving the second vacuum chuck 80 in three orthogonal directions indicated by corresponding arrows 84', 86' and 88'.
  • Such movements of the second vacuum chuck 80 are advantageous for initially positioning the geometrical center of the lens to coincide with the vertical neutral axis of the lapping tool head 82, or for initially positioning the lens a nominal offset distance relative to the neutral axis of the lapping tool head to accommodate a prism angle in that lens for examples. It is also recommended to continually moving the lens 26 back and forth and side to side in directions indicated by arrows 84' and 86' relative to the neutral axis of the lapping tool head during the polishing cycle to prevent localized over or under-polishing of the lens.
  • the second vacuum chuck 80 and the lapping tool head 82 are preferably mounted inside a sealable enclosure 100.
  • the enclosure 100 preferably has a glass window 102, and the wash basin 64 is preferably made of transparent material such that both operations may be monitored by an operator standing near the apparatus.
  • a continuous flow of lapping slurry is pumped over the lapping tool head 82 and the lens 26 by one or more slurry nozzles as indicated by numeral 104 in FIG. 3.
  • the lapping tool head 82 of the apparatus is operated in a circular oscillatory movement by a mechanism of the type described, for example, in US Patent No. 5,175,961 issued on Jan. 5, 1993 to John R. Bolton. Rotary power is applied to the mechanism at pulley 106.
  • the vacuum chuck 80 and the lapping tool head 82 are illustrated therein in a larger scale.
  • the second vacuum chuck 80 is only partly illustrated therein.
  • the partial illustration is also used to maintain the clarity of the drawing.
  • this chuck 80, as well as the first chuck 60 are operated by a vacuum and are connected to a source of a vacuum and appropriate control valves, by a conduit such as the one illustrated and identified by label 110.
  • the vacuum chuck 80 is mounted on a gimbal 112, which in turn is mounted on a vertical brace 114 affixed to the sixth linear actuator 88. This preferred mounting is better illustrated in FIGS. 4 and 5.
  • the gimbal 112 comprises a first C-shaped member 116 which is pivoted at its center along a first axis of articulation 118 passing through a first bearing (not shown) in the vertical brace 114.
  • a second C-shaped member 120 has its ends respectively connected to the ends of the first C-shaped member 116, along a second axis of articulation 122 perpendicular to the first axis 118.
  • the second C-shaped member 120 has a flat surface 124 on an upper side thereof, as illustrated in FIG. 5. This flat surface is advantageously used for selectively contacting a stay member 126 there-against, for orienting arid stabilizing the gimbal 112 during the insertion of a support block 28 in the chuck 80 or when removing a support block from the chuck.
  • the stay member 126 is a flat-ended circular member mounted on the extension rod of a linear actuator 128.
  • the lapping tool head 82 is preferably covered by a fabric hat 130 enclosing the active part thereof completely.
  • the fabric hat 130 is held about the tool head by an elastic band 132 below the enlarged portion of the tool head.
  • the fabric material of the fabric hat 130 is selected such that it has good endurance and good characteristics related to the absorption and retention of lapping slurry.
  • a preferred type of fabric material for use in manufacturing the fabric hat 130 is sold by DuPont TM under the trade name Wearforce TM "F".
  • DuPont TM E.I. du Pont de Nemours and Company, has offices across the world with its corporate headquarters at: 1007 Market Street, Wilmington, DE, 19898, U.S.A.
  • the central region of the lens 26 may be deprived from an abundant circulation of slurry, as compared to the peripheral regions of the lens for example.
  • the slurry has a liquid phase, normally water, and a solid phase comprising microscopic abrasive particles, normally aluminum oxide particles, typically of no more than five (5) microns in size.
  • the purpose of the liquid phase is to carry the abrasive particles over the entire area to be polished, and to wash away the abraded particles of plastic or glass from the lens.
  • the slurry is not distributed uniformly over the entire surface of the lens. This inconvenience can cause an uneven wear of the fabric hat 130 covering the lapping tool head 82.
  • the uneven distribution of slurry across the entire surface of the lens can also cause an uneven polishing of the lens.
  • the lapping tool head 82 of the preferred embodiment has a curved membrane 134, as illustrated in FIGS. 3 and 6, and a number of pneumatic cylinders 136 mounted under the membrane for shaping the membrane according to the curvature of the lens 26, and for maintaining an even pressure distribution between the absorbent fabric hat 130, the membrane 134, and the entire surface of the lens 26.
  • the membrane 134 is preferably made of a flexible rubber material that is water-impermeable, for preventing slurry from deteriorating the mechanisms and equipment associated with the pneumatic cylinders 136.
  • the pneumatic cylinders 136 of the lapping tool head 82 perform the additional functions of periodically undulating the membrane 134 for moving lapping slurry between the membrane and the lens 26.
  • the lapping tool head 82 comprises eighteen (18) pneumatic cylinders 136 disposed in a circular or hexagonal array around a central sleeve 138.
  • the circular or hexagonal array preferably has a diameter slightly smaller than a diameter of a standard lens blank.
  • the array of pneumatic cylinders 136 comprises two concentric circles; the outside circle has twelve (12) outer plungers 140 and the inner circle has six (6) inner plungers 142.
  • each pneumatic cylinder 136 is a single-action, spring-returned, collar-mount type, and the stroke length of each one is selected such that it operates in a mid-stroke region thereof over the entire range of adjustment of the lapping tool head.
  • the curvature of the membrane 134 of the lapping tool head of the apparatus is preferably adjustable from a slightly concave shape, about minus six (-6) diopters, to a planar configuration and to a convex curvature of about sixteen (16) diopters.
  • each outer plunger 140 has a D-shaped pad 144, in which the short segment defines an arc along the circumference of the circular array.
  • Each D-shaped pad 144 is pivoted to the rod end on a pin 146 (in FIG. 9) through the rod end and extending along the short segment mentioned above. This configuration of the pads 144 is advantageous for working the membrane 134 over its entire active area, and especially along the circumference thereof.
  • the rod ends of the inner plungers 142 preferably have vacuum-type cup-shaped caps 148.
  • the shape of these caps 148 is advantageous for applying an even distribution of pressure under the membrane when the pneumatic cylinders 136 of these plungers are actuated outwardly.
  • the shape of these cup-shaped caps 148 is also advantageous for optionally applying a vacuum thereto and a corresponding pulling force on the membrane for shaping the membrane into a flat configuration for example, or for undulating the membrane for moving polishing slurry thereunder, as will be explained later.
  • the pneumatic cylinders 136 operating the inner plungers 142 preferably have hollow rods communicating with a vacuum supply port, and are of the single-action spring-extended type. It will also be appreciated that the inner plungers 142 with the caps 148 mounted thereon are also connectional to a source of a vacuum while their respective cylinders 136 are connectional to a source of air pressure. In this configuration each cylinder has a vacuum and pressure ports; the vacuum port being connected to a hollow plunger rod and the pressure port being connected to the piston outside that rod. This configuration, however, has not been illustrated for being common to the persons skilled in pneumatic systems, and would be evident to these persons in the light of the present specification.
  • the central sleeve 138 is fixed relative the inner and outer plungers 140,142. It has a longitudinal axis extending in a parallel alignment with the axes of the pneumatic cylinders 136.
  • the sleeve 138 defines a neutral axis of the tool head 82.
  • the central sleeve 138 has an inside dimension for receiving and holding a stem 150 extending from the central region inside the membrane 134.
  • the stem 150 is firmly retainable inside the sleeve 138 such that the stem 150 provides a reference point for shaping the membrane according to the surface to be polished.
  • the stem 150 is preferably made of resilient rubber, as for the membrane 134 itself, and is bonded to or molded as an integral part of the membrane 134.
  • the portion of the membrane near the stem 150 is positional against the lens, thereby providing a fixed base which is preferably maintained in contact with the surface of the lens, and from which the membrane may be profiled to match the curvatures of the lens being polished.
  • the portion of the membrane near the stem 150 also provides a reference point for moving the lapping tool head 82 against a lens to be polished, when a pressure measuring device is used to control the movement of the sixth linear actuator 88.
  • the sixth linear actuator 88 preferably comprises a pneumatic linear actuator (not shown) that is connected to an adjustable high precision pressure regulator (not shown). This pneumatic equipment in combination with the stem 150, allows the operator of the lens polishing apparatus to precisely set a basic pressure between the lapping tool head 82 and the lens surface to be polished.
  • each cylinder 136 is seated in a manifold plate 154 and is sealed in a respective cavity in the manifold plate.
  • the manifold plate 154 and the pneumatic cylinders 136 are surrounded by a rigid shield 155.
  • the shield also encloses a collar end of each pneumatic cylinder, opposite the manifold plate 154, for retaining these cylinders 136 in a spaced-apart and parallel alignment.
  • the sleeve 138 is also affixed to the shield 155 and extends in a parallel relationship with the cylinders 136.
  • the shield 155 has one or more slots 158 on the outside surface thereof for mating with one or more similar ribs (not shown) inside the membrane 134, and for indexing and retaining the membrane thereon.
  • the manifold plate 154 has six (6) circuit grooves 156 therein connecting one or more cylinders 136 to one of six (6) holes 158 communicating with one of six (6) pressure supply fittings 160 extending from a base plate 162 of the tool head 82.
  • the base plate 162 is mountable to the arbor of the oscillatory mechanism by means of bolts through countersunk holes as illustrated.
  • the six (6) circuit grooves 156 connect two or more cylinders 136 to form with the central stem 150, seven (7) pressure zones of the lapping tool head 82. Each zone is labeled with a letter symbol from ' A ' to ' G ' as illustrated in FIGS. 8, 13 and 14.
  • Each of the supply fittings 160 is connected to a solenoid operated pneumatic valve 164 which in turn is connected to an air pressure supply manifold 166.
  • a precision proportional pressure regulator 168 is provided on the supply port to the air pressure supply manifold 166.
  • the pressurizing of each cylinder 136 is effected by operating one solenoid valve 164 at the time and changing the pressure setting of the pressure regulator 168 at each time.
  • the pressure regulator 168 is a computer-controlled, fast-response type where the closing and pressurizing of all six lines are effected in a very short time and in fact in few seconds.
  • the pressure in each cylinder 136 is preferably adjusted repeatedly during the entire period of operation of the lapping tool head.
  • a similar circuit (not shown) is used for controlling the vacuum setting in these plungers, in the caps 148 of these plungers or in both the plungers 142 and the caps 148.
  • a seventh circuit groove 170 and a seventh hole 172 are shown in the manifold plate 154.
  • This circuit groove is also connected to a pressure supply fitting 160 and to the air pressure supply manifold 166 and regulator 168.
  • the circuit groove 170 is connected to an access hole 174 through a central region of the tool head 82 as illustrated in FIG. 9.
  • the membrane 134 is preferably sealed around the shield 155, in groove 176 for example as shown in FIGS. 6 and 9.
  • air pressure is admitted through conduit 174, this pressure is transmitted inside the tool head and under the membrane 134 to inflate the membrane.
  • a slight positive pressure inside the membrane is at time advantageous for reducing localized pressure concentration areas at each plunger 140 or 142.
  • a vacuum may also be applied to the circuit groove 170 for obtaining extreme curvatures in the membrane 134 for example.
  • zone 'A' on this drawing is representative of the travel of the central area of the tool head 82 during the polishing of a lens. While only zone 'A' is illustrated therein, the illustration is intended to depict the movement of the entire tool head 82 against the surface of the lens 26.
  • the diameter and velocity of the oscillatory movement is preferably adjustable.
  • a satisfactory diametrical setting on the apparatus of the preferred embodiment is between about 10 to about 20 mm and a preferred velocity is between about 300 and 600 cycles per minute for polishing a lens having a diameter of about 75 mm.
  • FIG. 13 This figure illustrates a plan view of the lapping tool head 82 and the seven regions defined by the stem 150 and the plungers 140,142. The configuration of these regions is such that it is possible to group one or more zones to define four sectors as illustrated in this figure.
  • Sectors 180 and 182 are opposite and symmetrical.
  • Sectors 184 and 186 are also opposite and symmetrical, and disposed at right angle with sectors 180 and 182.
  • Sectors 180 and 182 are disposed along the axis 188 of the cross curve of a lens to be polished on that head for example, herein referred to as the cross curve axis.
  • the sectors 184 and 186 are disposed along the base curve axis 190. It will be appreciated that all zones on one side of the cross curve axis 188 are positioned in a symmetrical manner relative to the zones of the other side of that axis. Similarly, the position of the zones on one side of the base curve axis 190 are symmetrical to the zones of the other side of that axis.
  • each zone on the lapping tool head is positioned in a four-way symmetrical arrangement relative to the commonality of that zone with both orthogonal axes 188 and 190 of the lapping tool head.
  • the pressure settings of the pressure zones defined by sectors 180 and 182 are adjustable according to the shape of the cross curve of the prescribed lens to be polished.
  • the pressure settings in the regions defined by sectors 184, and 186 are adjustable according to the shape of the base curve of the prescribed lens.
  • the ability to create pressure gradients along two pairs of opposite sectors has proven to be advantageous for shaping right-angled profiles in the membrane 134 ofthe tool head 82 according to both basic curvatures of a lens 26, and thereby obtaining uniform polishing of the lens surface.
  • FIG. 14 Another important characteristic of the lapping tool head 82 of the preferred embodiment is illustrated in FIG. 14 and is also directly related to the symmetrical arrangement of the pressure zones on the tool head.
  • the eighteen (18) pneumatic cylinders 136 of the tool head 82 are arranged in seven zones as it was previously mentioned for forming four (4) symmetrical sectors 180,182,184,186.
  • the seven zones are also configured to form three (3) concentric circles or three concentric hexagons.
  • the first circle 192 comprises a single zone ' A ' having a fixed stem 150.
  • the second circle 194 comprises two zones; ' B ' and ' E ' having respectively four and two pneumatic cylinders 136.
  • the third circle 196 comprises four zones; 'C', 'D', 'F' and 'G' having respectively two cylinders, four cylinders, four cylinders and two cylinders.
  • Each cylinder 136 in each of zones 'B' to 'G' is diametrically and symmetrically opposite from another cylinder in a same zone.
  • the pressure in all the pneumatic cylinders along each circle 194 and 196, or the vacuum setting in plungers 142 in circle 194, may be periodically reduced from, or increased above their prescribed settings, to cause the membrane 134 to flex at controlled locations and to cause the membrane to undulate against the surface of the lens 26.
  • the circular arrays 194 and 196 are workable separately and in sequence to pump in a nominal quantity of abrasive slurry toward the center of the lens 26, or to expel slurry from the central region of the lens toward the periphery of the lens. This controlled undulation of the membrane 134 and the pumping action created thereby is advantageous for maintaining a constant supply of abrasive slurry across the entire surface of the lens.
  • each circle is diametrically symmetrical in relation to the configuration of the lapping tool head, and because each zone may be actuated for a specific time duration, the polishing effect of the tool head during the undulation of the membrane is controllable to ensure a uniform polishing action across the entire surface of the lens.
  • the pumping action by way of undulating the membrane in pulsating circular waves may be preferred by some users when the curvature of the membrane is near a maximum value.
  • the pressure gradient in each pair of sectors 180-182 and 184-186 may be alternatively varied for generating pulsating radial waves in the membrane 134 and for undulating the membrane 134 in a sweeping-like manner to take in and spread the abrasive slurry over the entire surface of the lens.
  • the membrane is periodically undulated in a circular wave mode or in radial wave mode, the efficiency of the polishing action is enhanced significantly. It will be appreciated that the pulsating undulating action of the membrane is preferably superimposed over the prescribed pressure settings of each cylinder. Hence, the programmed curvature of the membrane 134 is always maintained before and after the formation of each wave and at the nodes of each wave.
  • the pulsating effect described herein is known to greatly improve a lens polishing operation, those who are familiar with lens polishing processes will appreciate that the pulsating effect described herein does not necessarily obviate completely the need to periodically raise the lens off the lapping tool head to renew the layer of lapping slurry there-between.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Grinding And Polishing Of Tertiary Curved Surfaces And Surfaces With Complex Shapes (AREA)
  • Eyeglasses (AREA)
EP99901554A 1998-01-30 1999-01-28 Method and apparatus for polishing ophthalmic lenses Expired - Lifetime EP0971810B1 (en)

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
CA2228323 1998-01-30
CA2228323 1998-01-30
CA002260484A CA2260484C (en) 1998-01-30 1999-01-27 Method and apparatus for polishing ophthalmic lenses
CA2260484 1999-01-27
PCT/CA1999/000066 WO1999038650A1 (en) 1998-01-30 1999-01-28 Method and apparatus for polishing ophthalmic lenses

Publications (2)

Publication Number Publication Date
EP0971810A1 EP0971810A1 (en) 2000-01-19
EP0971810B1 true EP0971810B1 (en) 2001-12-05

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EP99901554A Expired - Lifetime EP0971810B1 (en) 1998-01-30 1999-01-28 Method and apparatus for polishing ophthalmic lenses

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EP (1) EP0971810B1 (es)
JP (1) JP2001518022A (es)
KR (1) KR20010005800A (es)
CN (1) CN1262639A (es)
AT (1) ATE210000T1 (es)
AU (1) AU2147099A (es)
CA (1) CA2260484C (es)
DE (1) DE69900529T2 (es)
ES (1) ES2171323T3 (es)
PT (1) PT971810E (es)
WO (1) WO1999038650A1 (es)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1652619A3 (de) * 2004-10-29 2006-06-07 Schneider GmbH + Co. KG Polierwerkzeug mit mehreren Druckzonen
DE102010035526A1 (de) 2010-08-25 2012-03-01 Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V. Feinbearbeitungsmembran und -werkzeug

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US7396275B2 (en) * 2005-12-30 2008-07-08 Essilor International (Compagnie General D'optique) Polishing machine comprising sliding means transverse to the front face
DE102007060467A1 (de) * 2007-12-14 2009-06-18 Carl Zeiss Vision Gmbh Vorrichtung und Verfahren zum Reinigen einer optischen Linse
CN102794689B (zh) * 2012-07-30 2014-09-17 中国人民解放军国防科学技术大学 电磁驱动型主动应力盘
CN108890509A (zh) * 2018-07-25 2018-11-27 浙江工业大学 光催化钴基合金加工平台及加工方法
CN108857841B (zh) * 2018-07-25 2023-09-29 浙江工业大学 一种可调整光源的光化学加工平台及其加工方法
DE102018216615A1 (de) * 2018-09-17 2020-03-19 Aktiebolaget Skf Verfahren zum Bearbeiten einer Oberfläche eines Metallgegenstands
CN112676925B (zh) * 2020-12-29 2022-11-11 襄阳华中科技大学先进制造工程研究院 航空发动机叶片磨抛方法、装置、设备及存储介质

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US5205083A (en) * 1991-10-24 1993-04-27 Pettibone Dennis R Method and apparatus for polishing optical lenses
US5662518A (en) * 1996-05-03 1997-09-02 Coburn Optical Industries, Inc. Pneumatically assisted unidirectional conformal tool

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1652619A3 (de) * 2004-10-29 2006-06-07 Schneider GmbH + Co. KG Polierwerkzeug mit mehreren Druckzonen
DE102010035526A1 (de) 2010-08-25 2012-03-01 Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V. Feinbearbeitungsmembran und -werkzeug
WO2012025547A1 (de) 2010-08-25 2012-03-01 Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e. V. Auswechselbare feinbearbeitungsmembran, stationäres feinbearbeitungswerkzeug und verfahren zur herstellung einer auswechselbaren feinbearbeitungsmembran

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PT971810E (pt) 2002-05-31
CA2260484C (en) 2003-04-15
KR20010005800A (ko) 2001-01-15
EP0971810A1 (en) 2000-01-19
AU2147099A (en) 1999-08-16
JP2001518022A (ja) 2001-10-09
CA2260484A1 (en) 1999-07-30
ATE210000T1 (de) 2001-12-15
CN1262639A (zh) 2000-08-09
DE69900529T2 (de) 2002-08-01
DE69900529D1 (de) 2002-01-17
WO1999038650A1 (en) 1999-08-05
ES2171323T3 (es) 2002-09-01

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