US20020086621A1 - Apparatus and buffing element for uniformly reconditioning digital recording discs - Google Patents
Apparatus and buffing element for uniformly reconditioning digital recording discs Download PDFInfo
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- US20020086621A1 US20020086621A1 US09/772,144 US77214401A US2002086621A1 US 20020086621 A1 US20020086621 A1 US 20020086621A1 US 77214401 A US77214401 A US 77214401A US 2002086621 A1 US2002086621 A1 US 2002086621A1
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Images
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B29/00—Machines or devices for polishing surfaces on work by means of tools made of soft or flexible material with or without the application of solid or liquid polishing agents
- B24B29/02—Machines or devices for polishing surfaces on work by means of tools made of soft or flexible material with or without the application of solid or liquid polishing agents designed for particular workpieces
- B24B29/06—Machines or devices for polishing surfaces on work by means of tools made of soft or flexible material with or without the application of solid or liquid polishing agents designed for particular workpieces for elongated workpieces having uniform cross-section in one main direction
- B24B29/08—Machines or devices for polishing surfaces on work by means of tools made of soft or flexible material with or without the application of solid or liquid polishing agents designed for particular workpieces for elongated workpieces having uniform cross-section in one main direction the cross-section being circular, e.g. tubes, wires, needles
-
- G—PHYSICS
- G11—INFORMATION STORAGE
- G11B—INFORMATION STORAGE BASED ON RELATIVE MOVEMENT BETWEEN RECORD CARRIER AND TRANSDUCER
- G11B23/00—Record carriers not specific to the method of recording or reproducing; Accessories, e.g. containers, specially adapted for co-operation with the recording or reproducing apparatus ; Intermediate mediums; Apparatus or processes specially adapted for their manufacture
- G11B23/50—Reconditioning of record carriers; Cleaning of record carriers ; Carrying-off electrostatic charges
- G11B23/505—Reconditioning of record carriers; Cleaning of record carriers ; Carrying-off electrostatic charges of disk carriers
Definitions
- the present invention is a continuation in part (CIP) of “Apparatus and Buffing Element for Reconditioning Digital Recording Discs,” U.S. patent application Ser. No. 09/754,676, filed Jan. 3, 2001, which is incorporated by reference herein.
- the present invention is related to:
- the present invention relates generally to optically-read digital recording discs. More specifically, the present invention relates to reconditioning the protective surface of digital recording discs.
- Optically-read digital recording discs including compact discs (CDs), digital versatile discs (DVDs), CD-ROMs, recordable CDs (CD-Rs), re-writable CDs (CD-RWs), and the like, are widely used to store different types of information.
- Digital recording discs may be formatted for use with audio, video, or computer equipment that reads the data recorded on the discs.
- the technology associated with digital discs and digital playback equipment is well known to those skilled in the art. Basically, digital information is encoded and arranged in spiral data tracks within the disc beneath an optically transparent protective layer, or surface, of plastic. A laser beam reads the digital information during playback, and the information is then processed and presented to the user in the form of sound, visual images, or computer data.
- the optically transparent protective surface forms the bulk of the thickness and weight of the disc.
- the protective surface protects the data layer from damage on the play side.
- the protective surface acts as a transparent substrate to support the data layer of the disc. Damage or surface imperfections located on the transparent protective surface can interfere with the laser beam before it reaches the data layer. Although modern playback devices include error correction techniques, this interference can prevent the player from reading the data correctly, or at all, resulting in audible problems, even though the data layer itself is undamaged. Due to the high cost of digital discs, it is desirable to repair such damaged discs rather than replace them.
- One known process for reconditioning digital recording discs involves a motorized apparatus having a buffing surface that abrades the protective surface in a generally uniform manner across the surface area of the disc. While this method may effectively repair the protective surface of some discs, it can leave fine abrasions on other discs so that visual appeal is not restored. Moreover, the fine abrasions can fall into alignment with the spiral data track or otherwise affect the optical tracking quality of the treated disc so that playability is not restored.
- DVD playback equipment employs a shorter wavelength laser than the other digital playback equipment.
- This DVD laser is capable of reading data tracks that are smaller and closer together than the data tracks that can be read by the conventional laser in CD players or CD-ROM drives. Because DVD data tracks are closer together, more of them can fit on a disc of the same size. Consequently, DVDs can hold about seven times as much data as an audio CD or a CD-ROM. Unfortunately, fine abrasions remaining on the DVD following reconditioning can adversely affect the playability of the more closely spaced DVD data tracks.
- Non-uniform abrasion of the protective surface of the DVD can adversely affect the playability of the DVD data tracks following reconditioning.
- Non-uniform abrasion of the protective surface can occur when polishing DVDs using a motorized apparatus that rotates a foam-backed buffing pad.
- the foam-backed buffing pad presses against the protective surface of the DVD, the periphery of the buffing pad compresses more than the central portion of the buffing pad.
- the foam surrounding the central portion of the foam-backed buffing pad supports the central portion so that it is more resistant to compression than the peripheral portion of the foam-backed buffing pad.
- the resistance to compression produces a greater buffing force against the central portion of the DVD than the buffing force against the peripheral portion of the DVD. Accordingly, this non-uniform buffing force can result in more abrasion at the central portion of the protective surface than at the peripheral portion of the protective surface to adversely affect the playability of the closely-spaced DVD data tracks.
- the buffing element imparts a substantially uniform buffing force against the protective surface of the disc.
- the buffing element of the present invention produces an abrasion pattern with a gradual transition between unconditioned and reconditioned portions of the disc.
- a buffing element in an apparatus for reconditioning a protective surface of an optically-read digital recording disc.
- the buffing element includes a foam pad having a discoid portion and an annular portion encircling a perimeter of the discoid portion, the annular portion being more resistant to compression than the discoid portion.
- a buffing pad is in fixed relation with the foam pad.
- the buffing pad has first and second surfaces on opposing sides of the buffing pad. The first surface is configured to face the foam pad, and the second surface is configured to contact and recondition the protective surface of the digital recording disc.
- an apparatus for reconditioning a protective surface of an optically-read digital recording disc includes a turntable configured to receive a center section of the optically-read disc, the center section being located about a center hole of the optically-read disc.
- a first motor is coupled to the turntable and rotates the turntable and the optically-read disc at a first rotational speed.
- the apparatus further includes a buffing element for removing an amount of material from the protective surface as the turntable rotates the optically-read disc through at least one revolution.
- the buffing element includes a substantially rigid stabilizer plate having a plate surface. A first foam pad is fixedly engaged with the plate surface.
- the first foam pad has a discoid portion and an annular portion encircling a perimeter of the discoid portion, and the annular portion is more resistant to compression than the discoid portion.
- the buffing element further includes a second foam pad formed from closed cell foam and coupled to the first foam pad, and a buffing pad having first and second surfaces on opposing sides of the buffing pad. The first surface is configured to removably adhere to the second foam pad, and the second surface is configured to recondition the protective surface of the digital recording disc.
- a second motor is coupled to the buffing element and rotates the buffing element at a second rotational speed.
- a timing element in communication with each of the first and second motors, synchronizes the first and second motors to substantially simultaneously cease rotation of the turntable and the buffing element following removal of the amount of material.
- FIG. 1 shows a diagram of an optically-read digital recording disc
- FIG. 2 shows a perspective view of an apparatus for reconditioning protective surface of an optically-read digital recording disc
- FIG. 3 shows a side view of a turntable and a buffing element of the apparatus of FIG. 2 aligned to recondition a digital recording disc;
- FIG. 4 shows an exploded view of the layers that form the buffing element of FIG. 3;
- FIG. 5 shows an exploded view of the buffing element being installed on a platen of the apparatus of FIG. 2;
- FIG. 6 shows a top view of the buffing pad adhered to the buffing element
- FIG. 7 shows an expanded side view of a reconditioned portion of the digital recording disc
- FIG. 8 shows an exploded view of the layers that form a buffing element in accordance with an alternative embodiment of the present invention.
- FIG. 9 shows an exploded view of the layers that form a buffing element in accordance with another alternative embodiment of the present invention.
- FIG. 1 shows a diagram of an optically-read digital recording disc 20 .
- Optically-read digital recording disc 20 generally includes a center section, or clamping area 22 , located about a center hole 24 of disc 20 .
- Surrounding clamping area 22 is a narrow text band 26 typically used to identify the manufacturer.
- Clamping area 22 and text band 26 to not contain encoded data.
- a data layer 28 lies outside of text band 26 .
- Data layer 28 is arranged in spiral tracks and is covered by a protective surface 30 .
- Disc 20 is shown with a portion of protective surface 30 removed to show the underlying spiral arranged data layer 28 .
- An abrasion pattern 32 created in accordance with a disc reconditioning apparatus is shown on protective surface 30 and will be described in detail below.
- disc 20 is a music compact disc (CD)
- the first band of data layer 28 closest to text band 26 contains the table of contents for the CD.
- the lead-in tells the CD playback equipment how to navigate around disc 20 . Scratches or other damage in this area can render disc 20 completely unplayable.
- the song tracks of data layer 28 begin just outside the lead-in. Damage to disc 20 in an area of data outside the lead-in usually affects only the music that is contained in that area. However, with more severe damage the CD playback equipment can sometimes “lock up” on the damaged area so that the laser cannot detect later song tracks.
- the laser beam of the disc playback equipment enters disc 20 on the play side, travels through protective surface 30 , picks up information from data layer 28 , and bounces off a reflective coating on the back side of data layer 28 .
- the reflected laser beam then travels back through protective surface 30 , out of disc 20 , and into a “detector”.
- the detector then helps the CD player convert the information carried by the laser into sound, video, and/or data.
- An expanded side view 34 of a portion of disc 20 represents an exemplary abraded ridge 36 imparted on disc 20 by a prior art disc reconditioning apparatus (not shown). Expanded side view 34 shows an unconditioned portion 38 and a reconditioned portion 40 of disc 20 . As shown in expanded side view 34 , a reconditioning process using the prior art reconditioning apparatus imparts abraded ridge 36 between unconditioned and reconditioned portions 38 and 40 , respectively.
- a laser beam 42 entering disc 20 through ridge 36 can be undesirably bent or scattered, as represented by dashed lines 44 , so that the underlying data layer 28 cannot be accurately detected by the playback equipment.
- the present invention reconditions protective surface 30 of disc 20 to remove scratches or other surface imperfections that might otherwise render disc 20 unplayable or visually unappealing.
- the present invention reconditions disc 20 outside of text band 26 , as represented by abrasion pattern 32 , to prevent damage to the manufacturer's identification within text band 26 .
- the present invention removes scratches and other surface imperfections without imparting abrasion ridge 36 onto protective surface 30 .
- disc 20 is generally described as a music CD, it should be understood that optically-read digital recording disc 20 may alternatively be compact disc read-only memory (CD-ROM), a Digital Versatile Disc (DVD), recordable CD (CD-R), and Re-writable CDs (CD-RW), and the like. All of the above listed discs are optical discs that are read with a laser in the fashion described above. The primary difference between the above listed discs is in how the data is encoded in data layer 28 and what is done with that data by the player, drive, or other device used to read it.
- CD-ROM compact disc read-only memory
- DVD Digital Versatile Disc
- CD-R recordable CD
- CD-RW Re-writable CDs
- FIG. 2 shows a perspective view of an apparatus 46 for reconditioning protective surface 30 (FIG. 1) of optically-read digital recording disc 20 (FIG. 1).
- FIG. 3 shows a side view of a turntable 48 and a buffing element 50 aligned to recondition digital recording disc 20 in apparatus 34 .
- Apparatus 46 is an abrasive planarizing apparatus. That is, apparatus 46 abrades a surface, such as protective surface 30 , to a flat, or planar, finish in order to retain or restore the appearance and playability of disc 20 .
- Apparatus 46 generally includes turntable 48 and a turntable motor 52 coupled to turntable 48 for rotating turntable 48 at a first rotational speed.
- Apparatus also generally includes buffing element 50 , a buffing element motor 54 coupled to buffing element 50 for rotating buffing element 50 at a second rotational speed, and a timing element 56 coupled to each of turntable motor 52 and buffing element motor 60 .
- Turntable 48 is configured to support and rotate disc 20 during a reconditioning process.
- Turntable 48 is preferably formed from a rigid material such as aluminum.
- Turntable 48 has an upper surface 57 configured to receive clamping area 22 (FIG. 1) located about center hole 24 (FIG. 1) of disc 20 .
- Upper surface 57 includes a spindle 58 configured to receive center hole 24 of disc 20 .
- Spindle 58 functions to centrally position clamping area 22 of disc 20 during the reconditioning process.
- disc 20 is positioned on spindle 58 of turntable 48 so that protective surface 30 (FIG. 1) faces turntable 48 .
- Apparatus 46 may optionally include a washer 60 that is positioned over disc 20 .
- Washer 60 is configured to limit flexion of disc 20 during the reconditioning process.
- Washer 60 is preferably formed from a rigid or at least semi-rigid material, such as plastic or aluminum.
- a retainer 62 attaches to spindle 58 and retains washer 60 and disc 20 on spindle 58 of turntable 48 .
- Retainer 62 may be a threaded screw which mates with threads on spindle 58 .
- the relatively large surface area contact between the clamping area 22 and upper surface 57 of turntable 48 and the retention capability of retainer 62 substantially prevent disc 20 from slipping on turntable 48 when force is applied to protective surface 30 of disc 20 during rotation.
- retainer 62 may include a quick-release locking pin mechanism for rapid engagement or disengagement to spindle 58 .
- a platen 64 supports buffing element 50 during the reconditioning process.
- Platen 64 is coupled to buffing element motor 54 via a shaft 66 .
- platen 64 is sized so that it contacts and supports most of a non-buffing surface 68 of buffing element 50 .
- platen 64 functions to centrally position and retain buffing element 50 during the reconditioning process.
- Buffing element 50 is oriented nearly perpendicular to an axis of rotation 70 of shaft 66 .
- axis of rotation 70 of shaft 66 is nearly parallel to an axis of rotation 72 of spindle 58 .
- axis of rotation 70 may be tilted about one degree from axis of rotation 72 . This nearly parallel alignment of axes 70 and 72 results in a large surface area of buffing element 50 contacting and buffing protective surface 30 during a reconditioning process. Consequently, protective surface 30 is buffed in a generally uniform manner across the surface area of disc 20 .
- Buffing element motor 54 is oriented along axis of rotation 70 by mounting a rear end 74 of buffing element motor 54 to a first end 76 of a buffing element support 78 .
- Buffing element support 78 may include a pivoting adjuster 80 for adjusting buffing element 50 to produce nearly parallel alignment of axis of rotation 70 of shaft 66 with axis of rotation of spindle 58 . Following alignment, pivoting adjuster 80 is locked into position.
- pivoting adjuster 80 is locked into position.
- adjustment screws located between buffing element motor 54 and buffing element 50 may be used to adjust buffing element 50 relative to buffing element motor 54 .
- protective surface 30 of disc 20 is directed in a downward position facing turntable 48 , and with only clamping area 22 contacting upper surface 57 of turntable 48 .
- Buffing element 50 includes a planar buffing paper, or buffing pad 82 .
- Buffing pad 82 is directed in an upward position below disc 20 such that a portion of planar buffing pad 82 contacts protective surface 30 outside of text band 26 (FIG. 1) as represented by abrasion pattern 32 (FIG. 1).
- disc 20 and buffing element 50 may be oriented in other positions, such as sideways, or upside down from the preferred embodiment of apparatus 46 , as long as buffing element 50 continues to face protective surface 30 .
- Timing element 56 is set to synchronize turntable and buffing element motors 52 and 54 , respectively, to substantially simultaneously cease rotation of turntable 48 and buffing element 50 .
- turntable 48 and disc 20 will cease rotating prior to buffing element 50 due to the difference in the rotational speeds between turntable 48 and buffing element 50 .
- This can cause excessive buffing in a limited region of protective surface 30 of the non-rotating disc 20 relative to the remaining area of protective surface 30 .
- An excessively buffed area creates an unbalanced disc.
- An unbalanced disc (which can spin at rotational speeds of up to 500 RPM during playback) may cause beam focusing problems, vibrations, and signal distortion during playback.
- buffing element motor 54 rotates buffing element 50 at a first rotational speed of approximately 1000-3400 revolutions per minute (RPM).
- turntable motor 52 rotates turntable 48 at a second rotational speed of approximately 20-30 RPM.
- Timing element 56 imparts a time delay on turntable motor 52 so that turntable 48 and disc 20 continue spinning slightly longer than buffing element 50 .
- a time delay of approximately one second causes turntable 48 and buffing element 50 to ramp down and cease rotating substantially simultaneously, thus avoiding the formation of the excessively buffed region discussed above.
- apparatus 46 The rotational speeds of buffing element 50 and turntable 48 cause apparatus 46 to remove a substantially uniform amount of material from protective surface 30 in a time efficient manner so that disc 20 doesn't get too hot. Excessive heat build-up on disc 20 may damage disc 20 so that laser beam 42 (FIG. 1) is unable to focus on data layer 28 (FIG. 1).
- apparatus may include a cleaning agent dispenser 84 located proximate turntable 48 .
- Cleaning agent dispenser 84 dispenses a controlled amount of a cleaning agent to disc 20 to cool disc 20 and to facilitate the removal of waste material from protective surface 30 .
- the cleaning agent may be water for rinsing away the waste material produced by the reconditioning process.
- apparatus 46 may include a collection receptacle 86 located proximate turntable 48 for collecting waste material washed off of protective surface 30 by the water.
- the cleaning agent may be air blown over protective surface 30 to remove the waste material.
- the reconditioning process of apparatus 46 causes buffing element 50 to contact and buff protective surface 30 along a path.
- the path is represented by abrasion pattern 32 in the view depicted in FIG. 1.
- Buffing element 50 rotates in a substantially outward radial direction with respect to turntable 48 .
- buffing element 50 removes an amount of material from protective surface 30 in an approximately outward radial direction, represented by abrasion pattern 32 .
- As turntable 48 rotates disc 20 through at least one revolution, this pattern is reproduced a multiplicity of times over protective surface 30 of disc 20 .
- buffing element 50 does not etch a scratch corresponding to abrasion pattern 32 into protective surface 30 . Rather, abrasion pattern 32 merely describes the path in which buffing element 50 moves on protective surface 30 during the reconditioning process.
- FIG. 4 shows an exploded view of the layers forming buffing element 50 .
- buffing element 50 includes buffing pad 82 , a closed cell foam pad 88 , a first open cell foam pad 90 , a substantially rigid stabilizer plate 92 , and a second open cell foam pad 94 .
- Substantially rigid stabilizer plate 92 includes a first plate surface 96 and a second plate surface 98 .
- First open cell foam pad 90 is coupled to first plate surface 96 and second open cell foam pad 94 is coupled to second plate surface 98 .
- closed cell foam pad 88 is coupled to first open cell foam pad 90 .
- closed cell foam pad 88 , first open cell foam pad 90 , stabilizer plate 92 , and second open cell foam pad 94 form a platform 100 for affixing buffing pad 82 .
- Buffing pad 82 has a first surface 102 and a second surface 104 on opposing sides of buffing pad 82 .
- First surface 102 is configured to face closed cell foam pad 88 .
- First surface 102 includes pressure sensitive adhesive so that buffing pad 82 may be removably adhered to closed cell foam pad 88 .
- Second surface 104 includes abrasive material and is configured to contact and recondition protective surface 30 (FIG. 1) of disc 20 (FIG. 1).
- closed cell foam pad 88 is a silicone based closed cell foam pad.
- a closed cell foam is a type of foam in which the chambers in the foam are not interconnected. As such, closed cell foam typically makes good padding and absorbs little water. Thus, closed cell foam pad 88 resists absorbing the cleaning agent provided by cleaning agent dispenser 84 (FIG. 2).
- a silicone based closed cell foam is advantageous because the silicone surface properties provide a firm skin to attach and detach different pressure sensitive adhesives used on first surface 102 of buffing pad 82 . If other materials are used this ready attachment and detachment may not occur because the pressure sensitive adhesives used on first surface 102 will begin to permanently attach themselves to the other materials. This permanent attachment will shorten the life of buffing element 50 undesirably leading to additional cost in the form of replacement buffing elements.
- the silicone skin surface can be used in a wet environment because it will still allow the attachment of a pressure sensitive backed paper buffing pad 82 .
- This is advantageous when exchanging a current buffing pad 82 for one that has a coarser or finer grit abrasive since even when wet, the silicone skin surface of closed cell foam pad 88 allows the pressure sensitive adhesive to attach securely so that no slippage occurs between buffing pad 82 and closed cell foam pad 88 during operation. Slippage is highly undesirable because wrinkles can be created in buffing pad 82 which causes excessive wear of buffing pad 82 in the area of the wrinkles.
- closed cell foam pad 88 is described in terms of a silicone based closed cell foam material, it should be understood that in an alternative embodiment, a non-silicone based closed cell foam pad having a silicone coated surface may be used. In yet another embodiment, an open cell foam may be used that has been sprayed or coated with silicone to obtain the properties of water resistance and ready attachment and detachment of buffing pads having pressure sensitive adhesive backing.
- silicone based closed cell foam such as that used to form closed cell foam pad 88
- open cell foam such as that used to manufacture first and second open cell foam pads 90 and 94
- First and second open cell foam pads 90 and 92 may be neoprene or some other material that is soft and readily compressed.
- Closed cell foam pad 88 and first open cell foam pad 90 juxtaposed between closed cell foam pad 88 and stabilizer plate 92 , function cooperatively to press against and apply pressure to buffing pad 82 in order to produce a visually appealing finish on disc 20 (FIG. 1).
- first open cell foam pad 90 is described in terms of a soft neoprene foam
- closed cell foam pad 88 is described in terms of a relatively stiff silicone foam, it should be understood that other foam materials may be used to obtain the desired result of final finish or better cut rate.
- Stabilizer plate 92 can be plastic, rubber, fiberglass, metal, or other substantially rigid material with little flex. Stabilizer plate 92 creates a firm non-twisting base upon to attach first open cell foam pad 90 . Stabilizer plate 92 helps reduce wrinkling of buffing pad 82 . In addition, stabilizer plate 92 substantially prevents distortion of buffing element 50 when installing and removing buffing element from platen 64 (FIG. 3) to reduce damage and additional wear on buffing element 50 .
- FIG. 5 shows an exploded view of buffing element 50 being installed on platen 64 of apparatus 46 (FIG. 2).
- Platen 64 includes a center post 106 and two locator pins 108 .
- Platform 100 and buffing pad 82 of buffing element 50 include holes 110 that align with center post 106 and locator pins 108 so that buffing element 50 is installed on platen 64 .
- Locator pins 108 allow accurate location of buffing element 50 onto platen 64 and create resistance again twisting force create by the pressure between buffing element 50 and protective surface 30 (FIG. 1) of disc 20 (FIG. 1).
- second open cell foam pad 94 When buffing element 50 is installed, second open cell foam pad 94 is located between platen 64 and stabilizer plate 92 . As such, second open cell foam pad 94 absorbs vibrations between platen and buffing element 50 so as to reduce chatter and quiet the operation of apparatus 46 (FIG. 2).
- FIG. 6 shows a top view of buffing pad 82 adhered to closed cell foam pad 88 .
- Closed cell foam pad 88 exhibits a first diameter 112 and buffing pad 82 exhibits a second diameter 114 .
- buffing pad 82 includes radial projections 116 , or scallops, along a perimeter 118 of buffing pad 82 .
- FIG. 7 shows an expanded side view of a reconditioned portion of disc 20 .
- Radial projections 116 (FIG. 6) of buffing pad 82 (FIG. 6) are configured to impart a sloped edge 120 on a border between unconditioned portion 38 and conditioned portion 40 of protective surface 30 . That is, radial projections 116 (FIG. 6) function to break up or “feather” the point of contact of buffing pad 82 with protective surface 30 (FIG. 1) so as to prevent the development of abraded ridge 36 (FIG. 1) on protective surface 30 .
- the resulting sloped edge 120 is less likely to cause bending and scattering of laser beam 42 when penetrating the reconditioned disc than that which is caused by abraded ridge 36 (FIG. 1). As such, radial projections 116 effectively restore playability of disc 20 . This is particularly advantageous when reconditioning DVDs since the digital information within data layer 28 (FIG. 1) is much closer together than in conventional compact discs.
- second diameter 114 is less than first diameter 112 .
- First diameter 112 is greater than second diameter 114 so that closed cell foam pad 88 effectively provides support for radial projections 116 in order to prevent premature wear of the abrasive material at radial projections 116 .
- Radial projections 116 are shown as being uniform around perimeter 118 for clarity. However, it should be understood that radial projections need not be uniform. Rather, the depth and the shape of the scallop about perimeter 118 can vary as long as the resulting abrasion pattern resembles sloped edge 120 .
- FIG. 8 shows an exploded view of the layers that form a buffing element 122 in accordance with an alternative embodiment of the present invention.
- Buffing element 122 includes buffing pad 82 , closed cell foam pad 88 , substantially rigid stabilizer plate 92 , and second open cell foam pad 94 , as discussed previously.
- buffing element 122 includes a compression compensating foam pad 124 having a disk-shaped, or discoid, portion 126 and having a ring-shaped, or annular, portion 128 .
- Buffing element 122 is supported by platen 64 (FIG. 3) of apparatus 46 (FIG. 2) and is utilized to remove an amount of material from protective surface 30 (FIG. 1) of disc 20 (FIG. 1).
- Assembly of foam pad 124 entails the insertion of discoid portion 126 into a center region 130 of annular portion 128 so that annular portion 128 encircles and is coupled to a perimeter 132 of discoid portion 126 .
- the configuration of discoid portion 126 and annular portion 128 in foam pad 124 causes buffing pad 82 to impart a substantially uniform buffing force against protective surface 30 (FIG. 1) of digital recording disc 20 (FIG. 1), discussed below. This substantially uniform buffing force is particularly advantageous when retaining and/or restoring the playability of the closely spaced data tracks of DVDs.
- the configuration of buffing element 122 is not limited to reconditioning optically-read digital recording discs.
- buffing element 122 may be adapted for use in abrasive planarizing equipment for imparting a highly polished, planar surface on silicone wafers, fiber optic connector ends, and the like.
- Foam pad 124 is fixed to first plate surface 96 of stabilizer plate 92 and second open cell foam pad 94 is coupled to second plate surface 98 .
- closed cell foam pad 88 is coupled to foam pad 124 .
- closed cell foam pad 88 , compression compensating foam pad 124 , stabilizer plate 92 , and second open cell foam pad 94 form a platform 134 for affixing buffing pad 82 .
- First surface 102 of buffing pad 82 is configured to face foam pad 124 .
- first surface 102 includes pressure sensitive adhesive so that buffing pad 82 may be removably adhered to closed cell foam pad 88 , juxtaposed between buffing element 82 and foam pad 124 .
- the abrasive material on second surface 104 of buffing element subsequently contacts and reconditions protective surface 30 (FIG. 1) of disc 20 (FIG. 1).
- Buffing pad 82 may be generally circular in shape.
- buffing pad 82 may include radial projections 116 , or scallops along perimeter 118 of buffing pad 82 , as discussed in detail in connection with FIG. 6.
- first diameter 112 of closed cell foam pad 88 may be greater than second diameter 114 of buffing pad 82 , also discussed in detail in connection with FIG. 6.
- closed cell foam pad 88 may be a silicone based closed cell foam or a silicone coated closed cell foam configured to resist the absorption of the cleaning agent, such as water, provided by cleaning agent dispenser 84 (FIG. 2). Moreover, the silicone based or silicone coated closed cell foam allows for ready attachment and detachment of an adhesive layer of first surface 102 of buffing pad 82 .
- discoid portion 126 of foam pad 124 is formed from open cell foam and annular portion 128 of foam pad 124 is formed from closed cell foam.
- annular portion 128 may be manufactured from relatively stiff silicone based closed cell foam, such as that used to form closed cell foam pad 88 .
- discoid portion 126 may be manufactured from readily compressible open cell foam, such as the exemplary neoprene used to form second open cell foam pad 94 .
- annular portion 128 is more resistant to compression than discoid portion 126 .
- Discoid portion 126 and annular portion 130 of foam pad 124 function cooperatively to cause closed cell foam pad 88 to press against and apply pressure to buffing pad 82 in a substantially uniform manner.
- discoid portion 126 may have a diameter 134 of 4.25 inches and annular portion 130 may have a width 136 of approximately 0.375 to achieve an overall diameter of foam pad 124 of approximately 5 inches.
- the less compressible, closed cell foam of annular portion 128 compensates for the non-uniform compression of the foam used in prior art foam-backed buffing pads.
- the buffing force imparted against protective surface 30 (FIG. 1) of disc 20 (FIG. 1) is substantially uniform across the surface area of protective surface 30 from center to periphery of disc 20 .
- This substantially uniform buffing force across protective surface 30 results in uniform abrasion of protective surface 20 so that the playability of disc 20 is retained and/or restored following reconditioning.
- foam pad 124 is described in terms of an open cell foam discoid portion 126 and a closed cell foam annular portion 128 , it should be understood that in an alternative embodiment, discoid portion 126 may be manufactured from a first type of closed cell foam, and annular portion 128 may be manufactured from a second type of closed cell foam, the second type of closed cell foam being less compressible than the first type of closed cell foam.
- Both of the first and second types of closed cell foam used to manufacture discoid and annular portions 126 and 128 may be either silicone based or silicone coated.
- Foam pad 124 fabricated from silicone based or silicone coated closed cell foam gains the desirable properties of water resistance and ready attachment and detachment of buffing pads having pressure sensitive adhesive backing. In such a configuration, closed cell foam pad 88 need not be used and buffing pad 82 is removably adhered directly to this alternative embodiment of foam pad 124 .
- FIG. 9 shows an exploded view of the layers that form a buffing element 138 in accordance with another alternative embodiment of the present invention.
- buffing element 138 is supported by platen 64 (FIG. 3) of apparatus 46 (FIG. 2) and is utilized to remove an amount of material from protective surface 30 (FIG. 1) of disc 20 (FIG. 1).
- Buffing element 138 generally includes buffing pad 82 , stabilizer plate 92 , and second open cell foam pad 94 , as discussed previously.
- buffing element 138 includes a compression compensating foam pad 140 having discoid portion 126 and a second discoid portion 144 .
- An annular portion 146 of foam pad 140 is integral to second discoid portion 144 and forms a flange 148 about a perimeter of second discoid portion 144 to establish a cavity 150 , the borders of which are delineated by dashed lines 152 , in second discoid portion 144 .
- Discoid portion 126 mates with cavity 150 . That is, the diameter and thickness of discoid portion 126 is equivalent to the diameter and depth of cavity 150 so that discoid portion 126 can be installed into cavity 150 .
- Foam pad 140 with discoid portion 126 installed in cavity 150 , is fixed to first plate surface 96 of stabilizer plate 92 and second open cell foam pad 94 is coupled to second plate surface 98 . Together, compression compensating foam pad 140 , stabilizer plate 92 , and second open cell foam pad 94 form a platform 154 for affixing buffing pad 82 .
- Second discoid portion 144 is a substitute for closed cell foam pad 88 (FIG. 8) and annular portion 128 (FIG. 8), of buffing element 122 (FIG. 8). Accordingly, second discoid portion 144 , with integral annular portion 146 , is fabricated from silicone based or silicone coated closed cell foam to obtain the advantageous properties of closed cell foam pad 88 . These advantageous properties include water resistance and ready attachment and detachment of buffing pad 82 .
- the closed cell foam of second discoid portion 144 with integral annular portion 146 is more resistant to compression than discoid portion 126 to achieve the advantage of causing buffing pad 82 to impart a substantially uniform buffing force against protective surface 30 (FIG. 1) of disc 20 (FIG. 1), as discussed in connection with buffing element 122 (FIG. 8).
- the present invention is not limited to the configurations of buffing element 122 (FIG. 8) and buffing element 138 (FIG. 9). Rather, other buffing element configurations may be devised that achieve the advantage of imparting a substantially uniform buffing force against a surface to be reconditioned.
- a buffing element that includes a centrally concave foam pad may be employed. In this configuration, the perimeter of the buffing element will compress to become substantially even with the concave central portion of the foam pad during the reconditioning process. As such, compensation for the excessive compression of the foam occurring at the perimeter of the buffing element is achieved and a substantially uniform buffing force is imparted against the surface to be reconditioned.
- the stabilizer plate may be centrally concave while the overlying foam pad is of uniform thickness.
- the perimeter of the stabilizer plate provides compensation for the excessive compression of the foam occurring at the perimeter of the buffing element during the reconditioning process so that again a substantially uniform buffing force is imparted against the surface to be reconditioned.
- the present invention teaches of an apparatus and buffing element that restore both the playback quality and the visual appearance of an optically-read digital recording disc.
- the apparatus includes a timing element that synchronizes the cessation of rotation of the disc and the buffing element to prevent excessive buffing of the protective coating.
- the buffing element is nearly parallel to the protective surface of the disc and positioned so as to buff a large surface area of the protective surface during a reconditioning process without damage to the text band of the disc.
- the buffing element foam structure including a discoid portion and an annular portion, the annular portion being more resistant to compression than the discoid portion, causes the buffing pad of the buffing element to impart a substantially uniform buffing force against the protective surface of the disc to retain and/or restore playback quality of DVDs.
- the scallop pattern of the perimeter of the buffing pad imparts a generally uniform abrasion pattern with a gradual transition between unconditioned and reconditioned portions of the disc.
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Abstract
An apparatus (46) for reconditioning a protective surface (30) of an optically-read digital recording disc (20) includes a turntable (48) configured to receive the disc (20) and a first motor (52) for rotating the turntable (48) and the disc (20). The apparatus further includes a buffing element (122) and a second motor (54) for rotating the buffing element (122). A timing element (56) synchronizes the first and second motors (52, 54) to substantially simultaneously cease rotation of the turntable (48) and the buffing element (122) following removal of an amount of material from the disc (20). The buffing element (122) includes a foam pad (124) having a discoid portion (126) and an annular portion (128) encircling a perimeter (132) of the discoid portion (126). The annular portion (128) is more resistant to compression than the discoid portion (126). A buffing pad (82) is in fixed relation with the foam pad (124). The discoid portion (126) and the annular portion (128) are configured to cause the buffing pad (82) to impart a substantially uniform buffing force against the protective surface (30) of the disc (20) to uniformly recondition the protective surface (30).
Description
- The present invention is a continuation in part (CIP) of “Apparatus and Buffing Element for Reconditioning Digital Recording Discs,” U.S. patent application Ser. No. 09/754,676, filed Jan. 3, 2001, which is incorporated by reference herein.
- The present invention is related to:
- “Method and Apparatus for Reconditioning Digital Recording Discs,” by Jason Bauer, U.S. Pat. No. 5,954,566, filed Sep. 21, 1999, and incorporated by reference herein.
- The present invention relates generally to optically-read digital recording discs. More specifically, the present invention relates to reconditioning the protective surface of digital recording discs.
- Optically-read digital recording discs, including compact discs (CDs), digital versatile discs (DVDs), CD-ROMs, recordable CDs (CD-Rs), re-writable CDs (CD-RWs), and the like, are widely used to store different types of information. Digital recording discs may be formatted for use with audio, video, or computer equipment that reads the data recorded on the discs. The technology associated with digital discs and digital playback equipment is well known to those skilled in the art. Basically, digital information is encoded and arranged in spiral data tracks within the disc beneath an optically transparent protective layer, or surface, of plastic. A laser beam reads the digital information during playback, and the information is then processed and presented to the user in the form of sound, visual images, or computer data.
- The optically transparent protective surface forms the bulk of the thickness and weight of the disc. Generally, the protective surface protects the data layer from damage on the play side. In addition, the protective surface acts as a transparent substrate to support the data layer of the disc. Damage or surface imperfections located on the transparent protective surface can interfere with the laser beam before it reaches the data layer. Although modern playback devices include error correction techniques, this interference can prevent the player from reading the data correctly, or at all, resulting in audible problems, even though the data layer itself is undamaged. Due to the high cost of digital discs, it is desirable to repair such damaged discs rather than replace them.
- In recent years, the disc reclamation industry has prospered due to the widespread use and longevity of digital recording discs. However, many used discs cannot be resold because scratches on the protective surface render them unplayable or visually unappealing. Consequently, to improve disc playability and visual appeal, various methods for treating the surface of a CD have been developed. However, these prior art methods suffer from several disadvantages.
- One known process for reconditioning digital recording discs involves a motorized apparatus having a buffing surface that abrades the protective surface in a generally uniform manner across the surface area of the disc. While this method may effectively repair the protective surface of some discs, it can leave fine abrasions on other discs so that visual appeal is not restored. Moreover, the fine abrasions can fall into alignment with the spiral data track or otherwise affect the optical tracking quality of the treated disc so that playability is not restored.
- Another problem with prior art disc reconditioning devices is that they can leave a ridge-like abrasion pattern. That is, following reconditioning there is a sudden, or stepwise, change between the thickness of an unconditioned portion of the protective surface and a reconditioned portion of the protective surface. A laser beam passing through this sharp demarcation may be undesirably bent or scattered so that the underlying data track or tracks cannot be detected by the playback equipment.
- The inability to restore playability may be exacerbated when reconditioning DVDs. DVD playback equipment employs a shorter wavelength laser than the other digital playback equipment. This DVD laser is capable of reading data tracks that are smaller and closer together than the data tracks that can be read by the conventional laser in CD players or CD-ROM drives. Because DVD data tracks are closer together, more of them can fit on a disc of the same size. Consequently, DVDs can hold about seven times as much data as an audio CD or a CD-ROM. Unfortunately, fine abrasions remaining on the DVD following reconditioning can adversely affect the playability of the more closely spaced DVD data tracks.
- In addition, a non-uniform abrasion of the protective surface of the DVD can adversely affect the playability of the DVD data tracks following reconditioning. Non-uniform abrasion of the protective surface can occur when polishing DVDs using a motorized apparatus that rotates a foam-backed buffing pad. In particular, as the foam-backed buffing pad presses against the protective surface of the DVD, the periphery of the buffing pad compresses more than the central portion of the buffing pad. Such a situation happens because the foam surrounding the central portion of the foam-backed buffing pad supports the central portion so that it is more resistant to compression than the peripheral portion of the foam-backed buffing pad. The resistance to compression produces a greater buffing force against the central portion of the DVD than the buffing force against the peripheral portion of the DVD. Accordingly, this non-uniform buffing force can result in more abrasion at the central portion of the protective surface than at the peripheral portion of the protective surface to adversely affect the playability of the closely-spaced DVD data tracks.
- Another result of the different laser in the DVD playback equipment is that the clear protective surface only needs to be about half as thick for a DVD as it does for an audio CD or CD-ROM. Hence, two DVDs can be placed back to back, resulting in two play sides and no label side, thereby further doubling the data capacity of a DVD. Since there is no label side, all manufacturer's identification for the DVD is screen printed onto the narrow text band just outside of the clamping area, or stacking ring, of the DVD.
- If a motorized reconditioning apparatus buffs the text band, the manufacturer's identification will be undesirably abraded off leaving the DVD indistinguishable from other unmarked DVDs. This is highly undesirable when the DVDs are to be resold. Such a situation is also undesirable when the DVDs are used in a rental establishment because without the manufacturer's identification on the text band, the DVDs can be easily confused with one another. Thus, there is a need for a disc reconditioning apparatus that abrades the protective surface in uniform manner across the surface area of the disc without damaging the text band on the digital recording disc.
- Accordingly, it is an advantage of the present invention that an apparatus and buffing element are provided that restore both the playback quality and the visual appearance of an optically-read digital recording disc.
- It is another advantage of the present invention that the apparatus and buffing element effectively recondition the protective surface of the disc without causing damage to the text band.
- It is another advantage of the present invention that the buffing element imparts a substantially uniform buffing force against the protective surface of the disc.
- It is yet another advantage of the present invention that the buffing element of the present invention produces an abrasion pattern with a gradual transition between unconditioned and reconditioned portions of the disc.
- The above and other advantages of the present invention are carried out in one form by a buffing element in an apparatus for reconditioning a protective surface of an optically-read digital recording disc. The buffing element includes a foam pad having a discoid portion and an annular portion encircling a perimeter of the discoid portion, the annular portion being more resistant to compression than the discoid portion. A buffing pad is in fixed relation with the foam pad. The buffing pad has first and second surfaces on opposing sides of the buffing pad. The first surface is configured to face the foam pad, and the second surface is configured to contact and recondition the protective surface of the digital recording disc.
- The above and other advantages of the present invention are carried out in another form by an apparatus for reconditioning a protective surface of an optically-read digital recording disc. The apparatus includes a turntable configured to receive a center section of the optically-read disc, the center section being located about a center hole of the optically-read disc. A first motor is coupled to the turntable and rotates the turntable and the optically-read disc at a first rotational speed. The apparatus further includes a buffing element for removing an amount of material from the protective surface as the turntable rotates the optically-read disc through at least one revolution. The buffing element includes a substantially rigid stabilizer plate having a plate surface. A first foam pad is fixedly engaged with the plate surface. The first foam pad has a discoid portion and an annular portion encircling a perimeter of the discoid portion, and the annular portion is more resistant to compression than the discoid portion. The buffing element further includes a second foam pad formed from closed cell foam and coupled to the first foam pad, and a buffing pad having first and second surfaces on opposing sides of the buffing pad. The first surface is configured to removably adhere to the second foam pad, and the second surface is configured to recondition the protective surface of the digital recording disc. A second motor is coupled to the buffing element and rotates the buffing element at a second rotational speed. A timing element, in communication with each of the first and second motors, synchronizes the first and second motors to substantially simultaneously cease rotation of the turntable and the buffing element following removal of the amount of material.
- A more complete understanding of the present invention may be derived by referring to the detailed description and claims when considered in connection with the Figures, wherein like reference numbers refer to similar items throughout the Figures, and:
- FIG. 1 shows a diagram of an optically-read digital recording disc;
- FIG. 2 shows a perspective view of an apparatus for reconditioning protective surface of an optically-read digital recording disc;
- FIG. 3 shows a side view of a turntable and a buffing element of the apparatus of FIG. 2 aligned to recondition a digital recording disc;
- FIG. 4 shows an exploded view of the layers that form the buffing element of FIG. 3;
- FIG. 5 shows an exploded view of the buffing element being installed on a platen of the apparatus of FIG. 2;
- FIG. 6 shows a top view of the buffing pad adhered to the buffing element;
- FIG. 7 shows an expanded side view of a reconditioned portion of the digital recording disc;
- FIG. 8 shows an exploded view of the layers that form a buffing element in accordance with an alternative embodiment of the present invention; and
- FIG. 9 shows an exploded view of the layers that form a buffing element in accordance with another alternative embodiment of the present invention.
- FIG. 1 shows a diagram of an optically-read
digital recording disc 20. Optically-readdigital recording disc 20 generally includes a center section, or clampingarea 22, located about acenter hole 24 ofdisc 20. Surrounding clampingarea 22 is anarrow text band 26 typically used to identify the manufacturer. Clampingarea 22 andtext band 26 to not contain encoded data. Adata layer 28 lies outside oftext band 26.Data layer 28 is arranged in spiral tracks and is covered by aprotective surface 30.Disc 20 is shown with a portion ofprotective surface 30 removed to show the underlying spiral arrangeddata layer 28. Anabrasion pattern 32 created in accordance with a disc reconditioning apparatus is shown onprotective surface 30 and will be described in detail below. - When
disc 20 is a music compact disc (CD), the first band ofdata layer 28 closest to textband 26, called the “lead-in”, contains the table of contents for the CD. The lead-in tells the CD playback equipment how to navigate arounddisc 20. Scratches or other damage in this area can renderdisc 20 completely unplayable. In a music CD, the song tracks ofdata layer 28 begin just outside the lead-in. Damage todisc 20 in an area of data outside the lead-in usually affects only the music that is contained in that area. However, with more severe damage the CD playback equipment can sometimes “lock up” on the damaged area so that the laser cannot detect later song tracks. - In general, when
disc 20 is undamaged, the laser beam of the disc playback equipment entersdisc 20 on the play side, travels throughprotective surface 30, picks up information fromdata layer 28, and bounces off a reflective coating on the back side ofdata layer 28. The reflected laser beam then travels back throughprotective surface 30, out ofdisc 20, and into a “detector”. The detector then helps the CD player convert the information carried by the laser into sound, video, and/or data. - An expanded
side view 34 of a portion ofdisc 20 represents an exemplary abradedridge 36 imparted ondisc 20 by a prior art disc reconditioning apparatus (not shown). Expandedside view 34 shows anunconditioned portion 38 and a reconditionedportion 40 ofdisc 20. As shown in expandedside view 34, a reconditioning process using the prior art reconditioning apparatus imparts abradedridge 36 between unconditioned and reconditionedportions laser beam 42 enteringdisc 20 throughridge 36 can be undesirably bent or scattered, as represented by dashed lines 44, so that theunderlying data layer 28 cannot be accurately detected by the playback equipment. - The present invention reconditions
protective surface 30 ofdisc 20 to remove scratches or other surface imperfections that might otherwise renderdisc 20 unplayable or visually unappealing. In addition, the present invention reconditionsdisc 20 outside oftext band 26, as represented byabrasion pattern 32, to prevent damage to the manufacturer's identification withintext band 26. Furthermore, the present invention removes scratches and other surface imperfections without impartingabrasion ridge 36 ontoprotective surface 30. - Although
disc 20 is generally described as a music CD, it should be understood that optically-readdigital recording disc 20 may alternatively be compact disc read-only memory (CD-ROM), a Digital Versatile Disc (DVD), recordable CD (CD-R), and Re-writable CDs (CD-RW), and the like. All of the above listed discs are optical discs that are read with a laser in the fashion described above. The primary difference between the above listed discs is in how the data is encoded indata layer 28 and what is done with that data by the player, drive, or other device used to read it. - Referring to FIGS. 2 and 3, FIG. 2 shows a perspective view of an
apparatus 46 for reconditioning protective surface 30 (FIG. 1) of optically-read digital recording disc 20 (FIG. 1). FIG. 3 shows a side view of aturntable 48 and a buffingelement 50 aligned to reconditiondigital recording disc 20 inapparatus 34.Apparatus 46 is an abrasive planarizing apparatus. That is,apparatus 46 abrades a surface, such asprotective surface 30, to a flat, or planar, finish in order to retain or restore the appearance and playability ofdisc 20. -
Apparatus 46 generally includesturntable 48 and aturntable motor 52 coupled toturntable 48 for rotatingturntable 48 at a first rotational speed. Apparatus also generally includes buffingelement 50, a buffingelement motor 54 coupled to buffingelement 50 for rotating buffingelement 50 at a second rotational speed, and atiming element 56 coupled to each ofturntable motor 52 and buffingelement motor 60. -
Turntable 48 is configured to support and rotatedisc 20 during a reconditioning process.Turntable 48 is preferably formed from a rigid material such as aluminum.Turntable 48 has anupper surface 57 configured to receive clamping area 22 (FIG. 1) located about center hole 24 (FIG. 1) ofdisc 20. Desirably,turntable 48 is sized so that it contacts and covers most ofnon-data clamping area 22.Upper surface 57 includes aspindle 58 configured to receivecenter hole 24 ofdisc 20.Spindle 58 functions to centrally position clampingarea 22 ofdisc 20 during the reconditioning process. - In operation,
disc 20 is positioned onspindle 58 ofturntable 48 so that protective surface 30 (FIG. 1) facesturntable 48.Apparatus 46 may optionally include awasher 60 that is positioned overdisc 20.Washer 60 is configured to limit flexion ofdisc 20 during the reconditioning process.Washer 60 is preferably formed from a rigid or at least semi-rigid material, such as plastic or aluminum. - A
retainer 62 attaches to spindle 58 and retainswasher 60 anddisc 20 onspindle 58 ofturntable 48.Retainer 62 may be a threaded screw which mates with threads onspindle 58. The relatively large surface area contact between the clampingarea 22 andupper surface 57 ofturntable 48 and the retention capability ofretainer 62 substantially preventdisc 20 from slipping onturntable 48 when force is applied toprotective surface 30 ofdisc 20 during rotation. Those skilled in the art will recognize that there may be other components that can effectively attachretainer 62 tospindle 58. For example,retainer 62 may include a quick-release locking pin mechanism for rapid engagement or disengagement tospindle 58. - A
platen 64supports buffing element 50 during the reconditioning process.Platen 64 is coupled to buffingelement motor 54 via ashaft 66. Desirably,platen 64 is sized so that it contacts and supports most of anon-buffing surface 68 of buffingelement 50. In addition, platen 64 functions to centrally position and retain buffingelement 50 during the reconditioning process. -
Buffing element 50 is oriented nearly perpendicular to an axis ofrotation 70 ofshaft 66. In addition, axis ofrotation 70 ofshaft 66 is nearly parallel to an axis ofrotation 72 ofspindle 58. For example, axis ofrotation 70 may be tilted about one degree from axis ofrotation 72. This nearly parallel alignment ofaxes element 50 contacting and buffingprotective surface 30 during a reconditioning process. Consequently,protective surface 30 is buffed in a generally uniform manner across the surface area ofdisc 20. -
Buffing element motor 54 is oriented along axis ofrotation 70 by mounting arear end 74 of buffingelement motor 54 to a first end 76 of a buffingelement support 78. Buffingelement support 78 may include a pivoting adjuster 80 for adjusting buffingelement 50 to produce nearly parallel alignment of axis ofrotation 70 ofshaft 66 with axis of rotation ofspindle 58. Following alignment, pivoting adjuster 80 is locked into position. Of course, those skilled in the art will recognize that there are other adjustment schemes which may be employed to produce this nearly parallel alignment. For example, adjustment screws located between buffingelement motor 54 and buffingelement 50 may be used to adjust buffingelement 50 relative to buffingelement motor 54. - In the preferred embodiment of
apparatus 46,protective surface 30 ofdisc 20 is directed in a downwardposition facing turntable 48, and with only clampingarea 22 contactingupper surface 57 ofturntable 48. Buffingelement 50 includes a planar buffing paper, or buffingpad 82. Buffingpad 82 is directed in an upward position belowdisc 20 such that a portion ofplanar buffing pad 82 contactsprotective surface 30 outside of text band 26 (FIG. 1) as represented by abrasion pattern 32 (FIG. 1). - The orientation of buffing
pad 82 belowdisc 20 allowsdisc 20 to be installed and removed fromspindle 58 quickly and efficiently. Those skilled in the art will recognize thatdisc 20 and buffingelement 50 may be oriented in other positions, such as sideways, or upside down from the preferred embodiment ofapparatus 46, as long as buffingelement 50 continues to faceprotective surface 30. - Timing
element 56 is set to synchronize turntable and buffingelement motors turntable 48 and buffingelement 50. In a system that does not include this synchronization,turntable 48 anddisc 20 will cease rotating prior to buffingelement 50 due to the difference in the rotational speeds betweenturntable 48 and buffingelement 50. This can cause excessive buffing in a limited region ofprotective surface 30 of thenon-rotating disc 20 relative to the remaining area ofprotective surface 30. An excessively buffed area creates an unbalanced disc. An unbalanced disc (which can spin at rotational speeds of up to 500 RPM during playback) may cause beam focusing problems, vibrations, and signal distortion during playback. - In an exemplary embodiment, buffing
element motor 54 rotates buffingelement 50 at a first rotational speed of approximately 1000-3400 revolutions per minute (RPM). In contrast,turntable motor 52 rotatesturntable 48 at a second rotational speed of approximately 20-30 RPM. Timingelement 56 imparts a time delay onturntable motor 52 so thatturntable 48 anddisc 20 continue spinning slightly longer than buffingelement 50. A time delay of approximately onesecond causes turntable 48 and buffingelement 50 to ramp down and cease rotating substantially simultaneously, thus avoiding the formation of the excessively buffed region discussed above. - The rotational speeds of buffing
element 50 andturntable 48cause apparatus 46 to remove a substantially uniform amount of material fromprotective surface 30 in a time efficient manner so thatdisc 20 doesn't get too hot. Excessive heat build-up ondisc 20 may damagedisc 20 so that laser beam 42 (FIG. 1) is unable to focus on data layer 28 (FIG. 1). In addition, apparatus may include acleaning agent dispenser 84 locatedproximate turntable 48. -
Cleaning agent dispenser 84 dispenses a controlled amount of a cleaning agent todisc 20 to cooldisc 20 and to facilitate the removal of waste material fromprotective surface 30. The cleaning agent may be water for rinsing away the waste material produced by the reconditioning process. Thus,apparatus 46 may include acollection receptacle 86 locatedproximate turntable 48 for collecting waste material washed off ofprotective surface 30 by the water. Those skilled in the art will recognize that other cleaning agents may be used. For example, the cleaning agent may be air blown overprotective surface 30 to remove the waste material. - The reconditioning process of
apparatus 46causes buffing element 50 to contact and buffprotective surface 30 along a path. The path is represented byabrasion pattern 32 in the view depicted in FIG. 1. Buffingelement 50 rotates in a substantially outward radial direction with respect toturntable 48. Thus, buffingelement 50 removes an amount of material fromprotective surface 30 in an approximately outward radial direction, represented byabrasion pattern 32. Asturntable 48 rotatesdisc 20 through at least one revolution, this pattern is reproduced a multiplicity of times overprotective surface 30 ofdisc 20. It should be readily apparent to those skilled in the art that buffingelement 50 does not etch a scratch corresponding toabrasion pattern 32 intoprotective surface 30. Rather,abrasion pattern 32 merely describes the path in which buffingelement 50 moves onprotective surface 30 during the reconditioning process. - The slight tilt of axis of
rotation 70 ofshaft 66 relative to axis ofrotation 72 ofspindle 58, and the rotation of buffingelement 50 in the substantially outward radial direction, cause the waste material produced by the reconditioning process to be ejected away fromprotective surface 30. The waste material is then washed away by the cleaning agent dispensed by cleaningagent dispenser 84, thus limiting the undesirable heating ofdisc 20 while effectively reconditioningprotective surface 30. - FIG. 4 shows an exploded view of the layers forming buffing
element 50. In a preferred embodiment, buffingelement 50 includes buffingpad 82, a closedcell foam pad 88, a first opencell foam pad 90, a substantiallyrigid stabilizer plate 92, and a second opencell foam pad 94. - Substantially
rigid stabilizer plate 92 includes afirst plate surface 96 and asecond plate surface 98. First opencell foam pad 90 is coupled tofirst plate surface 96 and second opencell foam pad 94 is coupled tosecond plate surface 98. In addition, closedcell foam pad 88 is coupled to first opencell foam pad 90. Together, closedcell foam pad 88, first opencell foam pad 90,stabilizer plate 92, and second opencell foam pad 94 form aplatform 100 for affixingbuffing pad 82. -
Buffing pad 82 has a first surface 102 and asecond surface 104 on opposing sides of buffingpad 82. First surface 102 is configured to face closedcell foam pad 88. First surface 102 includes pressure sensitive adhesive so that buffingpad 82 may be removably adhered to closedcell foam pad 88.Second surface 104 includes abrasive material and is configured to contact and recondition protective surface 30 (FIG. 1) of disc 20 (FIG. 1). - In a preferred embodiment, closed
cell foam pad 88 is a silicone based closed cell foam pad. A closed cell foam is a type of foam in which the chambers in the foam are not interconnected. As such, closed cell foam typically makes good padding and absorbs little water. Thus, closedcell foam pad 88 resists absorbing the cleaning agent provided by cleaning agent dispenser 84 (FIG. 2). - In addition, a silicone based closed cell foam is advantageous because the silicone surface properties provide a firm skin to attach and detach different pressure sensitive adhesives used on first surface102 of buffing
pad 82. If other materials are used this ready attachment and detachment may not occur because the pressure sensitive adhesives used on first surface 102 will begin to permanently attach themselves to the other materials. This permanent attachment will shorten the life of buffingelement 50 undesirably leading to additional cost in the form of replacement buffing elements. - Furthermore, the silicone skin surface can be used in a wet environment because it will still allow the attachment of a pressure sensitive backed
paper buffing pad 82. This is advantageous when exchanging acurrent buffing pad 82 for one that has a coarser or finer grit abrasive since even when wet, the silicone skin surface of closedcell foam pad 88 allows the pressure sensitive adhesive to attach securely so that no slippage occurs between buffingpad 82 and closedcell foam pad 88 during operation. Slippage is highly undesirable because wrinkles can be created in buffingpad 82 which causes excessive wear of buffingpad 82 in the area of the wrinkles. - Although closed
cell foam pad 88 is described in terms of a silicone based closed cell foam material, it should be understood that in an alternative embodiment, a non-silicone based closed cell foam pad having a silicone coated surface may be used. In yet another embodiment, an open cell foam may be used that has been sprayed or coated with silicone to obtain the properties of water resistance and ready attachment and detachment of buffing pads having pressure sensitive adhesive backing. - Typically, silicone based closed cell foam, such as that used to form closed
cell foam pad 88, is relatively stiff to compress. In contrast, open cell foam, such as that used to manufacture first and second opencell foam pads cell foam pads cell foam pad 88 and first opencell foam pad 90, juxtaposed between closedcell foam pad 88 andstabilizer plate 92, function cooperatively to press against and apply pressure to buffingpad 82 in order to produce a visually appealing finish on disc 20 (FIG. 1). - In general, a
softer buffing element 50 leads to a better final finish. Whereas, aharder buffing element 50 leads to better cut rate for faster material removal. Thus, although first opencell foam pad 90 is described in terms of a soft neoprene foam, and closedcell foam pad 88 is described in terms of a relatively stiff silicone foam, it should be understood that other foam materials may be used to obtain the desired result of final finish or better cut rate. -
Stabilizer plate 92 can be plastic, rubber, fiberglass, metal, or other substantially rigid material with little flex.Stabilizer plate 92 creates a firm non-twisting base upon to attach first opencell foam pad 90.Stabilizer plate 92 helps reduce wrinkling of buffingpad 82. In addition,stabilizer plate 92 substantially prevents distortion of buffingelement 50 when installing and removing buffing element from platen 64 (FIG. 3) to reduce damage and additional wear on buffingelement 50. - FIG. 5 shows an exploded view of buffing
element 50 being installed onplaten 64 of apparatus 46 (FIG. 2).Platen 64 includes acenter post 106 and two locator pins 108.Platform 100 and buffingpad 82 of buffingelement 50 includeholes 110 that align withcenter post 106 and locator pins 108 so that buffingelement 50 is installed onplaten 64. Locator pins 108 allow accurate location of buffingelement 50 ontoplaten 64 and create resistance again twisting force create by the pressure between buffingelement 50 and protective surface 30 (FIG. 1) of disc 20 (FIG. 1). - When buffing
element 50 is installed, second opencell foam pad 94 is located betweenplaten 64 andstabilizer plate 92. As such, second opencell foam pad 94 absorbs vibrations between platen and buffingelement 50 so as to reduce chatter and quiet the operation of apparatus 46 (FIG. 2). - Referring to FIG. 6 in connection with FIG. 5, FIG. 6 shows a top view of buffing
pad 82 adhered to closedcell foam pad 88. Closedcell foam pad 88 exhibits afirst diameter 112 and buffingpad 82 exhibits asecond diameter 114. In addition, buffingpad 82 includesradial projections 116, or scallops, along aperimeter 118 of buffingpad 82. - FIG. 7 shows an expanded side view of a reconditioned portion of
disc 20. Radial projections 116 (FIG. 6) of buffing pad 82 (FIG. 6) are configured to impart asloped edge 120 on a border betweenunconditioned portion 38 and conditionedportion 40 ofprotective surface 30. That is, radial projections 116 (FIG. 6) function to break up or “feather” the point of contact of buffingpad 82 with protective surface 30 (FIG. 1) so as to prevent the development of abraded ridge 36 (FIG. 1) onprotective surface 30. The resulting slopededge 120 is less likely to cause bending and scattering oflaser beam 42 when penetrating the reconditioned disc than that which is caused by abraded ridge 36 (FIG. 1). As such,radial projections 116 effectively restore playability ofdisc 20. This is particularly advantageous when reconditioning DVDs since the digital information within data layer 28 (FIG. 1) is much closer together than in conventional compact discs. - In a preferred embodiment,
second diameter 114 is less thanfirst diameter 112.First diameter 112 is greater thansecond diameter 114 so that closedcell foam pad 88 effectively provides support forradial projections 116 in order to prevent premature wear of the abrasive material atradial projections 116. -
Radial projections 116 are shown as being uniform aroundperimeter 118 for clarity. However, it should be understood that radial projections need not be uniform. Rather, the depth and the shape of the scallop aboutperimeter 118 can vary as long as the resulting abrasion pattern resembles slopededge 120. - FIG. 8 shows an exploded view of the layers that form a
buffing element 122 in accordance with an alternative embodiment of the present invention. Buffingelement 122 includes buffingpad 82, closedcell foam pad 88, substantiallyrigid stabilizer plate 92, and second opencell foam pad 94, as discussed previously. In addition, buffingelement 122 includes a compression compensatingfoam pad 124 having a disk-shaped, or discoid,portion 126 and having a ring-shaped, or annular, portion 128. Buffingelement 122 is supported by platen 64 (FIG. 3) of apparatus 46 (FIG. 2) and is utilized to remove an amount of material from protective surface 30 (FIG. 1) of disc 20 (FIG. 1). - Assembly of
foam pad 124 entails the insertion ofdiscoid portion 126 into acenter region 130 of annular portion 128 so that annular portion 128 encircles and is coupled to aperimeter 132 ofdiscoid portion 126. The configuration ofdiscoid portion 126 and annular portion 128 infoam pad 124causes buffing pad 82 to impart a substantially uniform buffing force against protective surface 30 (FIG. 1) of digital recording disc 20 (FIG. 1), discussed below. This substantially uniform buffing force is particularly advantageous when retaining and/or restoring the playability of the closely spaced data tracks of DVDs. The configuration of buffingelement 122 is not limited to reconditioning optically-read digital recording discs. In addition, buffingelement 122 may be adapted for use in abrasive planarizing equipment for imparting a highly polished, planar surface on silicone wafers, fiber optic connector ends, and the like. -
Foam pad 124 is fixed tofirst plate surface 96 ofstabilizer plate 92 and second opencell foam pad 94 is coupled tosecond plate surface 98. In addition, closedcell foam pad 88 is coupled tofoam pad 124. Together, closedcell foam pad 88, compression compensatingfoam pad 124,stabilizer plate 92, and second opencell foam pad 94 form aplatform 134 for affixingbuffing pad 82. - First surface102 of buffing
pad 82 is configured to facefoam pad 124. In particular, first surface 102 includes pressure sensitive adhesive so that buffingpad 82 may be removably adhered to closedcell foam pad 88, juxtaposed between buffingelement 82 andfoam pad 124. The abrasive material onsecond surface 104 of buffing element subsequently contacts and reconditions protective surface 30 (FIG. 1) of disc 20 (FIG. 1). -
Buffing pad 82 may be generally circular in shape. Alternatively, buffingpad 82 may includeradial projections 116, or scallops alongperimeter 118 of buffingpad 82, as discussed in detail in connection with FIG. 6. Likewise,first diameter 112 of closedcell foam pad 88 may be greater thansecond diameter 114 of buffingpad 82, also discussed in detail in connection with FIG. 6. - As discussed in connection with buffing element50 (FIG. 4), closed
cell foam pad 88 may be a silicone based closed cell foam or a silicone coated closed cell foam configured to resist the absorption of the cleaning agent, such as water, provided by cleaning agent dispenser 84 (FIG. 2). Moreover, the silicone based or silicone coated closed cell foam allows for ready attachment and detachment of an adhesive layer of first surface 102 of buffingpad 82. - In a preferred embodiment,
discoid portion 126 offoam pad 124 is formed from open cell foam and annular portion 128 offoam pad 124 is formed from closed cell foam. For example, annular portion 128 may be manufactured from relatively stiff silicone based closed cell foam, such as that used to form closedcell foam pad 88. Likewise,discoid portion 126 may be manufactured from readily compressible open cell foam, such as the exemplary neoprene used to form second opencell foam pad 94. Thus, annular portion 128 is more resistant to compression thandiscoid portion 126. -
Discoid portion 126 andannular portion 130 offoam pad 124 function cooperatively to cause closedcell foam pad 88 to press against and apply pressure to buffingpad 82 in a substantially uniform manner. By way of example,discoid portion 126 may have adiameter 134 of 4.25 inches andannular portion 130 may have awidth 136 of approximately 0.375 to achieve an overall diameter offoam pad 124 of approximately 5 inches. - The less compressible, closed cell foam of annular portion128 compensates for the non-uniform compression of the foam used in prior art foam-backed buffing pads. As such, the buffing force imparted against protective surface 30 (FIG. 1) of disc 20 (FIG. 1) is substantially uniform across the surface area of
protective surface 30 from center to periphery ofdisc 20. This substantially uniform buffing force acrossprotective surface 30 results in uniform abrasion ofprotective surface 20 so that the playability ofdisc 20 is retained and/or restored following reconditioning. - Although
foam pad 124 is described in terms of an open cell foamdiscoid portion 126 and a closed cell foam annular portion 128, it should be understood that in an alternative embodiment,discoid portion 126 may be manufactured from a first type of closed cell foam, and annular portion 128 may be manufactured from a second type of closed cell foam, the second type of closed cell foam being less compressible than the first type of closed cell foam. Both of the first and second types of closed cell foam used to manufacture discoid andannular portions 126 and 128, respectively, may be either silicone based or silicone coated.Foam pad 124 fabricated from silicone based or silicone coated closed cell foam gains the desirable properties of water resistance and ready attachment and detachment of buffing pads having pressure sensitive adhesive backing. In such a configuration, closedcell foam pad 88 need not be used and buffingpad 82 is removably adhered directly to this alternative embodiment offoam pad 124. - FIG. 9 shows an exploded view of the layers that form a
buffing element 138 in accordance with another alternative embodiment of the present invention. Like buffingelement 122, buffingelement 138 is supported by platen 64 (FIG. 3) of apparatus 46 (FIG. 2) and is utilized to remove an amount of material from protective surface 30 (FIG. 1) of disc 20 (FIG. 1). Buffingelement 138 generally includes buffingpad 82,stabilizer plate 92, and second opencell foam pad 94, as discussed previously. - In addition, buffing
element 138 includes a compression compensatingfoam pad 140 havingdiscoid portion 126 and a seconddiscoid portion 144. Anannular portion 146 offoam pad 140 is integral to seconddiscoid portion 144 and forms aflange 148 about a perimeter of seconddiscoid portion 144 to establish acavity 150, the borders of which are delineated by dashedlines 152, in seconddiscoid portion 144.Discoid portion 126 mates withcavity 150. That is, the diameter and thickness ofdiscoid portion 126 is equivalent to the diameter and depth ofcavity 150 so thatdiscoid portion 126 can be installed intocavity 150. -
Foam pad 140, withdiscoid portion 126 installed incavity 150, is fixed tofirst plate surface 96 ofstabilizer plate 92 and second opencell foam pad 94 is coupled tosecond plate surface 98. Together, compression compensatingfoam pad 140,stabilizer plate 92, and second opencell foam pad 94 form aplatform 154 for affixingbuffing pad 82. - Second
discoid portion 144, with integralannular portion 146, is a substitute for closed cell foam pad 88 (FIG. 8) and annular portion 128 (FIG. 8), of buffing element 122 (FIG. 8). Accordingly, seconddiscoid portion 144, with integralannular portion 146, is fabricated from silicone based or silicone coated closed cell foam to obtain the advantageous properties of closedcell foam pad 88. These advantageous properties include water resistance and ready attachment and detachment of buffingpad 82. - In addition, the closed cell foam of second
discoid portion 144 with integralannular portion 146 is more resistant to compression thandiscoid portion 126 to achieve the advantage of causing buffingpad 82 to impart a substantially uniform buffing force against protective surface 30 (FIG. 1) of disc 20 (FIG. 1), as discussed in connection with buffing element 122 (FIG. 8). - The present invention is not limited to the configurations of buffing element122 (FIG. 8) and buffing element 138 (FIG. 9). Rather, other buffing element configurations may be devised that achieve the advantage of imparting a substantially uniform buffing force against a surface to be reconditioned. For example, a buffing element that includes a centrally concave foam pad may be employed. In this configuration, the perimeter of the buffing element will compress to become substantially even with the concave central portion of the foam pad during the reconditioning process. As such, compensation for the excessive compression of the foam occurring at the perimeter of the buffing element is achieved and a substantially uniform buffing force is imparted against the surface to be reconditioned.
- In yet another configuration, the stabilizer plate may be centrally concave while the overlying foam pad is of uniform thickness. The perimeter of the stabilizer plate provides compensation for the excessive compression of the foam occurring at the perimeter of the buffing element during the reconditioning process so that again a substantially uniform buffing force is imparted against the surface to be reconditioned.
- In summary, the present invention teaches of an apparatus and buffing element that restore both the playback quality and the visual appearance of an optically-read digital recording disc. The apparatus includes a timing element that synchronizes the cessation of rotation of the disc and the buffing element to prevent excessive buffing of the protective coating. In addition, the buffing element is nearly parallel to the protective surface of the disc and positioned so as to buff a large surface area of the protective surface during a reconditioning process without damage to the text band of the disc. Moreover, the buffing element foam structure including a discoid portion and an annular portion, the annular portion being more resistant to compression than the discoid portion, causes the buffing pad of the buffing element to impart a substantially uniform buffing force against the protective surface of the disc to retain and/or restore playback quality of DVDs. As further aid in the restoration of playback quality, the scallop pattern of the perimeter of the buffing pad imparts a generally uniform abrasion pattern with a gradual transition between unconditioned and reconditioned portions of the disc. The use of the silicone based closed cell foam for removable adherence of buffing pads and the rigid stabilizer plate results in a cost effective and durable buffing element.
- Although the preferred embodiments of the invention have been illustrated and described in detail, it will be readily apparent to those skilled in the art that various modifications may be made therein without departing from the spirit of the invention or from the scope of the appended claims. For example, open cell foam pads having the properties of uniform compression characteristics, resistance to water, and ready adhesion and removal of pressure sensitive adhesives may be substituted for the closed cell foam pad and the compression compensating foam pad juxtaposed between the stabilizer plate and the buffing pad. In addition, the buffing element may be adapted for use in other buffing or polishing applications, such as on the finish of a vehicle, on plastic or fiberglass surfaces, and so forth.
Claims (20)
1. In an abrasive planarizing apparatus, a buffing element for reconditioning a work surface comprising:
a foam pad having a discoid portion and an annular portion encircling a perimeter of said discoid portion, said annular portion being more resistant to compression than said discoid portion; and
a buffing pad in fixed relation with said foam pad, said buffing pad having first and second surfaces on opposing sides of said buffing pad, said first surface being configured to face said foam pad, and said second surface being configured to contact and recondition said work surface.
2. A buffing element as claimed in claim 1 wherein said discoid portion and said annular portion are configured to cause said buffing pad to impart a substantially uniform buffing force against said work surface.
3. A buffing element as claimed in claim 1 wherein said annular portion is coupled to said perimeter of said discoid portion.
4. A buffing element as claimed in claim 1 wherein said discoid portion is a first discoid portion, and said foam pad further includes a second discoid portion, said annular portion forming a flange on said second discoid portion to establish a cavity in said second discoid portion, and said first discoid portion being in mating relation with said cavity.
5. A buffing element as claimed in claim 1 wherein:
said discoid portion is formed from open cell foam; and
said annular portion is formed from closed cell foam.
6. A buffing element as claimed in claim 1 wherein:
said discoid portion is formed from a first closed cell foam; and
said annular portion is formed from a second closed cell foam, said second closed cell foam being less compressible than said second closed cell foam.
7. A buffing element as claimed in claim 6 wherein said first and second closed cell foams are silicone based.
8. A buffing element as claimed in claim 6 wherein said first and second closed cell foams are silicone coated.
9. A buffing element as claimed in claim 1 wherein said foam pad is a first foam pad, and said buffing element further comprises a second foam pad juxtaposed between said first foam pad and said first surface of said buffing element.
10. A buffing element as claimed in claim 9 wherein:
said second foam pad is formed from silicone based closed cell foam; and
said first surface of said buffing pad includes an adhesive layer that removably adheres to said second foam pad.
11. A buffing element as claimed in claim 1 wherein:
said foam pad exhibits a first diameter; and
said buffing pad exhibits a second diameter, said second diameter being less than said first diameter.
12. A buffing element as claimed in claim 1 wherein said apparatus includes a turntable for rotating said buffing element and said buffing pad includes radial projections along a perimeter of said buffing pad for imparting a sloped edge on a border between an unconditioned portion and a reconditioned portion of said protective surface of said disc when said buffing element rotates upon said turntable.
13. A buffing element as claimed in claim 1 further comprising a substantially rigid stabilizer plate, said foam pad being fixedly engaged with a plate surface of said stabilizer plate.
14. A buffing element as claimed in claim 13 wherein:
said foam pad is a first foam pad;
said plate surface of said stabilizer plate is a first plate surface;
said stabilizer plate further includes a second plate surface on an opposite side of said stabilizer plate from said first plate surface; and
said buffing element further comprises a second foam pad coupled to said second plate surface of said stabilizer plate.
15. A buffing element in an apparatus for reconditioning a protective surface of an optically-read digital recording disc, said apparatus including a turntable for rotating said buffing element, said buffing element comprising:
a first foam pad having a discoid portion and an annular portion encircling and coupled to a perimeter of said discoid portion, said discoid portion being formed from open cell foam, said annular portion being formed from closed cell foam, and said annular portion being more resistant to compression than said discoid portion;
a second foam pad coupled to said first foam pad, said second foam pad being formed from said closed cell foam; and
a buffing pad having first and second surfaces on opposing sides of said buffing pad, said first surface having an adhesive layer that removably adheres to said second foam pad, and said second surface being configured to contact and recondition said protective surface of said digital recording disc.
16. A buffing element as claimed in claim 15 further comprising a substantially rigid stabilizer plate, said first foam pad being fixedly engaged with a plate surface of said stabilizer plate.
17. A buffing element as claimed in claim 16 wherein:
said plate surface of said stabilizer plate is a first plate surface;
said stabilizer plate further includes a second plate surface on an opposite side of said stabilizer plate from said first plate surface; and
said buffing element further comprises a third foam pad coupled to said second plate surface of said stabilizer plate.
18. A buffing element as claimed in claim 15 wherein:
said second foam pad exhibits a first diameter; and
said buffing pad exhibits a second diameter, said second diameter being less than said first diameter.
19. An apparatus for reconditioning a protective surface of an optically-read digital recording disc, said apparatus comprising:
a turntable configured to receive a center section of said optically-read disc, said center section being located about a center hole of said optically-read disc;
a first motor, coupled to said turntable, for rotating said turntable and said optically-read disc at a first rotational speed;
a buffing element for removing an amount of material from said protective surface as said turntable rotates said optically-read disc through at least one revolution, said buffing element including:
a substantially rigid stabilizer plate having a plate surface;
a first foam pad fixedly engaged with said plate surface, said first foam pad having a discoid portion and an annular portion encircling a perimeter of said discoid portion, said annular portion being more resistant to compression than said discoid portion;
a second foam pad coupled to said first foam pad, said second foam pad being formed from closed cell foam; and
a buffing pad having first and second surfaces on opposing sides of said buffing pad, said first surface being configured to removably adhere to said second foam pad, and said second surface being configured to recondition said protective surface of said digital recording disc;
a second motor, coupled to said buffing element, for rotating said buffing element at a second rotational speed; and
a timing element, in communication with each of said first and second motors, for synchronizing said first and second motors to substantially simultaneously cease rotation of said turntable and said buffing element following removal of said amount of material.
20. An apparatus as claimed in claim 19 wherein said discoid portion and said annular portion of said buffing element are configured to cause said buffing pad to impart a substantially uniform buffing force against said protective surface of said digital recording disc.
Priority Applications (1)
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US09/772,144 US6431967B1 (en) | 2001-01-03 | 2001-01-29 | Apparatus and buffing element for uniformly reconditioning digital recording discs |
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US09/754,676 US6547657B2 (en) | 2001-01-03 | 2001-01-03 | Apparatus and buffing element for reconditioning digital recording discs |
US09/772,144 US6431967B1 (en) | 2001-01-03 | 2001-01-29 | Apparatus and buffing element for uniformly reconditioning digital recording discs |
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US09/754,676 Continuation-In-Part US6547657B2 (en) | 2001-01-03 | 2001-01-03 | Apparatus and buffing element for reconditioning digital recording discs |
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US20020086621A1 true US20020086621A1 (en) | 2002-07-04 |
US6431967B1 US6431967B1 (en) | 2002-08-13 |
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Cited By (1)
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US7104871B1 (en) | 1997-06-20 | 2006-09-12 | Kennedy Michael S | Method and apparatus for reconditioning compact discs |
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US6966823B2 (en) * | 2003-11-12 | 2005-11-22 | Azuradisc, Inc. | Buffing head and method for reconditioning an optical disc |
US20060154579A1 (en) * | 2005-01-12 | 2006-07-13 | Psiloquest | Thermoplastic chemical mechanical polishing pad and method of manufacture |
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US5527215A (en) * | 1992-01-10 | 1996-06-18 | Schlegel Corporation | Foam buffing pad having a finishing surface with a splash reducing configuration |
DE69611381T2 (en) * | 1995-12-04 | 2001-08-09 | Minnesota Mining & Mfg | SANDING PLATE WITH FOAM LAYER FOR ABRASIVE ITEMS |
US6261159B1 (en) * | 1999-07-06 | 2001-07-17 | Kevin Krieg | Apparatus and method for the restoration of optical storage media |
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2001
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Cited By (1)
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US7104871B1 (en) | 1997-06-20 | 2006-09-12 | Kennedy Michael S | Method and apparatus for reconditioning compact discs |
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