Friction adjustment mechanisms for optimizing friction between a pad and a disc in an optical disc restoration device

Abstract

The invention pertains in general to a latching mechanism for maintaining desired friction levels on an optical disc in an optical disc restoration device. In particular the invention pertains to devices, systems and methods for easily maintaining friction levels between pads and an optical disc in an optical disc restoration device for ease of adjusting friction settings during quality control, repair operation or when optimization settings are being set in an optical disc restoration device by a user.

Claims

1. An optical disc restoration device with a friction adjustment mechanism, comprising: a platen for holding an optical disc; at least one pad for polishing an optical disc; an adjustment screw rotatable in a first direction and a second direction; and an adjustable slide bracket coupled to the adjustment screw; and wherein: rotation of said adjustment screw in the first direction results in decreased friction between the at least one pad and said optical disc during a restoration cycle; rotation of said adjustment screw in a second direction results in increased friction between the at least one pad and said optical disc during a restoration cycle; and rotation of said adjustment screw causes said adjustable slide bracket to slide.

2. The optical disc restoration device in accordance with claim 1, further including a lock nut, wherein said lock nut holds said adjustment screw at a desired position.

3. The optical disc restoration device in accordance with claim 2 further including a top lid that is movable between an open and a closed position.

4. The optical disc restoration device in accordance with claim 3 further comprising a hook, wherein said hook is configured to hold said top lid when said top lid is in the closed position.

5. The optical disc restoration device in accordance with claim 4 further comprising a return spring, wherein said return spring pulls said hook when said top lid is in the open position.

6. The optical disc restoration device in accordance with claim 5, further comprising a spring bracket, wherein said spring bracket applies tension to said hook when said top lid is in an open position.

7. The optical disc restoration device in accordance with claim 3, further comprising one or more fan blades, wherein said one or more fan blades reside in said top lid opposite said one or more pads.

8. The optical disc restoration device in accordance with claim 2, wherein rotation of said adjustable screw further causes said lock nut to move.

9. The optical disc restoration device in accordance with claim 2, further comprising one or more exhaust ports in said top lid, wherein said one or more exhaust ports remove vapor and heat from said optical disc restoration device.

10. The optical disc restoration device in accordance with claim 1, further comprising a water supply means.

11. The optical disc restoration device in accordance with claim 10, further comprising an abrasive solution supply means.

Description

BRIEF DESCRIPTION OF THE FIGURES

(1) Many aspects of the invention can be better understood with reference to the following drawings. The components in the drawings are not necessarily to scale, emphasis instead being placed upon clearly illustrating the principles of the present invention.

(2) FIG. 1 shows a perspective view of an optical disc restoration device with the side panels of the device removed to show the features of a friction adjustment mechanism in accordance with one embodiment of the present invention.

(3) FIG. 2 shows a flowchart of steps to optimize friction settings using the friction adjustment mechanism in accordance with one embodiment of the present invention.

(4) FIG. 3 shows a perspective view of an optical disc restoration device with a friction adjustment mechanism in accordance with one embodiment of the present invention.

(5) FIG. 4 shows a top view of an optical disc restoration device with a friction adjustment mechanism in accordance with one embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

(6) The invention provides devices, systems and methods for optimizing and maintaining optimized friction settings in an optical disc restoration device. In particular the invention pertains to optical disc restoration devices with a specialized friction adjustment mechanism for optimizing and managing friction between the pads and an optical disc during a restoration cycle, for optimized disc restoration.

(7) In accordance with one embodiment of the present invention, an optical disc restoration device with a friction adjustment mechanism, is described, including but not limited to: a platen for holding an optical disc; at least one pad for polishing an optical disc; and an adjustment screw, wherein rotation of the adjustment screw in one direction results in a larger distance between the pads and the optical disc and thereby a lower friction between the pad and the optical disc during a restoration cycle and wherein rotation of the adjustment screw in another direction results in a closer distance between the pads and the optical disc and thereby a higher friction between the pads and the optical disc during a restoration cycle. In accordance with this embodiment, the adjustment screw provides a device and method that maintains the correct pressure of the pads on the optical disc despite wear and tear on the device from repetitive use, which may otherwise alter the alignment, or pressure of the pads on the optical disc. The present embodiment provides for ease of quality control measures and repair of an optical disc restoration device by a provider, repair operator or a user. For instance when a device has been sent back to a provider for repair or is sent to a repair service, the present invention allows the provider or repair operator to easily adjust and reset friction settings between the pads and the optical disc without requiring complex disassembly of the device. The present invention may further be provided with instructions such that an end-user can easily adjust and optimize friction levels between one or more pads and an optical disc in an optical disc restoration device.

(8) In order to provide an adjustment screw that can simply be accessed, the inventors developed a structural modification to optical disc restoration devices to embody an adjustment screw that could easily be accessed, and functionally affect the friction of the pads on the optical disc when the adjustment screw is turned in either direction. FIG. 1 shows a perspective view of an optical disc repair device with the sides and back panel removed for showing the internal structural modifications developed by the inventors to provide an adjustment screw in accordance with the present embodiment. In this embodiment the adjustment screw, 100, is shown attached to the adjustable slide bracket, 105, which is further attached to a lock nut 110, for allowing a user to rotate the adjustment screw, 100, and lock a desired friction level in an optical disc restoration device. A hook, 115, is further shown attached to the adjustable slide bracket 105 such that the pads on a top lid will respond to the friction setting locked in place by the adjustment screw, 100, and the lock nut, 110. In accordance with this embodiment, the hook 115 holds the top lid of the optical disc restoration device in a closed position. The hook 115 in this embodiment provides for the physical connection of the pads to the optical disc at the optimized friction settings secured by the adjustable screw 100. Yet further in this embodiment, the pull solenoid 120, the return spring 125, and the spring bracket 130 are further shown. In accordance with this embodiment the pull solenoid 120 unlatches the hook 115 from the top lid, allowing the device to open and the return spring 125 pulls the hook 115 from the position that the pull solenoid had moved the hook 115 to when unlatching the top lid. In accordance with this embodiment, turning of the adjustment screw causes the adjustable slide bracket to slide, thereby also moving the lock nut into a desired position. When the electric current in this embodiment is at 3 ampere, as measured by an ammeter during a quality control test, a repair, or in an automated manner for an end-user, the friction settings are at optimized levels and the lock nut 110 will prevent the adjustment screw 100 from rotating, thereby securing the desired friction level. In accordance with this embodiment, the optimized friction level settings of current, friction, pressure and distance of the pads to an optical disc may be easily set by simply adjusting the screw 100. In yet other embodiments a lead screw, gear train, rack and pinions gear systems, cam action and other motorized systems may be used in addition to visual or audible cues to indicate optimized friction settings between the pads and an optical disc.

(9) In accordance with the present embodiment, the return spring may be between the hook 115 and the spring bracket and allows for the adjustment mechanism in accordance with the present embodiment to restart between restoration cycles by maintaining tension on the hook 115. In accordance with this embodiment the spring bracket holds switches that run the optical disc restoration cycle operations, and also holds the other end of the return spring so that the return spring can hold the hook 115 in a desired location.

(10) The hook 115 in accordance with the present embodiment may be placed in the middle, front, back or center of the optical disc restoration device in order to hold the pads and the optical disc in an even or balanced manner for optimizing friction levels between the pads and the optical disc. In accordance with this embodiment, the adjustable slide bracket stabilizes, holds, pivots, and adjusts the hook 115.

(11) In yet another embodiment of the present invention, a method for adjusting friction levels in an optical disc restoration device, is described, including but not limited to the steps of: providing an optical disc restoration device; and, providing an adjustable screw, wherein rotation of the adjustable screw in one direction results in higher friction between one or more pads and an optical disc during a restoration cycle and wherein rotation of said adjustable screw in another direction results in lower friction between said one or more pads and said optical disc during a restoration cycle. The present embodiment may further include the step of providing an automated friction level notification when the adjustable screw is rotated. The present embodiment may yet further include the step of providing a latch hook for holding a top lid with the pads onto a disc on a platen, and maintaining physical contact of the pad to the disc at the desired friction levels in accordance with the present invention. The present embodiment may also include the step of providing a water supply means for optimized restoration procedures, an abrasive or polishing solution supply means for optimized restoration procedures, fan blades and one or more exhaust ports in the top lid of the optical disc restoration device to help control heat and vapor levels resulting from friction during an optical disc restoration cycle.

(12) In accordance with another embodiment, as shown in FIG. 2, the following steps may be conveniently used to optimize friction between pads and an optical disc during a repair, quality control or by a user after several successive uses of the device, in accordance with the present invention: 1) load an optical disc onto a disc holder, step 202 2) initiating a disc restoration process, step 204 3) placing one or more pads in contact with said optical disc, step 206 4) rotating the adjustment screw in a direction to increase or decrease the friction of said one or more polishing pads on said optical disc, determining a correct pressure setting by optimizing current, pressure, and or pad to disc distance, step 208 5) withdrawing one or more polishing pads from contact with said optical disc, step 210 6) removing a disc from said disc restoration device, step 212. In accordance with this embodiment, the restoration cycle can be repeated in the same order of steps listed above to ensure the pressure and thereby friction of the pads on the optical disc during a restoration cycle is optimized to accommodate for wear and tear of the optical disc restoration device from repetitive or successive uses. Further in accordance with the embodiment described herein, the step of withdrawing the one or more polishing pads from contact with the optical disc, step 210, may be manually accomplished by lifting or pulling a handle or like structure to withdraw a top lid housing the one or more polishing pads, or automatically accomplished with an automated lid withdrawing mechanism.

(13) In yet another embodiment of the present invention, a method for optimizing friction between one or more pads and an optical disc in an optical disc restoration device, is described, including but not limited to the steps of providing a platen for holding an optical disc, wherein the platen is attached to a motor; providing one or more rotatable pads, wherein the pads are in contact with the optical disc during a restoration cycle, and, providing a friction adjustment mechanism, wherein rotation of the friction adjustment mechanism results in higher and lower friction settings between the rotatable pads and the optical disc during an optical disc restoration cycle. This embodiment may further include the step of providing an adjustment screw as a friction adjustment mechanism, wherein rotation of the adjustment screw in one direction result in a higher friction setting and rotation of the screw in another direction results in a lower friction setting between the pads and the optical disc, such that quality control operators, a repair operator or a user may maintain friction levels between one or more.

(14) In addition to having an adjustment screw, other means for adjusting friction levels in an optical disc restoration device may be used, including but not limited to: a motor driven lead screw; a rack and pinion movement such as a rotational to linear gearing mechanism, a cam movement system, a pneumatic system, a hydraulic system, a belt driven system, a spring loaded system, a pulley system, a gearing system, and any combination of thereof.

(15) FIG. 3 shows one embodiment of a latching mechanism in accordance with one embodiment of the present invention. In this embodiment the adjustment screw, 300, is shown attached to the adjustable slide bracket, 305, which is further attached to the lock nut 310, for allowing a user to rotate the adjustment screw, 300, and lock a desired friction level in an optical disc restoration device. Hook, 315, is further shown attached to the adjustable slide bracket 305 such that the pads on a top lid will respond to the friction setting locked in place by the adjustment screw, 300, and the lock nut, 310. Yet further in this embodiment, the pull solenoid 320, the return spring 325, and the spring bracket 330 are further shown. In accordance with this embodiment the pull solenoid 320 unlatches the latch hook from the top lid, allowing the device to open and the return spring 325 pulls the latch hook from the position that the pull solenoid had moved the latch hook to when unlatching the top lid.

(16) In addition in this embodiment the spring bracket 330 is a stationary plate which allows for the spring to apply tension on the latch hook to pull the latch hook from the position that the pull solenoid had moved the latch hook to when unlatching the top lid.

(17) FIG. 4 shows yet another embodiment of the present invention showing an adjustable screw 405 in an optical disc restoration device 400. In accordance with the figure shown it is apparent that a user can easily turn the adjustable screw to set preferred friction levels in the optical disc restoration device, which is easily measured with an ammeter in electric current measurements. The adjustable screw allows simple methods for finalizing device friction requirements in quality control procedures, and for user's, store owners, distributors and the like to reset preferred friction levels for optimized optical disc restoration.

(18) It should be emphasized that the above-described embodiments of the present invention, particularly, any preferred embodiments, are merely possible examples of implementations, merely set forth for a clear understanding of the principles of the invention. Many variations and modifications may be made to the above-described embodiments of the invention without departing substantially from the spirit and principles of the invention. All such modifications and variations are intended to be included herein within the scope of this disclosure and the present invention and protected by the following claims.