US20060194517A1 - Method for precision alignment during a blocking process of lens manufacturing - Google Patents
Method for precision alignment during a blocking process of lens manufacturing Download PDFInfo
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- US20060194517A1 US20060194517A1 US11/369,374 US36937406A US2006194517A1 US 20060194517 A1 US20060194517 A1 US 20060194517A1 US 36937406 A US36937406 A US 36937406A US 2006194517 A1 US2006194517 A1 US 2006194517A1
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- United States
- Prior art keywords
- work
- button
- block
- seat
- piece holder
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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
- B24B13/00—Machines or devices designed for grinding or polishing optical surfaces on lenses or surfaces of similar shape on other work; Accessories therefor
- B24B13/005—Blocking means, chucks or the like; Alignment devices
- B24B13/0055—Positioning of lenses; Marking of lenses
Definitions
- Contact lens manufacturing involves multiple complex operations. Each of these operations requires a high degree of accuracy in order to achieve a precise fabrication for the contact lens.
- An unprocessed contact lens is generally known as a “button.”
- the button must be precisely aligned to a block, and then fixed to the block using a fixing material, such as wax, glue, or other adhesive, so that subsequent machining or other operations on the button can be conveniently performed.
- This process of fixing a button to a block is referred to as “blocking.”
- a device that performs the blocking must accurately align the button with the block in order to achieve certain optical characteristics of the lens. Precise alignment and positioning of the button during blocking reduces prism, increases concentricity of the lens and permits control of the center thickness of the lens.
- a button is typically transferred to a block in such a way that an axis of the button is more or less aligned to an axis of the block.
- the block is then moved a known distance relative to the button (or vice versa) so as to contact with the button and fix the two together with the adhesive.
- This process presents problems if the thickness or geometry of the button varies. If the button is too thick, the block may deform the button. If the button is too thin, the block may not achieve sufficient “contact” to achieve proper adherence. In order to compensate these variations, manual adjustments to this distance may be required. These adjustments are time consuming and require a skilled operator.
- Embodiments of the invention may overcome these and other drawbacks.
- a blocking apparatus and a blocking method are provided for precisely aligning an axis of a button with an axis of a block for a blocking process of lens manufacturing.
- a button holder for holding a button intact without any risk of potential damage to the button.
- the button holder operates with a vacuum to hold a button in place on a button placement surface or recess of the button holder.
- a button holder is coupled to an adjustable offset mechanism for creating a selectable offset between the axis of the button holder and the axis of the block.
- the adjustable offset mechanism may include an offset device (e.g., a screw, a cam, etc.) for providing this offset.
- a button holder is adjustably positioned within a seat aligner.
- the button holder may include a hole formed therein that receives a button, a body with a slanted surface, and a flange.
- a seat aligner that can hold a button holder.
- the seat aligner may include a chamber formed therein; the chamber may further include a bottom portion for receiving a flange of the button holder and a top portion for receiving the body of the button holder.
- the bottom portion may include a predefined depth that is larger than the thickness of the flange of the button holder.
- the top portion may include a surface (e.g., a slanted surface) for holding the button holder's body.
- the seat aligner holding a button holder includee at least one adjustment hole for receiving a fastening mechanism that fastens the seat aligner to a seat stage.
- the adjustment hole of the seat aligner may enable moving the seat aligner within the seat stage while the seat aligner is still attached to the seat stage.
- a seat stage has a stage cavity formed therein for receiving a seat aligner.
- the stage cavity may enable moving the seat aligner within the seat cavity.
- a button holder may adjustably float on a seat stage of a blocking apparatus, where the button holder may include a mechanism to self-align on the seat stage after a block interfaces with the button holder.
- a blocking apparatus and a blocking method can automatically compensate for variations in a button geometry without requiring complex adjustments during blocking process of lens manufacturing.
- the blocking apparatus includes mechanisms for positioning a block on a button based on a predetermined pressure applied on the block in order to compensate for variations in the button geometry.
- the blocking apparatus includes mechanisms for positioning a block on a button based on a predetermined pressure between the block and the button in order to compensate for variations in the button geometry.
- the blocking apparatus may include a sensor indicative of a force between a block and a button.
- the blocking apparatus includes a pressure chamber and a regulator, which are coupled to a block, for regulating a pressure applied on the block.
- the blocking apparatus includes a mechanism for automatically applying a wax material on a button.
- the wax material can be stored within the blocking apparatus.
- the blocking apparatus includes a storage tank.
- the storage tank may include a reservoir for holding a fixing material and a retractable dispensing nozzle for dispensing the fixing material on a button.
- FIG. 1A illustrates a blocking apparatus according to one embodiment of the invention.
- FIG. 1B illustrates the blocking apparatus of FIG. 1A with a blocking pin substituted for the block.
- FIG. 2 illustrates a block coupled to a block head according to one embodiment of the invention.
- FIG. 3 illustrates a seat positioned on a seat stage according to one embodiment of the invention.
- FIG. 4A illustrates a seat positioned on a seat stage, where the seat includes a seat aligner and a button holder according to one embodiment of the invention.
- FIG. 4B illustrates a button holder positioned on a seat stage according to one embodiment of the invention.
- FIG. 5A illustrates an apparatus including an adjustable offset mechanism for creating an offset in the alignment according to one embodiment of the invention.
- FIG. 5B illustrates a top view of an apparatus including an adjustable offset mechanism for creating an offset in the alignment according to one embodiment of the invention.
- FIG. 6A illustrates a retractable dispensing nozzle in an extended position according to one embodiment of the invention.
- FIG. 6B illustrates a retractable dispensing nozzle in a retracted position according to one embodiment of the invention.
- FIG. 6C illustrates a storage tank including a retractable dispensing nozzle according to one embodiment of the invention.
- FIG. 7 illustrates an alignment of a blocking process according to one embodiment of the invention.
- FIG. 8 illustrates a process of aligning a block and a button holder according to one embodiment of the invention.
- FIG. 9 illustrates a process of dispensing a fixing material using a retractable dispensing nozzle according to one embodiment of the invention.
- FIG. 10 illustrates a pressure based blocking process according to one embodiment of the invention.
- a blocking apparatus 100 of the invention may include, for example, a block 102 (e.g., a fixture, an arbor, etc.), a block head 106 , a button 104 (e.g., an unprocessed contact lens), a seat 108 , a seat stage 110 , a base 112 , a force control mechanism 114 , and a force adjustment mechanism 116 .
- Block 102 may be coupled to block head 106 .
- Block 102 and block head 106 may be movable along a vertical axis. While block 102 and block head 106 are described herein as operating along a vertical axis, the invention may also be constructed to operate block 102 and block head 106 along a horizontal or along any other axis, as would be apparent.
- button 104 is placed on seat 108 .
- Seat 108 may be positioned on and attached to seat stage 110 .
- seat 108 may be movable in one or more axes relative to seat stage 110 .
- block 102 may be moved vertically to contact button 104 .
- Seat 108 may be moved horizontally (or in some embodiments, vertically) to align an axis of block 102 with an axis of button 104 . In some embodiments, these axes may be central axes of the respective components.
- a blocking pin 103 (shown in FIG. 1B ) is used in place of block 102 .
- Blocking pin 103 may include a pin of substantially identical diameter to that of buttons 104 .
- Blocking pin 103 may also include a block 102 to which a button 104 is already attached in the desired alignment.
- blocking apparatus 100 may include, for example, seat 108 and seat stage 110 .
- Seat 108 may include, for example, a button holder 402 and a seat aligner 404 .
- the combination of button holder 402 and seat aligner 404 illustrated in FIG. 4A is sometimes referred to as a collet.
- button holder 402 may include, for example, a top portion 426 , a middle portion 428 , and a bottom portion 430 .
- Top portion 426 may include, for example, a button-receiving surface 425 or recess for receiving button 104 .
- top portion 426 of button holder 402 includes a surface, such as slanted surface 420 for positioning button holder 402 within seat aligner 404 .
- Bottom portion 430 of button holder 402 may include a flange 412 .
- button holder 402 may hold a button 104 .
- button holder 402 may include one or more holes 416 or air-spaces that may assist holding button 104 in place.
- button holder 402 may include, for example, one or more holes 416 operating in conjunction with a vacuum that holds button 104 . Vacuum or a predefined air pressure inside button holder 402 may enable holding button 104 in place on button-placement surface 425 .
- Adjustment hole 408 may receive a fastening mechanism 406 (e.g., a screw, a nail, a bolt, etc.) for securely fastening seat 108 to seat stage 110 .
- a fastening mechanism 406 e.g., a screw, a nail, a bolt, etc.
- the diameter of adjustment hole 408 may be sufficiently larger than the diameter of fastening mechanism 406 to enable some movement of seat 108 relative to seat stage 110 when fastening mechanism 406 is loosened.
- clamps or clips may be used to fasten seat 108 to seat stage 110 , as would be apparent.
- Seat aligner 404 may include, for example, a chamber 410 formed therein.
- Chamber 410 may include, for example, a top portion 420 , a middle portion 422 , and a bottom portion 424 .
- the top portion 420 of seat aligner 404 may include, for example, a surface such as slanting surface 421 for interfacing with a surface of button holder 402 (e.g., slanting surface 420 of button holder 402 ).
- the bottom portion 424 of seat aligner 404 may receive a flange portion of button holder 402 .
- the depth of bottom portion 424 of seat aligner 404 may be larger than the thickness of the flange portion of button holder 402 to accommodate piston-like movement of the flange therein.
- a vacuum may be used to create a pressure drop inside chamber 410 of seat aligner 404 .
- This pressure drop inside chamber 410 may facilitate disengaging the respective surfaces of button holder 402 and seat aligner 404 during alignment as well as holding button 104 in place during blocking.
- seat stage 110 may include a stage cavity 414 to accommodate seat aligner 404 as illustrated in FIG. 4A .
- Stage cavity 414 may permit sufficient movement of seat aligner 404 within seat stage 110 so as to achieve alignment.
- Stage cavity 414 of seat stage 110 and adjustment holes 408 of seat aligner 404 may assist seat aligner 404 to self align with seat stage 110 .
- seat aligner 404 may self align with seat stage 110 when slanting surface 421 of seat aligner 404 engages slanting surface 420 of button holder 402 .
- a surface (e.g., slanting surface 420 ) of button holder 402 may be disengaged from a surface (e.g., slanting surface 421 ) of seat aligner 404 as the blocking pin seals button seat 425 of button holder 402 . This aligns the blocking pin with button holder 402 .
- a surface (e.g., slanting surface 420 ) of button holder 402 may be reengaged to a surface (e.g., slanting surface 421 ) of seat aligner 404 thereby aligning button holder 402 and seat aligner 404 .
- a seat 108 is provided that may directly interface with the blocking pin on seat stage 110 .
- Seat 108 may include button seat 425 . While illustrated as having slanted surfaces, seat 108 may have any shape including vertical or horizontal surfaces as would be apparent to the one skilled in the art. When seat 108 engages the blocking pin, alignment of seat 108 can be achieved on seat stage 110 .
- blocking apparatus 100 may provide an adjustable offset mechanism 507 for creating an offset to the alignment of seat 108 , seat aligner 404 or button holder 402 against block 102 .
- Adjustable offset mechanism 507 may be coupled to seat 108 , seat aligner 404 or button holder 402 .
- adjustable offset mechanism 507 may include a pivot point 505 and an adjusting tool 509 (e.g., a screw, a cam, etc.).
- One side of adjustable offset mechanism 507 may be permanently or removably attached to seat stage 110 via pivot point 505 , and the other side of adjustable offset mechanism 507 may be moved in a pivotal motion on seat stage 110 .
- Adjusting tool 509 may facilitate moving adjustable offset mechanism 507 to create an offset in the alignment of button 104 and block 102 .
- a user may use adjusting tool 509 to move adjustable offset mechanism 507 so as to move seat 108 , seat aligner 404 or button holder 402 relative to seat stage 110 .
- adjustable offset mechanism 507 includes a pivot motion
- certain alignment accuracy can be achieved because there is no “play”; adjustable offset mechanism 507 is always in contact with the supporting pivot surface.
- the motion of the other side of adjustable offset mechanism 507 can be achieved easily and accurately by using adjusting tool 509 (e.g., a screw, a cam, etc.). Not only is this mechanical advantage working, but, in conjunction with the pivot motion of the mechanism itself, provides a very high degree of accuracy. An accurate offset can be achieved with a simple scale and hand motion.
- this offset motion is performed independently of the original process of aligning blocking apparatus 100 described elsewhere and can be readily set or reset without requiring realignment of the blocking apparatus itself.
- blocking apparatus 100 includes a mechanism for automatically compensating variations in a button geometry without requiring complex adjustments during blocking process of lens manufacturing.
- Buttons 104 may vary in thickness. These variations are caused by errors during manufacturing of button 104 . While these variations are present, moving block 102 a fixed distance relative to button 104 may deform thicker buttons or affect adherence to thinner buttons. Manual positioning of block 102 on button 104 to compensate for these variations is a time consuming operation.
- blocking apparatus 100 automatically compensates for variation in button geometry by providing a predetermined amount of “contact” or applying a predetermined pressure between block 102 and button 104 .
- block 102 is moved relative to button 104 until a predetermined amount of “contact” or pressure occurs between the two.
- the contact between button 104 and block 102 is the same regardless of the thickness of button 104 .
- blocking apparatus 100 may include a mechanism for moving block 102 to contact button 104 .
- blocking apparatus 100 may include a mechanism for moving button 104 to contact block 102 . In both embodiments, one of block 102 and button 104 is moved relative to the other until a predetermined contact is achieved.
- block 102 may need to move less distance towards button 104 when button 104 is thicker than the optimal geometry, and more towards button 104 when button 104 is thinner than the optimal geometry.
- blocking apparatus 100 may include, for example, a regulator 116 for regulating pressure applied on block 102 .
- Regulator 116 may include, for example, a pressure controller 214 that controls pressure applied on block 102 .
- regulator 116 may include, for example, an air-pressure controller 216 for regulating air-pressure applied on block 102 , thereby controlling air-pressure applied on block 102 .
- the amount of contact between block 102 and button 104 may be achieved by applying a predetermined pressure on block 102 .
- cylinder 114 may be set for a predetermined pressure so that block 102 may be allowed to move downwards to interface with button 104 only up to the level that corresponds to the predetermined pressure. Cylinder 114 may not allow further motion once the corresponding predetermined pressure is reached.
- the predetermined pressure of cylinder 114 would account for a weight of block head 106 as would be apparent.
- Other mechanisms may be used to provide a particular amount of pressure between block 102 and button 104 , as would be appreciated.
- blocking apparatus 100 may include a retractable dispensing nozzle 610 for dispensing wax.
- Retractable dispensing nozzle 610 may include, for example, a dispensing orifice 612 to deliver a wax or other fixing material on button 104 .
- Retractable dispensing nozzle 610 may be extended out of a tank or storage reservoir in order to dispense wax (or similar fixing material) on button 104 .
- retractable dispensing nozzle 610 may be retracted back inside the tank or reservoir.
- storage tank or reservoir 616 may include a squeegee 624 that seals retractable dispensing nozzle 610 . This may serve one or more purposes including: preventing contaminants from being pulled into storage tank or reservoir 616 ; cleaning retractable dispensing nozzle 610 from any residual wax that may be accumulated on or around orifice 612 ; preventing wax from being clogged out of reservoir; and others as would be apparent.
- retractable dispensing nozzle 610 may be adapted to hold a wax or any other fixing material at elevated temperatures. These temperatures may include a temperature sufficient to maintain wax in a liquid state or at a particular viscosity, as would be apparent.
- blocking apparatus 100 may include, for example, a temperature control mechanism (not otherwise illustrated) for controlling internal temperature of a storage tank or reservoir 616 .
- blocking apparatus 100 may also include, for example, a cooling mechanism (e.g., a laminar flow cooling jet, etc.) (not otherwise illustrated) for cooling the dispensed wax on button 104 to quickly solidify the wax.
- blocking apparatus 100 may include, for example, a storage reservoir 616 for storing a fixing material (e.g., wax).
- storage reservoir 616 may include, for example, retractable dispensing nozzle 610 .
- dispensing nozzle 610 may include, for example, a protruding delivery tube that delivers a fixing material (e.g., wax) on button 102 .
- storage reservoir 616 may include, for example, an electrode 618 for heating the fixing material (e.g., wax).
- storage reservoir 616 may include, for example, a temperature controller (not otherwise illustrated) that interfaces with electronic control system to control the heating of fixing material (e.g., wax).
- storage reservoir 616 may include, for example, an insulating material that insulates the surface of storage reservoir 616 for preventing heat dissipation from storage reservoir 616 .
- FIG. 7 illustrates an example of an alignment of a blocking apparatus 100 .
- seat 108 may be moved horizontally along the X or Y axis so that a position of seat 108 or button holder 402 may be adjusted to align with block 102 .
- button holder 402 may be aligned to block 102 as illustrated in the process outlined in FIG. 8 .
- an alignment pin 103 e.g., a blocking pin
- An alignment pin 103 may be a blocking pin, a sample block or any fixture for the purpose of the alignment that would be apparent to the one skilled in the art.
- fastening mechanisms 406 of seat aligner 404 may be loosened to allow movement of seat 108 upon or within seat stage 110 so that alignment can be achieved.
- block head 106 with the alignment pin 103 installed, may be lowered towards button holder 402 .
- vacuum may be created optionally inside chamber 410 of seat aligner 404 .
- the lowered alignment pin 103 may interface with button holder 402 .
- the interfaced button holder 402 may fully engage the alignment pin 103 .
- the alignment pin 103 and button holder 402 are aligned.
- button holder 402 may disengage seat aligner 404 because of presence of vacuum inside chamber 410 .
- the alignment pin 103 may be further lowered.
- a surface (e.g., slanting surface 421 ) of seat aligner 404 may engage a surface (e.g., slanting surface 420 ) of button holder 402 .
- seat aligner 404 aligns on seat stage 110 as their respective surfaces are engaged.
- seat aligner 404 may self-align on seat stage 110 .
- seat aligner 404 may be manually or automatically aligned on seat stage 110 .
- fastening mechanism 406 of seat aligner 404 may be tightened to fix the alignment.
- the alignment pin 103 may be disengaged from button holder 402 and block 102 may be placed for blocking. Once fixed, the alignment may be used for multiple blockings.
- a fixing material in particular wax
- retractable dispensing nozzle 612 is extended out of storage tank 616 .
- retractable dispensing nozzle 612 may dispense fixing material on button 104 .
- retractable dispensing nozzle 612 retracts back inside storage tank 616 .
- squeegee 624 may wipe any residual wax accumulated in or around orifices retractable dispensing nozzle 612 .
- a nozzle position of storage tank 616 may be automatically sealed or covered.
- block 102 may be moved downward to contact with button 104 .
- a pressure-based blocking process may be carried out as illustrated in FIG. 10 .
- blocking apparatus 100 or any part of blocking apparatus 100 e.g., cylinder 114
- block 102 may be moved downward for contacting or interfacing with button 104 until the predetermined pressure is reached.
- a predetermined level e.g., a predetermined pressure
- further movement of block 102 towards button 104 is stopped. If the amount of contact does not reach the predetermined level (e.g., the predetermined pressure), moving of block 102 towards button 104 may be continued until reaching the predetermined level (e.g., the predetermined pressure).
Abstract
A blocking apparatus and a blocking method allow precise alignment of an axis of a button with an axis of a block for a blocking process of lens manufacturing. According to another aspect, the invention provides a blocking apparatus and a blocking method for automatically compensating variations in button geometry without requiring complex adjustments during the blocking process of lens manufacturing. According to yet another aspect, the invention provides a button holder that may adjustably float on a seat stage of a blocking apparatus, where the button holder may include a mechanism to self-align on the seat stage after a block of the blocking apparatus interfaces with the button holder.
Description
- This application is a continuation of prior U.S. application Ser. No. 10/676,124, filed on Oct. 2, 2003, the entire teachings of which are incorporated herein by reference.
- Contact lens manufacturing involves multiple complex operations. Each of these operations requires a high degree of accuracy in order to achieve a precise fabrication for the contact lens.
- An unprocessed contact lens is generally known as a “button.” The button must be precisely aligned to a block, and then fixed to the block using a fixing material, such as wax, glue, or other adhesive, so that subsequent machining or other operations on the button can be conveniently performed. This process of fixing a button to a block is referred to as “blocking.” A device that performs the blocking must accurately align the button with the block in order to achieve certain optical characteristics of the lens. Precise alignment and positioning of the button during blocking reduces prism, increases concentricity of the lens and permits control of the center thickness of the lens.
- In conventional systems, a button is typically transferred to a block in such a way that an axis of the button is more or less aligned to an axis of the block. The block is then moved a known distance relative to the button (or vice versa) so as to contact with the button and fix the two together with the adhesive. This process presents problems if the thickness or geometry of the button varies. If the button is too thick, the block may deform the button. If the button is too thin, the block may not achieve sufficient “contact” to achieve proper adherence. In order to compensate these variations, manual adjustments to this distance may be required. These adjustments are time consuming and require a skilled operator.
- Furthermore, conventional systems typically dip the block in the fixing material or dispense the fixing material through a nozzle. One problem with these methods is a non-uniform adherence of the wax on the block. In addition, wax left in the nozzle cools, causing it to solidify, particularly at the tip, thereby hampering further wax from being dispensed.
- Other drawbacks also exist.
- Embodiments of the invention may overcome these and other drawbacks.
- According to one aspect of the invention, a blocking apparatus and a blocking method are provided for precisely aligning an axis of a button with an axis of a block for a blocking process of lens manufacturing.
- According to another aspect, a button holder is provided for holding a button intact without any risk of potential damage to the button.
- In one embodiment, the button holder operates with a vacuum to hold a button in place on a button placement surface or recess of the button holder.
- According to another aspect, a button holder is coupled to an adjustable offset mechanism for creating a selectable offset between the axis of the button holder and the axis of the block. The adjustable offset mechanism may include an offset device (e.g., a screw, a cam, etc.) for providing this offset.
- According to another aspect, a button holder is adjustably positioned within a seat aligner. The button holder may include a hole formed therein that receives a button, a body with a slanted surface, and a flange.
- According to another aspect, a seat aligner that can hold a button holder is provided. The seat aligner may include a chamber formed therein; the chamber may further include a bottom portion for receiving a flange of the button holder and a top portion for receiving the body of the button holder. The bottom portion may include a predefined depth that is larger than the thickness of the flange of the button holder. The top portion may include a surface (e.g., a slanted surface) for holding the button holder's body.
- In one embodiment, the seat aligner holding a button holder includee at least one adjustment hole for receiving a fastening mechanism that fastens the seat aligner to a seat stage. The adjustment hole of the seat aligner may enable moving the seat aligner within the seat stage while the seat aligner is still attached to the seat stage.
- According to another aspect, a seat stage has a stage cavity formed therein for receiving a seat aligner. The stage cavity may enable moving the seat aligner within the seat cavity.
- According to another aspect, a button holder may adjustably float on a seat stage of a blocking apparatus, where the button holder may include a mechanism to self-align on the seat stage after a block interfaces with the button holder.
- According to another aspect, a blocking apparatus and a blocking method can automatically compensate for variations in a button geometry without requiring complex adjustments during blocking process of lens manufacturing.
- In one embodiment, the blocking apparatus includes mechanisms for positioning a block on a button based on a predetermined pressure applied on the block in order to compensate for variations in the button geometry.
- In another embodiment, the blocking apparatus includes mechanisms for positioning a block on a button based on a predetermined pressure between the block and the button in order to compensate for variations in the button geometry. In some embodiments, the blocking apparatus may include a sensor indicative of a force between a block and a button.
- In another embodiment, the blocking apparatus includes a pressure chamber and a regulator, which are coupled to a block, for regulating a pressure applied on the block.
- According to another aspect, the blocking apparatus includes a mechanism for automatically applying a wax material on a button. In some embodiments, the wax material can be stored within the blocking apparatus.
- In one embodiment, the blocking apparatus includes a storage tank. The storage tank may include a reservoir for holding a fixing material and a retractable dispensing nozzle for dispensing the fixing material on a button.
- Other features of the invention will become apparent from the following detailed description considered in connection with the accompanying drawings that disclose embodiments of the invention. It should be understood, however, that the drawings are designed for purposes of illustration only and not as a definition of the limits of the invention.
- In the accompanying drawings, described below, like reference characters refer to the same or similar parts throughout the different views. The drawings are not necessarily to scale, emphasis instead being placed upon illustrating particular principles of the methods and apparatus characterized in the Detailed Description.
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FIG. 1A illustrates a blocking apparatus according to one embodiment of the invention. -
FIG. 1B illustrates the blocking apparatus ofFIG. 1A with a blocking pin substituted for the block. -
FIG. 2 illustrates a block coupled to a block head according to one embodiment of the invention. -
FIG. 3 illustrates a seat positioned on a seat stage according to one embodiment of the invention. -
FIG. 4A illustrates a seat positioned on a seat stage, where the seat includes a seat aligner and a button holder according to one embodiment of the invention. -
FIG. 4B illustrates a button holder positioned on a seat stage according to one embodiment of the invention. -
FIG. 5A illustrates an apparatus including an adjustable offset mechanism for creating an offset in the alignment according to one embodiment of the invention. -
FIG. 5B illustrates a top view of an apparatus including an adjustable offset mechanism for creating an offset in the alignment according to one embodiment of the invention. -
FIG. 6A illustrates a retractable dispensing nozzle in an extended position according to one embodiment of the invention. -
FIG. 6B illustrates a retractable dispensing nozzle in a retracted position according to one embodiment of the invention. -
FIG. 6C illustrates a storage tank including a retractable dispensing nozzle according to one embodiment of the invention. -
FIG. 7 illustrates an alignment of a blocking process according to one embodiment of the invention. -
FIG. 8 illustrates a process of aligning a block and a button holder according to one embodiment of the invention. -
FIG. 9 illustrates a process of dispensing a fixing material using a retractable dispensing nozzle according to one embodiment of the invention. -
FIG. 10 illustrates a pressure based blocking process according to one embodiment of the invention. - According to an embodiment of the invention illustrated in
FIG. 1A , ablocking apparatus 100 of the invention may include, for example, a block 102 (e.g., a fixture, an arbor, etc.), ablock head 106, a button 104 (e.g., an unprocessed contact lens), aseat 108, aseat stage 110, abase 112, aforce control mechanism 114, and aforce adjustment mechanism 116.Block 102 may be coupled to blockhead 106.Block 102 andblock head 106 may be movable along a vertical axis. Whileblock 102 andblock head 106 are described herein as operating along a vertical axis, the invention may also be constructed to operateblock 102 andblock head 106 along a horizontal or along any other axis, as would be apparent. - According to an aspect of the invention,
button 104 is placed onseat 108.Seat 108 may be positioned on and attached toseat stage 110. In some embodiments,seat 108 may be movable in one or more axes relative toseat stage 110. - According to an aspect of the invention, block 102 may be moved vertically to
contact button 104.Seat 108 may be moved horizontally (or in some embodiments, vertically) to align an axis ofblock 102 with an axis ofbutton 104. In some embodiments, these axes may be central axes of the respective components. During the alignment process, itself, a blocking pin 103 (shown inFIG. 1B ) is used in place ofblock 102. Blockingpin 103 may include a pin of substantially identical diameter to that ofbuttons 104. Blockingpin 103 may also include ablock 102 to which abutton 104 is already attached in the desired alignment. - According to an aspect of the invention, as illustrated in
FIG. 4A , blockingapparatus 100 may include, for example,seat 108 andseat stage 110.Seat 108 may include, for example, abutton holder 402 and aseat aligner 404. The combination ofbutton holder 402 andseat aligner 404 illustrated inFIG. 4A is sometimes referred to as a collet. In one embodiment,button holder 402 may include, for example, atop portion 426, amiddle portion 428, and abottom portion 430.Top portion 426 may include, for example, a button-receivingsurface 425 or recess for receivingbutton 104. In some embodiments,top portion 426 ofbutton holder 402 includes a surface, such as slantedsurface 420 forpositioning button holder 402 withinseat aligner 404.Bottom portion 430 ofbutton holder 402 may include aflange 412. - According to another aspect of the invention,
button holder 402 may hold abutton 104. In some embodiments,button holder 402 may include one ormore holes 416 or air-spaces that may assist holdingbutton 104 in place. In some embodiments,button holder 402 may include, for example, one ormore holes 416 operating in conjunction with a vacuum that holdsbutton 104. Vacuum or a predefined air pressure insidebutton holder 402 may enable holdingbutton 104 in place on button-placement surface 425. -
Seat aligner 404 ofseat 108 may include, for example, one or more adjustment holes 408.Adjustment hole 408 may receive a fastening mechanism 406 (e.g., a screw, a nail, a bolt, etc.) for securely fasteningseat 108 toseat stage 110. According to one embodiment of the invention, the diameter ofadjustment hole 408 may be sufficiently larger than the diameter offastening mechanism 406 to enable some movement ofseat 108 relative toseat stage 110 whenfastening mechanism 406 is loosened. In other embodiments, clamps or clips may be used to fastenseat 108 toseat stage 110, as would be apparent. -
Seat aligner 404 may include, for example, achamber 410 formed therein.Chamber 410 may include, for example, atop portion 420, amiddle portion 422, and abottom portion 424. Thetop portion 420 ofseat aligner 404 may include, for example, a surface such as slantingsurface 421 for interfacing with a surface of button holder 402 (e.g., slantingsurface 420 of button holder 402). Thebottom portion 424 ofseat aligner 404 may receive a flange portion ofbutton holder 402. The depth ofbottom portion 424 ofseat aligner 404 may be larger than the thickness of the flange portion ofbutton holder 402 to accommodate piston-like movement of the flange therein. - According to another aspect of the invention, a vacuum may be used to create a pressure drop inside
chamber 410 ofseat aligner 404. This pressure drop insidechamber 410 may facilitate disengaging the respective surfaces ofbutton holder 402 andseat aligner 404 during alignment as well as holdingbutton 104 in place during blocking. - According to another embodiment,
seat stage 110 may include astage cavity 414 to accommodateseat aligner 404 as illustrated inFIG. 4A .Stage cavity 414 may permit sufficient movement ofseat aligner 404 withinseat stage 110 so as to achieve alignment.Stage cavity 414 ofseat stage 110 andadjustment holes 408 ofseat aligner 404 may assistseat aligner 404 to self align withseat stage 110. In one embodiment,seat aligner 404 may self align withseat stage 110 when slantingsurface 421 ofseat aligner 404 engages slantingsurface 420 ofbutton holder 402. - In some embodiments during the alignment process, when vacuum is applied, a surface (e.g., slanting surface 420) of
button holder 402 may be disengaged from a surface (e.g., slanting surface 421) ofseat aligner 404 as the blocking pinseals button seat 425 ofbutton holder 402. This aligns the blocking pin withbutton holder 402. In one embodiment, as the blocking pin is lowered onbutton holder 402, a surface (e.g., slanting surface 420) ofbutton holder 402 may be reengaged to a surface (e.g., slanting surface 421) ofseat aligner 404 thereby aligningbutton holder 402 andseat aligner 404. - According to another aspect, as illustrated in
FIG. 4B , aseat 108 is provided that may directly interface with the blocking pin onseat stage 110.Seat 108 may includebutton seat 425. While illustrated as having slanted surfaces,seat 108 may have any shape including vertical or horizontal surfaces as would be apparent to the one skilled in the art. Whenseat 108 engages the blocking pin, alignment ofseat 108 can be achieved onseat stage 110. - According to another aspect of the invention, as illustrated in
FIGS. 5A and 5B , blockingapparatus 100 may provide an adjustable offsetmechanism 507 for creating an offset to the alignment ofseat 108,seat aligner 404 orbutton holder 402 againstblock 102. Adjustable offsetmechanism 507 may be coupled toseat 108,seat aligner 404 orbutton holder 402. In one embodiment, adjustable offsetmechanism 507 may include apivot point 505 and an adjusting tool 509 (e.g., a screw, a cam, etc.). One side of adjustable offsetmechanism 507 may be permanently or removably attached toseat stage 110 viapivot point 505, and the other side of adjustable offsetmechanism 507 may be moved in a pivotal motion onseat stage 110. Adjusting tool 509 (e.g., a screw, a cam, etc.) may facilitate moving adjustable offsetmechanism 507 to create an offset in the alignment ofbutton 104 and block 102. For example, a user may use adjustingtool 509 to move adjustable offsetmechanism 507 so as to moveseat 108,seat aligner 404 orbutton holder 402 relative toseat stage 110. - In some embodiments where adjustable offset
mechanism 507 includes a pivot motion, certain alignment accuracy can be achieved because there is no “play”; adjustable offsetmechanism 507 is always in contact with the supporting pivot surface. In addition, the motion of the other side of adjustable offsetmechanism 507 can be achieved easily and accurately by using adjusting tool 509 (e.g., a screw, a cam, etc.). Not only is this mechanical advantage working, but, in conjunction with the pivot motion of the mechanism itself, provides a very high degree of accuracy. An accurate offset can be achieved with a simple scale and hand motion. - Further, this offset motion is performed independently of the original process of aligning
blocking apparatus 100 described elsewhere and can be readily set or reset without requiring realignment of the blocking apparatus itself. - According to another aspect of the invention, blocking
apparatus 100 includes a mechanism for automatically compensating variations in a button geometry without requiring complex adjustments during blocking process of lens manufacturing.Buttons 104 may vary in thickness. These variations are caused by errors during manufacturing ofbutton 104. While these variations are present, moving block 102 a fixed distance relative tobutton 104 may deform thicker buttons or affect adherence to thinner buttons. Manual positioning ofblock 102 onbutton 104 to compensate for these variations is a time consuming operation. - In some embodiments of the invention, blocking
apparatus 100 automatically compensates for variation in button geometry by providing a predetermined amount of “contact” or applying a predetermined pressure betweenblock 102 andbutton 104. According to the invention, block 102 is moved relative tobutton 104 until a predetermined amount of “contact” or pressure occurs between the two. Thus, the contact betweenbutton 104 and block 102 is the same regardless of the thickness ofbutton 104. - In one embodiment, blocking
apparatus 100 may include a mechanism for movingblock 102 tocontact button 104. In another embodiment, blockingapparatus 100 may include a mechanism for movingbutton 104 to contactblock 102. In both embodiments, one ofblock 102 andbutton 104 is moved relative to the other until a predetermined contact is achieved. - To achieve a particular amount of contact between
block 102 andbutton 104, block 102 may need to move less distance towardsbutton 104 whenbutton 104 is thicker than the optimal geometry, and more towardsbutton 104 whenbutton 104 is thinner than the optimal geometry. - According to another embodiment of the invention, contact between
block 102 andbutton 104 may be controlled by regulating pressure (e.g., air pressure) incylinder 114. In some embodiments, as illustrated inFIG. 2 , blockingapparatus 100 may include, for example, aregulator 116 for regulating pressure applied onblock 102.Regulator 116 may include, for example, a pressure controller 214 that controls pressure applied onblock 102. In one embodiment,regulator 116 may include, for example, an air-pressure controller 216 for regulating air-pressure applied onblock 102, thereby controlling air-pressure applied onblock 102. - According to the invention, the amount of contact between
block 102 andbutton 104 may be achieved by applying a predetermined pressure onblock 102. In some embodiments,cylinder 114 may be set for a predetermined pressure so thatblock 102 may be allowed to move downwards to interface withbutton 104 only up to the level that corresponds to the predetermined pressure.Cylinder 114 may not allow further motion once the corresponding predetermined pressure is reached. In some embodiments whereblock head 106 moves along vertical axis, the predetermined pressure ofcylinder 114 would account for a weight ofblock head 106 as would be apparent. Other mechanisms may be used to provide a particular amount of pressure betweenblock 102 andbutton 104, as would be appreciated. - In conventional systems, wax is used to affix block 102 to
button 104. According to another aspect of the invention, as illustrated inFIG. 6A , blockingapparatus 100 may include aretractable dispensing nozzle 610 for dispensing wax.Retractable dispensing nozzle 610 may include, for example, a dispensingorifice 612 to deliver a wax or other fixing material onbutton 104.Retractable dispensing nozzle 610 may be extended out of a tank or storage reservoir in order to dispense wax (or similar fixing material) onbutton 104. After dispensing the wax or any other fixing material,retractable dispensing nozzle 610 may be retracted back inside the tank or reservoir. By extending and retractingretractable dispensing nozzle 610, the temperature of wax inside retractable dispensing nozzle can be maintained at the same temperature as wax in the reservoir thereby eliminating the problems found in conventional dispensing systems. - In some embodiments, as illustrated in
FIG. 6B , afterretractable dispensing nozzle 610 is retracted inside storage tank orreservoir 616, the surface of a storage tank orreservoir 616 may be sealed or otherwise covered. In some embodiments, storage tank orreservoir 616 may include a squeegee 624 that sealsretractable dispensing nozzle 610. This may serve one or more purposes including: preventing contaminants from being pulled into storage tank orreservoir 616; cleaningretractable dispensing nozzle 610 from any residual wax that may be accumulated on or aroundorifice 612; preventing wax from being clogged out of reservoir; and others as would be apparent. - In some embodiments,
retractable dispensing nozzle 610 may be adapted to hold a wax or any other fixing material at elevated temperatures. These temperatures may include a temperature sufficient to maintain wax in a liquid state or at a particular viscosity, as would be apparent. - According to another embodiment, blocking
apparatus 100 may include, for example, a temperature control mechanism (not otherwise illustrated) for controlling internal temperature of a storage tank orreservoir 616. According to another embodiment, blockingapparatus 100 may also include, for example, a cooling mechanism (e.g., a laminar flow cooling jet, etc.) (not otherwise illustrated) for cooling the dispensed wax onbutton 104 to quickly solidify the wax. - According to another embodiment, as illustrated in
FIG. 6C , blockingapparatus 100 may include, for example, astorage reservoir 616 for storing a fixing material (e.g., wax). In one embodiment,storage reservoir 616 may include, for example,retractable dispensing nozzle 610. In some embodiments, dispensingnozzle 610 may include, for example, a protruding delivery tube that delivers a fixing material (e.g., wax) onbutton 102. In another embodiment,storage reservoir 616 may include, for example, anelectrode 618 for heating the fixing material (e.g., wax). In some embodiments,storage reservoir 616 may include, for example, a temperature controller (not otherwise illustrated) that interfaces with electronic control system to control the heating of fixing material (e.g., wax). In yet another embodiment,storage reservoir 616 may include, for example, an insulating material that insulates the surface ofstorage reservoir 616 for preventing heat dissipation fromstorage reservoir 616. -
FIG. 7 illustrates an example of an alignment of ablocking apparatus 100. As illustrated inFIG. 7 ,seat 108 may be moved horizontally along the X or Y axis so that a position ofseat 108 orbutton holder 402 may be adjusted to align withblock 102. - According to another aspect of the invention,
button holder 402 may be aligned to block 102 as illustrated in the process outlined inFIG. 8 . As discussed above, during alignment, an alignment pin 103 (e.g., a blocking pin) is used in place ofblock 102. An alignment pin 103 (shown inFIG. 1B ) may be a blocking pin, a sample block or any fixture for the purpose of the alignment that would be apparent to the one skilled in the art. Inoperation 810,fastening mechanisms 406 ofseat aligner 404 may be loosened to allow movement ofseat 108 upon or withinseat stage 110 so that alignment can be achieved. Inoperation 812,block head 106, with thealignment pin 103 installed, may be lowered towardsbutton holder 402. Inoperation 814, vacuum may be created optionally insidechamber 410 ofseat aligner 404. Inoperation 816, the loweredalignment pin 103 may interface withbutton holder 402. Inoperation 818, the interfacedbutton holder 402 may fully engage thealignment pin 103. At this point, thealignment pin 103 andbutton holder 402 are aligned. In some embodiments,button holder 402 may disengageseat aligner 404 because of presence of vacuum insidechamber 410. As shown inoperation 820, thealignment pin 103 may be further lowered. In some embodiments, a surface (e.g., slanting surface 421) ofseat aligner 404 may engage a surface (e.g., slanting surface 420) ofbutton holder 402. Inoperation 824,seat aligner 404 aligns onseat stage 110 as their respective surfaces are engaged. In some embodiments,seat aligner 404 may self-align onseat stage 110. In other embodiments,seat aligner 404 may be manually or automatically aligned onseat stage 110. Inoperation 826,fastening mechanism 406 ofseat aligner 404 may be tightened to fix the alignment. Inoperation 828, after fixing the alignment, thealignment pin 103 may be disengaged frombutton holder 402 and block 102 may be placed for blocking. Once fixed, the alignment may be used for multiple blockings. - According to another aspect of the invention, a fixing material, in particular wax, may be dispensed onto
button 104 during the blocking process using a retractable dispensing nozzle as illustrated in the process outlined inFIG. 9 . Inoperation 912,retractable dispensing nozzle 612 is extended out ofstorage tank 616. Inoperation 914,retractable dispensing nozzle 612 may dispense fixing material onbutton 104. Inoperation 916,retractable dispensing nozzle 612 retracts back insidestorage tank 616. In one embodiment, squeegee 624 may wipe any residual wax accumulated in or around orificesretractable dispensing nozzle 612. In some embodiments, afterretractable dispensing nozzle 612 retracts back insidestorage tank 616, a nozzle position ofstorage tank 616 may be automatically sealed or covered. Inoperation 918, block 102 may be moved downward to contact withbutton 104. - According to another aspect of the invention, a pressure-based blocking process may be carried out as illustrated in
FIG. 10 . As shown inoperation 1005, blockingapparatus 100 or any part of blocking apparatus 100 (e.g., cylinder 114) may be set for a predetermined pressure, beyond which further motion ofblock 102 is inhibited. As shown inoperation 100, block 102 may be moved downward for contacting or interfacing withbutton 104 until the predetermined pressure is reached. As shown inoperation 1016, once the amount of contact reaches a predetermined level (e.g., a predetermined pressure); further movement ofblock 102 towardsbutton 104 is stopped. If the amount of contact does not reach the predetermined level (e.g., the predetermined pressure), moving ofblock 102 towardsbutton 104 may be continued until reaching the predetermined level (e.g., the predetermined pressure). - While a particular embodiment of the present invention has been described, it is to be understood that modifications will be apparent to those skilled in the art without departing from the spirit of the invention. The scope of the invention, therefore, is to be determined solely by the following claims.
Claims (13)
1. A method for aligning a block with a work piece, the method comprising:
providing a work-piece holder;
coupling an alignment pin to a block head;
displacing the work-piece holder or the alignment pin along an axis to bring the work-piece holder into engagement with and into alignment with the alignment pin;
placing a work piece in the work-piece holder;
substituting a block for the alignment pin in the block head; and
displacing the work-piece holder or the block along the axis to bring the work-piece into contact with the block and to fix the work piece to the block.
2. The method of claim 1 , wherein the work-piece holder is displaceably mounted on a seat stage such that it can be displaced in a plane orthogonal to the axis of displacement of the work-piece holder or alignment pin.
3. The method of claim 2 , wherein the work-piece holder is displaced in the plane when the alignment pin engages the work-piece holder as a result of the engagement.
4. The method of claim 3 , wherein the plane in which the work-piece holder is displaced is a horizontal plane
5. The method of claim 1 , wherein the work piece is placed in a recess of the work-piece holder.
6. The method of claim 1 , wherein the work-piece holder is adjustably positioned on a seat stage.
7. The method of claim 6 , wherein the work-piece holder is adjustably positioned in a cavity defined by the seat stage.
8. The method of claim 1 , wherein the work-piece holder defines an air space, and wherein the method further comprises regulating air pressure inside the air space of the work-piece holder to hold the work piece in place on the work-piece holder.
9. The method of claim 1 , wherein the block head is displaced along a vertical axis to displace the block and the alignment pin.
10. The method of claim 9 , further comprising controlling the displacement of the block head with a controlling mechanism.
11. The method of claim 1 , wherein the work piece is an unprocessed lens.
12. The method of claim 1 , wherein the work-piece holder is coupled with the seat stage via one or more fastening mechanisms.
13. The method of claim 12 , wherein the fastening mechanisms permit displacement of the work-piece holder on the seat stage.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US11/369,374 US20060194517A1 (en) | 2003-10-02 | 2006-03-06 | Method for precision alignment during a blocking process of lens manufacturing |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US10/676,124 US20050075060A1 (en) | 2003-10-02 | 2003-10-02 | Apparatus for precision alignment during blocking process of lens manufacturing |
US11/369,374 US20060194517A1 (en) | 2003-10-02 | 2006-03-06 | Method for precision alignment during a blocking process of lens manufacturing |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US10/676,124 Continuation US20050075060A1 (en) | 2003-10-02 | 2003-10-02 | Apparatus for precision alignment during blocking process of lens manufacturing |
Publications (1)
Publication Number | Publication Date |
---|---|
US20060194517A1 true US20060194517A1 (en) | 2006-08-31 |
Family
ID=34393546
Family Applications (2)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US10/676,124 Abandoned US20050075060A1 (en) | 2003-10-02 | 2003-10-02 | Apparatus for precision alignment during blocking process of lens manufacturing |
US11/369,374 Abandoned US20060194517A1 (en) | 2003-10-02 | 2006-03-06 | Method for precision alignment during a blocking process of lens manufacturing |
Family Applications Before (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US10/676,124 Abandoned US20050075060A1 (en) | 2003-10-02 | 2003-10-02 | Apparatus for precision alignment during blocking process of lens manufacturing |
Country Status (1)
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US (2) | US20050075060A1 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US9457411B2 (en) | 2012-02-17 | 2016-10-04 | Asphericon Gmbh | Collet |
EP2628557B1 (en) * | 2012-02-17 | 2016-11-23 | asphericon GmbH | Method of grinding and/or polishing a lens |
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Also Published As
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US20050075060A1 (en) | 2005-04-07 |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO PAY ISSUE FEE |