CN1073130A - A kind of polishing/Ginding process and equipment thereof - Google Patents
A kind of polishing/Ginding process and equipment thereof Download PDFInfo
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- CN1073130A CN1073130A CN 92114393 CN92114393A CN1073130A CN 1073130 A CN1073130 A CN 1073130A CN 92114393 CN92114393 CN 92114393 CN 92114393 A CN92114393 A CN 92114393A CN 1073130 A CN1073130 A CN 1073130A
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- lens
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- Grinding And Polishing Of Tertiary Curved Surfaces And Surfaces With Complex Shapes (AREA)
Abstract
The present invention is a kind of polishing or grinds the workpiece with radian curved surface, for example method and apparatus of lens, reflective mirror or ball.Lens to be processed are carried along landline, when workpiece by lens clamping device 8 when landline is picked up, clamping device 8 be in pipeline on the lens positions aligning on, be held device 8 at lens then and still remain on the locational while of picking up, lens are sent on the Working position.
Description
The present invention relates to the polishing or the attrition process of curve surface work pieces (for example lens, reflective mirror, spheroid or similar workpiece).
Japanese patent application publication No. (NO.63-17587) discloses a kind of prior art, and what relate to is automatic lens transmission device on a kind of lens grinding machine.This device comprises that lens carry detent mechanism A and lens to load onto/take off the B of mechanism.Described lens carry detent mechanism A to comprise 4 lens pressurization positioner b, b, and each device b comprises a central shaft 13, a workbench 11,30, one of a support shaft is contained in the polishing support M and the spring to the pressurization of polishing support at support shaft top; And be arranged on three with the corresponding locational lenses polishing device a of lens pressurizations positioner, a, a.Lens are loaded onto/are taken off the B of mechanism and are installed in and the not corresponding position of lens pressurization positioner, and a workbench 42 is arranged on it.
The workbench that the B of mechanism was loaded onto/taken off to lens is the rotation of segmentation spacing, rises and descend.Lens on the workbench are transported to lens and carry on the spacing position of rotation on the pressurization positioner of detent mechanism A.Lens are aspirated clamping by the clip of lens pressurization positioner, and are transported to continuously on the lens conveying detent mechanism A.Lens pressurization positioner rotates with the quadrant spacing.In addition, lens pressurization positioner rises on the spacing turned position and descends.Lens are transported to continuously on the workbench and reach on the lenses polishing device.
In addition, in Japan special permission open (NO57-127662) disclosed lens processing machine its constitute: a spin finishing stone 7 that is contained on the cutter shaft 11; Processing feeding workbench 10 along the centre of gyration line direction feeding of spin finishing stone; A working shaft 14 that rotatably supports institute's processing lens; With a tilt adjusting apparatus 13 that supports the working shaft of processing feeding workbench 10, it can make the rotation centerline of the rotation centerline of working shaft and grinding stone intersect one and give fixed oblique angle.The grinding stone processing lens of rotation make it form spherical.
Lens are by said apparatus, and promptly lens are loaded onto/taken off the B of mechanism and deliver on the workbench, and lens are being continuously delivered on the workbench on the lens pressurization detent mechanism A.In this case, if the transmission that the relative lens in lens material loading position polish between the Working position of processing is not an accurate and effective, just need the step and the guiding mechanism of an adjustment lens delivering position.
First purpose of the present invention is, a kind of polishing/Ginding process is provided, and it comprises a method of feeding, can be by this method with a workpiece, and for example lens are sent on the workpiece Working position from the workpiece transfer position exactly.
Another object of the present invention is, a kind of method of feeding and equipment are provided, and this equipment can be at workpiece, and for example lens utilize a gripping device to pick up workpiece exactly during transmission, and it is delivered on the Working position from transmitting the feed approach.
A further object of the invention is, the said equipment is so to be provided with, can make lens to be processed be clamped on the tool spindle and make the center line of lens and the rotation centerline of grinding stone between have and give fixed oblique angle, to provide a kind of equipment accurately to carry out lens to be processed are picked up from the feed transport path, picking up position alignment, the lens of picking up are delivered on the Working position, lens are processed, and after finishing fine finishining, change lens by processing unit (plant).
For achieving the above object, according to an aspect of the present invention, a kind of polishing or abrasive method are provided, in this method, the workpiece to be processed that transmits along transfer path is aimed at the gripping device that is used to pick up workpiece, and keep gripping device when picking up the position, workpiece is transported on the Working position.
The present invention further is provided with one can detect the checkout gear that whether there is article (workpiece) on the transfer path and the clamping device of holding articles on aligned position.Signal assurance articles clamping device according to checkout gear is being picked up the position.
According to a further aspect in the invention, also provide a kind of equipment, it has and is giving the device that allocation stops conveying work pieces along transfer path one; The device that workpiece is picked up from stop position; The device of polishing or grinding work-piece; The device that workpiece is sent to Working position will be picked up.According to a kind of pattern, this equipment also is included in gripping device clamping on clip position and in the workpiece, will stop at the device that workpiece on the transfer path is delivered to gripping device.
Further, processing unit (plant) also comprises a device that is used for processing the curved surface shaped instrument with curved surface to be processed and is used to adjust the curve surface of workpiece center of curvature and instrument oscillation center to be processed.According to another kind of pattern, processing unit (plant) comprises around the device of the instrument of part curvature center swing and is arranged on adjusting device on the pendulous device.In addition, according to the third pattern, the device that is used for picking up workpiece on the work holder is also simultaneously as the device of processing unit (plant) upper support workpiece.
The lens that are described to workpiece are transmitted on conveyer, are positioned and stop at one to give on the fixed stop position, are picked up by gripping device on this position, are sent to Working position on the processing unit (plant) with the revolution of gripping device.
Brief Description Of Drawings
Other purposes of the present invention and advantage are along with seeming clearer below in conjunction with the description of the drawings.
Fig. 1 is the perspective view of expression critical piece according to an embodiment of the invention;
Fig. 2 is the cutaway view of the lens clamping device critical piece that adopts of this equipment;
Fig. 3 is a view of how deciding the operation of the centre of sphere by the sphere centre positioning device on this equipment in order to explain;
Fig. 4 is the block diagram of this equipment of explanation control;
Fig. 5 is the flow chart of this EOP of explanation.
Embodiments of the invention (structure of devices illustrated) are described below with reference to accompanying drawings.
Fig. 1 is the perspective view of this equipment, and number in the figure represents to constitute the member of this equipment.Tabular pedestal of label 1 expression, it is formed by base plate 1b with the perpendicular vertical panel 1a of base plate.One first guider of label 2 expressions, it is contained on face of vertical panel 1a.First guider 2 is used at the processing unit (plant) of vertical direction up conversion (burnishing device) of vertical panel 1a and a sphere centre positioning device, and this will be described later.Guider 2 comprises: a support plate 2a, and it is fixed on the vertical panel 1a; One first guide plate 2b; One is fixed on the slide plate 2c that can slide up and down on the guide plate 2b; First motor M-1 and a feed screw d who is installed on the vertical panel 1a, the rotating shaft of it and motor M-1 links and is installed in slide plate 2c and goes up in the feeding lead screw hole.The control of the first slide plate 2c shift position is to be installed in the signal that encoder sends on the motor M-1 by response, and control leads to that the electric current of motor starting circuit realizes.
A motor M-3 that connects above-mentioned axle is rotated revoliving arm 6b, and the rotational angle of revoliving arm is to be installed in the signal that the encoder on the M-3 sends by response, and break-make M-3 current of electric is controlled.
Be fixed on revoliving arm 6b two ends be second lens clamping device 10 that is used to aspirate first lens clamping device 8 of the undressed article of clamping and is used to aspirate the finished article of processing unit (plant) 18 that the clamping back also will illustrate.
Lens clamping device is described as follows.
Fig. 2 is the cutaway view of the critical piece of explanation lens clamping device 8 and 10.
A hollow rotary body 8a is contained on the revoliving arm 6b by a bearing 8b.Rotary body 8a is by upper semi-body 8a
1With lower semi-body 8a
2Form.Hollow thread spindle 8c is threaded into lower semi-body 8a
2Inner hollow diameter among.Lower semi-body 8a
2Hollow hole internal diameter difference, ball lining 8d
1And 8d
2Be contained in lower semi-body 8a
2The inner hollow diameter bottom.First and second collar 8e
1And 8e
2Be contained in the above-mentioned ball lining.
The cylindrical body 8f of a hollow is contained in first collar 8e
1The upper end, spring part 8g is compressed between the top and thread spindle 8c of hollow posts body 8f.
Second collar 8e
2Upper end and bottom bearing part is housed, a drivable rotary body 8h is contained among the bearing part, the bottom that can drive rotary body 8h constitutes a lens suction clamping device.
First lens clamping device 8 comprises a motor M-4, the belt pulley 6c by the moving rotatable support of pivoted arm 6b, the clamping device shown in driving-belt 6d and Fig. 2, and this mechanism and belt pulley 6 link and are rotatably supported by revoliving arm 6b.
Second lens clamping device 10 has identical structure with first lens clamping device 8.
With reference to Fig. 1, label 12 is represented a conveying and the device of undressed object is provided, and 12a represents belt conveyor, and pallet 12b gives by one and being disposed on surely on the conveyer 12a, and unprocessed lens are placed in the pallet.
Should be arranged on the delivery location center that makes luminous energy pass lens delivery apparatus 14 by the luminous position of illuminating of detector.
Bool 18d
3On an axle 18f who is supported by a bearing 18e is housed.A hemisphere face instrument 18a is fixed on the top of a 18f.
The motor M of driven tool-6 is contained in bool 18d
4Lower surface on.Motor M-6 rotating shaft passes bool 18d
4On a via hole, a belt pulley (not shown) is fixed in the upper end of rotating shaft, belt pulley is positioned at bool 18d
3Upper surface on.One band 18g is with this belt pulley and the belt pulley (not shown) tension that is contained on the hemisphere face instrument 18a axle synchronously, and thus, the rotation of motor M-6 is passed to hemisphere face instrument 18a.
When the encoder (not shown) on being contained in motor M-7 detected the motor turned position, electrical power made swing arm carry out oscillating motion.And pendulum angle is by the signal variation control of encoder.
The label 20 expression centre ofs sphere are determined device, and it comprises a support plate 20a who is fixed on swing arm 18 bools, a guide 20b who is contained on the 20a; A centre of sphere that is installed on the support plate 18d is determined part 20c, and one drives motor M-the 8 and ball-screw spare 20d that the centre of sphere is determined part 20c, and it links to each other with machine shaft, is used on the A of direction shown in the arrow the mobile centre of sphere and determines part 20c.
The manipulation that the centre of sphere is determined is explained as follows.
Centre of sphere location means that the center of curvature on hemispherical instrument 18a surface and such point overlap: the intersection point of the axis of the swinging axle of rotation that this point is a rotary support member (the axle part 18f among Fig. 1) and swing motor M-7.
Fig. 3 is a schematic diagram, is used to help the operating process of explaining that the centre of sphere is determined.In Fig. 3, the parts label is consistent with label among Fig. 1, and with reference to Fig. 3, swing arm 18c is placed on the position parallel with support plate 18b.Symbol O among Fig. 3
1The straight line that expression connects being aligned to the axis of the driving rotary body on second lens clamping device and tool axis; Symbol O
2The axis of the rotating shaft of representative swing motor; O
3Represent a position line, lens are clamped and are processed by lens clamping device 8 and 10 on this position; Symbol R represents the radius of curvature of hemispherical instrument 18a; S is axis of oscillation O
2With Working position O
3Between distance; M is the axial length dimension of the center of curvature of hemisphere face instrument apart from its installation site; And N is that the installation site of bearing part 18e is to axis of oscillation O
2Distance.These sizes can be determined when design.
The following describes the program that sphere center position is determined.
(a) give the size that obtains R+M earlier, and height dimension N and S.
(b) drive the drive motors M-8 that determines the centre of sphere, make the centre of sphere determine that part 20c rises to the position of following formula set-point along guide plate:
N-(R+M)+R=N-M (1)
At this state, the center of curvature point of hemispherical instrument 18a and axis of oscillation O
2Overlap, the summit J of hemispherical instrument 18a rises to J ' position.
(C) drive motors M-8 once more makes the summit J ' and operating position O of instrument 18a
3Line coincides.
(d) motor M-1 of driving first guider makes support plate 18b move a following formula set-point:
(S-R) (2)
Above-mentioned (a)-(d) operation sequence can effectively be determined the centre of sphere.
Fig. 4 is the control block diagram of an expression present device.
Label B
1Representative is used for the power-on circuit of the motor M-1 of first slide plate; B
2Representative is used for the power-on circuit of the motor M-2 of second slide plate; B
3Represent the power-on circuit of drive motors M-3; B
4Represent the power-on circuit of the motor M-4 of first lens clamping device; B
5Represent the power-on circuit of the motor M-5 of second lens clamping device; B
6Represent the power-on circuit of hemispherical instrument 18a rotary electric machine M-6; B
7It is the power-on circuit of swing motor M-7; B
8It is the power-on circuit of determining the motor motor M-8 of the centre of sphere; B
9It is the power-on circuit that drives the motor M-9 of conveyer; B
10It is the power-on circuit that is used for the motor of delivery apparatus clamping; Above-mentioned power-on circuit links to each other with motor control assembly 22 respectively, the signal controlling that the energising direction of each motor and cycle are carried by control device 22.
The control device 30 of the cylinder body S-1 of delivery apparatus is connected to the control device 32 that is used to control delivery apparatus.Control device 32 links to each other with motion control device 26 again, is used for transmitting and accepting control signal.An article detection apparatus 16 links to each other with motion control device 26, and when the light receiving piece 16a of article detection apparatus 16 sent a detection signal, detection piece 16 can mark the signal whether indication article exist.The controller 36 that is used for totally controlling this equipment links to each other with motion control device 26 with motor control assembly 22.A device 38 can be differentiated lens clamping device whether lens in clamping, and resoluting signal of output is given controller 36 on the basis of the signal of first and second aspirators.
Be explanation below to the present device operation.
The operation of this equipment describes with reference to the flow process among Fig. 5.(step S-1: " step " will be omitted, and be expressed as S-1):
The center of curvature of the curvature of lens to be processed and hemispherical instrument is in original state fully.Therefore, suppose on the instrument 18a there are not lens.
(S-2): output drives a power on signal of conveyer 12a motor, makes pallet on the conveyer 12a along the direction feeding of D among Fig. 1.
(S-3): when pallet 12b moved on the bright light rays that article detection apparatus sends, checkout gear 16 sent a signal and reaches controller 36 by action control 26.
(S-4): after controller 36 is received above-mentioned signal, make conveyer belt motor M-9 outage by motor control assembly 22, conveyer stops to move.
(S-5): response motor M-9 power-off signal, under the control of the control device of delivery apparatus 14, control device 30 actions of cylinder body S-1.Holder 14b moves on position of conveyer 12a, picks up lens.
(S-6): article not shown in the figures are housed on the holder 14b keep sensor, differentiate by sensor signal whether lens in clamping.
(S-7): the action of cylinder body S-1 is the signal controlling by sensor, thereby makes delivery apparatus 14 move to the holding fix of first lens clamping device, and first lens clamping device in this wait position is placed in and is higher than operating position line O shown in Figure 3
3A lens clamping signal relevant with above-mentioned sensor is sent among the controller 36.
(S-8): delivery apparatus moves to holding fix, and the lens in the pallet on delivery apparatus are clamped on the pumping part on driven rotary body 8h by first lens clamping device then.
(S-9): the first lens aspirator comprises a suction checkout gear, and it is used for sending the signal that a suction is finished when lens are picked up, and this detection signal is transferred into controller.
(S-10): controller 36 sends power on signal by motor control assembly 22 to turning motor M-3 after receiving above-mentioned detection signal, makes cursor 6b revolution.Revolution is to finish by this way: cursor 6b rotates 180 °, and first lens clamping device 8 rotates on the holding fix line.
(S-11): above-mentioned rotation, by the signal controlling that is contained in the encoder on the motor M-3.The signal that is sent by this encoder is sent to controller 36.The motor M of the second guider device 4-2 is driven by this signal, and first lens clamping device of cursor is moved to operating position line O
3On.Therefore, be moved to the rotation O of hemispherical instrument shown in Figure 3 by the lens of the first lens clamping device clamping
1On.
(S-12): when cursor carries out the revolution action of step S-11,, carried out the accurate adjustment of the definite action of the centre of sphere also by each relevant apparatus.These install for example pendulous device (motor M-7), swing arm 18c) and sphere centre positioning device (centre of sphere is determined plate 20c or the like).So the position of cursor also must accurately be controlled when step S-11 carries out.For this purpose, detect the position signalling of motor M-3 turning cylinder by a rotational position detection device 40.Differentiate by a rotation error resolving device 42.
(S-13): if revolution resolving device 42 is differentiated the result within allowed band, running program continues next step, and rotation error exceeds allowed band if differentiate as a result, and error information is imported among the motor control assembly 22, thereby corrects the turned position.
(S-14): when the turned position of cursor is detected, the lens that clamped by the driving rotary body end aspiration of first lens clamping device will drop to Working position line O shown in Figure 3 from holding fix once more
3The position, this action is to correct on the basis of signal of information in rotation error discriminating device signal or position, sled motor M-1 finishes by driving.Be noted that when the lens that aspirated among the step S-14 descend, drop to axis of oscillation O shown in Figure 3 at eyeglass
2With tool axis of rotation line O
1During J ' of intersection point top, the summit of lens contact hemisphere face instrument 18a.This moment, lens were subjected to the pressure that lens clamping device and Tool Room produce.In this equipment, lens clamping device is provided with a pressure adjustmenting mechanism.Referring to Fig. 2, the pressure of spring part 8g can screw at following rotary body 8a by adjusting rotatably
2Hollow space among cannulated threaded part 8c carry out.
(S-15): by the synchronized movement of lens from the holding fix to the Working position, aspirated unprocessed lens abreast in second lens clamping device and the step 14.More particularly, drive conveyer 12a ordinatedly, transmit next pallet with the rotational synchronization of S-10 step.Delivery apparatus 14 holds up pallet effectively, and when first lens clamping device descended, lens were sucked clamping.
(S-16): putting motion in place when finishing when lens descend, process operation begins.Before processing, apply working fluid, process operation comprises: import following data to obtain a procedure 44 to a memory 46: the performance of the material of lens, the configuration of lens, processing capacity and machining tool, determine the revolution that hemisphere face instrument 18a sets, instrument angle of oscillation and swing speed, the revolution of the motor M of setting up-4 that is used for relay lens clamping device rotary body 8a, and the process-cycle on these data bases.These process datas are sent to controller 36 from procedure 44, and data are sent to each control device as control signal then.
(S-17): after giving fixed processing (S-16) finishes set by step, described each motor stops.The signal that the response procedure finishes sends second slide plate driving signal by motor control assembly 22 and is defeated by motor M-2.Therefore, cursor 6b rises to holding fix from Working position.
(S-18): followed by, after confirming that cursor rises to holding fix, rotary electric machine M-3 carries out rotational motion, makes finished lens and unprocessed lens transposition.When finished lens movement during to the position of uncut lens, S-12 and S-13 adjust set by step again in the position of lens.
(S-19): the finished lens by the first lens clamping device clamping are placed on the delivery apparatus 14, and the unprocessed lens by second lens clamping device suction clamping drop on the Working position from holding fix simultaneously.
(S-20): unprocessed lens are processed, and simultaneously, the lens of having processed are put on the pallet of conveyer 12a from delivery apparatus, and above-mentioned steps repeats.
Structure of the present invention as previously mentioned, the advantage of its demonstration is as follows.
Even processing curvature changes, also needn't adjust the Working position of clamper, because the invariant position of processing stand.In addition, the height of hemisphere face instrument is constant, thereby the rigidity of hemisphere face instrument can high-caliberly firmly be strengthened.
Another advantage is that a kind of accurate delivery apparatus is provided between uncut lens conveying/feeding device and lens clamping device.Therefore, the clamping posture of lens can accurately be kept.So, can prevent because the error that the defective of lens posture produces.Particularly, owing in the delivery operations of delivery apparatus, added the lens position measuring ability, thereby guaranteed positioning accuracy.In addition, according to the present invention, the clamping of the undressed and lens processed and transmission and process operation all in one-period, are finished by tumbler, therefore can improve production efficiency.Furtherly, providing a kind of can be feasible by the equipment that adopts a kind of like this structure accurately to adjust the centre of sphere.This equipment is-pendulous device and the centre of sphere determine that device is installed on the support plate 18b, and 18b makes its rising and decline by slide device.Whether correct further, the present invention has at uncut lens with the rotational motion of tumbler during to Working position, differentiate turned position function.Therefore, can improve machining accuracy.
Although the illustrated embodiment of the present invention has at large described by accompanying drawing.But the present invention is not subjected to the limitation of the above-mentioned embodiment that discusses, and the skilled person in this area can make various forms of alternate embodiment, and does not break away from the spirit and scope of the present invention.
Each hurdle note among Fig. 4
B
1-the first sliding part drive motors M-1
B
2-the second sliding part drive motors M-2
B
3-cursor drive motors M-3
B
4-first lens clamping device drive motors M-4
B
5-the second lens clamping device drive motors M-5
B
6-sphere tool drives motor M-6
B
7-swing motor M-7
B
8-centre of sphere positioning motor M-8
B
9-conveyer motor M-9
B
10-chuck motor M-10
The 24-first suction control device
The 28-second suction control device
The 30-first cylinder body control device
32-delivery apparatus control device
The 16a-article detection apparatus
The 16b-article detection apparatus
The 38-lens keep resolving device
The 40-rotational position detection device
42-rotation error resolving device
The 22-motor control assembly
The 26-motion control device
The 36-controller
44-procedure computer
The 46-memory
Fig. 5 A, Fig. 5 B
S-1: place initial position
S-2: conveyer motion
S-3: detector action
S-4: conveyer stop motion
S-5: pick up lens
S-6: detect whether lens in clamping
S-7: delivery apparatus motion
S-8: lens are aspirated by first lens clamping device
S-9: suction detects
S-10: cursor rotates
S-11: move first lens clamping device to the Working position line
S-12: rotation error is differentiated
S-13: turned position error correction
S-14: lens move to Working position from holding fix
S-15: the clamping of unprocessed lens
S-16: lens process operation
S-17: cursor rises
S-18: lens transposition
S-19: the lens of having processed are to checkout gear, and unprocessed lens are to Working position
S-20: unload finished lens
Claims (6)
1, a kind of polishing and/or the grinding work-piece method of lens for example, in the method, workpiece is sent to a Working position and processes in this position, and described method comprises the steps:
When picking up along part that landline transmits, effectively aims at the lens clamping device on the transport path;
This lens clamping device still remain on pick up the position in, workpiece is delivered to this Working position effectively.
2, method according to claim 1 is characterized in that: it further comprises and is aligned between landline and the lens clamping device step of giving these lens on the allocation.
3, the equipment of a kind of polishing and/or grinding work-piece, it comprises:
The clamping device that this workpiece is picked up from the workpiece transfer position;
Be positioned at the processing unit (plant) that gives set a distance apart from this transfer position one;
With the conveyer that this workpiece of described clamping device clamping is sent to described processing unit (plant) position;
Described conveyer comprise one with this workpiece in clamping, be sent to the parts of Working position from this transfer position;
Described conveyer moved to be the holding fix processed and the device of Working position.
4, a kind of equipment according to claim 3 is characterized in that: described conveyer can rotate picking up between position and the described holding fix of this workpiece.
5, a kind of equipment according to claim 4 is characterized in that: described processing unit (plant) comprises that one is used to polish and/or grind the sphere instrument of described workpiece and makes this instrument carry out the device of oscillating motion.
6, a kind of equipment according to claim 5 is characterized in that: described processing unit (plant) comprises the device of determining described sphere instrument sphere center position.
Applications Claiming Priority (6)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP32384691 | 1991-11-12 | ||
JP323846/91 | 1991-11-12 | ||
JP323846/1991 | 1991-11-12 | ||
JP283047/1991 | 1992-10-21 | ||
JP28304792A JPH05192857A (en) | 1991-11-12 | 1992-10-21 | Method and device for polishing and grinding |
JP283047/92 | 1992-10-21 |
Publications (2)
Publication Number | Publication Date |
---|---|
CN1073130A true CN1073130A (en) | 1993-06-16 |
CN1064292C CN1064292C (en) | 2001-04-11 |
Family
ID=26554877
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN92114393A Expired - Fee Related CN1064292C (en) | 1991-11-12 | 1992-11-11 | Polishing/grinding method and apparatus |
Country Status (2)
Country | Link |
---|---|
JP (1) | JPH05192857A (en) |
CN (1) | CN1064292C (en) |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN1055651C (en) * | 1997-03-14 | 2000-08-23 | 王斌武 | Round wheel type inscattering lens fine grinding and polishing machine |
CN102009190A (en) * | 2009-09-04 | 2011-04-13 | 萨特隆有限公司 | Device for the rotary machining of optical workpieces of materials of non-brittle hardness, particularly of plastics material spectacles lenses |
CN102441680A (en) * | 2011-09-26 | 2012-05-09 | 厦门大学 | Micro-vibration turning and polishing compound slide for internally progressive multifocal lenses |
CN104625943A (en) * | 2015-01-22 | 2015-05-20 | 肇庆美凌环保机械科技有限公司 | Grinding system and method for workpiece surface treatment |
CN105014501A (en) * | 2015-06-08 | 2015-11-04 | 武汉圣普太阳能科技有限公司 | Polishing machine for collecting lens |
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JP4347374B2 (en) * | 2007-08-20 | 2009-10-21 | 株式会社春近精密 | Lens processing equipment |
JP5123677B2 (en) * | 2008-01-25 | 2013-01-23 | 有限会社コジマエンジニアリング | Lens processing equipment |
KR101594795B1 (en) * | 2013-07-23 | 2016-02-17 | 카부시키가이샤하루치카세이미쯔 | Swing mechanism and spherical center swing grinding machine |
CN115415903B (en) * | 2022-10-09 | 2023-07-28 | 河北空调工程安装有限公司 | Building prefabricated part machining and polishing device and method |
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US2933863A (en) * | 1957-09-12 | 1960-04-26 | Doll Wilhelm | Apparatus for automatically supplying work pieces to glass treating machines for theoptical industry |
DE2937976C2 (en) * | 1979-09-20 | 1983-02-24 | Prontor-Werk Alfred Gauthier Gmbh, 7547 Wildbad | Machine for grinding or milling convex and / or concave spherical surfaces |
JPS57127662A (en) * | 1981-01-29 | 1982-08-07 | Ricoh Co Ltd | Lens processing machine |
JPS5871055A (en) * | 1981-10-22 | 1983-04-27 | Nippon Kogaku Kk <Nikon> | Lens holder |
JPS5916906B2 (en) * | 1981-11-20 | 1984-04-18 | 株式会社ニコン | lens polishing equipment |
JPS59161258A (en) * | 1983-03-04 | 1984-09-12 | Haruchika Seimitsu:Kk | Automatic conveyance device for lens in lens polisher |
JPS6299065A (en) * | 1985-10-22 | 1987-05-08 | Matsushita Electric Ind Co Ltd | Spherical surface grinder |
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- 1992-10-21 JP JP28304792A patent/JPH05192857A/en active Pending
- 1992-11-11 CN CN92114393A patent/CN1064292C/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1055651C (en) * | 1997-03-14 | 2000-08-23 | 王斌武 | Round wheel type inscattering lens fine grinding and polishing machine |
CN102009190A (en) * | 2009-09-04 | 2011-04-13 | 萨特隆有限公司 | Device for the rotary machining of optical workpieces of materials of non-brittle hardness, particularly of plastics material spectacles lenses |
CN102009190B (en) * | 2009-09-04 | 2014-04-02 | 萨特隆有限公司 | Device for the rotary machining of optical workpieces of materials of non-brittle hardness, particularly of plastics material spectacles lenses |
CN102441680A (en) * | 2011-09-26 | 2012-05-09 | 厦门大学 | Micro-vibration turning and polishing compound slide for internally progressive multifocal lenses |
CN104625943A (en) * | 2015-01-22 | 2015-05-20 | 肇庆美凌环保机械科技有限公司 | Grinding system and method for workpiece surface treatment |
CN104625943B (en) * | 2015-01-22 | 2016-06-01 | 肇庆美凌环保机械科技有限公司 | The grinding system of workpiece surface process and method thereof |
CN105014501A (en) * | 2015-06-08 | 2015-11-04 | 武汉圣普太阳能科技有限公司 | Polishing machine for collecting lens |
Also Published As
Publication number | Publication date |
---|---|
CN1064292C (en) | 2001-04-11 |
JPH05192857A (en) | 1993-08-03 |
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