US761061A - Apparatus for grinding and polishing toric lenses. - Google Patents
Apparatus for grinding and polishing toric lenses. Download PDFInfo
- Publication number
- US761061A US761061A US12590102A US1902125901A US761061A US 761061 A US761061 A US 761061A US 12590102 A US12590102 A US 12590102A US 1902125901 A US1902125901 A US 1902125901A US 761061 A US761061 A US 761061A
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- work
- motion
- tool
- grinding
- polishing
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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
- B24B35/00—Machines or devices designed for superfinishing surfaces on work, i.e. by means of abrading blocks reciprocating with high frequency
Definitions
- FRANCIS E COLLINSON, OF VVAKEFIELD, MASSACHUSETTS.
- My present invention relates to improvements in methods and means of automatically grinding and polishing cylindrical or torio lenses, whereby the" relative motion between the work and the tool shall be arbitrary, as distinguished from periodic, in character, while at the same time being entirely free from orientation.
- periodic motion I have meant such a motion as repeats itself.
- the motion is such as t0 cause that point to describe a given path on the surface of the work, which I will call a cycle,and to cause that given point on the tool to retrace the same path or cycle upon the surface of the work, repeating this operation throughout the polishing of the lens, then the tool may be said to have a periodic motion relative to the work.
- I have spoken of orientation I have referred to a relative turning of the tool and work.
- a given straight line be arbitrarily chosen in the tool for purposes of reference and another line be arbitrarily chosen in the work serial No. 125,901. (No model.)
- Figure 1 is a side elevation of a machine embodying my improved apparatus whereby my improved method of grinding may be practiced.
- Y Fig. 2 is a view in elevation of the. head end thereof.
- Fig. 3 is a view in section upon the line ai of Fig. 2.
- Fig. '4 is a vertical section transverse to Fig. 2.
- Figs. 5, 6, and 7 are views of a modification of a portion of the head'end of the maattached to the disk BG, mounted upon and revolved by the shaft B5.
- the range of this rocking motion may be varied by making the point of attachment of B7 and Bmore or less 100 distant from the center of B
- the workB is glued or otherwise suitably secured to a metal backing-piece, which in turn is loosely and removably attached to the head B by means of aspring work-holder B8, provided with means, such as the fork B9, for preventing orientation of the work AwhileA moving in its normal path.
- aspring work-holder B8 provided with means, such as the fork B9, for preventing orientation of the work AwhileA moving in its normal path.
- the work-holder itself is keyed within a s lot in the head B', (see Fig. 3, so that the work-holder may move up or down in the head without twisting.
- the tool C. is formed to correspond to the form of the lens to be produced. It is moved transversely to the path of motion of the work B by means of the sliding rod C', which is caused to reciprocate in bearing C2 aty one end, while supported and guided by the gibbed block 'C3 (see Fig. 2) at the opposite end. Iteciprocating sliding motion is imparted to this rod by means of the connecting-rod C4, mounted eccentrically upon the disk C5, which in turn isimounted upon the shaft C, engaging through'the pinion C7 with the beveled gear C8 upon the main driving-shaft B5. If this gear C8 were tightly mounted upon the shaft B5, the relative times of the motions otl the ⁇ work and tool would always be the same and periodic motion or relation would result.
- the gear Cs is attached to the shat't B only byl thepressurel of a spring Cq bearing against a collar C10, connected to the gear C", which is free to slide upon the shaft B5, the spring-pressure thus forcing the gear C8 into frictional contact with a collar Cu upon said shaft Br.
- slip between the gear Cg andthe collar 'Cu occurs arbitrarily'or at unpredetermined times under the varyingpres'sure between the tool andthe work, and thus operates to vary the relative times of the vmotions of the tool and the work automatically and arbitrarily.
- I claim- 1 In a machine for grinding and polishing aplens having a definite axis or axes, the combination of a tool formed to correspond to the form of the lens to be produced, means for establishing a rubbing contact between this tool and the work, and means for automatically'and arbitrarily producing a relative motion of translation between these parts, and at the same time preventing orientation.
Description
No. .761,061- PATENTED MAY 31, 1904.
Y F. 'L coLvLINsoN. APPARATUS POR GRINDING ANDPOLISHING T ORIG vLENSES.
' APPLwATIoljI FILED 00T. 4. 1902.
1510 no1-mn.
No. -l761.061.- PATBNTED MAY 31, 1,904.
. F. E. o oLLINsON. APPARATUSFOR GRINDING AND POLISHING TORIG LBNSES.
APPLICATION FILED OUT. 4, 1902.
Il mlrflllglllrn WMWM , 110;. 761,061. 1111111111111 MAY 3.1, 1904. l 1". E. GOLLINSON. y
' APPARATUS P011 1111111111111; AND POLISHING 1101110 LENsEs.
APPLIUATION FILED 00124. 1902. N0 MODEL. l 3 SHEETS-SHEET 3.
No. I761,061.
Patented May 31, 1904.
UNITED STATES PATENT OFFICE.
FRANCIS E. COLLINSON, OF VVAKEFIELD, MASSACHUSETTS.
APPARATUS FOR GRINDING AND POLISHING TORIC LENSES.
SPECIFICATION forming part of Letters Patent No. 761,061, dated May 31, 1904.
Application led October 4, 1902.
To all whom it may concern,.-
Be it known that I, FRANCIS E. CoLLINsoN, a subject of the King of Great Britain, but having declared my intention of becoming a citizen of the United States, and a resident of Wakeiield, in the county of Middlesex and State of Massachusetts, have invented certain new and useful Improvements in Apparatus for Grinding and Polishing Toric Lenses, of which the following is a specification. v p
In grinding or polishing a lens, whatever be its character, it is necessary to place the piece of glass to be treated, which I will hereinafter speak of as the work, in rubbing contact with a properly-shaped tool and to establish a relative motion between thetool and the work. In the case `of a spherical lens this relative motion may include both translation and orientation; but in the case of a lens having a definite axis or axes orientation is not permissible. I have found that in polishing a lens if the relative motion between the work and the tool be of a periodic type fine lines will be discernible upon the surface of the finished lens, due to and indicating the periodic character of the motion.
My present invention relates to improvements in methods and means of automatically grinding and polishing cylindrical or torio lenses, whereby the" relative motion between the work and the tool shall be arbitrary, as distinguished from periodic, in character, while at the same time being entirely free from orientation.
By periodic motion I have meant such a motion as repeats itself. Thus taking any given point on the tool, if the motion is such as t0 cause that point to describe a given path on the surface of the work, which I will call a cycle,and to cause that given point on the tool to retrace the same path or cycle upon the surface of the work, repeating this operation throughout the polishing of the lens, then the tool may be said to have a periodic motion relative to the work. When I have spoken of orientation I have referred to a relative turning of the tool and work. Thus if a given straight line be arbitrarily chosen in the tool for purposes of reference and another line be arbitrarily chosen in the work serial No. 125,901. (No model.)
for the same purposes then an orientation of the tool with respect to the work would simply amount to a motion which would change the angle of these two lines of reference with respect to each other.
In polishing spherical lenses mechanically and automatically vthe tracing of fine lines upon the lens-surface due to any periodic character'in the motion of translation may easily be avoided by combining a motion of orientation with such motion of translation; but in the polishing of cylindrical and toric lens-surfaces orientation is not permissible, and therefore some other means must be devised to prevent the formation of these fine lines upon the surface of the finished work. By my present invention I accomplish this by automatically producing what I term an arbitrarily relative motion of translation of the tool and work without orientation.7 In the specific embodiment of the invention herein particulary described such arbitrary character of the motion of translation is secured by permitting slip or lost motion to occur between the. driving mechanism'and the mechanism directly controlli-ng the motion of relative translation of the work and'tool.
In the drawings, Figure 1 is a side elevation of a machine embodying my improved apparatus whereby my improved method of grinding may be practiced. Y Fig. 2 is a view in elevation of the. head end thereof. Fig. 3 is a view in section upon the line ai of Fig. 2. Fig. '4: is a vertical section transverse to Fig. 2. Figs. 5, 6, and 7 are views of a modification of a portion of the head'end of the maattached to the disk BG, mounted upon and revolved by the shaft B5. The range of this rocking motion may be varied by making the point of attachment of B7 and Bmore or less 100 distant from the center of B The workB is glued or otherwise suitably secured to a metal backing-piece, which in turn is loosely and removably attached to the head B by means of aspring work-holder B8, provided with means, such as the fork B9, for preventing orientation of the work AwhileA moving in its normal path. For the same reason the work-holder itself is keyed within a s lot in the head B', (see Fig. 3, so that the work-holder may move up or down in the head without twisting.
The tool C. is formed to correspond to the form of the lens to be produced. It is moved transversely to the path of motion of the work B by means of the sliding rod C', which is caused to reciprocate in bearing C2 aty one end, while supported and guided by the gibbed block 'C3 (see Fig. 2) at the opposite end. Iteciprocating sliding motion is imparted to this rod by means of the connecting-rod C4, mounted eccentrically upon the disk C5, which in turn isimounted upon the shaft C, engaging through'the pinion C7 with the beveled gear C8 upon the main driving-shaft B5. If this gear C8 were tightly mounted upon the shaft B5, the relative times of the motions otl the` work and tool would always be the same and periodic motion or relation would result. To prevent this and to have a change in the relative times of these motions occur arbitrarily or at times not predetermined, the gear Cs is attached to the shat't B only byl thepressurel of a spring Cq bearing against a collar C10, connected to the gear C", which is free to slide upon the shaft B5, the spring-pressure thus forcing the gear C8 into frictional contact with a collar Cu upon said shaft Br. By suitably regulating the spring-pressure, slip between the gear Cg andthe collar 'Cu occurs arbitrarily'or at unpredetermined times under the varyingpres'sure between the tool andthe work, and thus operates to vary the relative times of the vmotions of the tool and the work automatically and arbitrarily.
-I believe it to be clear that by substituting for the slip connection above described'amutilation of either the gear Cx or the pinion O7, or both, a certain change in the relative'time of the motions of the tool and work will result; but such change would 'still occur at predetermined intervals. While these intervals might be suiiciently long to considerably lessen the degree to which the injurious ine.
lines would be produced upon the surface of the iinished work, yet the apparatus would still be periodic and to that extent objectionable and imperfect. y
In the modilication of the apparatus shown in elevation at Figs. 5, 6, and 7 the sliding motion of the Arod (Y is caused to impart a rocking motion to the tool C. rIhis is accomplished by mounting the tool pivotally upon a standard or post C12, secured upon the base A., (See Fig. v6.) VBy .this construction it will be seen that a rocking motion is imparted to the tool, which is transverse to the rocking motion imparted to the work, but that orientation is prevented, as before. Moreover, the relative times of these motions will be still automatically varied by reason of the variation in time of motion of the sliding rod C.
I claim- 1. .In a machine for grinding and polishing aplens having a definite axis or axes, the combination of a tool formed to correspond to the form of the lens to be produced, means for establishing a rubbing contact between this tool and the work, and means for automatically'and arbitrarily producing a relative motion of translation between these parts, and at the same time preventing orientation.
2. In a machine for grinding and polishing a'lens having a definite axis or axes, means for automatically and simultaneously moving the work and the grinding-tool in'transverse paths, and means foi-.automatically and arbi-` trarily varying the relative times of such motions. 3. In a machine for grinding and polishing a lens having a .definite aXis or axes, means for automatically and simultaneously moving the worlrandthe grinding-tool in transverse paths, and means for automatically and arbitrarily varying the relative times oi' such motions through the medium of slip or lost motion as set forth. y
In testimony whereof I have hereunto subscribed my name this lst day of October, 1902.
FRANCIS E. COLLINSON. Witnesses:
CHARLES C. KURTZ, ELLEN B. ToMLiNsoN.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US12590102A US761061A (en) | 1902-10-04 | 1902-10-04 | Apparatus for grinding and polishing toric lenses. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US12590102A US761061A (en) | 1902-10-04 | 1902-10-04 | Apparatus for grinding and polishing toric lenses. |
Publications (1)
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US761061A true US761061A (en) | 1904-05-31 |
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Application Number | Title | Priority Date | Filing Date |
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US12590102A Expired - Lifetime US761061A (en) | 1902-10-04 | 1902-10-04 | Apparatus for grinding and polishing toric lenses. |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2572443A (en) * | 1948-11-24 | 1951-10-23 | Percy Hermant Ltd | Cylinder lens lapping machine |
US2835086A (en) * | 1954-11-04 | 1958-05-20 | Gordon L Longmire | Oscillating wheel dresser for resistance type welders |
US4510717A (en) * | 1982-12-16 | 1985-04-16 | Coburn Optical Industries, Inc. | Lens finishing apparatus |
-
1902
- 1902-10-04 US US12590102A patent/US761061A/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2572443A (en) * | 1948-11-24 | 1951-10-23 | Percy Hermant Ltd | Cylinder lens lapping machine |
US2835086A (en) * | 1954-11-04 | 1958-05-20 | Gordon L Longmire | Oscillating wheel dresser for resistance type welders |
US4510717A (en) * | 1982-12-16 | 1985-04-16 | Coburn Optical Industries, Inc. | Lens finishing apparatus |
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