Abrading – Abrading process – Glass or stone abrading
Reexamination Certificate
1999-07-14
2002-05-07
Hail, III, Joseph J. (Department: 3723)
Abrading
Abrading process
Glass or stone abrading
C451S042000, C451S044000
Reexamination Certificate
active
06383061
ABSTRACT:
TECHNICAL FIELD
The present invention relates to a procedure of processing optical lenses and to an apparatus for implementing such a process.
BACKGROUND ART
For the fabrication of lenses, hot-pressed glass blanks are normally processed. Such blanks have a shape of flat cylinder disks, or have faces which may be curved, depending on the desired shape for the lens to be produced. In the prior art, the glass blanks are first given the desired contour by means of grinding machines. A first device coarse-grinds the lens blank on one side and provides the blank with a polishable finishing surface in a second operation. The lens is then removed from the first device, turned around, and is also coarse-ground and precision-ground on the other side thereof by a second grinding machine. Then the lens is polished on both sides thereof in a third device. Finally, the rim of the thus polished lens is processed in a fourth device, a so-called centering machine.
The lens rim is provided with a precise circular geometry, possibly also with chamfers at the edges so as to give them a better shock resistance. During the centering operation, the lens is held between metal centering bells which align the lens so that its optical axis coincides with the rotating axis of the centering spindle. With unfavorable lens shapes, however, when there is no self-centering effect of the centering bells, the lenses have to be centered in a separate centering device by means of a light ray before they are cemented to a centering spindle, set into rotation by means of this spindle and ground at their outer rim in order that the optical axis of the lens coincides with its geometrical axis.
A disadvantage of the procedure employed by the prior art for manufacturing lenses is that two grinding machines and a centering machine are required, in addition to the polishing machine. This represents the most modern known technology and under the further assumption that coarse grinding and precision grinding of each side of the lens is already done in a single device. Nevertheless, a large amount of machinery is involved. Another disadvantage of the prior art is that by means of the metal tools used therein, e.g., the above noted centering bells, the polished lenses are chucked in the centering machine at their delicate polished surfaces, which thus may be easily damaged.
Moreover, it is disadvantageous that with the conventional procedure described above, each lens is chucked at its circumference which has only the quality and precision of a glass blank. When the first lens side has been finished, the lens is turned about as hereinabove described and rechucked in a second device. During this rechucking and centering at the still little precise circumference of the lens, undesirable inaccuracies and differences between the optical axes of the two lens sides may occur.
It is an important object of the present invention to manufacture lenses more cheaply and, at the same time, to increase the processing accuracy. Additionally, the proposed procedure and the device for its implementation aim at simplifying coarse grinding and precision grinding of the two lens sides as well as simplifying centering operations.
DISCLOSURE OF THE INVENTION
The present invention aims at overcoming these and other drawbacks of the prior art.
In accordance with the invention, in a method of processing optical lenses where a blank of a lens body is chucked and provided with a predefined contour by coarse and finishing tools through grinding and polishing operations, a lens body is provided with a chucking extension which permits and requires that only a single chucking operation be performed on the blank, the chucking extension being removed at the end of the process.
The inventive method is thus based on a novel geometry of the lens blank, of which a normal hot-pressed glass body will do whose shape can be varied with certain limits without the necessity of incurring appreciable extra cost. The new shape of the lens body differs from the previous standard shapes of lens blanks by including a chucking extension of, for example, a few millimeters height on one side of the lens body, which is thus set off to be noticeably smaller in diameter than the overall outer diameter of the lens body.
This basic shaping of the lens body makes it possible to carry out the aspects of the invention wherein coarse and precision processing of one side of the lens body is performed in one and the same chucking of the extension, whereupon the chucked lens body is turned around and processed on the back in the same single chucking position. During these operations, the optical axis of the lens and its geometrical axis will coincide substantially perfectly, as the lens body is chucked only once. Subsequent centering of the lens in a special centering machine is thus unnecessary since the lens is already centered when it leaves the first processing step.
In accordance with another aspect of the invention, the removal from a first chucking device and the insertion into a second chucking device are performed in a single intermediate stalling and inverting operation. Advantageously, this feature of the invention not only saves considerable auxiliary machinery, but also contributes substantially to the precision of lens processing.
According to another feature of the invention, it is further possible with this method to process the rim of the lens body during each chucking operation In particular, according to another feature, the lens body circumference is processed for subsequent centering in a first chucking position. Therefore, the lens body will be rechucked at its already processed and thus very precise circumference, and consequently may be accurately aligned to the rotation axis of the workpiece spindle. It is thus ensured that during subsequent coarse grinding and precision grinding of the second lens side, the optical axis of this lens surface will again coincide exactly with its geometrical axis.
In a specific embodiment of the invention, controlled movements of the workpiece and the tools towards and away from each other are performed in a single machine in such a way that each side of the lens body is processed first on its face and subsequently on its circumference. According to another feature, a partly processed or finished lens body may be provided with an edge chamfer on at least one side in order to protect the edge, or each edge, of the lens body, respectively.
According to another aspect of the invention, a device for processing optical lenses according to the invention is distinguished by the following features:
a) a machine column is provided with motor drives and guiding means for two vertically displaceable workpiece spindles for a blank of a lens body to be received by them for processing;
b) two tool spindles that are horizontally displaceable in an X axis direction and are slewable at a right angle thereto around a horizontal slewing axis B are associated to the workpiece spindles in variable opposite arrangement;
c) an unloading device that is displaceable perpendicularly to the horizontal slewing axis B is arranged between the tool spindles, and
d) a loading device slewable around a further slewing axis C is associated to the unloading device.
It will be appreciated that such a device designed in accordance with the invention permits complete processing, so that only this single machine will be required for coarse grinding and precision grinding of both lens sides, as well as for centering and application of chamfers.
According to another aspect of the invention, the device is preferably designed in such a manner that the slewing axes are parallel to each other and are substantially at right angles to the X axis, whereby a very compact structure is achieved.
According to yet another feature of the inventive apparatus, both workpiece spindles comprise chucking means for the lens body, and particularly may include collets that may be pneumatically or hydraulically operable. Moreover, in accordance with another aspect of the invention, the unloadi
Berry Jr. Willie
Gopstein Israel
Hail III Joseph J.
OPTO-Tech GmbH
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