Glass manufacturing – Processes – Forming product or preform from molten glass
Reexamination Certificate
2001-04-27
2003-04-29
Derrington, James (Department: 1731)
Glass manufacturing
Processes
Forming product or preform from molten glass
C065S404000, C065S433000, C065S439000
Reexamination Certificate
active
06553789
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a method for producing quartz glass plates of a high refractive index homogeneity according to the kind of the patent claims.
As generally known, and in order to produce homogeneous streak-free quartz glass plates, quartz glass rods are molten and these are thermally transformed to yield the desired plate-shape. If necessary, and before the thermal transformation, the external (cladding) layer of a quartz glass rod of too low a refractive index homogeneity has to be worked off. The manufacture of quartz glass rods can be realized, for example, according to DE 32 26 451 and DE 42 03 287. Such a quartz glass rod has refractive index homogeneities which are better than 2×10
−6
in axial direction and in direction of the circumference, and better than 2×10
−5
in radial direction after working off of rim portions of the rod.
Therefore, only a certain core range of the quartz glass rod can be utilized for highly precise rotation symmetrical optical parts, which core range will mostly have been bored out by using a hollow diamond drill. Thereby, an outer annular cylinder remains as not being utilized. Up to now, such an annular cylinder was used for parts which, for example, only require a low optical homogeneity, if any.
In the manufacture of quartz glass plates, it very often does not depend on the rotation symmetrical arrangement of and the keeping to the homogeneities, but it rather depends on the keeping to the homogeneity per se, which is axially given for sure with≦2×10
−6
for the initial quartz glass rod.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a method which utilizes cylindrical rings or similar ones in the manufacture of optical components of high refractive index homogeneities from quartz glass rods.
According to the invention the object is realized by a method for producing quartz glass plates of high refractive index homogeneities from a cylindrical quartz glass body having a high refractive index homogeneity along its geometrical axis and in circumferential direction, and a variable refractive index curve at least opproximately in rotational symmetry to a cylinder axis X—X, comprising cutting out an interior portion of the cylindrical quartz glass body to form a ring shaped body, separating the ring shaped body into at least two concave parts along separation cuts substantially parallel to the axis X—X, separately inserting the at at least two concave parts into corresponding moulds, and heating the at least two concave parts in the moulds such that the at least two concave parts are respectively transformed into quartz glass plates of a desired thickness.
Advantageously, the streak-free initial quartz glass body is a cylindrical rod which preferably is separated into concave parts by concentric longitudinal sections after, if required, its outer layer has been worked off, for example, by abrasion. Basically and according to the invention an interior, preferably rotation symmetrical range of a high, however, at least of a sufficient refractive index homogeneity is cut out of the quartz glass body, whereby said range extends in direction of and in parallel to the axis X—X. The remaining body resulting therefrom, which preferably is a cylindrical ring, is longitudinally separated in at least two, preferably in three parts (segments), each of said parts is given into a respective mould and heated in such a way that it is transformed to a quartz glass plate of a desired thickness in said mould. Before the concave shaped parts are inserted into the mould, the radial extending limiting areas are preferably reduced in such a manner that the interior circumference is related to the external circumference at a ratio of 1 to 1.4 . . . 1.6 to each other. In other words: the interior circumference has to be multiplied by 1.4 to 1.6 to obtain the external circumference. The thickness of the transformed plate shall not substantially depart, if possible, from the radially extending thickness of the concave-shaped parts, on which it is based. The segments are placed into the mould in such a way that their curved outer faces, which are the original outer faces of the cylindrical ring, are the top side and the bottom side, respectively, of the transformed plate. It turned out as advantageous, when the length and the width of the mould with respect to its inner dimensions are adapted to the concave-shaped part in such a way that the external circumference of the concave-shaped part plus 2 mm will yield the width of the mould, and the length of the concave-shaped part plus 2 mm will yield the length of the mould. The optical axis O—O of the respective partial body, that is the direction in which it will be optically used, is at least substantially at right angles to the axis X—X of the original quartz glass body. Thus, it will be possible to manufacture plates with a refractive index homogeneity at right angles to the optical axis O—O of 2×10
−6
and better. Thereby the diameter and the height of the original quartz glass body, which can be intentionally manufactured by application of different manufacturing and forming technologies, also determine the dimensions of the quartz glass plate to be manufactured according to the invention, out of which, if required, a range of a sufficient refractive index homogeneity can be cut out. Within the scope of the invention there are further possibilities:
the manufacture of more than three segments out of one quartz glass ring;
the working-out of optical elements out of one quartz glass rod or out of at least one of the segments, the optical axis/axes of which (effective direction) is/are directed at right angles to the axis of the original quartz glass body.
REFERENCES:
patent: 3823995 (1974-07-01), Carpenter
patent: 5785729 (1998-07-01), Yokokawa et al.
patent: 6415630 (2002-07-01), Coriand et al.
patent: 3226451 (1984-01-01), None
patent: 4203287 (1993-08-01), None
patent: 0673888 (1995-09-01), None
Coriand Frank
Martin Rolf
Menzel Andreas
Schmidt Wolfgang
Derrington James
Jordan and Hamburg LLP
Schott Glass
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