Optical: systems and elements – Lens – With support
Reexamination Certificate
2000-10-06
2003-05-06
Epps, Georgia (Department: 2873)
Optical: systems and elements
Lens
With support
C359S818000, C359S819000, C359S830000
Reexamination Certificate
active
06560045
ABSTRACT:
BACKGROUND OF THE INVENTION
a) Field of the Invention
The invention relates to a lens holder comprising a lens and a lens mount in which the lens is elastically mounted in the radial fashion over the circumferential surface of the lens.
b) Description of the Related Art
Such an embodiment is known in the widest sense from German patent application DE 35 21 640.
Mounting the optical elements with low stresses is a central problem in the development of UV high-performance lenses. Mounting with low stresses is taken to mean that as far as possible the optical element experiences no deformation through the mount itself, and that dynamic and thermal loads do not lead to any strains or to maladjustment of the optical element.
A multiplicity of arrangements are known from the prior art for the purpose of solving this problem, and in these cases an optical element such as a lens is held in a mount with the aid of elastic means.
For example, German patent application DE 28 46 241 A1 discloses an arrangement in which a lens guided radially in its mount is pressed axially against a fixed bearing surface by at least two platelets engaging over the end region of the lens. The platelets are made from an elastic material and are held in a self-closed fashion in the mount in such a way that they bear under pretensioning against the lens.
A thermal expansion of the lens in the axial direction can be compensated by the axially elastic bearing of the lens. Likewise, dynamic loads can be damped. In order also to permit radial thermal expansion of the lens without the occurrence of radial stresses in the lens, which can lead to dramatic worsening of the optical imaging, there must be adequate play in the fitting of the mount and of the lens as a function of the different coefficients of thermal expansion. However, within this play of the fitting maladjustments can occur under the action of radial dynamic loads.
German utility model G 86 25 896 describes a second axially elastic holder for optical components in a mount. Here, the elastic holding element is in the form of a closed ring which bears against the mount in the edge region of the lens, on the one hand, and in a groove provided for the purpose, on the other hand.
A disadvantage of this solution is that dynamic loads are transmitted virtually undamped onto the lens via the ring, which is rigid in the radial direction.
As in the solution previously mentioned, the spring forces act to hold the lens on the optically effective face. Since the absolute value of the spring force changes as a function of the thermal expansion of the lens, changed states of stress occur in the lens which fail to meet the high requirements placed on the imaging quality, in particular in the case of high-performance lenses. DE 196 32 267 A1 discloses a lens holder in the case of which locating noses constructed on the lens mount bear in an engaging groove constructed on the lens (including a cemented lens cluster), in order to hold the lens in the mount in a self-closed fashion. In the case of a cemented lens cluster, the engaging groove is formed by the phase surfaces meeting at the cemented surface. In the case of an individual lens, the engaging groove is not an actual groove but a phase surface of the lens. The position of the lens inside the mount is determined in the radial direction by a play in the fitting between an inner circumferential surface of the lens mount and an outer circumferential surface of the lens, and in the axial direction by pressing the edge region of an end face of the lens against a holding projection of the mount.
The mount is neither thermally nor mechanically stable. In the case of expansion and shrinkage of the lens material as a consequence of a thermal load, there is necessarily a relative displacement with respect to the mount, and therefore friction, on the one hand, on the bearing surface of the locating noses in the engaging groove of the lens and, on the other hand, on the bearing surface of the holding projection on the end face of the lens. The backsliding caused by the friction has the effect that the displacement takes place in an undefined fashion and the lens does not return to its initial position. For high-performance lenses, such a maladjustment is already capable of substantially reducing the imaging quality. The additional securing of position by means of adhesive renders the lens holder unsuitable for UV radiation.
Mechanical loads such as shocks are transmitted onto the lens without being damped in the radial direction. Another disadvantage is that pressures act on the lens via its optically active end face, and this can lead to deformation of the lens.
German patent application DE 35 21 640 A1 discloses a holder which is elastic in the radial direction. It comprises at least three ribs which are preferably provided distributed uniformly on the cylindrical circumferential surface of the lens and are made from a highly elastic material, advantageously from silicone rubber. These are compressed when the lens is installed in the mount. The mount and the lens can expand differently without impedance in the axial direction owing to the only slight indirect contact surface between the mount and the lens on the circumferential surface of the lens.
The centering of the lens in its mount is always ensured independently of thermal and dynamic loads. It is also advantageous that the forces acting act on the circumference and not on an optically effective face. In order to improve the positional stability, it is proposed to make use of a retaining ring, likewise provided with elastic ribs, or a plug-in ring, which is to be bonded in, which fixes the lens additionally in the axial direction. This becomes indispensable for lenses of relatively large mass, and signifies additional outlay on mounting.
However, it is not possible to make use for high-performance lenses, which require UV resistance because of the radiation used, of any organic materials such as, for example, adhesives, potting compounds, silicone rings and similar materials, since these decompose in the long term under the action of UV radiation and constitute a contamination risk. It follows that indirect elastic mounting using organic materials, such as is known from DE 35 21 640, is not suitable for high-performance lenses.
OBJECT AND SUMMARY OF THE INVENTION
It is the primary object of the invention to create a lens holder which is suitable, in particular, for UV lenses and in the case of which the lens is held elastically in a radial fashion at its circumferential surface. Moreover, the lens holder is to have a shape such that the lens can be mounted easily and quickly and can also be effectively rinsed in the mounted state.
The invention achieves this object for a lens holder by virtue of the fact that an annular groove is constructed on the circumferential surface of the lens and the elastic elements are segments which are formed on the lens mount and whose free ends engage radially in the annular groove, and the lens is held radially and axially exclusively via this connection.
The formation of radially elastic segments on the lens mount itself creates a lens mount in which a lens can be mounted with low stresses, directly and without additional means on its circumferential surface.
The geometry of the segments is variable and can therefore be adapted in coordination with the material constants of the mount, the dimensioning of the segments and the desired spring stiffness to the existing space conditions for the lens mount.
The segments are of the same dimensions and engage in a radially uniformly distributed fashion in the annular groove introduced on the circumferential surface, with the result that the lens itself is centered in the lens mount. The spring stiffness of the individual segments, and the pretensioning force exerted by them on the lens are the same. The annular groove lies in a radial plane.
The different thermal expansions of the lens mount and the lens are compensated in the radial direction via the spring action of the segments, while the
Epps Georgia
Jenoptik Aktiengesellschaft
O'Neill Gary
Reed Smith LLP
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