Optical: systems and elements – Lens – With support
Reexamination Certificate
2002-03-14
2003-11-25
Ben, Loha (Department: 2873)
Optical: systems and elements
Lens
With support
C359S813000, C359S820000, C359S822000, C385S059000, C385S060000, C248S316400, C248S664000
Reexamination Certificate
active
06654186
ABSTRACT:
CROSS-REFERENCE TO RELATED APPLICATIONS
This application claims priority of German Application No. 101 12 714.6, filed Mar. 16, 2001, the complete disclosure of which is hereby incorporated by reference.
BACKGROUND OF THE INVENTION
a) Field of the Invention
The invention is directed to an arrangement for fixing an optical component part in position in a device housing, comprising a holder which is connected to the housing and which presses the component part into a cutout in the housing accompanied by pretensioning.
b) Description of the Related Art
There are many known variant solutions for fixing optical component parts in position in mechanical mounts or receptacles or housings of optical devices, most of which hold the component parts in a defined position at defined reference surfaces using specially composed adhesive substances.
This requires more or less complicated devices with which the component parts are initially aligned in their installation position. Fixing is carried out subsequently by applying the adhesive to the intended connection points between the component part and the receptacle or housing by means of additional devices.
Apart from the relatively high expenditure on devices, a common disadvantage consists in that the curing process for the adhesive substances entails waiting periods inherent to the technique which are undesirable in economic respects. Further, specially developed adhesives are required to prevent mechanical stresses, particularly in arrangements that are subject to high thermal and mechanical loading.
Accordingly, the composition of the adhesive substances that are used must be adapted to the coefficient of expansion of the material of the optical component part and of the housing. Full surface contact between the optical component part and reference surface of the housing is virtually impossible, so that the mechanical load capacity of arrangements of this type, such as those required, for example, for connecting a small plasma grating to an Invar substrate, is limited.
Further, fastenings are known, particularly for plate-shaped or right-parallelepiped optical component parts in a housing, in which the component part is fixed in position in the housing by mechanical elements such as adjusting and setting screws.
However, arrangements of the kind mentioned above have the disadvantage that the outer contours of the component parts must be adapted to the mechanical fasteners as, for example, when fixing mirrors or gratings in position so as to prevent rotation, which is also costly.
OBJECT AND SUMMARY OF THE INVENTION
Proceeding from the disadvantages of the prior art described above, it is the primary object of the invention to further develop an arrangement of the type mentioned in the beginning in such a way that fixing in position in achieved virtually without stresses even under thermal and mechanical loading while reducing technical expenditure.
According to the invention, this object is met in that the holder is fashioned in one piece from elastic material and is provided with clamps that are formed integral with it, at least one of which clamps presses the component part against a reference plane in direction of one of the coordinates X, Y, Z accompanied by pretensioning, and fastening elements are formed integral with the holder for securing it to the housing.
After the holder has been mounted in a very simple manner, which can be achieved in one movement, the optical component part is held in a defined manner in the X-, Y- and Z-direction under elastic pretensioning by the clamps which are formed integral with the holder. Different changes in length in the housing, optical component part and holder caused by thermal loading are compensated elastically. This also applies in analogous manner to mechanical loading caused by acceleration, shocks or blows.
The holder is advantageously produced from a spring metal sheet from which the clamps are punched out and angled depending on the coordinate direction X, Y, Z.
In a preferred construction, the holder is additionally outfitted with guide webs and the housing is outfitted with grooves, or vice versa, these webs and grooves engaging one inside the other in a positive engagement by which the holder is fastened to the housing.
The guide webs are formed, for example, by two portions which are angled and which accordingly project from the spring metal sheet in a claw-shaped manner and engage in correspondingly shaped counter-contours, i.e., grooves, in the housing. This enables, for one, a displacement of the holder relative to the housing as in a straight-line guide.
When mounting, the optical component part is initially inserted into the cutout and pushed against the reference surfaces facing in X-, Y- and Z-direction. The spring metal sheet is then fitted by inserting the guide webs into the grooves and displacing the spring metal sheet until the optical component part contacts the reference surfaces accompanied by pretensioning.
The holder is preferably constructed in such a way that two clamps are provided which press the optical component part against a reference plane oriented vertical to the Z-direction accompanied by pretensioning and two additional clamps are provided, one of which presses the optical component part against a reference plane oriented vertical to the X-direction and a reference plane oriented vertical to the Y-direction.
The holder is secured against displacement along the grooves in precisely that position in which the optical component part occupies its defined position.
Further, a substantial advantage compared to adhesive techniques consists in that it is possible to exchange the optical component part easily without the risk of damaging the holder or the housing.
The reference plane oriented vertical to the Z-direction is advantageously constructed as a three-point support. In contrast, the two reference planes oriented vertical to the X-direction and Y-direction can be constructed as contact surfaces or can be defined by contact points.
In order to maintain the frictional engagement between the optical component part and the reference surfaces on the housing when acted upon by acceleration forces and changes in length in X-, Y- and Z-directions, the pretensioning generated by the provided clamping elements, locking elements and guide elements is advisably so dimensioned, depending upon the load to be expected in special applications, that a change in position of the component part relative to the housing is prevented. This can be achieved, for example, by adapting the shape and pretensioning of the clamps or through a choice of material which takes into account the modulus of elasticity and the permissible tensions of the material.
In order to prevent the entrance of light or the penetration of moisture and dust between the reference surfaces at the housing and the contact surfaces of the optical component part, the optical component part can be connected with the housing additionally via a sealing compound, for example, in the form of a bead.
A possible selection of material could be, for example, BK 7 for the optical component part, Dispal for the housing and high-grade spring steel sheet for the holder.
The invention will be explained more fully in the following with reference to an embodiment example.
REFERENCES:
patent: 5390268 (1995-02-01), Morlion et al.
patent: 5574600 (1996-11-01), Agro
patent: 5619604 (1997-04-01), Shiflett et al.
patent: 6163417 (2000-12-01), Nunnally
patent: 6181490 (2001-01-01), Wun et al.
patent: 6382580 (2002-05-01), Wisniewski
patent: 6382842 (2002-05-01), Arima et al.
Correns Nico
Hoyme Werner
Kerstan Felix
Klarner Ullrich
Ben Loha
Carl Zeiss Jena GmbH
Reed Smith LLP
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