Multiple-axis laser emitter with optical beam splitter

Geometrical instruments – Straight-line light ray type – Alignment device

Reexamination Certificate

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Details

C033SDIG002, C033S290000, C033S285000, C033S281000, C033S282000, C033S283000, C356S138000, C356S149000, C356S250000, C356S636000

Reexamination Certificate

active

06694630

ABSTRACT:

BACKGROUND OF THE INVENTION
The invention relates to a multiple axis laser emitter with an optical beam splitter, which emits in at least 3 directions perpendicular to each other and, preferably, is self-leveling with respect to gravity.
Such a multiple axis laser emitter with three to five visible laser emitters oriented along the axes of a Cartesian coordinate system is used, in particular, in the construction industry, for surveying and leveling. The beam splitter of the multiple axis laser emitter is conventionally suspended moveably in a housing and point-supported by gravity.
U.S. Pat. No. 5,617,202 discloses a beam splitter for a self-leveling multiple axis laser emitter, which visibly emits in 3 different directions, whereby the beam splitter comprises mirror surfaces masked by a collimator oriented 45° to the main beam, wherein the mirror surfaces are reflectively coated prism surfaces or single mirrors cemented together. A mildly curved lens for each component beam is arranged in the housing to compensate for a persistent leveling error, in the moveable housing of the point-support of the beam splitter, by the lateral displacement therethrough of the component beams relative to the housing. The cross-sectional elliptical laser beam is parallel to a component beam and polarized perpendicular to another component beam.
Further, EP 797071 discloses a self-leveling optical assembly with a laser light source and a prism, to which a pair of optical wedges are located upstream in the beam path, which provide angular correction and combined minimize an angular error at the time of leveling.
The object of the invention is to provide a highly precise multiple axis laser emitter with which a lower precision optical beam splitter can be used.
SUMMARY OF THE INVENTION
The object is achieved by the present invention. According to the invention, a multiple axis laser emitter comprises a beam splitter with at least two reflective coated mirror surfaces arranged perpendicular to each other and each oriented relevant to a collimated main beam of a laser light source at an angle of 45° and to each other at an angle of 90° , whereby an optical wedge is arranged downstream in the beam path of at least one component beam, said component beam is deflected by the mirror surfaces at an angle of 90° relative to the main beam.
With the use of a lower precision beam splitter, at least one component beam deviates, from the precise 90° deviation relative to the other component beams, even with an optimal arrangement of the beam splitter prism. At least one concrete optical wedge comprising a stepped set of different optical wedges can be selected at the time of manufacturing the beam splitter, for correction of the persisting residual angular error, said optical wedges being arranged behind the beam splitter for reducing the residual error below a permissible threshold value.
Preferably, the mirror surfaces are prisms coated with reflective metal or dielectric material and can be technologically simple, cast in glass or injected plastic in the assembled form.
Preferably, the beam splitter is pivotally adjustable about two axes transverse to the main beam, whereby by appropriate prior selection of the angular position, two component beams at an angle of 90° may be adjusted, and the error between two other component beams can be reduced.
Preferably, the mirror surfaces of the beam splitter are, at least partially, assembled, into a compact integral beam splitter and, preferably, by cementing, whereby the individual component beam splitters, for example, in the form of four 45° prisms, are technologically simpler to manufacture. The angular errors between the component beams due to the lesser precision of the beam splitter that must be accepted is compensated for, to higher precision, by the solution offered by this invention.
Preferably, the optical wedge is fixed relative to the beam splitter, whereby the beam splitter and the associated splitter plate form a compact, precision module for beam splitting.
Alternatively, preferably, in a beam splitter moveably mounted in a housing using a point support system and deflected, vibration-damped and self-leveling by gravity, the optical wedge is located in the point-supported housing in the exit zone of the component beam, whereby the moveably mounted module is more compactly produced and a lateral displacement of the housing does not generate additional angular deviation.
Preferably, the diaphragm arranged between the collimator and the beam splitter or mounted on the beam splitter, essentially shading the beam splitter, has diaphragm openings for each component beam, wherein preferably the plate-like diaphragm opening for an individual component beam is smaller than one quarter of the rest of the plate-like diaphragm opening. As a result, the individual, i.e., downwardly oriented, weak component beam is still sufficiently intense and, for geometric reasons, a larger remaining plate-like diaphragm opening can be obtained than with all diaphragm openings of equal area, and, thus, more intensive residual, i.e., laterally and upwardly oriented, component beams are emitted.
Preferably, the diaphragm opening for the individual component beam H is square to take better advantage of the available area, on the one hand, and to produce a cross-hair diffraction pattern on the far field as an aid to orientation, on the other hand. Preferably, the rest of the diaphragm openings are round or square and arranged close enough to the prism edges and to the square diaphragm opening to achieve a sharp delineation of the diffraction pattern on the far field.
Preferably, in the plane of polarization, a laser light source is polarized at an angle of 45° to the respective component beams and deflected to each other by an angle of 90° relative to the main beam, whereby, with the reflection at the mirror surfaces, the components of the main beam, oriented both vertically and parallel to the plane of incidence, are reflected at the same degree of reflection with respect to all mirror surfaces of the beam splitter.
The beam splitter is preferably designed as a truncated pyramid and exhibits at least three, reflectively coated mirror surfaces inclined at 45° and oriented perpendicular to each other relative to a transparent cover surface. Preferably, the truncated pyramid shaped beam splitter, with respect to its axis of symmetry, is laterally displaced relative to the main beam, whereby one lateral edge is arranged parallel to the plane of polarization of the main beam.
A beam splitter for a laser light source such as a semi-conductor laser diode with strongly elliptical beam cross-section of the main beam preferably comprises a beam splitter prism with two component prisms, wherein a first prismatic component prism has two reflectively coated mirror surfaces oriented perpendicular to each other and a transparent cover surface connected to the surfaces at an angle of 45°, and the second prismatic component prism has a reflectively coated mirror surface oriented at an angle of 45° relative to a lateral surface. The first component prism is bonded by its lateral surface to the second component prism at its lateral surface in such a fashion, further preferably cemented, that the mirror surface of the second component prism, in its half with respect to its thickness offset laterally to the plane of symmetry of the first component prism, lying flush on the cover surface and oriented at 45° to same.


REFERENCES:
patent: 4441818 (1984-04-01), Wickman
patent: 5144487 (1992-09-01), Hersey
patent: 5459932 (1995-10-01), Rando et al.
patent: 5500524 (1996-03-01), Rando
patent: 5617202 (1997-04-01), Rando
patent: 6292303 (2001-09-01), Hamar
patent: 6427347 (2002-08-01), Butler, Sr.
patent: 6470578 (2002-10-01), Phuly et al.

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