Optical: systems and elements – Prism
Reexamination Certificate
1999-06-07
2001-02-06
Nguyen, Thong (Department: 2872)
Optical: systems and elements
Prism
C359S529000, C359S834000, C033S293000
Reexamination Certificate
active
06185055
ABSTRACT:
BACKGROUND OF THE INVENTION
a) Field of the Invention
The invention is directed to a 360-degree all-around reflector with retroreflectors that are triple prisms, especially for application in geodetic surveying with tachymeters and other geodetic measurement devices.
b) Description of the Related Art
In recent years, 360-degree all-around reflectors have made up a fixed component in electronic tachymeters for tracking reflectors on land. Continuous target tracking is made possible through further automation of the electronic tachymeter and is used to an increasing extent in practice. 360-degree all-around reflectors have also become increasingly important for controlling construction machinery because automation in the positioning of this machinery is also desired.
U.S. Pat. No. 4,875,760 (Youngren) discloses a 360-degree all-around reflector unit with a base body, wherein a quantity of retroreflectors are arranged at the periphery of the base body in such a way that they cover an angular area of 360° in a plane. Accordingly, it is possible to reflect incident light from light sources or target beams of geodetic devices lying in the reflector plane back to the starting point.
U.S. Pat. No. 5,301,435 (Buckley) describes an all-around reflector arrangement comprising prisms which are arranged in two tiers of three prisms each at the periphery of a cylinder, so that they cover an angular area of 360° and incident light, for example, from a target station, is reflected back to the base station. Known triple prisms are used as retroreflectors.
In a 360-degree all-around reflector, it depends in particular on how close to one another the reflectors can be arranged and on the size of the angle of the adjacent reflectors relative to one another in order that the pupils, when symmetrically adjusted, are cut evenly and at most only by half. In this case, the apparent tips of the reflectors lie in a plane; that is, they are not offset with respect to height, so that pointing or sighting can always be carried out visually or also automatically at the same height. If the effective total surface of the pupil changes only slightly, this also results in only slight energy loss and there is therefore also no range loss when measuring distances with tachymeters. The arrangements of Youngren and Buckley do not meet these requirements. The spacing between the individual adjacent reflectors is relatively large.
In an arrangement for retroreflection of a beam with triple mirrors such as is described in DE 195 30 809 (Leica AG), a 360-degree all-around reflector is provided in which the prisms are tightly packed relative to one another, but whose apparent centers are offset with respect to height. The pupils are therefore offset with respect to height resulting in disadvantages for a range finder with a biaxially arranged transmitting and receiving light bundle with respect to positioning accuracy and precision of distance measurement. In order to avoid these disadvantages, the respective prism entrance surface must be aligned more exactly with the target line of the tachymeter at the target point. While this is possible for picking up the measurement point, it entails grave difficulties with respect to controlling construction machinery, for example.
OBJECT AND SUMMARY OF THE INVENTION
Therefore, the primary object of the invention is to provide a 360-degree all-around reflector in which disadvantages with respect to positioning accuracy and precision of distance measurement caused by an offsetting of pupils with respect to height are eliminated to a great extent with minimum signal loss.
This object of the invention is met according to the invention through a 360-degree all-around reflector for retroflection of beams. The reflector comprises a housing and triple prisms, as reflectors, with round light entrance surfaces, wherein the triple prisms are arranged in the housing in such a way that their light entrance surfaces are part of circumferential surfaces of the housing. The triple prisms are arranged in the housing in such a way that adjacent triple prisms contact at a point, or almost contact at a point, inside the housing. The triple prisms have tips or covers which lie in a plane extending perpendicular to the light entrance surfaces of the triple prisms. The triple prisms have axes and the axes of the triple prisms which intersect at a point are also located in this plane. The triple prisms which are located next to one another are oriented relative to one another so as to be rotated about their axes by an angle of 60°.
It is advantageous when six triple prisms are provided in the housing. This quantity of triple prisms makes possible a very compact arrangement giving a good reflection with low light losses in the respective directions. A larger number of triple prisms can be provided, but this quantity must be an even number.
An advantageous arrangement which is also advantageous because of its simple handling when used in land surveying results when the housing receiving the triple prisms is arranged on a target rod or is a component of such a target rod. In this connection, it is advantageous for purposes of high sighting accuracy when the intersection of the axes of the triple prisms lies in the axis of the target rod and the plane in which the axes of the triple prisms lie is intersected perpendicular by the sighting rod axis.
In the all-around reflector, the triple prisms are arranged in a plane in such a way that, in alternating manner, one of the edges of a prism of triple prisms located next to one another is adjacent in each instance to a reflection surface of the prisms located to the right and to the left. Accordingly, the prisms are so arranged in a plane which advantageously extends horizontally that, in alternating manner, first a prism edge of the triple prisms which are located next to one another and contact at a point and then, in the next adjacent prism, the image of this edge should extend parallel to one another and vertically upward in an arrangement formed of six prisms.
For the purpose of coarse sighting of a reflector arranged in the target point on a target rod, it is further advantageous when the housing of the reflector is closed on top by a cover on which a target mark or target tip is arranged.
In order to facilitate adjustment of at least one reflector vertical to the target direction, at least one pointing aid, for example, a bore hole, is provided in which are arranged rear and front sights. This at least one pointing aid is precisely aligned with the entrance aperture of at least one triple prism in such a way that when aiming the pointing aid with a light beam the associated triple prism is also impinged on.
In this way, the 360-degree all-around reflector according to the invention ensures in a simple construction and with low light losses a reflection of a radiated light bundle from light sources which are positioned an angle of 360° around the all-around reflector in the plane, or approximately in the plane, in which the triple prisms lie. The reflector according to the invention can also be used for precise positioning of construction machinery and for target tracking. Signal losses caused by a vertical offset of the pupils are minimized in a dependable manner. A sighting of the reflector proceeding from a plurality of geodetic devices simultaneously is also possible. The reflector nevertheless brings about advantages with respect to automated surveying in such a way that, among other things, a precise alignment of the reflector with the surveying device or with a plurality of surveying devices can be dispensed with when the reflector is carried around on land.
The invention will be explained more fully with reference to an embodiment example.
REFERENCES:
patent: 1658265 (1928-02-01), Thompson
patent: 2099671 (1937-11-01), Bairey
patent: 3834789 (1974-09-01), Brudy
patent: 4416509 (1983-11-01), Mian
patent: 4875760 (1989-10-01), Youngren et al.
patent: 5301435 (1994-04-01), Buckley
Carl Zeiss Jena GmbH
Nguyen Thong
Reed Smith LLP
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