DE936238C - Device for measuring the parallel displacement of the target line in optical devices - Google Patents

Description

Device for measuring the parallel displacement of the target line in optical devices The displacement of the target line is achieved in optical devices, for example leveling devices, in that a plane-parallel glass plate is inserted into the object-side beam path of the observation system, the thickness and refractive index of which are known. This plane-parallel plate can be tilted about an axis which is perpendicular to the axis of the observation system; Depending on the angle of incidence i, the angle of refraction -r of the light rays and the thickness a of the plate, the displacement s of the target line is given by the following equation: The simplest way of measuring this shift on the device is to calibrate a scale on a drum that is firmly connected to the tilt axis of the plane-parallel plate. However, since the displacement of the target line does not depend linearly on the angle of rotation of the plate and the drum, the said scale can only be approximated for small angles by a linear division. In order to be able to use a linear scale even with larger angles of rotation, complicated mechanical aids have already been used, which compensate for the deviations from the linear scale course within the limits of the desired accuracy.

However, the use of such transmission mechanisms leads to structural difficulties, especially with regard to the stability of the adjustment and the related calibration of the scale. Own the transmission mechanisms inevitably some game, so that thereby the Relationships between the real ones caused by the rotation of the disk Shifting the finish line and the drum rotation or the pitch intervals of the Change the scale.

The invention relates to a measuring device in which the-mentioned Defects are avoided by not moving the finish line through mechanical transmission of the rotation of the plane parallel plate on a scale, rather determined directly as a function of the angular position of the plane-parallel plate will.

The device according to the invention is characterized by a reading scale fixed with respect to the device and an optical reading system for this scale whose target line directed to the reading scale penetrates the plane parallel plate parallel to the target line of the observation system of the optical device. The total length of stationary reading scale is equal einegi pitch interval j ener division, which is read by the observation optical system of the device, and the reading scale-mentioned is divided into fractional parts of the pitch interval of said part Lung.

In the drawing, FIG. I explains an exemplary embodiment of the device according to the invention on the basis of the optical scheme, while FIG. 2 shows the Application of the device on a leveling instrument shows.

The i shown schematically in Fig. Observation optical system consisting of a objectively 0 ,. and an eyepiece 0 ', has the target line C. A plane-parallel plate L can be tilted about an axis A normal to the plane of the drawing (FIG. 2), the target line Ci shifting by an amount s. If the observation system 01, 0 ', a staff with a graduation S, viewed, the image of which with the cross hairs R ,. coincides, the displacement of the target line by the amount s can be observed as a corresponding displacement of the image of the laths relative to the crosshairs R 1.

Parallel to the optical. Observation system 0 " 0 ', an optical reading system 0, o'2 with the target line C, is arranged. The target line C, which runs parallel to the target line C and also passes through the plane parallel plate L, -is directed to a reading scale S. The Reading scale S is arranged parallel to the remotely set up staff with graduation S. Its distance D2 from the lens 02 of the reading system can be selected as small as desired. If the plane-parallel plate L is tilted, the target line C shifts by the same amount s as the target line C, This shift s can be viewed as a shift of the image of the reading scale S, with respect to the crosshairs R, n * n field of view of the reading system 02, 0'2, in a size that corresponds to the optical dimensions of the reading system 0, 0 '. And the selected distance D, corresponds.

The scale S2 is strictly linear, since the displacements s of the target lines C, and C, are always the same for all angular positions of the plane-parallel plate L. It is necessary that the total length of the reading scale S is equal to a division interval of the division S. The. Subdivision of the reading scale S, then gives fractions of the interval of the graduation S. The S2 scale is applied to transparent glass.

Fig. 2 shows the arrangement of the device on a leveling instrument. In the vicinity of the eyepieces 0 or 0'2 of the two optical systems, an adjusting knob B is provided, the movement of which is transmitted via a crank F and a rod M to the plane-parallel plate L, which can be tilted about the horizontal axis A.

The reading scale S2 is arranged in front of the plauparallel plate L and can be read off by the optical reading system 0, 0'2. The objective 0, which is divided into two individual lenses, creates an image of the scale S in the field of view plane of the eyepiece 0 ', in which the crosshair R is located.

It is immediately clear that with the arrangement according to the invention the displacements of the target lines of the two optical systems are exactly the same and their size can be determined in the reading system without the aid of any mechanical transmission means. The tilting of the plane-parallel plate L can be carried out in any way without being bound in any way with regard to the accuracy of the transfer of the means used. The prerequisite for the inventive effect of the described arrangement is that the target lines C, -and C2 and the reading scale S, and the staff with the graduation S, are parallel to each other, -which conditions, however, can easily be met without particular difficulties.

Claims (2)

PATENT CLAIMS: i. Device for measuring the parallel displacement of the target line in optical devices which are equipped with a plane-parallel plate which is arranged in the object-side beam path of the observation system and which can be tilted for parallel displacement of the target line, characterized by a reading scale (S,) fixed in relation to the device and an optical reading system ( 0, 0 ',) for this scale (S2), whose target line (C,) directed to the reading scale (S #) passes through the plane-parallel plate (L) parallel to the target line (C,) of the observation system (01, 0',) . 2. Apparatus according to claim i, characterized in that the total length of the fixed reading scale (S,) is equal to a Teihmgsintervall the division (S1) which is read by the optical observation system (0,., 0 ',) , and that the Reading scale (S2) is divided into fractions of the division interval of this division (S1).