DE181203C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

-ΛΜ81203- CLASS 42 c. GROUP

ALEJANDRO MAS υ ZALDUA in MADRID.

Patented in the German Empire from October 9th, 1904.

The present invention relates to improvements to known land surveying used tachymeters, with the help of which one reduced to the horizon Distances, as well as the height differences of the targeted points without further calculation attained.

The improvements consist essentially in a reduction lever, which, as

ίο Part of a joint parallelogram, always his able to maintain parallel position to the optical axis of the telescope and on his front end carries a lifting plate, which the movable diagram plate accordingly automatically adjusts to the inclination of the telescope.

Fig. Ι shows the upper part of the total station in side view, Fig. 2 the same in top view, Fig. 3 the device of the articulated Parallelogram in a schematic representation and FIG. 4 the diagram used.

The essential parts of the telescope are the eyepiece, the crosshairs and the diagram housing, which are held securely on its outer end by means of three regulating screws f , which, however, allow a slight turning movement.

The telescope's crosshair consists of a fixed and a moving part. The former part is essentially formed by a fine thread of silk, cobweb, which is fixed vertically in the middle of a metal disc which is held in a round cavity the depth of the closure cover h (FIGS. 1 and 2). The latter closes the housing, inside the self-reducing diagram '(Fig. 4) is moved, which forms the moving part of the crosshair and has been microphotographically engraved on a perfectly flat and very thin glass plate g .

In the diagram illustrated in FIG. 4, the line corresponds to. AB the horizontal middle thread of the crosshairs. Starting from O, the distances ο - 5, ο — ίο, ο · —is etc. are plotted on it in any scale (which result from the product of parallelogram side length cd χ sin α, if α = 5 °, = io °, = 15 ⁰ etc.) and at their end points on both sides of the ordinates established by the length y = normal thread spacing χ cos ² a for a. = 5 °, = 10 °, = 15 ⁰ etc. The connection of their end points gives the curves CD and E F. With the telescope inclined, they cut off a length on the measuring stick which, multiplied by the diastimometric coefficient, reduces that to the horizon Distance results. The diverging curves O G and OH are obtained by plotting ordinates, the length of which is equal to the corresponding ordinate length y multiplied by tg α . The distance you cut on the measuring stick, after multiplication with the diastimometric coefficient, gives the respective

gen height difference. The glass plate g sits in a rectangular frame e which is inserted exactly into the housing j and in which it can be moved up to 25 mm laterally. The area of the plate provided with the engraved lines faces outwards or towards the eyepiece In addition, this movable part is arranged in such a way that its center line is approximately the same distance from the horizontal edges of the frame and runs exactly parallel to them, so that the intersection or the intersection of this center line with the vertical fixed thread, which determines the optical axis of the telescope, remains unchangeable in any position of the diagram and of the observer's eye.

Inside the frame, strong steel springs i (Fig. 3) are arranged on two guide pins in, the grooved heads k of which protrude outwards, which press the frame with the diagram plate g towards the side of the housing opposite the heads k.

A small cylindrical pivot α is screwed vertically on the lower side of this frame and the knife blade b made of white metal is attached to the left side of the housing j by means of adjusting screws, the cutting edge of which is perpendicular to the lower edge of the housing and parallel to the axis of the pin α . Between the blade b and the pin α is the lifting plate A, also made of non-oxidizable white metal, of the self- ^{reducing lever 0 1} C ?, which is rotatable about o ¹ in a plane perpendicular to the pivot plane on the ■ 40 left support, on which it sits Using a pin q is connected. On the other hand, the lever is articulated to the telescope through the elliptical lever cd in order to form an articulated parallelogram together with the telescope so that the lever axis always maintains its parallel position to the optical axis.

From this it will be easy to understand that in the initial position, when the telescope is set horizontally, the cylinder pin a is at the tip of the inclined surfaces of the plate A , while the outer edge of the latter rests against the edge of the blade b and the vertical one the solid thread of the crosshairs coincides with the ο line in the diagram.

If you now give the telescope a turn or. With an inclination of 15 ⁰ , for example, the small plate A is moved a corresponding distance forwards or backwards, depending on whether it is positive or negative, and this also causes the cylinder pin and diagram to be shifted laterally and perpendicularly to the rotational movement of the telescope.

Claims (3)

Patent Claims: 1. Device for the immediate and automatic display of the distances and height differences of targeted points reduced to the horizon, characterized by a lever which, as part of an articulated parallelogram, always maintains its parallel position to the optical axis of the telescope and carries a lifting plate (A) at its front end , which adjusts the diagram plate forming the moving part of the crosshair according to the inclination of the telescope in such a way that the corresponding graduation line on the diagram occurs in front of the vertical fixed thread, so that the section of the crosshair on the measuring stick between the graduation lines for the distances and the height differences without further results in the reduced horizontal and vertical distance of the targeted point. 2. Embodiment of the device according to claim 1, characterized in that that the self-reducing diagram is placed on a thin flat glass plate is that immediately before the vertical fixed thread of the crosshair accordingly the respective rotation of the telescope is shifted. 3. Embodiment of the device according to claims 1 and 2, characterized in that the diagram plate sits in a guide frame of the housing perpendicular to the optical axis of the telescope and on the one hand is under the action of springs that hold them in the zero position when the telescope is horizontal, on the other hand carries a cylinder pin lying against the lifting plate (A) , which serves to transfer the lateral movement of the lifting plate generated by tilting the telescope into a perpendicular movement of the diagram plate. 1 sheet of drawings.