DE297451C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVl 297451 - ■ '. CLASS 42 c. GROUP

ADOLF HAHN in MUNICH.

Theodolite. Patented in the German Empire on January 13, 1916.

Theodolites used to measure the

Horizontal angle initially a setting on a division of the horizontal circle

• and the finer measurement takes place optically are known. According to the present In the invention, however, the horizontal angle measurement is initially also carried out by one only roughly divided and relatively small in diameter horizontal circle, for

ίο A fine measurement is placed in front of the lens, around its vertical axis, rotatable reflection body in connection with a Measuring drum ο. Like. Used, while the vertical angle by rotating the telescope is measured around its longitudinal axis and therefore a vertical circle is not required power. The reflection body in front of the lens can be a vertical, Triangular prism rotatable through the point of reflection of the main ray his movement is transferred to a measuring drum.

The drawing shows an embodiment of the subject matter of the invention, namely Fig. 1 shows a theodolite in side view, of Fig. 2 the plan view reproduces.

When looking at the drawing, it is first noticeable that the instrument is proportionate can be crowded. This is essentially due to the fact that the measurement the vertical angle certain vertical circle is superfluous and the rotation of the telescope takes place around its own longitudinal axis.

The arranged below the telescope 1 horizontal circle 2, whose degrees by a Microscope 3 can be read is only roughly divided. In the present case it would recommend choosing 36 parts so that you can read from one line to the other io ° are, compared to the otherwise usual division, where 4'X 360 = 1440 or even 6 X 360 = 2160 graduation lines are to be applied. The new pitch circle makes the instrument cheaper significant. After setting when measuring the horizontal angle to the next lower graduation using the microscope is done, the finer measurement is made by a front of the lens 4 switched around its vertical axis 5. rotatable reflection body 6. This body 6, which is expediently chosen as a triangular prism, is in a housing 7 housed, which is rotatable about the axis 5. For this purpose, arms 8, which in turn on Tube 1 are hinged, the axis 5 hold.

'The movement mechanism can now be chosen differently, but would recommend moving towards a measuring drum with a spiral groove arranged on tube 1 transfer. This could be done in such a way that on the axis 5 on either side a tooth segment 9 is attached, which meshes with a gear 10. This gear will moved by rotation of the measuring drum, not shown, with a pointer with a Nonius or without such, through its longitudinal movement, the individual degrees and subdivisions can be read.

The vertical angle measurement is carried out by

Rotation of the telescope ι about its longitudinal axis. This could be done in the simplest possible way by arranging a worm wheel 11 rotatable about the axis of the telescope ι happen, in which a screw without end 12 engages.

Even if it is irrelevant how the eyepiece 13 is arranged, i. i.e. whether in the longitudinal axis of the pipe 1 or for viewing from the side, the latter should be more advantageous because the observer can see the object through the pipe that is responsible for the Measurement of the horizontal angle comes into consideration. For this arrangement must of course a reflection body 14 can also be attached.

It is of course also conceivable to construct an instrument that only has one of these new types of measurement are used and an old one is used for the other.

Claims (2)

Patent Claims:
. i. Theodolite, in which the horizontal angle is first adjusted to a division of the horizontal circle and the finer measurement is made optically, characterized in that the fine measurement is carried out by the reflection body (6) which is connected in front of the objective and rotatable about its vertical axis (5), the measurement of the vertical angle is done by rotating the telescope (1) around its longitudinal axis. 2. Theodolite according to claim 1, characterized in that the front of the lens (4) upstream reflection body (6) is a about a vertical axis (5) going through the reflection point of the main beam rotatable triangular prism, the movement of which is transferred to a measuring drum . 1 sheet of drawings.