DE359240C - Curve stakeout device - Google Patents

Description

Curve stakeout device. The invention relates to a device for setting out curves. The purpose of the device is to stake out tangent points, arc points and curve distances of a curve if the position of the tangents is known. In the manner of known measuring devices, it consists of several circular disks provided with radial arynes. On the uppermost pane is a pair of binoculars that can be swiveled in a vertical plane with measuring threads and a scale attached to the side in the manner of a tachyineter telescope. The innovation is that the arm of the uppermost circular disk consists of two parallel, partially visible partial arms, each of which has a sliding side arm pointing at right angles to the longitudinal direction of the partial arm, one of which is horizontal and the other, as with sliding total stations already known, is directed perpendicularly.

The drawing shows the invention in an exemplary embodiment, namely: Fig. 1 is an overall view of the device, Fig. 2 is a side view of the upper part of the tripod with attached, adjustable telescope and associated scales, Fig. 3 is a plan view of the device; Fig. 4 and 5 show the individual parts in plan view.

The device rests on a tripod. This supports a vertical stand Y, which divides upwards into four branches, which are firmly connected to a horizontal, most expediently square head plate 2. The stand i runs downwards into a point 3 for insertion into the ground. An adjustable sleeve 4 is attached to the stand and can be attached to the stand by means of an adjusting screw 5. On the sleeve 4 three legs 6 are articulated, de, for example, consist of pipe sections telescoping in the usual way. In a projecting peg 7 attached to the underside of the coping plate? In its center, a cord with a plumb line 8 is attached, which plays over an adjustment cross attached to the stand between its upper branches. This device is used to be able to easily place the device vertically when setting it up. At the top in the middle of the head plate 2, a pin 9 is screwed into the disk. On this pin, three superimposed, horizontal circular disks 10, 11, 12 are attached, which, however, do not lie directly on top of one another, but are separated from one another by suitable intermediate layers. The circular disks are held in place by a nut 1, 3 screwed onto the pin. The lowermost circular disk io rests in a known manner on three set screws 14 mounted in the head plate 2 for leveling the circular disks. The middle circular disk ii has a 36o 'graduation32 on the edge (Fig. 5). It also has a radially projecting arm 15 on which a 50 cm long scale 16 is attached, extending from the center of the disk. This is divided into ioo parts of which corresponds in Eder j. The arm is hinged so that it can be folded for packing the device. The scale 16 includes a vernier 17 which is displaceable via a longitudinal groove of the arm 15. A clamping screw 18 for securing the disk ii is attached to the stand and a corresponding clamping screw 45 for securing the disk 12 is attached to the disk ii. The uppermost circular disk i-- also carries a radially projecting arm ig. This is divided into two parallel partial arms ig and 24 One of the partial arms (ig), which is shown with a scale 2o, has a longitudinal section in the middle, in which one can read the scale 16 of the disk ii underneath and the position of the associated vernier 17 . The scale 2o has the same length and division as the scale 16 and is provided with a vernier 21 running in its central cutout. This carries a right-angled protruding, horizontal side arm 22 provided with a vernier --3 . The second partial arm 24 is transparent and has a scale of the same length --4 as the partial arm ig and an associated vernier 25. This is in a cutout displaceable and carries a vertical side arm 7,6. This is divided so that each graduation corresponds to one meter. The side arm 26 is removable. Logarithmic divisions are attached to the circumference of the disk iz, which are divided in a known manner for whole numbers, tenths and hundredths, so that any number can be calculated. This computing device consists of a fixed ring 9, 7 and a rotatable, concentric ring z8 located therein, which is provided with a handle button 29, with the aid of which it can be rotated into the desired position during the calculation. The disk 1: 2 also has on part of its circumference a bar 30 with a longitudinal cut to accommodate a 3, -? on the underlying disk ii belonging vernier 31.

A frame 33 for a telescope 34, which is pivotable in its bearings in a vertical plane, is fastened to the disk iz by means of screws. For this purpose, a gearwheel 36 is attached to one bearing journal 35 of the telescope, which engages in a gearwheel 38 which is mounted in the stand and which can be adjusted by hand by means of a rotary knob 3-7. The telescope is held in its bearings by rotatable locking plates 39 mounted above them. After turning this locking plate outwards, the telescope can be removed if necessary. The telescope is adjusted horizontally by turning the disk 12. The telescope carries a spirit level 40 with an adjusting screw 41 at the top. In the rear part of the telescope there is a crosshair 42 for determining the distance from target points according to a measuring stick. As is known from sliding tachymeters, the telescope has a spaced rail 43 adjustable parallel to the fine tube axis. This rail is provided with a vernier 44. The adjustment of the telescope in the vertical plane takes place on the division of the previously described vertical side arm 26 attached to the front next to the telescope.

Claims (1)

PATRNT CLAIM: Curve marking out device with horizontal, superimposed, rotatable circular disks, which are provided with radially projecting arms, and in which the uppermost disk carries binoculars which can be pivoted in a vertical plane, characterized in that the arm of the uppermost disk (1, -7) consists of two parallel partial arms (ig and 24), each of which is provided with a displaceable side arm (22, 26) running at right angles to the longitudinal direction of the partial arms, and that the partial arm (ig) on the partial arm (ig) provided with a longitudinal cutout in its center displaceable side arm (22) horizontally and the side arm displaceable on the transparent partial arm (24), as is known in sliding total stations, is vertical.