DE524135C - Field measuring device with reduction device - Google Patents

Description

Field measuring device with reduction device In known field measuring devices with the reduction triangle is the axis of rotation of the measuring ruler for the obliquely measured Distances in the center of the telescope and the horizontal distance ruler in another plane so that the vertex of the reduction triangle can be seen when changes are made of the target angle would shift, whereby correction devices would be necessary. The invention aims to provide a reduction device in which, despite changes the height direction of the telescope the position of the vertex of the reduction triangle is not changed.

This is achieved according to the invention in that between the dividing ruler one for the obliquely measured distances and the horizontal dividing ruler Intermediate rail is incorporated, which carries a pivot bearing at each of its two ends, through one of them with the ruler that can be rotated together with the telescope and through the other of which it is connected to the horizontal dividing ruler. Furthermore are according to the invention two straight arc sections in front and behind and one guide for each intended. The pivot point of the ruler for the obliquely measured distances thus always coincides with the vertex of the respective reduction triangle. So if you measure z. B. in a known manner the distance between a point on to whom a measuring stick is set up by first pointing the telescope to a sets a certain point of the measuring stick and then to a second point of the same, whose distance from the first point is known, one forms with the measuring device two reduction triangles, which now have the same vertex, namely the Have the center of rotation of the ruler connected to the telescope and from which the searched result is obtained immediately.

You could use the horizontal dividing ruler on the one above the baseplate attached stand firmly. In the embodiment described here the telescope has kept its pivot bearing in the middle, and it's just the pivot points for the reduction triangle at the two ends of the measuring stick for the oblique measurements has been relocated.

The drawing shows the subject matter of the invention in an exemplary embodiment, namely Fig. i is a front view of the new device, Fig. 2 is a side view same, Fig.3 and 4. the position of the device for upward and downward inclined Target directions. The base plate i is with the annular bearing 16 of the telescope 17 as usual connected to a column. On one side this bearing 16 carries an arm 18 (! ebb. -2) on which a bracket i9 with a small screw 20 and a lateral, rectangular i-opening 21 is attached.

The division 22 (Fig. I) for oblique distances is connected to the telescope 17 by a slot 23 or by a groove guide so that it always moves parallel to the telescope 17. This division 22 has a tab-shaped extension (Fig. 2) with which it is held in the bracket 19 by the clamping screw 20. A slide 25 can also be moved along the guide 23, the setting or reading mark of which is located on a transparent plate 27: According to the invention, there is a rail 28 between the graduation ruler 22 for the obliquely measured distances and the graduation ruler 30 for the horizontal distances (Figure 3 and 4) incorporated. This rail 28 carries a joint 29 at the front by means of which it is connected to the graduation ruler 22 running parallel to the telescope, and at the rear a hinge 31 by means of which it is articulated to the horizontal graduation ruler 3o. This rail 28 also has a vertical slot 42 at the rear, through which a guide bow connected to the dividing ruler 22 is passed .I1. A clamping screw 4 :: 1. serves to determine the position of the intermediate rail, which is then parallel to the horizontal dividing ruler: 28, to the inclined telescope for a certain downward inclination. The front guide arch 41 'is attached to the rail 28, and its guide slot 4 2 and its clamping screw 45 are located on the horizontal guide ruler 30. If the telescope is inclined upwards, the intermediate rail 28 (Fig. 3) runs parallel to the telescope.

The height ruler 322 carries a foot 33 at the bottom with which it can be displaced on a lateral rail 39 of the horizontal dividing ruler 3o. A spirit level 4o is located below the horizontal dividing ruler 3o. The division scale is the same for the three division rulers 22, 30 and 32. In Fig. I, 46 is the usual adjusting screw for focusing the telescope and 47 is the adjusting screw for the precise height adjustment of the telescope.

The measuring device attached to the arm 18 of the bearing ring 16 is removable. It can therefore be easily removed and put back on as required. Since the intermediate rail 28 is hinged with the dividing ruler 2-2 for the inclined distances at one end and to the horizontal dividing ruler 3o at the other end, the reduction device can easily be adjusted with the level so that the horizontal dividing ruler 30 is exactly horizontal. without changing the telescope setting.

Claims (2)

PATI: NT CLAIMS i. Field meter with reduction device, its Reduction triangle from the one connected to the aiming device, telescope or the like Dividing ruler for oblique distances, the horizontally arranged ruler with the division for the distances reduced to the horizontal and a vertical, on the horizontal graduation ruler adjustable ruler finite of the height adjustment and in the case of the graduation for immediate reading of incremental or Countersink angles are provided, characterized in that between the dividing ruler (22) for the obliquely measured distances and the horizontal dividing ruler (3o) an intermediate rail (ä8) is incorporated, each of which has a Rotary bearing carries, through one of which (29) it with the together with the aiming device (17) rotatable ruler (22) and through the other (31, Fig. 4) it with the horizontal Dividing ruler (30) is connected, and that one guide (42, 4.3) for one each front and rear arranged degree arc section (q.1, 41 ') is provided. 2. Device according to claim i, characterized in that the reduction ruler system (22, 30, 32) can be removed as a whole from the telescope (17) using a clamping device (1g, aq.) attached and provided with a dragonfly (¢ o).