DD144967A1 - METHOD FOR DETERMINING THE INSTRUMENT HEIGHT OF ELECTROMAGNETIC DISTANCE KNIVES - Google Patents

Abstract

The method for determining the instrument height of electromagnetic, in particular Electro-optical rangefinders is intended for surveying work. It so !! replace the previously customary measurement of instrument height with measuring tape or yardstick, the measurement of Simplify instrument height and make safer and reduce the need for measuring equipment. For this In addition to the distance, the instrument height is measured electromagnetically, with the help of the Already existing transmitting, receiving and evaluation by one in Alhidade and Limbus located opening which is substantially coaxial with the standing axis of the rangefinder. -

Description

Title; Method for determining the instrument height of electromagnetic rangefinders

Field of application of the invention:

The invention relates to a method for determining the height of the instrument in electromagnetic, in particular electro-optical, distance meters, in which the rangefinder is set up and set up above a reference point and the distance of the telescope of the rangefinder from the reference point is measured. It is used in surveying work with the help of electromagnetic rangefinders.

Characteristic of the known technical solutions:

The measurement of instrument height is carried out in surveying with the aid of a measuring tape, a staff or a measuring rod. The measuring means is applied at the reference point and the distance of the telescope or its flap axis is read therefrom. The instrument height measured and read in this way is manually input to an existing computer for the reduction of distance and / or height measurements in modern electro-optical rangefinders via the keypad of a control point there are a number of error sources, the most important of which are the measurement itself, the reading of the measured values, and the input of the measured value to the computer. If the input to the computer can not be made immediately, the measured value must first be noted, whereby the time required and the number of error sources are further increased.

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Object of the invention:

By the invention, the indicated sources of error are avoided and the use of an electromagnetic rangefinder can be simplified.

Explanation of the nature of the invention?

The invention has for its object to provide a method for determining the instrument height for electromagnetic rangefinder, which largely excludes manual work and creates a workflow that allows the automatic registration of instrument height and their ability to be accessed at any time for various purposes of the bill and reduction.

According to the invention, this object is achieved in that a reflector is assigned to the reference point, that the telescope is set vertically to the reference point and that the distance to the reference point is determined electromagnetically by the rangefinder.

In an electro-optic rangefinder with vertically adjustable telescope and a through Alhidade and Limb us substantially coaxial to the standing axis passing view, it is possible in this way, similar to a distance measurement, by the operation of a button to measure the instrument height and in a belonging to the device Store memory at your fingertips. The inventive method also eliminates the entrainment of additional length measuring devices in the electro-optical distance measurement.

The invention will be explained in more detail below with reference to the schematic drawing.

On the earth's surface 1 is a marketed Bcdenpunkt 2, on which a reflector 3 is arranged aligned. Perpendicular above the ground point 2 is on a tripod 4 · an electro-optical rangefinder 5 with a rotatably mounted between two Kippachsenstützen 65 7 telescope 8 and provided in Alhidade 9 and limbus 10 through

7 ^ * F 21 IiS »'.

view 11, which is coaxial with the vertical axis L-L of the device. In addition, the rangefinder operating elements 12; 13} 1 * Η 15J 16, which are used to trigger instrument height measurement, distance measurement, angle measurement, arithmetic operations and correction values. For this purpose, in the Kippachsestützen 6; 7 optoelectronic transmitting, receiving, measuring and computing means provided, which are triggered by the controls. In the drawing, the mounted between the Kippachsestützen 6j 7 telescope 8 is pivoted about the standing axis LL rechtwinklinge tilt axis KK that the telescope axis coincides with the vertical axis LL and that a distance from the 5 through the telescope 8 transmitted light beam 17 through the view 11 for Reflector 3 uad from this after reflection again through the view 11 to the telescope 8 ·

By operating the operating element 12, the transmission and reception of the light beam 17 for measuring the distance of the tilting axis K-K from the ground point 2 are caused. The instrument height thus measured is fed to a memory belonging to the computing means and / or displayed in a window 18.

Claims (1)

Invention sanspru.cn Method for determining the instrument height in electromagnetic range finders, wherein the rangefinder is set up and set up above a reference point and the distance of the telemeter from the reference point, characterized in that a reflector is arranged at the reference point, that the telescope is vertically adjusted to the reference point and that the distance to the reference point is determined electromagnetically by the rangefinder 07/12/1979 For this i3®! T®