SU1645815A1 - Sighting device of measuring instrument - Google Patents

Description

Have

one

(21) 4639684/10

(22) 12/06/88

(46) 30.04.91. Bul Number 16

(71) Enterprise N ° 7 of the General Directorate of Geodesy and Cartography under the Council of Ministers of the USSR

(72) N.M. Garov and K.V. Granovsky

(53) 528.521 (088.8)

(56) USSR inventor's certificate K 634096, kp. C 01 C 1/02, 1974.

Kuznetsov L.N. Geodetic Astronomy. M .: Nedra, 1966, p. 37-38.

(54) MEASURING DEVICE MEASURING NRSHUR

(57) The invention relates to optical instrument making, in particular to geodetic instrument making. Purpose

The invention is an increase in accuracy due to the stability of the position of the sight axis of the measuring device. a device containing a lens 1,

eyepiece 2, TURNING BLOCK 3, ADDITIONAL The second eyepiece 4, installed coaxially with the first one, is inserted, and the swivel 3 is made in the form of two rectangular prisms; and the perlon of the prism located parallel to the lateral face, the faces are aligned with the center of the hypotenuse face of the first prism, and the light opening of the first prism is larger than the light opening of the second prism. 1 il.

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This invention relates to an optical instrument, in particular a geodetic instrument.

The purpose of the invention is to increase the languor due to the stability of the position of the sight axis of the measuring device.

The drawing shows the optical layout of the device.

The optical system consists of a lens 1, an eyepiece 2, a rotary separator unit 3, an additional eyepiece 4.

The device works as follows.

When determining, for example, the astronomical azimuth of the direction to a closely located target, the instrument's sight device directs it through the additional ocular branch at the position of the circle to the left and reads on a horizontal circle. The optical branch works; Lens 1, block 3, ocular 4. 4. Then the sighting device is guided to the far-placed sighting target (the observed star) through the main ocular branch, and the horizontal circle is read again. The optical branch works; lens 1, block 3, eye 2, Next, the operations are repeated at the position of the circle right. Thus, observation of multiple targets is performed with a single sighting device without refocusing the optical system of the system. We take a lens that equally builds the image of the observed

targets for two separate measuring branches, focused and permanently fixed during the entire observation program, each for its own purpose, which ensures the stability of the sighting axes in space and in time.

The device improves the accuracy of sightings for remote targets, has a simple design and is technologically efficient to manufacture. In this connection, it can be used in the astronomical assignment of directions, as well as installation and high-precision control of the spatial position of industrial equipment,

Claims (1)

Invention Formula Measuring device sighting device, comprising a lens, a rotary unit and an ocular p, characterized in that, in order to improve accuracy, a second ocular p is inserted into it, mounted coaxially with the first and the rotary block is made in the form of two rectangular prisms, on a hypotonic the edge of one of which is fixed by a catheter face of a friend of a prism, the middle of the edge of which, formed by the catheter faces and parallel to the side face of the first prism, is aligned with the center of the hypotenuse edge of the first prism, the opening of the first prism is It is larger than the light opening of the second prism.