UA26355U - Surveying goniometric system - Google Patents

Abstract

The proposed surveying goniometric system contains an azimuth ring, a zenith quadrant, which is installed at the azimuth ring which a possibility to rotate around the geometrical axis, a spectroradiometer with a driving motor, which is installed at a tripod, and additionally, for a possibility to measure bidirectional reflection coefficient, support elements, which are arranged at the azimuth ring. The support elements are installed with a possibility to be vertically displaced by screws.

Description

Description of the invention

The useful model refers to the field of measuring technology, in particular, to the means of measuring 2 radiometric corrections of satellite data, namely, to the means of measuring the factor of the bidirectional light reflection coefficient.

A well-known device is a field goniometric system, which contains an azimuth circle, a zenith arc located on the azimuth circle and installed with the possibility of rotation around its own geometric axis, a tripod with a motor and a spectroradiometer (11. 70). relative to the azimuth circle.

The closest technical solution chosen as a prototype is a field goniometric system, which contains an azimuth circle, a zenith arc located on the azimuth circle and installed with the possibility of rotation around its own geometric axis, a tripod with a motor and a spectroradiometer (21.

The disadvantages of the well-known field goniometric system chosen as a prototype are the impossibility of measuring the bidirectional light reflection coefficient in the case of installing the goniometer on an uneven (unprepared) surface.

The basis of the useful model is the task of ensuring the possibility of carrying out measurements of the bidirectional light reflection coefficient in the case of installing a field goniometric system on an uneven (unprepared) surface by eliminating the shortcomings of the prototype.

The essence of a useful model in the field goniometric system, which contains an azimuth circle, a zenith arc located on the azimuth circle and installed with the possibility of rotation around its own geometric axis, a tripod with an engine and a spectroradiometer is achieved by additionally placing supports, which are made with the possibility of changing the relative height of the azimuth circle from the surface on which it is installed. 29 Comparison of the technical solution that is claimed with the prototype allows us to conclude that the field-o goniometric system that is claimed differs in that supports are additionally placed, which are made with the possibility of changing the relative height of the azimuth circle from the surface on which it is installed.

The essence of the useful model field goniometric system is explained with the help of drawings, where Fig. 1 shows the general structure of the field goniometric system, Fig. 2 shows the structure of the support. at

The field goniometric system structurally includes (see Fig. 1) azimuth circle 1, zenith arc 2, tripod z. this engine and spectroradiometer 3, supports 4.

The field goniometric system works as follows: the user sets the circle of azimuth 1 on the surface of o

of the Earth, sets the zenith arc 2 on the rail of the azimuth circle 1 and turns on the power supply of the spectroradiometer Z. The user "o adjusts the horizontal position of the zenith arc 2 relative to the azimuth circle 1 by rotating the arc 3o of the zenith 2 around its geometric axis and performs the horizontalization of the azimuth circle 1 in space by sch of vertical movement of supports 4 along the thread. Thanks to this, the horizontal alignment of the circle of azimuth 1 occurs, which allows to ensure the measurement of the factor of the bidirectional coefficient of light reflection from the earth's surface, which must be carried out with the help of a field goniometric system, ensuring that the circle of azimuth 1 is in a horizontal position on an uneven (unprepared) surface. With 50. Increasing the effectiveness of the application of the proposed field goniometric system, compared to the prototype, is achieved by ensuring the horizontal position of the azimuth circle on an uneven

From" (unprepared) surface, which leads to a decrease in the user's labor costs for preparing the place for installing the field goniometric system on the surface and reducing the time of preparing the field goniometric system for conducting measurements.

Sources of information: according to 1. Rgoseedipd oi (She 157 EAKZei utrozisht, Vagei / Zm/ygepapa / 4-6 Zerietreg 1995 "Rgodgevv ip (o) Epmigoptepia! Ketoie Zepvzipd Kezeagspy apa Arriisayope", chap. "lapa arriisayopv apa epumigoptepia! o topiyuhipd " p. 55-61, A.A. VaIKeta / Kobegaat / Vgookpeiia, 1996 - analogue. 2. Declaration patent of Ukraine for a utility model Mo22053, class-30189/10, 2007 - prototype. 50 pages

Claims (1)

The formula of the invention A field goniometric system that contains an azimuth circle, a zenith arc located on the azimuth circle and 22 is installed with the possibility of rotation around its own geometric axis, a tripod with an engine and a spectroradiometer, which is distinguished by the fact that it additionally contains supports located on the azimuth circle, while the supports are made with the possibility of vertical movement along the thread. 60 b5