SU726420A1 - Method of calibrating talkot level - Google Patents

Description

The invention relates to the field of astrometry and geodetic astronomy and can be used to determine the pressure price of the Talcott level in the astronomical instrument system, for example, the electromagnetic Talcott level of the zenith telescope.

The calibration of Tylkott levels of astronomical instruments is known at the level examiner according to the method of A. S. Vasiliev Sch.

The disadvantage of this method is that when it is applied, the price of dividing the level is determined in the system of the used examiner and may, at the time of performing astronomical observations in the system of the astronomical instrument, systematically differ from the result obtained during calibration at the examiner. In addition, this method does not allow the possibility of promptly obtaining the price of dividing the level in the process of performing astronomical determinations for those physical environmental conditions in which they are made. This circumstance does not allow the effective use of the method of A. S. Vasiliev for calibrating electromagnetic Talcott levels, the fission price of which, as a rule, is subject to changes with time and from the influence of the environment and requires periodic verification directly during the production of astronomical determinations.

The closest in technical essence is the method of J. Comstock, which provides the ability to calibrate levels in the astronomical instrument system. When calibrating the Talcott-level in this way, the instrument is prepared for measurements, the target is searched for in the measurement plane, the sensing element of the Talcott level is set to the initial position, the reference angle of inclination is set, the reference angle of inclination is measured ....... 3 on, the displacement is measured the sensitivity of the Talcott level corresponding to the inclination of its axis by the reference angle, and perform computational processing [23.

The method has found application for calibrating Talcott levels of astronomy · Cesky universal instruments that have a precisely divided vertical '’“ {fu?; *' C ’using which they measure the reference angle of inclination. Instruments such as ETF-135, ELT-180, AU-2/10 and some others used in astronomy and geodetic astronomy and some others do not have such a circle, and therefore the J. Comstock method, although it can be implemented on their basis, practically does not provide the required accuracy determining the division price of the Talcott level.

The aim of the invention is to provide the ability to calibrate the Talcotite level of a tool that does not have a precisely divided vertical circle.

This goal is achieved by the fact that according to the method of calibration of talcott .......... WHOSE level, including setting the reference angle of inclination of the level axis, measuring the corresponding movement of the sensing element * of the level, I set · ^ the horizontal position of the pipe position device index , orien— '''t1pipe the instrument of the horizontal axis of the instrument, a reference angle is set to the axis of the _g level by turning the pipe and the level around the horizontal axis with recording the time moments of passage of the elongating star through the horizontal index of the positional device of the pipe until the turn turns paler, and determine the level division ratio by counts

....... time reference angle of inclination to the corresponding movement of the level sensor.

The leveling of the index of the positioning device of the instrument pipe excludes the systematic error due to the inclination of the index from the calibration results of the Talcott level.

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Orientation of the pipe relative to the zenith and meridian of the place ensures the combination of the beginnings of the instrumental coordinate system and the horizontal coordinate system with the need required to find an elongating star in the celestial sphere from its ephemeris data.

Preparation of time devices includes setting the clock in accordance with a specific system of counting time and connecting equipment for recording clock readings. In the subsequent process, this provides the possibility of registering the moments of passage of the elongating star through the horizontal index of the positional device of the astronomical instrument pipe at the settings corresponding to the extreme positions of the Talt-Kott level sensor in the calibration calibration range.

The choice of an elongating star as an observation lens provides, on the one hand, the maximum possible accuracy of recording the moments of passage of the image of a star through the horizontal index of the positioning device of the instrument pipe, and on the other hand, the necessary constancy of the speed of the visible movement of this image in height.

The initialization of the sensing element. Talcott level allows you to coordinate the direction of its movement during calibration with the direction of the movement of the elongating star visible in the tube of the astronomical instrument.

The rotation of the telescope along with the calibrated level around the horizontal axis in the measurement plane allows you to move the level sensor from one extreme position in the working calibration range to the second 'extreme position and at the same time provides' ¹ visible movement of the horizontal Index of the positioning device of the tube from one point of the celestial sphere to ¹ another one.

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The reference angular distance between these points in the plane of the chosen vertical is measured by the time interval, defined as the difference between the recorded moments of passage of the elongating star through the horizontal index of the positional device

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pipe, multiplied by the speed of movement of this star in height.

Readability talkotgovskogo calibrated level ultimately determined by the ratio value predetermined Etalon ₅ Foot angle calculated according to a result of passing elongiruyushey star observation, a corresponding movement talkottovskogo level sensing element from one extreme position to the second.

The proposed method for calibrating the Talcott level of an astronomical tool on the one hand allows one to determine the price of dividing the level operatively 15 but in the system of an astronomical instrument under the same physical conditions in which astronomical determinations are made, and on the other hand it makes it possible to determine this 20 instrumental constant not only for instruments equipped with a precisely divided vertical circle, but also for ^r instruments of other types in which such a circle is absent.

Claims (2)

(54) METHOD OF CALIBRATION OF THE TALKOTT LEVEL On, the displacement of the sensitivity of the SzggeyyyyyaytalysottoskskogS) level is measured, with the United States Shtrub of its axis on the standard upl, and perform computational processing. The method has been used to calibrate the talcott levels of astronomical universal instruments that have exactly divided vertical) 7: 7 e which the reference angle of inclination is measured in it, used in astronomy and geodesic ac- phonomy and ETF-135 type CRT-180, AU-2/10 and some others do not have such a range and therefore the method of J. Comstock, although it can be implemented on their basis, but practically does not provide the required exact definition of the value of the talcott level. The aim of the invention is to provide the possibility of calibrating the TanbKOTv of a high-level instrument that does not have a precisely divided vertical circle, the post goal is achieved by measuring the appropriate displacement of the level axis, measuring the corresponding displacement of the talcotte level Emayuyta level, Tired of the position of the index of the positioning device of the pipe, oriento TRUyShtromyna and otHsht ShShts and the meridian of the place, leads the pipe to evil Shesda and results t ynte ky1 Sh§Sht u1y hedgehog in nachsh1SchSh 11 by rotation of the telescope with fixed thereto talc tovsknm instrumeigga level around a horizontal axis, define the reference angle da level axis and by rotating the tube about a horizontal layer bsGye registration momoNtov vromeyi. the passage of the elongating star through the horizontal index of the positioning device before and after it was fixed, and the division value of the level is determined as the ratio of the reference inclination angle found from the readings to the matching movement of the level sensing element. HYDROWERING YDIDOXA pVzSCHONftiro Instrument devices, not one of the results of the calibration of tal of the Kottovo ufnov systematic distortion caused by the tendency of the index. 04 Orientation of the pipe relative to the enit and meridian of the site provides for the displacement of the beginning of the instrumental coordinate system and the horizontal coordinate system with the need required to find the elongating star in the ebesite sphere according to its ephemeral distance. The preparation of time devices includes the installation of clocks in accordance with the limited time counting system of the equipment for recording clocks. In a subsequent process, this makes it possible to record the passage of an elongating star through the horizontal index of the positioning device of an astronomical instrument pipe in installations that correspond to the position of the sensitive element of the Cottish level in the working range of the calibration, the choice of the elongating star as an object On the one hand, observations provide the highest possible accuracy of recording the moments of the star’s passage through the horizontal index of the positioning device of the instrument tube, and on the other hand, the necessary constancy of the speed of the visible motion of this image in height, ...- Bringing the sensing element to the initial position . talcotte levels allow to coordinate its direction during calibration with the direction of the elongating star visible in the astronomical instrument tube. Rotation of the telescope together with the calibrated Level around the horizontal axis in the measurement plane allows you to move the level sensing element from one extreme position in the working calibration range to the second extreme area JC and simultaneously ensure the displacement of the horizontal index of the positional device of the pipe from the single point of the celestial sphere to another The reference-angular distance between these points in the plane of the selected vertical is measured by the time interval, defined as the difference in the recorded moments of passage of the elongating star through the horizontal index of the positional device of the pipe, multiplied by the velocity of the star in height. The cost of dividing the calibrated taliyotg level is ultimately determined by the ratio of the magnitude of a given reference inclination angle, calculated from the observations of the passage of an eringing star, to the corresponding displacement of the sensitive element of the talcott level from the end position to the second. The proposed method of calibrating the Talott-level astronomical tool on the one hand allows determining the price level division operationally in the system of an astronomical instrument in the same physical conditions in which astronomical determinations are made, and on the other hand provides the ability to determine this instrumental constant not only for instruments equipped with a precisely divided vertical circle, but also for other types of instruments in which there is no such circle. The formula was invented by the EL. The method of calibration of the talcott level, which consists in setting the reference angle of inclination of the level axis, measuring the corresponding displacement of the sensitive element of the level and determining the level division price, about tl and 206, is to ensure that The Cottish level of the tool, which does not have an exactly separating vertical circle, is placed in a horizontal position with the index of the positioning device of the pipe, orienting the pipe of the tool relative to Yenit and meridian of the place, lead the pipe to the elongating star. and bring the level sensing element to its initial position by rotating the telescope with the talcott’s level attached to it on the horizontal axis of the instrument, setting the reference angle by rotating the pipe and level around the horizontal axis, registering the time the image of the elongating star passes through the horizontal positional index the pipe before and after the turn of the last 5 days, and the level division prices are defined as the ratio of the reference inclination angle found from the samples to the corresponding movement of the sensing element level. Sources of information taken into account in the examination 1. S. Eliseev. Geodesic tools and instruments, M., Nedra, 1973, p. 1O7-108. 2. Work of TsNIIGA and K., no. 148. M., 962, p. 61, 70 (prototype).