RU2155934C2 - Aiming circle - Google Patents

Abstract

FIELD: instrumentation, devices used in forest management operations to measure bearings, magnetic azimuths and horizontal angles. SUBSTANCE: aiming circle includes case housing magnetic needle with locking device, scale circle, verniers, sighting unit, bushing and leveling instrument. Specific feature of given aiming circle lies in location of zero line of verniers on magnetic meridian. EFFECT: increased measurement precision, limiting of amplitude of oscillations of magnetic needle by rectangular shape of case, reduced mass and dimensions of instrument. 5 dwg

Description

 The invention relates to measuring instruments used in particular during forestry operations for measuring points, magnetic azimuths and horizontal angles.

 Mountain compasses are widely known, starting with the Mountain compass (a.s. 192417, G 01 C 17/12 of 11/06/67), containing a compass box with a magnetic arrow, a limb and an alidade ring carrying elements of a sighting device.

 The disadvantages of the known mountain compasses can be attributed to a limited scope due to the large number of read manipulations in determining the rhubes and magnetic azimuths and the need for planned fame of the position of a point, as well as low operational properties due to low accuracy and reliability due to the additional hinge on the eye diopter , needle and thrust wear due to unlimited oscillations of the magnetic needle after sizing.

 Known Suspension device for the azimuthal marking of fans of wells (a.s. 739334, G 01 C 17/22 from 05.06.80), containing a suspension, a compass box, inside which there is a ring with divisions and a magnetic arrow and an optical system with a illuminator.

 The disadvantages of the pendant device include a limited scope due to the mobile forestry process due to the suspension and layout of hollow cylinder components in combination with an optical system operating from an autonomous power source, which increase the dimensions and weight and increase operational requirements.

 The closest analogue in technical essence and the achieved effect is the BG compass (see Sheinkman E.S. New instruments and tools in forest inventory. M.: Timber industry, 1968, p. 34-35), designed to determine the rhombuses and azimuths of directions, measuring horizontal angles. The prototype contains a housing with a magnetic needle mounted in it and a locking device, a limb, verniers, a sighting device made in the form of two folding diopters and made in the form of a plumb leveling device.

 The disadvantages of the prototype include relatively low accuracy and operational characteristics due to the inability to compensate for the errors in the initial positions of the zero strokes of the magnetic needle and vernier, the unlimited amplitude of oscillations of the magnetic needle, wearing out the needle and thrust bearing, and also due to the scale discs located one above the other with visual zones intersections with diopters requiring an additional change in the position of the operator’s head.

 The aim of the invention is to improve the accuracy and performance due to the location in the magnetic meridian of the verniers and magnetic needle indices, made with the possibility of compensating for manufacturing errors, a dial with a combined scale of points and azimuths and limiting the magnitude of the oscillation amplitude of the magnetic arrow of a rectangular body shape.

 The goal is achieved by the fact that in the compass containing the magnetic needle and arresting device, a limb, verniers, a sighting device, a sleeve with a pin and a leveling device, the following differences are provided: verniers and indices are attached to the supporting tides of the sleeve in the magnetic meridian, their zero strokes are parallel and made with the possibility of correcting the initial position, the limb is installed in the bore of the sleeve freely and is made with a combined scale, the numerical values of which increase counterclockwise , at the end of the sleeve a spherical level is installed, and the drive of the locking device made in the form of a screw pair is equipped with a stopper.

 Thus, the inventive device meets the criteria of the invention of "novelty."

 Comparison of the claimed technical solution with other technical solutions shows that the use of Verniers and landmark compasses made in the direction of the magnetic meridian under a freely set limb with the possibility of correcting their zero parallel strokes in the closest analogues and prototype was not found.

 The devices are widely known in which a magnetic needle is used for orientation, placed in various cases in combination with movable, fixed or combined verniers and limbs, with devices for sighting and leveling, however, the proposed novelty in the shape and location of the components gives them new properties. Thus, the zero strokes of the verniers are parallel to the strokes of the magnetic arrow indices mounted in a rectangular shape of the case, above which a limb with a combined scale is freely mounted, the numerical values of which increase counterclockwise in combination with a more reliable spherical level and a locking device made in the form of a screw pair equipped with a stopper give this type of bussole a new property, namely, when the magnetic needle is functioning, the zero bar of the verniers is located in the magnetic meridian that at low weight and dimensions simplifies operational techniques when conducting forest inventory works.

 This allows us to conclude that the solution meets the criterion of "significant differences".

In FIG. 1 shows a compass;
in FIG. 2 - the same, top view;
in FIG. 3 - the same side view;
in FIG. 4 is a longitudinal section along the axis of the housing;
in FIG. 5 is a section along the axis of the vernier fasteners.

 The bussol consists of a bracket 1 having cylindrical and rectangular supports "A", "B" and "C", carrying a limb 4, vernier 5 and the housing 6. In the upper part of the support "A" washer 7 and ball level 8 are fixed, in the lower parts are placed pin 9 and fixing screw 10. On the tide "B" the letters "C" and "U" are applied from above.

 In a rectangular case 6 there is a screw-needle 11, a magnetic arrow 12 with a strap 13, indexes 14, a cover 15, protective glasses 16 and a drive 17 for moving the arrow 12 with a lever 18 for fixing in the form of a screw pair. In the middle of the indices 14, strokes are plotted. In the housing 6, the through holes for the fasteners of the indices 14 are made with a gap for aligning the strokes with the ends of the magnetic arrow 12. Actually, the housing 6 is made in the form of a narrow parallelepiped with beveled corners, i.e. "boats", which limits the amplitude of the oscillation of the arrow and reduces the wear of the needle and the thrust bearing, and the execution of the arresting device in the form of a screw pair with a jamming lever 18 eliminates the possibility of fixing the arrow.

 Limb 4, which is a disk with a scale on a conical surface, is freely mounted on the surface "A" of the bracket 1 above the verniers 5 and the body 6 between the shoulder and the washer 7, which ensures rotation of the limb 4. The scale is made combined with the numbers of magnetic azimuths and rhombuses, increasing counterclock-wise. On the upper surface of the limb 4, diopters 20 of the sighting device are fixed diametrically opposite with screws and pins with the possibility of changing the initial position due to larger holes. To fix the position of the limb 4 is equipped with a latch 21.

 Situated parallel to the housing 6, the vernier 5 of a rectangular shape with screws and pins mounted on the surface "B" with the possibility of changing position due to larger holes.

 A pin 9 is freely placed in the bore of the bracket 1, on the lateral surface of which there is a groove for contact with the screw 10, and inside there is a conical hole for landing the compass on the rack.

 This arrangement of the sighting device, vernier 5 and the housing 6 eliminates the working intersection of the diopters 20 and arrows 12, which increases ease of use, since it does not require additional changes in the position of the operator’s head.

 To take measurements, it is necessary to unscrew the screw 10, remove the lever 18 of the arresting device, release the magnetic arrow 12 by unscrewing the screw 17, and, rotating the compass, precisely align the northern end of the magnetic arrow 12 with the stroke of index 14, while the zero stroke of vernier 5 will be parallel to the magnetic meridian Of the earth. Fix the compass with screw 10. Turn the dial 4 counterclockwise to bring the diopters line of sight to the target, take counts, for azimuths and angles in the bottom row of numbers, for points in the top row of numbers.

 Thus, the high accuracy of this type of bussole is achieved using level 8, which allows precise leveling in the horizontal plane and the ability to set the strokes of indices 14 in the magnetic meridian with the help of collimators, and the zero strokes of the verniers and the sighting axis parallel to the strokes of indices 14.

Claims (2)

 1. Bussol, comprising a housing with a magnetic arrow mounted therein and a locking device, a limb, verniers, a sighting device made in the form of two folding diopters, a sleeve, a pin and a leveling device, characterized in that the sleeve is made in the form of a bracket on supporting surfaces whose limb is freely installed, and under it are fixed verniers and a rectangular-shaped case with indices whose strokes are parallel to the zero strokes of the verniers.  2. Bussol according to claim 1, characterized in that the limb has a scale with counterclockwise increasing numerical values, the leveling device is a level, the arresting device is made in the form of a screw pair with stoppers, and the verniers and indices are configured to adjust the initial position.

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