SU26068A1 - Drawing device for graphic shooting of a situation when working with a theodolite - Google Patents

Description

The invention relates to a drawing device for graphically capturing a situation when working with a theodolite consisting of a tablet board, on which a circular protractor with a radial moving mask with division is attached. In the proposed drawing device for accurately laying the measured lines on paper, the radial ruler is equipped with a gear vernier and a pin-up needle, and the vernier at the end of the ruler is equipped with a micrometer zint with a gear.

In FIG. 1 shows a view of a device for graphical shooting of a situation when working with a theodolite from above; FIG. 2 - the same in cross section; FIG. 3 is the same top view with a ruler according to the third option; FIG. 4-6 individual parts of the device.

A drawing device for graphical shooting of a situation with a theodolite consists of a square wooden tablet board A -A, 0.22 X 0.22 X 0.055 l in size, which, for greater rigidity and in order to avoid distortion along the edges, is framed by a metal frame B -AT. A cover and a belt are attached to the board, which allows to carry the entire atu (an outline bag on the shoulder. The metal circular protractor C – C, corresponding to the adopted scale of the radius survey, consists of two knurled ones and screwed circles, of which the lower one has a jagged (or corrugated) outer edge, and the upper one is divided into 360 °, half degrees and, if possible, even a quarter of a degree. The Protractor C – C is a rigid metrical link D – D across the diameter of the circle (or mutually perpendicular diameters) connected to cylindrical The center and the combo O, having a vertical through hole of 1 mm, into which the needle of the scale bar is inserted. The centric O is integral with the square metal plate E-, which can be slightly rearranged in the gap zi D - D In addition, the centric O has two cutting diameters on top of two mutually perpendicular diameters for checking or correct installation of a centric along a circular protractor.

When loosening the L-: i D-D connection screws, all metal parts can be removed from the AL-board and the paper (Watman, Aleksaydriysk, Elephant, etc.) is not glued on, which is jtaer

smooth, not pierced with a needle surface and a white background for greater clarity and clarity of the drawing. The upper part of the cgv D - p (ears) is made so that between the circular protractor and the plane of the board A - A there is a very small gap t - t, 8 of which only one sheet of stencil should move. To obtain a larger clearance under the ears - D, paper sheets can be enclosed. Two mutually perpendicular diameters (O-180 and 90-270 °) should be drawn on the paper pasted on the A-L board, which in future work will make it possible to immediately mark the zero line of the survey on the stencil. In one of the angles of the board, a compass (compass) is placed for approximate orientation of the board along the magnetic meridian and the possibility of tracing the latter (according to the degree indication of the arrow) on the waxing, which gives a magnetic azimuth of the zero line.

The next component of the device is a large-scale p-n ruler, which, depending on the accuracy requirements of the device, has been constructed of three different types. The first type of ruler, like the other two, is designed for one specific shooting scale, the ruler being divided up to 0.5 mm and not having a circular nonius. With such a ruler device, the accuracy of the device will be the smallest, however, in the author's opinion, it is quite suitable for shooting a situation on a scale not less than 100,000, since the half-division of 0.5 mm taken by eye gives 50 m in kind. ,

The second type of ruler is an ordinary scale ruler (Fig. 4) with a vertical (hundredth) scale, which, in order to postpone the distance, should be used with compasses. This ruler allows you to take a distance with any (a-limits of limits) accuracy, and therefore it is appropriate to adapt a circular nonus to it, which, in order to smoothly move it around in a circle, is equipped with a micrometer screw / gear.

In the third type of line, in view of the desire-to avoid the need to use

with a compass, without lowering, however, because of this precision of the ruler, it is equipped with a gear vernier A mounted on a ruler, which, like the circular vernier, is equipped with a micrometer screw with a gear and, moreover, a pinch pin p (FIG. 5) installed in a vertical position, against a zero vernier. With the help of g-g screws, the tip can be aligned and set exactly against zero vernier.

All three kinds of large-scale rulers are equipped with a needle -5 inserted into the hole of the centric O. Of course, the diameter of this needle should not be more than 1 mm (and even better less than 1 mm) and, as one of the most critical parts of the device, the needle should be made of the hardest metal (steel), because of the insignificance of its mass and relatively small sensitivity of the arrow of the compass, placed on the board, this needle, even steel, should not have any effect on the readings of the arrow of the compass. In the case of the second type of ruler, the point should have a small conical-shaped depression at the upper end for one of the legs. In view of the possibility of damage and deterioration of this needle, it must be arranged with the possibility of replacing it with a spare needle.

The device for micrometer movement of the nonius can be concentrated in one screw (without a clamping screw) in order to avoid wasting time on shifting the arm to two turns.

Separate structural details of the third scale scale are shown in FIG. 6. Linear with nonius can also be equipped with a loop or attached to the nonius or individual manual. The device can be used either by holding it in your left hand (as a common outline book), either by placing it on a separate stand (tripod, stick), or attached to the skins of the tripod theodolite in a horizontal plane.

To save wax, the upper and lower edges of the A-L board can be attached with rollers — the upper one for winding a clean wax tape and the lower one — for winding the wax film with the situation already removed.

Breaking down the production of the survey work into two stages - geo-net and filming, it should be stopped first at the last stage - filming, having examined two cases.

The first case - shooting from the point of the core network. Having a theodolite and the device described above with white paper pasted onto the board and a stencil embedded in the DD connection, they combine the zeros of the limb and alidade of the theodolite and, pointing at some other point of the geonetwork, carry out the usual polar imagery of the theodolite and the same Under the scale bar, draw a zero line indicating the point of standing and the point on which the combined zeros are pointed (Fig. 3). For control, it does not interfere with drawing lines to all visible points of the geonet. Counting (at one position of the theodolite vertical circle) horizontal angle between the 5th null line and the direction to the rail and taking the last distance one by one to the vernier, make the corresponding puncture with a needle on the wax and immediately draw the contour between the points a hundred nor laths

The magnetic azimuth, indicated by the arrow of the compass of theodolite, allows you to orient the board along the compass A - A (while holding it in your hand) and draw the direction of the magnetic meridian on the stencil (Fig. 1).

At the end of the shooting of a situation with one of the PICTURES, a single sheet of wax is numbered and the wax is moved further (if there are rollers) or a new sheet is inserted. stencils, and in the same order they are shooting from a new point a hundred.

Further, the reverse side of the stencil is blackened with a pencil, and if desired, points of a hundred of racks can be pinned onto the tablet (or plan), and the whole situation is transferred to the tablet by simple copying (bypassing), combining previously the points of 100% of the wax and of the tablet and zero lines. Some control here is the direction of the magnetic meridian and the drawn directions to other visible points of the geonetwork. If desired, this overlay situation n, and the tablet can be made immediately immediately in the field.

The second case is shooting from a point that is not part of the geo-network. The determination of a point is done in the same way as with a scale-up, i.e. the definition is based on three data, whereby two cases of solutions are possible: a) direct drawing on the stencil of the directions to the visible points of the geonetwork (Fig. 3). b) recording the angles between the “zero line and other points of the geonet. In this case, on returning from the place of shooting (or now in the field), measured angles should be built on the wax (from 0 ° to 360 °, and the construction of the angles itself can be done both with a protractor and using Gaussian suspension tables (did not even resort to using special tables - chords and tangents).

Putting a point in either case (a and b) is done according to the method of Bolotov, which, with accuracy and use of directions to all visible milestones of the geonetwork, gives the results allowed by the existing instructions.

The use of the method of serifs of very remote objects with this device is also possible, albeit with somewhat lower accuracy than on the tablet, since the sketching field (within the circular protractor) is much less

What can be done on the tablet area, the angle with „zero is destroyed by the recording line.

A geonet can be constructed, using the analytic data (in this case, recorded in the outline, solving a network of triangles, where further work will be reduced either to drawing the grid on the coordinates, or to construction by serifs. The same construction can be done. (With less confidence in accuracy) and geometrically measured angles and basis.

Even an analytic solution of the NIKOV geogrid trio, with a further calculation of the coordinates of the network points, does not require a significant lengthening of the work, taking into account that it is enough to measure the angles from zero with one vernier and at one position of the circle, since there is always verification.

If you do not want to use any of these methods of building a network, as well as if you do not want to use

using the Bolotov method, when determining the point of standing by three data, it is possible to use as a last resort a geo-network split by a menzula and standing points defined by the menzula, or thicken the trigonometric network with a theodolite so that each theodolite falls on one of the geo-network points.

The subject matter of the invention.

Drawing instrument for graphic situations when working with a theodolite.

consisting of a tablet board on which a circular protractor is attached, with a radial movable ruler with divisions, characterized in that the radial ruler is designed to accurately measure the measured lines on paper and is equipped with a vernier A with a gear and a needle needle p, and the nonus v placed at the end of the ruler, in order to smoothly move it around in a circle, it is provided with a micrometer screw / gear.

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