SU1041866A1 - Device for measuring true stratum slope angles by axonometric projections - Google Patents

Abstract

A DEVICE FOR MEASURING TRUE ANGLES OF FALL OF GEO-LOGICAL LAYERS IN PLANNED AXONOMETRY, a base made of transparent material. mutually perpendicular coordinate lines and a protractor circle with mutually perpendicular coordinate lines and a degree scale are set on it with a vanessive one. ny. on the base with the possibility of rotation relative to the axis, perpendicular to the base, characterized in that. that, in order to ensure the possibility of measuring the true values of the angles of incidence in projection-distorted glasses, the velocity X | it is equipped with a transparent indicator of readings with a bevel line of sight mounted on a Krugotransporter with possible vrashenkv relative to its axis, on the basis there are lines of vertical plots in the projected distorted planes, a grid of transitional scales and a biloarithmic grid, strike in the perpendicular lines of the vertical lines and horizon lines in the projection-undistorted pleyos oct x. S

Description

10 The invention relates to hard measurements, namely to measurements of the true angles of incidence of geological heat (layers) on plans constructed with projection distortion, and can be used when working with cartographic materials. A device for measuring the true angles of incidence of geological plastics in planned agangalometry contains a base made of transparent material with mutually perpendicular lines and a protractor circle coated on it. mutually perpendicular coordinate lines and a degree scale, mounted on the base and can be rotated about an axis, perpendicular to the base. However, with this device it is possible to measure the angles of incidence only in projection non-distorted planes. The aim of the invention is to make it possible to measure the true values of the angles of incidence of geological plates in projection-distorted planes. The goal is achieved in that the device for measuring the true angles of incidence of geological layers in a planned axonometry, containing a base of transparent material with mutually perpendicular coordinate lines and a protractor circle with deposited on it. mutual perpendicular coordinate lines and a degree scale, set on the base can be rotated, relative to the axis, perpendicular to the base, provided with an indicator of readings made of transparent material with a sighting line-bevel, mounted on a protractor circle with the possibility of turning around its axis, on the basis there are lines of vertical positions in the projection distorted planes of the grid of transitional scales and a technological grid of grid, and on the crustal line there are spreads of stretch in pegs of synclines and anticlines and the grid is mutual. perpendicular lines of vertical plots and horizon lines in projection-undistorted planes. FIG. I presents the proposed device, a general view; in fig. 2 shows section A-A in FIG. Ij in FIG. 3-6 - the position of the device when measuring. The device contains base t made of transparent material. 662 circle protractor 2 and 3 pointer reference. The circle-transport f 2 and the 3-pointer indicator are installed respectively on the base 1 and the protractor-circle 2, which can be rotated about the axis 4 fixed on the base I. The fixing of the 3-pointer indicators and the circle-conveyor 2 in the required positions is provided with screw clamps 5 and 6 , mounted on the conveyor circle 2 and the base I. On the base I, mutually perpendicular coordinate lines 7, 8 lines of vertical laying in the projection-distorted planes, grid 9 transition scale, bilogarmic grid Yui scale; tabular rulers I. On the protractor circle 2, there are mutually perpendicular coorinate lines 12, degree scale 13, write 14 stretches in synclinal lines, and lines 15 of anticlines and a grid of 16 mutually perpendicular lines of vertical foundations and a grid of 17 horizon lines in projection-non said planes. On the 3 readout indicator, there is a line of sight 18.. Operation with the device is as follows. . In case the AE section is oriented at point B perpendicular to the strike of the L formation (Figs. 3, 4 and 5). Set the base I to the diagram center to point B and orient it to the coordinate lines 7 or the bilogarithmic grid Yu parallel to the corresponding lines Q - SG and b, on the diagram, which ensures a specific value of the segment CD on one of the lines 8 vertical plots in the sliding-distorted planes by limiting it on one side with the cut line AE, and on the other, the position of the BP formation in the plane of the cut (Fig. 3). ., Turn the circle protractor 2 to a horizontal coordinate line 12 with the direction of the cut AE and fix this position with a clamp 6. Then, using a compass or gauge, point 1 of the segment CD is perched on the vertical insertions of the undistorted planes (Fig. 4). Turn the pointer 3 of reference to align the sighting line-bevel 18c with the transferred point D and fix this position by pressing 5, while the value indicated by the sighting line-bevel 18 on the degree scale 13 indicates the true value of the angle of incidence.

If the AE cut at point B is not oriented perpendicularly to the face of formation M (Fig. 6), set the base t to the point B of the diagram and orient it relative to the diagram. The protractor circle 2 is turned until the coordinate lines 12 at point B are set perpendicular-. normal and normal to the seam M

This exhibition can also be made by combining the corresponding lines of 14 synclines or line 15 of anticlines in the peplinal section of the structure, tours. The position of the circle protractor 2 is fixed with a clamp 6. Then the segment of diamonds is laid on the corresponding line of vertical inclusions of the undistorted planes tsut & l of transferring point C

point C at the intersection with the horizontal coordinate line 12. Combining the sighting line-bevel 18 with the point Dt, determine the true value of the angle of incidence.

In case the AE cut is removed in an enlarged vertical scale not conforming to the horizontal one, then the true CD / j segment size (FIG. 6) is taken from the transition scale chart. In this case, the true value of the angle of incidence is determined by combining the bevel line 18 to the point

Coy DI. . . .,. .

The proposed device allows to determine the angles of projection

distorted planes and significantly reduce the time of construction and processing of diagrams.

Claims (1)

DEVICE FOR MEASURING THE TRUE FALL ANGLES OF GEO ^ LOGIC STRINGES IN A PLANNED AXONOMETRY, containing a base made of a transparent material with mutually perpendicular coordinate lines and deposited on it. protractor circle with mutually perpendicular coordinate coordinates drawn on it. lines and degree scale set. based on the possibility of rotation about an axis perpendicular to the base, characterized in that, in order to enable the measurement of true values of the angle of incidence in projection-distorted planes, it is equipped with a reference indicator made of transparent material with a sighting line-bevel mounted on krugetransportire vozmozhnot with respect to its axis of rotation, on the basis of the vertical line plotted inherent in projection-distorted planes grid transients _on the scale and the logarithmic biloga- ce ka, and SS-dash transported circle plotted stretch line poreklinalyah synclines and anticlines and grid lines perpendicular vertical hole and horizontal lines. Comrade in projection-undistorted planes. SU „„ 1041866> ΙΟ418Θ6