CS258892B1 - Universal structural geological gauge with extended use - Google Patents

Abstract

The gauge consists of an attached part, formed by a bent U-profile arm, a universal hinge, a vertical protractor system, a hinge part with a horizontal protractor system and an orientation part formed by a supporting half-case with a needle with a fixed direction indicator and carrying a magnetic needle, while a spirit level is fixed in the front inner part of the arm and a bearing is attached to the rear outer part of the arm, one part of which is perpendicularly connected to the arm and the other part of which forms a supporting axis, connected to the inclination indicator. The gauge can be further modified so that the axes carrying the inclination and direction indicators are equipped with quick gears, which allow for more accurate reading of the data. The gauge can be further modified so that the inclination data is transmitted by a bevel gear to the direction indicator and the gauge is provided with locking means.

Description

The present invention relates to a versatile structural geological meter with extended use which solves the problem of reliably determining the spatial orientation of variously oriented plenary and linear structural geological elements, i.e. 1 sub-horizontal planar elements or near vertical linear elements, and is compact.

It is known a universal structural geological measuring instrument according to the author's certificate No. 247810, which consists of three interconnected parts. for loading, suspension and orientation, whose mutual angular relations, read on scale-measuring scales, represent data on spatial orientation of plenary and linear structural geological elements.

Disadvantages of universal structural-geological gauge according to MS. No. 247810 consist of increased inaccuracy in determining the direction of slightly inclined planar elements, i.e. with an inclination angle below 10 and 10, respectively. 20 or steeply inclined linear elements, i.e. with an inclination angle of more than 80 °, respectively.

Cl · o. In cases where the arm occupies a vertical position, the gauge is not usable in larger gauge dimensions due to the need to accurately read the horizontal and vertical angular values, resulting in the size of the two protractor scales, and the need for a larger distance between the vertical and horizontal protractor system. larger dimensions of a vertical system that prevents the horizontal scale from being viewed.

The above-mentioned disadvantages are reduced to an acceptable extent, both in terms of gauge dimensions and accuracy, by a universal structural geological gauge with extended use according to the invention, consisting of a U-shaped sectional arm, a universal hinge, a vertical protractor system, a horizontal protractor system and an orientation part consisting of a carrier half-shell with a needle with a fixed direction indicator and carrying a magnetic latch according to the invention, characterized in that a vial is attached to the front inner part of the arm; The part is perpendicularly connected to the arm, and the second part is formed by a support axis connected to the inclination indicator.

The advantage of the device according to the invention is the easier and more accurate reading of the angular values and furthermore the possibility of substantially reducing the vertical protractor system in particular and thus its attraction to the horizontal echo-measuring system without worrying about the difficulty of reading horizontal angles. The length of the suspension part can only be selected with a view to generating sufficient torque to bring the suspension part vertically; this fulfills the condition of accurate ‘reading of vertical and horizontal angles.

A further advantage of the apparatus according to the invention is the existence of a second insert which is parallel to the arm and allows the usable extension of the gauge 1 to extend the sub-horizontal plenary elements or the almost vertical linear elements.

The accompanying drawings show various embodiments of a meter according to the invention, FIG. 1 is a schematic cross-section of a basic gauge, FIG. 2 shows a gauge with data conversion to fast, and FIG. transferring data to the hanging part 2.

FIG. 1 shows a meter according to the invention, the arm of which consists of a first rectangular shank 2, a rectangular rectangular shank 6 perpendicularly attached thereto, a handle 6, parallel to the first shank 2 and at the end provided in the housing 4; bearings; the bearing pin 8 represents a modified end of the arm 9, which is perpendicular to the first liner 8 and parallel to the pair of edges of the second sleeve 5, on the other hand, two support axes 10 are attached perpendicularly to the arm g. ,

The suspension part 2 is formed by two vertical discs 12 with a protractor scale, rotatably mounted on the axes 10 and fixedly connected to the hinge 13, at the bottom of the hinge 14 a transparent horizontal angle ' the hollow pin 17 terminated by the indicator of the inserts 18, the hollow pin 17 is guided radially and axially in the half-housing of the bearing 16 and the hollow pin 17 is passed through a needle 19 provided on one side with an axial bearing 20; 20, a pointer 22 is attached to the needle 19, a magnetic latch 23 is rotatably mounted at the tip of the needle 19, and a guide bar 24 of the gauge orientation portion 3 is mounted in the carrier half-shell 21.

The gauge is further arranged such that in the half-housing 16 the first arresting means 25 for fixing the position of the azimuth pointer 18 relative to the horizontal angle scale 15 are situated that in the supporting half-housing 2.1 there is a second arresting means 26 for fixing the relative position of the azimuth pointer 18. a direction indicator 22 that an auxiliary tab 27 can be slidably connected to the second tab 5 or the first tab 4 and the female of the tab 1, e.g., a tubular reverse vial 28 with an axis parallel to the intersection of the first tab 4 with second appendix 5.

FIG. 2 schematically illustrates a meter according to the invention in a further embodiment, the arm of which comprises a first rectangular quadrilateral 4, a second rectangular quadrilateral 5 attached to it, a handle 6, preferably parallel to the first quadrilateral 4 and at the end provided in the bearing housing 7; the bearing pin 8 represents a modified end of the arm 11 that is perpendicular to the first shim 4 and parallel to the pair of edges of the second shim 5, on the other side two opposite axes 10 are attached perpendicular to the bearing pin 8 The protractor scale 12 already belonging to the suspension part 2 of the apparatus is quickly converted by means of a 31 to the hollow axis 32 coaxial with the axis 29 and rotating the large inclination indicator 33 for accurate angle reading.

The hinge part 2 further comprises a housing 34 of the vertical protractor system, a radial bearing 35 is mounted at the bottom of the housing 34, ⁱⁿ which the axis 10 rotates with respect to the housing 34. By hinge 13 the housing 34 is firmly connected the center of which is provided in the half-housing of the bearing 16, in the housing 36 is located the gear 31 to the fast.

The orientation portion 31 comprises a magnetic latch 23 rotatably mounted on the tip of the needle 19 passing through the hollow axis 47 to which a direction indicator 30 is attached, whose rotation relative to the horizontal protractor scale. 15. by means of a gear 31 to the rapid axis, it is converted to the hollow axis 32 by coaxial with the hollow axis 47 and rotating the large direction indicator 48} at the bottom of the hollow axis 47 is connected to the support half-housing 21 in which the guide bar 24 is mounted.

The gauge is further arranged such that in the half-shell 10 the first locking means 25 for positioning the direction indicator 30 and the large direction indicator 48 are situated relative to the horizontal protractor scale 15 so that the second half-positioning means 26 for positioning the pointer direction 30 and a large direction indicator 48 with respect to the guide rod 24, that the third locking means 37 for fixing the position of the magnetic latch 23 extends through the hollow axis 47 and that an auxiliary tab 27 can be slidably connected to the second tab 5 or the first tab 4; A tubular reverse vial 28 with an axis parallel to the intersection of the first spacer 4 with the second spacer 5 is situated on the inner, non-working side of the first spacer 4.

Giant. 3 schematically illustrates another embodiment of a universal structural geological meter with extended use. The attachment part J is formed by a first rectangular rectangular shank 4, a second rectangular rectangular shank 5 attached perpendicular thereto, a handle 6, parallel to the first shim 4 and provided at the end with a bearing pin 8; the bearing housing 7 merges into the arms 9 connected by an axis 10 to which the direction indicators 30 rotating relative to the auxiliary vertical scale 38 are fixedly connected;

5, on the axis 10, a drive bevel wheel 39 rotating by the driven bevel wheel 40, which already belongs to the suspension part 2 of the apparatus and rotates the hollow shaft 41, is fixed at its end with a large direction indicator 48 rotating relative to the main vertical protractor scale 12.

The hinge part 2 of the apparatus further comprises a housing 34 in which radial bearings 35 are mounted in which the axis 10 rotates relative to the housing 34. By hinge 13, the housing 34 is rigidly connected to the (transparent) horizontal protractor 15 and the housing 36. the center of which is provided in the bearing half-bush 16, in the housing 36 is located a gear 31 to a fast which accelerates the rotation of the pin 42 of the orientation part 3, followed by a directional axis 29 terminated by a direction indicator 30. the hollow axle 32 coaxial with the axle 29 and rotating with a large direction indicator 48¾ the end of the axle 29 is arranged in a needle 19, at the top of which a magnetic latch 23 is rotatably mounted. parts of the apparatus.

The gauge is further arranged such that the first detent means 25 for fixing the position of the small hand 30 and the large hand 33 relative to the horizontal protractor scale 15 are situated in the semi-housing 16 so that a second detent means 26 for the position indicator 30 and a large direction indicator 48 relative to the guide rod 24, that the third locking means 37 for locking the position of the magnetic latch 23 extends through the hollow shaft 41 and is formed by a grip 43 enclosing the mushroom projection 44 in the center of the magnetic latch 23 the position can be fixed in the recess 46 of the hollow shaft 41, further that an auxiliary shim 27 can be slidably attached to the second shank 5 or the first shank 4, and that on the shank, preferably on the inner, nonworking side of the first shank 4

tubular reverse, vial 28 with an axis parallel to the intersection of the first enclosure 4 with the second shim 5.

The measurement with the meter according to the invention takes place as follows:

.258892

The spatial orientation of the plenary elements which are vertical or steeply inclined, i.e. with an inclination greater than 20 ° or 30 ° and of which the vast majority are, is carried out with the aid of the first enclosure 4; the possibility is made of its twisting in its own plane and is applied in the position in which the suspension part 2 of the gauge moves away from the rock into the free space. The adjustment of the gauge ensures that the working plane of the apparatus, i.e. the plane intersected by the vertical axis of the hinge part and the arm in any position, spontaneously moves to a vertical position perpendicular to the flare. surface, ie. it passes through the normal and the slope of the measured area.

When measuring the spatial orientation of sub-horizontal or slightly inclined surfaces, eg with an inclination angle below about 20 ° or 30 °, a second shim 5 is used. However, bringing the working plane of the device to vertical (perpendicular to the measured surface) does not spontaneously} This operation is carried out by means of a tubular vial 28 parallel to the intersection of the first and second attachments 5. The second shim 5 is applied to the surface to be measured in a position in which its edges parallel to the arm 1 point along the surface slope.

When measuring the spatial orientation of horizontal and slightly inclined, i.e. with an inclination angle of less than about 70 °, of the linear elements, one of the edges of the second enclosure 5, which are parallel to the arm 1, is attached to the measured element. The working plane coincides with the vertical plane in which the measured linear element lies.

In measuring almost vertical or steeply inclined linear elements, i.e. with an inclination angle of greater than about 70 °, one of the edges of the first appendix 4, which is parallel to its central cross-section intersecting the arm axis, is attached to the measured element; the entire apparatus is then rotated around this edge to a position in which the tube vial 28 is aligned.

The gauge according to the invention is intended for the measurement of planar and linear structural elements in all conditions.

Claims (7)

1. Universal structural geological measuring instrument with extended use, consisting of an enclosed U-shaped arm, a universal hinge, a vertical protractor system, a horizontal protractor system suspension part, and an orientation part consisting of a bearing semi-enclosure with a fixed bearing pointer bearing a magnetic bearing a bolt, characterized in that a vial (28) is attached to the front inner part of the arm (1) and a bearing (9) is attached to the rear outer part of the arm (1), one part of which is perpendicular to the arm (1) and they form a support axis (10) connected to the inclination indicator (11). 2. A gauge according to claim 1, characterized in that a second insert (5) is attached to the outer lower part of the arm (1). Gauge according to items 1 and 2, characterized in that the inclination indicator (11) is mounted on the support axis (10) and the support axis (10) is provided with a gear (31) into a rotational speed whose large hollow axis (32) is fastened / 33 / slope indicator. Gauge according to Claims 1 and 2 _, characterized in that a bevel gear (39), which fits into a driven bevel gear (40), provided with a hollow shaft (41), on which a pointer (4) is mounted, is mounted on a supporting axis (10). 11 / gradients with a scale / 12 / gradients is attached to the hinge / 13 /. 5. A gauge according to any one of Claims 1 to 4, characterized in that the needle (19) is provided with a gear (31) to the rotational speed, on whose hollow axis (41) a large direction indicator (48) is mounted. 6. A meter according to any one of claims 1 to 5, characterized in that a second arresting means (26) for fixing the position of the direction indicator (22) and the large direction indicator (48) relative to the aiming rod (24) is situated in the supporting half-shell (21). 7. A gauge according to claim 4, characterized in that a third locking means (37) is provided in the hollow shaft (41) for fixing the position of the magnetic latch 723.