RU2568332C1 - Measuring tool to control radius of curve of cylindrical surfaces of infinite length - Google Patents

Abstract

FIELD: measurement equipment.

SUBSTANCE: to measure radius of curve of a cylindrical surface (convex or concave) a tool is used on the basis of a vernier caliper, including a base (a frame with a vernier) with a bar with a measuring scale inserted into the frame, measuring grips, a clock-type indicator installed into a cartridge and a stop screw, at the same time the clock-type indicator is installed together with the cartridge on an additional bar installed on the frame on the back side of the main vernier caliper bar, connected movably with the latter with the possibility of movement relative to it, besides, the axis of the measuring rod of the clock-type indicator is perpendicular to the longitudinal axis of the additional rod, and in the initial (zero) position matches the place of contact of internal surfaces of measuring grips, and the end of the measuring rod of the indicator matches the plane stretching perpendicularly to the axis of the measuring rod in extreme points of measuring grips. When measuring radius of curve of the cylindrical surface the measuring grips are installed onto the measured surface of the rail for the size of rolling path width L, and the axis of the measuring rod of the clock indicator is set by movement of the additional bar by size l along the additional scale, equal to half of width of the rolling path L, and measures height of segment h from chord tightening the radial arc of the rolling path cylindrical surface contour. Radius of curve of the cylindrical surface is determined as equal to quotient of division of the sum of squares of half-width of rolling path and height segment measured from chord, tightening radial arc of rolling path cylindrical surface contour, by doubled height segment.

EFFECT: increased accuracy of measurement.

3 cl, 4 dwg

Description

The invention relates to devices for determining the radii of curvature of cylindrical surfaces and can be used to monitor the condition of the working surfaces of a rail, for example, in opencast mining.

During operation, the railway wheel when sliding along the rail moves with sliding, as a result of which, in the zone of contact of the wheel with the rail, the friction surfaces are subject to wear. As a result, the geometric characteristics of the working surface of the rail are changed, the restoration of which requires constant monitoring (monitoring) of the radii of curvature of the cylindrical surfaces forming the geometric profile of the working surface of the rail.

A known tool (profilograph) for removing the profile of a rail profile, including a frame with sharp needle rods set according to the shape of the measured rail, after which the needle tips are fixed, removed from the rail and the shape of the removed profile are transferred to the paper (by pricking) (Vasiliev N.N. , Isaakyan O.N. et al. Profilograph. // in the book “Technical Railway Dictionary” - Moscow: State Transport Railway Publishing House, 1941).

The disadvantage of this tool is that when it is used in quarry conditions it does not provide the necessary measurement accuracy and its use is fraught with great labor costs due to the need to make templates and to compare the profile of a worn rail with an unworn one.

A device for measuring the actual dimensions of the parameters of the outer surfaces and radii of spherical products (RU No. 2159920, published. November 27, 2000), including a base, a subject table, an exemplary rotation spindle with a bearing element, on which an axial reading head is mounted with the ability to move along the axis of the subject table and rotation around the measured part. The technical result is a measurement of the actual dimensions of the parameters of the outer surfaces and the radii of the spherical surfaces. The disadvantage of this device is the inability to use it in quarries to control the radii of curvature of cylindrical surfaces of infinite length, for example, the working profiles of rail heads, and to measure the radii of concave surfaces, for example, when controlling the rental size of working surfaces of worn wheels of railway vehicles.

A device is also known - indicator radius meter (Indicator radius meter RIC 1000 manufactured by MICROTECH), including a base (fork probe) with a sleeve and a locking screw, a dial gauge installed in the fork probe sleeve and fixed with a locking screw. The technical result of the device is to measure the radii of curvature of the surfaces of the parts, the depth of the depressions (grooves) and the height of the ledges. This technical decision was made by us as a prototype. The disadvantage of the prototype is the presence of fork probes with fixed interaxial distances and, as a consequence, the inability to measure the radius of curvature of a cylindrical surface with a variable chord length, for example, in the form of the width of the track along the wheel rails of open pit rail vehicles.

The technical result of the invention is the installation of a dial indicator together with a sleeve on an additional rod mounted on a frame with a vernier on the reverse side of the main caliper rod, movably connected to the latter with the possibility of movement relative to it, and the axis of the measuring rod of the dial indicator is perpendicular to the longitudinal axis of the additional rod, and in the initial (zero) position coincides with the plane of contact of the inner surfaces of the measuring jaws and the end of the meter Nogo indicator rod coincides with a plane drawn perpendicular to the measuring rod axis with the extreme points of measurement sponges. The technical result of the invention is also that when measuring the radius of curvature of the cylindrical surface, the measuring jaws are installed on the measured surface of the rail at the size of the track width L, and the axis of the measuring rod of the hour indicator is set by moving the additional rod by size l on an additional scale equal to half the width of the track L, and measures the height of the segment h from the chord, tightening the arc of the circumference of the contour of the cylindrical surface of the track. Also, the technical result is the determination of the radius of curvature of the cylindrical surface, equal to the quotient of the sum of the squares of the half-width of the track and the segment height, measured from the chord, tightening the arc of the circumference of the contour of the cylindrical surface of the track, by twice the height of the segment.

The technical result is achieved as follows. In a measuring tool based on a caliper to control the radius of curvature of cylindrical surfaces of infinite length, including a base (frame with a nonius) with a bar inserted in the frame with a measuring scale, measuring jaws, a dial indicator and a set screw in the sleeve, a dial indicator is installed together with a sleeve on an additional rod mounted on the frame on the reverse side of the main caliper rod, movably connected to the latter with the possibility of movement relative to it, moreover, the axis of the measuring rod of the dial indicator is perpendicular to the longitudinal axis of the additional rod, and in the initial (zero) position coincides with the plane of contact of the inner surfaces of the measuring jaws and the end of the measuring rod of the indicator coincides with the plane drawn perpendicular to the axis of the measuring rod at the extreme points of the measuring jaws. When measuring the radius of curvature of a cylindrical surface, the measuring jaws are installed on the measured surface of the rail at the size of the track width L, and the axis of the measuring rod of the hour indicator is set by moving the additional rod by size l on an additional scale equal to half the width of the track L and measures the segment height h from chords contracting an arc of a circle of a contour of a cylindrical surface of a raceway. The radius of curvature of the cylindrical surface is determined equal to the quotient of the sum of the squares of the half-width of the track and the segment height, measured from the chord, tightening the arc of the circumference of the contour of the cylindrical surface of the track, by twice the height of the segment.

In FIG. 1 shows a frontal projection with an A-A sectional view of a measuring tool (device) for controlling the radius of curvature of cylindrical surfaces of infinite length.

In FIG. 2 shows a section A-A of a tool.

In FIG. 3 shows a view B (rear), from the side of the frame with the vernier of the instrument.

In FIG. 4 shows a diagram for measuring the radius of curvature of a cylindrical concave surface.

A measuring tool (device) for monitoring the radius of curvature of cylindrical surfaces of infinite length consists of a frame with a nonius 1 inserted in the frame 1 of the main rod 2 with a measuring scale, measuring jaws 3 and 4. The dial indicator 5, inserted in the sleeve 6, is fixed in the sleeve the stopper 8 and together with the sleeve is mounted on an additional rod 9 mounted in a frame with a vernier 1 on the reverse side of the main caliper rod 2, movably connected to the latter with the possibility of movement relative to it, the axis of the measuring rod 10 of the dial gauge 5 is perpendicular to the longitudinal axis of the additional rod 9, and in the initial (zero) position coincides with the plane of contact of the inner surfaces of the measuring jaws and the end of the measuring rod of the indicator 5 coincides with the plane drawn perpendicular to the axis of the measuring rod at the extreme points A and B measuring jaws 3 and 4.

A measuring tool (device) for controlling the radius of curvature of cylindrical surfaces of infinite length works as follows.

The tool is mounted on the working surface 11 of the rail (Fig. 1) and the width of the track L is measured using the main rod 2 and the measuring jaws 3 and 4 (Fig. 2). After fixing on the frame 1 of the main rod 2 with a locking screw 13, the dial indicator 5 mounted on the additional rod 9 using an additional scale 12 is set to a size l equal to half the width of the track L of the rail. The measuring rod 10 of the indicator 5 measures the height h of the segment from the chord AB, tightening the arc of a circle of the working cylindrical surface 11 of the track of the rail. The radius of curvature of the cylindrical surface of the track is defined as the quotient of dividing the sum of the squares of the half-width of the track l = L / 2 and the segment height h by twice the segment height according to the formula

The measurement of the radius of curvature of the cylindrical concave surface (Fig. 3) is carried out in a similar way and is calculated by the above formula.

The present invention allows you to quickly and with minimal labor to determine the radius of curvature of a convex or concave cylindrical surface (for example, the working surface of the rail directly in open cast mining) and to take measures for the timely profiling of worn surfaces.

Claims (3)

1. A measuring tool for controlling the radius of curvature of cylindrical surfaces on the basis of a caliper, including a base with a bar inserted in the frame with a measuring scale, measuring jaws, a dial indicator in the sleeve, a locking screw, characterized in that the dial indicator is installed together with the sleeve on additional rod mounted on the frame on the back side of the main caliper rod, movably connected to the latter with the possibility of movement relative to it, and the axis is measured The measuring rod of the dial gauge is perpendicular to the longitudinal axis of the additional rod, and in the initial position it coincides with the plane of contact of the inner surfaces of the measuring jaws and the end of the measuring rod of the indicator coincides with the plane drawn perpendicular to the axis of the measuring rod at the extreme points of the measuring jaws. 2. The measuring tool according to claim 1, characterized in that when measuring the radius of curvature of the cylindrical surface, the measuring jaws are installed on the measured surface of the rail at the size of the track width L, and the axis of the measuring rod of the hour indicator is set by moving the additional rod by size l on an additional scale, equal to half the width of the track L, and measures the height of the segment h from the chord, tightening the arc of the circumference of the contour of the cylindrical surface of the track. 3. The measuring tool according to claim 1 or 2, characterized in that the radius of curvature of the cylindrical surface is determined equal to the quotient of the sum of the squares of the half-width of the raceway and the height of the segment, measured from the chord, tightening the arc of the circumference of the contour of the cylindrical surface of the raceway, by twice the height of the segment .

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