SU1677484A1 - Linkage micrometer - Google Patents

Abstract

This invention relates to a measurement technique. The aim of the invention is to expand the range of measurable products and increase the productivity of the measurement. The lever micrometer contains a housing, two coaxially mounted rods in a housing that can be moved relative to its axis, a reading unit connected to one of the rods, a micrometer assembly connected to another rod, two interchangeable holders mounted on the respective rods rotatably relative to their axes , two spherical measuring tips installed in the respective holders, each of which interacts with the end of the corresponding rod and is designed to interact with the item being measured, and two flat springs mounted on the respective holders rotatably with respect to their axes and designed to interact with the item being measured. During the measurement, the spherical measuring tips are accurately mounted on the part and the measured size is determined on the scales of the micrometric and reference nodes. 3 il. cl

Description

The invention relates to a measurement technique and can be used to measure splined shafts with involute sludge and a triangular profile, external recesses, smooth surfaces and external gears.

The purpose of the invention is to expand the range of measurement products by measuring the splined shafts, external gearing gears, external recesses and increasing the measurement performance.

FIG. 1 shows a lever micrometer in measurement, a general view; FIG. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. 2

The lever micrometer includes a housing 1, a pointer reading unit 2 (kinematically connected movable rod 3, moved by arresting device 4, micrometric node 5, and kinematically connected adjustable rod 6 mounted on rods x 3 and 6 interchangeable holders 7 and 8, spherical measuring tips 9 and 10 placed on holders 7 and 8 and flat springs 11 and 12 moving around their axes with elements 13 and 14, 15 and 16 equally spaced from the axes of holders 7 and 8 to fix the position of spherical measuring gauges Tips 9 and 10 in diao VI

2

00

four

meter of the measured part 17 in axial and transverse planes.

The spherical measuring tips 9 and 10 are in contact with the ends of the rods 3 and b and with the surfaces of the measured part 17. The interchangeable holders 7 and 8 are mated with the rods 3 and 6 by sliding fit, which allows the holders 7 and 8 to rotate around its axis rods 3 and 6. Springs 11 and 12 with elements 13 and 14, 15 and 16 are permanently placed along the axis of the part 17 in annular grooves 18 and 19, made on the holders 7 and 8, which have the ability to rotate around its axis relative to the springs 11 and 12 with elements 13 and 14, 15 and 16 intended to be fixed on dix spherical measuring tip 9 and 10 on the measured diameter part 17 in the axial and transverse planes.

The holding of the spherical measuring tips 9 and 10 by the supports 7 and 8 is carried out by making them elasticable and with spherical concave surfaces, which, if necessary, provides for the periodic rotation of the spherical measuring tips 9 and 10 and allows them to be replaced with new ones. Reliable preload spherical measuring tips

9 and 10 to the measured surfaces of the part 17 and to the end surfaces of the rods 3 and 6 is provided with a spring 20. In this case, the flat springs 11 and 12 with the elements 13 and 14, 15 and 16 prevent the displacement of the spherical measuring tips 9 and

10 with the diametral axial plane when measuring the radius undercut and with the diametral transverse plane when measuring the slot. The total force of the two flat springs 11 and 12 should not exceed half the force of the spring 20. The reference node 2 has a scale 21 with a price of pressure of 0.002 mm, the micrometric node 5 has a dial scale 22 with a division value of 0.01 mm and a linear scale 23 with a division value of 0 , 5 mm and longitudinal stroke 24. With the help of the micrometric node 5, the rod 6 is adjusted to the required size within the measurement range of 25 mm and fixed in the required position by the stopper 25.

In addition to a set of interchangeable holders 7 and 8 with spherical measuring points 9 and 10 of different diameters, an adjustment measure with a size equal to the lower limit of measurement in the measuring range of 25 mm is attached to a lever micrometer for a size greater than 25 mm. The measurement using the proposed lever micrometer is carried out by absolute and relative methods.

Measurement by the absolute method is applied in cases where it is necessary to determine the directly specified size (for example, when setting up a slot-grinding machine or when finishing the teeth of spline gauge plugs).

Relative measurement

used in cases when it is necessary to set deviations from the specified nominal size (for example, the statistical control of the thickness of the teeth of the slot in the steady state process

slot milling machine).

When measuring the thickness of the teeth, the slot with the involute or triangular profile using the absolute method, first set the lever micrometer to zero.

the lower limit of measurement using a micrometric node 5. To do this, the end surfaces of the rods 3 and 6 are brought into contact directly for a measuring range of 0-25 mm or

the setting gauge for the range above 25 mm, combines the zero division of the dial 22 with the longitudinal stroke 24, and the arrow of the reading unit 2 with the zero division of its scale 21. Then into the rods 3 and 6

install removable holders 7 and 8, containing spherical measuring tips 9 and 10 of the desired diameter.

After that, the lever micrometer with the rod 3 retracted to the extreme position

by pressing the arresting device 4, spherical measuring tips 9 and 10 are inserted into the depressions between the splines of the shaft 17 and the retraction of the rod 3 is stopped. As a result of the force of the spring 20, the tips 9 and 10 come into contact with the side surfaces of the spline and the end surfaces of the rods 3 and b, and the elements 13 and 14, 15 and 16 of the flat springs 11 and 12 are in contact with the tops of the slot and fix the position

spherical measuring tips 9 and 10 according to the diameter of the shaft 17 in the transverse plane.

. Then combine with the longitudinal stroke 24 nearest division of the dial

22, with the result that the pointer of the reading unit 2 deviates from the zero division of the scale 21.

Actual size is defined as the sum of readings on a linear scale of 23 seconds.

5 with an accuracy of up to 0.5 mm, on a circular scale 22 with an accuracy of 0.01 mm and on a scale of 21 with an accuracy of 0.002 mm ). Received by

the actual size is compared with the limiting dimensions given by the drawing of the part 17.

With the relative method of measuring the thickness of the teeth of the spline shaft 17, the lever micrometer is adjusted by the micrometer node 5 to the size of the nominal size specified by the drawing. The adjustment is made on a block of end gauges of length or on a standard splined shaft. After combining the arrow of the reading unit 2 with zero division of its scale 21, the position of the rod b is fixed by a stopper 25. The lever micrometer with the rod 3 retracted with the arrest 4 4 is inserted with spherical measuring tips 9 and 10 into the hollows between the teeth of the splined shaft and the rod 3 is injected. The elements 13 and 14, 15 and 16, in contact with the vertices of the slot, fix the position of the spherical measuring tips 9 and 10 along the diameter of the spline shaft in the transverse plane, at which the tips 9 and 10 come into contact with the rods 3 and 6 and side new surface slots

At this time, on a scale of 21 of the reading unit 2, the deviation of the arrow from the nominal size is noted and this deviation is compared with the permissible deviations in the drawing.

Similar to the measurement of the vents with an involute profile proposed by the lever micrometer, the external gears with the involute tooth profile are measured.

The diameter of the outer recesses is measured in the same way as the thickness of the teeth of the splined shafts.

If the recess is rectangular, it must be ensured that the spherical measuring tips 9 and 10 do not touch

edges of its sides. When measuring the radius undercut, the radius of tips 9 and 10 should be less than the radius of the undercut. Replaceable holders 7 and 8 rotate relative to the elements 13 and 14, 15 and 16 by an angle equal to 90 °. In this case, the contacting surfaces of the tips 9 and 10 will be located along the axis of the shaft being measured. Smooth shafts are measured

lever micrometer without holders 7 and 8 absolute or. relative method. Setting to zero, setting to a given size with the relative measurement method and measuring processes are similar to those specified when measuring the thickness of the teeth of the splined shafts.

Claims (1)

The invention of a lever micrometer, comprising a housing, two coaxially mounted in the housing, movable relative to its axis of the rod, a reference node connected to one of the terminals, and a micrometric node connected to another rod, characterized in that In order to expand the range of measurable products and increase the measurement performance, it is equipped with two interchangeable holders mounted on the respective rods with the possibility of rotation relative to their axes, two spherical probe tips installed in the respective holders, each of which is associated with the end of the corresponding rod and designed to interact with the measured product, and two spring-loaded elements mounted on the respective holders with the ability to turn rota about their axes and intended for cooperating with the measured emym product. 1 mf Qz 9 fg WfrU91 4-l