RU2324893C1 - Method for misalignment measurement between groove and axis of hole - Google Patents

Abstract

FIELD: physics, instrumentation technology.

SUBSTANCE: invention refers to instrumentation technology, mainly for details like plugs and bodies. Rack with two main detection heads and three additional heads is mounted onto a reference plane. Probes of the main heads have the same overhang against the said rack's axis; probes of the additional heads have the same overhang against the reference plane. Locator prism is installed on the reference plane in a way that bisecting plane of the prism is perpendicular to the probes' axes of the main detection heads. Then aligning bar is inserted in a hole of an object to be measured, and the object with the bar is installed on the locator prism. Then a plate is inserted into a groove in the object. The object is rotated on the locator prism until readings of two additional crosswise detecting heads become equal. Deviations of main head readings are used to determine centre distance error, difference of the mentioned readings indicates horizontal nonparallelity; vertical nonparallelity is indicated by difference in readings of two additional detection heads located along the plate.

EFFECT: improved accuracy when measuring misalignment between of groove and axis.

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Description

The invention relates to measuring technique and can be used in mechanical engineering mainly for measuring distances and deviations from parallelism of grooves and openings not conjugated to each other in parts such as forks and housings.

There is a method of measuring the parameters of the keyway of the hole, which consists in the fact that the measuring object is based in a housing containing a read head by installing it with an opening on two centering fingers, providing, when basing, the contact of the measuring probe, rigidly fixed to the rod, with one of the side surfaces of the tested groove, verify the mutual angular position of the measurement object and the housing by the reciprocating movements of the measuring probe around the longitudinal axis of the said rod, carrying out the last in a plane parallel to the longitudinal axes of the centering fingers, and reaching a constant reading head during the mentioned movements of the measuring probe, the first reading of the reading head is taken, the measuring probe is brought into contact with the other side surface of the tested groove, the second reading of the said head is taken, the measuring probe is rotated with the rod around the longitudinal axis of the rod and move along this axis, achieving centering of the probe on the centering fingers by simultaneously touching its lateral working surface with the working surfaces of the centering fingers, while taking the third counting of the reading head, determine the width of the test groove by the difference of the first two samples and taking into account the diameter of the measuring probe, determine the first range by the difference of the first and third samples, the second range by the difference of the second and the third sample, and the deviation from symmetry is the half-difference of the mentioned ranges [Patent RU No. 2240499 C1, IPC G01 5/24, 2004 (analog)].

However, the known method allows to determine the width and the deviation from symmetry only in the keyways, mating with the hole.

A prototype is a method for measuring the deviations of the distance between the intersecting axes of the outer and inner cylindrical surfaces, which consists in placing the rack on the installation plane, placing two measuring heads on the rack with the same outreach of the measuring probes with respect to the axis of the rack, and setting the base prism on the installation plane in a position in which the bisector plane of said prism is perpendicular to the axes of the measuring probes and is located at a predetermined distance from the axis of the rack, a centering mandrel is inserted into the inner cylindrical surface of the measuring object, the measuring object is mounted with the outer cylindrical surface on the base prism with the possibility of the centering mandrel interacting with the measuring probes, the measuring object is rotated on the base prism to the position at which the readings of the measuring heads are the same, and the deviations of the desired distance are determined for the deviation of the readings of the measuring head from the set value [Patent RU No. 2125707 C1, IPC G01 5/00, 1999 (about otip)].

However, this method has limited technological capabilities, because it allows you to measure only the deviation of the distance between the intersecting axes of the cylindrical surfaces and does not allow you to measure the deviation from parallelism of the axes of the non-conjugated groove and hole.

The present invention was based on the task of developing a method with advanced technological capabilities, providing not only the measurement of the distance between the surfaces, but also the deviation from parallelism of the axes of the non-conjugated groove and hole.

This is achieved by the fact that in the method for measuring deviations of the relative position of the groove and the axis of the hole, the rack is placed on the mounting surface, two main measuring heads are placed on the rack with the probe outstands identical to the axis of the rack, the base prism is installed on the installation plane in a position in which the bisector plane of the said prism is perpendicular to the axes of the measuring probes and is located at a predetermined distance from the axis of the rack, set the centering mandrel in the hole about of the measurement object, install the measurement object with a centering mandrel on the base prism, place a plate in the groove of the measurement object with the possibility of interaction of its lateral working surface with the measuring probes of the main measuring heads, place three additional measuring heads on the rack with the same probe outcrops with respect to the mounting plane, two of which are disposed to interact with extreme in the transverse direction points of the upper working surface at one end of the plates s, and the third - with the extreme point of the mentioned surface on the other end of the plate, rotate the measurement object with a centering mandrel on the base prism to a position at which the readings of two additional measuring heads located in the transverse direction are the same, determine the deviation of the distance between the groove and the axis holes by deviations from the set value of the readings of the main measuring heads, determine deviations from the parallelism of the groove relative to the axis of the hole in the horizontal plane at times readings of two additional measuring heads located along the plate.

Thus, in the proposed method, in comparison with the prototype, by placing additional measuring heads on the rack and the plate in the groove of the measurement object, aligning the readings not of the main but of the additional measuring heads located across the plate, it is possible to measure not only distance deviations, but also deviations from the parallelism of the axes of the groove and the hole in two planes, which expands its technological capabilities.

Figure 1 shows a diagram of a method, a front view; figure 2 is the same, a top view.

The proposed method is as follows. A rack 2 is placed on the mounting plane 1, and two main measuring heads 3 and 4 are placed on the rack 2, with the outlets of the measuring probes 5 and 6 identical with respect to the axis of the said rack 2. The base prism 7 is also installed on the mounting plane 1 in a position in which the bisector plane aa of said prism 7 is perpendicular to the axes of the measuring probes 5 and 6 and is located at a predetermined distance from the axis of the rack 2. A centering mandrel 9 is installed in the opening of the measurement object 8. A measurement object 8 is installed with a centering with an avka 9 to the base prism 7. A plate 10 is placed in the groove of the measurement object 8 with the possibility of its lateral working surface 11 interacting with the measuring probes 5 and 6 of the main measuring heads 3 and 4. The specified distance between the axis of the rack 2 and the bisector plane aa takes into account the nominal the distance between the axes of the hole and the groove of the measurement object 8, the distance from the axis of the plate 10 to its lateral working surface 11, as well as the departure of the measuring probes 5 and 6 and is set when setting up the reference part. Three additional measuring heads 12, 13, and 14 are also placed on the rack 2 with the protrudes of the probes 15, 16, and 17 identical with respect to the mounting plane 1. Of these, the probes 15 and 16 are arranged to interact with the laterally extreme points rather than the working surface 18 at one end of the plate 10, and the probe 17 with the extreme point of the mentioned surface 18 at the other end of the plate 10. On the base prism 7, rotate the measurement object 8 with a centering mandrel 9 to a position at which the readings of two additional measuring points ovok 12 and 13 arranged in the transverse direction, will be identical. In this position, the deviations from the settings of the main measuring heads 3 and 4 are determined, which will correspond to the deviations of the desired center distance, and their difference to the deviation from the parallelism of the axes in the horizontal plane. The difference in the readings of the additional measuring heads 13 and 14 located along the plate 10 determines the deviation from the parallelism of the axes in the vertical plane.

The method can be used at engineering enterprises in measuring deviations of the relative position of the axes of non-conjugated grooves and openings in parts such as forks and housings.

Claims (1)

A method for measuring deviations of the relative position of the groove and the axis of the hole, which consists in placing the rack on the installation plane, placing two main measuring heads on the rack with the same outreach of the measuring probes relative to the axis of the rack, and installing the base prism on the installation plane in a position in which the bisector plane of the said prism is perpendicular to the axes of the measuring probes and is located at a predetermined distance from the axis of the rack, set the centering mandrel in the hole of the object This measurement, install the measurement object on the base prism, rotate the measurement object on the base prism and determine the deviation of the distance between the groove and the axis of the hole by deviations from the set value of the readings of the main measuring heads, characterized in that the measurement object is installed on the base prism with a centering mandrel, after installation of the measurement object, a plate is placed in its groove with the possibility of interaction of its lateral working surface with measuring probes of the main measuring heads and on the rack there are three additional measuring heads with the same probe overhangs with respect to the mounting plane, two of which are arranged to interact with the laterally extreme points of the upper working surface at one end of the plate, and the third with the extreme point of the said surface on the other the end of the plate, in addition, rotate the measurement object with a centering mandrel on the base prism to a position at which the readings of two additional measuring heads located in the transverse direction, they will be the same, deviations from the parallelism of the groove relative to the axis of the hole in the horizontal plane are determined by the difference in the readings of the main measuring heads and in the vertical plane by the difference in the readings of two additional measuring heads located along the plate.

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