RU2559169C1 - Device for parameters measurement of slot not aligned with part hole - Google Patents

Abstract

FIELD: instrumentation.

SUBSTANCE: device contains inclined casing with two centring pins, rod installed in the inclined casing with possibility of progressive and reciprocal-turning movements around its longitudinal axis, measuring rod, rigidly secured on the rod, setting prism with work surfaces secured on the inclined casing and located by its bisector plane at right angle to the line connecting centres of the cross-sections of the centring pins, and equally spaced from the said centres, and reference assembly installed on the inclined casing with possibility of interaction by its measuring tip and rod. At that the setting prism is made and installed with possibility of its centring as per the work surfaces of the side spherical surface of the measuring probe. Rod is located with possibility of progressive movement in the direction parallel to line connecting centres of the cross-sections of the centring pins, and touch of the said surface of the measuring probe with side surface of the slot in their extreme points in the direction of the slot depth.

EFFECT: increased accuracy and possibility of parameters measuring of the slot not aligned with the part hole.

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Description

The invention relates to measuring equipment and can be used in mechanical engineering for measuring the width of the groove, as well as its symmetry with respect to the axis of the part hole not mating with the groove.

A device for measuring the parameters of the keyway of the hole, comprising a housing with a base element made in the form of two centering fingers, a displacement unit in the form of a rod mounted on the housing with the possibility of translational movement in a plane perpendicular to the longitudinal axes of the centering fingers, and reciprocating movements around its longitudinal axis, a measuring probe made with a side barrel-shaped surface and rigidly fixed to the rod, and a reading unit mounted on the housing with awn interaction with its measuring tip rod [Patent RU №2190187 C1, IPC G01B 5/14, 5/18, 5/24, Bul. No. 27, 2002 (analogue)].

However, in the known device, alternately touching the measuring probe with the extreme lateral points of the surface of the opening of the measurement object located in the longitudinal diametrical plane, and taking two readouts from the readout head, reduces accuracy and performance, as well as complicates the measurement. In addition, the known device cannot measure the parameters of a groove not mating with the hole of the part.

The prototype is a device for measuring the parameters of the keyway of the hole, comprising a housing with two centering fingers, a rod mounted in the housing with the possibility of translational movement in a direction parallel to the line connecting the centers of the cross sections of the centering fingers, and reciprocating movements around its longitudinal axis, measuring a probe made with a spherical lateral surface and rigidly mounted on the rod, and a reading unit mounted on the housing with the ability to interact with its meter tip with a rod, and the centering fingers are made and placed with the possibility of centering on their working surfaces the lateral spherical surface of the measuring probe [Patent RU No. 22253086 C1, IPC G01B 5/24, Bull. No. 15, 2005 (prototype)].

However, in the specified device, the alignment of the mutual angular position of the object and the body is carried out at points having different coordinates along the length of the keyway. Therefore, the misalignment of the alignment is affected by the misalignment of the keyway, which increases the measurement error. In addition, the specified device cannot measure the parameters of a groove that is not mated to the hole of the part, since in such parts only one structural element is accessible for the probe, for example, a groove, and holes with centering fingers are not available, which does not allow the probe to be centered on these fingers.

The basis of the present invention was the task of developing such a device that allows you to measure the parameters of the groove not mating with the hole of the part, due to the other centering of the probe and improve the accuracy of the measurement by improving the accuracy of the alignment of the relative angular position of the part and the housing.

This is achieved by the fact that the device for measuring the parameters of the groove that is not mated to the hole of the part comprises an inclined body with two centering fingers, a rod mounted in the inclined body with the possibility of translational movement in a direction parallel to the line connecting the centers of the cross sections of the centering fingers, and rotary movements around its longitudinal axis, a measuring probe made with a spherical lateral surface and rigidly fixed to the rod, mounting prism with working surfaces mounted on an inclined body, located with its bisector plane perpendicular to the line connecting the centers of the cross sections of the centering fingers, and equidistant from the centers, made and placed with the possibility of centering along its working surfaces the lateral spherical surface of the measuring probe, and the reading unit mounted on the inclined body with the possibility of interaction with its measuring tip with the rod, and the rod is placed with the possibility of touching said surface the measuring probe with the lateral surfaces of the groove at their extreme points in the direction of the depth of the groove.

Thus, in the proposed device, in comparison with the prototype, a different condition for the location of the rod ensures that the mutual angular position of the part and the housing is verified at the two extreme points of the side surface in the direction of the depth of the groove, which eliminates the influence of the skew of the groove on the measurement accuracy. In addition, the presence of the installation prism, its implementation and location, as well as another condition for the location of the probe, ensures that the probe is centered on the installation prism, and not on the centering fingers, which allows you to measure the parameters of a groove that is not mated to the hole of the part.

In FIG. 1 shows a general view of the device, front view; in FIG. 2 is a view A in FIG. one.

A device for measuring the parameters of a groove not mating with the hole of the part comprises an inclined housing 1 with two centering fingers 2 and 3, a rod 4 mounted on an inclined housing 1 with the possibility of translational movement in a direction parallel to the BC line connecting the centers of the transverse sections of the centering fingers 2 and 3, and reciprocating movements around its longitudinal axis, a measuring probe 5, made with a spherical side surface and rigidly mounted on the rod 4, mounting prism 6 with working surfaces mounted on an inclined housing 1, located with its bisector plane XX, perpendicular to the BC line connecting the centers of the cross sections of the centering fingers 2 and 3, and equally remote from the centers, made and placed with the possibility of centering on its working surfaces the lateral spherical surface of the measuring probe 5, and a reading unit 7 mounted on an inclined housing 1 with the possibility of interaction with its measuring tip with the rod 4. This rod is placed with the possibility of touching the aforementioned the surface of the measuring probe 5 of the side surfaces 8 and 9 of the test groove in the measurement object 10 at points a, b, and c extreme in the groove depth direction.

The device operates as follows.

On the inclined body 1 and the centering fingers 2 and 3, the measurement object 10 is installed with the hole, providing the contact of the measuring probe 5 with the side surface 8 of the test groove. The mutual angular position of the measuring object 10 and the inclined body 1 is checked by means of the reciprocating movements of the measuring object 10 on the centering fingers 2 and 3 and the reciprocating movements of the measuring probe 5 with the rod 4 around the longitudinal axis of the said rod. The reciprocating movements of the measuring probe 5 with the rod 4 are carried out in a plane parallel to the longitudinal axes U′-U of the centering fingers 2 and 3. By alignment, the readings of the reference unit 7 are unchanged when the measuring probe 5 touches the two extreme points a and b of the side surface 8 in the direction depth of the checked groove. Take the first sample Δ _{a of the} reference node 7. Enter the test probe 5 in a contract with the other side surface 9 of the test groove at point _b , take the second sample Δ _{in the} said node 7. Turn the probe 5 with the rod 4 around the longitudinal axis of the said rod and move them along this axis, seeking to center the measuring probe 5 along the mounting prism 6 by simultaneously touching its lateral working surface with the working surfaces of the prism at points g and d, while taking the third Δ _{where the} reading of the reference node 7 . Determine the groove width scanned by the formula B = (Δ _and -Δ _a) + d, where Δ _and - first count, Δ _in - the second count, d - diameter of the probe. The first range W _{1 is} determined by the difference of the first Δ _a and the third Δ _cd samples, the second range W ₂ by the difference of the second Δ _c and the third Δ _cd samples, and the deviation from symmetry is _determined by the formula Δ _sym. = (W ₁ -W ₂ ) / 2.

In this way, the width of the groove and its deviation from the symmetry of the relative hole not mating with the groove of the part are measured.

The device can be used at engineering enterprises when measuring the parameters of a groove that is not associated with the hole of the part.

Claims (1)

A device for measuring the parameters of a groove not mating with the hole of the part, comprising a housing with two centering fingers, a rod mounted in the housing with the possibility of translational movement in a direction parallel to the line connecting the centers of the cross sections of the centering fingers, and reciprocating movements around its longitudinal axis , a measuring probe made with a spherical lateral surface and rigidly fixed to the rod, and a reading unit mounted on the housing with the ability to interact with their measurements an integral tip with a rod, characterized in that it is provided with an installation prism with working surfaces, wherein the installation prism is mounted on a made inclined housing, located with its bisector plane perpendicular to the line connecting the centers of the cross sections of the centering fingers, and made and placed equidistant from the said centers with the possibility of centering on its working surfaces the lateral spherical surface of the measuring probe, and the rod is placed with the possibility of touching said the surface of the probe with the side surfaces of the groove at their extreme points in the direction of the depth of the groove.

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