RU2139494C1 - Method measuring deviations of positions of crossing axes of holes - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: object to be measured is placed on installation plane. Main centering unit is put into one pair of holes in object and additional centering unit is placed into another pair of holes. Measurement gear is based with main basing prisms anchored on common bisector plane on main carriage with post by main centering unit and with additional basing prisms anchored on common bisector plane on additional carriage by additional centering unit. Main basing prisms with main carriage carrying main measurement plane are rotated about axis of main centering unit and moved along its axis. Additional basing prisms with additional carriage carrying additional measurement plane are rotated about axis of post and moved along this axis. Shortest distance between main and additional measurement planes is achieved. Distances between main and additional measurement planes as well as deviation of crossing angle between auxiliary planes made on main and additional carriages in their common bisector planes are measured. EFFECT: expanded technological capabilities thanks to measurement of both distance and crossing angle between crossing axes of holes. 2 dwg

Description

Technical field
The invention relates to measuring equipment and can be used in mechanical engineering, mainly for measuring the distances between the axes of the holes and their interaxal angles in the body parts.

State of the art
A known method of measuring the intersection of the axes of the holes, which consists in alternately installing the mandrel in the holes of the tested part and measuring the distance between the axes by the difference in the readings of the measuring head in two positions of the mandrel, taking into account its diameter [Precision and production control in mechanical engineering. Directory. / I.I. Bolonkina, A.K. Kutai, B.M. Sorochkin, B.A. Thai / Ed. A.K. Kutaya. - L .: Engineering, 1983, p. 298-299, fig. 10.14, h (analogue)].

 However, the known method allows you to measure only one parameter of the location of the intersecting axes of the holes - the distance between the axes.

 Closest to the claimed method is a method of measuring deviations of the distance between the intersecting axes of the holes, which consists in placing the measuring object on the installation plane, installing the main centering unit in one pair of holes of the measuring object, and the additional centering unit in another pair of holes, placing the measuring device on the installation plane and its basing by the main basing elements according to the main centering unit, and by the additional basing elements according to the additional solid centering unit, rotating the main base elements containing the main measuring plane around the axis of the main centering unit, achieving parallelism of the main measuring plane and the axis of the additional centering unit, rotating additional base elements containing the additional measuring plane, around the axis of the additional centering unit, achieving parallelism of the additional measuring plane and axis of the main centering unit, and then measuring the distance between basic and additional measuring planes [Patent RU N 2060451, IPC: G 01 D 5/00, 5/16, 1996 (prototype)].

 However, this method is limited in its capabilities, because it allows you to measure only the deviation of the center distance of the holes.

Disclosure of Invention
The present invention was based on the task of developing such a method in which it is possible to expand its technological capabilities by measuring deviations of not only the distance, but also the angle of intersection between the intersecting axes of the holes.

 This is achieved by the fact that the measurement object is placed on the installation plane, the main centering unit is installed in one pair of holes of the measurement object, and the additional centering unit is placed in another pair of holes, the measuring device is based on the main base prisms mounted in the common bisector plane on the main carriage with a stand , along the main centering unit, and by additional basing prisms fixed in the common bisector plane on the additional carriage, - by the additional centering to it a node, the main base prisms with the main carriage, containing the main measuring plane and the auxiliary plane made in the common bisector plane of the indicated prisms, rotate around the axis of the main centering unit and move additional base prisms with the additional carriage containing the additional measuring plane and made along this axis in the common bisector plane of these prisms, the auxiliary plane is rotated around the axis of the strut and moved along the specified axis, reaching In the case of the aforementioned movements of the main basing prisms of the shortest distance between the primary and secondary measuring planes, deviations from the adjusted distance between the primary and secondary measuring planes and the cross angle between the auxiliary planes are measured.

 Thus, the method allows to measure two parameters of the location of the intersecting axes of the holes: the deviation of the center distance and the deviation of the angle of crossing.

Brief Description of the Drawings
In FIG. 1 shows a measurement circuit of the proposed method, front view; in FIG. 2 - the same, top view.

The best embodiment of the invention
The proposed method is as follows.

 The measuring object 2 is placed on the mounting plane 1. The main centering unit 3 is installed in one pair of holes of the measuring object 2, and the additional centering unit 4 is installed in the other pair of holes. The measuring device is based on the main base prisms 5 and 6, fixed in the common bisector plane a- and on the main carriage 7 with the stand 8, along the main centering unit 3, and additional basing prisms 9 and 10, mounted in the common bisector plane bb on the additional carriage 11, - on the additional center node 4. The main base prisms 5 and 6 with the main carriage 7, containing the main measuring plane 12 and the auxiliary plane 13 made in the common bisector plane aa of these prisms, rotate around axis XX of the main centering unit 3 and move along this axis, and additional base prisms 9 and 10 with an additional carriage 11 containing an additional measuring plane 14 and an auxiliary plane 15 made in the common bisector plane of the b-prisms mentioned above, rotate around the Z axis of the rack 8 and move dissolved along this axis, while achieving all of these movements of the shortest distance S between the core 12 and 14 further measuring planes. The shortest distance reached S means the parallelism of the main measuring plane 12 and the axis of the additional centering unit 4, as well as the parallelism of the additional measuring plane 14 and the axis of the main centering unit 3. Then, the deviation from the adjusted distance between the main 12 and the additional 14 measuring planes is measured with meter 16, and the meter 17 - deviation from the adjusted crossing angle γ between the auxiliary planes 13 and 15. The measured values are deviations respectively the state and angle of intersection between the axes of the holes of the measurement object 2.

Industrial applicability
The method can be used at machine-building enterprises when measuring the location of holes in body parts, which ensures the expansion of its technological capabilities.

Claims (1)

 The method of measuring deviations of the location of the intersecting axes of the holes, which consists in placing the measuring object on the installation plane, installing the main centering unit in one pair of holes of the measuring object, and the additional centering unit in another pair of holes, basing the measuring device with the main base prisms fixed in a common bisector plane on the main carriage with a stand, along the main centering unit, and additional basing prisms fixed in a common bisse the corner of the plane on the additional carriage — along the additional centering unit, rotating the main base prisms with the main carriage containing the main measuring plane around the axis of the main centering unit, rotating the additional base prisms with the additional carriage containing the additional measuring plane, measuring the deviation of the distance between the main and additional measuring planes, characterized in that the main base prisms with the main carriage are moved along the axis of the bases centering unit, additional base prisms with an additional carriage rotate around the axis of the rack and move along this axis, achieving, in combination with the mentioned movements of the main base prisms, the shortest distance between the main and additional measuring planes, and the deviation of the crossing angle between the auxiliary planes made on the main and additional carriages, respectively, in the common bisector plane of the main base prisms and in the common bisector plane up to olnitelnyh basing prisms.

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