RU2523761C1 - Measurement of deviation of planes location relative to centre of outer spherical surface - Google Patents

Abstract

FIELD: instrumentation.SUBSTANCE: proposed method consists in fitting the locating element with taper hole at mounting face. Counter is placed on locating element to provided for probe spread relative to taper hole axis and perpendicularity of probe and hole axes. Measurement object is fitted by its spherical surface in taper hole so that measured surfaces are located on opposite sides of taper hole axis and probe contacts with first measured surface. Measurement object is swung in taper hole to ensure the probed working surface fit with said first measurement surface. Counter readings are taken. Measurement object is refitted in locating element. Measurement jobs are repeated. Counter second readings are taken. Departure from preset spacing from measured surfaces to spherical surface centre are defined by counter readings while by their half-difference departure from symmetry of surface relative said centre is defined.EFFECT: simplified process, higher efficiency and accuracy.1 dwg

Description

The invention relates to measuring technique and can be used in mechanical engineering, mainly for measuring the distances and symmetry of the planes relative to the center of the outer spherical surface.

A known method of measuring 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 probe outcrops relative to the axis of the rack, setting the base prism on the installation plane in position in which the sectorless 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, the centering mandrel is pressed into the inner cylindrical surface of the measuring object, the measuring object is mounted on the base prism with the outer cylindrical surface with the possibility of interaction of the centering mandrel 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 deviation of the desired distance is determined the deviation of the readings of the measuring head from the set value [Patent RU No. 2125707 C1, IPC G01B 5/00, Bull. No. 3, 1999 (analogue)].

However, in this way it is possible to measure the distance only between the axes of the cylindrical surfaces and it is impossible to measure the parameters of the planes relative to the center of the spherical surface: distance and deviation from symmetry.

The prototype is a method for measuring deviations of the planes relative to the center of the outer spherical surface, which consists in placing the rack on the mounting plane, installing the clamp on the rack, installing a reading device on the basing element, providing its measuring probe with a predetermined reach in the conical opening of the basing element, placing the basing an element on the installation plane in a position in which the axis of the conical hole is perpendicular to the working surface of the clamp, setting they place the measurement object with a spherical surface in a conical hole, providing contact of the first measured plane of the measurement object with the measuring probe, bring the clamp to the measurement object and simultaneously rotate the measurement object in the basing element, ensuring that the working surface adheres to the second measured plane, take the first reading of the reading device, take it away clamp, reinstall the measurement object in the conical hole, providing contact of the second measured plane with the measuring probe, repeat t supplying the clamp with the rotation of the measurement object in the base element, ensuring that the working surface of the clamp fits with the first measured plane, take the second reading of the reading device, determine the deviations from the set value of the distance from the measured planes to the center of the spherical surface according to the reading of the reading device, and by their half difference deviation from the symmetry of the planes relative to the center [Patent RU No. 2456539 C1, IPC G01B 5/00, Bull. No. 20, 2012 (prototype)].

However, the presence of operations such as placing the rack on the mounting plane, installing the clip on the rack, and also performing twice the supply and removal of the clip, complicate the method and reduce its productivity, and placing the measuring probe in a conical hole and when installing the reading device reduces the measurement accuracy deviations of the distance from each measured plane to the center of the spherical surface due to the influence of deviations in the diameter of the said spherical surface on the readings of the reading device.

The basis of the present invention was the task of simplifying the method, increasing its productivity, as well as improving the accuracy of measuring deviations of the distance from planes to the center of the outer spherical surface.

This is achieved by placing a basing element containing a conical hole on the mounting plane, installing a reading device on the basing element, providing its measuring probe with a predetermined reach and perpendicularity of the axis of the measuring probe to the axis of the conical hole, setting the measuring object with a spherical surface in the conical opening of the basing element by positioning the measured planes on different sides from the axis of the conical hole and providing contact of one of the measured planes with with a measuring probe, shake the measurement object in the base element, ensuring that the measured plane adheres to the working surface of the measuring probe, take the first reading of the reading device, reinstall the measurement object in the conical hole, placing the measured planes on different sides from the axis of the conical hole and providing contact of the other measured plane with with a measuring probe, shake the measuring object in the base element, ensuring that the measured plane adheres to the working surface and measuring probe, take the second reading of the reading device and according to the readings judge deviations from the configured distance from each of the measured planes to the center of the spherical surface, and by their half difference - the symmetry of the measured planes relative to the center of the spherical surface.

Thus, the exclusion from the prototype of such operations as placing the rack on the installation plane, installing the clip on the rack, two inlets and outlets of the clamp simplifies and improves the performance of the proposed method. In addition, the placement of the measuring probe not in a conical hole, as is the case in the prototype, but in a position in which the axis of the measuring probe is perpendicular to the axis of the conical hole, as implemented in the proposed method, improves the accuracy of measuring deviations of the distance from the measured planes to the center spherical surface due to the elimination of errors caused by deviations in the diameter of the spherical surface.

The figure shows a measurement scheme of the proposed method.

The proposed method is as follows. On the mounting plane 1, a basing element 2 is placed, containing a conical hole 3, a reading device 4 is mounted on the basing element 2, providing its measuring probe 5 with a predetermined projection relative to the axis of the conical opening 3 and the perpendicularity of the axes of the measuring probe 5 and the conical hole 3. Set the measurement object 6 spherical surface 7 into the conical hole 3, placing the measured plane 8 and 9 on different sides from the axis of the conical hole 3 and providing contact plane 8 of the object to be measured 6 with the measuring probe 5, swing the measuring object 6 in the conical hole 3, achieving a fit of the measured plane 8 with the working surface 10 of the measuring probe 5. Take the first reading Δ _{1 of the} reading device 4. Then reinstall the measuring object 6 in the conical hole 3, placing the measured planes 8 and 9 on different sides of the axis of the conical hole 3 and providing contact of the measured plane 9 with the measuring probe 5. Swing the measurement object 6 in the conical hole 3, ensuring the fit of the measured plane speed 9 with the working surface 10 of the measuring probe 5. Take the second reading Δ _{2 of the} reading device 4. Determine the deviation from the set value of the distance from the measured planes 8 and 9 to the center of the spherical surface 7 according to the readings Δ ₁ and Δ _{2 of the} reading device 4, and their half differences - a deviation from the symmetry of the planes relative to the center.

This ensures the measurement of two parameters of the planes relative to the center of the sphere. This simplifies the method, increases its productivity, and also increases the accuracy of measuring deviations of the distance from the measured planes to the center of the outer sphere.

The method can be used at engineering enterprises when measuring parts containing requirements for the relative positioning of structural elements in the form of planes and spheres.

Claims (1)

A method for measuring deviations of the planes relative to the center of the outer spherical surface, which consists in placing a basing element containing a conical hole on a mounting plane, installing a reading device on the basing element, providing its probe with a predetermined reach, setting the measuring object with a spherical surface in a conical hole the base element, providing contact of one of the measured planes of the measurement object with a measuring probe, swinging they take the measurement object in the base element, take the first reading of the reading device, reinstall the measurement object in the conical hole, providing contact of the other measured plane with the measuring probe, swing the measurement object in the base element, take the second reading of the reading device, the deviation from the adjusted distance from each of the measured planes to the center of the spherical surface, and by the semidifference of the readings - about the symmetry of the measured planes velocity relative to the center of the spherical surface, characterized in that when installing the reading device, the axis of the measuring probe is perpendicular to the axis of the conical hole, when installing and reinstalling the measurement object, its measured planes are located on different sides from the axis of the conical hole, and when the object is swayed, the measured planes with a working surface of the measuring probe.