RU2125707C1 - Method measuring variations of distances between crossing axes of external and internal cylindrical surfaces - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: method refers to measurement of parts of types of shafts and brackets. Column with two measuring heads having same overhangs of measuring probes is put on locating plane. Basing prism is also mounted on locating plane in position in which bisector plane of prism is perpendicular to axes of measuring probes. Centering mandrel is placed in hole of measurement object. Measurement object is anchored with external cylindrical surface on basing prism and is rotated on it till readings of measuring heads are equalized. Deviation of reading of one of heads from adjusted value is used to evaluate deviation of sought-for distance. Specified method is more accurate than existing ones thanks to increased reliability of basing. EFFECT: improved accuracy of method. 1 dwg

Description

 The invention relates to measuring technique and can be used in mechanical engineering mainly for measuring the distances between the intersecting axes of the hole and the cylindrical neck in parts such as a shaft and an arm.

State of the art
A known method for measuring the center-to-center distance, which consists in the fact that the controlled product is fixed on the coordinate table, register the position of the first hole. The coordinate table is moved to segments equal to the nominal components of the center-to-center distance, the position of the second hole is recorded, and then the center-to-center distance is determined by geometrical addition of the sum of the displacements and the measurement results, and the measurement is carried out on the device with high sensitivity and precise rotation of the spindle by setting the coordinates of the holes with subsequent palpation of profiles and registration of profilograms, determination by them of vectors of residual eccentricities of Proposition /A.s profiles. USSR N 285252, G 01 B 5/16. A method of measuring the center-to-center distance. B.I. N 33, 1970 (Analog).

 However, the accuracy of the method is affected by the error in the basing of the controlled product on the coordinate table, as a result of which the measurement line and the actual line connecting the centers of the controlled profiles are not parallel.

 The prototype is a method of measuring deviations of the distance between the intersecting axes of the holes, namely, 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 in another pair of holes, the measuring device is placed on the installation plane and base with the main basing elements on the main centering node, and with the additional basing elements on the additional centering node, the main e base elements containing the main measuring plane are rotated around the axis of the main centering unit, achieving parallelism to the main measuring plane and the axis of the additional centering unit, additional base elements containing the additional measuring plane are rotated around the axis of the additional centering unit, achieving parallelism to the additional measuring plane and axis the main centering unit, and then measure the distance between the primary and secondary measuring planes / Invention patent N 2060451, G 01 B 5/00. The method of measuring deviations of the distance between the intersecting axes of the holes.-B.I. N 14, 1996 (prototype) /.

 However, when applying the method for measuring the deviation of the distance between the intersecting axes of the outer and inner cylindrical surfaces, basing the device with additional basing elements on the outer cylindrical surface leads to the appearance of a baseline error, which reduces the accuracy of the measurement.

SUMMARY OF THE INVENTION
The present invention was based on the task of developing such a method, which improves the accuracy of measuring the deviation of the distance between the intersecting axes of the outer and inner cylindrical surfaces due to the reliability of the bezing of the measurement object and the device.

 This is achieved by placing the rack on the mounting plane, placing two measuring heads on the rack with the same outreach of the measuring probes, setting the base prism on the mounting plane in a position in which the bisector plane of the prism is perpendicular to the axes of the measuring probes and is located on a predetermined distance from the axis of the rack, set the centering mandrel in the inner cylindrical surface of the measurement object, set the measurement object externally second cylindrical surface based on the prism to cooperate with the centering mandrel cycles are rotated measurement object basing on the prism to the position at which the measuring heads readings will be the same, and the deviation of the desired distance is determined from the deviation of readings of the measuring head from the set value.

 Thus, the dominant component of the measurement error caused by the base error is eliminated. As a result, the measurement accuracy is improved.

Brief Description of the Drawings
The drawing shows a measurement scheme of the proposed method.

The best embodiment of the invention
The proposed method is as follows. The rack 2 is placed on the mounting plane 1, and two 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. Based on the mounting plane 1, the base prism 7 is also set to the position where the bisector the 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 inner cylindrical surface of the measurement object 8. A predetermined distance between the axis of the strut 2 and the bisector plane aa takes into account the nominal value of the distance between the axes of the outer and inner cylindrical surfaces of the measurement object 8, the departure of the measuring probes 5 and 6, the radius of the surface of the centering mandrel 9 interacting with these probes and is set when setting up the reference part. Then, the measurement object 8 with the outer cylindrical surface is mounted on the base prism 7 in a position in which the centering mandrel 9 and the probes 5 and 6 can interact. The measurement object 8 is rotated on the base prism 7 to a position where the readings of the measuring heads 3 and 4 are the same . In this position, the deviation of the reading of one of the measuring heads from the reading after adjustment according to the model part is determined. The found value will correspond to the deviation of the desired distance.

Industrial applicability
The method can be used at engineering enterprises when measuring the location of intersecting or intersecting axes of the hole and the cylindrical neck in a part such as shafts and brackets, which improves measurement accuracy.

Claims (1)

 The 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, installing the base prism, installing the centering mandrel in the inner cylindrical surface of the measurement object, installing the measurement object, characterized in that two measuring heads are placed on the rack with identical with respect to the axis of the rack departures of the measuring probes, the base prism is installed on the mounting plane in the polo 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 measurement object with an external cylindrical surface on the base prism with the possibility of interaction of the centering mandrel with the measuring probes, rotate the measurement object on the base prism to a position in which the readings of the measuring heads will be the same, and the deviation of the desired distance is determined by the deviation of the readings of the measuring head from configured value.