RU2460035C1 - Apparatus for measuring deviation of planes from centre of outer spherical surface - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: apparatus has a base, a centring unit, an indicator with a measuring rod and a post with a supporting arm. The centring unit is in form of a locator mounted on the base, having a conical hole and a clamp mounted in the supporting arm with possibility of movement along the axis of the conical hole. The indicator is mounted on the locator and the measuring rod is inserted into the conical hole and lies coaxial to said hole.

EFFECT: enabling measurement of distance and symmetry of planes relative the centre of an outer sphere.

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Description

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

A device for measuring the parameters of the keyway of the shaft, comprising a housing made in the form of a prism, an indicator installed in the housing with a measuring rod located perpendicular to the bisector plane of the prism, a reading unit mounted on the housing with a measuring tip made with a flat base surface perpendicular to the axis of the mentioned tip , a rod placed in the housing perpendicular to the bisector plane of the prism with the possibility of interaction with the measuring rod of the indicator with the possibility of rotation around its longitudinal axis and translational movement along this axis, and the probe mounted on the rod and configured to interact with its lateral working surface with the side surfaces of the test groove, the axis of the measuring tip of the reading unit coincides with the prism bisector [Patent RU No. 2164660 C1, IPC G01B 5/24, 2001 (analogue)].

However, the known device is not applicable for measuring deviations of the planes relative to the center of the sphere, because it allows you to measure, in particular, deviations from the symmetry of the keyway only relative to the cylindrical surface.

A prototype is a device for measuring deviations of the distance between the intersecting axes of the outer and inner cylindrical surfaces, containing a base, centering and measuring units, a rack and two brackets mounted on it, the centering unit made in the form of a mandrel with a pair of movable conical bushings and a prism mounted on the base and the measuring unit is made in the form of two indicators mounted on brackets along the axis of the mandrel and placed with the possibility of interaction with their measuring erasers with mandrels, in addition, the measuring rods are mounted on the same extension relative to the rack, and their axes are perpendicular to the bisector plane of the prism [Patent RU No. 2130586 C1, IPC: G01B 5/14, Bull. No. 14, 1999 (prototype)].

However, this device can 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 symmetry.

The present invention was based on the task of developing such a device, which provides measurement of parts containing the outer spherical surface and planes, two location parameters: the distance from the planes to the center of the sphere and their symmetry with respect to the center.

This is achieved by the fact that the device for measuring deviations of the planes relative to the center of the outer spherical surface comprises a base, a centering unit, an indicator with a measuring rod and a stand with a bracket mounted on the base, the centering unit being made in the form of a base element with a conical hole and a clamp placed on the base with a working surface, and the clamp is installed in the bracket with the ability to move along the axis of the conical hole, the working surface of the clamp located perpendicular to the axis, the indicator is mounted on the base element, and the measuring rod is placed in a conical hole and is aligned with this hole.

Thus, due to the base element with a conical hole and the clamp mounted in the bracket movably, a different design of the centering unit is ensured, which, together with the connection of the indicator with the base element and the placement of the measuring rod of the indicator in the conical hole, provides measurement the location of the planes relative to the center of the sphere.

The drawing shows a General view of the device.

The device comprises a base 1, on which a stand 2 with a bracket 3 is mounted, a centering unit made in the form of a base element 4 placed on the base 1 with a conical hole 5 and installed in the bracket 3 with the possibility of movement along the axis of the conical hole 5 from the spring 6 of the clamp 7 s the working surface 8, located perpendicular to the axis of the conical hole 5. The device also contains an indicator 9 with a measuring rod 10. The indicator 9 is mounted on the base element 4 so that its measuring erzhen 10 arranged coaxially to the conical hole 5 and with a yield in the hole. The measurement object 11, containing the measured plane 12 and 13, the outer spherical surface 14 is placed in a conical hole 5.

The device is configured according to the model details. In this case, the indicator is set to zero.

When measuring, the measurement object 11 is installed with the outer spherical surface 14 in the conical hole 5 of the base element 4, providing contact of the measured plane 12 of the measurement object 11 with the measuring rod 10. The clamp 7 is brought by spring 6 to the measurement object 11 and at the same time the measurement object 11 is rotated in the conical hole 5 , achieving during these joint movements the abutment of the working surface 8 of the clamp 7 with the measured plane 13. Take the first reading Δ ₁ indicator 9. Take away the clamp 7. Then reinstall the object from measuring 11 in the conical hole 5 in such a way as to ensure contact of the measured plane 13 with the measuring rod 10. Repeat the supply of the clamp 7 with the simultaneous rotation of the measurement object 11 in the conical hole 5 to ensure the contact of the working surface 8 with the measured plane 12. Take the second reading Δ ₂ indicator 9. Determine the deviation from the set value of the distance from the measured planes 12 and 13 to the center of the spherical surface 14 according to the readings Δ ₁ and Δ ₂ , and their half difference - the deviation from the symmetry of the floor their planes relative to the center.

Thus, the device provides measurement of two parameters of the planes relative to the center of the sphere.

The device 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 device for measuring deviations of the location of the planes relative to the center of the outer spherical surface, comprising a base, a centering unit, an indicator with a measuring rod and a rack with an arm mounted on the base, characterized in that the centering unit is made in the form of a base element with a conical hole and a clamp placed on the base the working surface, and the clamp is mounted in the bracket with the ability to move along the axis of the conical hole, the working surface of the clamp is located wife perpendicular to said axis, the indicator is based on the fixed member, and the measuring rod is disposed in the conical bore and is coaxial to this opening.