SU911153A1 - Contact measuring plug - Google Patents

Description

The invention relates to measurement technology and can be used to measure the diameters of the holes when machining body parts such as the head of the block, the cylinder block, when the demands on the accuracy of control are high, and the misalignment of the holes being monitored is possible. A contact device is known for monitoring the diameters of coaxial holes in the housing parts, comprising a series of consecutive plugs and a flexible elastic rod fastening the plugs and located along the axis of the device. The plugs self-align through the controlled holes. However, the range of displacement is relatively small relative to each other, especially when the plugs are located close to each other. Closest to the invention, the technical essence is a contact on a measuring tube containing a rigid cylindrical shell, a suspension with base tips and a displacement transducer, for example in the form of a nozzle, and an elastic element connecting the suspension with a shell made in the form of a parallelogram from flat springs. The base of one parallelogram is rigidly connected with the mandrel, the base of the second is rotated in the centers, the axis of which is perpendicular to the axis of the mandrel, at a small angle. This rotation is necessary for the self-installation of the clamping tips 2. However, the rotation is small, which does not allow to measure the diameters of closely spaced coaxial holes. In addition, the presence of two parallelograms complicates the design of the cork. The purpose of the invention is to simplify the design and expand the range of measurements. This goal is achieved by the fact that in the contact measuring tube, co3 .9

holding a ciliydric shell, hanging with base tips and a displacement transducer, for example in the form of a nozzle, the elastic element connecting the suspension with the shell is made in the form of a cylindrical ring, the axis of which is offset parallel to the axis of the shell along. bisector of the angle between the base points.

FIG. 1 shows a contact measuring plug, general view; in fig. 2 shows section A-A in FIG. one.

The plug contains a cylindrical shell 1, a suspension 2 with base tips 3,4 and a displacement transducer in the form of a ball measuring nozzle 5, and an elastic connecting element made in the form of a cylindrical ring 6 and fixed on the end protrusion 7 of the shell 1 with a pad 8 the suspension 2 with overlays 9. The end protrusion 7 has a flange cylindrical surface for ring 6. The common axis of the sealing surface and ring 6 is parallel to the axis of the shell 1 and is offset from this axis along the bisector of the angle between Do the base tips 3 and 4 on the size i greater potential misalignment of controlled holes.

Contact measuring tube works as follows.

The plug is inserted into the test article 10. In this case, due to the stop of the clamping tips 3,4 and deformation of the ring 6, it is displaced relative to the shell in a plane perpendicular to the axis of the measured distance, and installs the nozzle 5 along its diameter.

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-. The hole diameter is judged by the readout command device (not shown) associated with the nozzle 5.

S The implementation of the elastic element in the form of a cylindrical ring, the axis of which is offset parallel to the axis of the shell along the bisector of the angle between the clamping tips, simplifies the design of the plug and extends the measurement range.

Claims (2)

Invention Formula  A contact measuring plug containing a rigid cylindrical shell, a suspension with base tips and a displacement transducer, for example in the form of a nozzle, and an elastic element connecting the suspension with the shell, so that with the purpose of simplifying the tube design and expanding the measurement range, the elastic element is made in the form of a cylindrical ring, the axis of which is offset parallel to the shell axis along bisector of the angle between the base points. Sources of information taken during the examination  UK patent No. 1544967, cl. 6 01 B 13/10, 1975. 2. Vysotsky A. V., Kurochkin A. P. Design and adjustment of pneumatic devices for linear measurements. M., 1972, p. 110-111, fig. 54 (prototype).