SU1379592A1 - Device for measuring curvature - Google Patents

Abstract

The invention relates to a measurement technique, namely, devices for measuring the radii of curvature of spherical, cylindrical and conical surfaces. The purpose of the invention is to increase measurement accuracy. The goal is achieved by the fact that the device contains a base 1 in the form of an equilateral triangle, whose respective vertices have rigidly mounted supports. The device is equipped with an additional reading unit located between the supports on the same line with them at the point of intersection of this angle with the bisector of the angle, at the top of which a support is fixed, which allows the device to be precisely oriented along the forming surface of the measuring surface. When measuring the curvature, the node 6 is fixed on the bisector of the angle of a triangle, and the additional reference node is installed at the intersection of the bisector with the line connecting the supports 2. 2 Il. (L

Description

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The invention relates to a measurement technique, namely, devices for measuring the radii of curvature of spherical, cylindrical and conical surfaces.

The purpose of the invention is to increase the measurement accuracy by accurately orienting the device relative to the measured surface.

Figure 1 shows the proposed device, a General view; figure 2 is the same, top view.

The device contains a base 1, made in the form of an equilateral triangle, at the vertices of the corners of which two supports are rigidly mounted

2, in contact with the base generatrix of the measured surface, and the support

3, in contact with the peripheral forming surface of the measured surface. A slot 4 of base 1 is installed in the groove 4 of the base 1 to measure the curvature of the surface with the possibility of reciprocating movement and fixation along the bisector of the angle at the top of which the support 3 is located. The device is equipped with an additional reference node 6 to control the orientation of the device relative to between the supports 2 at the intersection of the line drawn between the supports and the bisector of the angle at the top of which the support 3 is located.

The device works as follows.

When measuring the curvature of the spherical surfaces, the reference node 5 is fixed at the intersection point of the heights of the reference triangle. The device is sequentially installed on a plane and on a controlled surface.

The radius of curvature of the test surface is calculated from the difference in readings of the reference node 5

When measuring the radius of curvature of circular cylindrical conical surfaces, the reference node is fixed at the point that divides the bisector of the reference triangle in half, and the additional reference node 6 is fixed at the point of intersection of this bisector with the line connecting the supports 2.

The device is installed on the plane and set up an additional reference node 6 to zero.

Then the device is installed on the measured surface of the supports 2 along its generatrix. At the same time, by turning the device of the indication of the counting node 6 it is necessary to set the zero.

From the difference in readings of the reference node 5, the radius of curvature of the test surface is calculated.

Claims (1)

Formula from b.r e te A device for measuring curvature containing a base in the form of an equilateral triangle, supports rigidly mounted on the base at its respective vertices, and a reference node mounted on the bisector of one of the base angles with the possibility of reciprocating along the bisector and fixing, characterized in that the aim of improving measurement accuracy, the device is equipped with an additional reading unit installed at the intersection of the bisector of the same base angle and the straight line connecting the two supports, lozheinye opposite angle from which bisectors. 1