SU439685A1 - Device for measuring the coordinates of the center of rotation - Google Patents

Description

one

The invention relates to the field of measurement technology, namely, to computing and measuring devices.

A known device for determining the coordinates of the center of rotation, made in the form of a four-bar hinge mechanism, three telescopic links that form a triangle and contain measures of elongation of links, and the fourth pivotally connected to one end of one of the vertices of the triangle and rotatable about an axis perpendicular to the plane of the triangle.

However, the known devices do not allow measurements of the coordinates of the center of rotation, for example, one of the links of the crankshaft-connecting rod mechanism directly on the object, but require preliminary graphical constructions.

To improve the measurement performance, the fourth link of the proposed device is an elongation meter, made sliding and synchronously rotatable with one of the adjacent triangle links.

FIG. 1 shows the proposed device, a general view; in fig. 2-section but L-A in FIG. one.

Iribor contains a telescopic link 1 fixed on the object with a spring 2 and a locking screw 3, as well as

telescopic links 4, 5 and a sliding link 6.

Link 4 and 5 together with link 1 form an articulated triangle. The axis of the hinge 7 is installed a guide 8, in which the link 6 is placed with the possibility of its translational movement relative to the guide.

A link 9 is fitted with a lock 9 for fastening said link to the movable part of the mechanism being tested, with the lock axis in the initial position coinciding with the axis of the hinge 7.

On link 1, a carriage 10 is installed, having the possibility of reciprocating movement of link 1 and pivotally connected by rails 11 and 12, respectively, with link 5 and guide 8.

Link 4-b contain gauges 13-15 elongation, made in the form of shkal and nonius.

The link 5 is equipped with a screw 16, which serves to adjust its length.

Nribor works as follows.

Based on the crank mechanism tested, for example, the link 1 is fixed at the given points B and C.

The specified size of the BS link 1 is fixed with a locking screw 3.

The link at point C is secured with lock 9.

The moving link BC of the crank mechanism is rotated by a given angle b, the value of which is determined in a known manner. When the aircraft link is rotated, point C, and therefore lock 9, will occupy position Cm, and link 6 will move out of guide 8 and rotate around the axis of hinge 7 relative to the axis of link 1 by angle a. At the same time, the ha 12 will move the carriage 10, which in turn, by means of the pull 11, will rotate the link 5 also by an angle a.

On the scale and nonius 15 of the ratio

CCi 2BC-Sin

the magnitude of the star is determined

on the sun of the checked mechanism.

The size of the BC link is set using a screw 16 on a scale and a nonius 14 on link 5, while the hinge connecting links 4 and 5 will move to point G.

The size of the link 4, determined by the scale of the nonius 13, will be equal to the size of the link BV of the checked mechanism.

Subject invention

A device for measuring the coordinates of the center of rotation, made in the form of a four-link hinge mechanism, whose three telescopic links form a triangle and contain measures of elongation of links, and the fourth is pivotally connected at one end to one of the vertices of the said triangle

and pivotally about an axis perpendicular to the plane of the triangle, characterized in that, in order to improve the performance of the measurements, the fourth link is provided with an elongation meter, made sliding and synchronously rotatable with one of the adjacent triangle links.

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