SU396496A1 - SCREW MECHANISM - Google Patents

Description

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The invention relates to the field of mechanical engineering and instrument-making and can be applied, for example, in correction mechanisms of precision machine tools.

A screw mechanism is known that contains spanning parts encompassed and mated along a helical surface through an intermediate element made in the form of a set of spring-loaded balls.

However, it is impractical to use this mechanism for small movements, since it requires lubrication, has a large number of parts and significant dimensions. Screw surfaces are frayed, which leads to undesirable grids and poor accuracy.

In order to increase efficiency, increase manufacturability and reduce dimensions with relatively small movements of parts in the proposed mechanism, the intermediate element is made in the form of a rubber-like layer fixedly connected by its outer surface with the inner surface of the female part and the inner surface with the outer surface. covered detail.

The drawing presents the described mechanism.

The female part, for example nut 1, has an inner screw surface 2,

and the enclosed part, for example screw 3, is the outer screw surface 4 located concentrically with the screw surface of the nut. A thin rubber-like layer 5 is placed between the screw surfaces and is fixed with them.

When turning the knob relative to the nut in the rubber-like layer, shear deformation is performed. In this connection, taking into account the screw shape of the interlayer, the screw receives translational movement relative to the nut, the value of which is proportional to the angle of rotation and the thread of the screw thread.

Thus, the mechanism works like a screw. The magnitude of rotation and translational movement is limited by the allowable shear deformation of the interlayer, which is greater, the greater the thickness of the interlayer. However, the greater the thickness of the interlayer, the lower the axial stiffness of the screw mechanism. By analogy with flat thin-walled elements, the axial stiffness of the mechanism is proportional to the value - where a

 height of the interlayer. When the coil is higher, h a

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It can compare or exceed the stiffness of the screw mechanisms of conventional design.

Considering that the allowable relative shear strain for some rubber is 100-150%, the allowable angle of rotation and the translational movement of the screw relative to the nut can be significant.

Depending on the angle of the screw surface, the mechanism may be a self-braking gear or non-braking gear.

Subject of the invention: A screw mechanism comprising female and male parts mated along a helical surface through an intermediate element, characterized in that, in order to increase efficiency, increase manufacturability and reduce dimensions with relatively small movements of parts, the intermediate element is made in the form of a rubber-like layer, fixedly connected with its outer surface with the inner surface of the female part, and the inner surface with the outer surface of the male part.