SU1027457A1 - Cam mechanism - Google Patents

Abstract

1. CAM MECHANISM, comprising a housing, a drive shaft housed therein, an intermediate link arranged longitudinally displaced in it, made in the form of two truncated cones, and interacting with a rolling body intermediate member, characterized in that in order to improve the accuracy of motion transmission The cones face each other with smaller bases, which have a closed profile formed by centrally symmetric sections, each of which is made by Archimedes spirals. 2. The cam mechanism according to claim 1, characterized in that the axes of the bases of the cones are displaced one relative to another by an angle of 7 liters, where n is the number of centrally symmetric sections. cz IsS 4 ;: SP

Description

The invention relates to mechanical engineering, in particular to mechanisms for converting rotational motion into reciprocating. A cam mechanism is known, comprising a housing, a drive shaft accommodated therein, an intermediate link arranged in the form of two truncated cones, and interacting with an intermediate link of the rolling body. The cones face each other in large bases, which are ellipses 1. A disadvantage of the known cam mechanism is the low accuracy of reproduction of the motion characteristics of the slave link. The aim of the invention is to improve the accuracy of motion transmission. This goal is achieved by the fact that in a known cam mechanism comprising a housing, a drive shaft housed therein, an intermediate link arranged in a longitudinal movement, made in the form of two truncated cones, and interacting with the intermediate body of a rolling body, face to each other. smaller bases, which have a closed profile formed by centrally symmetric sections, each of which is made in a spiral of Archimedes. In addition, the base axes of the cones are one relative to each other at an angle, where n is the number of centrally symmetric sections. FIG. 1 shows a cam mechanism, a slit; in fig. 2 is a view A-A in FIG. one; in fig. 3 is a view of BB in FIG. one; in fig. 4 is a view of BB in FIG. 1. The cam mechanism comprises a housing 1, a drive shaft 2 arranged therein, an intermediate link 3 mounted on it with the possibility of longitudinal movement, made in the form of two truncated cones 4 and 5, and the rolling bodies 6 and 7 interacting with intermediate link 3. The cones 4 and 5 face each other with smaller bases 8 and 9, which have a closed profile formed by centrally symmetric sections. 10-17, each of which is made in a spiral of Archimedes. The axis of the bases are offset one relative to another by an angle, where n is the number of centrally symmetric areas. Cam mechanism works as follows. When the drive shaft 2 rotates, the rolling bodies 6 and 7 interact with the truncated cones 4 and 5, as a result of which intermediate link 3 receives a longitudinal movement in the direction of the axis of the shaft 2. With the number of axes of the bases of the cones equal to n / 2, the number of sections made along the Archimedes spiral, equals n (in Fig. 1-4, p 4). The cam mechanism allows to obtain high precision noKa3aTeviH of motion transmission of the intermediate link, which allows its use in devices of exact mechanics.

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Claims (2)

1. CAM MECHANISM, comprising a housing, a drive shaft placed therein, an intermediate link mounted on it with the possibility of longitudinal movement, made in the form of two truncated cones, and interacting with the intermediate link of the rolling body, characterized in that, in order to increase the accuracy of the transmission of motion , the cones are facing each other with smaller bases, which have a closed profile formed by centrally symmetrical sections, each of which is made along the spiral of Archimedes. 2. The cam mechanism according to claim 1, characterized in that the main bases of the cones are displaced one relative to another by an angle of 2 l -c, where η is the number of centrally symmetric sections. £ Fg / g. 7