SU712545A1 - Three-dimensional cam mechanism - Google Patents

Description

The invention relates to mechanical engineering and can be used in locking joints of the sliding type.

A bayonet connection is known that contains a thrust with a bayonet groove and a half-zoon with a finger interacting with the thrust groove, the finger being mounted on the thread in the slider [1].

The disadvantages of the known connection are due to intense wear and tear of both the finger and the groove sections.

Also known is the cam spatial mechanism, containing intersecting rods with a curved groove and a slider with a hole and a finger installed in it 15, provided with a roller interacting with the walls of the groove of the rod [2].

This mechanism in its technical essence and the achieved effect is closest to the invention. twenty

The disadvantages of this known mechanism are due to a significant increase in the dimensions and mass of the thrust, and therefore the mechanism as a whole in connection with the increase in the width of the groove under the roller. 25

The purpose of the invention is to reduce friction, wear and increase durability.

The goal in accordance with the invention is achieved by the fact that the slider is provided with a sleeve and a ball bearing that are fixedly installed in the thrust hole, and the finger is made in the form of a roller mounted in the said sleeve with the possibility of rotation and with an end against the end of the ball bearing.

In FIG. 1 shows the proposed cam mechanism in section along the axis of the finger perpendicular to the axis of the slider; in FIG. 2 is a view along arrow A in FIG. one.

The cam mechanism comprises a housing 1, in which a crossing rod 2 and a slider 3 with a hole and a sleeve 4 pressed into it are movably mounted, in which a roller 5 is mounted on a sliding fit, resting on the end face of a ball bearing 6. In this case, the rod 2 is made with a flat 7 and located on it with a curved groove 8, with the walls of which the working section of the roller 5 interacts.

The proposed cam mechanism operates as follows.

When the rod 2 is moved, for example, from a pnevmotsilndra rod (not shown) to the left, the roller 5 comes into contact with the groove wall

8. Between the working surfaces of the roller 5 and the groove 8, rolling friction occurs, and between the same roller 5 and the ball bearing 6, sliding friction occurs on a very insignificant contact surface (point contact of the plane and step 3

712545 ⁴ pa). In addition, under operating conditions, the pressure of the roller on the ball bearing is practically zero.

Thus, in the proposed cam mechanism, only rolling friction actually acts. If the force transmitted from the side of the slider is relatively large and the roller wears out, then it can be changed periodically. This is simple, since the roller 1 is installed in the sleeve freely - on a sliding fit.

Replacing sliding friction with rolling friction significantly reduces wear and increases, therefore, the accuracy of the relative position of the thrust and slide and the durability of their work, and the use of a conventional roller instead of a small-sized scarce ball bearing reduces the cost and simplifies the 2 design.

Claims (1)

Forms of la invention and I A spatial cam mechanism containing intersecting traction with a curved groove and a slider with an opening and a finger installed in it, interacting with the walls of the traction groove, which is equipped with a bushing in order to reduce friction, wear and increase durability. and a ball bearing, fixedly mounted in the hole of the rod, and the finger is made in the form of a roller mounted in the said sleeve with the possibility of rotation and with emphasis the end face in the ball bearing.