SU1693294A1 - Wedge free-wheel mechanism - Google Patents

Abstract

The invention relates to mechanical engineering and can be used in mechanisms for transmitting one-way rotation. The purpose of the invention is to increase durability by reducing wear of the yoke and wedge when used with a rim. The wedge mechanism consists of a driven cage 1, inside which is located the leading eccentric 2, on which the bracket 3 is fixed. On the eccentric 2, an intermediate ring (CL) 4 is mounted for rotation. The yoke 1 and the CL 4 are permanent ring magnets facing each other, the surfaces of which have the same poles. Wedge 6 is equipped with switching bridge contacts (CL) 9 and 10. On bracket 3, paired CN 11, 12 and 13, 14 are connected, connected via wires 15 and 16 with a DC source and having opposite poles. When the eccentric 2 rotates in the direction of the wedge 6 wedging, KN 9 and 10 are connected to KN 11 and 12. The current supplied to the winding 7 creates a magnetic field. In this case, the surface of the yoke 1 and the contacting surface of the wedge 6 have different poles and they are attracted to each other. During the overtaking period, CLs 9 and 10 are opened from CNs 11 and -12 and connected to CNs 13 and 14. The current changes direction. The surfaces of the wedge 6 change signs to the opposite. The wedge 6 is attracted to CL 4 and is repelled from the yoke 1. With a free course, the frictional force between the yoke 1 and the wedge 6 decreases, which reduces wear and, consequently, increases durability. 2 Il. SO with about about GJ Yu Yu 4

Description

The invention relates to mechanical engineering and can be used in continuously variable transmissions, as well as in engine building to drive mounted units while eliminating the development of resonant torsional vibrations arising in the drive, for example, to drive a generator.

The aim of the invention is to increase durability by reducing wear of the yoke and wedge during the free course.

Figure 1 shows the wedge mechanism, a general view; figure 2 - contacts of the opening circuit.

The wedge mechanism consists of a driven cage 1, inside of which there is a leading eccentric 2, to which the bracket 3 is fixedly mounted. On the eccentric 2 with

the possibility of rotation around its axis is installed intermediate ring 4. The inner surface of the cage 1 and the outer surface of the intermediate ring 4 form a wedge cavity 5 in which there is a wedge 6, around the perimeter of which is wound 7. winding 8 between the wedge 6 and the bracket 3 6 into the wedge cavity 5. The yoke 1, as well as the intermediate ring 4, is a permanent ring magnet south facing itself. The inner surface of the yoke 1 and the outer surface of the intermediate ring 4 have the same poles. On the wedge 6, there are switching bridge contacts 9 and 10. On one side of contacts 9 and 10, contacts 11 and 12 are located. On the other side, contacts 13 and 14. Contacts 11-14 are fixed to bracket 3. Contacts 11 and 14 are connected to a wire 15. pins 12 and 13 to wire 16 and are opposite with pins 11 and 14 poles. Wires 15 and 16 are connected to a DC power source.

The wedge mechanism works as follows.

When the leading eccentric 2 rotates in the direction of jamming (counterclockwise), the wedge 6 presses into the wedge cavity 5 relative to the bracket 3 by the spring 8. The contacts Y and 10 of the wedge are connected to the contacts 11 and 12 of the bracket, respectively. On the winding 7 of the wedge b there is a standing electric current. The wedge is an electromagnet, the vufenn surface of the yoke 1 and the wedge surface conjugate to it have opposite poles and are attracted to each other, and the outer surface of the intermediate ring 4 and its conjugate clique surface have poles of the same name and repel each other. The wedge 6 additionally applies pressure from the eccentric 2 to the inner surface of the yoke 1, contributing to an increase in the reliability of the mechanism's actuation by increasing the frictional force between the yoke and the wedge. When the eccentric rotates in the opposite direction (clockwise), the wedge b is wedged and supported by bracket 3 through the spring B begins to rotate freely clockwise, slipping along the inner surface of the yoke 1. The spring 8 is compressed under the action of the friction force between the wedge 6 and yoke 1. 9 and

10 is opened with contacts 11 and 12 and is closed with contacts 13 and - 14. The constant electric current of the winding of the wedge 6 changes its direction. Wedge 6 representing

an electromagnet, reverses its poles. The inner surface of the yoke 1 and the wedge surface associated with it have the same poles l and are repelled from each other by magnetic forces

and the outer surface of the intermediate ring 4 and the wedge surface adjacent to it have opposite poles and are attracted to each other. Magnetic vultures attracting a wedge to intermediate

ring and repelling it from the inner surface of the cage, compensate for the centrifugal force of the wedge with a free course, which tends to press the wedge to the inner surface of the cage 1. With a free course of the mechanism, the centrifugal force is undesirable, because the strength of friction between them, which contributes to increased wear of the yoke and wedge, heating

mechanism, increasing its mechanical losses. The proposed mechanism eliminates these drawbacks.

The use of the proposed wedge free wheeling mechanism allows

significantly reduce wear of the clip and wedge during the free run and increase its service life.

Claims (1)

Invention Formula V-free motion, containing a clip covering an eccentric with a bracket, an intermediate ring mounted on the eccentric, a wedge in the form of an electromagnet, placed in the wedge cavity between the clip and the ring, a gland device located between the wedge and the bracket, and the contacts 33 of the chain cloth placed on the wedge and on the bracket, characterized in that, in order to increase durability beyond by reducing the wear of the yoke and wedge during the free run, it is equipped with additional contacts mounted on the contrastine in pairs with each other located opposite each other. poles, and the contacts on the wedge are made in the form of a switching mastic contact, the holder and the intermediate ring are made in the form of permanent hoof magnets, which face each other with which their surfaces have poles of the same name. Editor T. Kurkova / 3 : fig Compiled by V. Razorenko Tehred M. Morgencorrector T. Kolb /five AH