SU1590748A1 - Wedge-type freewheeling mechanism - Google Patents

Abstract

The invention relates to mechanical engineering and can be used in pulsed continuously variable transmissions and transmissions of various machines and devices. The purpose of the invention is to simplify the design, as well as to increase the reliability of actuation at the time of wedging by increasing the force of pressing the wedging element into the wedge cavity. The mechanism contains a leading eccentric (E) 1, a driven holder (O) 2 with a cover 3 fixed on it with a toothed crown. On the E 1, an intermediate ring 4 is freely installed with a ring gear, which interacts with the ring toothed ring 3. The intermediate ring 4 and O 2 form a wedge cavity. In the wedge cavity, a cylindrical torsion spring 5 is installed, one end of which is located in the groove 6 O 1, and the other is designed as a wedge and is located in the wedge cavity B. The execution of the wedge element in the form of a cylindrical spring allows to simplify the design of the mechanism and increase its reliability. 2 Il.

Description

The invention relates to mechanical engineering and can be used in continuously variable pulse transmissions and transmissions of various machines and devices, and can also be used in engine building, in particular in the drive of mounted engine components, for example, in a generator drive to prevent an increase in resonant alternating loads.

The aim of the invention is to simplify the design, as well as to increase the reliability of operation at the time of jamming due to the force of pressing the jamming element into the wedge cavity.

Figure 1 shows the wedge freewheel; figure 2 - section aa in figure 1.

ί Wedge freewheel mechanism: consists of a leading one; cam 1, driven sleeve 2 with a cover 3 fixed on it. An intermediate ring 4 is movably mounted on the leading * cam 1, kinematically connected by means of a gear ring with a ring gear 3. Intermediate ring 4 and the driven clip 2 form a wedge cavity B. A torsion spring 5 is installed inside the driven clip 2 and is made of rectangular wire, the bent end of which is located in the groove 6 of the eccentric 1 (preventing spring eniyu relatively eccentric) and the other end of the spring, configured as a tangentially-disposed wedge protrusion 7 is located at the wedge cavity B.

The wedge freewheel works as follows.

When the lead · eccentric 1 rotates in the direction of jamming, the spring-loaded end of the spring 5 located in the wedge cavity B between the cylindrical surfaces of the driven yoke 2 and the intermediate ring 4 forming it wedges in the wedge cavity B between the inner surfaces of the driven yoke 2 and the outer surfaces of the intermediate ring 4.

When the driving eccentric 1 rotates in the opposite direction of the protrusion 7 at the end of the spring 5 located in the wedge cavity B, it wedges and slides relative to the driven yoke 2, pushed by the elastic force of the coils of the spring 5, the ring gear of the intermediate ring 4, rolling around the ring gear of the cover 3, rotates the intermediate ring 4 against the direction of rotation of the eccentric 1, contributing to the exit of the jammed protrusion 7 at the end of the spring 5 in the direction of wedging.

The use of a torsion spring free-wheeling mechanism in the proposed wedge mechanism, which acts as an abutment for the wedge, an elastic element located between the wedge and the abutment in the wedge cavity, can significantly increase the force of pressing the wedge element.

The wedge freewheel mechanism is simple in design and also increases the reliability of operation at the time of jamming by increasing the force of pressing the wedging element into the wedge cavity, which provides a significant effect in the national economy.

Claims (1)

Claim A wedge free-wheeling mechanism, comprising a driving eccentric, a driven cage, forming a wedge cavity, an intermediate ring freely mounted on the driving eccentric, connected by gearing to the cage, a wedging element located in the wedge cavity between the intermediate ring and the driven cage, and an elastic link, characterized in that, in order to simplify the design and increase the reliability of operation at the time of jamming by increasing the preload force of the jamming element, the elastic link flaxen in the form of a cylindrical torsion spring, one end of which is fixed to the leading eccentric, and the jamming element is made in the form of a protrusion tangentially located on the other end of the spring.