SU1110969A1 - Eccentric crank gearing - Google Patents

Abstract

ECCENTRIC CURVOUS-PENZE MECHANISM to transform reciprocating post-nunal movement into a vrach, rational and vice versa, comprising a housing with rectilinear guides placed in the housing with the possibility of rotation the shaft with an eccentric cam, a connecting rod in the form of a ring mounted on the eccentric with the possibility of rotation around its axis, and placed in guides a slider, which is hingedly connected with a rod, characterized in that, in order to increase durability, a longitudinal groove is made in the eccentric, and the mechanism is provided azmeschennym load in a groove cooperating with the ring. (L in about from O5 from

Description

The invention relates to mechanisms for converting reciprocating motion into rotational and vice versa, and can be used in engine building and compressor engineering.

A known eccentric crank mechanism for converting reciprocating movement into insertion and vice versa, comprising a housing with rectilinear guides, a shaft with a cam in the form of a rotatable shaft mounted in the housing with an eccentric, a crank in the form of a ring mounted on an eccentric with a possibility of rotation around its axis, and placed in the guides of the slide, pivotally connected to the connecting rod lj

A disadvantage of the known mechanism is the presence of shock loads in the links of the eccentric-connecting rod and, as a consequence, the reduction of the durability of the mechanism.

The purpose of the invention is to increase the durability of the mechanism by eliminating shock loads.

This goal is achieved by the fact that in an eccentric crankshist-slider mechanism for converting reciprocating motion into rotary and vice versa, comprising a housing with straight guides, the shaft with an eccentric cam, rotatable in the form of a ring, mounted in the housing for rotation. on the eccentric with the possibility of rotation around its axis, and placed in the guides a slider, pivotally connected to the connecting rod, in the eccentric a longitudinal groove is made, and the mechanism is provided with a cushion placed in the groove Zoom interacting with the ring.

The drawing shows the kinematic scheme of the proposed mechanism.

The mechanism includes a housing 1 with rectilinear guides 2 rotating in housing 1. a shaft 3 with an cam 4 in the form of an eccentric, a crank 5 in the form of a ring mounted on the eccentric 4 rotatably around its axis, and a slider 6 in the form of a rod placed in the guides 2 with the possibility of reciprocating movement and connected with the rod 5 by the hinge 7. In the eccentric 4 there is a longitudinal groove 8 in which the weight 9 is placed.

The mechanism works as follows.

The force acting on the rod 6, through the hinge 7 is transmitted to the rod 5. Under the action of this force, the rod 6 and the rod 5 is shifted down, while the rod 5, acting on the eccentric 4, turns the shaft 3 180 °. The second half of the revolution is accomplished by the shaft 3 due to the inertia forces of the flywheel rigidly connected with it (not shown) or by changing the direction of the force acting on the rod 6.

When the eccentric 4 rotates with the shaft 3, the load 9 placed in the longitudinal groove 8, under the action of centrifugal forces, presses against the inner surface of the connecting rod 5 and pushes it out so that from the opposite side groove 8 the gap between the eccentric 4 and the connecting rod 5 is always absent from the degree wear of the contacting surfaces of the eccentric 4 and the shutter 5. The absence of a gap entails the absence of shock loads, which increases the durability of the mechanism.

The mass of the load 9 is determined depending on the loads acting in the mechanism. If necessary, the load 9 can be in addition to the centrifugal forces spring-loaded.

The absence of shock loads several times increases the allowable wear in the connection between the eccentric and the connecting rod, reduces the labor costs for manufacturing the mechanism by increasing tolerances on the accuracy of its parts and operating costs due to the use of low-grade lubricants.

Claims (1)

Eccentric crank-slide mechanism for converting reciprocating motion into rotational and vice versa, comprising a housing with straight guides, a shaft with a cam rotatable with a cam in the form of an eccentric, a connecting rod in the form of a ring mounted on an eccentric with rotation around its axis, and a slider arranged in the guides pivotally connected to the connecting rod, characterized in that, in order to increase durability, a longitudinal groove is made in the eccentric, and the mechanism is provided with nnym load in a groove cooperating with the ring. SU., „1110969>