SU815368A1 - Apparatus for converting rotation to translational motion - Google Patents

Description

The invention relates to machine building and is used in mechanisms and their heads, where it is necessary to convert the rotational movement into a translational movement. A screw mechanism for converting rotational motion into a translational is known, comprising a housing, a shaft mounted therein, two threaded elements with different average diameters that are in engagement, and a device that restricts the rotation of one of the threaded elements G. A disadvantage of the known device is small gear ratio. The closest to the proposed technical entity is a device for converting rotational motion into a translational movement, comprising a housing, a shaft mounted in it with trunnions and two threaded elements in engagement, one of which is fixed against rotation relative to the housing and mounted with the possibility of axial movement and the other is eccentric in relation to it. The disadvantage of this device is a small gear ratio. The purpose of the invention is to increase the gear ratio of the device. This goal is achieved by the fact that the eccentrically located threaded element is freely mounted on the shaft so that it can rotate relative to it, and the pins are located coaxially with the threaded element fixed against rotation relative to the body. The drawing shows a device for converting rotational motion into translational, sectional view. In case 1, axially movably axially mounted shaft 2 with pins 3 and meshed threaded elements 4 and 5, one. "On which 4 is fixed from turning relative to the body with the help of a key 6 installed in it, and the threaded element 5 {is located eccentrically with respect to

to housing 1. The drive shaft 7, on which the threaded element 5 is mounted with the possibility of relative rotation and consists of several rigidly interconnected parts: drive square 8j GOocHoro with threaded element 4, trunnion 3, with which the shaft 7 is guided into the cover 9 and the cylindrical section 10, which is made eccentrically with respect to the axle of the trunnion 3. At the section 10 h0 of the bearings 11 there is a threaded element 5, limited from axial movement of the collars 12 and 13 of the shaft 7. not from axial movement due to the presence of the shoulders 12 and 14. When the threaded element 4 is in the extreme upper position, the shaft 2 moves to the upper position by the spring 15, which abuts against the body with one end and into the protrusion of the shaft 2 with the other,

The device works as follows.

When a torque is applied to the drive square 8, the rotation is transmitted to the shaft 7. The axis of the threaded element 5 mounted on the eccentric portion 1O of the shaft 7 makes a round motion around the axis of the trunnion 3 and the threaded element 4.

Since the threaded elements 4 and 5 are eccentric ,. are threaded and at the same time the element 4 cannot be rotated, the circular movement of the threaded element 5 around the axis of the trunnion 3 and. the simultaneous rotational movement of it around its axis causes the axial

moving the threaded element 4 and the shaft 2 associated with it. The spring 15 provides for the return of the shaft 2 to the initial position when the threaded element 4 is moved to the uppermost position. The need for a spring 15 may disappear if the shaft 2 and the threaded element 3 are rigidly connected.

Claims (2)

1. US Patent No. 3295385, cl. 74-424.8,1967. 35 2. Kozhevnikov, SN and others. Elements of mechanisms, M, Oborongiz, 1956, p. 633, FIG. 1982a (prototype).