RU2029180C1 - Device for converting rotation to reciprocation - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: device comprises housing 1, driving shaft 2 with bushing 3 mounted on the shaft for axial movement, rod 6 with carrier 7 and bearing 8, carrier 10 secured in housing 1 with bearing 11. Two ring grooves 4,5 are made in bushing 3. Side walls 9,12 of the grooves are conjugated with bearings 8,11. Grooves 4,5 are inclined to the bushing axis toward each other. EFFECT: enhanced functional capabilities. 2 cl, 2 dwg

Description

 The invention relates to mechanical engineering and can be used in devices for converting rotational motion into reciprocating.

 The purpose of the invention is the expansion of the kinematic capabilities of the device by introducing into the design of a new element that provides additional kinematic connections.

 In FIG. 1 shows a diagram of a device for converting rotational motion into reciprocating; in FIG. 2 is a diagram of a device with an additional intermediate link.

 The device for converting rotational motion into reciprocating comprises a housing 1, a drive shaft 2, on which the sleeve 3 is mounted with the possibility of axial movement of the sleeve 3 with annular grooves 4 and 5, inclined towards the axis of the sleeve towards each other, the rod 6 with a leash 7, designed to interact through bearings 8 with the side walls 9 of the groove 4, the leash 10, mounted in the housing 1 and designed to interact through the bearing 11 with the side walls 12 of the groove 5. A flywheel 13 is mounted on the drive shaft 2.

 The device can be equipped with additional bushings 14 (in Fig. 2 shows one such sleeve), each with two grooves 15, 16, inclined towards the axis of the sleeve towards each other, and intermediate rods 17 with two leads 18, 19, designed to interact through bearings 20, 21 with grooves 16 and 4 of adjacent bushings 14 and 3.

 The device operates as follows.

 When the drive shaft 2 and with it the sleeves 3 are rotated, the bearing 11, connected through the leash 10 with the housing 1, shifts the sleeve 3 along the axis of the shaft 2, acting on the side walls 12 of the groove 5. At the same time, the side walls 9 of the second groove 4 act through the bearing for 8 s a leash 7 on the rod 6, move it relative to the body. As a result, the rod 6 moves by the total amount of rises of the two annular grooves 4 and 5. With a further rotation of the drive shaft 2, the rod likewise moves in the opposite direction by a double value of the rises of the annular grooves. Flywheel 13 provides smooth rotation of the shaft 2.

 The use of additional bushings 14 with intermediate rods 17 in the device allows to increase the stroke of the rod 6 two or more times (depending on the number of bushings 14).

 The shape of the grooves 4, 5 and 15, 16 to the left of the bearing supply area 8, 11 and 20, 21 to the left (according to the drawing) may differ from the shape of these grooves to the right of the bearing supply area, which can provide different time and phase characteristics of the forward movement of the rod 6 and in the opposite direction (for example, the slow stroke of the rod 6 to the left and the fast stroke of the rod 6 to the right).

Claims (2)

 1. DEVICE FOR CONVERTING ROTARY MOTION TO RETURN-COMMUNICATE, comprising a housing, a drive shaft with a sleeve, with a first annular groove inclined to the axis of the hub, a rod with a leash for interacting through a bearing with the side walls of the annular groove, characterized in that, in order to expand the kinematic opportunities, the sleeve is mounted on the drive shaft with the possibility of axial movement, it has a second annular groove, inclined to the axis of the sleeve towards the first groove, and the device is equipped with a leash, is fixed in the housing and designed to interact through the bearing with the side walls of the second groove.  2. The device according to claim 1, characterized in that it is equipped with additional bushings mounted on the same shaft, each with two grooves, inclined towards the axis of the bush towards one another, intermediate rods with two leads designed to interact through bearings with the side walls of the nearest grooves of adjacent bushings installed so that the nearest grooves of these bushings are inclined towards one another.

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