SU1051350A1 - Gear-link planetary train with cardan link - Google Patents

Abstract

ZOOMED-KULIS THAN PLANETARY MECHANISM WITH CARDAN CULISSE, containing the FROM, shaft connected by a carrier to the satellite, a central gear wheel and a gear that rotates the latter, in order to ensure phase-independent adjustment of amplitude of the curves. The mechanism is a three-link differential gear, one link of which is connected to the drive, the other to the shaft, the third is connected to the transmission, and the gear ratio from the central gear wheel to the shaft is 1i / J / V SL C2 O1

Description

I, the invention relates to mechanical engineering and can be used in complex machines to obtain reciprocating motion of one of the links, varying in amplitude and consistent with the movements of other links. There is a known toothed-rocker planetary mechanism with a cardan arm, which contains a drive, a shaft connected by means of a carrier to a satellite, a central gear wheel and a gear that rotates the latter. When the shaft rotates from the rocker drive, it makes a reciprocating motion, and when it is rotated by means of the central gear transmission, the amplitude of the movement of the scenes is adjusted. О О A disadvantage of the known mechanism is that when adjusting the amplitude of the movement, the scenes change due to the rotation of the satellite relative to the carrier. this movement that does not allow to apply the mechanism in complex mini-lanes, when the amplitude of the reciprocating movement of one of the links must be This is consistent with the movements of other links. The purpose of the invention is to provide a phase independent adjustment of the amplitude of movement of the scenes. This goal is achieved by the fact that a gear-link planetary mechanism, with a cardan link, containing a drive, a shaft connected by means of a carrier to a satellite, a central axial gear wheel and a gear that rotates the latter, is equipped with a three-stage differential, one link of which is connected with the drive., the other with the shaft, the third is associated with the transmission, and the gear ratio from the central gear wheel to the shaft is 1. The drawing shows a longitudinal section mechanism. The gear-and-rocker planetary mechanism contains a shaft 1 with a planet carrier 2 fixed on it, on which a satellite 3 is mounted, which is in 50 .2 engagement with the central sponge wheel A. The number of teeth of the wheel 4 is equal to twice the number of teeth of the satellite 3, on which The distance from the axis equal to the radius of its pitch circle is fixed by a finger 5, articulated with the link 6. To rotate the central gear 4, there is a gear consisting of a gear ring 7, gear 8 and shaft 9. The mechanism is equipped with a three-link differential consisting of link 10, pivotally mounted on the shaft and connected to the drive (not shown), link 11 connected to the shaft 1, and link 12 connected by gears 13 and 14 with the transmission. In this case, the gear ratio from the center gear wheel 4 to the shaft 1 at the inhibited link 10 is equal to one. The mechanism works as follows. On rotation of the differential drive link 10, rotation through links 12 and 11 is transmitted to the shaft 1 and the carrier 2, which rotates the axis of the satellite 3. The finger 5 performs a reciprocating motion transmitted to the link 6. The amplitude of the reciprocating movement of the link 6 depends on the angle between the paths of movement of the fingers 5 and the scenes 6. When the shaft 9 rotates, the central gear wheel 4 is rotated by means of gear 8 and ring gear 7, as well as additional rotation of the shaft 1 by means of gear wheels 14 and 13 and links 12 and 1G differential. Since the gear ratio from the central gear 4 to the shaft 1 is equal to one, the rotation of the wheel 4 and shaft 1 will be performed at the same angle, which provides phase-independent adjustment of the amplitude of movement of the link 6. This mechanism can be applied in complex mechanical systems, themes that have consistently moving elements, and in a number of cases facilitates the process of automating the construction of complex mechanical systems.

Claims (1)

DENTAL-STAINLESS PLANETARY MECHANISM WITH A CARDANA STAINLESS, comprising a drive, a shaft connected by a carrier to a satellite, a central gear wheel and a transmission that rotates the latter, characterized in that, in order to provide phase-independent adjustment of the amplitude of movement of the wings, the mechanism is equipped with a three-link differential one link of which is connected to the drive, the other to the shaft, the third is connected to the transmission, and the gear ratio from the central gear to the shaft is 1. SU „„ 1051350 I 1051350.