SU896299A1 - Inertial pulsative mechanism - Google Patents

Description

(54) INERTIAL PULSE MECHANISM

one

The invention relates to mechanical engineering and can be used in drilling, grinding, metal-cutting, etc. machines as a source of impulses cool torque of its moment and axial forces simultaneously. Known pulsed planetary mechanism with unbalanced helical satellites, hooks with a helical helical gear mounted on the output shaft. The mechanism makes it possible to obtain alternating pulses in the twisting and axial directions 1.

However, the operation of the mechanism is accompanied by increased dynamic loads in the gears, which leads to increased noise generation and low durability of operation.

The closest to the invention in terms of technical dryness is an inertia-impulse mechanism, containing input and output shafts, a driving flywheel, a supporting cam with a linear generator of the working surface mounted on the output shaft, cargo levers hingedly fixed to the driving flywheel, unbalanced loads fixed on one

The ends of the levers, and rollers mounted on the other end of the levers and interacting with the supporting cam. The end surfaces of the support cam are star-shaped, and the linear generators of the working surface are parallel to the cam axis, i.e. its side surface is cylindrical 2.

However, on the output shaft of a known mechanism, alternating impulses in the axial direction, which are necessary in a number of technological operations, do not occur.

ten

The purpose of the invention is to obtain alternating axial forces on the output shaft.

The goal is achieved by the fact that the ends of the supporting cam are made in the form of ovals, the major axes of which are turned relative to each other by 90 °.

15

FIG. Figure 1 shows the kinematic scheme of the inertia-pulsed mechanism; in fig. 2 is a view A of FIG. one.

The inertial-impulse mechanism contains input 1 and output 2 shafts, a leading flywheel 3 located on the input

20 shaft 1. On the flywheel 3 on the hinges 4 are installed cargo levers 5, carrying at one end unbalanced

loads 6, and on the other - rollers 7. The latter interact with the supporting cam 8 fixed on the output shaft 2, which is made axially floating in the supports 9. The ends of the supporting cam 8 are ovals (ellipses), the large axes of which are turned relative to friend at an angle of 90 °. By virtue of this, the forming working surface of the supporting cam 8 has an alternating tilt to the axis of its rotation.

The mechanism works as follows.

When the driving flywheel 3 is rotating, the rollers 7 under the action of centrifugal inertial forces acting on the loads 6 are pressed against the supporting cam 8. The pressure of the roller 7 creates alternating torque on the output shaft 2, and due to alternating alternating inclination of the working surface of the cam 8, an alternating axial rotation occurs an effort.

The invention creates prerequisites for designing more efficient and durable drives for drilling, grinding, metal-cutting, etc. Maschin.

Claims (2)

1. USSR Author's Certificate No. 511451, cl. .F 16 H 3/60, 1974. 2. USSR author's certificate 0 № 154123, cl. F 16 H 33/08, 1961 (prototype). Fu. /