RU2616084C1 - Friction variator of planetary type - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: invention is relevant to the field of mechanical transmissions and can be used in various fields of mechanical engineering, in particular, in devices intended for infinitely variable control of driven-shaft rotations. Friction variator of planetary type includes annular ring made in the form of cone. Pinion carrier equipped with fastened satellites, which are suitable for axial movement, is mounted on the same axis of rotation as and wheel. Contrate wheel is manufactured with inner surface. Elements of annular ring and contrate wheel are made in parallel each other.

EFFECT: smooth infinitely variable control of driven-shaft rotations is provided.

2 dwg

Description

The present invention relates to the field of mechanical gears and can be used in various fields of engineering, in particular in devices for continuously variable control of the revolutions of the driven shaft.

Known friction transmission (see Reshetov D.N. Machine parts. A textbook for students of engineering and mechanical specialties of universities. 4th edition. - M .: Mechanical Engineering, 1989, p. 267, Fig. 13.1a), consisting of two cylindrical rollers that are pressed against each other with a given force to transfer the load.

The main disadvantage of this transmission is that to obtain a useful circumferential force, the necessary pressing force significantly exceeds the circumferential force. The pressing force is perceived by thrust bearings, which have significant dimensions. As a result, the diameters of the shafts on which the rollers with bearings are mounted also have large dimensions to provide the required bending stiffness.

Closest to the claimed technical solution for the function performed and the effect achieved is the friction planetary coaxial gear selected as a prototype (SU 355413, M. CL F16h 13/10, 10/23/1972), containing a sun wheel, an elastic crown wheel made stationary, and satellites mounted in it with an interference fit.

The advantage of the known planetary friction coaxial transmission is the elimination of radial loads achieved by performing the transmission according to the planetary scheme. However, the disadvantage of the known planetary friction coaxial transmission is the constancy of the gear ratio due to its dependence on the diametrical dimensions of the solar and crown wheels.

The technical result of the invention is the ability to smoothly change the gear ratio due to the axial movement of the satellites, which allows you to smoothly adjust the speed of the working bodies of technological machines.

The specified technical result is achieved by the fact that in a planetary friction variator including a sun wheel, satellites, a crown wheel forming a sun wheel and a crown wheel are made parallel to each other, according to the invention the sun wheel is made in the form of a cone, the crown wheel is made with a conical inner surface, the satellites are mounted on the carrier, the sun wheel and the carrier have one axis of rotation.

A comparison of the inventive friction variator with the prototype shows that the difference is a new design of the known elements, namely, the implementation of the sun wheel in the form of a cone, the crown wheel with a conical inner surface, the sun wheel and the carrier with one axis of rotation.

The implementation of the sun wheel and the inner surface of the crown wheel conical allows you to smoothly change the gear ratio by changing the diameters of the contacting satellites with the sun wheel. This is achieved by axial movement of the satellites along the conical generators of the solar and corona wheels. In this case, smooth control of the speed of the working bodies of technological machines is achieved.

Thus, the identified distinguishing features of the inventive planetary-type variator provide the achievement of a technical result, which consists in a smooth change in gear ratio.

The invention is illustrated by drawings, where in FIG. 1 shows a kinematic diagram of the inventive planetary friction variator, in FIG. 2 is a view A of FIG. one.

Friction variator planetary type includes a sun wheel 1, made in the form of a cone. A carrier 2 has been installed on one axis of rotation with wheel 1, on which satellites 3 are mounted, mounted with the possibility of axial movement. Satellites 3 are made in the form of cylindrical rollers. The crown wheel 4 is made with a conical inner surface 5. The generators of the solar wheel 1 and the crown wheel 4 are made parallel to each other.

Frictional variator planetary type works as follows.

In the initial position, before the rotation of the drive shaft, the satellites 3 are clamped in the working gap in the selected position with a given diameter d ₁ , i.e. for a given gear ratio between the generatrices of the conical contact surfaces of the sun wheel 1 and the crown wheel 4.

In the steady state mode of operation of the variator, the drive shaft of the sun wheel 1 rotates with an angular velocity ω ₁ . In this case, the sun wheel 1 with a diameter of d ₁ transmits rotation to satellites 3 with a diameter of d ₂ located on a carrier 2, which is a follower, which rotates with an angular velocity ω ₂ .

When changing the gear ratio, the satellites 3 move along the axis of rotation of the carrier 2 by a predetermined distance. In this case, the diameters d _{1 of the} sun wheel and d _{3 of the} crown wheel 4 are changed, due to which there is a smooth change in the gear ratio of the variator.

Claims (1)

A friction planetary-type variator, including a sun wheel, cylindrical satellites, a crown wheel, forming a sun wheel and a crown wheel are made parallel to each other, characterized in that the sun wheel is made in the form of a cone, the crown wheel is made with a conical inner surface, the satellites are mounted on the carrier, which with the sun wheel has one axis of rotation.

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