RU2016289C1 - Drive for piston machine - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: drive has case, electromotor and planet reduction gear whose carrier is rigidly connected with a shaft. Radial cylindrical grooves are provided in a disk of the carrier between the satellites. Correcting weights made of cylinders and received within the grooves are spring-loaded by screw compression springs and balanced with respect to central axis of the reduction gear. Additional inertia moment is created by selecting magnitudes of the correcting weights and rigidity of the compression springs. The moment balances dominating components of alternative force moment, which affect crankshaft or case, depending on adjustment of the unit. EFFECT: decreased vibrations. 2 cl, 2 dwg

Description

 The invention relates to mechanical engineering, in particular to drives of small piston machines.

 A known piston machine drive comprising a housing rigidly connected to the carrier and pendulum antivibrators, grooves are made on the outer surface of the carrier between the satellites, antivibrators are mounted on the inner surface of the carrier between the satellites and made in the form of sectors located in the grooves of the carrier.

 A disadvantage of the known drive are the significant dimensions of the device.

 The purpose of the invention is the reduction of the dimensions of the drive.

 This goal is achieved by the fact that in the drive of a piston machine containing a housing, an electric motor, a crankshaft is rigidly connected to a carrier in which radial cylindrical grooves are made symmetrically about its axis and corrective masses are mounted and spring loaded in the axial direction. These masses are made in the form of cylinders with a through axial channel.

 In FIG. 1 shows a layout diagram of the proposed drive; in FIG. 2 is a section AA in FIG. 1.

 The piston machine drive comprises a housing 1, an electric motor 2 and a planetary gearbox, with a crank shaft 3 connected rigidly to the crankshaft 4. Moreover, in the carrier disk 3 between the axes of the satellites 5 in a plane normal to the central axis of the gearbox, recesses are made in the form of radial cylindrical grooves 6, 7, in which balancing masses in the form of cylinders 10, 11 with the possibility of their relative movement along radial grooves 6, 7, closed ies from the disk outer side 3 of the carrier hoop 12 is pressed onto the disk carrier 3.

 The drive operates as follows.

 With an uneven rotation of the crankshaft 4, due to the action of external moments of forces on it, as well as inertial loading, the energy of its vibrations is transmitted to the correcting masses 10, 11, which begin to oscillate along the drilling axes 6, 7 in the field of centrifugal inertia forces, deforming the springs 8 , 9. In this regard, when the rotational movement of the carrier 3 is portable, Coriolis inertia forces arise, additionally loading the crankshaft 4 with a moment transmitted in turn to the drive housing 1.

 By selecting the values of the correction masses 10, 11 and the stiffness of the compression springs 8, 9, an additional inertial moment is achieved, which, depending on the device settings, balances the dominant components of the alternating force moment acting on the crankshaft 4 or housing 1. As a result, the vibration levels of the latter decrease.

 Thus, compact design is achieved with increased quality of balancing.

Claims (2)

 1. A PISTON MACHINE DRIVE, comprising a housing, an electric motor, a crankshaft and a planetary gearbox including a carrier with a corrective mass connected to a crankshaft, characterized in that, in order to reduce the dimensions of the drive, the cylinders are made radially cylindrical symmetrically about its axis grooves and in them are installed and spring loaded in the axial direction of the corrective mass.  2. The drive according to claim 1, characterized in that the corrective mass is made in the form of cylinders with a through axial channel.

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