RU2028190C1 - Centrifuge drive - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: drive of centrifuge has housing 1 filled up with liquid, cylindrical support float 2 arranged inside housing which serves for mounting of rotor, electric motor 3 coupled with support float, damping arrangement in form of cylindrical shell 4 installed with clearance in line with support float 2. Fitted in upper and lower parts of shell 4 are flexible buses 5 which form, together with wall of float 2 and shell 4, a hermetically sealed space. Flexible buses 5 are secured on surface of support float 2 and are filled with liquid 6. Flexible buses 5 provide self-balancing of system and thus reduce vibration of drive. EFFECT: reduced vibration. 1 dwg

Description

 The invention relates to mechanical engineering and can be used to create centrifuges having a significant imbalance of rotors.

 A known centrifuge drive [1], comprising a housing filled with liquid, a supporting cylindrical float placed inside it, used to install the rotor, a damping device in the form of a cylindrical shell mounted with a gap coaxially supporting the float and connected by elastic elements to the housing.

 However, this drive spends significant power to overcome the friction of the liquid with the cylindrical surface of the float during the rotation of the latter.

 A centrifuge drive (2) is also known, in which the damping device comprises a cylindrical shell mounted with a gap coaxially supporting the float. In the upper and lower parts of the shell there are elastic tires attached to it, forming an airtight cavity with the wall of the float and the shell. Due to the tires in the drive, power losses due to overcoming friction are reduced, but vibrations due to rotor imbalance are not reduced.

 The aim of the invention is to reduce vibration of the drive. To do this, elastic tires are fixed on the surface of the support float and filled with liquid. The decrease in vibration due to the imbalance of the rotor occurs due to the flow of fluid in the tires in the circumferential direction in the direction of decreasing the imbalance during float oscillations.

 The drawing shows a longitudinal section of a centrifuge drive. The drive contains a housing 1. Inside it is placed a cylindrical support float 2, which serves to install the rotor. The electric motor 3 is connected with the support float 2. The damping device comprises a cylindrical shell 4 mounted with a clearance coaxially to the support float. The elastic tires 5 are fixed on the surface of the support float and are filled with liquid 6. The elastic tires are located in the upper and lower parts of the shell and form a sealed cavity with no float wall and the shell.

 The float 2 is connected to the electric motor 3 by a flexible shaft 7. The damping device also contains elastic elements 8 that connect the shell to the housing 1. A flexible tube 9 is used to drain fluid from the sealed cavity.

 The drive operates as follows.

 In the initial state, the housing 1 of the drive is filled with water. The support float 2 is held by the tension of the flexible shaft 7, the elastic tires 5 are filled with fluid 6 and inflated air. A rotor is mounted on the support float 2. When you turn on the electric motor 3, the float 2 together with the rotor accelerates to the desired speed.

 As the float 2 accelerates, the liquid 6 under the action of centrifugal forces presses the elastic tires 5 more strongly against the inner cylindrical wall of the shell 4, ensuring reliable operation of the elastic tires as seals for a sealed cavity. When rotor imbalances occur, fluid 6 flows over the circumference of the tire 5 to the side opposite to the imbalances, providing self-balancing of the rotating system.

 Thus, fixing elastic tires on the surface of the support float provides a self-balancing mode of the rotating system and thereby reduces the vibration of the drive.

Claims (1)

 CENTRIFUGE ACTUATOR, comprising a housing filled with liquid, a cylindrical support float placed therein, used to install the rotor, an electric motor connected to the support float, a damping device in the form of a cylindrical shell mounted with a gap coaxially supporting the float, in the upper and lower parts of which are elastic tires forming an airtight cavity with the float wall and the shell, characterized in that, in order to reduce drive vibrations, elastic tires are fixed to the surface of the support float and filled with liquid.