SU1337590A1 - Pulsed variable-speed drive - Google Patents

Abstract

The invention relates to mechanical engineering, in particular, to gears for stepless speed control, and can be used, for example, in cotton ginning machines and other equipment. It allows to increase the reliability of work and to increase the efficiency of the variator by means of simplified (O 0 00 (U) ate with // yy

Description

design Axis 11 is kinematically connected to the drive shaft by gears with a gear ratio of 1: 2, and radial channels 12 are mutually perpendicular. The rotational movement of the shaft through the eccentric and connecting rod 4 is converted into swinging motion of stators 6 and 7. When stators perform swinging motion, for example, , right ,, in the left cavity of the stator 6, conclu1

The invention relates to mechanical engineering, in particular to gears for stepless speed control, and can be used, for example, in cotton ginning machines, woodworking machines and other equipment.

The purpose of the invention is increased reliability and increased efficiency of the variator.

This goal is achieved by the fact that the axis of the free wheeling mechanism is kinematically connected to the drive shaft by gear wheels with a gear ratio. 1: 2, and the radial channels are mutually perpendicular.

FIG. 1 shows the kinematic scheme of the proposed variator j in FIG. 2 - hydraulic freewheel assembly, longitudinal section.

The pulse variator comprises a housing 1, a shaft 2 with an adjustable eccentric 3 mounted on it, a connecting rod 4 and a driven shaft (rotor) 5. A hydraulic freewheel is installed on the driven shaft, the stators 6 and 7 of which are separated by a disk 8 which is integral with the shaft 5 The stator bores have equal but diametrically opposite eccentricities. In stator 6, channels 9 and 10 are connected, connecting the right and left working cavities of the stator at certain angles of rotation of the stator axis 11 through the through channel 12 in the axis 11. Similar ka The rails are made in the stator 7, and the through

pressure occurs between blades 13 and 15. At the same time, axis 11 is turned so that the communication between channels 9 and 10 is blocked. As a result of the effect of the difference in forces from the pressure generated on the vanes 13 and 15, the rotor 5 will rotate counterclockwise. The pressure in the left cavities of the stator 7 does not increase as the right and left cavities of the stator communicate with each other. 2 Il.

the channel in the axis of swing, corresponding to the stator 7, is made under 90 relative to the channel 12, corresponding to the stator 6.

The rotor 5 is provided, for example, with four spring-loaded blades for each bore, in particular for a stator bore 6 with blades 13-16. The make-up of the working cavities of the stators is carried out through the channel 17 in the axis 11. The drive shaft 2 and the axis 11 are connected by kinematically gears, for example, 18-20, with a total gear ratio of 1: 2, i.e. the axis of the stators rotates at a frequency twice as low as that of the drive shaft.

The variator works as follows.

The drive shaft 2, together with the eccentric 3, is rotated in either direction. The rotary motion of the shaft through the eccentric 3 and the connecting rod 4 is converted into the oscillatory motion of the stators.

6 and 7. When the stators make a swinging motion, for example, right, pressure is generated in the left cavities of the stator 6 enclosed between the blades 13 and 15. In this case, the axis 11 is rotated so that the message between channels 9 and 10 is blocked (figure 2), i.e. the right and left cavities of the stator 6 are not communicated. A vacuum should appear in the left cavities of the stator 6. As a result of the effect of the force difference from the pressure that has arisen on the vanes 13 and 15, the rotor 5 will rotate counterclockwise. At the same time, from moving to the right, the pressure must appear in the left cavities of the stator 7. However, in view of the fact that

The through channel in the swing axis 11 corresponding to the stator 7 is rotated as shown in FIG. 2 by the dashed line, i.e. under 90 relative to channel 12 corresponding to stator 6, the left and right working cavities of stator 7 will communicate with each other through the channels and the liquid

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freely flows from one of the cavities of Q-chan, and, consequently, the speed to others. When the stators rotate the driven shaft (rotor) 5. the swing to the left, the axis 11 rotates due to the kinematic connection with the shaft 2 so that the channels 9 and 10 of the stator 6 are connected through the through channel 12 in the axis 11, i.e. Now channel 12 will occupy the position depicted by the dashed line, and the liquid will freely flow from the right cavities of the stator 6 to the left. At the same time, pressure arises on the right cavities of the stator 7, and a vacuum in the left cavities, while the communication between the right and left cavities is blocked. As a result of the effect of the pressure difference on the respective blades in the bore of the stator 1, the rotor will tend to turn in the counterclockwise direction.

Feeding of the working cavities occurs at the moment when

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Claims (1)

Invention Formula A pulse variator comprising a housing, a drive shaft with an adjustable eccentric mounted in it, and a driven shaft with a hydraulic free-running mechanism located on it, the driving element of which is installed with a possibility of swinging on the axis with radial channels placed parallel to the axis of rotation of the driven shaft, that, in order to increase reliability and increase efficiency, the axis is kinematically connected to the drive shaft with gears with a gear ratio of 1: 2, and the radial channels are mutually perpendicular to about . 7590 overflow of fluid between the stator cavities, i.e. idle done. The rotational speed of the driven shaft (rotor) 5 is adjusted by changing the eccentricity value of the eccentric 3 on the drive shaft 2 by any known method. This will change the angle and, therefore, the speed of rotation of the driven shaft (rotor) 5. Invention Formula A pulse variator comprising a housing, a drive shaft with an adjustable eccentric mounted in it, and a driven shaft with a hydraulic free-running mechanism located on it, the driving element of which is mounted for swinging on an axis with radial channels arranged parallel to the axis of rotation of the driven shaft, characterized in that , in order to increase reliability and increase efficiency, the axis is kinematically connected to the drive shaft by gears with a gear ratio of 1: 2, and the radial channels are located perpendicular to each other. but Editor Y. Sereda Compiled by G. Savochkin Tehred L. Serdyukova Proofreader N. Korol Order 4111/32 Circulation 811 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4