RU2201532C2 - Rotary vane vacuum pump - Google Patents

Abstract

FIELD: agriculture; milking plants. SUBSTANCE: proposed rotary vane vacuum pump contains stator installed on rolling supports and rotor installed eccentrically relative to stator, with vanes fitted for movement in rotor slots. Stator with side cover and rotor are installed for rotation on fix tubular axle. Driving plate of rotor is fixed, by spring-loaded pins arranged in plate and faces, in holes of side cover and stator. Rotor is provided with channels communicating with suction and delivery spaces of fixed tubular axle formed by longitudinal divider in axle and arranged so that each channel has common side with near slot of rotor. EFFECT: reduced wear of pump parts, energy consumption for pump driving, simplified design. 6 dwg

Description

 The invention relates to agriculture, in particular to vacuum pumps for milking installations.

 A known design of a rotary vane machine comprising a stator mounted on rolling bearings and a rotor eccentrically located relative to the stator, in the slots of which the plates are movably mounted (see RU 2146338, 10.03.2000, F 04 C 2/344).

 A disadvantage of the known design is the friction of the plates on the stator and distribution washers, wear of the contacting surfaces and the complexity of the design.

 From the patent literature a rotary vane pump is known, adopted as the closest analogue, containing a stator mounted on rolling bearings and a rotor eccentrically located relative to the stator, in the slots of which plates, a suction and discharge cavities are movably mounted, while the stator and rotor are rotatably mounted leading the rotor plate is pivotally connected to the stator, equipped on the inner surface with a longitudinal hemispherical groove connected to the specified rotor plate (see US 2891482 A, 06.23.1959, Ncl. 418-173).

 A disadvantage of the known design is the friction of the plates on the stator, the wear of the contacting surfaces and the complexity of the design.

 This invention solves the problem of reducing the wear of pump parts, energy costs for its drive and simplifying the design.

 This problem is solved by the fact that in a rotary vane vacuum pump containing a stator mounted on rolling bearings and a rotor eccentrically mounted relative to the stator, in the slots of which the plates are movably mounted, according to the invention, a stator with a side cover and a rotor leading the plate of which is fixed by spring-loaded pins located in its ends in the holes of the side cover and the stator, the rotor having channels communicating with the suction and agnetatelnoy cavities fixed tubular axle, the longitudinal divider formed therein disposed in such a manner that each channel has a common side with a groove surrounding the rotor.

 The invention is illustrated by drawings, where figure 1 shows a longitudinal section aa of a rotary vane vacuum pump; figure 2 is a cross section bb of the pump of figure 1; figure 3 is a section CC of the pump of figure 1; figure 4 is a section PP of the pump of figure 2; figure 5 - hemispherical groove on the inner side of the stator; figure 6 is a spring-loaded pin.

 The pump contains a protective casing 1, under which, on the base 2, through the fixed tubular axis 3, a stator 5 with a side cover 6 is mounted on the rolling bearings 4. A rotor 7 is eccentrically mounted inside the stator 5 (with an eccentricity relative to the stator), in connection with which the outer surface of the rotor 7 and the inner stator 5 is formed by a crescent-shaped space, divided by plates 8 into working cells. Plates 8 are movably mounted in the grooves of the rotor. One of them is the leading one and enters a hemispherical groove 9 on the inner surface of the stator 5, being fixed by its spring loaded pins 10 in the holes of the side cover 6 and the stator 5. The rotor 7 has channels 11 located next to the grooves for the plates so that the channel and the groove have a common side. The channels 11 communicate with the suction 12 and injection 13 cavities of the fixed tubular axis 3, formed by a longitudinal divider 14. In addition, on the side surface of the rotor 7 by means of screws 15 is mounted a flange 16 with an axis 17, which has bearings 18, mounted in a fixed tubular axis 3 and isolated by a transverse partition 19 from the suction 12 and discharge 13 cavities.

 After assembling the pump, a preliminary rotation of the stator 5 by hand is required, as a result of which the spring-loaded pins 10 of the drive plate fall into the holes of the stator 5 and the side cover 6, providing the rotor 7 through the stator 5.

 The pump operates as follows.

 When the stator 5 rotates through the drive plate, the rotor 7 also receives rotation. The remaining plates 8 are discarded in the grooves of the rotating rotor 7 to the periphery by the action of centrifugal forces and are pressed against the inner surface of the stator 5.

 The suction and injection of air occurs at the respective locations of the rotor channels and the cavities of the fixed tubular axis 3, formed by a longitudinal splitter 14. In particular, when leaving the crescent-shaped zone, the plate 8 enters the groove of the rotor 7, and suction begins in the working cell between it and the previous plate , i.e. the channel 11 of the rotor 7 communicates with the suction cavity 12 of the fixed tubular axis 3. After the stator 5 with the rotor 7 is rotated by a certain angle, the suction process ends and with further rotation by the same angle, air is compressed in the working cell with its subsequent injection during the same angular displacement, i.e., the channel 11 of the rotor 7 communicates with the discharge cavity 13 of the fixed tubular axis 3.

Claims (1)

 A rotary vane vacuum pump containing a stator mounted on rolling bearings and a rotor eccentrically mounted relative to the stator, in the grooves of which are movably mounted plates, characterized in that a stator with a side cover and a rotor, the drive plate of which is fixed in its ends with spring-loaded pins in the holes of the side cover and stator, the rotor having channels communicating with the suction and discharge cavities of the stationary a tubular axis formed by a longitudinal divider in it, arranged in such a way that each channel has a common side with a nearby rotor groove.

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