RU2291987C2 - Compressor - Google Patents

Abstract

FIELD: compressor engineering.

SUBSTANCE: machine comprises housing, face lids with pressure and sucking ports for gas and eccentric shaft that has the working wheel, passages for supplying additional fluid to the zone where the liquid ring is detached from the hub of the wheel interposed between the pressure and sucking ports. The passages are made in the face lids and hub of the wheel.

EFFECT: enhanced efficiency.

1 dwg

Description

The invention relates to compressor engineering and vacuum technology, in particular, to liquid ring pumps and compressors. The proposed design allows to increase productivity, the depth of the ultimate vacuum and the efficiency of the liquid-ring machine.

An analogue of the proposed design is a liquid-ring machine containing a housing, end caps with suction and discharge windows for a gas medium and an eccentric shaft mounted on which there is an impeller with a conical hub shape, which reduces the volume of the gas medium at the impeller hub (E. S. Frolov et al. Mechanical vacuum pumps, Moscow: Engineering, 1989, p. 187, fig. 124 (a)).

The disadvantage of this design is the presence of leakage of the gas medium in the zone of withdrawal of the liquid ring from the hub of the impeller, enclosed between the discharge and suction windows. In this case, the liquid ring moves farther in the middle part and comes closest to the ends of the impeller hub, forming a gas cavity, which reduces the productivity and the maximum vacuum depth of the liquid-ring machine.

The prototype is a liquid-ring machine containing a housing, end caps with discharge and suction windows for the gas medium and an eccentric shaft mounted on which the impeller is located, channels for supplying additional fluid to the zone where the liquid ring leaves the impeller hub, located between the injection and suction windows (US 5290152 A, 03/01/1994. F 04 C 7/00).

The disadvantage of this design is that the additional supply of working fluid through a special device built into the housing structure is carried out in the zone of increased hydraulic pressure, which leads to additional energy costs and lower efficiency of the machine.

The technical task is to create a structure, during which the flow of the gas medium from the injection to the suction cavity is reduced through the zone of liquid ring exit from the impeller hub, enclosed between the discharge and suction windows, by supplying additional working fluid directly to the zone of liquid ring exit from the working hub wheels, which allows to increase productivity, the depth of the ultimate vacuum and the efficiency of the liquid-ring machine.

The solution to the technical problem lies in the fact that in a liquid-ring machine containing a housing, end caps with discharge and suction windows for a gas medium and an eccentric shaft mounted on which the impeller is located, channels for supplying additional working fluid to the liquid ring exit zone from the hub of the impeller, enclosed between the discharge and suction windows, according to the invention, the channels are made in the end caps and in the hub of the impeller.

The drawing shows the design of a liquid ring machine.

The liquid ring machine comprises a housing 1, end caps 2 with discharge and suction windows for the gas medium and an eccentricity shaft 3, on which the impeller 4 is located. Moreover, the impeller and end caps have channels 5. The fluid is supplied through the channels to impeller hub.

The liquid ring machine operates as follows.

In the established mode of operation, an additional supply of working fluid is carried out through the channels 5 through the channels 5, which compresses the liquid ring to the impeller hub, eliminating the transition of the gas medium from the injection to the suction cavity, which allows to increase productivity, maximum vacuum depth and the efficiency of the liquid ring machine.

Claims (1)

A liquid-ring machine containing a housing, end caps with discharge and suction windows for the gas medium and an eccentric shaft mounted on which the impeller is located, channels for supplying additional working fluid to the zone where the liquid ring leaves the impeller hub, located between the discharge and suction windows, characterized in that the channels are made in the end caps and in the hub of the impeller.