RU2459979C1 - Compressor - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: compressor comprises stator 6 with inlet and outlet branch pipes and rotor with spiral diaphragms. Body of stator 6 is shaped to cone. Rotor shaft is made up of propeller shaft with four-way joints 8, 9 rotated by carrier 4 with guide slide 11. detachable sand accumulator.

EFFECT: simplified design, power savings.

5 dwg

Description

The invention can be used for pumping and pumping gas containing sand, coal dust, etc. (for example, with the mine method of oil, coal, etc.).

A known pump containing a stator with inlet and outlet pipelines, a rotor with a spiral diaphragm, a drive connected to the rotor shaft and installed in eccentricity housings, a casing located between the rotor and the stator, the inner surface of which is constantly in contact with the outer edge of the diaphragm (see US 2401189 A, 05/12/1996, F04C 2/107).

The known pump has limited applicability and high friction of the spiral diaphragm on the casing. In addition, the pump has a complex structure.

A well-known pump-compressor containing a spiral diaphragm made conical and elastic, a rotor shaft mounted in eccentricity housings with the possibility of rotation in the stator holes and fixations in two opposite positions in the inlet and outlet planes, a casing made rotating and freely located on the bearings ( see RU 2256820 C1, 07.20.2005, F04D 31/02).

The well-known pump-compressor, has the complexity of execution, high energy costs for the rotation of the cylinder inside the housing.

The objective of the invention is to simplify the design, reduce energy consumption.

The problem is achieved in that in the compressor containing the stator with input and output pipelines, the rotor with a spiral diaphragm, according to the invention, the stator housing is cone-shaped, and the rotor shaft is made in the form of a cardan shaft, at the ends of which there are cross-shaped joints rotated by a carrier with a guide a slider, and a removable sand collector is installed below the outlet pipeline.

The compressor comprises a cone-shaped stator with inlet and outlet pipelines. The rotor, made in the form of a horizontal guide with a slider, which is connected by a spherical hinge to a swinging shaft with a node, the output end of which is mounted in the housing by an oscillatory cross-joint. The shaft is equipped with a spiral diaphragm in the form of a cone-shaped spiral tape. The ball end of the shaft has the ability to deviate during rotation of the slide due to centrifugal forces. The compressor can be used for pumping gaseous materials, as well as wide fractions of hydrocarbons.

Figure 1 shows a General view of the compressor with the housing in the context. Figure 2 is the same with the carrier turned 90 °. Figure 3 - the same is rotated 180 °. Figure 4 - the same is rotated 270 °. Figure 5 - the same is rotated 360 °.

The compressor is installed on the bed 1, consists of an electric motor 2 connected by a coupling 3 to a carrier 4 with a cardan shaft 5, which rotates inside the stator housing 6, clamped by bolts 7. At the ends of the cardan shaft 5 there are cross-shaped joints 8, 9. In turn, cross-shaped the hinge 8 is a connecting element of the carrier 4 with the driveshaft 5. The carrier 4, fixed to the coupling 3, is equipped with a guide 10 on which the slider 11 is mounted. The lower end of the housing is equipped with a removable sand collector 12 mounted on the platform 13.

The stator housing 6 has an input 14 and an output 15. A spiral tape 17 is fixed to the shaft by an inner edge 16. The outer edge 18 of the tape 17 is in contact with the inner wall of the stator housing 6.

The compressor operates as follows.

When the motor 2 rotates, the coupling 3 rotates the carrier 4 with a guide 10 and a slider 11 with a ball joint 8, which presses the driveshaft 5 to the inner wall of the stator housing 6, forming closed volumes under the tape. At each turn of the carrier 360 °, the initial volume, being compressed, is released one step lower to the exit.

For each revolution of the engine 2, the driveshaft 5 pushes the volumes coming from the inlet 14 with increasing pressure to the outlet 15. At the same time, sand pours out into the accumulator 12.

The compressor, as having volumetric technology, can be used to evacuate large volumes, and also used as an exhaust fan (volumetric type) to ventilate coal mines from methane with separation of coal dust.

Claims (1)

A compressor comprising a stator with inlet and outlet pipelines, a rotor with a spiral diaphragm, characterized in that the stator housing is conical and the rotor shaft is made in the form of a cardan shaft, at the ends of which there are cross-shaped hinges rotated by a carrier with a guide slider, and lower than the output The pipeline has a removable sand collector.

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