SU1435823A1 - Rotary compressor - Google Patents

Abstract

The invention makes it possible to increase the feed rate and reduce the power consumption of a compressor with a rolling rotor. In case 1 with a cylindrical bore 2, a shaft 3 with an eccentric 4 is placed. A rotor 5 is mounted on the shaft 3 through an intermediate ring 6. On the inner cylindrical surface of the ring 6 there is a groove 7 in the form of an annular sector filled with liquid. A slot 8 is fixed in a groove 7 with a gap, rigidly fixed on the eccentric 4. A separator plate 11 is installed in the radial groove of the housing 1. At the initial stage of compressing the hydraulic resistance force to the movement of the blade 8, the rotor 5 is depressed, which reduces the mechanical losses. In the pumping section, the forces of hydraulic resistance increase the pressure of the rotor 5. 3 sludge.

Description

6 5

F

(L

four

SO eaten

00

Yu

00

/five

9g.1

The invention relates to mechanical engineering, in particular to rotary compressors with a rolling rotor.

The aim of the invention is to increase the feed rate and reduce power consumption.

FIG. Figure 1 shows an isometric projection compressor; in fig. 2 - compressor at the time of compression of the working medium, the cross section; in fig. 3 - the same as in the implementation of the suction cycle. : A rotary compressor consists of a casing 1 with a cylindrical bore 2, in which a rolling rotor 5 is mounted on the shaft 3 with an eccentric 4. The rotor 5 is mounted through an intermediate ring 6, on its inner cylindrical surface a groove 7 is made in the form of an annular sector, in which the blade 8 is fixed with a gap, rigidly fixed on the eccentric 4. Suction 9 and discharge 10 windows are made in the case and spring-mounted separation plate 11 is installed. From the ends, the compressor is equipped with lids 12 and 13. Stu.

The compressor works as follows.

When the shaft 3 rotates with the eccentric 4, the rotor 5 rolls along the cylindrical surface 2. The angle; OiO203 between the axis of rotation O | shaft 3, the axis Oa of the eccentric 4 and the axis Oz of the rotor 5 due to the displacement of the center O of the cylindrical bore 2

0

0

five

0

the housing 1 from the axis of rotation Oi of the shaft 3 is not constant. This leads to a periodic angular displacement of the intermediate ring 6 relative to the eccentric 4 and the displacement of the blade 8 in the groove 7 with the liquid. At the initial stage of compression, when a 90-270 °, the strength of hydraulic resistance to the movement of the blade 8 in the groove 7 reduces the pressure of the rotor 5 to the housing 1, which leads to a decrease in mechanical losses. At the site of injection of the working medium, when a is 270-360 °, the forces of hydraulic resistance increase the pressure of the rotor 5 to the body, which leads to an increase in the feed ratio of the compressor.

Claims (1)

Invention Formula A rotary compressor, comprising a housing with a cylindrical bore, in which a rolling rotor is mounted on an eccentric shaft through an intermediate ring, a dividing plate installed in the radial groove of the housing, the shaft being displaced relative to the axis of the housing bore, characterized in that feed ratio and reduction of power consumption, on the inner cylindrical surface of the intermediate ring there is a groove in the form of an annular sector filled with liquid, and the eccentric The shaft is provided with a rigidly connected blade placed in a groove with a gap. OS Phage.Z