RU190731U1 - SEAL FOR GAS COMPRESSORS - Google Patents

Abstract

The utility model relates to the sealing technique and can be used to seal the cylinder of gas compressors. The oil seal for gas compressors contains a flange and a cylinder with chambers mounted in series with studs in them, three of which contain sealing and closing rings, fitted with spring rings and connected in pairs through a pin, and in the remaining chambers, choke bushings are installed, and the sealing rings and choke sleeves are made of anti-friction graphite. This result is that the gasket for gas compressors contains a flange and a cylinder with casings connected in series with studs connected to the studs, three of which contain sealing and closing rings fitted with spring rings and connected in pairs through a pin. The remaining chambers are equipped with throttle bushings, and the sealing rings and throttle bushings are made of antifriction graphite. 3 il.

Description

The invention relates to the sealing technique and can be used to seal the cylinder of gas compressors.

The closest solution to the claimed utility model is a gas compressor seal that contains at least one sealing chamber placed in a separate housing and containing a split sealing ring, the segments of which are tightened by a spring ring, and a cut closing ring, the segments of which are also tightened by a ring the spring, sealing and closing rings in each sealing chamber are fixed among themselves by a pin, while the composition of each sealing chamber additionally includes a stop to ltso, it fixed to the housing with screws and guides the sealing ring is urged by at least one point by a spring (see. Russian patent №2561960, IPC F16J 15/00, F04D 29/08, publ. 2015).

However, the disadvantage of the prototype is a small service life of the gland due to the high temperature on the sealing rings at shaft speeds above 1000 rpm.

The task was to increase the service life of the gland.

The problem is solved by the fact that in the gland for gas compressors, containing a flange and a cylinder with casings connected in series with studs connected to them, three of which contain sealing and closing rings equipped with spring rings and connected in pairs through a pin, according to the utility model, In the remaining chambers, choke bushings are installed, and the sealing rings and choke sleeves are made of antifriction graphite.

The technical result of the claimed utility model is to increase the service life of the gland.

The essence of the utility model is illustrated in the following graphics.

FIG. 1 shows the gland diagram; in fig. 2 - sealing ring; in fig. 3 - closing ring.

The gland (Fig. 1) contains a flange 1, the body of the chambers 2, 3, 4, 5, 6 and 7, connected in series by studs 8. In chambers 5 and 6, the bushings 9 are throttle, and in the chamber 7, the bushings 10 are throttle. In each of the remaining chambers, a sealing ring 11 and a closing ring 12 are installed. Chamber 2 is located in flange 1, the remaining chambers 3, 4, 5, 6 and 7 are located in separate housings so that the end of the previous body closes the chamber of the next body, and sealed additionally from gas leaks with rubber rings 13. Cases of chambers 2, 3, 4, 5, 6 and 7 are assembled on flange 1 and secured with three studs 8 and nuts 14. The gland is installed in the cylinder body 15 and sealed with a gasket 16, and a stem is placed inside the gland 17. Each chamber contains connected m a forward seal 11 and closing ring 12 in a pair via the pin 18. The flange 1 is situated nipple 19 for discharging gas from the gland.

Sealing ring 11 (Fig. 2) consists of half-rings 20, sectors 21 and ring-spring 22, which holds the half-rings 20 and sector 21 together and mutually moves them when the friction surface is worn.

The closing ring 12 (FIG. 3) consists of half-rings 23 and a spring-ring 24. The sealing ring 11 and the closing ring 12 are connected by a pin 18 so as to cover the sealing ring slots from the end face. The material of the rings is anti-friction graphite, AG-2500-С05, which has a low coefficient of thermal expansion and a very good heat transfer coefficient of 81 W / m⋅ ° K. The optimal height h of the rings is 4.5 mm, since the height of the ring proportionally affects the friction force and reduces the friction temperature of the rings on the rod 17.

The device works as follows.

Sleeves 9 and 10 throttles throttle the compressed gas and remove heat from the gas and stem 17 to the glands 5, 6 and 7. Sealing and closing rings 11 and 12 and the rod 17 receives less hot gas, which reduces the temperature in a pair of friction rings 11 and 12 and the rod 17. The gas pressure closes the ring 12 presses the sealing ring 11 to the end of the chamber. Heat from the friction pair is transferred from the sealing ring 11 to the corresponding chamber and further to the cylinder 15. The cylinder 15 may be cooled by water or air.

Claims (1)

An oil seal for gas compressors, containing a flange and a cylinder with casings connected in series with studs connected to them, three of which contain sealing and closing rings, fitted with spring rings and connected in pairs through a pin, characterized in that the rest of the chambers are fitted with throttle bushings moreover, the sealing rings and choke bushings are made of anti-friction graphite.

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