RU164379U1 - SCREW COMPRESSOR - Google Patents

Abstract

1. A screw compressor comprising a conical housing, covers attached by screws to the ends of the conical housing, a conical screw located in the housing, mounted in the housing covers on bearings, suction and discharge openings, characterized in that the housing with an internal conical bore has cavities for cooling circulation liquid, installed in the housing coaxially with the conical bore of the housing, a single-run conical screw with a continuous helical surface along the longitudinal axis, and a single-run conical screw with continuous helical surface along the longitudinal axis has at its top a screw groove with mounted therein a spring-loaded sealing element of self-lubricating composite material ensuring no gap between the wall of the conical bore and a conical auger housing, the wall of the conical bore of the housing has a mirror purity poverhnost.2. The screw compressor according to claim 1, characterized in that the housing with an internal conical bore on the outside has fins for heat removal and air cooling. The screw compressor according to claim 1, characterized in that the screw compressor has a blade fan for cooling the outer part of the housing.

Description

The utility model relates to compressor engineering, can also be used for the manufacture of pumps.

Known single-screw compressor (ed. St. USSR N 375408, F04C 17/08, 1973), containing a housing with suction and discharge pipes and an eccentrically installed circular rotor in it.

The disadvantage of this device is the lack of performance and high noise during operation, large dimensions.

Known screw compressor, comprising a housing, a conical multi-feed screw installed in it with the possibility of axial movement (ed. St. USSR N 641161, F04C 17/16, 1979). The disadvantage of this device is the lack of performance and high noise during operation, large dimensions.

The closest to the utility model in technical essence and the achieved result is a screw compressor (invention No. 2173406, F04D 19/02, F04D 3/02, 09/10/2001) containing a housing, a conical multi-feed screw, an impeller is installed at the inlet end of the screw for forming gas flow to the leading edge of the screws of the screw, and between the screw and the housing there is an insert with four protrusions on the outer surface of an elastic material such as fluoroplastic, providing a minimum clearance between the housing and the screw, while the compressor housing Placed in the receiver through a threaded connection.

The disadvantages of this device are the complexity of the design of the multi-auger screw, the lack of cooling of the housing, not high productivity and the ability to create high pressure in view of the presence of a gap between the housing and the screw.

The objective of the utility model is to eliminate these drawbacks.

The technical result consists in the fact that the screw has a single-entry profile, and the possibility of cooling the casing, increasing productivity and increasing pressure in the screw compressor by installing a seal on the screw surface of the screw is also achieved.

This problem is solved, and the technical result is achieved due to the fact that the screw compressor containing the conical housing, the covers are screwed to the ends of the conical housing, the conical screw located in the housing installed in the housing covers on bearings, the suction and discharge openings, characterized in that the housing with an internal conical bore has cavities for the circulation of coolant installed in the housing coaxially with the conical bore of the housing a single-entry conical screw with a solid screw a surface along the longitudinal axis, wherein a single-run conical screw with a continuous helical surface along the longitudinal axis has a groove on its screw top with a spring-loaded sealing element made of self-lubricating composite material, which ensures that there is no gap between the wall of the conical bore of the housing and the conical screw, moreover, the wall of the conical bore of the body has a mirror-like surface.

The housing with an inner conical bore on the outside preferably has fins 14 for heat removal and air cooling (see FIG. 3).

The screw compressor preferably has a paddle fan for cooling the outer part of the housing (not shown in the drawing).

The design of the screw compressor described above provides a simpler design to manufacture, sufficient cooling of the casing and the necessary seal between the screw surface of the cylindrical screw and the wall of the inner cylindrical bore, which allows you to create a reliable compressor that provides gas compression without loss of performance and final pressure.

The drawing shows a longitudinal section of a screw compressor.

The screw compressor contains a housing with an internal conical bore 1, covers 3, screws 15 attached to the ends of the housing with a conical bore, a conical screw 2 installed coaxially with the internal conical bore, mounted in the covers of the housing 3 on bearings 4, a suction 5 and a discharge hole 6.

The screw compressor housing has cavities for circulating the coolant 7.

The conical screw 2 with a continuous helical surface along the longitudinal axis, has a groove 9 on the top of its helical surface 8, with a spring element 10 installed in it, a sealing element 11 made of self-lubricating composite material (see Fig. 2), ensuring no gap between the wall of the conical bore housing 1 and conical screw 2.

The wall of the conical bore of the casing has a mirror-like surface.

As the rotation drive of the conical screw 2 in the housing with the inner conical bore 1, an electric motor or an internal combustion engine (not shown) is used.

Screw compressor operates as follows.

The conical screw 2, rotating, changes the volume of the suction cavity 12, creating a pressure difference with respect to atmospheric and sucks the compression medium into the suction cavity 12 through the suction hole 5, which is compressed in the inter-turn space 13 of the tapering, inner conical bore of the housing 1 and the conical screw 2. The compressed medium leaves through the discharge opening 6 to the consumer.

The performance of the screw compressor depends on the volume of the suction cavity and the number of revolutions of the engine, and the degree of increase in pressure of the screw compressor depends on the change in the volume of the inter-turn space of the tapered, the internal conical bore of the body and the conical screw and the engine power.

Claims (3)

1. A screw compressor comprising a conical housing, covers attached by screws to the ends of the conical housing, a conical screw located in the housing, mounted in the housing covers on bearings, suction and discharge openings, characterized in that the housing with an internal conical bore has cavities for cooling circulation liquid, installed in the housing coaxially with the conical bore of the housing, a single-run conical screw with a continuous helical surface along the longitudinal axis, and a single-run conical screw with continuous helical surface along the longitudinal axis has at its top a screw groove with mounted therein a spring-loaded sealing element of self-lubricating composite material ensuring no gap between the wall of the conical bore and a conical auger housing, the wall of the conical bore of the housing has a mirror surface clean. 2. The screw compressor according to claim 1, characterized in that the housing with an internal conical bore on the outside has ribs for heat removal and air cooling. 3. The screw compressor according to claim 1, characterized in that the screw compressor has a blade fan for cooling the outer part of the housing.

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