SU1605065A2 - Labyrinth seal - Google Patents

Abstract

The invention relates to a sealing technique, can be used to seal rotating shafts, for example, in pump engineering and allows to simplify the design. Sealed shells are made of different thickness, which leads to a decrease in the number of pressure pulsators to one. The optimum ratio of the frequencies and amplitudes of pressure fluctuations in the pressure cavities is provided by selecting the ratio of the thicknesses of the sealed enclosures in the various pressure cavities. Hermetic shells can also be made of materials with different modulus of elasticity. The thickness or modulus of elasticity of the material of the sealed enclosures may increase as the pressure cavity moves away from the sealing pressure zone. 1 hp f-ly, 1 ill.

Description

The invention relates to a sealing technique, can be used to seal rotating shafts, and is an improvement of the invention according to the basic author. St. No. 898198.

The purpose of the invention is to simplify the labyrinth seal design.

The drawing shows a labyrinth seal, a slit.

The labyrinth seal comprises a shaft 1, a shaped body 2 having zones 3 and 4 of constriction and flow expansion. Each zone 4 is provided with a pressure cavity 5 and is separated from it by an airtight shell 6 of elastic material, the thickness of the shell 6 increases as the expansion zone moves away from the area of compacted pressure. In addition, each pressure chamber 5 communicates via channel 7 with a pressure pulsator (not shown).

Seal works as follows.

If it is necessary to increase the sealing efficiency, a control pressure is applied to the pressure cavities 5, under the influence of which the elastic shell 6 deforms, which leads to a change in the size and shape of the expansion zone 4, moreover will differ from each other. The connection of the pressure cavities 5 with a pressure pulsator leads to a pulsating change in the shape and size of the expansion zones of various frequencies and amplitudes. In this case, energy is supplied from an external source to the flow of the working medium through a mechanical effect on the flow, which causes an increase in the hydraulic resistance of the labyrinth seal; The proportion of mechanical energy supplied to the flow in this zone of expansion, as well as the frequency and amplitude of the pressure pulsations, are determined by the thickness of the elastic shell (elastic modulus of the shell material).

Claims (2)

Invention Formula I. Labyrinth seal on author. St. No. 898198, characterized in that, with the aim W Od about SP about a SP NJ simplifying the design of the seal; hermetic casings of elastic material made of different thickness or with different elastic moduli; and the pressure cavities communicated with the pressure pulsator. 2. Compaction according to claim 1, characterized in that the thickness or elastic modulus of the material of the sealed shells increases as the pressure cavity moves away from the zone of compacted pressure.