SU1642160A1 - Magnetic liquid shaft seal - Google Patents

Abstract

Invention m b. used in mechanical engineering for compacting rotating shafts of machinery and equipment. The purpose of the invention is to simplify the design and increase the reliability of the magnetic-liquid sealing. Cuff 1 is installed in case 8 Cuff 1 is made two-edged with sealing and protective edges 4. 2. A permanent magnet 6 is installed on cuff 1 in a cavity formed by edges 2.4, filled with magnetic fluid 7. Surface of magnet 6 from the side of the shaft 5 is made concave. In the case of minus trs, the elasticity of the rubber edges 2, 4 is lost, while the liquid 7 retains its sealing properties. 1 il.

Description

The invention relates to a sealing technique and can be used in mechanical engineering to seal rotating shafts of machinery and equipment.

The aim of the invention is to simplify the design of the seal and increase its reliability.

The drawing shows the seal in the section.

The magnetic-fluid seal contains a rubber-reinforced cuff 1 with a protective edge 2 and a working edge 4 pressed to the shaft of the bracelet spring 3, located in the cavity between edges 2 and 4 concentric with the sealable shaft 5 magnet 6 and ferromagnetic fluid 7. The dimensions and shape of the profile of the magnet 6 correspond to the cavity profile between the edges of the cuff. The inner surface of the magnet 6 facing the shaft 5 is made concave to accommodate ferromagnetic fluid 7 in it. The cuff 1 is installed in the housing 8. The magnetic flux closure from the magnet 6 occurs through the sealing shaft 5 and the ferromagnetic fluid layer 7 in the gap between the magnet and the shaft .

During operation, the magnetic fluid 7 is entrained by the rotating shaft 5. It is evenly distributed in the cavity between the edges 2 and 4 around the circumference and held in it by the magnetic field of the magnet 6. Due to the concave inner surface of the magnet 6, which forms the magnetic field hubs, under the action of centrifugal forces, the ferromagnetic fluid 7 is assembled in the center of the gap between the magnet 6 and the shaft 5 and forms here a compacted layer with enhanced penetration stability and reliability. The contaminated external environment containing water, dirt and solid inclusions does not directly affect the ferromagnetic fluid layer and does not destroy

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it, because it is protected by a rubber protective edge 2. At low temperature, when rubber edges 2 and 4 lose their elasticity and do not provide the required tightness of the seal, ferromagnetic fluid 7, which is stable in its properties to a temperature of -50 ° C, retains its sealing action. Thus, the reliability of the magnetic-liquid compaction is increased when it is operated in polluted media and under conditions of subzero temperatures.

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Claims (1)

Magnetic-liquid shaft seal containing a cuff, an annular permanent magnet installed in the housing, and a magnetic fluid, characterized in that, in order to simplify the sealing design and increase its reliability, the cuff is double-edged with sealing and protective edges. the cuff in the cavity formed by the edges of the cuff, which is filled with magnetic fluid, its surface on the side of the shaft is made concave. at