SU661182A1 - Shaft magnetic fluid sealing - Google Patents

Description

one

The invention relates to magneto-fluidic seals used for sealing mobile connections in vacuum technology drives, cryogenic fittings, chemical engineering.

A magnetic fluid seal is known, which contains an outer ring, inside which is an inner ring that is mounted concentrically with the outer one. The inner ring is installed with a gap relative to the outer and is movably connected to it. A magnet is mounted in the gap between the rings, which is attached to the outer ring. The tips of the magnet are adjacent so that there are gaps between them and the inner ring, into which magnetic fluid 1 is entrained.

The disadvantage of this seal is the inability to seal the shafts with reciprocating motion, since when the shaft leaves the seal, magnetic fluid is carried along with the shaft from the sealing zone and the seal is depressurized.

The purpose of the invention is to seal the shafts with reciprocating and rotational motion.

This goal is achieved due to the fact that the pole pieces are equipped with ball bearings interacting with the shaft, and the sealing block has an elastic sheath, one end of which is fixed to the block and the other end to the body.

Claims (2)

The drawing shows the proposed seal. It consists of an annular permanent magnet I, installed with a gap relative to the shaft 2. Two pole tips 3 are adjacent to the end surfaces of the magnet, on the surface of which the annular grooves are made. The magnet 1 with pole tips is placed in the sleeve 4 with a key 5 on the outer surface. Pole tips 3 are supported by shoulders on spherical supports 6, fastened by separators 7 and held by axial retaining rings 8 from axial movement on the shaft. The shell 10 is fastened to the housing with the aid of a lining 11 and bolts 12. The outer diameter is sealed by an elastic sheath, and by a shaft by a magnetic fluid filling the gap between the permanent magnet and the shaft, as well as the grooves of the pole pieces. During operation, the shaft rotates in the ball bearings relative to the stationary sealing block and provides a reliable seal. When there is a reciprocating movement, the shaft, moving with the sealing block, stretches or compresses the elastic sheath. In this case, the shaft does not move relative to the pole pieces and the removal of magnetic fluid from under them does not occur, i.e. the seal is leak proof. The same thing happens for the case of combined movement (rotation with reciprocating movement). The use of this seal allows to significantly increase the tightness of the assemblies in the combined movement, their performance in comparison with other known types of seals. The advantage of such a compaction is the extremely low leakage of the working medium, which is part of the compaction of the gel 10. The installation of several sealing blocks significantly increases the reliability and service life of the seal, and allows an increase in the value of the allowable pressure drop and the length of the translational path. Magnetic-Fluid Shaft Seal, made in the form of a sealing unit installed in the housing, including a permanent magnet, placed between the pole pieces, forming a cavity with the magnetic fluid in the shaft, characterized in that in order to ensure the control of the shaft and reciprocating and rotational movement, the pole pieces are equipped with ball bearings interacting with the shaft, and the sealing unit has an elastic sheath, one end of which is fixed to the block and the other end to orpusu. Sources of information taken into account in the examination 1. US Patent No. 3620584, cl. 308-1871,1972.