RU1827484C - Magnetopowder seal operation simulator - Google Patents

Abstract

SUMMARY OF THE INVENTION: a movable sample in the form of a hollow cylinder and a stationary sample are mounted relative to each other with a guaranteed working gap in which the magnetically active material is placed. The fixed sample is made in the form of outer and inner rings of magnetic material mounted in a mandrel of non-magnetic material perpendicular to its end surface, with magnets placed between them. A shoulder is made on the end surface of the outer ring, covering the cylindrical surface of the movable sample to its middle. On the inner surface of the shoulder there is a protrusion directed towards the movable sample. An annular groove is made at the base of the shoulder. 1 wp, Gil. sl c

Description

The invention relates to a sealing technique and can be used in testing magnetic particle seals.

The purpose of the invention is to improve the performance of a device for simulating the operation of magnetic particle seals by changing the design of the outer ring.

The height of the outer ring is due to the following features: firstly, the length greater than the middle of the movable sample practically does not affect the operation of the proposed device; secondly, if the length is less than the middle of the movable element, the device does not provide reliable retention of the magnetically active material near the friction zone.

The drawing shows a section of both samples. A fixed sample consists of an inner 1 and an outer 2 rings made of magnetic material. Wherein,

both rings are 4-5 mm higher than the permanent magnets 3 located between rings 1 and 2 to create a reserve of the studied (used) magnetoactive material 4. Both rings 1 and 2 are pressed onto a mandrel 5 made of a non-magnetic material, for example, titanium alloy VT-22, while the outer part of the outer ring 2 is made in height to about the middle of the movable sample 6 and is equipped with a shoulder 7 directed to the side of the latter. An annular groove 8 is made at the main collar for collecting magnetic material 4. The movable sample 6 is made in the form of a hollow cylinder.

The device operates as follows. A fixed sample is mounted on a friction machine. The magnetically active material 4 is poured onto the permanent magnet 3. The magnetoactive material 4 is studied (investigated). On top, with a predetermined guaranteed gap, set

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movable (rotating) sample 6. Turn on the friction machine and set the specified sliding speed (rotation) of the movable sample 6. Upon reaching a certain, so-called Yaritic sliding speed, at which the centrifugal force from the rotation of the movable sample b exceeds the magnetic force of interaction (attraction) of the material 4 with magnets 3, particles of material 4 fly out of the friction zone, hit the elongated part of ring 2 and collar 7, and, under the influence of gravity, sink into the annular groove 8, specially made for collecting material 4 magnetically.

During tribological testing, the friction coefficient, i.e. evaluate anti-friction properties. After completion of the tests, the weight or linear wear of the movable sample 6 is measured.

Claims (2)

1. A device for simulating the operation of magnetic particle seals containing a movable sample in the form of a hollow cylinder and a fixed sample mounted relative to each other with a guaranteed working gap, in which a magnetically active material is placed, characterized in that it is provided with a mandrel of non-magnetic material, the fixed sample is made in the form of the outer and inner rings of magnetic material installed in the mandrel perpendicular to its end surface, with magnets placed between them, while and the end surface of the outer ring shoulder is formed, covering the cylindrical surface of the specimen to its middle, and the inner shoulder surface is formed a projection directed towards the movable sample. 2. Device pop 1, characterized in that on the end surface of the outer ring at the base of the shoulder is made of an annular groove. .S ".