SU685337A1 - Electromagnetic separating filter - Google Patents

Description

(54) ELECTROMAGNETIC FILTER-SEPARATOR

I

The invention relates to the field of operation of hydraulic systems, in particular to the technique of cleaning the working fluids of hydraulic systems from ferromagnetic particles.

A filter separator for cleaning fluid from ferromagnetic particles is known, which includes a housing with inlet and outlet pipes and a tray for removal of separated particles and an electromagnetic system arranged in the form of a rotor 1 located eccentrically inside it on the shaft

The disadvantage of this filter is the impossibility of separating fine particles from the liquid entrained by the fluid flow in the space between the body and the flow divider, the limited use of the filter of low viscosity fluids.

The aim of the invention is to increase the degree of purification.

The goal is achieved by the fact that the housing is provided on the outside with an additional electromagnet.m installed between the outlet branch pipe and the tray for removal of the separated particles, the shaft is provided with a collector for turning off the windings of the electromagnetic system in its lower part installed on the outside of the case radial slots provided with spring-loaded vanes abutting the inner wall of the housing.

It is preferable to provide the filter separator with a scraper abutting the rotor and located in front of the tray to discharge the separated particles.

In addition, it is preferable to form blades of diamagnetic material.

Such an embodiment of the filter ensures the rotation of the electromagnet due to the energy of the liquid being cleaned, the cleaning of the surface of the rotating electromagnet and the removal of the selected particles outside the working area where there is no contact of the particles and the fluid flow.

FIG. 1 shows a filter; cross section; in fig. 2 shows section A-A in FIG. one.

Claims (3)

The filter consists of a housing 1 having nozzles for supplying a liquid 2 for discharging the cleaned liquid 3 and a tray 4 for discharging the separated particles. The nozzles 2 and 3 are located below the axis of the shaft 5 in order to increase the 11, 0 tsad11 of the interaction of the flow of the cleaned fluid with the surface of the growing electric system 6, which is mounted on the shaft 5 eccentric to the axis of the corius. E, one electromagnetic system 6 is made in the form of a rotor with radial grooves, in which the diamagnetic blades 7, abutting into the inner wall of the case under the action of springs 8. A collector 9 is mounted on the shaft 5 on the shaft 5, made in such a way that the windings of the electromagnetic system 6 in its lower part, between the inlet 2 and the outlet, the ndim 3 branch pipes are always disconnected, creating a non-working zone. From the outside of the housing between the discharge pipe 3 and the tray for removal of the separated particles 4, an additional electromagnet 10 is located. / In order to remove particles from the surface of the rotating electromagnetic system 6, not separated by the electromagnet 10, the shield 11 is operated. The contaminated fluid from the hydraulic system under a certain pressure enters the filter through the nozzle 2, acts on the diamagnetic blades 7, rotates the electromagnetic system 6 and moves in the gap between the KopiiycoM 1 and the rotating electromagnetic system 6. The ferromagnetic particles in the fluid network are under by the action of a magnetic field, during a period of time when the liquid travels the distance from the nozzle 2 to the nozzle 3, it is deposited on the surface of the electromagnetic system 6 under the influence of the magnetic force of attraction. The purge fluid is discharged through the pipe 3, and the settled particles move further along with the rotating electromagnetic system 6. The passage of the discharge pipe 3, the windings of the electromagnetic system b are turned off by means of the collector 9 rotating together with the shaft 5 and remain disconnected while the lower part of the electromagnetic system b between the outlet 3 and the inlet 2 branch pipes, creating a non-working area of the rotating electromagnetic system b. At the moment the windings are turned off, ferromagnetic particles located on the surface of the rotating electromagnetic circuit 6 fall into the magnetic field of electromagnet 10 and under the action of magnetic attraction forces settle on the inner surface of the housing 1, from where they are cleaned with diamagnetic blades 7 into the cavity of the tray 4 to remove the separated particles. Particles which for some reason are not separated from the surface of the electromagnetic system b in the magnetic field of the electromagnet 10, clean the tray 4 to remove the separated particles with a scraper 11. Tray 4 is connected to a drive (not shown in the figures) where the separated ferromagnetic particles are collected. If others are present in the liquid along with ferromagnetic particles, then a mechanical filter can be installed in series with the electromagnetic separator filter to stop them. Thus, the proposed electromagnetic filter separator increases the efficiency of the release of ferromagnetic particles from a liquid, eliminating the need for an external drive rotation. The use of an electromagnetic filter separator in the hydraulic system will increase the reliability and durability of the elements of the hydraulic drive. Claim 1. Electromagnetic filter separator for cleaning liquid from ferromagnetic particles, including a housing with inlet and outlet nozzles and a tray for removal of the separated particles and an electromagnetic system located eccentrically inside it on the shaft, made in the form of a rotor, characterized by that, in order to increase the degree of cleaning, the housing from the outside is provided with an additional electromagnet installed between the discharge pipe and the tray for removal of divided particles, the shaft is provided with a collector for opening li ne electromagnetic coil system in its bottom part and a rotor formed with radial grooves provided with spring loaded blades, upirayuschimis the inner wall of the housing. 2. The filter separator according to claim 1, characterized in that it is provided with a scraper abutting against the rotor and located in front of the tray to discharge the separated particles. 3. The filter separator according to claim 1, characterized in that the blades are made of a diamagnetic material. Sources of information taken into account in the examination 1. Copyright certificate № 384548, cl. At 03 On 1/10, 1973. Yu rig A ft.