SU1337139A1 - Filter - Google Patents

Abstract

The invention relates to the field of purification of liquid and gaseous media from ferromagnetic impurities and the separation of these media. It can be used, for example, in metallurgy to enrich blast furnaces with oxygen and to expand its functionality. In the filter, in addition to trapping impurities, air can be separated into nitrogen and oxygen due to the fact that the magnetic core is made in the form of thick-walled bushings with through holes around the perimeter, mounted on the shaft and equipped with a spacer ring with a diffusion partition. An impurity collection bin and scrapers are hardened between the sleeves. 2 ill. With X) h | Yeo

Description

113

The invention relates to filtering devices for liquid, gaseous substances, for example, enriching air with oxygen, and can be used in metallurgy to enrich blast furnaces with oxygen, heat and power engineering, and other industrial areas.

The purpose of the invention is to enhance the functionality.

1 shows a filter, a perspective view; Figure 2 is the same longitudinal section.

The filter contains a saline coil 1, closed at the ends by flanges 2, thick-walled bushings: left 3 and right 4, on the end internal surfaces 5, with different magnetic polarity of the order of 2 t, radial grooves 6 connected to openings 7 trunnions 8, diamagnetic tube 9 with holes 10 and plug P. Along the transverse axis of the solenoid between sleeves 3 and 4, a diamagnetic skirt 12 with an adjacent overflow chamber 13, discharge nozzles 14 and 15, diffusion partition 16, resistant sleeve 17 are installed.

Figures 1 and 2 show a magnetic field 18 formed by ferromagnetic bridges 19.

The filter works as follows.

The air flow is fed into the tube 9. Through the holes 10 it enters the space bounded by the end surfaces of the 5 sleeves 3 and 4, where oxygen is attracted to the surface with the N-pole, and nitrogen to the surface with the S-pole. The floccules formed from the external magnetic field 18 (the bond between the oxygen and nitrogen molecules) at the surfaces 5 are mechanically destroyed due to the different rotational speeds of the sleeves 3 and 4 with the formation of new ones, in which the oxygen will shift to the N-pole, and the nitrogen - to the S-pole.

The separated molecules along the radial grooves 6 and the holes 7 under excessive pressure are directed to the area of space limited by

392

solenoid bushings 3 and 4 and flanges 2, and then through the discharge pipes 14 and 15 - to the consumer.

Together with air, magnetic particles enter the zone bounded by surfaces 5, which form ferromagnetic bridges 19 in a magnetic field. To clean them, the sleeves 3 and 4 rotate the scraper and remove them through the bypass chamber 13. To completely clean the scraper and end surfaces ferromagnetic particles solenoid after an interval of 1.5-3.0 minutes off for a duration of v 0.1 s.

To reduce the diffusion mixing of nitrogen with oxygen, a diffusion wall 16 is installed.

The proposed filter improves filtration performance by using a scraper, which removes ferromagnetic particles simultaneously with filtration.

Claims (1)

Invention Formula A filter comprising a housing with inlet and outlet connections, a magnetic system made in the form of a solenoid coil placed outside the housing and a ferromagnetic core mounted inside the housing, which is characterized by the fact that it is equipped with a shaft to expand its functionality performed in the form of two thick-walled bushings mounted on the shaft, and a spacer ring of diamagnetic material installed between the bushings, a partition mounted on the ring in the center of the gap between the bushings, the bushings With perimeter through holes and radial grooves on the end surfaces of the sleeves facing one another, the shaft is made in the form of a pipe of diamagnetic material, the middle part of which is located between the sleeves, is perforated, and the filter is equipped with an impurities collection bin and scrapers installed between the sleeves. four romagnetic particles Ferromagnetic particles Figg L 13 5 7 115 pg Editor I. Casard Compiled by O. Symonenko Tehred L. Oliynyk Order 4074/10 Circulation 51 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 Proofreader M. Sharoshi