SU1105474A1 - Apparatus for magnetic treatment of liquid media - Google Patents

Abstract

1. MACHINE FOR MAGNETIC TREATMENT OF GOSCHK (G MEDIUM, containing a cylindrical body with inlet and outlet nozzles, a solenoid outside the body and a cylindrical core installed inside the body, which is installed with the possibility of longitudinal movement, in order to increase the processing efficiency of liquid media and reduce time for cleaning the core from contamination, the device is provided with an inlet diaphragm-spreader with holes around the circumference, a receiving diaphragm with a central hole, a transition disc with a polo hub and with holes around the circumference, an additional disk with a central hole, a shaped bend with a sealed cover on the end and a set screw for fastening the core, the latter being solid, with rectangular projections on the ends, while the input aperture spreading valve and the receiving aperture installed between the inlet pipe and the housing, the molded elbow between the outlet pipe and the housing, the adapter and supplementary disks in the molded elbow, the set screw in the hollow hub of the adapter disk and in contoured knee, 2. Apparatus pop, 1, characterized in that, in order to improve the performance of the apparatus by providing in it in the longitudinal direction constant velocity and fluid pressure, the total area of the orifice of the spreading diaphragm, the total area of the aperture ring backfire 4 bark between the screw and the additional disk are equal to each other. H i4

Description

The invention relates to magnetic processing of liquid and gaseous media, in particular, devices for magnetic treatment of water. A device for magnetic treatment of liquid media is known, comprising a cylindrical body with an inlet of 1-1.1 m and outlet nozzles, a solenoid outside the body and a cylindrical core installed inside the body, the front end of which is provided with a C 1 3 fairing. The disadvantage of such a device is the small magnitude of the magnetic field gradient and the need for adjusting the throughput when installed in a pipeline, as a result, the cleaning efficiency of such a device is low. The G1 closest to the present invention is an apparatus for magnetic treatment of liquid media containing a cylindrical body with inlet and outlet nozzles, a solenoid outside the body, and a cylindrical core installed inside the body, the front end of which is facing the inlet nozzle and provided with a baler, while the core is hollow, has perforated side walls and an open rear end, connecting nenny with an outlet 2. A disadvantage of the known device is the low cleaning performance due to insufficient magnitude magnetic field strength due to the use of hollow core Furthermore, the gradient zone in the path of fluid flow is small. The magnetic field is concentrated at the tip of the core, which comes in contact with a small portion of the treated fluid. During operation, the precipitated fraction remains on the perforated walls of the core and closes the holes in them. i The aim of the invention is to increase the processing efficiency of liquid media and shorten the time for cleaning the core from contamination, as well as improving the performance of the apparatus by providing in the longitudinal direction constant velocity and pressure of the fluid. . The goal is achieved by

that the apparatus for magnetic processing of liquid media, containing a cylindrical body with an inlet and outlet nozzle, gasket 20, an installation screw 21, one end of which is threadedly connected to a transition disk and camp, a cylindrical core mounted outside and inside the body, installed with the possibility of longitudinal alternation; It is equipped with an inlet diaphragm spreading device with holes along the circumference, a receiving diaphragm with a central hole, a transition disk with a hollow hub and holes with a circle, in addition A central disk with a central hole, a shaped bend with a sealed cover on the end face and a set screw for fastening the core, the latter being made solid with rectangular projections on the ends, with the entrance diaphragm-spreader and the receiving diaphragm installed between the inlet branch pipe and the body, the shaped bend - between the outlet pipe and the casing, the adapter and additional discs - in the shaped elbow, the set screw - in the hollow hub of the adapter disc and in the shaped elbow. In addition, the total area of the orifice of the diaphragm-spreading device, the orifice area of the receiving diaphragm, the total area of the aperture of the transition disk and the area of the annular gap between the screw and the additional disk are equal to each other. FIG. 1 shows the apparatus, section; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. one; in fig. 4 is a view of B in FIG. 1. The apparatus includes a housing 1 with flanges 2 and 3. Outside the housing there is a solenoid 4, and inside there is a one-piece magnetic steel core 5, at the ends of which are rectangular projections 6. The inner walls of the housing 1 and the surface of the core 5 form a working space 7. From the entrance to the working space there is an adapter 8 with a flange 9, between which and the housing flange are placed sealing gaskets 10, a diaphragm-spreading valve 11 with openings 1 2 and a receiving diaphragm 13 with an opening 14. From the exit side of the liquid from the working space There is a shaped elbow 15, inside which the adapter disk 16 and disk 17 are installed, the disk 16 is made with holes 18, the disk 17 with a central hole 19, the sealing 3110 core, and the second with the adjusting nut - the steering wheel .2. To prevent self-unscrewing of the adapter disk and the handwheel nut, locknuts 23 and 24 are fitted. Shaped 4kg. But equipped with a quick-release cover 25, a sealing gasket 26 and an outlet nozzle 27. The solenoid is supplied with an electric current with a voltage of 220 V through a socket 28 (dual) with flat pins with a grounding contact, rated current 10 A. The apparatus for magnetic cleaning of liquid media works as follows, L (the liquid enters the non-magnetic adapter 8 (inlet) and through the orifice plate spreader 11 through the holes. 12 enters the receiving screen 13, and the flow direction changes twice at an angle of 90, and through the opening 14 enters the working space 7, washing the end of the core 5 with the protrusions 6. Then the liquid, washing the rear end of the grooved core 5, goes to the transition disk 16, the flow direction being twice changed by 90. The total cross-sectional area of the openings 12 is equal to the area OT of versty 14, and also the cross-sectional area of the opening of the inlet nozzle. The total area of the cross-section of the holes 18 is equal to the area of the hole 19, and also the cross-sectional area of the opening of the inlet nozzle. As a result, the flow rate and fluid pressure in the apparatus are constant. Purified liquid flows from the apparatus through the shaped bend 15 and nozzle 27. When electrical current is applied to the coil of the solenoid 4, the core 5 is magnetised and in the working space 7 a magnetic field is formed whose lines of force have the greatest concentration and curvature at the ends of the core 5. Rectangular protrusions 6 are natural magnetic field concentrators and create an additional magnetic field gradient. Since all the details of the device, except for the core, are made of a non-magnetic material, the pocket between the diaphragm 11 and the receiving diaphragm 13, as well as the pocket between the back. the end face of the core and the transition bottom-. com 16 are permeated by a magnetic field with a significant gradient. The fluid to be cleaned is directed by the diaphragms 11 and 13 and the transition disk 16 that has flowed through. These pockets, through the protrusions 6, intersect the magnetic field, and the lines of force at an angle of 90 ° are exposed to a magnetic field having a significant gradient. In this case, precipitation may precipitate, which settles on the edges of the protrusions 6. Periodic cleaning of the protrusions 6 from the sediment is performed manually with the lid 25 removed and the screw 21 removed with disks 16 and 17 and the core 5. Making the heart slick whole magnetizes its entire magnetic mass before induction of saturation, which achieves the maximum possible magnetic field in the working space, which is the vector sum of the field created by the solenoid and the field of the magnetized core. The presence of a spreader diaphragm and receiving diaphragm as well as transition discs in the device allows the flow of fluid to be perpendicular to the magnetic power lines, which leads to an increase in the flow path of the liquid in a magnetic field with gradient zones and the duration of the magnetic field on the liquid. In this case, the particles of the contaminants are exposed to a magnetic field with a maximum normal component, which provides an increase in the force of attraction of the particles to the solid core. The implementation of rectangular protrusions on the ends of the core leads to the formation of natural gradient zones. The liquid to be cleaned, the leakage through the protrusions, is exposed to a magnetic field, a magnetic force acts on the soil particles, which attracts them to the edges of the protrusions, resulting in the deposition of soil on the ends of the core. At the same time, the sedimentation surface increases by a factor of 15–20 compared with the known G2 apparatus. The set screw and quick-release lid allow periodically to quickly remove the core, clean it of sludge and set it to its original operating position. The shaped elbow ensures the flow of purified liquid into the receiving pipeline.

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Udyarit allows you to carry out discharges, for example, for cleaning liquid media from hard water salts with ultrapowered water at Washing Machine, ferromagnetic fractions and other glass containers, for cleaning waste inclusions, as well as magnetic treatment

The invention will find a wide range of- $ wine-vodka materials and clarification.

Drinking in food and other healthy fruit juices.

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Claims (2)

1. MACHINE FOR MAGNETIC PROCESSING OF HIDK! MEDIUM comprising a cylindrical body with inlet and outlet nozzles, a solenoid located outside the body and inside the body of a cylindrical core mounted with the possibility of longitudinal movement, characterized in that, in order to increase the efficiency of processing liquid media and reduce the time for cleaning the core from contamination, the apparatus is equipped with • diaphragm inlet diaphragm with holes • on the circumference, inlet diaphragm with central hole, adapter disk with a hollow hub and with holes in the circle, additional an additional disk with a central hole, a shaped elbow with a sealed cap at the end, and a set screw for fixing the core, the latter being made continuous with rectangular protrusions at the ends, while the input diaphragm-spreader and the receiving diaphragm are installed between the inlet pipe and the housing, the shaped elbow is between output pipe and housing, transitional and additional disks - in the shaped elbow, set screw - in the hollow hub of the transitional disc and in the shaped elbow g. 2. The device pop. 1, characterized in that, in order to improve the operating characteristics of the apparatus by ensuring that the fluid velocity and pressure are constant in it in the longitudinal direction, the total area of the holes of the diaphragm-spreading device, the area of the opening of the receiving diaphragm, the total area of the annular gap between the screw and the additional disk are between themselves. > 1 1105474