SU1212971A1 - Device for magnetic treatment of liquids - Google Patents

Description

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The invention relates to the magnetic treatment of liquids and can be used to intensify various technological processes, for example, to prevent scale on the heating surfaces of heat exchangers, wastewater treatment, etc.

The purpose of the invention is to increase e productivity and processing efficiency.

Figure 1 shows a device for magnetic treatment of a liquid, a slit; figure 2 - section aa in Fig .; FIG. 3 is a diagram of the connection of a device with a transformer,

The device consists of an outlet nozzle 1, a three-phase winding 2, a fixed rotor 3, a housing 4, a magnetic circuit of the stator 5, an inlet nozzle 6, a sealed chamber 7 placed between the rotor and the stator rotor-fixing posts 8, the switch 9, the primary 10 and the secondary 11 windings of the transformer 12, three-phase rectifier 13 with zero voltage 14.

The hermetic chamber 7 is formed by the surface of the rotor 3, the body 4 and the pipes 1 and 6. The FOTOP is made of magnetic material, the body is made of plastic or non-magnetic material. The rotor 3 is fixed in the stator 5 by means of racks 8. The winding leads 2 of the stator are embedded in insulated grooves and connected to the star on one side, and the neutral wire 14 is connected to the zero of the secondary winding 11 of the transformer 12. Secondary stator winding leads are connected to the cathodes of the diodes the three-phase rectifier 13, and the anodes of the three-phase diode diodes 13 are connected to the three terminals of the winding 11 of the transformer 12 and the primary winding is connected to the three-phase network. Rotor and Sta712

The torus is mounted at a distance smaller than the distance between adjacent stator slots. The stator windings are three-phase with an even number of poles and are connected to the network via a one-full-period rectifier with a zero point and an isolation transformer.

The device works as follows.

The processed fluid enters through the nozzle 6 into the sealed chamber 7, which is formed by the surface of the rotor 3 and the non-magnetic body 4. The stator winding 2 is laid in the slots of the stator 5, made of electrical steel. The winding is performed on the number of slots P

 2 n, where n 1, 2, 3, ... etc.

When one three-phase rectifier 13 is turned on by rectifying the network, a pulsating current passes through the winding, shifted in time by 120, which allows a unidirectional pulsating magnetic field in the gap between the stator 5 and the rotor 3 to move a fluid flow perpendicular to the flow whereby the fluid is subjected to intensive treatment. On the other hand, the fluid passes through one section and undergoes uniform processing. Efficiency and productivity increase due to the fact that the fluid passes through a constant cross section with a uniform magnetic field and undergoes uniform processing. In addition, the rotary field rotates in space, perpendicular to the flow of the fluid, at a speed of one to two orders of magnitude higher than the movement of light, which makes it possible to maximize

fluid velocity.

121297 g

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Editor I. Derbak

Soetavitel L, Akhmetova

Tehred O. Vashchishin Proofreader E. Syrohman

718/32 Circulation 865 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., d, 4/5

Branch PGS Patent, Uzhgorod., St. Project, 4

Claims (2)

1. DEVICE FOR MAGNETIC TREATMENT OF A LIQUID, containing a rotor, a stator with a magnetic system located in its grooves, nozzles for draining and supplying the processed fluid and a sealed chamber located between the rotor and the stator, characterized in that, in order to increase productivity and processing efficiency, stator windings are made three-phase with an even number of poles and connected to the network through a half-wave · zero-point rectifier and an isolation transformer. 2. The device according to claim 1, characterized in that the rotor and the stator are installed at a distance less than the distance between adjacent grooves of the stator.