RU112186U1 - DEVICE FOR MAGNETIC PROCESSING OF WATER SYSTEMS - Google Patents

Abstract

1. A device for magnetic treatment of water systems, characterized in that it contains a body with grounding, in which the internal and external magnetic circuits are located, equipped with an electromagnetic coil with a power supply unit and connected by a conductive bracket, while between the internal and external magnetic circuits there is a working channel with inlet pipes and the outlet of the water system to be treated, made in the form of a tubular coil made of non-ferromagnetic material. ! 2. The device according to claim 1, characterized in that the coil is made in the form of a spiral with tightly packed turns. ! 3. The device according to claim 1 or 2, characterized in that the coil is made with round turns, while the inner and outer magnetic circuits are made in the form of hollow cylinders. ! 4. The device according to claim 1 or 2, characterized in that the coil is made with zigzag turns, while the inner and outer magnetic circuits are made of plate, repeating the contours of the coil. ! 5. Device according to claim 1, characterized in that the coil is made of plastic.

Description

The utility model relates to the field of non-reagent treatment of water systems, namely, to magnetic or electromagnetic treatment of liquids, and can be used for technological processes that require the prevention of scale formation, in particular, in thermal power plants, boiler houses, heat supply systems, etc.

A device for treating water with a magnetic field / Certificate RU for utility model No. 19382, C02F 1/48, 2001 /. The known device comprises a housing made of diamagnetic material with nozzles for supplying and discharging the treated water system, an internal magnetic circuit made in the form of a hollow cylinder, external magnetic circuits made in the form of separate sections, each of which consists of a W-shaped core of an armored type having external and central cores between which shunt inserts made of a material with high magnetic field resistance are located, pole pieces and magnetizing coils, sections are located in the same or more tiers adjustment body, each of which comprises at least two sections. The processed water system through the inlet pipe is sent to the working gap of the device.

The main disadvantages of the known device are the low degree of anti-scale treatment, as well as the complexity of the design and high metal consumption.

A device is known for magnetic treatment of water systems, comprising a diamagnetic body with nozzles for supplying and discharging the treated water system, with external magnetic circuits and a hollow internal magnetic circuit equipped with ferromagnetic partitions to form a labyrinth type passage (working channel). / Patent RU No. 2223235, C02F 1/48, 2002 /.

The disadvantages of the known device are structural complexity, high metal consumption, large dimensions and insufficiently high degree of anti-scale treatment.

A device for the magnetization of liquids and gases / Copyright certificate SU No. 344879, B01D 35/06, 1972 /. A known apparatus includes a housing, an electromagnet with a core made of ferromagnetic material, and a tubular coil mounted on an electromagnet coil, which can be connected to a source of direct or alternating electric current.

The main disadvantage of the known device is that when the coil is worn on a coil through which liquid is passed, the magnetic field from the outside is dispersed in the surrounding space and does not concentrate within the coil, which prevents an increase in the degree of anti-scale treatment.

The technical result from the use of the proposed device is to increase the efficiency of anti-scale treatment of water systems of various compositions and reduce the metal consumption of the device while increasing its compactness.

The technical result is achieved due to the fact that the device for magnetic treatment of water systems contains a body with grounding, in which the internal and external magnetic circuits are located, equipped with an electromagnetic coil with a power supply and connected by a conductive bracket, while a working channel with nozzles is located between the internal and external magnetic circuits inlet and outlet of the treated water system, made in the form of a tubular coil of non-ferromagnetic material.

Preferably, the coil is made in the form of a spiral with tightly laid turns.

The technical result is also achieved due to the fact that the coil is made with round turns, while the internal and external magnetic circuits are made in the form of hollow cylinders.

The coil can also be made with zigzag coils, while the inner and outer magnetic cores are plate-like, repeating the contours of the coil.

The technical result is also achieved due to the fact that the coil is made of plastic.

The device is illustrated by drawings.

Figure 1 - schematically shows a vertical section of a device for the magnetic treatment of water systems; figure 2 is a side view of the device.

A device for processing water systems (FIG. 1 and FIG. 2) consists of a housing 1 with grounding 2, in which the internal 3 and external 4 magnetic circuits are located. An electromagnetic coil 5 with a power supply unit 6 is located in the upper part of the internal magnetic circuit 3, which is connected via an conducting bracket 7 to an external magnetic circuit 4. Between the magnetic circuits 3 and 4 there is a working channel 8 with nozzles for supply 9 and outlet 10 of the treated water system, made in the form of a tubular coil made of non-ferromagnetic material, for example, plastic.

The device operates as follows.

The water system to be treated is fed through the supply pipe of the treated water system 9 to a tubular coil of the working channel 8, located between the internal 3 and external 4 magnetic circuits in the housing 1 with grounding 2. After applying an electric current to the electromagnetic coil 5 through the power supply unit 6 with the participation of a conductive bracket 7, an electromagnetic field is formed between the external and internal magnetic circuits, which acts on the treated water system flowing through the working channel 8. The processed water system passes the working channel 8, where it is exposed to an electromagnetic field created due to the design features of the device for processing the water system. As it passes through the working channel 8, the treated water system becomes magnetized and acquires anti-scale properties.

The implementation of the working channel 8 in the form of a tubular coil in the form of a spiral with tightly laid turns of a round or zigzag shape allows you to increase the residence time of the treated water system in the treatment zone, significantly reducing the dimensions of the device, and the execution of the working channel 8 of non-ferromagnetic material, for example, plastic, reduces metal consumption of the device.

The implementation of the working channel 8 in the form of a tubular coil in the form of a spiral with tightly laid turns allows you to increase the duration of the electromagnetic field on the water system being processed by increasing the path length, which leads to an intensification of the crystallization of scale salts and an increase in the degree of anti-scale treatment.

When performing a coil with round coils, the internal and external magnetic circuits are made in the form of hollow cylinders, and when performing a coil with zigzag coils the internal and external magnetic circuits are plate-like, repeating the contours of the coil.

The proposed design of the coil provides a smooth laminar motion of the water system during processing, which prevents the crushing of conglomerates of scale salts already formed under the influence of electromagnetic fields, which in turn contributes to their maximum release from the water system, for example, by subsequent filtering.

Processed in the device, the water system from the working channel 8 through the branch pipe 10 is diverted to the consumer, for example, in a heat supply system.

Thus, the proposed device for processing water systems allows us to solve the complex problem of reducing its size (increasing compactness) and metal consumption while increasing the degree of anti-scale treatment, which will increase the life of various technological equipment, in particular, in thermal power plants, boiler houses, and heat supply systems etc.

Claims (5)

1. A device for the magnetic treatment of water systems, characterized in that it contains a body with grounding, in which there are internal and external magnetic circuits, equipped with an electromagnetic coil with a power supply and connected by a conductive bracket, while between the internal and external magnetic circuits there is a working channel with supply pipes and removal of the treated water system, made in the form of a tubular coil of non-ferromagnetic material. 2. The device according to claim 1, characterized in that the coil is made in the form of a spiral with tightly laid turns. 3. The device according to claim 1 or 2, characterized in that the coil is made with round turns, while the internal and external magnetic circuits are made in the form of hollow cylinders. 4. The device according to claim 1 or 2, characterized in that the coil is made with zigzag coils, while the inner and outer magnetic circuits are plate-like, repeating the contours of the coil. 5. The device according to claim 1, characterized in that the coil is made of plastic.