SU670334A1 - Apparatus for magnetic treatment of liquid - Google Patents

Description

one

The invention relates to the field of industrial water treatment and can be used in heat and power, chemical, food, and other industries in order to prevent scale formation in heat exchange equipment.

A known apparatus for magnetic treatment of a liquid, comprising a ferromagnetic body with -caps, an electromagnetic system containing coils and a core with pole pieces enclosed in a non-ferromagnetic casing and cooled system 1.

A disadvantage of the known apparatus is the lack of oil circulation in the electromagnetic system of the apparatus, which makes it difficult to remove heat during its operation. Under these conditions, the temperature of the wire of the coils, the core and the pole pieces of the electromagnetic system, and oil increases, especially when processing fluids with elevated temperatures. This leads to a change in the electrical resistance of the coils, the magnetic parameters of the core and pole pieces, the magnitude of the current, the magnetizing force, the strength of the magnetic field in the treatment area, etc. Overheating of the electromagnetic system is possible and, as a result, the period of its operation decreases.

The aim of the invention is to increase the reliability of the apparatus due to intensive heat removal.

The goal is achieved by the fact that

the cooling system is made in the form of an axial channel located in the core, a flexible pipe connected to the upper part of the axial channel, a non-ferromagnetic tubular rack with radial holes connected to the lower part of the axial channel, the electromagnetic system located at a distance from the non-ferromagnetic leatherette and fitted with centering non-ferromagnetic discs with slots along the edges.

It is preferable to perform centering discs with an external diameter equal to the inner diameter of the casing and a large outer coil and pole

tips

FIG. 1 depicted - en unit for magnetic treatment, incision; on phpg. 2 is a view along arrow A in FIG. one.

Apparatus for magnetic processing l-; liquid from the ferromagnetic body 1, having a nozzle 2 inlets and a nozzle 3 of the output of the treated liquid, and is equipped with a bottom cover 4 and an upper cover 5. The nozzles are attached in the side

apparatus tangentially to the body that

provides a twist of fluid flow in the treatment area and thus increases the path and processing time of the liquid. The location of the nozzles in the side of the apparatus also makes it possible to reduce the dimensions of the apparatus and to simplify the maintenance of its electromagnet system.

A non-ferromagnetic casing 6 is placed in the casing, which is fixed from the radial displacement by the shell U to the bottom cover of the apparatus. Between the housing and the Housing there is an annular channel 8 for the cooling of the treated liquid.

In the casing between the lower and upper cavities 9 and 10, filled with transformer oil, there is an electromagnetic system of the apparatus, consisting of a ferromagnetic core AND with zero tips and 12 and a roller 13. The core Has an axial channel 14 for oil supply into the lower cavity. A flexible pipe 15 is connected to the upper part of the channel, through which a pipe 16, located on the top of the apparatus, supplies oil from the discharge pipe to the apparatus.

The axial displacement of the electromagnetic system is limited by the tubular stand 17, which has radial holes 18 for the passage of oil and is retained on the bottom of the casing by the shell 19.

The alignment of the electromagnetic system is carried out by discs 20 that have slots on the edges for the passage of oil. Between the electromagnetic system and the casing there is an annular channel 21 for the passage of oil from the bottom to the top.

On the top cover of the apparatus there are nozzles 22 for outputting the wires of the coils of the electromagnetic system and the nozzle 23 for withdrawing transformer oil.

During the operation of the apparatus, the treated liquid is introduced through the nozzle 2 into the apparatus, passes through the annular channel and, where it is processed by a magnetic field, is removed from the apparatus through the nozzle 3.

The cooling of the electromagnetic system of the apparatus is carried out by means of oil, the cooled oil is supplied from the discharge pipe through the Ibno pipe to the flexible pipe 15, channel 14, and the tubular rack 17 with radial holes 18 in the lower cavity 9 and out through the annular channel 21 into the upper cavity

10, and then through the pipe 23 of the apparatus.

With a small temperature

the natural circulation of the oil as described above, the circulation circuit, can be applied. For this, the pipes 16 and 23 are closed, and the flexible pipe 15 is removed. The use of oil circulation in a magnetic fluid processing apparatus reduces the heating of the coil wire, core and pole pieces of an electromagnetic system, especially when processing a fluid with elevated temperature. This makes it possible to stabilize the electrical resistance of the coils, the magnetic parameters of the core and pole pieces, the magnitude of the current, the magnetizing force, the strength of the processing magnetic field, etc. In addition, the possible overheating of the electromagnetic system is eliminated and the service life increases.

Claims (2)

1. An apparatus for magnetic treatment of a liquid, comprising a ferromagnetic body with covers, an electromagnetic system containing coils and a core with pole pieces, enclosed into a non-ferromagnetic housing and cooling system, characterized in that, in order to increase the reliability of the apparatus by intensive heat removal, the cooling system is designed as an axial a channel located in the core, a flexible pipe connected to the upper part of the axial channel, a non-ferromagnetic tubular rack with radial holes, connected to the lower part of an axial hole. the channel, with the electromagnetic system located at a distance from the non-ferromagnetic casing and provided with centering non-ferromagnetic disks with a slot along the edges. 2. An apparatus according to claim 1, characterized in that, in order to provide a constant gap between the casing and the electromagnetic system, the centering disks are made with an outer diameter equal to the inner diameter of the casing and a large outer diameter of the coils and pole pieces. Sources of information taken into account at the examination 1. USSR author's certificate L 306873, cl. In the OZS 1/08, 1974. - 2