RU2372135C1 - Device for extraction of magnetic particles from liquid medium - Google Patents

Abstract

FIELD: cleaning.

SUBSTANCE: invention relates to field of magnetic cleaning of process liquids (PL), lubricating fluid (LF), cleaning solutions and can be used at metal-working manufacturings at treatment of metals by pressure, cutting and rolling. Device includes vertical casing in the form of elongate parallelepiped with distributors of flow and with magnetic system, system of regeneration washout. Device is additionally outfitted by insertions, separating inner volume of casing for working and inactive areas. Magnetic system is implemented in the form of pipes with placed in it constant annular magnets, alternating to balls, forming local magnetic system with length, equal to length of working area, and non-magnetic insertions, separated by balls. Straight sections of pipes of magnetic system are connected to each other by radial pipe bends herewith the end of the first section of pipe through radial pipe bend is connected to beginning of following straight section of pipe, by this, forming continuous single contour. Inner part of pipes of magnetic system and radial pipe bends if filled by liquid filler with less friction ratio. In device it is provided ability of placement inside pipes of constant annular magnets, balls and non-magnetic insertions by means of actuating mechanism for value, equal to length of working area. Actuating mechanism is implemented in the form of linear drive.

EFFECT: productivity improvement of cleaning device, design simplification of cleaning device and reduction of its cost, effectiveness increase of washing.

4 cl, 4 dwg

Description

The invention relates to the field of magnetic cleaning of process fluids (TFA), cutting fluids (coolant), washing solutions and can be used in metal processing industries for metal forming, cutting and rolling.

A known device "Magnetic filter separator" (see AS No. 915897. CL. B01D 35/06, B03C 1/00. Publ. March 30, 1982 Bull. No. 12), which consists in the fact that the removal from fluid of magnetic inclusions is carried out by deposition of the latter on magnetic rods located coaxially with the movement of the liquid being cleaned, and regenerative flushing of magnetic inclusions deposited on magnetic rods is carried out by a fluid head directed perpendicularly to the magnetic rods from pipes located coaxially around the magnetic rods.

The reasons that impede the achievement of the technical result indicated below when using the known device include the fact that the liquid being cleaned is separated in the filter housing in a turbulent mode, which significantly reduces the quality of its cleaning, and the regenerative flushing of magnetic inclusions deposited on the magnetic rods is carried out by the fluid pressure directed perpendicular to the magnetic rods of pipes arranged coaxially around the magnetic rods, is not very effective due to the fact that the main flow itself is regenerative onny fluid in the housing is directed axially down the magnetic rods. In this case, the main flow of the regeneration fluid changes the flushing force vector, and thus the removal of magnetic inclusions from the magnetic rods is not completely ensured.

In addition, the design of the known device does not allow the use of powerful magnets, magnetic rods of considerable length, and also to arrange magnetic rods close to each other, since magnetic forces due to different polarity contribute to the attraction of magnetic rods to each other, and ultimately "sticking together »Them among themselves.

These circumstances drastically reduce the quality of the cleaning fluid and limit the performance of the cleaning device.

The essence of the invention lies in the fact that the housing of the device is made in the form of an elongated parallelepiped and is additionally equipped with inserts that divide the internal volume of the housing into working and non-working zones, and the magnetic system is made in the form of tubes with permanent ring magnets located in them, alternating with balls forming a local magnetic a system with a length equal to the length of the working area and non-magnetic inserts separated by balls, while the possibility of moving permanent ring magnets inside the pipes a, non-magnetic beads and inserts by the actuator by an amount equal to the length of the working area, wherein the actuator may be formed as a linear drive.

In addition, the straight sections of the pipes of the magnetic system are interconnected by radius bends, and the end of the first straight section of the pipe through the radius bend is connected to the beginning of the next straight section of the pipe, thereby forming a continuous single circuit starting and ending with linear drives.

Radius bends are filled with balls and non-magnetic inserts, and the inner part of the pipe of the magnetic system and radius bends is filled with a liquid filler with a low coefficient of friction.

The inlet and outlet nozzles for the separated liquid are connected to the large side faces of the elongated parallelepiped, and the inlet and outlet nozzles for the washing liquid are connected to the upper and lower faces of the elongated parallelepiped, respectively.

The use of the invention provides the following technical result:

- improving the performance of the cleaning device,

- simplifying the design of the cleaning device and reducing its cost,

- increasing the washing efficiency.

The specified technical result in the implementation of the invention is achieved by the fact that the device for extracting magnetic particles from a liquid medium consists of a vertical housing with flow distributors and with a magnetic system consisting of magnetic and non-magnetic inserts, a regenerative flushing system.

The peculiarity lies in the fact that the device’s casing is made in the form of an elongated parallelepiped and is additionally equipped with inserts that divide the internal volume of the casing into working and non-working zones, and the magnetic system is made in the form of tubes with permanent ring magnets located in them, alternating with balls forming a local a magnetic system with a length equal to the length of the working zone and non-magnetic inserts separated by balls, while it is possible to move permanent ring magnets inside the pipes, ricks and non-magnetic inserts by means of an actuator by an amount equal to the length of the working area, and the actuator can be made in the form of a linear drive.

In addition, the straight sections of the pipes of the magnetic system are interconnected by radius bends, and the end of the first straight section of the pipe through the radius bend is connected to the beginning of the next straight section of the pipe, thereby forming a continuous single circuit starting and ending with linear drives.

Radius bends are filled with balls and non-magnetic inserts, and the inner part of the pipe of the magnetic system and radius bends is filled with a liquid filler with a low coefficient of friction.

The inlet and outlet nozzles for the separated liquid are connected to the large side faces of the elongated parallelepiped, and the inlet and outlet nozzles for the washing liquid are connected to the upper and lower faces of the elongated parallelepiped, respectively.

The analysis of the prior art by the applicant, including a search by patents and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype, as the closest in the set of essential features of the analogue, allowed us to identify the set of essential distinguishing features in relation to the applicant's technical result in the claimed invention set forth in the claims.

Therefore, the claimed invention - a method and apparatus for its implementation - meets the condition of "novelty."

A design of the invention that implements the claimed method is presented in the drawings (Figs. 1-4).

Figure 1 is a longitudinal section of a device in a liquid purification mode.

Figure 2 is a side view.

Figure 3 is a top view.

Figure 4 is a longitudinal section of the device in the washing mode.

The liquid purification device consists of a housing 1 made in the form of an elongated parallelepiped, non-magnetic inserts 2 dividing the inside of the housing into a working 3 and a non-working 4 zone, a magnetic system consisting of pipes 5 with permanent ring magnets 6 located in them, alternating with balls, and non-magnetic inserts 7, separated by balls 8, actuators consisting of hydraulic cylinders 9 and 10, input 11 and output 12 nozzles for liquid separation, input 13 and output 14 nozzles for the regeneration system (flushing) of sludge from the surface of the pipes 5. In the process of cleaning the liquid on the surface of the pipes 5, the sludge is magnetized 16. The casing is equipped with flow distributors 17 and 18, and the pipes 5 are interconnected by radius bends 19. The pipes 5 and radius bends 19 are filled with a small liquid 20 coefficient of friction.

The device operates as follows.

In cleaning mode. The separated liquid is supplied through the inlet pipe 11 to the housing 1 from the side of large faces and passes through the flow distributor 17. The magnetic fluids are cleaned from the fluid during the movement of the latter perpendicular to the axis of the pipes 5 in the working zone 3 of the housing 1 at the speed necessary to attract the magnetic inclusions to the surface of the pipes 5. The purified liquid is drained through the flow distributor 18 and the pipe 12.

In flushing mode. With the accumulation of magnetic sludge 16 on the surfaces of the pipes 5 to a predetermined mass, the operation mode of the device is switched. In this case, the nozzles 11 and 12 overlap, and the flushing fluid is directed through the nozzle 13 and drains through the nozzle 14. At the same time, the hydraulic cylinder 9 biases the magnetic system (consisting of permanent ring magnets 6, non-magnetic inserts 7 and balls 8) located in the pipe 5, thereby removing the magnetic field in the working area 3. As a result of removing the magnetic field, the magnetic slurry 16 is washed off the surface of the pipes 5 and, together with the liquid, is sent for further separation. The fluid velocity in the washing mode should ensure that the sludge 16 is flushed from the surface of the pipes 5.

After washing, the magnetic system by means of the hydraulic cylinder 10 returns to working condition, and the device is switched to the cleaning mode (nozzles 13 and 14 are closed, nozzles 11 and 12 are opened).

In order to reduce the friction of the elements of the magnetic system (ring magnets 6, non-magnetic inserts 7 and balls 8) along the inner surface of the pipe 5 and radius bends 19, the latter are filled with liquid 20 with a low coefficient of friction.

The design of the proposed device allows the use of permanent magnets with a powerful magnetic field and place them close to each other in the pipes 5, without fear of their "sticking" to each other. In the proposed design there are no any elements of the flushing of the sludge from the surface of the magnets during the washing period. The removal of the magnetic field from the surface of the pipes in the working area accelerates the process of removing magnetic sludge in the washing mode.

All this ultimately increases the productivity of the device, simplifies the design, reduces its cost and increases the washing efficiency.

Thus, the foregoing description indicates the fulfillment of the following set of conditions when using the claimed invention:

- a tool embodying the claimed invention, in its implementation is intended for magnetic cleaning of process fluids (TJ), cutting fluids (coolant), washing solutions and can be used in metalworking industries for metal forming, cutting and rolling;

- for the claimed method in the form as described in the claims, the possibility of its implementation using the means and methods described in the application is confirmed;

- a tool embodying the claimed invention in the implementation, is able to ensure the achievement of the perceived by the applicant of the assigned technical tasks. Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (4)

1. A device for extracting magnetic particles from a liquid medium, including a vertical housing with flow distributors and with a magnetic system, a regeneration flushing system, characterized in that the housing of the device is made in the form of an elongated parallelepiped and is additionally equipped with inserts that divide the internal volume of the housing into working and non-working zones, and the magnetic system is made in the form of pipes with permanent ring magnets located in them, alternating with balls forming a local magnetic system with a length equal to nd length of the working zone and the non-magnetic inserts separated beads thus possible to move inside the annular permanent magnets tubes, beads and non-magnetic inserts by the actuator by an amount equal to the length of the working area, wherein the actuator may be formed as a linear drive. 2. The device according to claim 1, characterized in that the straight sections of the pipes of the magnetic system are interconnected by radius bends, and the end of the first section of the pipe through the radius bend is connected to the beginning of the next straight section of the pipe, thereby forming a continuous single contour starting and ending linear drives. 3. The device according to claim 1, characterized in that the radius bends are filled with balls and non-magnetic inserts, and the inside of the pipes of the magnetic system and radius bends are filled with a liquid filler with a low coefficient of friction. 4. The device according to claim 1, characterized in that the inlet and outlet nozzles for the separated liquid are connected to the large side faces of the elongated parallelepiped, and the inlet and outlet nozzles for the washing liquid are connected, respectively, to the upper and lower faces of the elongated parallelepiped.

Images