DE202011004495U1 - Plant for the magnetic treatment of liquid, in particular of water - Google Patents

Abstract

Plant for the magnetic treatment of liquid, in particular of water, equipped with a body covered with a removable cover, inlet nozzle and outlet nozzle and a package of annular permanent magnets, characterized in that an open top inner body (7) in the middle part of an outer body (1) is attached and between them a provisional, annular flow chamber (1 ') is present, to the lower part of the inflow pipe (5) and the discharge nozzle (6) are connected, wherein the ratio of the diameter dn of the inflow pipe (5) and the diameter Dn of the outer body (1) is from 0.25 to 0.35, and on the outer surface of the inner body (7) is mounted a skeleton structure (9) together with an assembly of magnets constituting a magnetic package consisting of the annular ones Permanent magnet (10) is constructed, the at least two pairs of oppositely polarized pole pieces N and S represent with each of these pairs rotated 90 ° from the previous pair.

Description

The subject of the invention is a plant for magnetic treatment of liquid, in particular of water and its solutions, in particular for the magnetic removal of impurities which occur in the flow of a circulation liquid, mainly in heating and cooling systems, as well as for the magnetic modification of their physicochemical properties.

Various constructions of systems for magnetic filtration or for modifying the magnetic properties of liquid are known, including the water and its solutions using permanent ring and / or cylindrical magnets which are located directly in the flow of circulating liquid.

In the design of these plants, the general principle is that the flow of the flowing liquid is normally oriented towards the cylinder surface of the magnets, whereas the surface of the base is usually adapted for the purposes of assembly into corresponding sections / packages.

From the Polish Patent Specification No. 114283 a construction of a liquid processing plant using the magnetic field is known, which is equipped with an assembly of ring magnets separated by pole pieces in the form of ferromagnetic rings. These magnets are suspended in a housing in the form of a cylindrical ferromagnetic body about an axially disposed ferromagnetic cylinder.

In the Polish Patent Specification No. 165816 the construction of a system for the purification of water in the form of a closed, cylindrical container has been disclosed in which a vertical magnetic insert is arranged under a paramagnetic filter, which is constructed of attached to the paramagnetic support structure ring magnet. A vertical paramagnetic barrier, at least half the height of the magnetic insert, is placed in front of the inlet of the system.

The Polish description of the protection law No. 63527 shows the construction of a magnetic settling vessel, which includes a covered with a lid body having in the upper part of an inlet and outlet nozzle. These nozzles are arranged radially opposite one another. In the middle part of the body is an insert, which is equipped with Verteilfächern, to which permanent magnets are attached. The construction of the above-mentioned plants is with the method of constructing labyrinth structures and their shape for flowing stream of fluid in axially symmetric magnetic field to achieve optimal conditions of change of the magnetic properties of the liquid or the location of the magnetic package within the plant and optionally with their mutual orientation to each other to increase the effectiveness of the function of the process of magnetic filtration connected.

The invention relates to a system for the magnetic treatment of liquid, in particular of water, equipped with a body with removable lid, inlet and outlet nozzles and with a package of annular permanent magnets.

The essence of the invention is that in the middle part of an outer body an open-topped inner body is arranged and between them a preliminary, annular flow chamber is located. To this chamber in the lower part of an inflow and outflow nozzle are attached, wherein the ratio of the diameter of the inflow nozzle and the outer body of 0.25 to 0.35. Mounted on the outer surface of the inner body is a skeletal structure including an assembly of magnets constituting a magnetic package constructed of the annular permanent magnets forming at least two pairs of oppositely polarized pole pieces N and S, each of these pairs opposite the preceding pair turned 90 °.

Preferably, the spout represents the extension of the inner body and its diameter is equal to the diameter of this body.

In the system according to the invention, an outer chamber, in which there is a filter, which is preferably provided with slots, attached to the cover of the system by means of a flange separable.

The design solution according to the invention has many advantages, thanks to the appropriately selected and oriented magnetic field correlated with a correspondingly selected velocity and flow direction of the liquid flow in the magnetic field, since it enables the magnetic treatment of the liquid to such a level as to allow the flow of the liquid through heat exchange surfaces allowed without leaving any superfluous deposits. The mutual orientation of the magnets ensures a multiple change in the sense of direction of the force-lines of the magnetic field, which acts on the flow of fluid, in proportion to the number of pairs of ring magnets and the multiple Re-magnetizations whose number is twice as large as the number of pairs of ring magnets used.

In the solution according to the invention, the filtration of the liquid stream for the ferromagnetic particles and the other paramagnetic or diamagnetic impurities forming on their surface takes place in the form of agglomerates, mainly of calcium carbonates.

The object of the invention is illustrated by means of embodiments in the drawings, in which 1 shows a longitudinal cross-section of the system according to the first embodiment of the invention, which was guided in the axis of the connection supports, 2 the cross section of the plant as in 1 , according to the second embodiment of the invention, 3 shows the longitudinal cross-section of the system according to the second embodiment of the invention, which was guided perpendicular to the axis of the terminal supports, and 4 the cross-section of the system according to the invention shows.

How it works 1 is shown, the system for magnetic treatment of the liquid, in particular the magnetic filter activator according to the invention, from the cylindrical body of the outer body 1 in the upper part with the flange 2 ends, on the cover with the help of a quick connector 3 including the vent pipe 4 is attached. In the middle part of the body of the outer body 1 with diameter D _n is the inner body 7 used with diameter d _n , so in the system, the annular flow chamber 1' for the treated fluid that forms too 4 is visible. The ratio of the diameters d _n / D _n is in the range of 0.25 ÷ 0.35. In the lower part is the outer body 1 with the radially arranged inlet nozzle 5 and the coaxial with him outlet 6 , which is the corresponding extension of the inner body 7 represents, as well as with the drain neck 8th fitted. The diameter of the inlet nozzle 5 is the diameter of the inner body 7 equal. The on the side of the outer body 1 constructively opened main part of the inner body 7 is with the on its outer surface and coaxial with the inner body 1 separably mounted skeleton construction 9 equipped with the oriented and permanently mounted to them annular permanent magnet 10 , represents a fast demountable axial magnet package. This package is made of the ring-shaped permanent magnets 10 constructed of at least two pairs of oppositely polarized pole pieces N and S and wherein each of these pairs is rotated relative to the preceding pair by an angle of 90 °. It has the maximum developed area for sorption of deposits in the so-called "magnetic traps" PM made of the annular permanent magnets oriented in the manner described above 10 exist, and those at the diamagnetic skeletal structure 9 attached to the magnetic package.

On 2 and 3 the second embodiment of the invention is shown according to the on the flange 3 with the help of the flange 11 using a quick connector, the outer chamber 13 with the vent pipe 14 is attached. The outer chamber 13 occurs as additional equipment only in the case of optional application in the filter activator of the slit filters 12 on, on the inlet of the liquid in the cylindrical inner body 7 was mounted.

In the invention, the connection of two processes, ie the filtration and magnetic activation takes place by way of the circulation flow of the liquid to the inlet nozzle 5 through the chamber 1' from its bottom up towards the outlet to the chamber 7 and then in the reverse direction from top to bottom in the inner body 7 in the direction of the outlet nozzle 6 , The liquid in ring chamber 1' is subject to the process of magnetic filtration, whose products in the magnetic traps PM thanks to correspondingly adapted flow rate of the liquid Vd in the region of the invention oriented annular permanent magnetic elements 10 to get stopped.

The liquid flows after passing through the entire height of the magnetic packet in the diamagnetic inner body 7 , In the in 2 As shown solution, the liquid flows through the slotted filter 12 , changes in its direction of flow in the reverse direction and after changing the flow rate up to the value of Vn it is subject to the process of actual, multiple magnetic field activation, with force lines that are perpendicular to their flow direction and by the magnetic packet of the previously realized process of Filtration are produced, but without possibility of accumulation on their inner surface of any deposits.

Which is directly on the magnet 10 As well as in the magnetic traps PM accumulating deposits must be removed periodically. The cleaning operation of the magnetic packet is associated with periodic dehermetization of the system. After removing the lid 3 the magnetic packet can be taken out freely for its flushing, for example with a jet of tap water. After cleaning, the magnetic packet is again on the inner body 7 Fixed where after hermetic sealing of the installation by means of a cover 3 his further operation can take place.

The situation is similar in the situation when the system is additionally equipped with the slotted filter, with the difference that instead of the lid 3 the chamber 13 is removed. Then it gets out of the inner body 7 the slot filter 12 and disassembled the magnetic package and after their cleaning of deposits they are reassembled in reverse order.

In the construction of the plant according to the invention, this plays axially on the inner body 7 arranged magnetic packet at the same time the role of the magnetic filter for through the chamber 1' flowing fluid flow, the fluid flow passing through the inlet port 5 the chamber 1' fed and through the outlet pipe 6 out of the chamber 1' completely dissipated in the process of magnetic filtration, which in the free deposition primarily of ferritic particles and then the particles crystallizing thereon, such as calcium carbonate, thanks to the optimal use of the maximum permissible flow rate of the liquid V _d = ( 0.3-0.6) V _gr in the magnetic field. V _gr is the limit flow velocity of the liquid in the magnetic field, beyond which there is no deposition of liquid-separated ferromagnetic particles on the pole pieces of a given magnetic field.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• PL 114283 [0004]
• PL 165816 [0005]
• PL 63527 [0006]

Claims (3)

Plant for the magnetic treatment of liquid, in particular of water, equipped with a body which is covered with a removable cover, inlet nozzle and outlet nozzle and a package of annular permanent magnets, characterized in that an open top inner body ( 7 ) in the middle part of an outer body ( 1 ) and between them a preliminary, annular flow chamber ( 1' ), in the lower part of the inflow pipe ( 5 ) and the drainage nozzle ( 6 ), wherein the ratio of the diameter d _{n of} the inflow nozzle ( 5 ) and the diameter D _{n of} the outer body ( 1 ) of 0.25 to 0.35 and on the outer surface of the inner body ( 7 ) a skeletal structure ( 9 ) is mounted together with an assembly of magnets which constitutes a magnetic package consisting of the annular permanent magnets ( 10 ) constituting at least two pairs of oppositely polarized pole shoes N and S, each of which is rotated 90 degrees from the preceding pair. Installation according to claim 1, characterized in that the outlet nozzle ( 6 ) an extension of the inner body ( 7 ) and its diameter is equal to the diameter of this body. Installation according to claim 1, characterized in that an outer chamber ( 13 ) on the lid ( 3 ) of the plant by means of a flange ( 11 ) is releasably attached, in which a filter, advantageously a slot filter, is arranged.

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