DE4336388A1 - Liq. esp. water treatment device - has magnetic field-forming plates forming tortuous flow path - Google Patents

Abstract

A liq. (esp. water) treatment device has a flow-through housing (1) contg. a series of spaced plate-like bodies (4,5) which are aligned to oppose the main flow direction and which comprise two alternate sets. One set comprises through-flow bodies (5) which have at least one passage (6) in the region of the main flow direction, have outer edges seated on the housing inner wall (7) and produce magnetic field-forming effects. The other set comprises baffles (4) which divert the liq. flow from the main flow direction towards the housing inner wall (7) and then allow liq. flow to the next through-flow bodies (5). The novelty is that the baffles also produce magnetic field-forming effects and their outer edges are only partially seated on the housing inner wall. USE/ADVANTAGE - Esp. for attachment to a tap to prevent limescale formation in water using or consuming equipment. The device has increased efficiency independent of its size so that it can be dimensioned to meet various requirements while maintaining almost constant scale preventing power.

Description

The invention relates to a device with the in the Oberbe handle of protection claim 1 specified features. Such Device, e.g. B. from the PCT application with the publi Research number WO 84/04294 known, is used in particular for so-called called treatment of water that flows through them and is steered by magnetic fields. This should z. B. the Device downstream water-carrying or consuming directions are protected against calcification (scale).

In the known device, the housing is a straight tube piece, in which several permanent ring magnets coaxial and vertical to its longitudinal axis - and thus also to its main flow direction - are used. They are equal by two each successive non-magnetic spacer rings apart stands. These hold a non-magnetic deflection between them disc that is at a distance from its outer edge a wreath of Has flow openings. Ring magnets, spacer rings and um  Steering discs are each with their outer edge on the housing Inner wall.

The magnetic fields essentially form between each other the facing side surfaces of two adjacent ring magnets from, i.e. through the non-magnetic arranged between them Spacer. Each magnetic field is two, namely once in front of and once after the deflection plate, from the liquid flows through.

This device has a high flow resistance during operation was standing. This contributes to the fact that the ring body of the ring magnets compared to the ring opening width, has very small thickness, so that the diameter of the edge area of the deflection disks arranged flow openings must be small so that the water in front reaching or after passing through them at least one can flow for a short distance along the ring side surfaces the magnetic field between two adjacent ring magnets to be exposed approximately at right angles.

These only short magnetic field effects contribute to an unsatisfactory efficiency of the known device. The efficiency is also worsened by the fact that the magnetic fields forming between the side surfaces of the ring magnets are arranged between them
- non-magnetic - deflection disks.

From a first aspect, the invention addresses the problem reasons, the known device both in terms of their To improve efficiency as well as fluidic. Here These improvements are intended regardless of the size of the front direction, so that this with almost constant performance due to different sizes depending on the application, so be may be adapted to different requirements can.  

The invention solves this problem with the protection claim 1 given characteristics. Advantageous further developments are the subject of subclaims.

Characterized in that in addition to the flow bodies according to the invention magnetic field-forming effects also originate from the deflecting bodies and that the deflecting bodies at most with sections of their outer edge lie against the inner wall of the housing the following advantages:

• - The intensity of the magnetic fields acting in the device is larger because the deflection of the liquid flow to Flow through the magnetic fields - instead of non-magnetic Deflection disks - now with deflection bodies according to the invention magnetic field-forming effect also takes place; thereby exclusively bodies with these magnetic effects in - for the Magnetic field intensity significant - very much shorter from each other Ren intervals are arranged in succession as before; the according to the liquid no longer flows through as before due to their deflection by the deflection plate, the same Magnetic field twice in different directions, but only one more time, one by one.
• - Due to the shorter distances, z. B. with the same overall length, more of these bodies with magnetic effects in a row can be arranged so that accordingly more Form magnetic fields and the liquid flows through them can be, whereby the magnetization kung the device increased.
• - There are now between the formation of the magnetic fields the flow and deflection bodies larger body part surfaces this body opposite because of the flow of the redirected rivers liquid to the subsequent flow body no longer, as with  the known deflection disks, because of the necessary there Spacer rings, at a distance from the inside wall of the housing through a ring of narrow flow openings, but now at least in - largely freely configurable - Sections of the outer edge of the deflecting body between the sem and the housing inner wall is possible; this is the Magnetization exposure path much longer than before, and it can be because of these larger flat sub-areas plate-shaped body a larger magnetic field more homogeneous Train intensity. As a result, the Magnetizing effect of the device, which is known both of the intensity and the homogeneity of one Magnetic field is affected.
• - Since the flow of the liquid in the edge region of a deflecting body to the subsequent flow body takes place at least in sections of the outer edge of the deflecting body, the device can be used, depending on the application, depending on the dimensions thereof, in conjunction with a corresponding dimensioning of the cross sections of the flow openings in the flow bodies different flow rates per unit time are adjusted, because this, due to the now longer magnetizing action distances, there is scope for such adjustments in such an edge area as in the present case;
  larger flow widths of the outer edge sections than the known flow openings in the deflecting rings also reduce the flow resistance of the device directly.
• - With this inventive adaptability of the new front Direction to different flow rates is also one Prerequisite fulfilled for application-related difference Liche sizes of the device.  
• - Because of the favorable flow conditions can correspond with Chender design of the devices, for. B. in the form of Ge winches, also several of these devices, e.g. B. by Ver screw, be arranged one behind the other so that the alternating arrangement of deflection and flow bodies in the sequential devices and so to one Increase the performance of a single device leads to them so z. B. also to different liquids adjust properties.
• - By eliminating the narrow deflection plates and thus the narrow spacer rings holding them small cross-section, which so far helped to prevent flow between the outer edge of these discs and the housing inner wall, there are also new possibilities to fix the inventive steering body in the flow space In order to impair the flow according to the invention in its edge area as little as possible;
  there are now also solutions that enable time-saving pre-assembly of flow and deflection bodies outside the housing.

For a flow that is as unobstructed as possible through optimized Flow conditions is the outer edge of the deflecting body preferably be evenly from the housing inner wall spaced, d. that is, its outer contour is smooth-edged and corresponds completely in the course of the inner contour of the housing. Here the inner contour of the housing can be completely different from the outer contour of the housing deviate, as the latter may meet completely different requirements should. The smooth outer edge so possible can also with regard to the magnetic materials that may be used in the manufacture of these bodies come into use, be of importance. On the other hand, a  such a smooth edge also fixation of the body in the Simplify the flow space, since this does not apply to one somehow designed outer contour must be taken into account. Because it is also conceivable to form the sections with those of the deflecting body at most on the inside wall of the housing is applied, the outer edge z. B. toothed or crenellated which, however, has disadvantages in the adjustment of the flow cross different flow rates per unit of time can lead. In contrast, a smooth outer edge of the deflector body optimizes in connection with an appropriately designed flow opening in the flow body the flow conditions in such Contraption.

The cross-sectional area of the through is also advantageous flow openings of the flow body and the cross-sectional area of the Pass between the outer edge of the deflector and the Ge inner wall of the housing with a view to the greatest possible liquid throughput per unit of time by adapting to each other same size. This device-internal adjustment option ver also simplifies the application-specific adaptation of the device to different flow rates and / or different Fluid properties.

For a due to the use of series products and simple Safe, time-saving assembly inexpensive, robust, under normal Circumstances maintenance-free execution of the Vorrich invention device are the flow and deflection body in the device preferably permanent magnets. But it is also conceivable, especially for larger constructions for large flow rates Flow and deflection bodies for their magnetic field-forming effects not as permanent magnets, but as electromagnets to formulate these effects if necessary due to then unfold current-carrying coils.  

To optimize the flow conditions in the device on the one hand the main flow path through it through appropriate Arrangement of the flow openings in the flow bodies with Advantage coaxial to the longitudinal axis of the housing and are for an optimal magnetizing effect lower the flow body aligned to the main flow direction, because then the river current flow through the magnetic fields at a right angle can. Thereby, a further flow improvement can he be enough that all flowed edges are broken.

These criteria are advantageously in the form of a housing a pipe section with a circular inner cross-section met, whereby but also for the outer wall of the housing, if necessary, depending on the arrangement other shapes are conceivable. According to the pipe shape, the through flux body ring shape, the deflecting body the shape of a closed sen disc and are both coaxial to the longitudinal axis of the housing in the Housing arranged.

The deflection bodies are advantageously between by means of spacing aids Housing inner wall and adjacent flow bodies, because individual distance elements, but also as one piece executed element connections can find what the assembly or pre-assembly of the body outside the housing can ease.

A simple pre-assembly can e.g. B. distance aids preferably enable in brackets. These can be pre-assembled walked on the deflector from the side, encircling the outer edge be postponed. Then one after the other, starting with either a baffle or a flow body, these bodies are strung together, taking this up because of their preferred design as permanent magnets stick together that no further assembly aids are needed the. This means that such a series is already a thing of the past prepared for insertion in the housing.  

To affect the magnetic fields as little as possible the clips are preferably made of a non-magnetic plastic. By a z. B. wedge-shaped form can with the center of the deflecting body aligned wedge tip arrangement of the clamps the flow resistance is reduced even further become.

Advantageously, the inlet opening of the housing is the front direction intended housing opening narrower and the Ab flow opening provided housing opening wider than the through river area, because on the inflow side in a simple way Shoulder in the inner wall of the housing for the first body pers can be trained, both in the off design as a deflecting body and as a flow body, while in comparison to this, further drain opening initially serves as an assembly opening. At this point, however, should not remain unmentioned that the intended use of the two Ge house openings as inflow and outflow openings each as well can do exactly the opposite function.

In addition, due to these different configurations tion with advantage on the inflow side of the outer diameter of the Housing to form an external thread in this area be reduced while thereby in the drainage area in the Internal wall of the housing has an internal thread and to limit the Flow space between this and the internal thread a groove is trainable. In this z. B. a fixed seal is used on the one hand, the sequential arrangement of flow and deflecting bodies temporarily after their use in the housing gives enough hold until the device for its use z. B. is screwed onto the connection provided. Serves here it then serves as a seal against leakage and secures it at the same time the series z. B. against migration movements.  

In this way, if necessary, even several devices according to the invention by screwing be connected to each other by such a ver prolongation an increase in the number of magnetic fields by ent speaking increase in the number of flow and deflection bodies to reach. This can improve the performance of the device different conditions of the rivers to be prepared liquids are adapted, this consecutive order due to the advantageous design of the flow path approach-free passages or flow openings little more than a slight increase in flow will lead to resistance.

In a second aspect, the invention is also the pro blem underlying to create a device that is based on their Size and other design z. B. immediately at existing those decentralized liquid taps, such as. B. shut-off valves, can be arranged. So not as a central pre direction as before, z. B. in devices for processing Tap water in house water supply networks e.g. B. behind the what seruhr, but decentrally as an end piece directly on a so-called called faucet, e.g. B. in the kitchen with the kitchen sink Swivel spout or at the bathroom sink on the - possibly swiveling - Pillar valve, d. H. so, right at the place of water consumption. A such a tap can also be a washing machine, dishwasher or toilet Be cistern connection.

The invention uses the to solve this aspect of the problem New device described above in that it in the Hin look at the expected tap water flow with ent appropriately dimensioned flow and deflection bodies becomes. The structure and mode of operation of this can Device also has a better flow behavior from it  tap water that has been treated as intended, e.g. B. by reducing its surface tension, as well as useful side effect, an environmentally friendly quantity reduction can be achieved. This allows separate decentralized water savings councils become superfluous.

Furthermore, the invention uses the new device to solve the second aspect of the problem in that these preferably in In terms of the outer diameter of the device housing and the external and internal threads formed on it to the standard dimensions the commercial water shut-off valves just mentioned, with z. B. swivel spout, or other valve connections fits. This makes it possible to create a front according to the invention direction as an end piece, e.g. B. immediately after unscrewing the today usually present on such "taps" "Aerator", in its place on the tap with the screw the external thread formed on the inflow side. There according to the internal thread formed on the drain side again the "aerator", using one in the groove seal to be inserted. So it can Device according to the invention according to the second aspect of Problem at the location of the need for treated water, without special expenditure of time, material and tools, so to speak in In no time at all, installed and genomically in use men.

Based on schematic drawings, a before zugtes embodiment of the invention described.

Fig. 1 shows the device according to the invention in longitudinal section and

FIG. 2 shows the device from FIG. 1 in a sectional view along the line AA.

The device shown has a housing 1 in the form of a straight piece of pipe with a circular inner cross section, for. B. made of brass. The housing opening 2 is provided here as an inflow and the Ge housing opening 3 as a drain opening. In the bounded by the Ge housing 1 - cylindrical - flow space are, alternately with each other, five plate-shaped, so-called deflecting body 4 and passage body 5 evenly spaced apart one behind the other. The deflecting body 4 have the shape of a closed disc, the flow body 5 that of a ring. The ring openings are the flow openings 6 for the liquid flow. They form its main flow path through the device. It thus runs coaxially to the longitudinal axis of the housing 1 , against which the deflecting and flow bodies 4 , 5 are vertically aligned.

The flow bodies 5 rest with their outer edge on the housing inner wall 7 and thus block the flow in this area. In contrast, between the outer edge of the disk-shaped order steering body 4 and the housing inner wall 7, an annular gap-shaped passage 8 is free for the liquid flow.

By means of three U-shaped brackets 9 made of a - preferably non-magnetic - plastic formed distance aid fen, which are ideally offset by 120 ° to each other around the steering body 4 around, the deflector 4 are so evenly from the housing inner wall 7 as well as spaced from the adjacent flow bodies 5 and thereby also the flow bodies 5 from each other.

Magnetic fields form between the side surfaces of the permanent magnetic deflection and flow bodies 4 , 5 . With corre sponding magnetization, the magnetic field lines run parallel to the longitudinal axis of the housing 1 , so that the magnetic fields in addition to a high intensity due to narrow gap distances to the steering and flow bodies 4 , 5 from each other are also very homogeneous, which enables a high efficiency of the device.

The liquid flow flowing into the housing 1 is deflected by the first deflecting body 4 towards the inner wall 7 of the housing, hence its name “deflecting body”. The passage 8 is provided for the further flow. The subsequent flow body 5 initially directs the liquid flow back to the center of the housing, where it then flows through the flow opening 6 in the axial direction through the flow body 5 and meets the next deflection body 4 .

In this way, the liquid flows predominantly at right angles to the field lines of nine equally polarized magnetic fields of high intensity and homogeneity, which leads to a high efficiency of the device, supported by a low flow resistance due to the aerodynamically designed and cross-sectional passages 8 and Flow openings 6 .

For a decentralized screw installation of the device at liquid tapping points, for. B. at the swivel spout of a water shut-off valve in the kitchen or in the bathroom, and that instead of the aerator usually present there, an external thread 10 is formed on the inflow side of Ge housing 1 . On the drain side, however, an internal thread 11 is formed, in which the aerator can be screwed in again after the screw installation. It can be used to seal in the groove 12, a seal that simultaneously prevents migration of the series 1 used in the Ge series 1 of deflection and flow bodies 4 , 5 , which are secured on the inflow side by a shoulder 13 in the housing 1 .

Reference list

1 housing
2 inflow opening
3 drain opening
4 deflectors
5 flow bodies
6 flow opening
7 housing inner wall
8 passage
9 brackets
10 external threads
11 internal threads
12 groove
13 shoulder

Claims (16)

1. Device for the treatment of liquids, in particular water,

• - With a flow chamber defined by a housing ( 1 ) with at least one inlet ( 2 ) and outlet ( 3 ),
• - With several in the flow space, spaced apart, one behind the other and directed against a main flow direction ge arranged, approximately plate-shaped bodies ( 4 , 5 ), which alternate with each other
  • - either
    • - have at least one flow opening ( 6 ) in the region of the main flow direction,
    • - And rest with their outer edge on the housing inner wall ( 7 )
    • - and from which magnetic field-forming effects originate (flow body, 5 )
  • - or
    • are intended to redirect the liquid flow from the main flow direction towards the inner wall of the housing ( 7 ) and to let it flow through to the downstream flow body ( 5 ) (deflection body, 4 ),

characterized,
that emanate from the deflecting bodies ( 4 ) magnetic field-forming effects
and
that the deflection bodies ( 4 ) bear at most with sections of their outer edge on the housing inner wall ( 7 ). 2. Device according to claim 1, characterized in that the outer edge of the deflecting body ( 4 ) evenly spaced from the Ge housing inner wall ( 7 ) and thereby a gap-shaped passage ( 8 ) is formed. 3. The device at least according to claim 2, characterized in that the cross-sectional area of the flow openings ( 6 ) of the flow body ( 5 ) and the cross-sectional area of the passage ( 8 ) between the outer edge of the deflecting body ( 4 ) and the housing inner wall ( 7 ) of the same size are. 4. The device according to at least one of the preceding claims, characterized in that the flow ( 5 ) and the deflecting body ( 4 ) are permanent magnets. 5. The device according to at least one of the preceding claims, characterized in that the main flow path through the housing ( 1 ) is formed coaxially to the longitudinal axis of the housing ( 1 ) and the flow and the deflecting body ( 5 , 4 ) aligned perpendicular to it are. 6. The device according to at least one of the preceding claims, characterized in that the housing ( 1 ) is a straight piece of pipe with a circular inner cross section. 7. The device at least according to claim 5, characterized in that the flow body ( 5 ) has an annular shape. 8. The device at least according to claim 5, characterized in that the deflecting body ( 4 ) has the form of a closed Schei be. 9. The device at least according to one of the preceding claims, characterized in that the deflecting body ( 4 ) by means of spacers ( 9 ) are held between the housing inner wall ( 7 ) and adjacent flow bodies ( 5 ). 10. The device at least according to claim 9, characterized in that the spacing aids ( 9 ) are brackets. 11. The device at least according to claim 9, characterized in that the spacing aids ( 9 ) consist of plastic. 12. The device according to at least one of the preceding claims, characterized in that the inlet opening ( 2 ) of the housing ( 1 ) is narrower and the outlet opening ( 3 ) is wider than the flow space. 13. The device at least according to claim 11, characterized in that on the inflow side of the housing ( 1 ) an external thread ( 10 ) and on the outflow side forms an internal thread ( 11 ). 14. The device at least according to one of the preceding claims, characterized in that in the drain opening ( 3 ) a groove ( 12 ) in the housing inner wall ( 7 ) limits the flow space. 15. Device for processing liquids, in particular of water, especially according to at least one of the previous ones existing claims, characterized in that they are for arrangement at a single tap, preferably a water shut-off device (Faucet), determined and adjusted.