DE8912482U1 - Device for the treatment of liquids, in particular water - Google Patents

Description

Device for the treatment of liquids, in particular water

The invention relates to a device for the treatment of liquids, in particular water, in which a filter cleaning the liquid and downstream a magnetic device exposing the liquid to a magnetic field are arranged in succession in the flow path of the liquid, the filter and the magnetic device having separate flow housings, each with an inflow opening and an outflow opening.

It is known to install a filter at the entrance of a water-carrying pipe system, for example in a building, which retains dirt particles and the like. It is also known to install a magnetic device downstream of the filter, which exposes the water flowing through a flow chamber of the magnetic device to a direct or alternating magnetic field. The magnetic device reduces, among other things, any calcification of the pipe system. The filter and the magnetic device are separate from each other.

I and connected to each other by pipe sections* This arrangement requires a comparatively high assembly effort and requires a comparatively large amount of space.

5 It is the object of the invention to reduce the assembly effort and

to reduce the space required by a device of the type described above.

This object is achieved according to the invention in that _the inflow opening and the outflow opening of each of the flow housings are arranged next to one another and are accessible from the same side, that the flow housings are detachably fastened to a common holding plate with inflow and outflow openings facing the holding _plate and that the holding plate contains several connecting channels between an inlet connection and an outlet connection, which on the side facing the flow housings alternately lead to the inflow opening

|f and to the drain opening of the individual flow housings

&idiagr; ₂₀ aligned channel mouths.

A device of this type forms a self-contained unit that takes up relatively little space

!.- can be used under load and is easy to assemble.

# 25

^ The retaining plate is preferably provided with more than two

>, through the connecting channels determined recording positions

;§ nen for flow housings, so that the number

&ugr; the flow housing that can be connected to the mounting plate

|| _q according to the requirements of the application

If can be selected. So on the holding plate

M several filters cleaning the liquid in series

S; the and/or several the liquid to a magnetic field

j$ extinguishing magnetic devices one after the other in each

35 separate housings. Unoccupied

Connection positions of the retaining plate can be bridged by covers that are detachably attached to the retaining plate, provided that these, together with the retaining plate, form a flow chamber between immediately adjacent connecting channels.

The holding plate can also accommodate additional devices or arrangements and connect them to the flow path. In a practical embodiment, it is provided that

jQ in the flow path downstream of the filter and preferably also downstream of the magnetic device an electrode arrangement is arranged which exposes the liquid to an electric field, of which at least one of the electrodes is connected to a voltage source in a

j5 the flow housings of the filter and the magnetic device are arranged in a separate flow housing, which overlaps with the channel openings of connecting channels of the holding plate and is detachably attached to it. Such an electrode arrangement can be a system for cathodic corrosion protection, in which the electrode arranged in the flow housing forms an anode, while the pipe system is used as a cathode. However, both electrodes can also be arranged next to each other in the flow housing, since it has been shown that the biological properties of the liquid can be improved, particularly when using a low-frequency pulse source.

gO The filter can be a conventional dirt particle filter, whereby at least one permanent magnet is expediently arranged in the flow housing, which retains iron particles and the like.

• ■ I

■ lit « ·

• · ff

^ The magnetic device may be of known construction and comprise at least one, but preferably several, permanent magnets or an electromagnet.

The magnetic device reduces the build-up of limescale in the downstream piping system when water contains limescale. It has been shown that the water hardness of soft water, i.e. water with a low lime content, can be increased and the corrosion damage associated with soft water can be reduced.

^q if a container is connected to the outlet connection of the holding plate which contains lime material in a pourable form in the flow path of the water. Due to the improved lime dissolving properties of the water by the magnetic device, the water hardness can be reduced to a corrosion-

j5 reducing values are increased.

The invention is explained in more detail below with reference to a drawing.

2Q Fig. 1 is a schematic sectional view through a

Water treatment device, seen along a line I-I in Fig. 2 and

Fig. 2 is a developed section through the device, seen along a line II-II in Fig. 1.

The water treatment device comprises a filter 5 which cleans the water of dirt particles in the flow path of the water supplied via an inflow pipe 1 and discharged via an outflow pipe 3, a

QQ Magnetic device 7 that exposes a magnetic field and an electrode arrangement 9 for reducing cathodic corrosion, here in particular of the drain pipe 3. The filter 5, the magnetic device 7 and the electrode arrangement 9 have separate flow housings 11, 13 and 15 respectively

gg and are on the same side of a substantially

circular, common holding plate 17. The holding plate 17 has a base plate 19 which has, on its side facing the flow housings 11, 13, 15, identically designed threaded connections 21 arranged in a circular row, into which the otherwise cap-shaped flow housings 11, 13, 15 are screwed in a sealed manner. On the side facing away from the connection threads 21, the base plate 19 is provided with connecting channels 23 in the form of circular segment-shaped

jQ are provided with grooves which are sealed to the outside by a sealing disk 25 and a cover plate 27. The adjacent ends of the connecting channels 23, which are successive in the flow direction, are connected via passage openings 29, 31 within the

j5 threaded connection 21 with the opposite side of the base plate 19. The through-opening is located eccentrically to the axis of the threaded connection 21, the through-opening 31 is located centrically to this axis. The inflow pipe and the outflow pipe 3 are connected via

2Q connection openings 33, 35 are connected to the respective terminal connection channels 23. The flow path of the water between the connection channels closes via the flow housings 11, 13, 15. Since the base plate has more threaded connections 21 than flow housings

ng are screwed in, excess threaded connections 21 are closed by covers 37, which in turn form a flow chamber 3 9 between themselves and the base plate 19. The water treatment device can thus be equipped with additional filters or additional

OQ magnetic devices. The filter 5 is of conventional design and contains in its essentially cylindrical flow housing 11, which is open on the side of the base plate 19, a central filter cartridge 41 which is sealed to the passage opening 31 and is optionally reinforced by a support body.

Hi ' ~ 6 ~

I j In the flow housing 11 are additionally provided in the design

f example1 ring-shaped permanent magnets 43 are arranged, the

i Retain iron particles.

; 5 The also essentially cylindrical and

Base plate 19 open flow housing 13 of the solenoid

fc räts 7 encloses a in the passage opening 31

p held tube 45 made of non-magnetic material,

W, which opens inside the flow housing 13 and

If jQ carries several ring-shaped permanent magnets 47. The

i| Flow housing 13 is also made of non-magnetic

§ chemical material. The material passes through the opening 29 in

■£ Water entering the flow housing 13 flows through

H is the magnetic field in the outer area of the ring magnets 47 and

'■■&Ogr;&igr;.·

% 15 then through the tube 4 5 through the magnetic field in the inner

pJ range of magnets. Instead of the explained magnet device

$| 7 other constructions, especially on

based on electromagnets.

20 ^ ^e Electrode arrangement 9 comprises a pot-shaped cylindrical flow housing 15 made of insulating material, into which an anode electrode 49, for example made of magnesium, projects. The anode electrode 49 is connected to a direct voltage source 51, which at the same time

25 is also connected to the drain pipe 3, which is made of steel, for example. Alternatively, an electrode arrangement with two electrodes arranged next to one another in the flow housing and connected to a low-voltage source, in particular a pulse voltage source, can also be used.

QQ closed electrodes for improving the biological properties on the holding plate 17. Surprisingly, it has been shown that the magnet arrangement 7 reduces the conductivity of the water, so that the power consumption is reduced.

35

The magnetic device 7 reduces limescale deposits in the downstream water systems in the case of hard water, i.e. water containing little lime. In the case of soft water, i.e. water with little lime, corrosion damage can occur to the water systems due to the acidic properties of the water. To prevent this, as shown in Fig., a flow container 53 containing lime material 55 in a pourable form can be connected to the outlet opening 35 of the holding plate 17. Since the magnetic device 7 increases the water's dissolving properties for lime material, the water flowing through the flow container 53 is enriched with lime to an increased extent. The lime enrichment reduces the acidic properties of the water. The lime dissolved from the lime material forms a corrosion-reducing protective layer on the walls of the downstream water system.

Claims (7)

Expectations 1. Device for the treatment of liquids, in particular water, in which in the flow path of the liquid there is successively a filter (5) cleaning the liquid and downstream a magnetic device exposing the liquid to a magnetic field (7), wherein the filter (5) and the magnetic device (7) have separate flow housings (11, 13) each with an inflow opening and an outflow opening,
characterized in that the inflow opening and the outflow opening of each of the flow housings (11, 13) are arranged next to one another and are accessible from the same side, that the flow housings (11, 13) are detachably fastened to a common holding plate (17) with inflow and outflow openings facing the holding plate (17) and that the holding plate (17) contains several connecting channels (23) between an inlet connection (33) and an outlet connection (35), which have channel openings (29, 31) on the side facing the flow housings (11, 13) that are alternately aligned with the inflow opening and the outflow opening of the individual flow housings (11, 13). 2. Device according to claim 1, characterized in that in the flow path downstream of the filter (5) and preferably downstream of the magnetic device (7) an electrode arrangement (9) is arranged which exposes the liquid to an electric field, from whose electrodes connected to a voltage source (51), • :: IJ*W &Ggr;" ^ J ^ at least one (49) is arranged in a flow housing (15) separate from the flow housing (11, 13) of the filter (5) and the magnetic device (7), which overlaps with the channel openings (29, 31) of connecting channels of the holding plate (17) and is detachably attached thereto. 3. Device according to claim 1 or 2, characterized in that at least one permanent magnet (43) separating iron particles from the liquid is arranged on the flow housing (11) of the filter (5). 4. Device according to one of claims 1 to 3, characterized in that on the holding plate (17) several filters (5) cleaning the liquid are arranged one behind the other and/or several magnetic devices (7) exposing the liquid to a magnetic field are arranged one behind the other in separate housings (11, 13). 5. Device according to one of claims 1 to 4, characterized in that a partial number of pairs of adjacent channel openings (29, 31) of 2g tung immediately successive connecting channels (23) forming a flow chamber (39) each closed by a cover (37) detachably attached to the holding plate (17). 6. Device according to claim 5, characterized in that the flow housings (11, 13, 15) and the covers (37) all have the same connection elements for fastening to the holding plate (17). 7. Device according to one of claims 1 to 6, characterized in that a flow container (53) is connected to the outlet connection (35), which contains lime material in pourable form in the flow path of the water. - 3 - Ii