SK5817Y1 - Device for galvanic treatment of water especially of drinking water - Google Patents

Abstract

Device for galvanic treatment of liquids, especially of drinking water, comprises of a through-flow body (1) having an input and an output opening (5, 6). The through-flow body (1) is made of electrically non-conducting material in which electrodes (2, 3) are placed, each of them is made of different electrically conducting material, and at least the first electrodes (3) are circumferentially shaped as segment cut disks, wherein the individual disks are bent out angle-wise alpha to the first or to the second side. Distance elements (4) made of electrically non-conducting material are placed between the electrodes (2, 3).

Description

Technical field

The invention relates to a device for the galvanic treatment of liquids, in particular drinking water and water intended for farming purposes, such as the irrigation of plants with these galvanic flow devices. The device according to the technical solution, however, does not exclude the possibility of use in industrial technologies. The technical solution belongs to the water and food industry.

BACKGROUND OF THE INVENTION

So far, galvanic water treatment plants have focused only on protection against scale formation and their design has been adapted to this purpose. Hard water for technological purposes causes the cooling coils of the capacitors to be incrustated. Measures against incrustations of condenser cooling coils are based on the chemical treatment of water by adding a continuously varying liquid limescale stabilizer, such as polyphosphates, to the cold water stream. The problems with this technology consisted in repeatedly adjusting the optimum amount of active ingredient. Scale continued to settle at low dosages. Too many scale stabilizers, on the other hand, lifted operating costs very high.

The problem of scale formation is currently solved by the Ion Scale-Buster for galvanic water treatment. The device is connected to the cold water supply of the auxiliary condenser by means of a flange. Inside the device there is a high-purity zinc anode and a serially connected swirl body made of plastic. Zinc and brass are various noble metals. In conjunction with water, the voltage potential increases between the two to about 1 volt, making the device a galvanic cell that releases a small amount of zinc into the water stream. Zinc promotes agglomeration of substances present in the water, such as calcium. The result is fewer particles, but up to 15 times larger. agglomerates. These have a larger surface area and are thus more strongly carried by the water jet and do not tend to settle. In addition, there is a remediation effect. This is based on two processes. Firstly, after the electroplating system is connected, no new deposits are formed and the old deposits are slowly carried away by the flowing water. After expensive - enlarged particles have an abrasive effect, ie reduction of rust and limescale. After some time, an equilibrium condition is formed when a thin calcium-based protective layer is formed on the inner wall of the pipe to prevent corrosion. It also radically reduces the risk of Legionella. The Ion Scale-Buster for galvanic water treatment is based on the sacrificial anode principle, where the zinc anode is targeted instead of the wall of the pipe and the connected aggregates. The sacrificial anode is the only quickly worn part of the system. It lasts for more than five years, depending on various individual factors. The swirling elements provide self-cleaning through the turbulent flow they produce throughout the entire Ion Scale-Buster operation.

The device for galvanic water treatment itself is sufficiently described also in published international patent application WO 94/17000. The device consists of a tube in which segments of zinc with an axial tubular structure with convex faces are arranged, where the segments fulfill the function of a sacrificial anode. The device can also be supplemented with swirl segments made of dielectric material with a right-handed or even a left-handed structure in order to create turbulence to achieve a higher effect of the device. The above-described segments have also been disclosed in the French file FR 2 222 560. The disadvantage of this system is its relatively long length, which excludes it from industrial use. Another disadvantage of the device is its high hydraulic resistance, which imparts flowing water, so that the device is only suitable for industrial pressurized water applications.

The aforementioned shortcomings of the prior art devices have led to the possibility of designing a device for the galvanic treatment of liquids, in particular drinking water and water for economic use, of simple construction with small dimensions while retaining the effects of the prior art and which could also be applied to mobile applications . Efforts have resulted in the construction of a device for the galvanic treatment of liquids, in particular drinking water and water for commercial use, which is further described in this technical solution.

The essence of the technical solution

The above drawbacks are overcome by the design of a device for the galvanic treatment of liquids, in particular drinking water according to the present invention, which consists in utilizing the galvanic effect in combination with adapting the water flow between the galvanic cells so that the flowing water flow has a swirling clockwise or right-handed and then left-handed, or left-handed and right-handed in a simple construction device applied to both pressure and atmospheric water outlets.

SK 5817 Υ1

The apparatus for the galvanic treatment of liquids, in particular drinking water, consists of a flow body with an inlet and an outlet and a special set of first and second electrodes. The flow body is made of an electrically non-conductive dielectric material, preferably plastic. The flow body is preferably hollow, preferably cylindrical in shape, but may also be angular or n-angular in cross-section. First and second electrodes, which are the anodes and cathodes of the galvanic cell, are disposed in the flow body, each of which is made of an electrically different conductive material. The electrodes are made of two different electrically conductive materials, for example copper-zinc, brass-zinc, not steel-zinc, copper-aluminum, brass-aluminum, carbon-zinc, etc. combinations.

In one embodiment of the apparatus for the galvanic treatment of liquids, in particular of drinking water, the first and second electrodes - anodes and cathodes have the shape of circumferentially segmented discs where their individual segments bend their edge portions at an alpha angle to one side or the other. Avoiding the edge portions of the first and second electrode segments causes them to flow left or right-handed. In this way, both the first and second electrodes can be arranged such that all of their individual segments are bent at an alpha angle to one side, thereby achieving, for example, a right-handed water bypass. It is also possible to arrange the first and second electrodes in such a way that the individual segments of the first electrodes are bent under alpha angle to one side, but already the individual segments of the second electrodes are bent under alpha angle to the other side. or the other way. Here, it is possible to vary the alternating order of the anodes and cathodes, since more anodes and more cathodes are usually ordered. That is, in one case, the input may be the first anode followed by the cathode, or vice versa, where the cathode followed by the anode will be the first to be input. Spacers of electrically non-conductive dielectric material are placed between the first and second electrodes.

In second embodiments, the devices for the galvanic treatment of liquids, in particular drinking water, have first electrodes

for example, the anodes are circumferentially shaped segmentally cut discs, wherein their individual segments are bent at their edge portions at an angle alpha to one side or the other. In this case, however, the second electrodes are combined in the form of a tube in which the first electrodes are insulated by means of spacers of an electrically non-conductive dielectric material.

The apparatus for the galvanic treatment of liquids, in particular of drinking water, is further adapted such that the inlet and outlet openings of the flow body are provided with an external and internal thread for the PET bottle and its closure.

The apparatus for the galvanic treatment of liquids, in particular of drinking water, is further adapted so that the inlet and outlet openings of the flow body are provided with an external thread for a faucet.

The apparatus for the galvanic treatment of liquids or solutions or water for farming purposes, for example in the case of irrigation systems, is further adapted such that the inlet and / or outlet of the flow body has a self-locking conical shape for insertion into a hose or taper.

The apparatus for galvanic treatment of liquids or water for general use may further be adapted such that the inlet and / or outlet of the flow body has a tubular shape with a fixed diameter to be attached to other hollow parts of other bodies, for example by means of a Tightening Tape.

The above-described embodiments of the inlet and outlet openings of the flow-through bodies can be in all and not shown combinations with internal and external threads. Also, the range of alpha angles is unlimited substantially from ± 1 ° to 89 °. Also, the cross-sectional shape of the hollow flow body is not limited in any way from the shapes of circle, oval, square, rectangle and triangle. The design of the electrodes is not limited in any way, since they can be produced by pressing, bending, cutting, casting in their mutual combinations.

The advantages of the design of a device for the galvanic treatment of liquids, in particular of drinking water according to the invention, are obvious from its external effects. The effects of this technical solution consist mainly in the fact that by means of galvanization the effect of polarization of liquids, alcoholic and non-alcoholic beverages, and especially water, results in an activated liquid, an activated beverage or activated water having higher bioenergy information properties. First of all, it is the equilibrium of the hydrogen exponent or the pH variable. Furthermore, there are informative quantities of the specific electrical conductivity measured in gS and the total concentration of soluble electrically neutral impurities measured in mg / l and the oxidation reduction potential measured in mV.

The effects of this technical solution are also secondary in that limescale deposition is prevented with a significantly higher effect and on a simpler device. The device is simple in that one technological element according to the invention carries out a galvanic treatment of the water by the lost anode system and at the same time the rotation of the water flow to increase the effect of the device is ensured on the same technological element according to the invention.

SK 5817 Yl

BRIEF DESCRIPTION OF THE DRAWINGS

The apparatus for the galvanic treatment of liquids, in particular drinking water according to the invention, will be explained in more detail below with reference to the drawings, in which: FIG. 1a shows a flow unit, a device for the galvanic treatment of liquids, in particular drinking water, with electrodes arranged in series, between which spacers are made of dielectric material. The electrodes are alternately arranged in a flow body made of dielectric material. The flow body has an inlet and an outlet that are provided with threads for connection to a hydraulic system such as a hose, pipe, bottle, container, etc. In FIG. 1b shows in detail a single electrode having the shape of a disc, which is cut segmentally around the circumference and the resulting segments are bent at an angle alpha. In FIG. 2a and 2b according to the invention, there is shown a flow unit, a device for the galvanic treatment of liquids, in particular drinking water, wherein the first electrodes are shaped such that the angle of deflection of these electrodes is opposite to the second electrodes, thereby changing the swirling direction from clockwise to counter-clockwise. In FIG. 3a and 3b according to the invention, there is shown a flow unit, a device for the galvanic treatment of liquids, in particular drinking water, with electrodes, the first electrodes forming a right-handed spiral and the second electrode forming the inner casing of the flow body. Spacers made of dielectric material are disposed between these electrodes to ensure that there is no electrically conductive connection between the first and second electrodes. In FIG. 3c according to the invention, there is shown a flow unit, a device for the galvanic treatment of liquids, in particular drinking water, wherein the flow body has an internal alternate square shape.

Examples of technical solution

It is understood that the individual embodiments of the apparatus for the galvanic treatment of liquids, in particular of drinking water according to the invention, are presented for illustration and not as limitations of the technical solutions. Those skilled in the art will find or be able to ascertain using no more than routine experimentation many equivalents to specific embodiments of the invention. Such equivalents will also fall within the scope of the following protection claims.

The dimensioning of such a device for the galvanic treatment of liquids, in particular drinking water, and the appropriate choice of materials and construction arrangements cannot be a problem for those skilled in the art, and therefore these features have not been addressed in detail.

Example 1

In the first basic embodiment, a device for the galvanic treatment of drinking water is shown in FIG. 1a, 1b with application to PET bottles and its cap. It consists of a flow-through body 1, which is made of dielectric material - plastic, which is equipped with inlet and outlet openings 5 and 6. It further consists of a special set of first and second electrodes 2, 3. They are three plus three electrodes alternately anode and cathode or cathode and anode, respectively. The flow body 1 is of hollow cylindrical shape. First and second electrodes 2, 3, which are the anodes and cathodes of the galvanic cell, are disposed in the flow body 1, since each of them is made of an electrically different conductive material, for example a copper-zinc combination. Both the first and second 3,2-anode and cathode electrodes have the shape of circumferentially cut-off disks, where their individual segments have their edge portions bent at an alpha angle to one side, causing them to rotate clockwise with water. Spacers 4 of electrically non-conductive dielectric material, which in this case are rings, are disposed between the first and second electrodes 2, 3. The device for the galvanic treatment of drinking water in particular is further adapted such that the inlet and outlet openings 5, 6 of the flow body f are equipped with an external and internal thread 7, 8 for PET bottles and a cap thereof.

Example 2

The device for galvanic treatment of drinking water is shown in FIG. 2a, 2b with application to a faucet. The device is essentially sufficiently described in Example 1. However, the difference is that the device for the galvanic treatment of particularly drinking water is further adapted so that the inlet and outlet openings 5, 6 of the flow body 1 are provided with an external thread T, K for a faucet. . And also one part - the three segments of the first and second electrodes 3, 2 is arranged for right-handed bypass so that all of their individual segments are angled at alpha + to one side and the other part - the three segments of the first and second electrodes T, T are arranged for left-handed bypass so that all of their individual segments are angled at the alpha-angle to the other side.

Example 3

In the third basic embodiment, a device for galvanic treatment of drinking water is shown in FIG. 3a, 3b with general application. In this example, the device for the galvanic treatment of particularly drinking water has a first elec4

- for example, anode-shaped anodes of segmentally cut discs, where their individual segments have their edge portions bent at an alpha angle to one side. In this case, however, the second electrode 2 is in the form of a tube in which one electrode 3 is placed in isolation by means of spacers 4 of electrically non-conductive dielectric material. The inlet and outlet openings 5, 6 of the flow body 1 have a tubular shape with a fixed diameter to be attached to other hollow parts of other bodies (not shown), for example by means of an unstretched SK strip.

In an alternative embodiment, the device for galvanic water treatment for farming purposes, for example in the case of irrigation systems, is further adapted such that the inlet and outlet openings 5, 6 of the flow body 1 have a self-locking conical shape for insertion into a hose or tuft.

For all examples of the embodiments described above, material alternatives of the first and second electrodes 3, 2 may include the following combinations: brass-zinc, not steel-zinc, copper-aluminum, brass-aluminum, carbon-zinc, etc.

Also, for all examples of the above-described embodiments, the device can be sized to one plus one, two plus two, three plus three, four plus four electrodes to a constructionally limited upper limit.

Example 4

The device for the galvanic treatment of liquids, in particular drinking water, can be realized by any of the alternatives described in Examples 1 to 3, with one liquid-filled bottle and a second empty bottle being screwed onto the inlet and outlet openings 5, 6 of the flow body 1. liquid to achieve a higher effect.

Example 5

The apparatus for the galvanic treatment of non-alcoholic beverages may be realized by any of the alternatives of Examples 1 to 3. The difference will be that the liquid to be treated is a non-alcoholic beverage.

Example 6

The apparatus for the galvanic treatment of alcoholic beverages may be realized by any of the alternatives of Examples 1 to 3. The difference will be that the liquid to be treated is an alcoholic beverage.

Industrial usability

Installations for the galvanic treatment of liquids, in particular drinking water and water intended for farming purposes, such as the irrigation of plants by these galvanic flow devices, are used in all industrial technologies as well as in all areas of the water and food industry.

Claims (11)

PROTECTION REQUIREMENTS Apparatus for the galvanic treatment of liquids, in particular drinking water, comprising a flow body with an inlet and an outlet opening and electrodes, characterized in that the flow body (1) is made of an electrically non-conductive material, with electrodes (2, 3) disposed therein. ), wherein each of them is of an electrically different conductive material and at least the first electrodes (3) have the shape of circumferentially cut discs, their individual segments being angled at an angle α to one side or the other; spacers (4) of electrically non-conductive material are disposed between the electrodes (2, 3). Apparatus for the galvanic treatment of liquids, in particular drinking water, according to claim 1, characterized in that the flow body (1) and / or the spacers (4) of the ring shape are made of dielectric material. Apparatus for the galvanic treatment of liquids, in particular of drinking water according to claim 1, characterized in that the first and second electrodes (3, 2) have the shape of circumferentially cut-off discs, wherein their individual segments are bent at an alpha angle to one or the other side. Apparatus for the galvanic treatment of liquids, in particular of drinking water according to claim 1, characterized in that the first electrodes (3) have the shape of circumferentially cut-off discs, their respective segments being angled at an angle α to one side or the other and the other the electrodes (2) have the shape of a tube in which the first electrodes (3) are arranged. Apparatus for the galvanic treatment of liquids, in particular drinking water according to claims 1 to 3, characterized in that the first and second electrodes (3, 2) each have segments bent at an angle α to one side. SK 5817 Υ1 Apparatus for the galvanic treatment of liquids, in particular of drinking water according to claims 1 to 3, characterized in that the first electrodes (3) have individual segments bent at an alpha angle to one side and the second electrodes (2) have individual segments bent at an alpha angle to the other side. Apparatus for the galvanic treatment of liquids, in particular drinking water, according to claim 1, characterized in that the flow body (1) has a circular or angular cross-section. Apparatus for the galvanic treatment of liquids, in particular of drinking water according to claim 1, characterized in that the inlet and / or outlet opening (5, 6) of the flow body (1) is provided with a PET bottle thread (7, 8) and its closure. . Apparatus for the galvanic treatment of liquids, in particular drinking water, according to claim 1, characterized in that the inlet and / or outlet opening (5, 6) of the flow body (1) is provided with a thread (7 ', 8') for a tap . Apparatus for the galvanic treatment of liquids, in particular drinking water, according to claim 1, characterized in that the inlet and / or outlet (5, 6) of the flow body (1) is conical. Apparatus for the galvanic treatment of liquids, in particular drinking water, according to claim 1, characterized in that the flow body (1) is an integral part of a water container such as a bottle or a can or a kettle or a spout.