EP1791137A1 - Device and method for affecting capillary flow - Google Patents

Abstract

The device has a coil producing high frequency electrical field, and an impulse generator (1) for charging the coil. The coil is a secondary coil (2) of a tesla air transformer (6), where a primary coil (3) of the transformer is electrically connected with the impulse generator. The primary and secondary coils are tesla coils with angle and several windings, where an end of the secondary coil having high potential is connected with an electrically conductive radiating surface that is formed as sphere (4). The end of the secondary coil turned away to the radiating surface is grounded. An independent claim is also included for a method for affecting a flow process of water in a capillary by a field coupler.

Description

I. Field of application

The invention relates to the electrophysical influence of flow processes.

II. Technical background

In older buildings, rising soil moisture in the walls is a common damage pattern.

For wall drainage mechanically complex procedures such as the horizontal cutting of the masonry and introducing a so-called horizontal barrier layer of waterproof material are known.

It is less well known that by means of electrophysical methods the water can be prevented from rising in the wall by the capillary.

Since Prof. Reuss discovered in 1803 that water molecules are moving in an electric field to the negatively charged pole, it has been attempted - at least since 1935 - to specifically direct this finding to influence flow processes - be it substances in liquids or liquids in porous bodies - to use.

The function is presumably that an electrical potential, the so-called zeta potential, arises between the water molecules moving in the capillaries and the capillary boundary layer, the water molecules being mostly bound to the hydration shell of salt ions.

By a weak, pulsed electric field, this charge bonding is to be solved and the structure of the zeta potential is interrupted, so that the water molecules fall back to the ground according to gravity or at least do not rise further, but evaporate.

This is so far caused by the fact that in the vicinity of the moistened masonry, a cylindrical coil in the air, without contact with the masonry, is traversed by current, wherein the current is supplied in a pulsed form of 10-500 kHz by means of a generator, with Amperages up to a few amps.

As a result, a magnetic high-frequency field is generated, such as a weak high-frequency electric field, which achieves the intended effect above all.

On the one hand, peak power up to 100 watts is necessary for the operation of this device, which in view of the period of one to two years for effective dehumidification represents considerable amounts of energy. On the other hand, the long period of one to two years required for dehumidification is unsatisfactory.

III. Presentation of the invention a) Technical task

It is therefore the object of the invention to improve the electrophysical influence of flow processes, especially in the wall dehumidification.

b) Solution of the task

This object is solved by the claims 1 and 13. Advantageous embodiments will be apparent from the dependent claims.

The effect of the electrophysical dehumidification is already improved by the fact that the high-frequency electric field generating coil is the secondary coil of a transformer, and in particular that of the two coils of the transformer having the larger number of turns. In addition, if secondary coil and primary coil of the transformer are not normal, cylindrical coils, but in a plane wound Tesla coils in the form of a single spiral, particularly high field strengths of the emitted high-frequency electric field can be achieved.

This depends not least on the arranged at the hot end of the secondary coil radiating surface and their size and shape, in particular a ball is recommended, which emits the electric field evenly on all sides. The sphere should have a diameter of 2-10 cm, in particular 2-5 cm.

The number of turns of the primary coil and the secondary coil behave approximately as 1: 5 to 1:10, wherein on the primary side 3-10 turns, in particular 5-10 Windings are preferred, while on the secondary side 30-50 turns give a good effect.

The pulse generator connected to the primary-side coil operates at a frequency of preferably 10-500 kHz, in particular 10-1000 kHz, whereby pulses in rectangular form have proven to be particularly effective. Current intensities in the primary coil up to 1 ampere, maximum of 2 amps are generally sufficient.

The internal resistance of the primary coil should preferably be 20-80 ohms, in particular 30-60 ohms.
Just as the secondary coil is grounded at the opposite end of the radiating surface, the primary coil connected in circuit with the pulse generator is grounded to be at the same potential as the masonry.

Primary coil and secondary coil should have the same sense of winding, so viewed from the same end face ago.

In the practical embodiment, the two coils may be arranged in parallel planes to each other by z. B. on the conductive surfaces of a board are etched, for example, on the two sides facing away from one another and the same board or on each of an electrically conductive side of separate, spaced apart, boards.

c) embodiments

Fig. 1a:

Eine Prinzipdarstellung der elektrophysikalischen Mauerentfeuchtung,

Fig. 1 b:

Eine realistische Darstellung der Vorrichtung, und

Fig. 2:

Eine Darstellung der hierfür verwendeten Spulen.

Embodiments according to the invention are described in more detail below by way of example. Show it:

Fig. 1a:

A schematic diagram of the electrophysical wall dehumidification,

Fig. 1b:

A realistic representation of the device, and

Fig. 2:

A representation of the coils used for this purpose.

Fig. 1 shows first the phenomenon to be combated, namely in the capillaries of the masonry 5 ascending water from bottom to top. The wall 5 ends at the lower end in the earth and thus has the ground potential 9, while the flow processes of the water molecules at the upper end facing away from the wall or building a positive potential builds up, which additionally sucks the water molecules.

This electrical potential is to be interrupted by the electric field which is emitted by the ball 4 as a radiating surface through the air in all directions and thus against the masonry 5 and into this, and thus - electrically considered - a capacitive field coupling between the ball 4 as a radiating surface and the masonry 5 causes.

The ball 8 emits a high-frequency electric field because it is connected to one end of a coil 2 whose other end is grounded, which is in communication with a nearby arranged primary coil 3 as a transformer, which also on a End is grounded, and is electrically connected in a circuit with a pulse generator 1, so that the entire transformer is driven pulsed.

The effectiveness is particularly high, since as coils 2.3 Teslaspulen be used, ie each helical, in a single plane of a single winding, but a plurality of windings existing coils, as shown in Figs. 2a and 2b in detail as a primary coil. 3 shown with few turns and secondary coil 2 with more turns.

As can be seen, both coils 2, 3 have the same winding sense and approximately the same outside diameter, but only 7 turns for the primary coil 3 and approximately 50 turns for the secondary coil 2, each in the form of only one winding.

Fig. 1b shows the structural design: The two Tesla coils 2,3 are each applied to one side of a board 7a, b, which are positioned at a distance parallel and preferably horizontally one above the other. The mutually corresponding ends of the two coils 2, 3, in this case the outer ends, are both connected to ground potential 9 and can therefore also be connected to one another in an electrically conductive manner.

The two ends of the primary coil 3 are connected to the two outputs of a pulse generator 1.

The hot, in this case, inner, end of the spiral of the secondary coil 2 is electrically connected via a connecting rod 4a with the electrically conductive surface of the ball 4, thereby holding the ball 4 at a sufficient distance to the coils 2, 3 and feeds the ball 4 with the pulsed high-frequency voltage.

With the parameters described and a primary-side operating voltage of 1 ampere electric field strengths of about 50 V / m are measured at the electric field 8, for which it is sufficient to position the ball 4 at a distance of not more than 8 meters to the wall to be dehumidified ,

For a building with a footprint of z. B. 10 by 10 meters and wet outer walls, therefore, only such a device is necessary.

LIST OF REFERENCE NUMBERS

1

pulse generator

2

Kitchen sink

3

primary coil

4

Bullet

4a

Connecting rod

5

masonry

6

Tesla-air transformer

7a, b

circuit board

8th

electric field

9

ground

Claims (14)

Device for influencing flow processes, in particular flow processes of water in capillaries, by means of field coupling with a coil (2) generating a high-frequency electric field, - A pulse generator (1) for acting on the coil (2) characterized in that
the coil (2) is the secondary coil of a transformer whose primary coil (3) is electrically coupled to the pulse generator (1). Device according to claim 1,
characterized in that
the primary coil (3) and / or the secondary coil (2) are Tesla coils and the transformer is a Tesla transformer, in particular a Tesla-air transformer (6). Device according to one of the preceding claims,
characterized in that
Primary coil (3) and / or secondary coil (2) are coils with one winding and several turns. Device according to one of the preceding claims,
characterized in that
the end of the secondary coil (2), which has the higher potential, with an electrically conductive radiating surface, in particular in the form of a ball (4), is electrically conductively connected. Device according to one of the preceding claims,
characterized in that
the end remote from the radiating surface of the secondary coil (2) is grounded, and in particular also the primary coil (3). Device according to one of the preceding claims,
characterized in that
the generator (1) generates pulses with a frequency of 10 kHz to 500 kHz, in particular up to 1000 kHz and in particular pulses in a rectangular shape. Device according to one of the preceding claims,
characterized in that
the current intensity in the primary coil (3) is a maximum of 1.0 ampere, in particular a maximum of 2 amperes. Device according to one of the preceding claims,
characterized in that
the primary coil (3) comprises 3-10 turns, in particular 5-10 turns, and the secondary coil (2) has 30-50 turns. Device according to one of the preceding claims,
characterized in that
Primary coil (3) and secondary coil (2) facing in the same direction sides of two non-conductive, mutually parallel, plate-shaped support body, in particular circuit boards (7a, b), are applied Device according to one of the preceding claims,
characterized in that
Primary coil (3) and secondary coil (2) on the two mutually remote sides of a plate-shaped, consisting of electrically non-conductive material supporting body, in particular a circuit board (7) are applied. Device according to one of the preceding claims,
characterized in that
the internal resistance of the primary coil (3) is 20-80 ohms, in particular 40-60 ohms. Device according to one of the preceding claims,
characterized in that
the winding sense of primary coil (3) and secondary coil (2) - viewed in the direction of the axis of rotation of the coils - is the same for both coils. Method for influencing flow processes, in particular of water in capillaries, by means of field coupling by means of an electrical high-frequency field
characterized in that - To generate the high frequency field, a Tesla-air transformer (6) on the primary side impulsbeaufschlagt and secondary side, an electrically conductive radiating surface, in particular a spherical surface, with that end of the secondary coil (2) possesses and possesses the higher potential - The radiating surface is operated at an effective distance to the flow process. Method according to claim 13
characterized in that
the parameters of the Tesla air transformer (6) are chosen so that the electric field emitted by the transformer (6) has a field strength of at least 30 V / m, more preferably at least 50 V / m.

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