EP2739962A1

EP2739962A1 - Device for storing electromagnetic energy

Info

Publication number: EP2739962A1
Application number: EP12753415.4A
Authority: EP
Inventors: Dietrich Reichwein
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-08-03
Filing date: 2012-08-03
Publication date: 2014-06-11
Also published as: DE102011109338B3; US20140251665A1; US9572260B2; US20170071060A9; WO2013017692A1

Abstract

The invention relates to a device for storing electromagnetic energy and signals, for example from biological systems. The device can receive electrical signals and output said electrical signals, optionally modified. Said device is provided with a planar substrate having a first side and a second side, wherein at least one first assembly is provided on the first side, said assembly having at least one first cavity (2), at least one first introducing element (4), and at least one first device for storing electromagnetic energy (3), wherein one end of the introducing element (4) is connected to the device for storing the electromagnetic energy (3) and the other end of the introducing element (4) is arranged in, under, or adjacent to the first cavity (2) as a free end.

Description

Device for storing electromagnetic energy

The present invention relates to a device for storing electromagnetic energy and signals, for example from biological Syste ^¬ men. The device can record electrical signals and, if necessary, modify it again.

From the prior art, the detection of biological processes, which go back to moving electrical charges known (eg in medicine in the EEG, ECG and / or ENG). In addition, it is known that biological processes can be influenced by electromagnetic devices (eg biophoton spectral analysis, biological resonance techniques, the use of magnetic fields for faster germination or to accelerate vital events). Within living cells electrical potential fluctuations can occur due to depolarization, repolation or hyperpolarization of the cell membrane. These electrical potential fluctuations generate an electromagnetic field or cause the emission of electromagnetic

Waves .

Biological cells consist of a variety of charged molecules, such as charged proteins, nucleic acids, lipids and carbohydrates. In the cell there is a high concentration of molecules (about 200-400 mg / ml for proteins) and the molecules are in constant motion. Without the movement of the molecules, the cell would not be viable.

It is known that moving electric charges are electromagnetic radiation, i. generate electromagnetic waves. Because a variety of cellular molecules are constantly in motion (passively through the

Brown's molecular motion and actively driven by energy, for example, by ATP hydrolysis), living cells emit permanent - albeit weak - electromagnetic radiation. The object of the present invention is to provide an apparatus which can absorb electromagnetic signals biological systems and store and can emit electromagnetic signals to biologi cal ^¬ systems also.

This object is achieved by the device according to claim 1. Advantageous developments of the device according to the invention are listed in the dependent claims. The device according to the invention has a substrate, advantageously with at least two layers, as well as with a first side and a second side, characterized in that on the first side at least one first arrangement is provided, the at least one cavity, at least one first input conductor and at least one first device for storing electromagnetic, in particular electrical energy (advantageously a capacitor), one end of the initiator being electrically connected to the device for storing the electromagnetic energy and the other end being a free end in, under or adjacent to the cavity is arranged.

Fundamental to the present invention is the recognition that biological systems, such as living cells, have a dense accumulation of emitters of electromagnetic signals, e.g. in the form of electromagnetic radiation.

Cells in a cell assemblage, such as the human organism, may have a different cellular activity (eg, different metabolic activity). This in turn results in different levels of emission of different electromagnetic waves, which may be cell type and / or tissue type specific. Furthermore, the electromagnetic signals emitted by cells may depend on their condition. Consequently, this results in an emission of electromagnetic radiation, which depends on many parameters, such as cell type and current state of a cell. The inventive device makes it possible to absorb electromagnetic radiation of biological origin, store, and to emit corresponding elec tromagnetic ^¬ radiation or signals. In principle, it is therefore also possible with the device according to the invention to feed back biological signals into biological systems and to intervene in a compensatory manner by means of targeted modification of the signals in the respective biological system.

Preferably, a first layer is designed as a printed circuit board on or in which the introducer and / or the device for storing electromagnetic energy, in particular as strip conductors, are formed.

The first layer a) particularly preferably contains an electrically insulating material as base material, preferably selected from the group consisting of epoxy resin, glass fiber, paper, ceramic, aluminum oxide, polyimide, polytetrafluoroethylene and polyethylene; and b) an electrically conductive material as conductor material, preferably a metal, more preferably copper, tin, nickel, gold and / or platinum.

A second layer of the device according to the invention can be designed as a self-adhesive spacer, which contains a passage opening, wherein the second layer contacts the first layer so that the through-hole is located above the free end of the inlet and forms a cavity. A biological sample, for example a body fluid, can be introduced into this cavity. Preferably, the second layer contains plastic, preferably polycarbonate, polyethylene or polyvinyl chloride, or consists thereof.

The through opening in the second layer can be circular and have a diameter of 4.0-15.0 mm, preferably 6.0-12.0 mm, particularly preferably 8.0-9.0 mm. Alternatively, the through opening may be square or oval.

Preferably, the through opening of the second layer contains an absorbent material. In this case, the absorbent material can be designed as a circular, absorbent Päd, preferably with a diameter of 4.0-15.0 mm, preferably 6.0-12.0 mm, particularly preferably 8.0-9.0 mm. In a preferred Äusgestal- tung form the absorbent material (for example, a circular, absorbent Päd) is formed so that body fluids, preferably blood, saliva, cell h ^¬ len, cell lysate, in particular DNA containing samples absorbed.

Optionally, the device according to the invention may have a third layer, which is designed as a self-adhesive decorative film and contains a passage opening, wherein the passage opening of the third layer is preferably located centrally above the passage opening of the second layer.

This third layer may contain or consist of plastic, preferably polycarbonate, polyethylene or polyvinyl chloride.

The continuous opening of the third layer may be circular and have a diameter of 0.5- 3.5 mm, preferably 1.0-3.0 mm, more preferably 1.5-2.5 mm. Alternatively, the de opening of the third layer to be oval or rectangular.

In a preferred embodiment of the device according to the invention, at least one second arrangement is provided on the second side of the substrate, advantageously on the second side of the first layer, comprising at least one field, at least one second initiator and at least one second device for storing electrical energy, wherein one end of the second initiator is electrically connected to the second electromagnetic energy storage device and the other end is disposed as a free end in, on or adjacent to the field.

Optionally, the device has a fourth layer arranged on the second side of the first layer or the third layer, which is in the form of a self-adhesive layer

Decorative film designed and has at least one field or at least one continuous recess in the form of a field.

The fourth layer may contain or consist of plastic, preferably polycarbonate, polyethylene or polyvinyl chloride.

The field or the continuous recess in the form of a field may be rectangular, preferably having the dimensions length x width of 2-7 cm x 0.5-2 cm, particularly preferably 4-6 cm x 0.8-1.5 cm , Alternatively, the field or continuous recess in the form of a field may be circular or oval.

The field or the at least one recess in the form of a field preferably has a writable material. The recordable material can thus be be that it is solid and / or liquid

Writing material adsorbed and / or absorbed.

The at least two layers of the substrate of the device {eg, the first, second, third and fourth layer) can each be sheet-like, cuboid or zy ^¬ lindrisch be, in particular rectangular.

Preferably, the substrate is formed in card format and preferably has dimensions in length x width x height of 2-14 cm x 2-10 cm x 0.05-0.60 mm, particularly preferably 8-9 cm x 5-6 cm x 0.15-0.40 mm.

The substrate may further comprise at least one further third device for storing electromagnetic energy, which is accessible for storing electromagnetic energy or signals from the outside.

At least one, several or all of the electromagnetic energy storage devices are preferably a capacitor or have a capacitor.

The device according to the invention may comprise one, two or three first arrangements on the first side. On the second side, the device may have one, two or three second arrangements.

The free end of the at least one introducer on the first side is preferably configured in a spiral shape, while the free end of the at least one introducer on the second side is preferably configured wave-shaped.

More preferably, the free end of the at least one initiator on the first side of the substrate is in or adjacent the through opening The second layer is arranged, preferably in such a way that in the region of the through opening, the introducer at least partially contacts the second layer.

The free end of the at least one initiator on the second side is arranged in a particularly preferred embodiment of the device according to the invention in or adjacent to the field or in or adjacent to the recess in the form of a field, preferably such that the introducer is the first layer contacted at least in certain areas.

Preferably, the initiator on the first side of the substrate contacts less than or equal to half its circumference the first, second and / or third layer and / or the initiator on the second side contacts less than or equal to half its circumference the first and / or fourth location.

Particularly preferably, at least one of the initiators on the first and / or second side contains essentially an electrically conductive, preferably ferromagnetic, material or consists thereof. As materials there are inter alia metals or metal alloys (e.g., copper, iron, cobalt, nickel, chromium, manganese, silver, gold and alloys thereof) or carbon {e.g. Graphite, carbon nanotubes).

Optionally, at least one of the initiators on the first and / or second side is at least partially coated with at least one noble metal, preferably gold.

Particularly preferably, the introducer is designed in the form of a wire or a conductor track. In the device according to the invention, each of the initiators, ie a single electrical conductor, for example a metal wire or a conductor track, acts as an antenna and / or as a transmitter of electromagnetic radiation. The received electromagnetic energy is stored in the device for storing electromagnetic energy connected to the respective initiator. According to the invention, the device may include a sticker which is applied to the recesses after the biological sample has been introduced into the recess. This sticker then seals the continuous recess of the third layer and / or the recess in the form of a field of the fourth layer liquid-tight and / or moisture-proof. The introduced into the recesses biological sample can thus be protected against other external influences. The label may optionally already be attached to the device before closing the recesses. If the embodiment of the device according to the invention has edges (eg credit card format), the sticker can be attached to an edge of the device.

In the following some examples of devices according to the invention are given. Therein, the same or similar elements are denoted by the same or similar reference numerals. Individual elements of the following examples are also essential to the invention, solved individually from the overall picture of the respective example. They can also be arbitrarily combined with other such elements, also from other examples.

Show it 1 shows a device according to the invention in individual layers. and

2 shows the structure of a device according to the invention.

Figure 1 shows a preferred embodiment of the device according to the invention, wherein individual layers are shown in their sequence. Individual layers 1, 5, 6, 7 of the device are shown in side view (A) and in plan view (B). Each layer 1, 5, 6 and 7 has a planar design in chip card format (L x W x H = approximately 8.6 cm x approximately 5.4 cm x approximately 0.8 cm).

The first layer 1 is configured as a 0.37 mm thick epoxy resin printed circuit board, which contains on the right side two capacitors 3A, 3B as electromagnetic energy storage devices and two single-core inductors 4A, 4B as copper interconnects. The capacitors 3A and 3B are each connected on one side to a first end of the feeders 4A and 4B, respectively. The second terminal of the capacitors 3A, 3B is free or insulated. The free second end of the initiator 4A, 4B is configured in each case spirally and is arranged on the left side of the layer 1. Furthermore, the first layer 1 has on its first side a third capacitor 15 as a device for storing electromagnetic energy. In this capacitor, another electrical signal can be written.

The second layer 5 is made of polyethylene, has a thickness of 0.20 mm, and is adhered to the upper side (first side) of the first layer 1 provided with the interconnects 3A, 3B, 4A, 4B. The second layer 5 contains two circular, continuous cavities 2A and 2B, which have a diameter in the longitudinal plane of about 8.5 mm and are located just above the free spiral end of the introducers 4A, 4B. The cavities 2A and 2B are closed on their underside by the first layer 1 and are open at the top. In the wells 2A and 2B are respectively a separately shown in Fig. 1 itself ^¬ adhesive Päd 9 is arranged. The self-adhesive pad 9 is made of a circular, absorbent material and is characterized by a diameter of 8 mm and a thickness smaller than 0.20 mm. This päd 9 serves to receive a body fluid as mentioned above. On the second layer 5 a separately shown third layer 6 is glued, which as

Decorated film is made of 0.15 mm thick polyethylene and contains two continuous recesses 8A, 8B in the form of through holes, which are located exactly in the center above the cavities 2A and 2B of the second layer 5. The through holes have a diameter of 2 mm. Apart from the holes, the two cavities 2A and 2B of the second layer 5 are consequently closed by the decorative film 6.

The first layer 1 has on its second side 5B two second arrangements each having a field, an inductor and a device for storing electromagnetic energy, ie the second side of the first layer 1 contains in the left part two capacitors 12A, 12B and two wave-shaped Introducers IIA, IIB. The two capacitors 12A, 12B are each connected at their one terminal to one of the wave-shaped inductors IIA, IIB. The free end of the introducers IIA and IIB extends to the right to near the edge of the layer 5. The other terminal the capacitors 12, 12B is free or electrically isolated.

On the second side of the layer 1, a fourth layer 7 is additionally arranged, which is designed as a decorative film, consists of 0.15 mm thick polyethylene and has an adhesive pressure and two labeling fields 10A, 10B. The labeling fields 10A, 10B are located exactly above the initiators IIA and IIB of the second arrangement. Since all four layers are glued together results as a result of a device of four layers 1, 5, 6 and 7, so a four-layer chip card. Possible locations for preprinted font 13 are shown on the fourth layer 7.

Figure 2 describes the structure of the inventive embodiment of the apparatus of FIG. 1 in cross section. The device is designed in the form of a planar chip card (L x W x H = approximately 8, 6 cm x approximately 5, cm x approximately 0.8 cm) and has a construction of the four layers 1, 5, 6, 7 , The first layer has on the right side a capacitor 3 as a device for storing electromagnetic energy and in the middle to the left side an introducer

4 contains copper wire. The condenser 3 is connected at its first terminal to one end of the inducer 4. The second terminal of the capacitor 3 is free or electrically isolated. The free end of the initiator 4 (here referred to as 4A) is configured in a spiral shape and is arranged on the left side of the layer 1.

The second layer 5 includes a circular, continuous recess 2, which has a diameter in the layer plane of about 8.5 mm and in the left part the layer 5 is located just above the spiral free end 4A of the inducer 4. The continuous recess 2 is closed in the finished device on its underside (second side) of layer 1 and on its upper side (first side) open and thus forms a cavity. In this cavity, a self-adhesive Ped 9 is arranged.

On the second layer, the third layer 6 is glued, which contains the through hole 8, which is located exactly in the center above the cavity, that is above the continuous recess 2 of the second layer 5. The through-hole 8 of the third layer 6 has a diameter of 2 mm in this example. Except for the through hole 8 of the third layer 6, the cavity 2 is completed by the decorative sheet 6. This decorative film 6 carries on its top ver ^{¬ different} fields 13 with imprints. The cavity 2, the capacitor 3 and the conductor track 4 on the first side of the first layer 1 form a first arrangement.

On the opposite second side of the layer 1, the further layer 7 is glued, which on its outside has a printed field 13 and a writable labeling field 10. In the area of

Labeling field 10 and this lying opposite is arranged on the second side of the second layer 5, a wavy lead-in 11 as a pathway. One end of the introducer 11 is connected to a capacitor 12 formed in the region of the left end of the inscription field 10 and opposite this on the second side of the second layer 5. The other end of the conductor 11 is free and extends from the capacitor 12 wave-like to near the right outer edge of the layer 5. Das Field 10, the capacitor 12 and the conductor 11 form a second arrangement.

Since all four layers 1, 5, 6 and 7 are glued or welded together results in a device of four layers, so a four-layer chip card.

Claims

claims

Device having a sheet-like substrate with a first side and a second side, characterized in that on the first side at least one first arrangement is provided, the at least one first cavity (2), at least one first initiator (4) and at least one first device for storing electromagnetic energy (3), one end of the initiator (4) having the device for storing the electromagnetic energy

(3) connected and the other end of the initiator

(4) as a free end in, below or adjacent to the first cavity (2).

Device according to the preceding claim, characterized in that the substrate has at least two layers, wherein the first arrangement is at least partially disposed in, on or at a first position.

Device according to the preceding claim, characterized in that the first layer (1) is a printed circuit board, wherein the introducer (4) and the at least first device for storing electromagnetic energy (3) is formed as a conductor track on the printed circuit board.

Device according to one of the two preceding claims, characterized in that the first layer (1) has an electrically insulating base material, preferably selected from the group consisting of epoxy resin, glass fiber, paper, ceramics, aluminum oxide, polyimide, poly-tetrafluoroethylene and polyethylene, and said conductor tracks an electrically conductive Ma ^¬ TERIAL, preferably a metal, especially before ^¬ Trains t copper, tin, nickel , Gold and / or platinum.

Device according to one of the preceding claims, characterized in that on the first side on the first layer, a second layer (5) is arranged, which contains a through opening (2) from one side of the second layer to the other side of the second layer, wherein the through opening (2) is arranged above the free end of the introducer (4) and forms the first cavity (2) with the first layer.

Device according to one of the preceding claims, characterized in that the second layer of plastic, preferably polycarbonate, polyethylene or polyvinyl chloride, contains or consists thereof.

Device according to one of claims 5 to 6, characterized in that the through opening of the second layer (2} is circular and has a diameter of 4.0-15.0 mm, preferably 6.0-12.0 mm, particularly preferably 8th , 0-9.0 mm, or is square or oval.

Device according to one of claims 5 to 7, characterized in that in the through-opening of the second layer (2) an absorbent material (9) is arranged. Apparatus according to claim 8, characterized in that the absorbent material is designed as a circular, absorbent Päd, preferably with a diameter in the layer plane of 4.0-15.0 mm, preferably 6.0-12.0 mm, particularly preferably 8th , 0-9.0 mm.

Device according to one of claims 8 to 9, characterized in that the absorbent material (9} is designed so that it absorbs liquids, in particular body fluids, preferably blood and / or saliva.

Device according to one of the preceding claims, characterized in that on the side facing away from the first layer side of the first or the second layer, a third layer (6) is arranged, which extends from the first side of the third layer to the second side of the third layer Contains opening (8) and is preferably designed as a self-adhesive decorative film.

Device according to claim 11, characterized in that the third layer (6), the second layer (5) so contacted that the Runaway ^¬ immediate opening of the third layer (8), preferably centrally, through the through hole of the second layer (2 ) is located.

Apparatus according to claim 11 or 12, characterized in that the diameter of the through hole in the third layer is smaller than the diameter of the through hole in the second layer.

Device according to one of claims 11 to 13, characterized in that the through opening of the third layer (8) is circular and has a diameter of 0.5-3.5 mm, preferably 1.0-3.0 mm, more preferably 1.5-2.5 mm, or is oval or rectangular.

Device according to one of claims 11 to 14, characterized in that the third layer (6) plastic, preferably polycarbonate, polyethylene or polyvinyl chloride, contains or consists thereof.

Device according to one of the preceding claims, characterized in that on the second side of the substrate at least one second arrangement is provided, the at least one field (10), at least one second Einlei- ter (11) and at least one second device for storing electromagnetic energy (12), wherein one end of the second initiator (11) is connected to the second electromagnetic energy storage device (12) and the other end is disposed as a free end in, on or adjacent to the field (10).

Apparatus according to claim 16, characterized in that the at least one second arrangement is arranged in, on or adjacent to the second side of the first layer.

Device according to one of the preceding ^¬ claims, characterized in that on the second side of the first layer a fourth layer (7) is arranged, which has at least one field (10) or at least one continuous recess in the form of a field (10) and be ^¬ preferably as self-adhesive decorative film ausgestal- Apparatus according to claim 18, characterized in that the fourth layer {7) plastic, preferably polycarbonate, polyethylene or polyvinyl chloride, contains or consists thereof.

Device according to one of claims 18 to 19, characterized in that the field (10) or the continuous recess in the form of a field (10) is rectangular, preferably the dimensions length x width of 2-7 cm x 0.5-2 cm , more preferably 4-6 cm x 0.8-1.5 cm, or is circular or oval.

Device according to one of claims 18 to 20, characterized in that the at least one field (10) or the at least one recess in the form of a field (10) comprises a writable material.

Apparatus according to claim 21, characterized in that the writable material is formed so that it adsorbs and / or absorbs solid and / or liquid writing material.

Device according to one of the preceding claims, characterized in that the at least two layers (1, 5, 6, 7) of the substrate are largely round, oval or rectangular.

Device according to one of the preceding claims, characterized in that the at least two layers (1, 5, 6, 7) of the substrate are formed in card format, preferably the dimensions length x width x height of 2-14 cm x 2-10 cm x 0.05-0.60 mm, more preferably 8-9 cm x 5-6 cm x 0.15-0.40 mm. Device according to one of the preceding claims, characterized in that disposed on, in or adjacent to the substrate, a third device for storing electromagnetic energy.

Device according to one of the preceding claims, characterized in that at least one, several or all of the devices for storing electromagnetic energy {3, 12) are a capacitor or have a capacitor.

Device according to one of the preceding ^¬ claims, characterized in that the pre ^¬ direction having on the first page, two or three first arrays.

Device according to one of claims 16 to 27, characterized in that the device comprises on the second side one, two or three second arrangements.

Device according to one of the preceding claims, characterized in that the free end of the at least one initiator (4) is designed spirally on the first side.

Device according to one of claims 16 to 29, characterized in that the free end of at least one initiator (11) on the second side is designed wave-shaped.

Device according to one of the preceding claims, characterized in that the free end of the at least one introducer (4) is incorporated on the first side into the through-opening of the second layer (2), preferably the stalt that in the region of the through opening (2) of the introducer (4), the first and / or second layer (1, 5) at least partially contacted.

32. Device according to one of claims 16 to 31, characterized in that the free end of the at least one introducer (11) on the second side in the field (10) or in the recess in the form of a field (10) is incorporated, preferably in such a way that the introducer (11) contacts the first layer (1) at least in certain regions.

33. Device according to one of claims 30 to 32, characterized in that the introducer on the first side (4) to less than or equal to half of its ümfangs the first, second and / or third layer (1, 5, 6} contacted and or the introducer on the second side (11) contacts less than or equal to half its circumference the first layer and / or fourth layer (1, 7).

3. Device according to one of the preceding claims, characterized in that at least one of the feeders (4, 11) a) contains or consists essentially of electrically conductive, preferably ferromagnetic, material; and / or b} is at least partially coated with at least one noble metal, preferably gold.