AT521552A2 - Device for emitting electromagnetic fields - Google Patents

Abstract

A device for applying electromagnetic fields to body areas comprises at least one actuator for the electromagnetic fields and a controller driving the actuator, the device having a structure that arranges the actuator on the body area to be applied. At least two actuators are provided which emit electromagnetic fields with different frequencies.

Description

Device for emitting electromagnetic fields

description

The invention relates to a device for emitting electromagnetic fields to body areas according to the preamble of claim 1 and a method according to the preamble of claim 15.

Devices for emitting electromagnetic fields are known. These devices are used to promote well-being and health. Using these devices, physical and / or psychological ailments can be prevented. For this purpose, the energy system of a user is exposed to the electromagnetic field of the device. The application of certain areas of the body leads to a solution of a blockage in the energy system, so that a health-promoting effect is produced.

Such a conventional device is shown in US 7,785,245 B2 where a coil assembly is taught in a flexible, resilient support. This device enables attachment to different areas of the body so that different points of the energy system can be treated. However, the device only offers the possibility of one type of

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Actuator to irradiate the body areas with a field. The frequency of the electromagnetic field can be varied, but the variation is only possible in a very limited range.

US 8 137 257 B1 discloses a device with permanent magnets which can be arranged in the temple area by means of a bracket. Here the user has an even more limited magnetic field available for the application of energy to the energy system, which is even static and has no electrical components.

Another device is shown in US Pat. No. 6,924,434 B2. The device comprises a coil arrangement which is formed along a flexible band-shaped element which can be wrapped around parts of the body of the user. This device also does not offer the possibility of having different electromagnetic fields act on the energy system.

DE 37 82 784 T2 describes a device that is adapted to a body area. An adjusting device is provided which makes it possible to adjust the diameter of a coil so that it can be fastened around body parts of different diameters. An electromagnetic field can thus be introduced into the body area. However, only one actuator is provided that generates one type of electromagnetic field.

For example, US 2013/0261 374 A1 shows a device which can vary an electromagnetic field in a frequency range from 1 to 25 kHz. The operating device can itself comprise one or more coil arrangements or these are arranged, for example, in a band-shaped or cuff-shaped element. The coil arrangements are all of the same type and thus they send out the same field simultaneously.

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EP Ο 927 066 B1 shows a device which is located in a headphone in the area of the ears. The device generates an alternating electromagnetic field with an adjustable, low frequency, which is selected such that the frequency is below 20 Hz, in particular between 3 and 15 Hz. However, only one type of field can be created here.

Due to the restriction to only one type of field at the same time, the conventional devices are not able to simultaneously apply and advantageously influence the energy system of a user with different electromagnetic fields.

The invention has for its object to provide a device of the type mentioned, with which at least two different electromagnetic fields can be generated. Another object is to provide a method that operates such a device.

According to the invention, the object is achieved by the features of the independent claim.

The device according to the invention for applying electromagnetic fields to body areas comprises at least one actuator for the electromagnetic fields and a controller driving the actuator, the device having a structure which arranges the actuator on the body area to be acted on. It is proposed to arrange at least two actuators in the device, the actuators emitting electromagnetic fields with different frequencies. In contrast to a static magnetic field, as generated by a permanent magnet, a vibrating magnetic field with an electrical component manifests itself according to the Maxwell equations, so that the vibrating magnetic field is an electromagnetic field. For example, at least one actuator could emit electromagnetic fields in the low frequency and another actuator in the visible light frequency range, which radiate onto a body area. Thus, different types of fields can simultaneously affect a user's energy system and develop psychological as well as physiological synergies that are beneficial for the health and well-being of the user.

In particular, the limbic system can be positively influenced by means of the electromagnetic fields in order to be able to process negative past experiences better. The targeted stimulation of the four main brain meridians (two bladder meridians and two gallbladder meridians) by the device according to the invention brings about a reduction in psychological stress after a short time and increases well-being. The device also improves communication between the two halves of the brain, counteracting a reduction in the number of brain cells. After using the device according to the invention, the reduced psychological stress due to the negative experiences of the past is stored in the limbic system, so that the user of the device as a whole develops a more positive attitude towards his past. This counteracts stress and adverse biochemical processes in the brain, which promotes the health of a user. Furthermore, the device releases blockages of the energy system containing the meridians, so that an energy flow through the body is improved. Such a device according to the invention additionally produces an anti-aging effect.

Stroke patients can also be advantageously treated by stimulating the energy system. In particular, the device supports the return of motor skills to stroke patients. Frequencies can act on meridians in certain time frames. Long-term use is particularly advantageous.

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With the described device, it is possible to implement a variety of treatment options inexpensively and effectively both innovatively and effectively. In particular, the construction of the device is simple and inexpensive.

The subclaims represent advantageous embodiments of the invention.

In an advantageous development of the invention, the first actuator can be an electromagnet, the essential field orientation of which is perpendicular to a surface of the body area, the electromagnet being in particular an electrical coil. The electromagnet can be provided from at least one turn. The turn can be a wire or a conductor printed on a foil. At least the field lines penetrate into the body area within the winding and can advantageously stimulate the energy system there. The coil can be placed directly on the body surface. It is also conceivable that the coil is spaced from the body surface. This enables particularly effective magnet therapy to be carried out.

Advantageously, the first actuator can generate an electromagnetic field that changes with a certain frequency through the control, the certain frequency preferably being between 1 to 15 Hz, but in particular being 7.83 Hz. Preferably, in the case of an actuator which builds up a magnetic field by induction, it can be advantageous to use a current with a change over time. Alternating current is preferred here. Low-frequency electromagnetic fields have a particularly good effect on the energy system, although the Schumann resonance at 7.83 Hz can be very effective. Schumann resonance is a frequency at which an electromagnetic wave forms a standing wave along the circumference of the earth.

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It can be cleverly provided that the second actuator is a light source, such as a light-emitting diode, which emits a continuous or flashing light. This light is sensed through the body surface and / or the eyes. This advantageously influences the user's energy system. In addition to the magnetic field therapy, the device with the second actuator as the light source can also provide a light therapy. This enables the energy system to be treated holistically.

The energy system is particularly advantageously influenced by the second actuator when the second actuator emits a light in the red and / or green and / or yellow and / or blue and / or violet spectral range. Furthermore, the light can also emit other colors or be continuously adjusted through the entire spectrum of light wavelengths. In addition to visible light, infrared and / or ultraviolet light wavelengths can also be emitted. The different wavelengths can produce different effects on the energy system. For example, the color yellow corresponds to the color of sunlight and has a positive effect on the user. The color yellow in particular promotes the strength, vitality and warmth of the user. The color yellow also has a positive effect on the cardiovascular system and the central nervous system. Alternatively or in addition, the color blue can act on the user, thereby promoting harmony, satisfaction and inner peace. The color blue has a calming and relaxing effect on a user, so that he can reduce stress. In particular, muscle tension can be eased by the energy-balancing blue light. Violet light can very advantageously transmit impulses to the nervous system and thus improve the overall functioning of the nervous system. Violet light can also have an advantageous effect on the digestive tract, the colon in particular being strengthened. In addition, fears and negative self-concepts can be solved by the violet light.

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The controller can expediently conduct an alternating current, preferably as a square-wave current, through the first actuator, the alternating current being generated by a flip-flop in the controller. The flip-flop can be set up using a NE555 timer IC. A voltage divider and a capacitor can be connected in the multivibrator and set the switching behavior. This enables a purely positive AC voltage, that is to say an AC voltage with an offset which is at least as large as the amplitude, to be generated. Alternatively, a sine generator for the alternating current can be used, which preferably has only a positive voltage.

A particular embodiment can include that the control for the actuators can be regulated, so that the spectral range of the light, the light intensity, the operating mode of the light and / or the frequency of the changing electromagnetic field can in particular be continuously adjusted. As a result, the controller can be connected to an operating element. The control element is in particular a touch screen display. Alternatively, the control element can be a mobile phone, a smartphone, a computer, a smartpad or a smartwatch. A program provided specifically for operating the device can be used for this purpose. A particularly simple embodiment of the device can comprise a control system which merely indicates a rotary or sliding button, a push button or push button for the adjustment of the actuators. The actuators can be adjusted continuously or in discrete steps. For example, the light can be operated as a flashing or continuously glowing light and the color of the light can be additionally changed. Furthermore, the electromagnetic field can be continuously adjusted, for example, from 1 Hz to 15 Hz or beyond, wherein preferably the discrete value of the Schumann frequency of 7.83 Hz can be set precisely by means of an operating process. For example, a separate button for the Schumann frequency can be provided.

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The controller can be connected wirelessly to at least one actuator, the controller being arranged on a section of the device or being formed separately from a section with an actuator, the controller being in particular a smartphone. For this purpose, the actuator has an antenna for receiving and preferably transmitting. A second controller is connected to the antenna and the actuator. The main controller is connected to the actuator by means of a radio signal, which is sent via its own antenna. Control can take place, for example, using Bluetooth.

The device can have, in particular, a lithium-based battery and / or a microcontroller with integrated radio technology. In particular, the actuators are connected to a rechargeable battery, so that the device can be designed to be portable. The battery can be lithium-based. Alternatively, the device can be connected to conventional mains electricity, such as is available in a household. Instead of the flip-flop, the microcontroller can be used, which enables very precise frequency settings. In particular, the Schumann frequency, which is particularly advantageous for the energy system, can be set precisely.

In order to advantageously arrange the device on the body areas, it can be provided that the device is designed as a piece of clothing or jewelry. For example, the device can be arranged on the head, in each case at least one electromagnet being positioned in the region of the temples and / or the two half faces of the face and / or the cheeks. Such a device for the head can be designed as headgear, with glasses, a headband, a cap, a clip, a band, a headscarf being realized. Additionally or alternatively, the device can be arranged around the neck, the device comprising a necklace, a belt, a scarf and / or a ribbon. The device can be additionally or alternatively arranged on a hand and / or a foot by means of a glove, a shoe, a bracelet and / or a foot strap

9/34, wherein at least one actuator can be arranged in the region of the fingers or toes and / or it can be a pair of pants and / or a shirt, an actuator in the region of the spine and / or the coccyx and / or the Shoulders and / or knee joints is arranged. A wide variety of body areas can thereby be acted upon by the device.

The different, differently designed devices can also be combined in an overall, so that a user only needs to put on the overall in order to act on all parts of the body simultaneously or individually.

At least one light source of the second actuator can advantageously be arranged between the eyebrows. The light from the light source shines into the eyes of the user and can therefore be used directly for light therapy. Furthermore, a light source can be arranged in the area of the hands and feet so that the light can shine on the body areas.

In a special way, the device can comprise a flexible spiral bracket that can be rolled up from its spiral shape, so that its diameter can be changed, wherein the bracket can in particular have a spring steel and / or an elastic plastic. Since the bow has a variable diameter, the bow can be placed around the neck, head, arm, leg, chest and / or waist, for example. Furthermore, the bracket can be rolled up completely so that it is stretched and can be arranged on the body surface along the body height of the user, for example. This allows the bracket to be used on a wide range of body areas with different dimensions. The bracket can have connecting means with which free ends of the bracket can be connected to one another. A set diameter can be fixed by the connecting means.

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The advantageous bracket can have fastening points for at least one actuator each at its free ends and / or between the free ends. In this way, actuators can be arranged on the bracket that point radially inward and are directed towards the body surface when the bracket is arranged. Furthermore, an actuator can be positioned perpendicular to the radial direction of the bracket, that is to say axially to the rolling direction of the bracket. As a result, the body areas can be acted upon by the bracket in different ways.

In particular, it is advantageous to provide the actuator as a flat arrangement of metal threads. The metal threads can lie side by side, woven, braided, knitted, knitted and / or crocheted. An electromagnetic field can either be generated and / or guided by the metal threads and applied to an area of the body.

The device can be operated in such a way that the actuators simultaneously apply a low-frequency electromagnetic field to one body area and a light to another and / or the same body area. The first actuator can emit an electromagnetic field with a frequency in the invisible range and the second actuator can emit a preferably continuously shining light. As a result, magnetic therapy and light therapy can be carried out at the same time.

It goes without saying that the features mentioned above and still to be explained below can be used not only in the respectively specified combination but also in other combinations. The scope of the invention is defined only by the claims.

The invention is explained in more detail below on the basis of two exemplary embodiments with reference to the associated drawings.

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It shows:

1 shows a device for subjecting an area of the body to an electromagnetic field,

2 a) and b) a bow-shaped device, the diameter of which is adjustable,

3 a) to c) a bow-shaped device which is arranged on different parts of the body,

4 shows a device which is designed as a shield cap and has a wireless connection to a controller,

5 a shield cap with an end-side actuator for generating an electromagnetic field,

6 a shield cap with two different front actuators for generating different electromagnetic fields,

7 shows a device which is designed as a glove which has an actuator on a finger section,

8 shows a breakdown of the body regions of the hand that influence the energy system,

9 each shows a device which is arranged in the region of a hand and a foot, devices being connected wirelessly to a controller,

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10 shows a device which is designed as a shirt, the actuator having metal threads,

11 shows an operating element with a touchscreen for controlling a device,

Fig. 12 shows a device which is designed as glasses with electromagnetic coils and a light emitting diode and

Fig. 13 shows a flip-flop for driving an electromagnetic coil of the device.

1 shows a device 10 for applying electromagnetic fields to body regions 12 of a user 11. The device 10 comprises an arcuate bracket 22 which has two free ends 23. An actuator 14 is attached to each of the free ends 23. The bracket 22 is preferably elastic so that it can change its diameter. The actuator 14 emits the electromagnetic field, which is directed to at least one body region 12. For this purpose, the actuators 14 are arranged on the body region 12 so that the electromagnetic field can act on the body region 12 through the body surface. The energy system of the user is advantageously influenced by the electromagnetic field, so that mental and physical impairments can be recovered. Furthermore, the application of body areas 12 can be used to prevent illness or to increase the general well-being of the user 11.

The free ends 23 of the bracket 22 are spaced apart from one another, so that a body region 12 can be inserted into the bracket 22 between the free ends. For example, the bracket 22 can be used like a headphone or a collar.

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The device 10 is connected to a controller 16 by a cable 17. For this purpose, the cable has plugs 19 at its ends, with which it can be electrically connected in the middle of the bracket 22 and then the controller 16. The controller 16 has operating elements 15 for switching the actuators 14 on and off. The operating mode of the actuators 14 can also be changed by means of the operating elements 15.

The actuators 14 can be designed as electromagnetic coils and / or light sources. The frequency 16 of the electromagnetic field of the coils can be changed by the controller 16. In particular, the frequency can be 1 to 15 Hz and preferably 7.83 Hz. Furthermore, the light source can be operated as a continuously radiating or a pulsating light source. The light frequency can also be adjusted by means of the control so that the entire spectral range of the visible light and preferably additionally the infrared spectral range and / or the ultraviolet spectral range are approached.

2 shows a device 10 which comprises a bracket 22 which is set to different diameters.

2a) shows a bracket 22, the free ends 23 of which lie radially next to one another with respect to the direction of extension of the bracket 22. At the free ends 23, the actuators 14 are attached to fastening points. The attachment points can be set up such that the actuators 14 are detachably connected to the bracket. At the free ends 23, an adjusting device can additionally be provided, by means of which the diameter of the bracket 22 can be adjusted. As a result, the bracket 22 can be shaped like a ring.

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In Fig. 2b) the bracket 22 is set with a smaller diameter by the free ends 23 are displaced along the bracket 22. The new diameter can be fixed using the adjustment device.

3 depicts different possible arrangements of the bow-shaped device 10 on body areas 12 of the user 11.

Fig. 3a) shows a spread bracket 22, the free ends 23 each come to rest with an actuator 14 on a temple of the user 11. The actuators 14 lie directly on the body surface. Only a padding of the device 10 can be provided between the skin of the user 11 and the actuator 14. The actuators 14 are arranged on the temples on the left and right. The actuators are preferably designed as magnetic coils that lie vertically on the body surface, so that the electromagnetic field can penetrate vertically into the body regions 12. The electromagnetic field stimulates the meridians of the two halves of the brain.

3b) shows a user 11 who has arranged the strap 22 around the neck in a manner similar to a necklace. The free ends 23 of the bracket 22 are connected to one another, while the actuators come to rest, for example, in a body region 12 between the clavicles.

3c) discloses a bracket 22 whose free ends 23 with the actuators 14 are arranged on the cheeks of a user 11. The bracket 22 is placed over or behind the head. This can stimulate the energy system in the head.

FIG. 4 shows a shield cap 20 which has two first actuators 141 and a second actuator 142 on one end face of the shield cap 20. It

15/34, a first actuator 141 is arranged on the left and right of the centrally arranged first actuator 142. In each case, a first actuator 141 is aimed at one side of the brain through the forehead of the user 11. The first actuator 141 is an electromagnetic coil which is oriented essentially perpendicular to the forehead of the user, so that the electromagnetic field can reach the meridians of the energy system in a vertical manner. The second actuator 142 arranged between the first actuators 141 can be embodied as a light-emitting diode that emits a continuous light for light therapy. Furthermore, a second control 32 is arranged approximately in the middle of the shield at the transition of the shield to the front side. The second controller 32 comprises an antenna with which a radio signal 30 can be received by the controller 16. The controller 16 can be a smartphone with a frequency app or a device specifically provided for setting a frequency and an operating mode of the actuators 141, 142. Alternatively, the control 16 can be attached to the cap 20 instead of the second control 32. This eliminates the need for radio transmission. Furthermore, the cap 20 can only be equipped with first actuators 141 or second actuators 142. The cap 20 can be put on by children while learning or drivers of motor vehicles when driving. The shield cap 20 sits extremely firmly on the head and can be used as an alternative to glasses 27. The controller 16, 32 can have a rechargeable battery 36 which provides energy for generating the electromagnetic fields. The battery 36 energizes the actuators 14, 141, 142

5 shows an alternative cap 20 which has a second actuator 142, in particular as a light-emitting diode, on the end face. A control 16, 32 is arranged on the back of the cap 20 in the area of the back of the user 11. The controller 16 can be controlled directly or as a second controller 32 via a radio signal 30 with a wireless controller 16. In the section of the cap 20 that covers the upper head of the user 11, fine metal threads 13 are incorporated. The metal threads 13 can

16/34 preferably have a thickness of 0.25 mm. The metal threads 13 are laid as a fabric in the flat cap 20. The metal threads 17 can contain silver or aluminum. Through the metal threads 13, electromagnetic pulses which are guided into the metal threads 13 by the controller 16, 32 can be transmitted to the head of the user. The metal threads 13 can be positioned on the inside of the cap 20, so that they cover a part or the entire top of the head. In particular, the skull cap of the head of the user 11 can be acted upon by the metal threads 13. The electromagnetic pulses can be generated by the electromagnetic field of the first actuator 141. Alternatively, a separate pulse generator can excite the metal threads 13 to emit biologically active electromagnetic fields.

A modification of the shield cap from FIG. 5 is shown in FIG. 6, in which, instead of the second actuator 142, two first actuators 141 are arranged on the front side for each half of the brain. The embodiments of the shield cap 20 from FIGS. 5 and 6 can also be combined with one another, so that a shield cap 20 as in FIG. 4 can be achieved. The shield cap 20 from FIG. 4 can also be equipped with metal threads 13.

FIG. 7 shows a glove 24 which has metal threads 13 which are spread out at least on the palm side and / or the back of the hand for transmitting the electromagnetic field to a hand of the user 11. The metal threads 13 can be woven into the fabric of the glove 24. Furthermore, they can be introduced into the glove 24 as a separate layer. A first or second actuator 14 is arranged on a finger section 25. Such an actuator 14 can be arranged in particular on the index finger. As an alternative or in addition, the actuator 14 can be positioned on a further finger section 25. Both a first actuator 141 and / or a second actuator 142 can be used. If the first actuator 141 is an electromagnetic coil, an electromagnetic field is created in one

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Fingers and / or a palm and / or a back surface are fed. In particular, metal threads 13 can introduce an electromagnetic field into the palm and / or the back surface. Furthermore, a second actuator 142 can be used to apply light to a finger, for example. The light can in particular be violet, which is particularly advantageous for the nervous system. Alternatively, instead of an actuator 14, 141, 142, a colored finger cap can be arranged on a finger section 25. The finger cap is particularly purple. A control 16, 32 is arranged on the wrist area of the glove 24. The controller 16, 32 preferably comprises a battery. Furthermore, a wireless controller 16 can send radio signals 30 to a second controller 32, which is attached to the glove 24. Both the frequencies and the operating modes of the actuators 14 can be set by the control. If a finger cap is used on the finger section 25, it does not need to be controlled by a control.

The glove 24 from FIG. 7 can preferably act on the fingers of a right hand of a user 11, as shown in FIG. 8. The body areas 12 of the fingers stand for different organs and biochemical processes in the brain of the user 11. The fold of the thumb nail turned away from the middle hand is involved in the energy system of the lymph as well as in the psychic resonance and the feeling of freedom. The fold of the thumb nail that faces the index finger affects the lungs as well as tolerance and humility. The nail fold of the index finger facing the thumb influences the energy system of the colon as well as the emotions of joy and self-confidence. The fold of the index finger facing the middle finger is connected to the nervous system and can be used to stimulate improved serenity. The nail fold of the middle finger facing the ring finger or the index finger in the energy system of the user 11 stands for allergies and a peaceful disposition or the circulatory system and the feelings of joy and

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Love. The ring finger has a fold facing the middle finger, which is close to the organ system and a change in life. Furthermore, the other fold of the ring finger is a triple heater meridian and can improve the adaptability of the user 11. The little finger has a fold facing the ring finger, which can affect the heart and love as well as safety, while the opposite fold represents trust and thinking for the small intestine.

FIG. 9 shows a further alternative embodiment of the device 10. An actuator 14 is arranged on the body area 12 of the hand and on the body area 12 of the foot of the user 11. A controller 16 sends radio signals 30 to respective second controllers 32. Body regions 12 acting on the second controllers 32 are actuated by actuators 14. The two devices 10 can be driven simultaneously or individually by a controller 16. For this purpose, the controller 16 has, in particular, a touchscreen 35, by means of which the frequencies and operating modes of the individual device 10 can be set. The wireless controller 16 can be a smartphone, which enables the frequencies of the actuators 14 to be set via an app. The device 10 in the area of the hand of the user 11 can be implemented on a glove 24, on a bracket 22 which is placed around a wrist and / or by means of a ring in a finger. The device 10 on the body region 12 of the foot can be formed by a shoe 26, a sock, a slipper, a cuff and / or a strap 22, which is placed on the ankle.

As shown in FIG. 10, the device 10 can be housed in a shirt 21. The shirt 21 can have a flat fabric made of metal threads 13. Metal threads 13 can be distributed throughout the shirt or can be localized in certain body areas 12. For example, a strip-like surface made of metal threads 13 can be positioned along the spine,

19/34 whereby the entire spine can be energized. In particular, blockages of the vertebrae can thereby be released. A control 16, 32 can be arranged in the region of the collar of the shirt 21. The control can be set wirelessly by a smartphone.

A schematic representation of the device 10 is shown in FIG. 11, an actuator 14 being connected to a controller 16. Furthermore, the controller 16 is connected to a rechargeable battery 36, which provides the energy for operating the controller 16 and the actuator 14. The controller can be operated by means of a microcontroller 34. The microcontroller 34 can contain a radio unit with which radio signals 30 are sent to a second controller 32. The second controller 32 operates a further actuator 14.

12 includes glasses 27 which have two first actuators 141 and a second actuator 142 in the front region, that is to say in the body region 12 of the face. The first actuators 141 are designed as magnetic coils and send an electromagnetic field with a certain frequency to the meridians in the head area. Between the first actuators 141 in the front area of the glasses 27 there is an actuator 142, which is designed as a light-emitting diode and sends light onto the body surface and the eyes of the user 11. A first actuator 141 is arranged on the temples 29 of the glasses 27 in the region of the temples of the user 11. The actuators 141, 142 are aligned with the body regions 12 such that the electromagnetic fields can penetrate perpendicular to the meridians. The light can be red, yellow, blue and / or purple. It is also conceivable for the control 16, 32 to continuously adjust the light through the spectral range of the visible light, the infrared light and / or the UV light. A battery 36 can be attached to a bracket 29 of the glasses 20. The controller 16, 32 is attached to an opposite bracket 29 of the glasses 20. The controller can both independently drive the actuators 141, 142 and can be wirelessly connected to a wireless controller 16 via a microcontroller 34. Here

20/34 controls a second controller 32 via a radio signal 30, which it receives from the wireless controller 16, the device 10.

Instead of the microcontroller 34, a circuit of a flip-flop 18 can be implemented as in FIG. 13. The flip-flop 18 can be implemented by a timer IC NE555, which is switched by a diode 44, resistors 38 and capacitors 40. The electrical components can be used to build a voltage divider (R1 = R2) that uses between 30 kOhm and 200 kOhm. Which resistance value is used depends on the desired frequency. An electrolytic capacitor (C1) of 1 pF was also used. In addition, a tantalum capacitor (C2) was connected from an nF directly to an output of the NE555 timer IC. A small signal diode of type 1N4148 can serve as the diode (D1). In this configuration, the circuit can deliver a maximum of 200 mA of current, which is sufficient for operating the actuators 14. The output current is usually between 50 mA and 100 mA. Due to the lower output current, signals in the low-frequency range, for example below 5 Hz and a low power consumption of the circuit, can be stabilized. This extends the operating time with one battery. The battery can be designed as a standard 9 V block battery. Alternatively, a voltage source can be selected that provides a supply voltage of 5 V to 15 V. A switch can act as an operating element 15, by means of which the flip-flop 18 is switched on. A battery 36 is provided for the power supply. The flip-flop 18 can have an output for a working circuit of an actuator 14, to which, for example, a magnetic coil is connected, to which a specific frequency generated by the flip-flop 18 is applied. The frequency can be generated by a sine or a square wave voltage.

In particular, very good results are achieved with the device 10 when frequencies between 8 to 22 Hz are applied to the body regions 12 for 10 to 30 minutes. The combination of magnetic therapy and

21/34 of light therapy particularly advantageous. The device can be used to treat poor concentration, poor learning, hyperactivity, hypoactivity and anxiety. The device 10 is particularly effective in children. Regular use can be used to treat nerve disorders such as Parkinson's dementia multiple sclerosis. In particular, stroke patients can be treated for up to two hours with the device 10 on hands and / or feet.

The device 10 can transmit information into the subconscious mind via the glasses and the headgear. For this purpose, a dictation device can record a spoken text on the transmitter module and transmit the signals to the brain via the actuators 14. To do this, the information is transmitted to the meridians. The transmission is not based on sound waves and is therefore absolutely silent. This allows affirmation to be addressed directly to the meridians in the brain. Furthermore, a USB connection of the device 10 can be provided, via which files or texts are transferred to the device and fed into the brain by means of a signal. Alternatively or in addition, the brain can be brought into a learning mode with a frequency of 10 Hz, in which, for example, texts read or other learning efforts lead to success particularly quickly.

Another possibility to improve the light therapy is to implement the device, such as the cap 20, in certain colors that have a therapeutic effect. Furthermore, the glasses of the glasses can also be colored, so that an increased therapeutic effect is achieved in combination with the actuators 14. A corresponding color can be arranged on the inside of the shirt 21 or the headgear at certain body areas 12 of energy centers.

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A microcontroller 34 can be used instead of the flip-flop 18. The microcontroller can determine precise frequencies. For example, precise frequencies can be output at a general purpose input output of the microcontroller 34 and a device 10 can be provided with an amplifier that forms the working group for the actuators. The device 10 can in particular be designed as glasses 27, a necklace or as another embodiment mentioned above. The microcontroller 34 can be set as a control element 15 via buttons or rotary knobs. A digital display can be connected to the microcontroller as a frequency display. Alternatively or in addition, a touchscreen 35 can also be connected to the microcontroller 34. A multi-color light-emitting diode can be used so that different colors can be set for the color therapy. Magnetic coils and the multi-color light-emitting diode can be controlled by the microcontroller. The solenoids and the multi-color light-emitting diode can be switched on and off separately and their frequencies and operating modes can be adjusted. A 433 MHz transmitter, Bluetooth, ZigBee, Bluetooth LowEnergy, Wigi, Wlan and / or ultra-wide band can be used as radio technology for the radio signals 30. Lithium polymer or lithium ion batteries can be used as the battery. A highly mobile device 10 is thereby achieved. The microcontroller could be used to implement a simple radio control based on the MasterSlave principle. The microcontroller can be a Texas Instruments, Arduino, RaspberryPi processor. Furthermore, the amplifier can be a transistor amplifier.

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Reference numerals

10th contraption 23 free ends 11 Users 24th Glove 12th Body areas 25th Finger section 13 Metal threads 26 shoe 14 Actuator 27 glasses 141 first actuator 29 Temple of the glasses 142 second actuator 30th Radio signal 15 Control element 32 second 16 control 34 Microcontroller 17th electric wire 35 Touchscreen 18th Flip-flop 36 battery pack 19th plug 38 resistance 20th Shield cap 40 capacitor 21 shirt 42 connection 22 hanger 44 diode

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Claims (17)

Claims 1. Device for applying electromagnetic fields to body areas (12), comprising at least one actuator (14) for the electromagnetic fields and a controller (16) driving the actuator (14), the device (10) exhibiting a structure which Arranges actuator (14) on the body region (12) to be acted on, characterized in that at least two actuators (141, 142) are included, each of which emits electromagnetic fields with different frequencies. 2. Device according to claim 1, characterized in that the first actuator (141) is an electromagnet, the essential field orientation of which is perpendicular to a surface of the body region (12), the electromagnet being in particular an electrical coil. 3. Device according to claim 1 or 2, characterized in that the first actuator (141) by the controller (16) generates an alternating electromagnetic field with a specific frequency, the specific frequency preferably being between 1 to 15 Hz, but in particular 7 , Is 83 Hz. 4. Device according to one of claims 1 to 3, characterized in that the second actuator (142) is a light source such as a light emitting diode, which emits a continuous or flashing light. 5. Device according to one of claims 1 to 4, characterized in that the second actuator (142) emits a light in the red and / or green and / or yellow and / or blue and / or violet spectral range. 6. Device according to one of claims 1 to 5, characterized in that the controller (16) sends an alternating current through the first actuator (141), wherein the alternating current is preferably a square wave voltage, which is generated by a flip-flop (18) in the controller ( 16) is generated. 25/34 7. Device according to one of claims 1 to 6, characterized in that the controller (16) is adjustable, so that the spectral range of the light, the light intensity, mode of operation of the light and / or the frequency of the changing electromagnetic field is particularly continuously adjustable. 8. Device according to one of claims 1 to 7, characterized in that the controller (16) is wirelessly connected to at least one actuator (14), the controller (16) being arranged on a section of the device (10) or separately from a section with an actuator (14), the control (16) being in particular a smartphone. 9. Device according to one of claims 1 to 8, characterized in that a lithium-based battery and / or a microcontroller with an integrated radio technology is included. 10. Device according to one of claims 1 to 9, characterized in that the device (10) can be arranged on the head, wherein at least one electromagnet is arranged in the region of the temples and / or the two half faces of the forehead and / or the cheeks, wherein the device (10) comprises headgear, glasses, a headband, a cap (20), a bow (22), a band, a headscarf and / or the device (10) can be arranged around the neck, the device ( 10) comprises a necklace, a belt, a scarf and / or a ribbon and / or the device (10) on a hand and / or a foot by means of a glove (24), a shoe (26), a bracelet and / or a foot strap can be arranged, with at least one actuator (10) being arranged in the area of the fingers or toes and / or the device (10) being a pair of pants and / or a shirt (21), an actuator (14) in the Area of the spine and / or the Coccyx and / or the shoulders and / or knee joints is arranged. 26/34 11. The device according to claim 9, characterized in that the device comprises an overall. 12. Device according to one of claims 1 to 11, characterized in that at least one light source of the second actuator (142) can be arranged between the eyebrows. 13. Device according to one of claims 1 to 12, characterized in that the device (10) comprises a flexible spiral bracket (22) which can be rolled up from its spiral shape so that its diameter can be changed, the bracket (22) in particular one Has spring steel and / or an elastic plastic. 14. The apparatus according to claim 12, characterized in that the bracket (22) at its free ends (28) and / or between the free ends (28) has fastening points for at least one actuator (14). 15. Device according to one of claims 1 to 14, characterized in that the actuator (14) has flat metal threads. 16. A method for operating a device with electromagnetic fields by actuators (14), in particular according to one of the preceding claims, characterized in that a first actuator (141) an electromagnetic field with a frequency in the invisible range and a second actuator (142) preferably emits continuously shining light. 17. The method according to claim 15, characterized in that the frequency of the first actuator (141) is continuously controlled by a controller (16), in particular a microcontroller (34) and / or a flip-flop being controlled.