RO132423A2 - Resonant device, apparatus and method for high-frequency electromagnetic stimulation of acupuncture points and other active electrodermal zones () - Google Patents

Resonant device, apparatus and method for high-frequency electromagnetic stimulation of acupuncture points and other active electrodermal zones () Download PDF

Info

Publication number
RO132423A2
RO132423A2 ROA201600598A RO201600598A RO132423A2 RO 132423 A2 RO132423 A2 RO 132423A2 RO A201600598 A ROA201600598 A RO A201600598A RO 201600598 A RO201600598 A RO 201600598A RO 132423 A2 RO132423 A2 RO 132423A2
Authority
RO
Romania
Prior art keywords
acupuncture
active
electrodermal
electromagnetic
resonant
Prior art date
Application number
ROA201600598A
Other languages
Romanian (ro)
Inventor
Marian Velcea
Cornel Ion Moldovan
Ioan Plotog
Bogdan Mihăilescu
Cătălin Robertino Hideg
Original Assignee
Marian Velcea
Cornel Ion Moldovan
Ioan Plotog
Bogdan Mihăilescu
Cătălin Robertino Hideg
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Marian Velcea, Cornel Ion Moldovan, Ioan Plotog, Bogdan Mihăilescu, Cătălin Robertino Hideg filed Critical Marian Velcea
Priority to ROA201600598A priority Critical patent/RO132423A2/en
Priority to PCT/IB2017/055122 priority patent/WO2018037379A1/en
Publication of RO132423A2 publication Critical patent/RO132423A2/en

Links

Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N1/00Electrotherapy; Circuits therefor
    • A61N1/40Applying electric fields by inductive or capacitive coupling ; Applying radio-frequency signals

Landscapes

  • Health & Medical Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Biomedical Technology (AREA)
  • Nuclear Medicine, Radiotherapy & Molecular Imaging (AREA)
  • Radiology & Medical Imaging (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Finger-Pressure Massage (AREA)
  • Magnetic Treatment Devices (AREA)

Abstract

The invention relates to a resonant device, an apparatus and a method for high-frequency electromagnetic stimulation of acupuncture points and other active electrodermal zones. According to the invention, the resonant device comprises passive electronic components, such as resistor, capacitor and coil/inductor assembled in one or several oscillating circuits with resonance frequencies selected according to the targeted/estimated bioresonant response, centrally provided with an enclosure, such as a Faraday cage, inside of which the electric charges of the capacitors are concentrated and at least one coil, preferably placed around the Faraday cage, which generates in the surrounding space a magnetic field symmetrical in relation with the perpendicular of the surface on which it is applied. The apparatus, as claimed by the invention, consists of one or several sets of at least two identical resonant devices superposed on the acupoints and other active electrodermal zones. The method, as claimed, consists in placing a set of resonant devices in certain places which are known in the acupuncture therapy to be appropriate for inducing energetic balance.

Description

Prezenta invenție se refera ia o metoda, un aparat si un dispozitiv pasiv rezonant electromagnetic de frecventa înalta care prin multiplicare si calibrare pe frecvete identice si/sau diferite determina efecte locale si sistemice care pot fi utilizate in terapeutica în scopul de a modifica o stare fiziologică sau pentru tratamentul unei afecțiuni patologice date potrivit metodei de implementare prezentate, prin amplasarea dispozitivelor după scheme prestabilite la nivelul punctelor si meridianelor de acupunctura sau la nivelul altor zone cutanate active și de asemenea se referă la aparatele electronice care permit implementarea metodeiThe present invention relates to a method, an apparatus and a passive high frequency electromagnetic resonant device which, by multiplication and calibration on identical and / or different frequencies, determines local and systemic effects that can be used in therapeutics in order to modify a physiological state. or for the treatment of a pathological condition according to the presented method of implementation, by placing devices according to predetermined schemes at the level of acupuncture points and meridians or at the level of other active skin areas and also refers to the electronic devices that allow the implementation of the method

STADIUL ACTUALCURRENT STAGE

Acțiunea acupuncturii se realizează prin stimularea (mecanica, termica, electrica, optica, etc) unor zone cutanate punctiforme - puncte de acupunctura (AP), acupuncte sau punctele active ale pielii” răspândite pe suprafața învelișului cutanat la nivelul a 14 linii, denumite in mod convențional meridiane, 12 meridiane pereche si doua impare, dispuse In axul longitudinal al corpului.The action of acupuncture is performed by stimulating (mechanical, thermal, electrical, optical, etc.) of punctate cutaneous areas - acupuncture points (AP), acupuncture or active points of the skin "spread on the surface of the skin lining at the level of 14 lines, so called conventional meridians, 12 pair meridians and two odd meridians, arranged in the longitudinal axis of the body.

După Academia de Acupunctura Tradiționala Chineza s-a demonstrat ca punctele active si meridianele lor de legătură sunt in primul rând entitati funcționale. Studiul distribuției câmpului electromagnetic al meridianelor de acupunctura, efectuat cu tehnici de magnetometrie supraconductoare de înalta rezoluție (SQUID: superconducting quantum interference device) a pus in evidenta rolul bio-energetic a! sistemului de meridiane, ca de exemplu cel de colector de energie electromagnetica (colector solar) si de transportor al energiei astfel colectate dealungul ceior 12 perechi de meridiane. Punerea in evidenta a proprietăților electrice distincte aie punctelor active cutanate a constituit nu numai confirmarea observațiilor milenare asupra punctelor de acupunctura, ci si punerea in evidenta a unor particularități funcționale cu implicații in homeostazia energetica si informaționala a organismelor vii.According to the Chinese Academy of Traditional Acupuncture, it has been shown that the active points and their connecting meridians are primarily functional entities. The study of the distribution of the electromagnetic field of acupuncture meridians, carried out with high resolution superconducting magnetometry techniques (SQUID: superconducting quantum interference device), has revealed the bio-energetic role of! of the meridian system, such as that of the electromagnetic energy collector (solar collector) and the energy carrier thus collected, together with the 12 pairs of meridians. The highlighting of the distinct electrical properties of the cutaneous active points constituted not only the confirmation of millennial observations on acupuncture points, but also the highlighting of functional particularities with implications in the energetic and informational homeostasis of living organisms.

Din studiul proprietăților electrice active si pasive ale punctelor de acupunctura se evidențiază unele caracteristici care le diferențiază net de tegumentul considerat inactiv: acupunctele prezintă caracteristici electrice asemanatoare substanțelor semiconducoare-conductivitate intermediara intre metale si dielectrice; conductivitatea lor electrica creste proporțional cu creșterea temperaturii; conductivitate lor este unidirecționala: acupunctele au proprietăți de ionizare cu electroni si fotoni; acupunctele au un nivel de stimulare similar curentului de deschidere a semiconductorilor; diferența de potențial in punctele active poate fi asimilata cu emisia de electroni in prezenta impurităților de structura.From the study of the active and passive electrical properties of the acupuncture points, some characteristics are distinguished that clearly differentiate them from the tegument considered inactive: the acupuncture presents electrical characteristics similar to the semiconductor substances-intermediate conductivity between metals and dielectrics; their electrical conductivity increases in proportion to the increase in temperature; their conductivity is unidirectional: acupuncture has ionization properties with electrons and photons; acupuncture has a stimulation level similar to the semiconductor opening current; the potential difference in the active points can be assimilated with the emission of electrons in the presence of structural impurities.

Sunt cunoscute numeroase procedee si metode pentru stimularea punctelor de acupunctura si a altor zone active cutanate (puncte auriculare, craniale, palmare si podale, puncte Weihe, Dujardin, Voii etc), care presupun aplicarea si variația unor stimuli mecanici (ace de acupunctura), termici (moxibustie, radiație infrarosie), electrici, electro-magnetici, electromagnetici pulsați, magnetici, ultrasonicî, microunde, laser, sunete, culori etc.Numerous methods and methods for stimulating acupuncture points and other active skin areas (auricular, cranial, palmar and podal points, Weihe, Dujardin, Voii etc) are known, which require the application and variation of mechanical stimuli (acupuncture needles), thermal (moxibustion, infrared radiation), electric, electro-magnetic, pulsed electromagnetic, magnetic, ultrasonic, microwave, laser, sound, colors etc.

Diversitatea si stadiul actual al metodelor si dispozitivelor de stimulare sunt prezentate sintetic in următoarea lista de brevete de invenție:The diversity and current state of the stimulation methods and devices are summarized in the following list of patents:

1) .Brevetul francez nr 75 04116 depus în 10 februarie 1975 de către compania germană ELMATRON GmbH are titlul Aparatură pentru stimularea vindecării celulelor unor organisme umane sau animale prin Intermediul unor impulsuri electromagnetice. Acest aparat emite unde electromagnetice cu o frecvență fundamentala care nu este indicată precis (frecvențe înalte), dar sunt modulate sub formă de impulsuri repetitive la frecvențe în intervalul 0 - 1000 Hz. (Modulare 0-1000Hz).1). The French patent no 75 04116 filed on February 10, 1975 by the German company ELMATRON GmbH has the title Apparatus for stimulating the healing of cells of human or animal organisms through electromagnetic impulses. This device emits electromagnetic waves with a fundamental frequency that is not accurately indicated (high frequencies), but is modulated as repetitive pulses at frequencies between 0 - 1000 Hz. (Modular 0-1000Hz).

2) .Brevetul german din 29 octombrie 1975, extins în Franța sub nr 76 32116 de MesserschmittBOLKOW-Blohm se refera ia Aparatură de utilizare a acțiunii luminii pentru tratamente terapeutice similare cu acupunctura. Acesta are in vedere proiectarea de radiații laser de putere mică, care a 2016 005982). The German patent of October 29, 1975, extended in France under no. 76 32116 by MesserschmittBOLKOW-Blohm refers to the Apparatus for using the action of light for therapeutic treatments similar to acupuncture. It is considering the design of low power laser radiation, which has 2016 00598

26/08/2016 este produsă în impulsuri prin intermediul unui declanșator la o frecvență de modulare de la 2 Hz ia 20 Hz, stimulând astfel punctele specificate cu pete de lumină care sunt de aproximativ 1 mm în diametru, așa cum sunt stabilite în acupunctura și producând aceleași efecte ca cele obținute prin stimularea acetora cu ajutorul acelor.26/08/2016 is produced in pulses by means of a trigger at a modulation frequency from 2 Hz to 20 Hz, thus stimulating the specified points with light spots that are approximately 1 mm in diameter, as established in acupuncture and producing the same effects as those obtained by acetor stimulation using the needles.

3) .Brevetul francez nr 76 32152 depus în 24 noiembriel976 sub de di Pierre NOGIER, are titlul Metodă și aparat pentru stimularea locală cu radiații electromagnetice. Radiația de frecventa fundamentala este produsă de un fascicul de radiații infraroșii, care este cel puțin semicoerentă, cu o frecvență fundamentală de 73 Hz șl include numeroase armonice; iluminează puncte selectate de pe corp (nespecificat), fara a prezenta detalii cu privire la efectele obținute.3). The French patent no 76 32152 filed in November 24, 2009 under di Pierre NOGIER, has the title Method and device for local stimulation with electromagnetic radiation. The fundamental frequency radiation is produced by a beam of infrared radiation, which is at least semi-coherent, with a fundamental frequency of 73 Hz and includes many harmonics; illuminates selected points on the body (not specified), without presenting details about the effects obtained.

4) .Brevet francez nr 79 04486 depus pe 15 februarie 1979 de domnul Pierre NOGiER, are titlul Metodă și aparat pentru tratamentul magnetic a! organismelor vii. El descrie un dispozitiv din sticlă de tip Polaroid, care este uzual folosit pentru polarizarea luminii și care se interpune între o sursă de flux magnetic șl organismul de tratat; fluxul polarizat apoi pătrunde adânc în organism, fără a-și pierde polarizarea, spre deosebire de lumina nepolarizata. Aparatul realizat pe baza acestei metode a fost comercializat sub marca “POLARTRON” si a fost folosit pentru calmarea durerilor.4). French patent no 79 04486 filed on February 15, 1979 by Mr. Pierre NOGiER, has the title Method and apparatus for the magnetic treatment of! living organisms. It describes a Polaroid type glass device, which is commonly used for polarizing light and which interposes between a source of magnetic flux and the body to be treated; the polarized flux then penetrates deep into the body, without losing polarization, as opposed to unpolarized light. The device made using this method was marketed under the brand name "POLARTRON" and was used to relieve pain.

5) . Brevetul francez nr 80 23007 depus la 28 octombrie 1980 de domnul Christian C. MARET se refera la aparat emițător de lumină având un efect fiziologic prin piele. Aparat este destul de complex, cuprinzând o sursa de lumină intermitentă având o perioadă de 2 până ia 6 secunde, care trece succesiv și în această ordine printr-un ansamblu filtru colorat, iar apoi prin straturi de țesut impregnate cu substanțe active diluate. Acei dispozitiv este adecvat pentru aplicare la încheietura mâinii sau glezna utilizatorului și permite să fie combinate o multitudine de acțiuni terapeutice cu o selecție corespunzătoare a filtrelor asociate cu substanțele active care sunt diluate și prestate dinamic prin utilizarea metodelor de homeopatie ale lui Hahnemann5) . French patent no 80 23007 filed on October 28, 1980 by Mr. Christian C. MARET refers to the light-emitting apparatus having a physiological effect through the skin. The apparatus is quite complex, comprising an intermittent light source having a period of 2 to 6 seconds, which also passes successively in this order through a colored filter assembly, and then through layers of tissue impregnated with diluted active substances. Those devices are suitable for application to the wrist or ankle of the user and allow a multitude of therapeutic actions to be combined with an appropriate selection of filters associated with the active substances that are diluted and dynamically rendered using Hahnemann's homeopathy methods.

6) . Brevetul francez nr 81 09663 depus la 13 mai 1981 de către dl. Bernard BRICOT, descrie Un dispozitiv picior pentru tratarea zonelor reflexogene ale picioarelor, în special probleme și afecțiuni datorate dezechilibru rahidian”. Ideea este de a stimula zonele de reflex de la picioare, și este destul de generai, deoarece dispozitivul revendicat poate acoperi întreaga suprafață a talpa piciorului cu ajutorul unui polarizor constituit din cel puțin două plăci sau foi dintr-un material care are determinate o orientare moleculară sau cristalin, plăcile fiind suprapuse într-o asemenea manieră încât axele lor de polarizare sunt traversate. Acest dispozitiv utilizează aceiași principiu terapeutic ca POLARTRON descris în brevetul domnului NOGiER, dar fără o sursă magnetică active, care este considerata a fi toxica dacă intensitatea este prea puternica, în special pentru utilizarea pe picior. Rezultatele terapeutice sunt obținute după mai multe luni de reechilibrare a coloanei vertebrale și prin îmbunătățirea diverselor tulburări funcționale legate de statica.6). French Patent No. 81 09663 filed on May 13, 1981 by Mr. Bernard BRICOT, describes A foot device for treating reflex areas of the legs, especially problems and conditions due to spinal imbalance ”. The idea is to stimulate the reflex areas of the feet, and it is quite generous, because the claimed device can cover the entire surface of the sole of the foot with the help of a polarizer consisting of at least two plates or sheets of a material having a molecular orientation. or crystalline, the plates being superimposed in such a way that their polarization axes are crossed. This device uses the same therapeutic principle as POLARTRON described in NOGiER's patent, but without an active magnetic source, which is considered to be toxic if the intensity is too strong, especially for use on the foot. The therapeutic results are obtained after several months of rebalancing the spine and by improving the various functional disorders related to static.

7) . Brevetul german nr 33 26 513.5 a depus la 22 iulie 1983 de domnul Volkmar TETZNER, se refera ia aparate de iradiere pentru tratamente fotobiologice și fotochimice. Acest aparat are o sursă de lumină ultraviolet cu care face iluminări ale pielii pentru tratamente, în specia! tratamente dermatologice, printr-un set de filtre plasate în perechi într-o carcasă, ușor de schimbat în funcție de tratament.7). German patent no. 33 26 513.5 filed on July 22, 1983 by Mr. Volkmar TETZNER, refers to irradiation devices for photobiological and photochemical treatments. This device has an ultraviolet light source with which it makes illuminations of the skin for treatments, in this case! dermatological treatments, through a set of filters placed in pairs in a housing, easy to change depending on the treatment.

8). Brevetul francez nr 83 14020 depus pe 29 august 1983 de dl. Jean Bernard MOREZ, se refera la Aparate pentru stimulare non-manuala a punctelor învelișului cutanat cunoscute sub numele de puncte de acupunctura. Această invenție se referă ia stimularea acustica la frecvențe joase modulate.8). French patent no 83 14020 filed on August 29, 1983 by Mr. Jean Bernard MOREZ, refers to Devices for non-manual stimulation of the points of the skin envelope known as acupuncture points. This invention relates to acoustic stimulation at modulated low frequencies.

9). Brevetul francez nr 88 08347 depus la 17 iunie 1988 de domnii. Michel Marignan, Philippe Reboul, și Philippe SOUVESTRE, se refera la Un dispozitiv pedologie pentru corectarea tulburărilor posturale și afecțiunilor de tonus neuromuscular cu privire la postura. Acest dispozitiv este constituit din unul sau mal multe filme care acționează ca filtre optice plasate într-un brant, poziționate în registrul cu zona reflex care urmează să fie stimulată9). French patent no 88 08347 filed on June 17, 1988 by the gentlemen. Michel Marignan, Philippe Reboul, and Philippe SOUVESTRE, refer to A pedology device for correcting postural disorders and neuromuscular tone disorders regarding posture. This device consists of one or several films that act as optical filters placed in a brant, positioned in the register with the reflex area to be stimulated

10). Brevetul francez nr 90 06241/ WO 91/17737 depus la 18 mai 1990 de domnul Sao VU-DINH, se refra la “aparat portabil pentru acupunctura. Acest aparat de dimensiuni mici conținut într-o carcasă de tip ceas de mana, efectuează stimularea electrica pe puncte de pe fața Interioară a încheieturii a 2016 00598 mâinii prin aplicare de tensiuni de 1 ia 12 volți, pentru durate de 0,1 ia 2 secunde și o frecvență de repetiție de 0,5 Hz la 10 Hz.10). French Patent No. 90 06241 / WO 91/17737 filed on May 18, 1990 by Mr. Sao VU-DINH, refers to “portable acupuncture device. This small device contained in a wrist watch case, performs electrical stimulation on points on the inner face of the wrist of 2016 00598 hand by applying voltages of 1 to 12 volts, for durations of 0.1 to 2 seconds. and a repetition frequency of 0.5 Hz to 10 Hz.

11) . Brevetul european nr 0 447 568 Al depus pe 02 octombrie 1990 de domnii Vaiery LOBAREV, Sergl Sitko și Vădim LJUCHENKO descrie un Aparat pentru terapie prin rezonanță cu microunde. Acest aparat este constituit dintr-o sursă electromagnetica cu emsie în banda milimetrica (25...150 GHz) pentru stimularea frecvențelor de rezonanță aie organismului.11). European Patent No. 0 447 568 It was filed on October 2, 1990 by Vaiery LOBAREV, Sergl Sitko and Vădim LJUCHENKO describing an apparatus for microwave resonance therapy. This device consists of an electromagnetic source with emission in the millimeter band (25 ... 150 GHz) for stimulating the resonance frequencies of the body.

12) . Brevetul US 6461375 Bl depus pe 13 iunie 1997, de Aiain Baudry si Michel Marignan are titlul Metodă șl aparat pentru stimularea electromagnetică a pielii pentru tratarea stărilor patologice. Metoda și dispozitivul permit stimuiarea electromagnetică a pielii pentru modificarea unei stări fiziologice sau efectuarea tratamentului unei anumite patologii. Dispozitivul este caracterizat prin construcția din elemente electronice care conferă un comportament oscilant la cel puțin o frecvență de rezonanță indusa din exteriorul articolului.12). US Patent 6461375 Bl filed June 13, 1997, by Aiain Baudry and Michel Marignan is titled Method and Apparatus for the Electromagnetic Stimulation of the Skin for the Treatment of Pathological Conditions. The method and the device allow the electromagnetic assessment of the skin to modify a physiological state or to perform the treatment of a certain pathology. The device is characterized by the construction of electronic elements that give an oscillating behavior to at least one resonance frequency induced from the outside of the article.

13) .Brevetul US 6421560 Bl depus pe 11 ianuarie 2000 de Tae Woo Yoo are titlul Dispozitiv pentru ghidarea spotului pentru acupunctura si metode de stimulare a acestora. Dispozitivul include un dispozitiv de ghidare a spotului pentru acupunctura, bazat pe un computer.13). US Patent 6421560 Bl filed on January 11, 2000 by Tae Woo Yoo has the title Device for guiding the spot for acupuncture and their stimulation methods. The device includes a computer-based spot guidance device for acupuncture.

14) . Brevetul US 6961622 depus pe 31 octombrie 2002 de Bruce R, Gilbert are titlul “Dispozitiv pentru stimularea de suprafață a punctelor de acupunctura. Dispozitivul este de preferință sub formă de disc si are două straturi primare: un prim strat are o parte, care este partea inferioară în uz cu roi de asigurare a aderării ia suprafața pielii unui pacient, un al doiiea strat, superior pe fața inferioară ia care circuitul electric este Imprimat sau aplicat astfel încât circuitul electric este intercalat între straturi. Aparatul se poate realiza în mai multe dimensiuni pentru a se potrivi la dimensiunea pacientului și la locația punctului de acupunctura ce urmeaza a fi stimulat. Sunt prezentate două forme distincte ale dispozitivului: pentru o singură utilizare și un dispozitiv reutilizabile. in cazul folosinței unice a dispozitivului, primul strat-inferior este de preferință o spumă cu adeziv non-conductiv pe ambele părți: partea de jos pentru lipire de piele și partea de sus pentru a adera ia discul poliester superior. Găurile prin acest strat de spumă inferior includ, de preferință, opt găuri distanțate aproximativ concentric de o gaură centrală în mijlocul stratului de spumă de jos. Toate aceste găuri sunt, de preferință, supraîncărcate cu un gel conductiv electric care se extinde din stratul de spumă inferior. Circuitul conductiv preferabil imprimat pe partea inferioară a stratului superior oferă o serie de conexiuni prin geiu! din fiecare din cele opt găuri concentrice și o conexiune separată a gelului prin gaura centrală când stratul superior este aderent ia stratul inferior. Circuitul imprimat care poate fi un film de argint/clorură de polimer de argint, prevede, de asemenea o ureche (e), care poate fi permanent sau temporar, aplicată pe un simulator integrai sau de la distanță prin contact sau directe prin sârmă conductoare. In dispozitivul reutilizabil un materia! adeziv sensibil ia presiune formează stratul inferior care permite aplicații multiple ia pielea unui pacient. Stratul inferior adeziv este transparent pentru a arăta electrodul circular central-electrodul inelar. Electrozii sunt de preferință, de argint / de film clorură de polimer de argint. în oricare configurație, bază de metal izolata cu poliuretan poate fi folosita, pentru conexiune electrică cu capetele opuse aie firelor conectate ia. mufele pentru conectarea la un stimulator de impuls sau se poate termina în file conducătoare de electricitate.14). US Patent No. 6961622 filed October 31, 2002 by Bruce R, Gilbert is entitled "Device for surface stimulation of acupuncture points. The device is preferably in the form of a disc and has two primary layers: a first layer has a part, which is the lower part in use with adhesive swabs to secure the skin surface of a patient, a second layer, superior on the lower face and which the electrical circuit is Printed or applied so that the electrical circuit is sandwiched between the layers. The device can be made in several dimensions to suit the size of the patient and the location of the acupuncture point to be stimulated. There are presented two distinct forms of the device: for a single use and a reusable device. In case of single use of the device, the first lower layer is preferably a non-conductive adhesive foam on both sides: the bottom for gluing the skin and the top to adhere to the upper polyester disc. The holes through this bottom foam layer preferably include eight holes approximately concentric about a central hole in the middle of the bottom foam layer. All of these holes are preferably overloaded with an electrical conductive gel that extends from the lower foam layer. The conductive circuit preferably printed on the underside of the top layer offers a series of connections via jogging! from each of the eight concentric holes and a separate gel connection through the central hole when the upper layer is adherent and takes the lower layer. The printed circuit, which may be a silver film / silver polymer chloride, also provides an ear (s), which may be permanent or temporary, applied to an integrated or remote simulator by contact or direct by conductive wire. In the reusable device a matter! Pressure sensitive adhesive forms the lower layer that allows multiple applications to a patient's skin. The lower adhesive layer is transparent to show the central circular electrode - the ring electrode. The electrodes are preferably silver / silver polymer chloride film. In any configuration, a polyurethane insulated metal base can be used for electrical connection with the opposite ends of the wires connected to it. the sockets for connection to a pulse stimulator or can be terminated in electrical conducting plugs.

15).Brevetul US 20030195585 Al depus ia 12 mai 2003 de Gregory Gruzdowich, Thomas Grey, Robert Duffy, Hogar Tait, Thomas Mann are titiui dispozitiv de eiectro-acupunctura cu electrod de stimulare.15). US Patent 20030195585 Filed May 12, 2003 by Gregory Gruzdowich, Thomas Gray, Robert Duffy, Hogar Tait, Thomas Mann has a titanium electro-acupuncture device with electrode stimulation.

Dispozitivul include o unitate centrala care include o carcasa de tip ceas de mana, circuite pentru generarea stimulilor de electroacupunctura dispusa in aceasta și o curea pentru fixarea carcasei ia încheietura mâinii. Unitatea de bază are o construcție standardizată. Dispozitivul include un ansamblu de electrozi atașabil.The device includes a central unit that includes a watch-type housing, circuits for generating electro-acupuncture stimuli disposed therein, and a strap for securing the housing to the wrist. The basic unit has a standardized construction. The device includes an electrode assembly that can be attached.

Ansamblu! electrod se ataseaza ia unitatea de bază a dispozitivului. Ansamblu! electrod include o pereche de electrozi și conectori pentru conectarea electrozilor pentru circuitele de unitatea de bază. Ieșirea dispozitivului depinde de circuitele ansamblului electrod. Astfel, se pot face diverse ansambluri de electrozi. Circuitele unității de bază modifică ieșirea dispozitivului în funcție de electrodul de asamblare care este atașat la unitatea de bază.Assembly! the electrode is attached to the base unit of the device. Assembly! The electrode includes a pair of electrodes and connectors for connecting electrodes to the base unit circuits. The output of the device depends on the circuits of the electrode assembly. Thus, various electrode assemblies can be made. The circuits of the base unit modify the output of the device depending on the assembly electrode that is attached to the base unit.

Cele mai multe dintre aceste aparate sau metode fac uz de surse externe active, făcându-le mult mai complicat de folosit prin dimensiuni si greutate, fiind imposibil de a fi purtate în mod continuu deoarece necesita o sursă de alimentare. în plus, acțiunea acestora poate fi toxică, deoarece intensitatea radiației poate avea efecte nocive asupra organismului.Most of these devices or methods make use of active external sources, making them much more complicated to use due to their size and weight, being impossible to carry continuously because they require a power supply. In addition, their action can be toxic, because the intensity of radiation can have harmful effects on the body.

Stimularea este uneori continuă, dar de multe or! este, de asemenea pulsată sau modulată de către un semnal de frecvență redusă.Stimulation is sometimes continuous, but for many hours! it is also pulsed or modulated by a low frequency signal.

Niciunul dintre aceste echipamente nu a dat naștere la rezultate statistic dovedite și repetabile.None of these equipment gave rise to statistically proven and repeatable results.

Multe dintre aceste aparate folosesc emisii electromagnetice, în specia! în spectru! luminii vizibile sau în infraroșu.Many of these devices use electromagnetic emissions, in the species! in the spectrum! visible or infrared light.

Aparate de acest tip sunt uneori asociate cu filtre (polarizante sau colorate) pentru optimizarea efectelor pozitive aie sursei declarate, dintre care unele sunt utilizate în mod direct asupra organismului (laser, lampă cu raze ultraviolete, câmp magnetic, etc...).Devices of this type are sometimes associated with filters (polarizing or colored) to optimize the positive effects of the declared source, some of which are used directly on the body (laser, ultraviolet lamp, magnetic field, etc ...).

Filtrele sunt adăugate pentru a limita radiația de ia sursă, permițând doar trecerea pârtii active a fluxului, si eventual amplificarea acesteia.Filters are added to limit radiation from the source, allowing only the active part of the stream to pass through, and eventually amplifying it.

în plus, aceste aparate sunt aplicate punctelor care nu sunt niciodată specificate în mod clar de inventatori, care au observat, în generai, efecte benefice asupra organismelor, dar fără rezultate sau teste dovedite și descrise în invențiile lor, deoarece rezultatele pot fi foarte diferite de ia un persoană ia alia și doar experiența utilizatorului determină care zone de pe corp sunt cele mai receptive și tratamentele care ie corespund;In addition, these devices are applied to points that are never clearly specified by inventors, who have generally observed beneficial effects on organisms, but without results or tests proven and described in their inventions, because the results may be very different from take one person and another and only the user's experience determines which areas of the body are the most receptive and which treatments are appropriate;

Doar cateva tehnici nu fac uz de o sursă externă activă, cum ar fi invenția lui BRICOT, care utilizează plăci de polarizare, și invenția domnilor MARIGNAN și SOUVESTRE care utilizează filtre optice, sau cele care utilizează magneți, cum ar fi invenția domnului Edouard LEBART care combină magneți cu stimulare mecanică (brevet francez 2 687 075 din 13 august 1993).Only a few techniques do not use an active external source such as BRICOT's invention, which uses polarization plates, and the invention of MARIGNAN and SOUVESTRE using optical filters, or those using magnets, such as the invention of Mr. Edouard LEBART who combines magnets with mechanical stimulation (French patent 2,687,075 of August 13, 1993).

Dispozitivele si aparatele prezentate nu isi propun sa acționeze prin impulsuri magnetice de înalta frecventa si de foarte scăzută energie, care sa nu aduca o creștere a câmpului electromagnetic ia care este expus pacientul. Poluarea electromagnetica este omniprezenta in interacțiunea cu obiectele brevetate identificate in stadiu! tehnicii, dar aceasta nu este prezenta la dispozitivul, aparatul si metoda care constituie obiectul prezentului brevetThe presented devices and devices do not intend to act by high frequency and very low energy magnetic impulses, which will not increase the electromagnetic field to which the patient is exposed. Electromagnetic pollution is ubiquitous in the interaction with patented objects identified in the stage! technique, but this is not present on the device, apparatus and method that is the subject of this patent

Problema tehnica pe care o rezolva brevetul consta in activarea (tonifiere sau dispersie) punctelor de acupunctura., prin feed-back cu câmpul electromagnetic al propriului organismului, utilizând componenta magnetica a răspunsului unor circuite rezonante passive de înalta frecventa.The technical problem that the patent solves is the activation (tuning or dispersing) of the acupuncture points, by feed-back with the electromagnetic field of the own body, using the magnetic component of the response of passive resonant circuits of high frequency.

Soluția propusa in brevet utilizează câmpul electromagnetic ai pacientului pentru activarea dispozitivelor si aparatului, precum si pentru aplicarea metodei.The solution proposed in the patent uses the patient's electromagnetic field for activating devices and apparatus, as well as for applying the method.

Interacțiunea la nivelul punctelor de acupunctura se realizează fara a răni pielea, de la mica distanta, prin componenta magnetica selectata de dispozitiv si aplicata printr-un Impuls ascutit” sau bont, după cum se intenționează o tonifiere sau o dispersie locala.The interaction at the level of the acupuncture points is achieved without injuring the skin, from a small distance, through the magnetic component selected by the device and applied by a sharp impulse ”or blunt, as intended by a local toning or dispersion.

Niciuna din metodele si dispozitivele prezentate nu prezintă o posibilitate de stimulare locala independenta de o unitate centrala, concomitenta si simetrica (simetrie corporala bilaterala, craniocaudaia, anterior-posterior, volar-ventral), cu frecvente variabile si înalte (in domeniul 0,5-300 MHz) a doua sau mai multe (pana la douăzeci) puncte de acupunctura, situate pe aceiași meridian (ambele ramuri) sau pe meridiane diferite, fapt care permite obținerea unei game variate de efecte terapeutice, in condițiile unei totale lipse de efecte secundare, fara consum de energie si cu costuri extrem de reduse.None of the methods and devices presented present a possibility of local stimulation independent of a central, concomitant and symmetrical unit (bilateral body symmetry, craniocaudaia, anterior-posterior, volar-ventral), with variable and high frequencies (in the range 0.5-). 300 MHz) the second or more (up to twenty) acupuncture points, located on the same meridian (both branches) or on different meridians, which allows to obtain a diverse range of therapeutic effects, in the conditions of a total lack of side effects, without energy consumption and with extremely low costs.

SUMARUL INVENȚIEISUMMARY OF THE INVENTION

Dispozitivul rezonant pasiv pentru stimularea electromagnetica de înalta frecventa (DSAIF) este un dispozitiv original destinat stimulării electromagnetice de înalta frecventa a punctelor si meridianelor de acupunctura, fara sursa de energie externa, care se aplica direct la nivelul zonei de stimulare cutanate, după o prealabila localizare a acesteia si degresare cu alcool, in scopul obținem unei stimulări directe (electro-magnetice) sau indirecte (termice, electrice sau de câmp electromagnetic) a punctului sau a zonei cutanate active (rezultata din interacțiunile intre pielea la nivelul punctului acupunctura! sau a zonei active ca interfața electro si termo dinamica activa si stimularea sa electromagnetica).The passive resonant device for high-frequency electromagnetic stimulation (DSAIF) is an original device designed for high-frequency electromagnetic stimulation of acupuncture points and meridians, without external energy source, which is applied directly at the level of the skin stimulation area, after a prior localization. of it and degreasing with alcohol, in order to obtain a direct (electro-magnetic) or indirect stimulation (thermal, electrical or electromagnetic field) of the point or of the active skin area (resulting from the interactions between the skin at the level of the acupuncture point! or of the area active as the electro and thermo active dynamics and its electromagnetic stimulation).

a 2016 00598to 2016 00598

Potrivit cunoștințelor actuale, spectrul de unde electromagnetice acoperă o infinitate de frecvențe, prezentate in Tabelul 1. Utilizarea experimentală a unora dintre benzile de frecvențe încă nu a fost posibilă la nivelul tehnologiilor actuale. Aplicația descrisa se regăsește in benzile aflate spre partea finala a tabelului.According to current knowledge, the spectrum of electromagnetic waves covers a myriad of frequencies, presented in Table 1. Experimental use of some of the frequency bands has not yet been possible in current technologies. The application described can be found in the strips towards the final part of the table.

Tabelul 1Table 1

Denumirea benzii ... ................ .............. ............... .......................... ... Raze Gamma Raze X The name of the band ................ .............. ................ ........................ Raze Range X rays Lungimea de undă <10 pm ...--........................................................................ < 10 hm The wavelength <10 pm ... - ............................................. ........................... <10 hm Frecvența ÎEnergia Energy Frequency > 30 0 E.Hz - 30.0 PHzi > 30 0 E.Hz - 30.0 PHzi > 19.9Ε-Ί5Τ • 19.9E 18 J > 19.9Ε-Ί5Τ • 19.9E 18 J Raze UV B UV rays B < 200 nm <200 nm >1.5 PHz > 1.5 PHz >993E-21 J > 993E-21 J Raze UV A UV rays A < 380 nm <380 nm > 789 THz > 789 THz > 523E-2T J > 523E-2T J Lumina vizibilă Visible light <780 hm <780 hm >384 THz > 384 THz > 255E -21 J > 255E -21 J infraroșu apropiat near infrared < 2.5 Um <2.5 Um >120 THz > 120 THz > 79.5E-21 J > 79.5E-21 J Infraroșu mediu Medium infrared < 50 um <50 um >6.00 THz > 6.00 THz > 3 98F-21 .; > 3 98F-21 .; infraroșu îndepărtat far infrared < 1 mm <1 mm > 300 GHz > 300 GHz > 1991.-24 J > 1991.-24 J Microunde microwave < 30 crn <30 crn > 1.0 GHz > 1.0 GHz > V99e>24 J > V99e> 24 J Uitra înaltă frecvență High frequency Uitra < 1 m <1 m > 300 MHz > 300 MHz > î.99e-25 J > Î.99e-25 J Foarte înaltă frecvență Very high frequency < 10 m <10 m • 30 MHz • 30 MHz > 2,05e-26 J > 2.05e-26 J Unde scurte US Where short US ··· 180 m ··· 180 m τΤΤΜΗΧ.............. τΤΤΜΗΧ .............. > 1 !3e-27 J > 1! 3e-27 J Unde medii UM Where UM averages < 650 m <650 m • 650 kHz • 650 kHz > 4.31 e-28 J > 4.31 e-28 J Unde. lungi UL Where. UL long viȚQrkrm viŢQrkrm > 30 kHz > 30 kHz > 1,986-29 J > 1,986-29 J Foarte joasă frecvență Very low frequency > 10 km > 10 km < 30 kHz <30 kHz < 1.99e-29 J <1.99e-29 J

Aceasta deschidere a spectrului este enorma. Corpul uman emite radiații cu relativ înalta Intensitate in uneie dintre benzi, cum arfi banda de infraroșu, dar in aite benzi-cum arfi spectrul vizibil, emisia este de intensitate extrem de slaba- atingând cateva sute de fotoni per secunda per cmp de suprafața a corpului. Puterea spectrului emisiei corpului uman este prezentata in Fig.1 ,A.[1] (Bembenek, 1998) Efectele stimulării electromagnetice continue si cu frecvente diferite sunt urmate de efecte locale (creșterea sau diminuarea micro-circulatiei, stimularea metabolismului local, creșterea sau scăderea temperaturii locale, generarea unor curenți electrici locali - autopropagati !a distanta pe cai de minima rezistenta electrica, creșterea oxigenării tisulare locale) sau la distanta (stimularea sistemului de meridiane acupuncturale si a organelor sau a funcțiilor organice de corelație, stimularea sau inhibiția sistemului neuro-endocrin, stimularea mecanismelor de reparare si regenerare tisulara), care generează efecte terapeutice specifice pentru punctul sau constelația de puncte stimulate. Stimularea se face fie cu dispositive individuale, fie cu un aparat realizat din 1-10 seturi de dispositive, alcătuit fiecare din cate 2 dispozitive rezonante pentru simularea electromagnetica de înalta frecventa a punctelor de acupunctura si a altor zone electrodermice active, caracterizate prin frecvente identice In cadrul seturilor si prin amplasarea fiecărui dispozitiv in puncte si zone simetrice fata de axa de simetrie a organismului cu care interactioneaza (de obicei aceleași puncte de pe aceleași meridiane de acupunctura, cunoscandu-se faptul ca meridianele de acupunctura se prezintă de obicei In perechi amplasate simetric fata de axa de simetrie a unui organism).This opening of the spectrum is huge. The human body emits relatively high-intensity radiation in one of the bands, such as the infrared band, but in such bands as the visible spectrum, the emission is of extremely low intensity - reaching several hundred photons per second per surface area of the body. . The power of the emission spectrum of the human body is shown in Fig. 1, A. [1] (Bembenek, 1998) The effects of continuous and different frequency electromagnetic stimulation are followed by local effects (increase or decrease of micro-circulation, stimulation of local metabolism, increase or decrease of local temperature, generation of local electric currents - self-propagating! Distance on minimum paths). electrical resistance, increased local tissue oxygenation) or distance (stimulation of the acupuncture meridian system and of organs or organic correlation functions, stimulation or inhibition of the neuro-endocrine system, stimulation of tissue repair and regeneration mechanisms), which generate specific therapeutic effects for the point or constellation of stimulated points. The stimulation is performed either with individual devices or with an apparatus made of 1-10 sets of devices, each consisting of 2 resonant devices for high frequency electromagnetic simulation of acupuncture points and other active electrodermal areas, characterized by identical frequencies. within the sets and by placing each device in points and symmetrical areas with respect to the axis of symmetry of the organism with which it interacts (usually the same points on the same acupuncture meridians, knowing that acupuncture meridians usually present in symmetrically placed pairs to the axis of symmetry of an organism).

Metoda de stimulare conform invenției consta in aplicarea in doua puncte, sau in mai multe puncte pereche si plasate conform simetriei, a cei mult 20 de dispozitive DSAIF pentru o ședința de stimulare, aplicate la piele de exemplu prin intermediul unei benzi autocolante, hipoalergene si inerte chimic. Numărul maxim de ședințe de stimulare pentru un ciclu de tratament este de 15, cu pauza intre ciclurile de tratament de minim 10 zile. Alegerea punctelor si schema de aplicare este conforma cu principiile acupuncturii sau aie tehnicilor de medicina complementara si poate fi realizata atat de practicantul autorizat, cat si de pacientul insusi pe baza unul ghid comprehensiv.The method of stimulation according to the invention consists in the application in two points, or in several pair points and placed according to the symmetry, of the more than 20 DSAIF devices for a stimulation session, applied to the skin for example by means of a self-adhesive, hypoallergenic and inert tape. chemical. The maximum number of stimulation sessions for one treatment cycle is 15, with a break between treatment cycles of at least 10 days. The choice of points and the scheme of application is in accordance with the principles of acupuncture or other complementary medicine techniques and can be performed by both the authorized practitioner and the patient himself on the basis of a comprehensive guide.

DSAIF care conține componente electronice passive asamblate pe un support isolator avand o forma geometrica de preferința circulara se aplica direct pe tegument ia nivelul unor puncte si zoneDSAIF which contains passive electronic components assembled on an insulating support having a geometrical shape of circular preference is applied directly on the skin and at the level of points and areas

26/08/2016 electrodermai active si determina modificarea comportamentului de eiectret, polarizarea si conductibilitatea electrica a acestora.26/08/2016 active electroderma and determines the modification of the electrode behavior, their polarization and their electrical conductivity.

Se cunoaște faptul ca sistemele biologice sunt caracterizate de un volum conductor electric, neomogen sl anizotrop compus din surse electrice independente, care generează tensiuni electromotoare ce interfera variabil într-un spațiu neuniform. Câmpul electric este un câmp vectorial purtător al interactiei dintre sarcinile electrice. Cîmpul electric intern al corpurilor vii este cvasistationar dar învelișul lor extern prezintă o stare de polarizare permanenta cu conductibilitate crescută si câmp variabil. La nivelul suprafatei cutanate exista momente dipol care generează valori crescute de potențial electric, independente de sarcinile triboelectrice si electrostatice generate de comportamentul eiectret a! dermuiui. Punctele de acupunctura prezintă densități superficiale de sarcini electrice, dispuse în mozaic, care, posibil, favorizează transferul de sarcini de suprafața pe Sinîile meridiane. Momentele dipoiare permanente înregistrate la acest nivel generează micropotentiale spontane, variabile, care generează tensiuni electromotoare cu propagarea curenților la suprafața sau scurgere lor în interior, comportamentul fenomenelor de câmp electric al acupunctelor este similar fenomenelor supraconductoare, dar cu desfășurare la temperatura ambientala. Aplicarea teoriilor mecanicii cuantice si a distribuției câmpurilor ia nivelor structurilor vii înalt organizate a permis identificarea meridianelor ca stadiu! fina! ai ciclurilor de unde in câmpul de coerenta organic cu proiecție la nivelul suprafețelor corporale, la nivelul punctelor de acupunctura. Pe baza acestui concept funcția majora a sistemului de meridiane este facilitarea transferului de informație intre organism si mediu si invers si de intercoreiare informaționala intre diverse organe, țesuturi si sisteme. Au fost identificate câmpuri fractale sau de torsiune electromagnetica, care transmit informația fara transfer de energie.It is known that biological systems are characterized by an electrically conductive, non-homogeneous and anisotropic volume composed of independent electrical sources, which generate electromotor voltages that interfere variably in an uneven space. The electric field is a vector field that carries the interaction between electrical charges. The internal electric field of living bodies is quasi-stationary but their outer shell shows a permanent polarization state with high conductivity and variable field. At the level of the skin surface there are dipole moments that generate high values of electrical potential, independent of the triboelectric and electrostatic loads generated by the electrode behavior of! dermuiui. The acupuncture points have superficial densities of electrical charges, arranged in the mosaic, which, possibly, favor the transfer of surface charges on the Southern Railways. Permanent depositional moments recorded at this level generate spontaneous, variable micropotentials, which generate electromotor voltages with propagation of currents to the surface or leakage inside them, the behavior of acupuncture electric field phenomena is similar to superconducting phenomena, but with unfolding at ambient temperature. The application of the theories of quantum mechanics and the distribution of fields and levels of highly organized living structures allowed the identification of meridians as a stage! Fine! of the cycles of waves in the field of organic coherence with projection at the level of the body surfaces, at the level of the acupuncture points. Based on this concept, the major function of the meridian system is to facilitate the transfer of information between organism and environment and vice versa and of information intercourse between different organs, tissues and systems. Fractal or electromagnetic torsion fields have been identified, which transmit the information without energy transfer.

in acest context DSAIF se comporta ca o antena de recepție si de emisie electromagnetica si ca un amplificator/ inhibitor al fenomenelor de câmp proprii structurilor funcționale electrodermale active, printre care si a punctelor de acupunctura, permițând astfel obținerea unor efecte de tonifiere (stimulare) sau de dispersie (sedare), specifice acupuncturii convenționale sau stimuioterapiei (cu laser, electrice, electromagnetice pulsate, ultrasonice, microunde sau termice, etc.}. Efectele astfel obținute prin plasarea setului de dispozitive DSAIF in combinații anume alese, au fost cei puțin comparabile si in multe cazuri net superioare ca efect terapeutic, sistemelor si dispozitivelor de stimulare existente, asa cum o demonstrează studii clinice preliminare, controlate cu măsurători termografice, de termometrie IR, magnetometrie, măsurători electrodermale de impedanța si potențial, măsurători bio-energetice in punctele JING distale si măsurători de biorezonanță magnetica cuantica, efectuate de către autori. Efectele obținute sunt reproductibile si lipsite de orice efect secundar.In this context, the DSAIF behaves as an antenna for receiving and electromagnetic emission and as an amplifier / inhibitor of the field phenomena peculiar to the active electrodermal functional structures, including acupuncture points, thus allowing to obtain toning effects (stimulation) or dispersion (sedation), specific to conventional acupuncture or stimulation therapy (laser, electrical, electromagnetic pulsed, ultrasonic, microwave or thermal, etc.}. The effects thus obtained by placing the set of DSAIF devices in selected combinations were the least comparable and in many cases, far superior as therapeutic effect, the existing stimulation systems and devices, as demonstrated by preliminary clinical studies, controlled with thermographic, IR thermometry, magnetometry, electrodermal impedance and potential measurements, bio-energetic measurements at distal JING points and bio-resonance measurements ma quantum gnetics, performed by the authors. The effects obtained are reproducible and devoid of any side effects.

Se descriu in contiuare unele exemple nelimitative de realizare in legătură cu figurile următoare:The following are some non-limiting examples of embodiment in relation to the following figures:

ESCRIEREA FIGURILORWRITING OF FIGURES

FIG.1.Principiul constructiv al dispozitivuluiFIG.1.The constructive principle of the device

Fig.1.A .Puterea spectrului emisiei de radiații a corpului uman [1] (Bembenek, 1998).Fig. 1.A. The power of the radiation spectrum of the human body [1] (Bembenek, 1998).

Fig.l.B. Principiul de construcție ai dispozitivuluiFig.l.B. The construction principle of the device

Fig.l.C .Schema electrica a circuitului oscilant corespunzător dispozitivuluiFig. C. The electrical diagram of the oscillating circuit corresponding to the device

FIG.2.Dispozitiv unistrat- cu un strat de spire pe fata superioara si armatura condensator plan pe fata inferioaraFIG.2.Designed device - with a coil layer on the upper face and a flat condenser armature on the lower face

Fig.2.A.Reprezentare axonometrica a dispozitivului unistrat, cu fata superioaraFig. 2.A. Axonometric representation of the unilateral device, with the upper face

Fig.2.B. Reprezentare axonometrica a dispozitivului unistrat, cu fata inferioaraFig.2.B. Axonometric representation of the unistracked device, with lower face

Fig.2.C .Schema electrica a circuitului oscilant corespunzător dispozitivului unistratFig. 2.C. The electrical diagram of the oscillating circuit corresponding to the unistracted device

Fig,2.D .Distribuția câmpului electric E corespunzătoare dispozitivului unistrat - simulareFig. 2.D. Distribution of the electric field E corresponding to the unistrated device - simulation

Fig.2.E .Distribuția câmpului maqnetc H corespunzătoare dispozitivului unistrat- simulareFig. 2.E. Distribution of the H-field corresponding to the unistrat-simulation device

Fig.2.F Grafic db(F) ia dispozitivul unistratFig. 2.F Graph db (F) takes the unistracked device

FIG.3. Dispozitiv dublustrat- cu un strat de spire pe fata superioara si Inferioara si armaturi condensator plan amplasate centraiFIG.3. Double-layered device - with a top and bottom face layer and centrally located condenser valves

Fig.3.A .Modelare 3D dispozitiv dublustrat-fata superioara cu armatura condensatorului pian amplasata centralFig. 3.A. 3D modeling of the upper-facing double-sided device with the centrally located capacitor armature

Fig.3.B.Reprezentare axonometrica a dispozitivului dublustrat cu armaturile condensatorului pian amplasate centra!Fig.3.B. Axonometric representation of the device doubled with the capacitor reinforcements placed centrally!

'χ ·' χ ·

26/08/201626/08/2016

A)A)

Fig.S.C .Schema electrica a circuitului oscilant corespunzător dispozitivului dublustratFig.S.C. Electrical diagram of the oscillating circuit corresponding to the doubled device

Fig.3.D,Distribuția câmpului electric E corespunzătoare fetei superioare a dispozitivului dublustratsimuiareFig. 3.D, Distribution of the electric field E corresponding to the upper face of the double-beam device

Fig.S.E .Distribuția câmpului electric E corespunzătoare fetei inferioare a dispozitivului dublustrat simulareFig. S.E. The distribution of the electric field E corresponding to the lower face of the simulation doubled device

Fig.3.F .Distribuția câmpului magnetc H corespunzătoare dispozitivului dublustrat - simulare Fig.S.G .Grafic db(F) ia dispozitivul dublustratFig. 3.F. Distribution of the magnetc field H corresponding to the doubled device - simulation Fig. S.G. Graph db (F) takes the doubled device

FIG. 4.Dispozitiv multistrat- cu straturi multiple similare fetei superioare a dispozitivului unistrat Fig.4.A Modelare 3D dispozitiv multistrat-fata superioara cu armatura condensatorului pian amplasata centraiFIG. 4. Multilayer device - with multiple layers similar to the upper face of the unilateral device Fig.4.A 3D modeling multilayer device - upper face with central capacitor reinforcement located centrally

Fig.4.B. Reprezentare axonometrică a dispozitivului multistrat cu armaturile condensatorului pian amplasate centraiFig.4.B. Axonometric representation of the multilayer device with centrally located capacitor reinforcements

Fig.4.C. Distribuție câmp electric E ia dispozitivul multistrat musti rezonanta_cu vectori__poza 1simulare.Fig.4.C. Electric field distribution E takes the multilayer device musti rezonanta_cu vectorsori_poase 1simulation.

Fig.4.D.Distribuție câmp electric E la dispozitivul multistrat muiti rezonanta_cu vectori_poza 2simulareFig.4.D.Distribution of electric field E to the multilayer device move rezonanta_cu vectori_poza 2simulation

Fsg.4.E .Distribuție câmp magnetic H la dispozitivul multistat- mult! rezonanta_cu vectori_poza 1simulareFsg.4.E .Distribution of magnetic field H to the multistate device - much! resonance_with vectors_pose 1simulation

Fig.4.F.Distribuție câmp magnetic H la dispozitivul multistat- muiti rezonanta_cu vectori_poza 2simulareFig.4.F.Distribution of magnetic field H to the multistate device - move resonance_with vectors_position 2imulation

Fig.4.G .Grafic db(F) ia dispozitivul multistrat-multirezonantaFig. 4.G. Graph db (F) takes the multilayer-multi-resonant device

FIG. 5.Dispozitiv cu ecran Fe- cu straturi similare fetei superioare a disoozitivului unistratFIG. 5. Fe screen device - with layers similar to the upper face of the uncoated device

Fig.S.A. .Modelare 3D dispozitiv cu ecran Fe amplasat pe fata inferioaraFig.S.A. . 3D modeling device with Fe screen located on the lower face

Fig.5.B,Reprezentare axonometrică a dispozitivului cu ecran Fe amolasat pe fata inferioara.Fig.5.B, Axonometric representation of the device with Fe screen flattened on the lower face.

Fig.S.C .Distribuția câmpului electric E corespunzătoare fetei superioare la dispozitivul cu ecran Fe simularelFig. S.C. Distribution of the electric field E corresponding to the upper face on the device with simulated Fe screen

Fig.S.D,.Distribuția câmpului electric E corespunzătoare fetei inferioare la dispozitivul cu ecran Fesimulare2Fig.S.D, .Distribution of the electric field E corresponding to the lower face on the device with Fesimulation2 screen

Fig.S.E .Distribuția câmpului magnetc H corespunzătoare dispozitivului cu ecran Fe- simularel Fig.S.F .Distribuția câmpului magnetc H corespunzătoare dispozitivului cu ecran Fe- simulare2 Fig.S.G .Grafic db(F) câmp electric la dispozitivul cu ecran FeFig.S.E .Distribution of the magnetc field H corresponding to the device with the simulation screen Fig.S.F .Distribution of the magnetc field H corresponding to the device with the simulation screen2 Fig.S.G. Graphic db (F) electric field on the device with the Fe screen

FIG. 6.Dispozitiv cu miez magnetic de Ferita- cu straturi similare fetei superioare a dispozitivului unistratFIG. 6.Magnetic ferrite core device - with layers similar to the upper face of the unistracted device

Fig.S.A.Distribuție câmp electric E corespunzătoare dispozitivului cu miez magnetic ferita-simulare 1 Fig.6.B .Distribuție câmp electric E corespunzătoare dispozitivului cu miez magnetic ferita-simulare 2 Fig.6.C .Distribuție câmp magnetic H corespunzătoare dispozitivului cu miez magnetic ferita simulare 1 Fig.6.D. Distribuție câmp magnetic H corespunzătoare dispozitivului cu miez magnetic ferita simulare 2Fig.SD electric field distribution E corresponding to the device with ferrite-simulation magnetic core 1 Fig.6.B. Electric field distribution E corresponding to the device with magnetic core ferrite-simulation 2 Fig.6.C .Distribution of magnetic field H corresponding to the magnetic core device simulated wound 1 Fig.6.D. Magnetic field distribution H corresponding to the magnetic core device ferrite simulation 2

Fig.6.E .Grafic db(F) câmp electric la dispozitivul cu miez magnetic de feritaFig. 6.E. Graphic db (F) electric field on the device with magnetic ferrite core

FIG.7.Schema de principiu a aparatuluiFIG. 7. The scheme of principle of the apparatus

Fig.7.A.Parcursul meridianelor Yin si Yang la corpul uman.Fig. 7.A.The course of the Yin and Yang meridians in the human body.

Fig.7.B.Exemple „Meridianul Plaman&lntestin GrosFig.7.B. Examples „Plaman & Intestine Meridian

Fig.7.C. Exemplu aparat constituit pe „Meridianul Plaman&lntestin GrosFig.7.C. Example apparatus constituted on „Meridianul Plaman & ltestin Gros

FIG.8.Exemple de aplicare a metodei conform invenției pe plantele pacientuluiFIG. 8. Examples of application of the method according to the invention on the patient's plants

Fig.S.A.Fotografie in IR la momentul aplicării dispozitivelor in punctele de acupunctura.....Fig.S.A. IR photography at the time of applying the devices in the acupuncture points .....

Fig.8.B. Fotografie in IR la 2 minute de la momentul aplicării dispozitivelor in punctele de acupunctura.....Fig.8.B. Photo in IR at 2 minutes from the moment the devices are applied in acupuncture points .....

Fig.S.C. Fotografie in IR ia 6minute de la momentul aplicării dispozitivelor in punctele de acupuncturaFig.S.C. IR photography takes 6 minutes from the moment the devices are applied in acupuncture points

Fig.S.D. Fotografie in IR la 6minute de la momentul aplicării dispozitivelor in punctele de acupuncturaFig.S.D. IR photography at 6 minutes from the moment the devices are applied in acupuncture points

FIG.9.Exemple de aplicare a metodei conform invenției pe fruntea pacientului Fig.9.A.Fotografie in IR la momentul aplicării dispozitivelor in punctele de acupuncturaFIG.9.Examples of applying the method according to the invention on the forehead of the patient Fig.9.A.Rhotography at the time of applying the devices in the acupuncture points

26/08/201626/08/2016

4/4/

Fig.9.B. Fotografie in IR la 2 minute de la momentul aplicării dispozitivelor in punctele de acupunctura.....Fig.9.B. Photo in IR at 2 minutes from the moment the devices are applied in acupuncture points .....

Fig.9.C. Fotografie in IR la 6minute de la momentul aplicării dispozitivelor in punctele de acupuncturaFig.9.C. IR photography at 6 minutes from the moment the devices are applied in acupuncture points

FiG.10.Exemple de aplicare a metodei conform invenției pe sinusurile pacientuluiFig. 10. Examples of applying the method according to the invention on the patient's sinuses

Fig.10.Â.Fotografie in IR la momentul aplicării dispozitivelor in punctele de acupunctura.....Fig.10. IR photography at the time of applying the devices in the acupuncture points .....

Fig.10.B. Fotografie in IR ia 3 minute de ia momentul aplicării dispozitivelor in punctele de acupunctura ....Fig.10.B. Photo in IR takes 3 minutes to take the time of applying the devices in acupuncture points.

FIG.11 .Exemple de aplicare a metodei conform invenției pe mâinile pacientuluiFIG. 11. Examples of application of the method according to the invention on the patient's hands

Fig.11.A. Fotografie in IR la momentul aplicării dispozitivelor In punctele de acupunctura.....Fig.11.A. Photography in IR at the time of applying the devices In the acupuncture points .....

Fig.11„B, Fotografie in IR Ia2 minute de la momentul aplicării dispozitivelor in punctele de acupuncturaFig. 11 „B, IR photography Ia2 minutes from the moment the devices are applied in the acupuncture points

DESCRIEREA UNOR FORME DE REALIZARE PREFERATEDESCRIPTION OF PREFERRED EMBODIMENTS

FIG.1. prezintă principiul de realizare a dispozitivului conform invenției. Dispozitivul cuprinde componente electronice pasive: condensatori, bobine, rezistori. Conform Fig.1.A, o bobina (a) aicatuita din mal multe spire aflate de preferința intr-un pian, si bobiate elicoidal in jurul unei zone centrale circulare, este conectata cu unu! dintre capete la armatura superioara(b) a unul condensator plan, iar cu celalalt capat la cealalta armatura-armatura inferioara (b’) a condensatorului plan aflat in centru! bobine! si avand de preferința forma circulara. Cele doua armaturi (b) si (b’) formează un condensator cu capacitate care este ajustata prin componenetele (c) montate in serie; intre bobina (a) si plăcile (b) si (b’) ale condensatorului pian se interpune o impedanta (d) pentru aducerea frecventei de rezonanta a circuitului oscilant astfel format la valoarea corespunzătoare interacțiunii cu punctele de acupunctura etc. Fig.l.B precizează schema electrica a circuitului oscilant corespunzător construcției descrise anterior, unde identificam cu (1) condensatorul pian realizat din plăcile plane (b) s (b’), cu (2) condensatorii suplimentari introduși pentru calibrarea circuitului la frecventa dorita, cu (3) bobina plana realizata prin spirele elicoidale menționate anterior cu (a) , cu (4) impedanta adaugata pentru ajustarea frecventei la valoarea dorita si la intensitatea corespunzătoare, iar cu (5) rezistorul corespunzător rezistentei electrice a construcției realizate. Componentele și valorile lor sunt selectate în funcție de obiective biologice și medicale care urmează să fie atinse, care se referă la frecvența(ele) de rezonanță și de asemenea, la intensitatea de cuplare. O soluție de realizare a bobinei care a fost testata cu bune rezultate, constă în construirea unui circuit imprimat pe un suport pian, care poate fi rigid sau flexibil, în care un traseu de circuit având o cale elicoidala concentrică Implementează spirele circulare sau poligonale imbricate a! bobinei.Fig.1. presents the principle of making the device according to the invention. The device comprises passive electronic components: capacitors, coils, resistors. According to Fig. 1.A, a coil (a) formed from the bank many turns preferably located in a piano, and coiled coil around a central circular area, is connected with one! between the ends at the upper armature (b) of one plane capacitor, and with the other end at the other armature - the lower armature (b ') of the plane capacitor located in the center! coils! and preferably with a circular shape. The two reinforcements (b) and (b ') form a capacitor with capacity that is adjusted by the components (c) mounted in series; between the coil (a) and the plates (b) and (b ') of the piano capacitor, an impedance (d) is interposed to bring the resonant frequency of the oscillating circuit thus formed to the value corresponding to the interaction with the acupuncture points, etc. Fig.lB specifies the wiring diagram of the oscillating circuit corresponding to the construction described above, where we identify with (1) the plane capacitor made from the plane plates (b) and (b '), with (2) the additional capacitors introduced for calibrating the circuit at the desired frequency, with (3) the flat coil made by the helical spirals mentioned previously with (a), with (4) the added impedance for adjusting the frequency to the desired value and to the corresponding intensity, and with (5) the resistor corresponding to the electrical resistance of the realized construction. Their components and values are selected according to the biological and medical objectives to be achieved, which refers to the frequency (s) of resonance and also to the coupling intensity. A solution of the coil that has been tested with good results consists in the construction of a printed circuit board on a piano support, which can be rigid or flexible, in which a circuit path having a concentric helical path implements the nested circular or polygonal spirals. ! coil.

Elementul important al configurației astfel realizate il constituie capacitorul plan amplasat centrai, care se constituie in cușca Faraday in funcționarea dispozitivului, concentrând sarcinile electrice intrun volum limitat superior si inferior de plăcile plane in forma de poligon regulat sau disc circular si grosimea redusa a suportului-izolator. Simulările de câmp magnetic si electric atașate exemplelor de realizare corespuzatoare figurilor 2..6 evidențiază simetria câmpului magnetic in jurul axei perpendiculare pe suportul circular si orientarea sa in lungul acesteia, precum si concentrarea câmpului electric intre plăcile centrale care se constituie inttr-o cușca Faraday, asigurând astfel o conexiune preponderent magnetica cu organismul cu care interactioneaza -si repectand astfel principiul comunicării intre țesuturi vii prin câmpuri magnetice.The important element of the configuration thus obtained is the centrally located flat capacitor, which is constituted in the Faraday cage in the operation of the device, concentrating the electrical loads in a superior and inferior volume limited by the flat plates in the form of regular polygon or circular disk and the reduced thickness of the insulating support. . The magnetic and electric field simulations attached to the embodiments corresponding to Figures 2..6 highlight the symmetry of the magnetic field around the axis perpendicular to the circular support and its orientation along it, as well as the concentration of the electric field between the central plates constituted in a Faraday cage. , thus ensuring a predominantly magnetic connection with the organism with which it interacts - thus repeating the principle of communication between living tissues through magnetic fields.

Invenția utilizează un cuplaj electromagnetic între dispozitivul de invenție sau un ansamblu de astfel de dispozitive constituite intr-un aparat și orice structură a organismului capabilă să interacționeze cu acestea prin intermediu! cuplajului memționat.The invention utilizes an electromagnetic coupling between the device of the invention or a set of such devices constituted in an apparatus and any structure of the body capable of interacting with them through it! of the stored coupling.

Dispozitivul ca circuit electromagnetic are un mod de operare prin care absoarbe energia din organism atunci când este ia rezonanță șl apoi se comportă ca o sursă a energiei menționate amplificată de faptul că acest transfer are loc la anumite frecvențe speciale ale circuitului, cunoscute sub numele de frecvențe de rezonanță. Fenomenul de rezonanta este bine cunoscut și utilizat atât în mecanică cât și în electronică.The device as an electromagnetic circuit has a mode of operation whereby it absorbs energy from the body when it is resonating and then acts as a source of said energy amplified by the fact that this transfer takes place at certain special frequencies of the circuit, known as frequencies. resonance. The resonance phenomenon is well known and used in both mechanics and electronics.

a 2016 00598to 2016 00598

26/08/201626/08/2016

Cuplajul electromagnetic este obținut prin inducție, prin Intermediul unui element de tip bobină, sau cu ajutorul unui dispozitiv de tip dipol. Aparatul invenției pentru punerea în aplicare a metodei descrise mai jos se poate realiza prin unul sau mai multe circuite electronice cu comportament rezonant, împreună cu un element electromagnetic de cuplare cu structurile în cauză ale organismului. Rezonanța circuitului astfel indus de organism dă naștere la o modificare în comportamentul electromagnetic a! organismului, cauzînd stimularea organismului menționat si modificarea de stare a acestuia potrivit metodei parte din brevet.The electromagnetic coupling is obtained by induction, by means of a coil element, or by means of a dipole device. The apparatus of the invention for the implementation of the method described below can be made by one or more electronic circuits with resonant behavior, together with an electromagnetic element coupling with the structures in question of the organism. The resonance of the circuit thus induced by the body gives rise to a change in the electromagnetic behavior of! of the body, causing the stimulation of the said organism and its state modification according to the method part of the patent.

FIG.2.Dispozitiv unistrat- cu un strat de spire pe fata superioara si armatura (bj a condensatorului plan pe fata inferioara constituie una dintre cele mal simple versiuni de realizare a dispozitivului conform invenție . Fig,2.A prezintă o reprezentare axonometrica a dispozitivului avand vedere asupra fetei superioare Un capat ai bobinei constituite din spirele elicoidale (a) este conectat pe fata superioara ia discul centrai (b) ce constituie armatura superioara a condensatorului Ci, iar celalalt capat al bobinei este conectat la discul ce acopera Întreaga fata inferioara si care constituie cea de-a doua armatura plana (b’) a condensatorului Ci, asa cum se constata dm FIG.2B.Intre plăcile (b) si (b1) ale condensatorului, este lipit un condensator C* care aduce frecventa de rezonanta la valoarea de 5MHz.FIG. 2. Unistrated device - with a coil layer on the upper face and the armature (bj of the flat capacitor on the lower face is one of the simple versions of the device according to the invention. Fig. 2.A shows an axonometric representation of the device having a view on the upper face One end of the coil consisting of the helical coils (a) is connected to the upper face and to the center disk (b) which constitutes the upper armature of the capacitor Ci, and the other end of the coil is connected to the disk covering the entire lower face and which constitutes the second plane reinforcement (b ') of the capacitor Ci, as dm FIG.2B shows. Between the plates (b) and (b 1 ) of the capacitor, a capacitor C * is attached which brings the resonant frequency at 5MHz.

Schema electrica a circuitului oscilant corespunzător (Fig.2.C) cuprinde un inductor (3) cu inductanta de 0,52 microHenry, un condensator (2) de corecție cu oapacitanța C* in valoare de 2nF si condensatorul (1) cu plăcile plane (b) si (b') in valoare de 2,1 pF.The electrical diagram of the corresponding oscillating circuit (Fig.2.C) comprises an inductor (3) with inductance of 0.52 microHenry, a capacitor (2) with a capacitance C * of 2nF and the capacitor (1) with flat plates (b) and (b ') of 2.1 pF.

Montajul este realizat pe un disc de perinax cu grosimea de 1,2mm si diametrul de 15 mm, placat cu folie subțire de cupruThe mounting is made on a perinax disc with a thickness of 1.2 mm and a diameter of 15 mm, plated with thin copper foil

Distribuția câmpului electric E este redata in Fig.2.D. Aceasta a fost simulata utilizând softulAnSyS..The distribution of the electric field E is shown in Fig.2.D. This was simulated using the AnSyS software.

Se constata concentarea câmpului electric intre cele 2 armaturi plane in forma de discuri ce constituie condensatorul amplasat central si simetric fata de axa verticala ce unește centrele celor doua discuri care realizează cușca Faraday.The concentration of the electric field between the 2 flat reinforcements in the form of discs is constituted, which is the centrally located capacitor and symmetrical to the vertical axis that unites the centers of the two discs that make the Faraday cage.

Distribuția câmpului magnetic H este redata in Fig.2.E, si este rezultata din simularea cazului cu valorile anterioare, utilizând softulAnSyS..The distribution of the magnetic field H is shown in Fig. 2.E, and is the result of the simulation of the case with the previous values, using the AnSyS software.

Reprezentarea evidențiază simetria câmpului magnetic in jurul axei perpendiculare pe suportul circular si orientarea sa in lungul acesteia, asigurând astfel o conexiune preponderent magnetica cu organismul cu care interactioneaza -si repectand astfel principiul comunicării intre țesuturi vii prin câmpuri magnetice.The representation highlights the symmetry of the magnetic field around the axis perpendicular to the circular support and its orientation along it, thus ensuring a predominantly magnetic connection with the organism with which it interacts - thus repeating the principle of communication between living tissues through magnetic fields.

Graficul din fig 2.F evidențiază frecventa de rezonanta si efectul de toifiere ce poate fi obtinut la aceasta frecventa, avad in vedere amplitudinea si forma graficului.The graph in Fig. 2.F shows the resonant frequency and the effect of toasting that can be obtained at this frequency, taking into account the amplitude and shape of the graph.

FIG.3,Dispozitivul dublustrat- cu un strat de spire pe fata superioara si inferioara si armaturi condensator plan amplasate centra! constituie primul pas de dezvoltarte a versiunii inițiale de realizare a dispozitivului conform invenției, Fig.3.A. prezentând un rezutat al modelării 3D a dispozitivului dublustrat cu vedere asupra fetei superioare.FIG.3, The double-glazed device - with a layer of coils on the upper and lower face and flat condenser reinforcement located in the center! constitutes the first development step of the initial version of the device according to the invention, Fig.3.A. presenting a 3D modeling result of the duplicated device with a view on the upper face.

Fig.S.B aduce reprezentarea axonometrica a dispozitivului dublustrat cu armaturile condensatorului pian amplasate centrai, cu vedere asupra fete! superioare. Un capat a! bobinei amplasate pe fata superioara, constituita din spirele eiicoidaie (a) este conectat pe fata superioara ia discul central (b) ce constituie armatura superioara a condensatorului Ci, iar celalalt capat a! bobinei este conectat ia căpătui periferic a! bobinei constituite din spirele eiicoidaie ța’) amplasata pe fata inferioara, legând intre eie cele doua planuri paralele care conțin dispozitivul: căpătui interior a! bobinei amplasate pe fata inferioara este legat ia armatura inferioara a condensatorului Ci. Pentru un diametru de 15 mm a! discului de textolit cu grosimea de 1,2 mm si pt un număr de 5 spire a! flecarei bobine, avem o capacitate de 1,7pF pentru condensatorul plan, care aduce frecventa de rezonanta a dispozitivului ia 30 MHz. in varianta unui montaj in paralei cu condensatorul Ci a unui alt condensator CI cu valoarea de 1 nF, rezulta o frecvanta de rezonanta de 5MHz. Fig.S.C. prezintă schema electrica a circuitului oscilant corespunzător dispozitivului dublustrat, in care impedanteie individuale L1 si L2 au valoarea de 0,5 microHenry.Fig.S.B brings the axonometric representation of the device duplicated with the central capacitor reinforcements located centrally, with a view on the faces! higher. An end to! the coil located on the upper face, consisting of the coil windings (a) is connected on the upper face and the central disk (b) which constitutes the upper armature of the capacitor Ci, and the other end a! the coil is connected to the peripheral a! of the coil consisting of the spiral spirals) located on the lower face, linking between them the two parallel planes that contain the device: inner head a! the coil located on the lower face is connected to the lower armature of the capacitor Ci. For a diameter of 15 mm a! textolite disk with a thickness of 1.2 mm and for a number of 5 turns a! For each coil, we have a capacity of 1.7pF for the flat capacitor, which brings the resonance frequency of the device to 30 MHz. In the variant of an installation in parallel with the capacitor Ci of another capacitor CI with a value of 1 nF, a resonance frequency of 5MHz results. Fig.S.C. presents the electrical diagram of the oscillating circuit corresponding to the doubled device, in which individual impedances L1 and L2 have the value of 0.5 microHenry.

Distribuția câmpului electric E corespunzătoare fetei superioare a dispozitivului dubiustrat- simulare este prezentata in Fig.S.D iar distribuția câmpului electric E corespunzătoare fetei inferioare a dispozitivului dubiustrat - simulare se regăsește in Fig.S.E, simulările au fost relizate utilizând softulAnSyS.Se constata concentarea câmpului electric mire cele 2 armaturi piane m forma de discuri ce constituie condensatorul amplasat central si simetric fata de axa verticala ce unește centrele ceior doua discuri, care reaiizeaza in aceiași timp si efectui de cușca Faraday.The distribution of the electric field E corresponding to the upper face of the double-simulated device is shown in Fig.SD and the distribution of the electric field E corresponding to the lower face of the double-simulated device is shown in Fig.SE, the simulations have been performed using the electric field software. screw the 2 piano reinforcements m the form of discs that constitute the central and symmetrical capacitor to the vertical axis that unites the centers of the two discs, which at the same time make the Faraday cage effect.

a 2016 00598to 2016 00598

26/08/201626/08/2016

Fig.S.F precizează distribuția câmpuiui magnetc H corespunzătoare dispozitivului dublustrat, care este rezultata din simularea cazului cu valorile anterioare, utilizând softulAnSyS. Reprezentarea evidențiază simetria câmpului magnetic in jurul axei perpendiculare pe suportul circular si orientarea sa in lungul acesteia, asigurând astfel o conexiune preponderent magnetica cu organismul cu care Interactioneaza -si repectand astfel principiul comunicării intre țesuturi vii prin câmpuri magnetice. Graficul din Fig S.G evidențiază frecventa de rezonanta si efectul de tonifiere ce poate fi obtinut la aceasta frecventa, avad in vedere amplitudinea si forma graficului.Fig.S.F specifies the distribution of the magnetic field H corresponding to the duplicated device, which is the result of the simulation of the case with the previous values, using the AnSyS software. The representation shows the symmetry of the magnetic field around the axis perpendicular to the circular support and its orientation along it, thus ensuring a predominantly magnetic connection with the organism with which it interacts, thus repeating the principle of communication between living tissues through magnetic fields. The graph in Fig. S.G highlights the resonant frequency and the tuning effect that can be obtained at this frequency, taking into account the amplitude and shape of the graph.

FIG.4.Dispozitivul multistrat- cu straturi multiple similare fetei superioare a dispozitivului unistrat constituiata dintr-un strat de spire pe fata superioara si armatura centrala (b’) a condensatorului plan, in forma preferata de disc metalic si staturi identice sau neidentice pe fata inferioara., așezate de exemplu asa cum se prezintă intr-o modelare 3D a dispozitivului, redata in Fig.4.A.FIG. 4. The multilayer device - with multiple layers similar to the upper face of the unistracted device consisting of a coil layer on the upper face and the central armature (b ') of the planar capacitor, in the preferred form of metal disc and identical or non-identical states on the face bottom, placed for example as shown in a 3D modeling of the device, shown in Fig.4.A.

Fig.4,B aduce reprezentarea axonometrica a dispozitivului multistrat cu armaturile condensatorului pian amplasate centrai, cu vedere asupra fetei superioare. Un capat ai bobinei amplasate pe fata superioara, constituita din spirele elicoidaie (a) este conectat pe fata superioara la discul centrai (b) ce constituie armatura superioara a condensatorului Ci, iar celalalt capat a! bobinei este conectat la căpătui periferic al bobinei constituite din spirele elicoidaie (a’), amplasata pe fata inferioara, legând intre ele cele doua planuri paraleie care conțin dispozitivul; căpătui interior a! bobinei amplasate pe fata inferioara este legat la armatura inferioara a condensatorului Ci. Pentru un diametru de 15 mm a! discului de textolit cu grosimea de 1,2 mm si pt un număr de 5 spire a! fiecărei bobine, avem o capacitate de 1,7pF pentru condensatorul plan, care aduce frecventa de rezonanta a dispozitivului la 30 MHz. In varianta unui montaj in paralel cu condensatorul Ci a unui alt condensator C1 cu valoarea de 1nF, rezulta o frecvanta de rezonanta de 5MHz. Schema electrica a dispozitivului multistrat se constituie din schema electrica a circuitului oscilant corespunzător dispozitivului dublustrat, in care impedantele individuale LI si L2 au valoarea de 0,5 microHenry, multiplicata cu numărul dispozitivelor elementare folosite.Fig. 4, B shows the axonometric representation of the multilayer device with the central capacitor fittings located centrally, with a view on the upper face. One end of the coil located on the upper face, consisting of the helical coils (a) is connected on the upper face to the center disk (b) which constitutes the upper armature of the capacitor Ci, and the other end a! the coil is connected to the peripheral head of the coil consisting of the helical coils (a '), located on the lower face, connecting the two parallel planes containing the device; get inside! the coil located on the lower face is connected to the lower armature of the capacitor Ci. For a diameter of 15 mm a! textolite disk with a thickness of 1.2 mm and for a number of 5 turns a! for each coil, we have a capacity of 1.7pF for the flat capacitor, which brings the resonant frequency of the device to 30 MHz. In the variant of a parallel installation with capacitor Ci of another capacitor C1 with a value of 1nF, a resonance frequency of 5MHz is obtained. The electrical diagram of the multilayer device is constituted by the electrical diagram of the oscillating circuit corresponding to the doubled device, in which the individual impedances LI and L2 have the value of 0.5 microHenry, multiplied by the number of the elementary devices used.

Distribuția câmpului electric E ia dispozitivului multistrat- simulare este prezentata ;n Fig.4.C si Fig,4.D ; simulările au fost reiizate utilizând softulAnSyS.Se constata concentarea câmpului electric intre armaturile piane in forma de discuri ce constituie condensatorul amplasat central si simetric fata de axa verticala ce unește centrele discurilor suprapuse si coaxiale, care realizează in aceiași timp si efectul de cușca Faraday.The distribution of the electric field E and of the multi-layer simulation device is shown; in Fig. 4.C and Fig, 4.D; the simulations were realized using the AnSyS software. The concentration of the electric field between the planar reinforcements in the form of discs is constituted, which is the centrally located capacitor and symmetrical to the vertical axis that unites the centers of the superposed and coaxial discs, which at the same time achieve the Faraday cage effect.

Fig.4E si Fig.4F precizează distribuția câmpului magnetc H corespunzătoare dispozitivului multistrat, care este rezultata din simularea cazului cu valorile anterioare, utilizând softulAnSyS. Reprezentarea evidențiază simetria câmpului magnetic in jurul axei perpendiculare pe suportul circular si orientarea sa In lungul acesteia, asigurând astfel o conexiune preponderent magnetica cu organismul cu care interactioneaza -si repectand astfel principiul comunicării intre țesuturi vii prin câmpuri magnetice. Graficul din Fig S.G evidențiază frecventa de rezonanta si efectul de tonifiere ce poate fi obtinut ia aceste frecvente, avad in vedere amplitudinea si forma graficului, caracterizat eventual prin multirezonanta.Fig. 4E and Fig. 4F indicate the distribution of the magnetic field H corresponding to the multilayer device, which is the result of the simulation of the case with the previous values, using the AnSyS software. The representation highlights the symmetry of the magnetic field around the axis perpendicular to the circular support and its orientation along it, thus ensuring a predominantly magnetic connection with the organism with which it interacts - thus repeating the principle of communication between living tissues through magnetic fields. The graph in Fig. S.G highlights the resonant frequency and the tuning effect that can be obtained from these frequencies, taking into account the amplitude and shape of the graph, possibly characterized by multir resonance.

FIG.5 Dispozitivul cu ecran Fe provine dintr-un dispozitiv unistrat, dublustrat sau multistrat, caruia ia fost aplicata pe fata inferioara-opusa ceiei aplicate in contact cu punctul de acupunctura sau cu zona electroderama, un strat subțire de folie metalica de Fier pur, sau dintr-un alt metal cu proprietăți feromagnetice: rezultatul modelării 3D a dispozitivului dublustrat cu vedere asupra fetei superioare si cu ecran Fe aplicat arata ca in Fîg.5.AFIG. 5 The device with Fe screen comes from a single layered, double-layered or multilayered device, which was applied on the lower face-opposite of the one applied in contact with the acupuncture point or the electrodermal area, a thin layer of pure iron foil, or from another metal with ferromagnetic properties: the result of 3D modeling of the double-glazed device with a view on the upper face and with applied Fe screen looks like in Fig. 5.A

Fig.S.B aduce reprezentarea axonometrica a dispozitivului dublustrat cu armaturile condensatorului plan amplasate central, cu vedere asupra fetei superioar si cu ecran Fe aplicat fetei inferioare. Un capat ai bobinei amplasate pe fata superioara, constituita din spirele elicoidaie (a) este conectat pe fata superioara la discul centra! (b) ce constituie armatura superioara a condensatorului Ci, Iar celalalt capat al bobinei este conectat ia căpătui periferic ai bobinei constituite din spirele elicoidaie (a1) amplasata pe fata inferioara, legând intre ele cele doua planuri paralele care conțin dispozitivul; căpătui interior ai bobinei amplasate pe fata inferioara este legat la armatura inferioara a condensatorului Ci Pentru un diametru de 15 mm al discului de textolit cu grosimea de 1,2 mm si pt un număr de 5 spire ai fiecărei bobine, avem o capacitate de 1,7pF pentru condensatorul pian, care aduce frecventa de rezonanta a dispozitivului la 5MHz in varianta unui montai in paralel cu condensatorul CI a unui alt condensator C1 cu valoarea de InF, asa cum se arata in Fig.S.C, care prezintă schema electrica a circuitului oscilant corespunzător dispozitivului dublustrat, in care impedantele individuale LI si L2 au valoarea de 0,5 microHenry.Fig.SB brings the axonometric representation of the device doubled with the centrally located capacitor fittings, with a view on the upper face and with a Fe screen applied to the lower face. One end of the coil located on the upper face, consisting of the helical coils (a) is connected on the upper face to the center disk! (b) what is superior fittings capacitor Ci and the other end of the coil is connected to said distal end of the coil windings consist of elicoidaie (1) located on the underside, linking together the two parallel planes containing the device; the inner coil of the coil located on the lower face is connected to the lower armature of the capacitor Ci For a diameter of 15 mm of the textolite disk with a thickness of 1.2 mm and for a number of 5 turns of each coil, we have a capacity of 1, 7pF for the piano capacitor, which brings the resonant frequency of the device to 5MHz, as a variant in parallel with the capacitor CI of another capacitor C1 with the value of InF, as shown in Fig.SC, which shows the electrical diagram of the corresponding oscillating circuit of the doubled device, in which the individual impedances LI and L2 have the value of 0.5 microHenry.

Distribuția câmpului electric E corespunzătoare fetei superioare a dispozitivului dublustrat cu ecran inferior de Fe- simulare este prezentata in Fig.S.C. iar distribuția câmpului electric E corespunzătoare a 2016 00598The distribution of the electric field E corresponding to the upper face of the device simulated with the lower display screen is shown in Fig.S.C. and the distribution of the electric field E corresponding to 2016 00598

26/08/2016 fete: inferioare a dispozitivului dublustrat cu ecran inferior de Fe - simulare se regăsește in Fig.5.D; simulările au fost relizate utilizând softulAnSyS.Se constata concentarea câmpului electric intre cele 2 armaturi plane in forma de discuri ce constituie condensatorul amplasat central si simetric fata de axa verticala ce unește centrele celor doua discuri, care realizează in aceiași timp si efectul de cușca Faraday.26/08/2016 girls: lower of the device doubled with lower Fe screen - simulation can be found in Fig.5.D; the simulations were performed using the software AnSyS. The concentration of the electric field between the 2 flat reinforcements in the form of discs is constituted, which is the centrally located capacitor and symmetrical to the vertical axis that unites the centers of the two discs, which at the same time achieve the Faraday cage effect.

Fig.S.E si Fig.S.F precizează distribuția câmpului magnetc H corespunzătoare dispozitivului dublustrat cu ecran Fe aplicat pe fata inferioara, care este rezultata din simularea cazurilor cu valorile anterioare, utilizând softulAnSyS. Reprezentarea evidențiază simetria câmpului magnetic in jurul axei perpendiculare pe suportul circular si orientarea sa in lungul acesteia, asigurând astfel o conexiune preponderent magnetica cu organismul cu care interactioneaza -si repectand astfel principiul comunicării intre țesuturi vii prin câmpuri magnetice.Fig.S.E and Fig.S.F specify the distribution of the magnetic field H corresponding to the device doubled with Fe screen applied on the lower face, which is the result of the simulation of the cases with the previous values, using the AnSyS software. The representation highlights the symmetry of the magnetic field around the axis perpendicular to the circular support and its orientation along it, thus ensuring a predominantly magnetic connection with the organism with which it interacts - thus repeating the principle of communication between living tissues through magnetic fields.

Graficul din Fig .5.G evidențiază frecventa de rezonanta si efectul de tonifiere ce poate fi obținui la aceste frecvente, avad in vedere amplitudinea si forma graficului, caracterizat eventual prin multirezonanta.The graph in Fig. 5.G shows the resonance frequency and the tuning effect that can be obtained at these frequencies, taking into account the amplitude and shape of the graph, possibly characterized by multir resonance.

FIG. 6.Dispozitivul cu miez magnetic de Ferita provine dintr-un dispozitiv unistrat, dublustrat sau multistrat, caruia i-a fost montat pe axa verticala centrala ce constituie axa de simetrie, pe întreaga grosimea de ia fata inferioara la cea superioara, sau pe o parte din aceasta grosime, dar începând de la fata superioara, un cilindru dm ferita sau alt materia! feromagnetic, avand un diametru maxim de (75-70)% din valoarea diametrului discului metalic care constituie armatura superioara si o Înălțime care poate sa depaseasca planul superior a! dispozitivului. Dispozitivul poate avea prevăzut la fata inferioara-partea opusa celei aplicate in contact cu punctul de acupunctura sau cu zona eiectroderama, un ecran metalic magnetic sau electric constituit dintr-un strat subțire de folie metalica Distribuția câmpului electric E corespunzătoare dispozitivului dublustrat cu miez magnetic de feritasimulare este prezentata in Fig.6.A si Fig.S.B; simulările au fost relizate utilizând softulAnSyS.Se constata concentarea câmpului electric Intre cele 2 armaturi plane in forma de discuri ce constituie condensatorul amplasat centrai si simetric fata de axa verticala ce unește centrele celor doua discuri, care realizează in același timp si efectul de cușca Faraday.FIG. 6. The magnetic ferrite core device comes from a single, double or multilayer device, which has been mounted on the central vertical axis which constitutes the axis of symmetry, the entire thickness of the lower front face or the upper one, or part thereof. thick, but starting from the top face, a dm ferrite cylinder or other matter! ferromagnetic, having a maximum diameter of (75-70)% of the value of the diameter of the metal disk constituting the upper reinforcement and a Height that can exceed the upper plane of! device. The device may have provided on the lower side - the opposite side to the one applied in contact with the acupuncture point or the electrodermal area, a magnetic or electrical metallic screen consisting of a thin layer of metal foil. Distribution of the electric field E corresponding to the device doubled with magnetic ferritesimulation core. is shown in Fig. 6.A and Fig.SB; the simulations were performed using the software AnSyS. It is found the concentration of the electric field Between the 2 flat reinforcements in the form of discs that constitute the condenser located centered and symmetrical to the vertical axis that unites the centers of the two discs, which at the same time achieve the Faraday cage effect.

Fig.G.C si Fig.6.D precizează distribuția câmpului magnetc H corespunzătoare dispozitivului dublustrat cu miez magnetic de ferita, care este rezultata din simularea cazurilor cu valorile anterioare, utilizând softulAnSyS. Reprezentarea evidențiază simetria câmpului magnetic In jurul axei perpendiculare pe suportul circular si orientarea sa in lungul acesteia, asigurând astfel o conexiune preponderent magnetica cu organismul cu care interactioneaza -si repectand astfel principiu! comunicării intre țesuturi vii prin câmpuri magnetice.Fig.G.C and Fig.6.D indicate the distribution of the magnetc field H corresponding to the device doubled with magnetic ferrite core, which is the result of the simulation of cases with the previous values, using the AnSyS software. The representation highlights the symmetry of the magnetic field around the axis perpendicular to the circular support and its orientation along it, thus ensuring a predominantly magnetic connection with the organism with which it interacts - thus repeating the principle! communication between living tissues through magnetic fields.

Graficul din Fig .6.E evidențiază frecventa de rezonanta si efectul de tonifiere ce poate fi obtinut la aceste frecvente, avad in vedere amplitudinea si forma graficului, caracterizat eventual prin multirezonanta.The graph in Fig. 6.E highlights the resonant frequency and the tuning effect that can be obtained at these frequencies, taking into account the amplitude and shape of the graph, possibly characterized by multir resonance.

Aparaîui pentru stimularea electromagnetica de malta frecventa a punctelor de acupunctura si a altor zone eiectrodermice active este constituit din totalitatea dispositivelor rezonante pentru stimularea electromagnetica de înalta frecventa (DSAIF) individuale, si/sau din totalitate celor 1...10 seturi de astfel de dispositive care interactioneaza cu un organism la amplasarea componentelor conforma metodei brevetului si cunostiintelor consacrate de acupunctura si medicina energetica Interacțiunea cu organismul se produce intr-o banda Îngusta a spectrului de emisii al corpului, cuprinsa in intervalul 0,3-300 MHz. Corpul uman emite radiații cu relativ înalta intensitate m unele dintre benzi, cum ar fi banda de infraroșu, dar in alte benzi-cum ar fi spectru! vizibil, emisia este de Intensitate extrem de slaba- atingând cateva sute de fotoni per secunda per cmp de suprafața a corpului. Puterea spectrului emisiei corpului uman este prezentata in Fig.1 ,A.[1] (Bembenek, 1998).The device for the electromagnetic stimulation of the common frequency of the acupuncture points and other active electrodermal areas consists of all the resonant devices for the individual high-frequency electromagnetic stimulation (DSAIF), and / or of the totality of the 1 ... 10 sets of such devices which interacts with an organism at the location of the components according to the patent method and the knowledge enshrined in acupuncture and energy medicine. The interaction with the body occurs in a narrow band of the emission spectrum of the body, in the range 0.3-300 MHz. The human body emits radiation with relatively high intensity m some of the bands, such as the infrared band, but in other bands such as spectrum! Visibly, the emission is of extremely low Intensity - reaching several hundred photons per second per body surface area. The power of the emission spectrum of the human body is shown in Fig. 1, A. [1] (Bembenek, 1998).

Efectele stimulării electromagnetice continue si cu frecvente diferite sunt urmate de efecte locale sau ia distanta, care generează efecte terapeutice specifice pentru punctul sau constelația de puncte stimulate. Stimularea se face fie cu dispositive individuale, fie cu un aparat realizat din 1-10 seturi de dispositive, alcătuit fiecare din cate 2 dispozitive rezonante pentru stimularea electromagnetica de înalta frecventa a punctelor de acupunctura si a altor zone eiectrodermice active, caracterizate prin frecvente identice in cadru! seturilor si prin amplasarea fiecărui dispozitiv in puncte si zone simetrice fata de axa de simetrie a organismului cu care interactioneaza (de obicei aceleași puncte de pe aceleași meridiane de acupunctura, cunoscandu-se faptul ca meridianele de acupunctura se prezintă de obicei in perechi amplasate simetric fata de axa de simetrie a unui organism- Fig.7,A, Fig.7.B)The effects of continuous electromagnetic stimulation and with different frequencies are followed by local or distance effects, which generate specific therapeutic effects for the point or constellation of stimulated points. The stimulation is performed either with individual devices or with an apparatus made of 1-10 sets of devices, each made up of 2 resonant devices for high frequency electromagnetic stimulation of acupuncture points and other active electrodermal areas, characterized by identical frequencies in framework! sets and by placing each device in points and areas symmetrical to the axis of symmetry of the body with which it interacts (usually the same points on the same acupuncture meridians, knowing that acupuncture meridians usually appear in pairs symmetrically opposite of the axis of symmetry of an organism - Fig. 7, A, Fig. 7.B)

26/08/201626/08/2016

Invenția utilizează un cuplai electromagnetic a! aparatului potrivit invenției și orice structură a unui organism viu, capabilă să interacționeze cu acesta. Spre deosebire de alte realizări precizate in analiza stadiului tehnicii, cuplajul utilizat este preponderent magnetic, asa cum a fost descris anterior in exemplele de realizare ale dispozitivelor pentru stimularea electromagnetica de înalta frecventa a punctelor de acupunctura si a altor zone electrodermice active mediul cuplajului memționat. Un astfel de circuit are un mod de operare prin care, atunci când este ia rezonanță, absoarbe energia din organism și apoi se comporta ca o sursă a energiei menționate amplificată de faptul că acest transfer are loc ia anumite frecvențe speciale aie circuitului, cunoscute sub numele de frecvențe de rezonanțăThe invention uses an electromagnetic coupling of! of the apparatus according to the invention and any structure of a living organism, capable of interacting with it. Unlike other embodiments specified in the state of the art analysis, the coupling used is predominantly magnetic, as previously described in the embodiments of the devices for high frequency electromagnetic stimulation of acupuncture points and other electrodermal areas active in the environment of the mentioned coupling. Such a circuit has a mode of operation whereby, when it resonates, it absorbs energy from the body and then behaves as a source of said energy amplified by the fact that this transfer takes place at certain special frequencies of the circuit, known as the circuit. of resonance frequencies

Transferul de energie de ia dispozitivul rezonat prin răspunsul in rezonanța ai circuitului astfel indus de organism dă naștere la o modificare în comportamentul electromagnetic al organismului, cauzînd stimularea organismului menționat.The transfer of energy from the resonant device to the resonance response of the circuit thus induced by the organism gives rise to a change in the electromagnetic behavior of the organism, causing stimulation of said organism.

Aparatul invenției pentru punerea în aplicare a metodei descrise mai sus se poate realiza prin unui sau mai multe dispozitive rezonante pasive pentru stimularea electromagnetica de înalta frecventa (DSAIF) împreună cu un element electromagnetic de cuplare cu structurile în cauză aie organismului. Un exemplu neexclusiv de realizare a aparatului conform invenției este prezentat in Fig.9.A, Fig.9.B si Fig.9.C, In care doua dispozitive conform invenției si realizate identic conform descrierii anterioare fie in legătură cu Fig.2.A ...G, fie Fig.3.A ...G, fie Fig.4.A ...G, fie Fig.5.A ...G, fie Fig.6.A ...G, cu avand frecventa de rezonanta nelimitativa, de exemplu de 5 MHz. sunt amplasate încât placa de circuit imprimat este paralela cu suprafața oiehi m puncte e de acucurctu-c Wx e* Wy corecpurzctnare menaatuU 2222 < n scopul In conformitate cu metoda descrisa mai jos si in legătură cu Fig.9.A . C., dispozitivul este plasat în așa felThe apparatus of the invention for the implementation of the method described above may be achieved by one or more passive resonant devices for high frequency electromagnetic stimulation (DSAIF) together with an electromagnetic element coupling to the structures in question in the body. A non-exclusive embodiment of the apparatus according to the invention is shown in Fig.9.A, Fig.9.B and Fig.9.C, wherein two devices according to the invention and made identically according to the previous description are either in connection with Fig.2. A ... G, either Fig.3.A ... G, or Fig.4.A ... G, or Fig.5.A ... G, or Fig.6.A ... G, with non-limiting resonance frequency, for example 5 MHz. are arranged so that the printed circuit board is parallel to the surface of the m o e acucurctu-c points Wx e * Wy corecpurzctnare menaatuU 2222 <n purpose In accordance with the method described below and in connection with Fig. 9.A. C., the device is placed in this way

Aparatului ii pot fi asociate funcțiile de nivel mai înalt, cum ar fi funcțiile de autotestare și caracteristicile care variază sau care pot fi modulate în timpHigher-level functions such as self-testing functions and features that vary or can be modulated over time can be associated with the device.

DESCRiEREA METODEIDESCRIPTION OF THE METHOD

Metoda conform invenției, poate fi pusă în aplicare prin intermediu! aparatului descris anterior si constituit din dispozitive complet pasive: faptul că nu are nici o sursă de energie asigura evitarea oricărui risc de depășire a nivelului de energie acceptabil pentru organism.The method of the invention can be implemented by means of! of the apparatus described above and consisting of completely passive devices: the fact that it has no energy source ensures that any risk of exceeding the energy level acceptable to the body is avoided.

Avantajul unei astfel de metode este acela că permite o stimulare care urmează să fie efectuata în mod continuu, fiind în același timp inofensivă. Ea poate fi aplicata oricărui punct al corpului cu ajutorul unor dispozitive de dimensiuni foarte mici care pot fi purtate în mod continuu și discret atașate unoor articole de folosința cum ar fi de exemplu banderole pentru cap, ochelari si masti pentru fata , coliere, cercei, cotiere, mânuși, braîari, burtiere, genunchiere, gleznlere, îaionete, etcThe advantage of such a method is that it allows a stimulation to be carried out continuously, while being harmless. It can be applied to any point of the body with the help of very small devices that can be worn continuously and discreetly attached to items of use such as headbands, glasses and face masks, necklaces, earrings, armrests , gloves, bracelets, braces, knees, ankles, socks, etc.

Frecvența rezonantă dorită si asociată cu patologia de tratat, poate fi ușor obținută într-un dispozitiv conform invenției, după cum pot fi utilizate si toate armonicile frecvențelor menționate.The desired resonant frequency and associated with the pathology to be treated, can be easily obtained in a device according to the invention, as all the harmonics of the mentioned frequencies can be used.

Datorită acțiunii sale eficiente și de lungă durată, această metodă și-a demonstrat eficacitatea în primul rând ca un paliativ, iar pe termen lung s-a dovedit un curativ pentru diferite condiții patologice. Cu titlu de exemplu, se menționează mai jos rezultate spectaculoase controlate și măsurate obținute la persoane care au fost supuse tratamentelor conform metodei brevetului.Due to its efficient and long-lasting action, this method has proven its effectiveness primarily as a palliative, and in the long term it has proven to be a cure for various pathological conditions. By way of example, the spectacular controlled and measured results obtained in persons who have undergone treatments according to the patent method are mentioned below.

Metoda de stimulare conform invenției consta in aplicarea in doua puncte electrodermice, sau in ma: multe puncte electrodermice-pereche si plasate conform simetriei organismului asupra caruia se actioneaza, a cel mult 20 de dispozitive DSAIF pentru o ședința de stimulare, aplicate la piele de exemplu prin intermediul unei benzi autocolante, hipoaiergene si inerte chimic. Numărul maxim de ședințe de stimulare pentru un ciclu de tratament este de 15, cu pauza intre ciclurile de tratament de minim 10 zile. Un cuplaj eficient se realizeza prin plasarea bobine! în așa fel încât planul ce conține spirele acesteia sa fie tangent ia suprafața pielii în punctul care urmeaza a fi stimulat.The stimulation method according to the invention consists in the application in two electrodermal points, or in ma: many electrodermal-pair points and placed according to the symmetry of the organism on which it is operated, of at most 20 DSAIF devices for a stimulation session, applied to the skin, for example by means of a self-adhesive, hypo-allergenic and chemically inert tape. The maximum number of stimulation sessions for one treatment cycle is 15, with a break between treatment cycles of at least 10 days. Efficient coupling is achieved by placing coils! so that the plane containing its spirals is tangent to the surface of the skin at the point to be stimulated.

Alegerea punctelor si schema de aplicare este conforma cu principiile acupuncturii sau ale tehnicilor de medicina complementara si poate fi realizata atat de practicantul autorizat, cat si de pacientul insusi pe baza unui ghid comprehensiv. Metoda este foarte accesibila, nepoluanta si eficienta.The choice of points and the scheme of application is in accordance with the principles of acupuncture or complementary medicine techniques and can be performed both by the authorized practitioner and by the patient himself on the basis of a comprehensive guide. The method is very accessible, clean and efficient.

Se dau in continuare mai mute exampie de aplicare a metodei conform brevetului.Further examples of applying the method according to the patent are given below.

ExempluH.Metoda aplicata in zona plantara.ExampleH.The method applied in the plantar area.

Este cunoscuta amplasarea plantara a zonelor e!ectrodermale(Fig.8.A). Stimularea zonelor electrodermale active este realizata de un câmp electromagnetic de frecventa foarte Înalta generai de către dispozitivul electromagnetic la interfața cutanata, care, ea insasi radiaza In spectru! electromagnetic pe o plaja extinsa ce include si banda de la infraroșu la ultraviolet si amorseaza emisia de câmp EM a cipului. Efectele stimulării electromagnetice continue sunt urmate de a 2016 00598The plantar location of the electrodermal areas is known (Fig. 8.A). The stimulation of the active electrodermal areas is carried out by an electromagnetic field of very high frequency generated by the electromagnetic device at the skin interface, which itself radiates in the spectrum! electromagnetic on an extended beach that also includes the infrared to ultraviolet band and initiates the EM field emission of the chip. The effects of continuous electromagnetic stimulation are followed in 2016 00598

26/08/2016 efecte locale (creșterea sau diminuarea micro-circulatiei, stimularea metabolismului iocal, creșterea sau scăderea temperaturii locaie, generarea unor curenți electrici locali-autopropagati la distanta pe cai de minima rezistenta electrica, creșterea oxigenării tisulare locaie) sau la distanta (stimularea sistemului de meridiane acupuncturale si a organelor sau a funcțiilor organice de corelație, stimularea sau inhibiția sistemului neuro-endocrin, stimularea mecanismelor de reparare si regenerare tisulara), care generează efecte terapeutice specifice pentru punctui, zona, meridianul sau constelația de puncte stimulate.26/08/2016 local effects (increasing or decreasing the micro-circulation, stimulating the iocal metabolism, increasing or decreasing the local temperature, generating local-self-propagating electric currents at a distance by means of minimal electrical resistance, increasing the local tissue oxygenation) or at a distance ( stimulation of the acupuncture meridian system and of the organs or of the organic functions of correlation, stimulation or inhibition of the neuro-endocrine system, stimulation of the mechanisms of repair and tissue regeneration), which generate specific therapeutic effects for the point, area, meridian or constellation of stimulated points.

Pentru o facila utilizare, dispozitive de activare a punctelor plantare cu cip-uri electromagnetice inductive de frecventa înalta se pot asambla pe branturi. Plasarea pe branturi a cip-urilor electromagnetice inductive de înalta frecventa a fost realizata in zone de stimulare funcționala. In cazull a fost testat amplasamentul in zona renala de proiecție plantara (Fig.8.B), care este o zona de eiectie pentru corectarea tulburărilor posturaie, pentru iombaigla cronica, pentru lombo-sciatica acuta si cronica, pentru tulburările de mers, pentru sindromul de epuizare si de oboseala cronica, de „lipsa de energie” si de „lipsa de forța vitala”. Rezultatele au fost următoarele:For easy use, devices for activating plantar points with high frequency inductive electromagnetic chips can be assembled on the edges. The placement of high frequency inductive electromagnetic chips on the edges was performed in areas of functional stimulation. In the case, the location in the renal area of plantar projection was tested (Fig.8.B), which is an area of ejection for the correction of postural disorders, for chronic gallbladder, for acute and chronic lumbar-sciatica, for walking disorders, for the syndrome. from exhaustion and chronic fatigue, from "lack of energy" and "lack of vital force". The results were as follows:

-In testul-1, pe un lot de 27 de subiecți cu lombalgii cronice, aplicarea branturilor cu dispozitivele electromagnetice la mers si in repaos, timp de 10 zile, a produs diminuarea durerii constatata pe scala de măsură visual-analoga (VAS), cu cca 46.52%, predominant la subiecții de sex masculin, cu exces ponderal si cu munci manuale, sau care ridica frecvent greutatl.-In test-1, on a group of 27 subjects with chronic low back pain, the application of the braces with the electromagnetic devices at walking and resting, for 10 days, produced the pain reduction observed on the visual-analogous measurement scale (VAS), with about 46.52%, predominantly in male subjects, with excess weight and manual labor, or who frequently lift the weight.

-in testul-2, pe un iot de 52 de subiecți cu iombosciatalgii, mono-radiculare si cu discopatii lombare, aplicarea branturilor cu dispozitive EM a produs o reducere semnificativa a durerii (4580%) in 60% din cazuri si o remitere a simptomatologiei aigice si a contracturi! lombare in 30.4% din cazuri.-in test-2, on a yacht of 52 subjects with iombosciatalgias, mono-radicular and lumbar discopathies, the application of the braces with EM devices produced a significant reduction of pain (4580%) in 60% of cases and a remission of the symptoms watery and has contracts! lumbar in 30.4% of cases.

in alt caz dispozitivul EM a fost paisat in punctul de acupunctura VU60 (Vezica Urinara 60) (Fig.S.C ). Acesta a determinat creșterea potențialelor electrice locale cu cca 15-80%, a temperaturi! locale cu fracțiuni de grad pana ia 1-2 grade Celsius, a câmpului electromagnetic (masurat in mGauss) cu 2-140%.in another case the EM device was landscaped at the acupuncture point VU60 (Urinary Bladder 60) (Fig. S.C). This led to the increase of the local electric potentials by about 15-80%, of the temperatures! local with fractions of up to 1-2 degrees Celsius, of the electromagnetic field (measured in mGauss) with 2-140%.

-In testul-3 pe un iot de 15 subiecți de sex feminin, portul branturilor energetice a redus oboseala cronica, insomnia, cefaieea si uneori cervicaigiile însoțitoare in mai mult de 60% din cazuri.-In the test-3 on a yacht of 15 female subjects, the wearing of energy braces reduced chronic fatigue, insomnia, headache and sometimes accompanying cervical cancer in more than 60% of cases.

-Testul-4 a constat in aplicarea unui brant postura! la o pacienta cu tulburări de circulație a membrelor inferioare, costatand modificări de circulație evidențiate in fotografia in IR prin diferența cu planta dreapta nestimulta (Fig.S.D),-Test-4 consisted of applying a brant posture! in a patient with circulatory disorders of the lower limbs, along with the circulation changes highlighted in the IR photograph due to the difference with the nonimplanted right plant (Fig.S.D),

Exemplu!2.Metoda aplicata in zona feteiExample 2. Method applied to the face area

Plasarea pe fata a cip-uriior electromagnetice inductive de înalta frecventa a fost realizata in zone de stimulare funcționala.Temperatura a fost evaluata in trei momente diferite: ia momentul iniția! (Fig,9.A), ia 3 minute (Fig 9.B) si la 6 minute (Fig.9.C). Fotografiile in IR evidențiază modificarea locaia a temperaturilor in punctele electrodermice, astfel: 1) de ia 32.3 la 32,1 si apoi ia 32,4; 2) de la 34,1 la 34,0 si apoi la 34,5, 3) de ia 32,1 ia 31,6 si apoi ia 31,5 grade Celsius.The placement of high-frequency inductive electromagnetic chips on the face was performed in areas of functional stimulation. The temperature was evaluated in three different moments: take the time to initiate! (Fig. 9.A), takes 3 minutes (Fig. 9.B) and 6 minutes (Fig. 9.C). The IR photographs show the change of the temperature location in the electrodermal points, as follows: 1) from 32.3 to 32.1 and then to 32.4; 2) from 34.1 to 34.0 and then to 34.5, 3) from 32.1 to 31.6 and then to 31.5 degrees Celsius.

Evoluția temperaturilor evidențiază ca timpul acordat testului este insuficient pentru tratament si ca este necesara continuarea acestuia conform precizărilor făcute anterioar asupra metodei. ExempiuiS.Metoda aplicata în zona sinusurilorThe evolution of the temperatures shows that the time given to the test is insufficient for the treatment and that it is necessary to continue it according to the specifications made previously on the method. Example: The method applied in the sinus area

Plasarea pe fata a cip-urilor electromagnetice inductive de înalta frecventa a fost realizata in zone de stimulare funcționala.Temperatura a fost evaluata in doua momente diferite: la momentul inițial (Fig.lO.A) si d upa 3 minute (Fig 10.B). Fotografiile in IR evidențiază modificarea locala a temperaturilor in punctele electrodermice, astfel: 1) de ia 33,2 ia 32,6; 2) de ia 34,5 ia 34,0; 3) de iaFace placement of high frequency inductive electromagnetic chips was performed in areas of functional stimulation. The temperature was evaluated at two different times: at the initial moment (Fig.lO.A) and for up to 3 minutes (Fig. 10.B ). The photographs in IR show the local change of the temperatures in the electrodermal points, as follows: 1) from 33.2 to 32.6; 2) from 34.5 to 34.0; 3) to take

33,5 ia 33,5 grade Celsius.33.5 and 33.5 degrees Celsius.

Evoluția temperaturilor evidențiază ca timpul acordat testului este insuficient pentru tratament si ca este necesara continuarea acestuia conform precizărilor făcute anterioar asupra metodei.The evolution of the temperatures shows that the time given to the test is insufficient for the treatment and that it is necessary to continue it according to the specifications made previously on the method.

Exempiui4.Metoda aplicata in zona mâinilorExample 4. Method applied to the hands area

Plasarea pe mâini a cip-uriior electromagnetice inductive de înalta frecventa a fost realizata in zone de stimulare funcționala. Fotografiile in IR evidențiază modificarea locala a temperaturilor inThe placement of high frequency inductive electromagnetic chips in the hands was performed in areas of functional stimulation. The photos in IR show the local change of the temperatures in

26/08/2016 punctele electrodermice, prin creșterea acestora astfel: 1) de la 31.8 la 32,1; 2) de la 31,7 la 32,9; 3) de la 31,8 la 31,9 si 4) de la 31,7 la 32,8.26/08/2016 electrodermal points, by increasing them as follows: 1) from 31.8 to 32.1; 2) from 31.7 to 32.9; 3) from 31.8 to 31.9 and 4) from 31.7 to 32.8.

Fig,11.A. corespunde momentului inițial, iar Fig.11.B corespunde stării Înregistrate după 2 minute de expunere.Fig 11.a. corresponds to the initial moment, and Fig.11.B corresponds to the registered state after 2 minutes of exposure.

a 2016 00598to 2016 00598

Bibliografie selectivaSelective Bibliography

1. Aaomori, Japan. Manila (Philippines): World Health Organization; 1994 Oct 451. Aaomori, Japan. Manila (Philippines): World Health Organization; 1994 Oct 45

2. Beai, James, Bioelectromagnetics: 1998 Health Effects Update, 113 pgs, edited by James Beai, P.O. Box 2112, Wimberley, TX 78676-7012. Phone: 512-847-3076, 1998.2. Beai, James, Bioelectromagnetics: 1998 Health Effects Update, 113 pgs, edited by James Beai, P.O. Box 2112, Wimberley, TX 78676-7012. Phone: 512-847-3076, 1998.

3. Becker, Robert O , & Gary Seldon, The Body Electric: Electromagnetism and the Foundation of Life, William Morrow and Company, Inc,, New York, NY, 1985.3. Becker, Robert O, & Gary Seldon, The Body Electric: Electromagnetism and the Foundation of Life, William Morrow and Company, Inc ,, New York, NY, 1985.

4. Beijing College of Tradițional Chinese Medicine, et al. Essentials of Chinese acupuncture. 1 st ed. Beijing: Foreign Language Press; 1980. 432 p.4. Beijing College of Traditional Chinese Medicine, et al. Essentials of Chinese acupuncture. 1 st ed. Beijing: Foreign Language Press; 1980. 432 p.

5. Chang Y. Tsuei JJ. Correlation study between acupuncture points, meridians and interna! organs of rats by bioenergetic measurements. R.O.C. National Science. Nordenstrom BEW. Hand movements above the unshielded tai! of a shielded raî induces differences in voltage inside the animal. Am J Acupunct 1992, 20:157-163.5. Chang Y. Tsuei JJ. Correlation study between acupuncture points, meridians and internals! organs of rats by bioenergetic measurements. R.O.C. National Science. Nordenstrom BEW. Hand movements above the unshielded tai! of a shielded raî induces differences in voltage within the animal. Am J Acupunct 1992, 20: 157-163.

6. Chen GB, Li SC, Jiang CC. Clinica! studies on neurophysiological and biochemical basis of acupuncture analgesia. Am J Chin Med 1986; 14(1-2):84-95.6. Chen GB, Li SC, Jiang CC. Clinical studies on the neurophysiological and biochemical basis of acupuncture analgesia. Am J Chin Med 1986; 14 (1-2): 84-95.

7. Chen KG, et al.: Transient responșes of a human body to a small DC voltage and electrical properties of meridians, in Internationa! Congress on Tradițional Medicine (Beijing '91): Modern Interpretation of Qi and Blood, Bioenergetic Medicine. Taipei, Taiwan, Foundation for EastWest Medicine, 1991, pp 16-2.5.7. Chen KG, et al .: Transient responses of a human body to a small DC voltage and electrical properties of meridians, in Internationa! Congress on Traditional Medicine (Beijing '91): Modern Interpretation of Qi and Blood, Bioenergetic Medicine. Taipei, Taiwan, Foundation for EastWest Medicine, 1991, pp. 16-2.5.

8. Chen KG. II. Electrica! properties of meridians: with an overview of the electrodermal screening test. IEEE Eng Med Biol Mag 1996; 15(3):58-638. Chen KG. II. Electric! properties of meridians: with an overview of the electrodermal screening test. IEEE Eng Med Biol Mag 1996; 15 (3): 58-63

9. Chinese Academy of Tradițional Chinese Medicine, An Outline of Chinese Acupuncture, 1975 Foreign Languages Press, Beijing.9. Chinese Academy of Traditional Chinese Medicine, An Outline of Chinese Acupuncture, 1975 Foreign Languages Press, Beijing.

10. Daie RA, Cheng Y. Dictionary of acupuncture: terms, concepfs, and points = Chen chiu hsueh tz'u tien: shu yu, kai nien, hsueh wei. North Miami Beach (FL): Dialectic Pub.; 1993. 431 p.10. Daie RA, Cheng Y. Dictionary of acupuncture: terms, concepfs, and points = Chen chiu hsueh tz'u tien: shu yu, kai nien, hsueh wei. North Miami Beach (FL): Dialectic Pub .; 1993. 431 p.

11. Dang Yi (chief editor, English), Acupuncture and Moxibustion, 1999 Academy Press, Beijing.11. Dang Yi (chief editor, English), Acupuncture and Moxibustion, 1999 Academy Press, Beijing.

12. Darras J. Isotopic and cytologic assays in acupuncture. In: Energy Fields in Medicine. Kaiamazoo, Michigan, John E. Fetzer Foundation, 1989, pp 44-65.12. Darras J. Isotopic and cytologic assays in acupuncture. In: Energy Fields in Medicine. Kaiamazoo, Michigan, John E. Fetzer Foundation, 1989, pp. 44-65.

13. Erickson RJ, editor. Review of acupuncture literature with critique & commentary; English language articies - 1994. Los Angeles: American Foundation of Medica! Acupuncture, ci 99513. Erickson RJ, editor. Review of acupuncture literature with critique &commentary; English language articies - 1994. Los Angeles: American Foundation of Medica! Acupuncture, ci 995

14. Frey, Allan H., On the Nature of Electromagnetic Field Interactions with Biologica! Systems, CRC Press, Boca Raion, Florida, 1994. Kenyon JN. Modern Techniques of Acupuncture: A Practica! Scientific Guide to ElectroAcupuncture, Voi. I. New York, Thorsons Publishers Inc , 1983.14. Frey, Allan H., On the Nature of Electromagnetic Field Interactions with Biologica! Systems, CRC Press, Boca Raion, Florida, 1994. Kenyon JN. Modern Techniques of Acupuncture: A Practice! Scientific Guide to ElectroAcupuncture, Vol. I. New York, Thorsons Publishers Inc., 1983.

15. Friedman MJ, Birch S, Tiller W. Towards the development of a mathematical mode! for acupuncture meridians. Acupunct Electrother Res 1989; 14(3-4):217-26.15. Friedman MJ, Birch S, Tiller W. Towards the development of a mathematical mode! for acupuncture meridians. Acupunct Electrother Res 1989; 14 (3-4): 217-26.

16. Gu Yuehua, Treatment of acute abdomen by electro-acupuncture, Journal of Tradițional Chinese Medicine 1992; 12(2). 110-113.16. Gu Yuehua, Treatment of acute abdomen by electro-acupuncture, Journal of Traditional Chinese Medicine 1992; 12 (2). 110-113.

17. lonescu-Tirgoviste C, Pruna S, losif C, lonescu L. Photophlethysmographic changes induced by skin stimuiation using acupuncture. Am J Acupunct 1994;22(4):363-8.17. lonescu-Tirgoviste C, Pruna S, losif C, lonescu L. Photophlethysmographic changes induced by skin stimulation using acupuncture. Am J Acupunct 1994; 22 (4): 363-8.

18. Jessel-Kenyon J, Ni C, Blott B, Hopwood V. Studies with acupuncture using a SQUID biomagnetometer: a preliminaryreport. Complement Med Res 1992;6(3): 142-51.18. Jessel-Kenyon J, Ni C, Blott B, Hopwood V. Studies with acupuncture using a SQUID biomagnetometer: a preliminaryreport. Complement Med Res 1992; 6 (3): 142-51.

19. Kenyon JN. Modern techniques of acupuncture: a practicai scientific guide to electroacupuncture. New York: Thorsons Publishers; 1983.19. Kenyon JN. Modern techniques of acupuncture: a scientific practice guide to electroacupuncture. New York: Thorsons Publishers; 1983.

20. Lade A. Acupuncture points: images & functions. Seattle (WA): Easiland Press; ci 989. 363 p.20. Lade A. Acupuncture points: images & functions. Seattle (WA): Easiland Press; ci 989. 363 p.

21. Liu Hongyan and Zhang Caihong, 60 cases of shoulder-arm syndrome treated by electroacupuncture at bingfeng (SI-12), Journal of Tradițional Chinese Medicine 1998; 18(4): 256-258.21. Liu Hongyan and Zhang Caihong, 60 cases of shoulder-arm syndrome treated by electroacupuncture at bingfeng (SI-12), Journal of Traditional Chinese Medicine 1998; 18 (4): 256-258.

22. Lui WC, Tsuei JJ. Bioenergetic measurements of patients with chronic fatigue syndrome. Scientific Reports of the Foundation for East-West Medicine. Taipei, Taiwan, Foundation for East-West Medicine, 1990.22. Lui WC, Tsuei JJ. Bioenergetic measurements of patients with chronic fatigue syndrome. Scientific Reports of the Foundation for East-West Medicine. Taipei, Taiwan, Foundation for East-West Medicine, 1990.

23. Luo Hechun, Jia Yunkui, and Zhanli, Electro-acupuncture vs. amitriptyline in the treatment of depressive States, Journal of Tradițional Chinese Medicine 1985; 5(1): 3-8.23. Luo Hechun, Jia Yunkui, and Zhanli, Electro-acupuncture vs. amitriptyline in the treatment of depressive states, Journal of Traditional Chinese Medicine 1985; 5 (1): 3-8.

24. Mann F. Scientific aspects of acupuncture. 2nd ed. London: Heinemann Medica! Books; 1983. 101 p.24. Mann F. Scientific aspects of acupuncture. 2nd ed. London: Heinemann Medica! Books; 1983. 101 p.

25. Meeting Abstracts, p4. Bucharest, Romania.25. Meeting Abstracts, p4. Bucuresti, Romania.

26. Moldovan, C.; Gheorghe, I; Mamulas, I., Comsa, L.: “The Study of the Active Acupoints in Bronchia! Asthma by an Integrate Electrodermic System”. Contract No.349/25.08.1995/Phase 1.2/ Ministry of Science and Technology. December 1995: pp1-30. Bucharest. Romania.26. Moldovan, C.; Gheorghe, I; Mamulas, I., Comsa, L.: “The Study of the Active Acupoints in Bronchia! Asthma by an Integrated Electrodermic System ”. Contract No.349 / 25.08.1995 / Phase 1.2 / Ministry of Science and Technology. December 1995: pp1-30. Bucharest. Romania.

a 2016 00598to 2016 00598

27. Moldovan, C. at aii: “Computerized Biostimulotherapy”. Symposium on Applications of Computer Techniques. Poiytechnic institute, Romania, October 20, 1989. Meeting Abstracts, p3. Bucharest, Romania.27. Moldovan, C. at aii: “Computerized Biostimulotherapy”. Symposium on Applications of Computer Techniques. Poiytechnic institute, Romania, October 20, 1989. Meeting Abstracts, p3. Bucuresti, Romania.

28. Moldovan, C. at aii: “Computerized Biostimulotherapy”: Patent No. 98138”, fllled at O.S.I.M. on December27, 1988. Bucharest, Romania;.28. Moldovan, C. at aii: “Computerized Biostimulotherapy”: Patent No. 98138 ”, fllled at O.S.I.M. on December27, 1988. Bucharest, Romania;

29. Moldovan, C.: “Bioenergetic Control System PULSAR S-2000, a new Therapeutic Device:electro-opto-ultrasound computerized biostimuiation”. International Exhibition for Informatice and Computer Science, Moscow, June 9, 1989, Officiai Exhibition Proceedings: pp 18-27. Moscow, Russia.29. Moldovan, C.: "Bioenergetic Control System PULSAR S-2000, a new Therapeutic Device: electro-opto-ultrasound computerized biostimuiation". International Exhibition for Computer Science and Computer Science, Moscow, June 9, 1989, Officiai Exhibition Proceedings: pp. 18-27. Moscow, Russia.

30. Moldovan, C.: “Electric Field Phenomena Involved in Acupuncture Mechanisms’’. The First Congress of European Acupunctura Association, October 6-9, 1994. Congress Proc.: pp 93-95. Chisinew, Republic of Moldova.30. Moldovan, C.: "Electric Field Phenomena Involved in Acupuncture Mechanisms". The First Congress of the European Acupuncture Association, October 6-9, 1994. Congress Proc .: pp 93-95. Chisinew, Republic of Moldova.

31. Moldovan, C.: “Electro -Thermo-Dermic Areas. Identification Techniques; Physiologic and Physiopathologic Significance”. 21 st World Congress of Natural Mediclnes, April 12, 1991. Proc: po. Malaga, Spain.31. Moldovan, C.: “Electro-Thermo-Dermic Areas. Identification Techniques; Physiologic and Physiopathologic Significance ”. 21 st World Congress of Natural Mediclnes, April 12, 1991. Proc: po. Malaga, Spain.

32. Moldovan, C.: Imagistica Electrostatica de Suprafața in studiul fenomenelor electrodermale”. Revista de Aparatura Medicala (RAM), 12/ 2000/ p 17-,32. Moldovan, C .: Electrostatic Imaging of the Surface in the study of electrodermal phenomena ”. Journal of Medical Devices (RAM), 12/2000 / p 17-,

33. Moldovan, C.: “Low Energy Laser-Acupuncture: A Novei Model of Enegetic interaction”. Internet Document--http://www.Acupuneture.com/Research/ Laser2.htm, 1997.33. Moldovan, C.: “Low Energy Laser-Acupuncture: A New Model of Enegetic interaction”. Internet Document - http: //www.Acupuneture.com/Research/ Laser2.htm, 1997.

34. Moldovan, C.: “MULTI-THERAPEUTIC ADAPTIVE SYSTEM”: Internet Artlcle: http://www.Acupuncture.com/Research/34. Moldovan, C.: “MULTI-THERAPEUTIC ADAPTIVE SYSTEM”: Internet Article: http://www.Acupuncture.com/Research/

35. Moldovan, C.' “Original Eiectrography in Electroluminiscence Technique and image Interpretation”. 21 st World Congress of Natural Medicines, April 12, 1991. Proc: p 5. Malaga, Spain35. Moldovan, C. ' “Original Eiectrography in Electroluminiscence Technique and image Interpretation”. 21 st World Congress of Natural Medicines, April 12, 1991. Proc: p 5. Malaga, Spain

36. Moldovan, C.; Bratila, F.; Mamulas, I., Gheorghe, !.: Electrostatic Imaging of Acupunctura Points. Proceedings of the IXth Romanian Acupunctura Congress with Internationa! Participation, 21-23 September 1995: p7. Arad, Romania.36. Moldovan, C.; Bratila, F.; Mamulas, I., Gheorghe,! .: Electrostatic Imaging of Acupuncture Points. Proceedings of the IXth Romanian Acupuncture Congress with Internationa! Participation, 21-23 September 1995: p7. Arad, Romania.

37. Moldovan, C.; Bratila, F.; Mamulas, I.; Gheorghe, I.: Exploration Techniques of Acupuncture’s Bio-electric Environment”. Proceedings of the IXth Romanian Acupunctura Congress with Internationa! Participation, 21-23 September 1995: p8. Arad, Romania.37. Moldovan, C.; Bratila, F.; Mamulas, I.; Gheorghe, I .: Exploration Techniques of Acupuncture's Bio-electric Environment ”. Proceedings of the IXth Romanian Acupuncture Congress with Internationa! Participation, 21-23 September 1995: p8. Arad, Romania.

38. Moldovan, C.; Mamulas, I.: “Electrostatic Mechanisms involved in Low Energy Laser Acupuncture Bio-Effects. Proc. of the 8th ICOM, November 1995. Secul, Korea.38. Moldovan, C.; Mamulas, I.: “Electrostatic Mechanisms Involved in Low Energy Laser Acupuncture Bio-Effects. Proc. of the 8th ICOM, November 1995. Secul, Korea.

39. Moldovan, C.; Podoleanu, A.; Campeanu, C.: “Consideration for optimization of a Computerized Biostimulatory System equipped with a Thermovision Apparatus”.39. Moldovan, C.; Podoleanu, A.; Campeanu, C .: "Consideration for optimization of a Computerized Biostimulatory System equipped with a Thermovision Apparatus".

40. Nemeș, I.D.A., Drago!, M., Moldovan, C., Gheorghe, I., Trascau, T.:”Ghid de Electroterapie si Fototerapie”. Ed. Orizonturi Universitare, Timișoara 2000, ISBN 973-8109-02-740. Nemeș, I.D.A., Drago !, M., Moldovan, C., Gheorghe, I., Trascau, T.:-------- Guide to Electrotherapy and Phototherapy ”. Ed. University Horizons, Timisoara 2000, ISBN 973-8109-02-7

41. O'Connor J and Bensky D (translators), Acupuncture: A Comprehensive Text, 198 Eastland Press, Seattle, WA.41. O'Connor J and Bensky D (translators), Acupuncture: A Comprehensive Text, 198 Eastland Press, Seattle, WA.

42. Pomeranz B, Stux G, editors. Scientific bases of acupuncture. New York: Springer-Verlag; C1989. 199 p.42. Pomeranz B, Stux G, editors. Scientific bases of acupuncture. New York: Springer-Verlag; C1989. 199 p.

43. Popp F. Biophoton emission. Experimentia 1988-44:443-444.43. Popp F. Biophoton emission. Experimentia 1988-44: 443-444.

44. Reichmanis M, Becker RO. Physiological effects of stimulation at acupuncture loci: a review. Comp Med EastWest 1978 Spring; 6(1):67-73.44. Reichmanis M, Becker RO. Physiological effects of stimulation at acupuncture loci: a review. Comp Med EastWest 1978 Spring; 6 (1): 67-73.

45. Reichmanis M, Marino AA, Becker RO. D C. skin conductance variation at acupuncture loci. Am J Chin Med 1976 Spring;4(1 ):69-72.45. Reichmanis M, Marino AA, Becker RO. D C. skin conductance variation at acupuncture loci. Am J Chin Med 1976 Spring; 4 (1): 69-72.

46. Reichmanis M, Marino AA, Becker RO. Laplace plane analysis of impedance on the H meridian. Am J Chin Med 1979 Summer; 7(2):188-93.46. Reichmanis M, Marino AA, Becker RO. Laplace plane impedance analysis on the H meridian. Am J Chin Med 1979 Summer; 7 (2): 188-93.

47. Rosenblatt SL. The electrodermal characteristics of acupuncture points. Am J Acupunct 1982;10:131-137.47. Rosenblatt SL. The electrodermal characteristics of acupuncture points. Am J Acupunct 1982; 10: 131-137.

48. Royal FF, Royal DF. A review of the history and scientific bases of electrodiagnosis and its relationship to homeopathy and acupuncture. Am J Acupunct 1991; 19:137-152.48. Royal FF, Royal DF. A review of the history and scientific bases of electrodiagnosis and its relationship to homeopathy and acupuncture. Am J Acupunct 1991; 19: 137-152.

49. Rubik Beverly: Measurement of the Human Biofield and Other Energetic Instruments, Chapter 20 of Energetics and Spirituality by Lyn Freeman49. Rubik Beverly: Measurement of the Human Biofield and Other Energetic Instruments, Chapter 20 of Energetics and Spirituality by Lyn Freeman

50. Symposium on Applications of Computer Techniques. Poiytechnic institute, October 20, 1989.50. Symposium on Applications of Computer Techniques. Poiytechnic institute, October 20, 1989.

51. Tiller WA. What do electrodermal diagnostic acupunctura Instruments really measure? Am J Acupunct 1987; 15:12-23.51. Tiller WA. What do Electrodermal Diagnostic Acupuncture Instruments really measure? Am J Acupunct 1987; 15: 12-23.

52. Tsuei JJ, Wang WK, et al. The study of bioenergetic screening modei for hypertension. R.O.C National Science Council Reports, June 1991 - Nov. 1992.52. Tsuei JJ, Wang WK, et al. The study of bioenergetic screening modei for hypertension. R.O.C National Science Council Reports, June 1991 - Nov. 1992.

53. Voii R. Measurement Points oi the Electroacupuncture According to Voii on the Hands and Feet. Uelzen, Germany, Medizinisch Literarische Veriagsgesellschaft, 1982.53. Voii R. Measurement Points oi the Electroacupuncture According to Voii on the Hands and Feet. Uelzen, Germany, Medizinisch Literarische Veriagsgesellschaft, 1982.

26/08/201626/08/2016

54. Voi! R: The 850 Eav Measurement Points of the Meridians And Vessels IncJuding The Secondary Vessels. Uelzen, Germany, Medizinisch Literarische Verlagsgesellschaft, 1983.54. You! A: The 850 Eav Measurement Points of the Meridians And Vessels IncJuding The Secondary Vessels. Uelzen, Germany, Medizinisch Literarische Verlagsgesellschaft, 1983.

55. Working Group on Clinica! Research Methodology for Acupunctura. Report. Working Group on Clinica! Research Methodology for Acupunctura; 1994 Jun 1-4; (Report Series: no. RS/94/GE/14(JPN)). Convened by the Regional Office for the Western Pacific of the World Health Organization55. Working Group on Clinica! Research Methodology for Acupuncture. Report. Working Group on Clinic! Research Methodology for Acupuncture; 1994 Jun 1-4; (Report Series: no. RS / 94 / GE / 14 (JPN)). Convened by the Regional Office for the Western Pacific of the World Health Organization

56. Wu Jianhui and Guo Zhili, 23 cases of postherpetic neuralgia treated by acupunctura, Journal of Tradițional Chinese Medicine 2000; 20(1): 36-37.56. Wu Jianhui and Guo Zhili, 23 cases of postherpetic neuralgia treated by acupuncture, Journal of Traditional Chinese Medicine 2000; 20 (1): 36-37.

57. Yang Jun, 32 cases of femoral adductor syndrome treated by electro-acupuncture and moxibustion, Journal of Tradițional Chinese Medicine 1998; 18(4): 263-264.57. Yang Jun, 32 cases of femoral adductor syndrome treated by electro-acupuncture and moxibustion, Journal of Traditional Chinese Medicine 1998; 18 (4): 263-264.

58. Ye Fang, Chen Shaozong, and Liu Weiming, Effects of electro-acupuncture on immune function after chemotherapy in 28 cases, Journal of Tradițional Chinese Medicine 2002; 22(1):58. Ye Fang, Chen Shaozong, and Liu Weiming, Effects of electro-acupuncture on immune function after chemotherapy in 28 cases, Journal of Traditional Chinese Medicine 2002; 22 (1):

21-23.21-23.

59. Zhang Enquin (editor in chief), Chinese Acupunctura and Moxibustion, 1990 Publishing House of Shanghai College of Tradițional Chinese Medicine, Shanghai.59. Zhang Enquin (editor-in-chief), Chinese Acupuncture and Moxibustion, 1990 Publishing House of Shanghai College of Traditional Chinese Medicine, Shanghai.

60. Zheng Qiwei, Experience in the point selection for electro-acupuncture, Journal of Tradițional Chinese Medicine 1998; 18(4}: 277-281.60. Zheng Qiwei, Experience in the point selection for electro-acupuncture, Journal of Traditional Chinese Medicine 1998; 18 (4}: 277-281.

26/08/2016 i lu ί.ο : Ρ 1 tî) : ±s > -C te : O ί te;E ; SE ! Ε : E : <TO > -TO8/26/2016 i lu ί.ο: Ρ 1 tî): ± s> -C te: O ί te; E; YES! Ε: E: <TO> -TO

W ϋ ί te : Φ:You are here:

;q:Q:

<0 ( CJ/·: ε5<5< to 5 Ε<0 (CJ / ·: ε5 <5 <to 5 Ε

2 : 2 :

-Η ε:-Η ε:

Jet';Jet';

r-' Z; -v WJ -- ÎTÎ · — — : C9 .:Q_ Ιω ! TO : O : !CL :N·r- 'Z; -v WJ - ÎTÎ · - -: C9. : Q_ Ιω! TO: O:! CL: N ·

TO :TO:

£:CL:£ CL:

θ) : rț\ ·θ): rt \ ·

Ό : m : O: «:Ό: m : O: «:

;□ ;lu ;< i ea îq ·< :.ω!ο ;q :; □; lu; <i ea îq · < : .ω! Ο; q:

O <£>O <£>

!(O !>! (O!>

: te: tea

Î'teî to: : 'o : ?to .· ; TJ 1 >to : i.TOț .9 : 73 ț ite țÎ'teî to:: 'o:? To. ·; TJ 1> to: i.TOț .9: 73 t ite t

H ! ® g. E ; Ș. | jj <υ ș : σί Ι o5 : co >H! ® g. E; Rev. | jj <υ ș: σί Ι o5: co>

î : >TO :Q:> TO:

; :; :

: φ:: φ:

•c«41 ro : Tt) tn j: < :CQ ;O i<£> jco :<c ;f>- io- ;h- :e© :<o co &} :«o :$© :«> :«5 Tao Im :<n icn :• c «41 ro: Tt) tn j: <: CQ; O i <£> jco: <c; f> - io-; h-: e ©: <o co &}:« o: $ ©: « >: «5 Tao Im: <n icn:

i< :££ țO q i< :ffl : ’o io io JO ί -r- :Έ :i <: ££ șO q i <: ffl: 'o io io JO ί -r-: Έ:

te t: q :c7 :<te :<O j<0 ::I t: q: c7 <I <A j <0::

j \T:m ;<£> : î--- <0 ț<te : O ·:f\j ;<O i xl tute : xj- : xr ; xr j xj- <r < : to :uy; ir?; tn uo țox : TO i TO:j \ T: m; <£>: î --- <0 ș <te: O ·: f \ j; <O i xl tute: xj-: xr; xr j xj- <r <: to: uy; ir ?; in the following: TO and TO:

i TO.: O : N :: Q,and TO .: O: N :: Q,

TO : 9 : Pj te ί te · •2iE : <L: D I te :TO: 9: Pj te ί te · • 2iE: <L: D I te:

< TO :.TO · U ! O ;<TO: .TO · U! O;

b te te: b tea:

w n' J te:w n 'J was:

Lu b- to TO:Lu b- to TO:

.2 2 to, TO . Cl CL- . î lL<. ! «Xj ' te o 2 to P.2 2 to, TO. Cl CL-. Î lL <. ! «Xj 'was o 2 to P

I Q.: ί- : 2 'I Q .: ί-: 2 '

O te X r_ · XL : O · te o te :CL (Λ J c -> x b < te : iii t te ~5 Γ TO £ ° O fD £O te X r_ · XL: O · te o te: CL (Λ J c -> xb <te: iii t te ~ 5 Γ TO £ ° O f D £

C. 73 ε r oC. 73 ε r o

TO g exTO g ex

ZL 3 te ε te C .(< cq υ < m e q i.ZL 3 te ε te C. (<cq υ <m e q i.

I... v. ; ^-. ; : fSi : «\J : jI ... v . ; ^ -. ; : fSi : «\ J: j

TO teTO you

O _ : rO TOO _: rO TO

Ci k. CLThere k. CL

TO te teTO tea

PP

TO φ TO TO te TO ? ? c ITO φ TO TO te TO? ? c I

CL oCL o

Π £ : TO) > TOΠ £: TO)> TO

L L. : te 1 tester te o:L L.: was 1 tester was o:

Ό CL c c_ εΌ CL c c_ ε

TO te <CQ w C LU χΟ<£Ων^ΐ2αΐΡθ·<{£ΐΟ£.ΐωΐΐ-Ο : cTO <O : .<TOt · cTO :iTO > țTO | ro : *1 · -<f : · xr : xf | ’t - ·»ί· : ΚΓ» · <0 : uf> : yD : :o : κΠ ·ιχ> :TO te <CQ w C LU χΟ <£ Ων ^ ΐ2αΐΡθ · <{£ ΐΟ £ .ΐωΐΐ-Ο: cTO <O:. <TOt · cTO: iTO> șTO | ro: * 1 · - <f: · xr: xf | 't - · »· ί: ΚΓ» · <0: uf>: yD:: a: κΠ · ιχ>:

: Οχ : <TO : xT : UT <Ο· < h- < CO : tei IO (Μ 1 04 k\! Γ 4 C\ OJ : <o a 2016 00598: Οχ: <TO: xT: UT <Ο · <h- <CO: tei IO (Μ 1 04 k \! Γ 4 C \ OJ: <o a 2016 00598

26/08/201626/08/2016

Claims (16)

1. Un dispozitiv rezonant pentru de stimulare electromagnetica a punctelor de acupunctura si a altor zone electrodermice active(DReSEAIF), care cuprinde componente electronice pasive de tip rezistor, condensator si bobina/inductor , avand valori fixe sau variabiie/semivariabiie/reglabile asamblate intr-unui sau mai multe circuite oscilante cu frecvente de rezonanta alese corespunzător răspunsului biorezonant destinat/estimat, prevăzut centra! cu o incita de tip Faraday in interiorul careia se concentrează sarcinile electrice aie condensatorilor si ce! puțin o bobina/ inductor de preferința plasata in jurul incinte! Faraday, care generează in spațiu! înconjurător un câmp magnetic simetric fata de perpendiculara suprafeței pe care este aplicat, cu vectorul H orientat după aceasta, oscilant la cei puțin o frecvență de rezonanță cuprinsa in banda 300kHz3GHz (MF, HF, VHF.UHF), pe care o aplica local punctelor de acupunctura si a altor zone electrodermice active.1. A resonant device for electromagnetic stimulation of acupuncture points and other active electrodermal areas (DReSEAIF), comprising passive electronic components of resistor type, capacitor and coil / inductor, having fixed or variable / semivariable / adjustable values assembled in to one or more oscillating circuits with resonance frequencies chosen according to the intended / estimated biorezoning response, provided by the center! with a Faraday type incite inside which the electrical loads of the capacitors are concentrated and what! little coil / inductor preferably placed around the enclosure! Faraday, which generates in space! surrounding a magnetic field symmetrical to the perpendicular to the surface on which it is applied, with the vector H oriented thereto, oscillating at the least a resonance frequency included in the 300kHz3GHz band (MF, HF, VHF.UHF), which it applies locally to the points of acupuncture and other active electrodermal areas. 2. Un dispozitiv în conformitate cu revendicarea 1, în care componentele electronice constitutive : o bobină fixa si/sau o bobina cu miez reglabil, un condensator fix si/sau un condensator semireglabi! și un rezistor fix si/sau un rezistor semiregiabi! reaiizeaza un circuit oscilant pasiv-fara sursa de energie, rezonant ia ce! puțin o frecvență din intervalul 300kHz-3GHz .A device according to claim 1, wherein the constituent electronic components: a fixed coil and / or an adjustable core coil, a fixed capacitor and / or a semiregular capacitor! and a fixed resistor and / or a semiairectional resistor! re-creates a passive oscillating circuit - without power source, resonating takes what! low frequency 300kHz-3GHz. 3. Un dispozitiv conform revendicării 1, în care componentele rezistoare, condensatoare si inductoare sunt dispuse și asamblate pe un circuit imprimat plan avand de preferința o forma geometrica circulara sau de poligon regulat, placat intr-un strat sau pe un circuit imprimat placat in 2 straturi sau intre aceste straturi sau combinat pe straturi si intre acestea sau sunt printate printr-o tehnologie 2D sau 3D, care este rigid sau flexibil, prevăzut centra! si simetric cu discuri metalice separate prin placa dieiectricuiui intre care se asambleaza condensatorii si care reaiizeaza efecte! de cușca Faraday, discurile centrale fiind străbătute evetuai de un cilindru de materia! feromagnetic amplasat in centrul acestora si perpendicular pe ele;3. A device according to claim 1, wherein the resistor, capacitor and inductor components are arranged and assembled on a flat printed circuit board having preferably a regular geometric or circular polygon shape, placed in a layer or on a printed circuit board covered in 2 layers or between these layers or combined on the layers and between them or are printed by a 2D or 3D technology, which is rigid or flexible, provided the center! and symmetrically with metal disks separated by the plate of the dielectric between which the capacitors are assembled and which produce effects! Faraday cage, the central discs being pierced by a cylinder of matter! ferromagnetic located in their center and perpendicular to them; 4. Un dispozitiv în conformitate cu revendicarea 1, în care auto-bobina este constituită de un traseu de circuit imprimat aie cărui trasee formează un set de spire imbricate care sunt circulare sau polygonale.A device according to claim 1, wherein the self-coil is a printed circuit path whose paths form a set of nested coils that are circular or polygonal. 5. Un dispozitiv în conformitate cu revendicarea 1, folosind elemente de cuplare electromagnetica cu organismul viu , care sunt de tip bobină de inducție (auto-inductivitate) sau de tipul antenă (dipol electric).5. A device according to claim 1, using electromagnetic coupling elements with the living organism, which are induction coil type (self-inductance) or antenna type (electric dipole). 6. Un dispozitiv in conformitate cu revendicarea 1, caracterizat prin aceea ca partea opusa celei atașate ia pielea/invelisul organismului viu, se acopera parțial sau integra! cu o folie metalica din material feromagnetic, de exemplu fier pur, prin aplicarea acesteia ia exterior.6. A device according to claim 1, characterized in that the opposite side of the attached one takes the skin / shell of the living organism, partially or completely covered! with a metal foil made of ferromagnetic material, for example pure iron, by applying it to the outside. 7. Un dispozitiv in conformitate cu revendicarea 1, caracterizat prin aceea ca partea dispozitivului care vine in contact local direct cu punctele de acupunctura si/sau alte zone electrodermice active aie organismului viu, se acopera cu un strat de material cu efect de polarizare a radiației electromagnetice.7. A device according to claim 1, characterized in that the part of the device that comes in direct local contact with the acupuncture points and / or other active electrodermal areas of the living organism is covered with a layer of material with a radiation polarization effect. electromagnetic. 8. Un dispozitiv in conformitate cu revendicarea 1, caracterizat prin aceea ca partea dispozitivului care vine in contact local direct cu punctele de acupunctura si/sau alte zone electrodermice active aie organismului viu, se acopera parțial sau integral cu o foiie dubiu adeziva de utilizare unica sau multipla, sau cu un lichid adeziv pentru asigurarea poziționam corespunzătoare efectului dorit.8. A device according to claim 1, characterized in that the part of the device that comes in direct local contact with the acupuncture points and / or other active electrodermal areas of the living organism, is partially or completely covered with a single-use double adhesive sheet. or multiple, or with an adhesive liquid to ensure we position the appropriate effect. 9. Un dispozitiv conform revendicărilor 1...8, caracterizat prin aceea ca prezintă componente rezistoare, condensatoare si inductoare dispuse și asamblate in straturi suprapuse si/sau aiaturate intr-un volum cu o secțiune de preferința avand forma geometrica circulara sau poligon regulat, care este rigid sau flexibil, prevăzut centra! si simetric cu discuri metalice separate prin placa dieiectricuiui intre care se asambleaza condensatorii si care reaiizeaza efectul de cușca Faraday, discurile centrale fiind străbătute eventual de un cilindru de materia! feromagnetic amplasat in centru! acestora si perpendicular pe ele, realizate parțial sau integral prin printate intro tehnologie 2D sau 3D.9. A device according to claims 1 ... 8, characterized in that it has resistive components, capacitors and inductors arranged and assembled in layers superimposed and / or ventilated in a volume with a section preferably having a circular geometric shape or regular polygon, which is rigid or flexible, provided the center! and symmetrically with metal disks separated by the plate of the dielectric between which the capacitors are assembled and which reaffirm the Faraday cage effect, the central disks being eventually crossed by a cylinder of matter! ferromagnetic located in the center! them and perpendicular to them, made partially or entirely by printing in 2D or 3D technology. 10. Un dispozitiv conform revendicărilor 1. 9, utilizat pentru , cei puțin în scopul de a modifica o stare fiziologică sau de tratare a unei patologii a unui organism viu.10. A device according to claims 1. 9, used for, at least for the purpose of modifying a physiological state or treating a pathology of a living organism. 11. Un set de cei puțin doua dispozitive în conformitate cu revendicarea 1 asamblate prin suprapunere intr-un singur corp, caracterizate prin aceea ca fiecare dintre acestea are propria frecventa de rezonanta, permițând utilizarea simultana a unei pluralități de frecvențele de rezonanță alese coresunzator aplicației,11. A set of the at least two devices according to claim 1 assembled by superimposition into a single body, characterized in that each of them has its own resonant frequency, allowing the simultaneous use of a plurality of the resonant frequencies chosen corresponding to the application, 12. Aparat rezonant pentru de stimulare electromagnetica a punctelor de acupunctura si a altor zone electrodermice active(DReSEAIF), caracterizat prin aceea ca este constituit dini. .10 seturi de cei puțin doua dispozitive identice în conformitate cu revendicările 1.9, amplasate prin suprapunere peste punctele de acupunctura simetrice ale acelorași meridiane de acupunctura si a altor zone a 2016 00598 electrodermice active(DReSEAIF) după scheme prestabilite la nivelul puctelor si meridianelor de acupuctura, sau la nivelul altor zone cutanate active, si determina efecte locale si sistemice care pot fi utilizate in terapeutica.12. Resonant device for electromagnetic stimulation of acupuncture points and other active electrodermal areas (DReSEAIF), characterized in that it is constituted tooth. .10 sets of at least two identical devices according to claims 1.9, placed by overlapping over the symmetrical acupuncture points of the same acupuncture meridians and other areas of active electrodermal 2016 (DReSEAIF) according to predetermined schemes at the level of acupuncture wells and meridians , or other active skin areas, and determines local and systemic effects that can be used in therapeutics. 13. Aparat rezonant pentru de stimulare electromagnetica a punctelor de acupunctura si a altor zone electrodermice active(DReSEAIF), conform revendicării 10, caracterizat prin aceea ca poate fi constituit si din seturi de dispozitive conform revendicărilor 1...9 încorporate Într-un suport din material adecvat pentru o poziționare corectă în raport cu punctele sau zonele care urmează să fie stimulate, suportul fiind -tara a fi exclusiv, de tip brățară, banda, brant, cotiera, giezniera, genunchiera, centura, curea, cercel-ciips, colier, plasture sau de sine stătător.13. Resonant apparatus for electromagnetic stimulation of acupuncture points and other active electrodermal areas (DReSEAIF), according to claim 10, characterized in that it can also be made up of sets of devices according to claims 1 ... 9 incorporated in a support. from material suitable for correct positioning in relation to the points or areas to be stimulated, the support being - the country to be exclusively, of the bracelet type, band, brant, armrest, necklace, knee pad, belt, strap, earring, necklace, collar , patch or self. 14. Aparat rezonant conform rev 10 si 11, utilizat pentru stimulare electromagnetica a punctelor de acupunctura si a altor zone electrodermice active(DReSEAIF, cel puțin în scopul de a modifica o stare fiziologică sau de tratarea unei patologii a unui organism viu.14. Resonant device according to rev 10 and 11, used for electromagnetic stimulation of acupuncture points and other active electrodermal areas (DReSEAIF, at least in order to modify a physiological state or to treat a pathology of a living organism. 15.0 metodă pentru stimularea electromagnetică a pielii ia cel puțin un punct sau o zonă a organismului pentru modificarea ce! puțin a unei stări fiziologice și tratarea unei patologii, în conformitate cu care, un dispozitiv electronic care este rezonant la ce! puțin o frecvență dată corespunzătoare tratamentului dorit, este amplasat în apropiere de un punct predeterminat sau zona a organismului, energia electromagnetică externă fiind preluată de către un astfel de dispozitiv, astfel încât dispozitivul menționat rezonează ce! puțin cu o anumită frecvență dată iar punctul sau zona predeterminată menționată este stimulată de energia electromagnetică absorbită de dispozitiv.15.0 method for electromagnetic stimulation of the skin takes at least one point or area of the body to modify what! little of a physiological condition and treatment of a pathology, according to which, an electronic device that is resonant to what! little frequency given to the desired treatment, it is located near a predetermined point or area of the body, the external electromagnetic energy being taken over by such a device, so that said device resonates what! slightly with a given frequency and said predetermined point or area is stimulated by the electromagnetic energy absorbed by the device. 16.0 metodă pentru stimularea electromagnetică a vindecării rănilor pielii la cel puțin un punct sau o zonă a organismului pentru modificarea cei puțin a unei stări fiziologice și tratarea unei patologii, în conformitate cu care, un dispozitiv electronic care este rezonant la cel puțin o frecvență dată corespunzătoare tratamentului dorit, este amplasat în apropiere de un punct predeterminat sau zona a organismului, energia electromagnetică externă fiind preluată de către un astfel de dispozitiv, astfel încât dispozitivul menționat rezonează cei puțin cu o anumită frecvență dată iar punctul sau zona predeterminată menționată este stimulată de energia electromagnetică absorbită de dispozitiv.16.0 method for electromagnetic stimulation of the healing of skin wounds at at least one point or area of the body for at least modifying a physiological condition and treating a pathology, according to which, an electronic device that is resonant at at least a given frequency the desired treatment, is located near a predetermined point or area of the body, the external electromagnetic energy being taken over by such a device, so that said device resonates at least with a certain frequency and said predetermined point or area is stimulated by the energy electromagnetic absorbed by the device.
ROA201600598A 2016-08-26 2016-08-26 Resonant device, apparatus and method for high-frequency electromagnetic stimulation of acupuncture points and other active electrodermal zones () RO132423A2 (en)

Priority Applications (2)

Application Number Priority Date Filing Date Title
ROA201600598A RO132423A2 (en) 2016-08-26 2016-08-26 Resonant device, apparatus and method for high-frequency electromagnetic stimulation of acupuncture points and other active electrodermal zones ()
PCT/IB2017/055122 WO2018037379A1 (en) 2016-08-26 2017-08-25 Resonant device, apparatus and method for the high frequency electromagnetic stimulation of the acupuncuture points and other electro-dermal active zones

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
ROA201600598A RO132423A2 (en) 2016-08-26 2016-08-26 Resonant device, apparatus and method for high-frequency electromagnetic stimulation of acupuncture points and other active electrodermal zones ()

Publications (1)

Publication Number Publication Date
RO132423A2 true RO132423A2 (en) 2018-03-30

Family

ID=59895342

Family Applications (1)

Application Number Title Priority Date Filing Date
ROA201600598A RO132423A2 (en) 2016-08-26 2016-08-26 Resonant device, apparatus and method for high-frequency electromagnetic stimulation of acupuncture points and other active electrodermal zones ()

Country Status (2)

Country Link
RO (1) RO132423A2 (en)
WO (1) WO2018037379A1 (en)

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP7151356B2 (en) * 2018-10-09 2022-10-12 スミダコーポレーション株式会社 electric stimulator
CN112221016A (en) * 2019-11-28 2021-01-15 广东筑宾健康产业有限公司 Acupuncture point shallow layer local intervention type electromagnetic wave physical therapy device and operation method
WO2023136254A1 (en) * 2022-01-17 2023-07-20 ニプロ株式会社 Magnetic therapy device
WO2023145705A1 (en) * 2022-01-25 2023-08-03 ニプロ株式会社 Magnetic therapy device

Family Cites Families (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4197851A (en) * 1977-04-14 1980-04-15 Fellus Victor M Apparatus for emitting high-frequency electromagnetic waves
DE3326513A1 (en) 1983-07-22 1985-01-31 Maximilian Friedrich Prof. Dr.-Ing. 8000 München Mutzhas RADIATION DEVICE FOR PHOTOBIOLOGICAL AND PHOTOCHEMICAL PURPOSES
RU1785710C (en) 1989-10-06 1993-01-07 Vremennyj Nauchnyj Kollektiv O Microwave resonant therapeutic device
FR2662076B1 (en) 1990-05-18 1996-12-20 Vu Dinh Sao SELF-CONTAINED PORTABLE ACUPUNCTURE APPARATUS.
FR2687075A1 (en) 1992-02-12 1993-08-13 Lebart Edouard Device for mechanical and magnetic stimulation of certain points of the body, especially of acupuncture points
DK0988085T3 (en) 1997-06-13 2005-02-14 Alain Baudry Electromagnetic device for treating disease states through cutaneous stimulation
KR100340766B1 (en) 1999-07-29 2002-06-15 유태우 Spots on the Body Suitable for Acupuncture Guide System Method
US6567695B1 (en) 2000-11-24 2003-05-20 Woodside Biomedical, Inc. Electro-acupuncture device with stimulation electrode assembly
AU2002258565A1 (en) 2001-03-20 2002-10-03 Bruce R. Gilbert, M.D., Ph.D., P.C. Device for surface stimulation of acupuncture points
US20030158585A1 (en) * 2002-02-19 2003-08-21 Burnett Daniel R. Method and apparatus for electromagnetic stimulation of nerve, muscle, and body tissues
AU2004220656A1 (en) * 2003-03-06 2004-09-23 Bioelectronics Corp. Electromagnetic therapy device and methods
US8983628B2 (en) * 2009-03-20 2015-03-17 ElectroCore, LLC Non-invasive vagal nerve stimulation to treat disorders

Also Published As

Publication number Publication date
WO2018037379A1 (en) 2018-03-01

Similar Documents

Publication Publication Date Title
US8825174B2 (en) Therapeutic electric antioxidant clothing apparatus and method
US5620463A (en) Electrophysiological conditioning system and method
US6461375B1 (en) Method and apparatus for electromagnetic stimulation of the skin for treating pathological conditions
RO132423A2 (en) Resonant device, apparatus and method for high-frequency electromagnetic stimulation of acupuncture points and other active electrodermal zones ()
US20100099942A1 (en) Method and apparatus for electromagnetic human and animal immune stimulation and/or repair systems activation
US20170113059A1 (en) Wrist worn sensor
WO2007005373A1 (en) Electromagnetic force for enhancing tissue repair
WO2001000275A1 (en) Electromagnetic-field therapy method and device
Graves Lessons from tesla for plasma medicine
Chen et al. Wave‐induced flow in meridians demonstrated using photoluminescent BIOCERAMIC material on acupuncture points
US20130110150A1 (en) Electroacupuncture needle and electroacupuncture platform
Jiang et al. Dynamic multi-channel TMS with reconfigurable coil
Colella et al. Ultra-focal magnetic stimulation using a µTMS coil: a computational study
Hirata et al. Computation of induced electric field for the sacral nerve activation
Karpowicz 21 Environmental and Safety Aspects of the Use of EMF in Medical Environment
Bonmassar et al. Optimizing microscopic magnetic fields for neuronal stimulation
CN204671740U (en) The osteoporotic health care binder of a kind of prevention middle-aged and elderly people
TWM541866U (en) Soft membrane microelectrode device
Bohnert et al. Evaluation of induced current densities and SAR in the human body by strong magnetic fields around 100 kHz
KR102774496B1 (en) Device for activating biological functions and method thereof
KR102774495B1 (en) Electromagnetic modulation module
CN219049394U (en) health care device
RU5102U1 (en) DEVICE OF ELECTROMAGNETIC NON-CONTACT THERAPY
CN211273148U (en) Electrode slice for eye physiotherapy
Waechter et al. Manipulation of the electromagnetic spectrum via fields projected from human hands: a qi energy connection?