KR100479568B1 - Electromagnetic therapeutic treatment device - Google Patents

Abstract

The present invention relates to an electromagnetic therapy device (10) comprising a magnetic flux generator (12) and a power source (14). The magnetic flux generator 12 comprises a plurality of electromagnetic bodies having four or more magnetic poles in a substantially single plane, the magnetic poles being oriented to define the vertex of the quadrilateral. Preferably, the four stimuli comprise two positive stimuli and two negative stimuli, the two positive stimuli define opposite diagonal vertices and the two negative stimuli define two opposite diagonal vertices of the quadrangle. . Each stimulus generates magnetic attraction to two oppositely charged stimuli, and a repulsive force is generated by the same charged stimulus. The containment means supports the magnetic poles of the magnetic body in the above-described configuration. Three important and function-changing engineering elements are attached to the containment means. The magnetic flux return ring 16a is attached to the base of the four electromagnetic heads described; This ring strengthens the magnetic flux field and suppresses stray flux from opposing stimuli as well as unwanted stray induction currents. The magnetic flux focusing ring 16 is located around the magnetic flux head adjacent to the insulated wire coils. The attachment means fix the focusing ring in the proper position for maximum benefit. Focusing coils 18a, 20a, 22a and 24a are attached to the magnetic flux focusing ring. These focusing coils are attached to the magnetic flux focusing ring at a position proximal to the head with the same charge and at an angle of 45 to 90 degrees relative to the long axis of the primary magnetic flux. In this position, together with the focusing ring, the flux return ring, and the novel iron core of the present invention, the flux focusing coil makes the slope more steep, increases tension, and reduces treatment and stray high current. The flux return ring and the flux focusing ring are grounded to reduce the variables added to the stray induced current and the therapeutic magnetic field.

Description

Electromagnetic therapy device {ELECTROMAGNETIC THERAPEUTIC TREATMENT DEVICE}

1. Field of Invention

FIELD OF THE INVENTION The present invention relates to a magnetic device for therapeutic applications to the human body, and more particularly to electromagnetic quadrupole therapy with focusing means for increasing the strength, focusing, and tilt of a magnetic field disposed relative to or adjacent to the human body. Relates to a device. Moreover, the present invention is not limited to various animal diseases, complications, including but not limited to a) pain and swelling, b) heart disease c) drug-resistant seizures and cerebral edema, d) pain and swelling due to severe burns, e A) increased drug efficacy, f) prevention of cell necrosis due to seizure treatment and hypoxic risk, g) accelerated healing of edema and pain and surgical procedures and accelerated healing of chronic non-healing wounds, h) sickle cell disease It relates to a method of using such a magnetic therapy device for the treatment of disorders such as pain in the eye and suppression of sickle cell precipitation.

2. General Background

Magnetic fields have been used in the human body for centuries for the treatment of various diseases. For example, magnetic medical treatment devices for application to selected portions of the human body are disclosed in US Pat. No. 3,921,620, and methods and devices for inhibiting neuron action potential firings are disclosed in US Pat. No. 5,312,321. Is disclosed in US Pat. No. 4,489,711, and a magnetic field for stimulation of bone growth is disclosed in US Pat. No. 4,105,017, and magnetic stimulation of nerve cells is disclosed in Washington. It was performed using a device such as Cadwell Magneto-Electric Stimulator (MES-10) manufactured by Cadwell Laboraties, Inc., Wick. .

Insufficient function of various disease states, tissues and organs can result in membrane tissue stability and normal loss of permeability. These membrane tissues may be cytoplasmic or intracellular, but in some cases exhibit dysfunction of excitatory tissue. This dysfunction of excitatory tissue may be due to changes in ion channel function. These various diseases and dysfunctions may also be associated with changes in the receptor or functional groups of enzymes and / or other active systems within biological organisms, especially humans. A wide variety of symptoms and dysfunctions may, of course, but not limited to cause the diseases and / or disorders described above.

Unfortunately, many types of diseases, including chronic pain, poor localized blood flow, cerebral edema, and certain seizures and injuries have not been successfully treated using conventional drugs, physiotherapy or surgical treatment. Since such diseases are often incurable using conventional therapies, alternative therapies are needed to remedy conditions where such conventional treatments are difficult or insufficiently treated.

Accordingly, it is an object of the present invention to provide a device for altering the stability of excitable membrane tissues and other charged tissues and systems for the treatment of disease in animals.

It is another object of the present invention to provide an electromagnetic device for generating an electromagnetic field for treating such disorders, which device is electromagnetically driven, and in particular generates a three-dimensional steep field slope of alternating polarity. Has a quadrupole arrangement.

Furthermore, the present invention provides a magnetic flux return ring designed to increase the strength and tilt on the back side away from the body surface without changing the central charge and the symmetry of the steeply gradient field in three dimensions. It is an object to provide a device having a).

It is a further object of the present invention to provide a magnetic flux focusing ring which surrounds a DC electromagnetic coil on an intermediate part arranged circumferentially between the top and bottom of the magnetic flux core of the magnetic pole. Attachment means are provided to maintain the focusing ring on the outer circumference of the coil.

The present invention further aims to provide electromagnetic poles of the same polarity on the outer surface of each of the four poles of the present invention such that the axis of the two magnets form 90 degrees so that the top of the core is directed to the geometric side of the poles. do. The focusing magnet includes an iron rod, an iron housing and a copper wire coil.

It is further an object of the present invention to control each focusing magnet by a separate rheostat so that the focusing ring comprising the magnet can focus and balance the symmetry of the treatment field.

It is a further object of the present invention to present an arrangement of the examples for various therapeutic purposes.

Another object of the present invention is to provide a center charge homogeneous, center charging

creates a homogenous static magnetic flux and the EMF induced cohesive heat generating current (AC)

A method of designing and manufacturing an iron core (iron core) that produces reduced heat generation from eddy currents in an EMF circuit is called. In AC circuits, the "Eddy" current is the current due to the induced EMF and accounts for some loss of the electrical device. Considering the solid iron rotor of the generator or motor, the solid iron rotor cuts the lines of magnetic force when it rotates in the same way as the wire coils of the rotor. The coil has an EMF induced therein in the direction dictated by Fleming's left hand law. The iron core also has an EMF induced in the same direction as the coil. This iron core is a low-resistance circuit, and its current does nothing except heat the iron core. The current flow in the core is at a frequency higher than 60 cycles of current and produces less normal secondary flux due to the variable resistance of the heterogeneous iron. The higher frequency magnetic flux is variable because of the reverberation nature of the "Eddy" current in the iron core. The resistance in ohms at any given position of the conductor divided by the electromotive force in volts is equal to the current flow in amps. In heterogeneous cores, there is a lack of continuity of base-metal crystal structure. The heating effect of the current is proportional to the square of the current. These currents are commonly referred to as "Eddy" currents, as well as Foucault currents.

The prevailing thinking today suggests that such negative currents do not exist in DC electromagnetic circuits. In the present invention, a similar current is a factor to be handled in the design. Previous devices prior to the present invention consist of a flux generator and a D / C static power supply. The flux generator generally includes a plurality of electromagnetic bodies having at least four magnetic poles in a single plane, which magnetic poles are arranged to form four quadrants of a quadrilateral. Four stimuli comprise two positive and two negative stimuli, two positive stimuli forming opposite diagonal vertices of the quadrilateral and two negative stimuli forming opposite diagonal vertices of the quadrilateral. Each stimulus is attracted to two oppositely charged poles and magnetically repelled by the same charged pole. Each magnetic pole includes a conductive wire wound around a cast iron core. The wire can be made of any conductive material (copper or aluminum). The core and the wire are supported by the cast iron housing. The poles are electrically wired in parallel and are charged by a DC power source. The cast iron housing and the porous heterogeneous core have varying resistance and are a product of mutual induction in adjacent coils. Induced current follows Fleming's law. In adjacent coils, the induced current flows in the opposite direction. In this system, the current flow in adjacent poles is in the opposite direction, so the induced current increases the current in the adjacent poles and reduces the current in the diagonally opposite poles. Fluxing resistance (when the current flow path is heated, the current flow finds a path of low resistance, and then the previous path cools down due to the reduced current flow.

There is a fragrance-the combined effect is the reverberation of the resistance and thus the current flow (amps = resistance (volts / ohms)), this lack of homogeneity and unbalanced induction in the iron conductor crosses the poles. It causes an echo in the DC flux field that moves the flux line. This causes abnormal EMF in the core and cast iron housings. This higher frequency abnormal current will be referred to as "Holcomb's currents." In human and animal experiments, these currents have been shown to generate heat at the poles, reducing or eliminating the useful therapeutic effects of three-dimensional magnetic flux fields with sharp gradients. This high frequency abnormal current can be minimized by a lamination process. This lamination reduces hysteresis and abnormal currents. However, lamination distorts the symmetry of the magnetic field and thus cannot be used in the present invention.

Another object of the present invention is to provide a novel process for the production of a homogeneous soft magnetic material that is uninterrupted in the continuity of the non-noble metal crystal structure. A method of making a homogeneous core of coarse particles is disclosed. Suitable particle sizes are obtained by grinding silicon electrical steel or Permalloy (high nickel iron alloy) into a powder having a suitable particle size, treated with a strong silica colloidal polymer and placed in a mold to anneal under high pressure. The core thus prepared has a homogeneous structure having a non-noble metal crystal structure with uniform directionality, and the non-noble metal crystal structure has high saturation magnetism as well as crystal structure continuity, uniformity, low abnormal current formation and low hysteresis. To provide.

Many embodiments of the use of electromagnetic fields made in accordance with the present invention include, but are not limited to, the following embodiments.

A. Pain and Swelling (SMS-P)

1. Extreme pain and swelling

Another object of the present invention is to provide a device capable of alleviating the response of neuronal cells to reduce pain sensation.

It is another object of the present invention to provide an apparatus for applying a variable symmetrical four-pole three-dimensional flux that is focused and balanced on the body to stabilize the excitable membrane to reduce pain and swelling associated with serious injury and inflammation or surgery. will be.

It is yet another object of the present invention to provide a special flux field to suppress and mitigate swelling associated with serious injury, inflammation and trauma.

It is yet another object of the present invention to provide a method of applying a therapeutic electromagnetic device to a human body to relieve pain and to bleed blood flow to reduce swelling associated with injury, trauma or severe inflammation.

2. chronic pain

Another object of the present invention is to provide a device for altering the response of neuronal cells during chronic pain to block the repulsion of spontaneous pacemakers of chronic dysfunction pain fibers (mostly A ?? and C-fiber tissues). It is.

B. Magnetic Therapy Devices for Heart Disease Static Self Stabilizer (SMS-C)

This application of the present invention relates to a magnetic device for the treatment of the human body, in particular by applying an electromagnetic quadrupole flux generator above and below the chest of a patient with severe myocardial infarction and / or arrhythmia to suppress chest pain and to treat and control myocardial arrhythmias, An electromagnetic quadrupole therapeutic apparatus for use in an intensive care unit bed for improving cardiac blood flow rate. When applied to the heart, the three-dimensional flux field slope controls arrhythmias, improves blood flow rate, suppresses angina, and protects ischemic myocardium from cell death.

Myocardial infarction with secondary fibrillation and / or heart failure is considered a cause of death in the United States. Myocardial infarction is secondary to the occlusion of arterial blood supply to parts of the myocardium. Such obstruction may be caused by secondary blockage by atherosclerotic valves and / or artery spasm. In this case the reduction in elastic contraction of the myocardial layer results in secondary chest pain, potential arrhythmia exacerbation, potential fibrillation, and potential heart failure. In each of these cases, the medication is treated with a variable success rate. If the myocardial layer is fibrillary, this is the most serious medical emergency. The heart must be defibrillated immediately. The current therapy involves placing a DC capacitor driven high voltage discharge across the myocardium by applying two paddles to the chest wall and discharging a surge of high intensity DC current. This high voltage DC current surge polarizes the myocardium and allows the fastest pacemaker tissue in the heart to function as a pacemaker, or arterial pacemaker. In most instances, the myocardium is too sensitive and susceptible to irregular spontaneous fibrillation, I.V. Drugs such as xylocaine must be given to stabilize the electrically sensitive myocardium. Most of these drugs are sodium channel blockers, which reduce myocardial elasticity and schizophrenia. If inappropriate excessive doses are administered, the heart rate may drop below the threshold. Drugs such as epinephrine can be used to increase blood vessel tension as well as to maintain blood pressure and to increase the elasticity and degenerative contraction of the heart. Recovery of patients with fibrillation as a result of myocardial infarction requires rapid D / C defibrillation and careful drug administration.

Current emergency treatment to treat myocardial infarction and its complications presents many side effects. DC defibrillation of the heart causes myocardial damage from exposure to DC discharge. Thus, in the case of defibrillation, recovery opportunities are gradually reduced. The use of silanes to stabilize the myocardium is achieved by a decrease in myocardial contraction and a decrease in vascular tension. The continuous use of epinephrine induces fibrillation and increases subsequent heart load sufficient to cause congestive heart failure. This condition frequently causes death or permanent disability and threatens life. Since these diseases rarely respond by conventional therapies, they can defibrillate the myocardium without cell damage and stabilize the myocardium without diminished desirable function, dilate the coronary arteries for good blood flow, suppress myocardial pain, and suppress cell necrosis. There is a need for alternative treatments that can be prevented.

Accordingly, it is an object of the present invention to provide a device that can alter myocardial response in such a way as to stop fibrotic spasms, stabilize electrical activity, dilate myocardial arteries, and suppress secondary chest pain due to ischemia. will be. Another object of the present invention is to limit the expansion of myocardial infarction and to limit the necrosis of secondary cells due to ischemia.

It is yet another object of the present invention to provide a magnetic device capable of altering myocardial response in a manner that inhibits myocardial ischemia, fibrospasm, chest pain and myocardial infarction.

It is yet another object of the present invention to provide a magnetic device capable of altering myocardial response by altering the channel function of sodium and calcium such that the alternating polarity of the four poles and thus the field slope blocks the extent of changes in sodium and calcium channel function. It is. The degree of cutoff is related to the slope and strength of the field. The slope and intensity of the magnetic field can be controlled by this technique.

Still another object of the present invention is to provide a device for applying the variable flux to the heart region of the human body.

Yet another object of the present invention is to provide an apparatus for applying instantaneous high intensity magnetic flux designed to defibrillate human myocardium.

C. Magnetic Therapy Devices-Static Self Stabilizers for Inhibiting Drug Resistance Seizures and Brain Edema

(SMS-E)

This application of the invention relates to a magnetic device for physical therapy, in particular an electromagnetic dual quadrupole therapeutic device for positioning the device on either side of the brain for the prevention of seizures and cerebral edema.

The seizure activity of the brain is rather frequent. Clinical seizures are due to firing of the cranial nerves. This uncontrolled spontaneous discharge spreads to various parts of the brain causing a number of clinical signs. Such seizures can be treated in many patients by analgesic drugs that act through alteration of ion channels. These drugs increase the threshold of seizures by stabilizing neuronal cell walls against ion flux. Many of these seizures are not well suppressed by medical treatment and other available methods. The majority of seizures are resistant to all popular therapies. These patients will be admitted to the hospital in a state of continuous uncontrolled seizure activity. This condition is called State Epilepticus, which is a very urgent condition that requires prompt attention. If the patient is not treated quickly, the state of hypoxia of the brain progresses and causes hypoxic ischemic brain disease. This is a life-threatening disease that frequently causes severe brain damage or death. Since these diseases are often not treated with conventional drugs (drug resistant status epilipis), they require other therapies to stabilize electrophysiologically abnormal neuronal cell walls.

Accordingly, it is an object of the present invention to provide a device for altering brain neuronal responses in a manner that stops seizures by stopping abnormal electrical discharges in neurons.

It is an object of the present invention to provide a magnetic device that alters the cranial nerve response in a way that stops and suppresses drug resistance attacks.

Another object of the present invention is to provide a method for applying an electromagnetic device for "double head" treatment to a human head to alleviate seizures.

It is a further object of the present invention to provide a device with two flux head generators facing four poles per head and corresponding poles with alternating polarity so that the field slope is improved and the total energy applied to the brain is To increase compared to what may be delivered by a single head of the phase.

D. Magnetic Therapy Apparatus for Inhibiting Pain and Edema Due to Severe Burns-Burn Static Self Stabilizer (SMS-B)

The present invention relates to a magnetic device for treating a human body, and more particularly, to an electromagnetic multi-quadrupole therapeutic device disposed in the human body to suppress pain and edema caused by a severe burn.

Serious burns in the human body require medical first aid. Secondary shock following pain is the biggest problem. Shock due to low blood volume is very difficult to suppress. Burned skin, especially second and third degree burns, leaks fluids, electrolytes, and proteins. The consequences of these severe burns are associated with stimulating pain nerve fibers and losing cell integrity. Current therapies consist of anaesthetic analgesia, replacement of water, electrolytes and proteins as well as body temperature regulation. These are auxiliary methods. There is a need for additional therapies that inhibit pain, restore membrane tissue integrity, inhibit edema and stimulate healing.

Accordingly, it is an object of the present invention to provide a device that alters pain fiber firing, restores membrane tissue integrity, inhibits edema in the burned area and promotes treatment.

Another object of the present invention is to provide a magnetic device that alters the permeability of burned cells so that the cells have less permeability to water, ions and proteins.

It is yet another object of the present invention to provide a method of applying a therapeutic electromagnetic device to a human body after a severe burn.

Still another object of the present invention is to provide three movable magnetic flux head generators (tilt and power control with magnetic flux and power focusing means) capable of rotating from 30 to 45 with respect to each side of the burn bed on the surface of the bed where the burn patient is lying. It is to provide a equipped device.

It is yet another object of the present invention to provide a device having four magnetic pole head generators with four poles and alternating polarity per head and installed on a rotating bar to improve field tilt and to improve the degree of burn applied to the burned body. To increase in relevance.

E. Magnetic Therapy Devices for Increasing Drug Potency (SMS-D)

The present invention relates to a magnetic device for treating the human body and more particularly to an electromagnetic quadrupole therapeutic device for placement on the human body to control various disease processes by interacting with drugs and drug receptors.

Pharmaceuticals are widely used in the field of various diseases, injuries and infections. All drugs have multiple effects on living organisms. The predominant and intended effect is referred to as the therapeutic effect and the non-dominant and undesirable effect is referred to as the side effect. All medicines have many side effects that are dangerous and fatal. Drug effects are mediated by receptor action and receptor interaction. This is an intermediate step in all drug effects.

Accordingly, it is an object of the present invention to provide a device for altering receptor composition and drug receptor interaction. This effect may be an agonist or antagonist effect. That is, the interaction may increase or inhibit drug effects and side effect effects.

It is a further object of the present invention to provide a magnetic flux field device consisting of a device having four focusing head generators installed in a magnetic flux return ring. They are then surrounded by a flux return focusing ring with a focusing head at 90 degrees on each pole. The device is focused on any part of the body, such as the head, to increase the effectiveness of the therapeutic action for a particular drug.

Another object of the present invention is to show an increase in the effect of phenytoin on the inhibition of drug resistance seizures, an increase in the effect of lidocaine on the development of C fiber and calcium channels of C fibers by capsaicin. It is to provide data indicating the blocking of action.

F. Magnetic Therapy Devices for Stroke Therapy to Protect Against Necrosis of Cells Following Hypoxia Injury (SMS-S)

This application of the invention relates to a magnetic device for treating a human body, in particular an electromagnetic double quadrupole therapeutic device for placement on either side of the human head for applying a quadrilateral abrupt three-dimensional magnetic flux field gradient. It is about.

Cerebral ischemia may be local or global and involve low perfusion of the entire brain. Ischemia is secondary to cerebral blood flow reduction locally or globally. Histologically selective neural necrosis may occur even after a cycle of overall ischemia, and after intensive ischemia, it may be an area of pan necrosis within the area of the damaged artery. Progressive stroke is the injury observed after initial injury that can occur for 48 to 96 hours. Similarly, this phenomenon is associated with the development of thrombosis and necrosis of progressive cells. Cell necrosis occurs secondary to hypoxemia, leakage of stimulating neurotransmitters and calcium leakage secondary to necrotic cells in the area.

It is an object of the present invention to provide data for mice that show the prevention of cell necrosis in animals with secondary presentable ischemia in long-lived epilepsy. In addition, data are provided to show the prevention of necrosis of brain cells after direct injection of toxic amino acids into the ventricle.

Another object of the present invention is to design a clinical trial to prevent cell necrosis and reduce edema, stroke and spinal cord injury of intracranial hemorrhage.

G. Magnetic therapy devices of the present invention to promote cure speed as well as to suppress edema and pain after a surgical procedure. Accelerate the healing of chronic non-oil wounds (SMS-O)

After the surgical procedure, pain, edema, hyperalgesia, healing rate, and scar formation are large parts that are not treatable other than time and natural healing processes. Unhealed or slowly healed wounds are treated in a variety of ways, including high pressure oxygen. Unhealed wounds are mostly due to poor circulation.

Accordingly, an object of the present invention is to provide a device for manufacturing a three-dimensional steep slope, magnetic flux field generator for the purpose of treating the human body in the area of post-surgical wound or chronic non-oil wound. It is an object of the present invention to suppress pain, edema, hyperalgesia, increase the rate of healing, reduce wound formation and increase the rate of chronic wound healing by increasing blood flow to the wound.

H. Self-Healing Apparatus of the Invention for Inhibiting Pain and Precipitation of Sickle Cells in Sickle Cell Disease

Sickle cell anemia is due to an abnormal amino acid sequence of the chain of beta globin of adult type (A) hemoglobin. Often the sickle cell formation process is initiated by low oxygen pressure and low PH. Sickle cells block small blood vessels and cause infarction. Infarction causes abdominal pain, bone pain and gradually reduces the size of the spleen. Current therapy involves primarily risk. Effective methods of reducing the rate of chronic hemolysis or preventing the risk are not known. The current treatment selected is red cell transfusion. Other methods are good hydrate, oxygen, analgesia and in some cases corticosteroids. Many sickle cell prevention drugs are under evaluation but do not guarantee good performance.

Accordingly, another object of the present invention is a method of using the variable, quadrupole three-dimensional field slope of the present invention and sickle cell which inhibits sickle cell formation, suppression of pain and precipitation associated with sickle cell development in blood cells. It is suggested that the present invention be used prophylactically to prevent sexual onset.

The foregoing embodiments are provided by way of illustration of the invention and are not intended to limit the scope and spirit of the invention.

In accordance with the principles of the present invention as embodied and broadly described herein, electromagnetic therapy devices adapted to deploy at least four magnetic flux generator poles may be adapted to an animal or human body as described for the various applications described herein. May be applied to The device comprises a plurality of electromagnetic bodies with at least two positive and two negative magnetic poles in each head, generally within a single plane, which magnetic poles are positioned to form four quadrilaterals of quadrilateral, Form opposite diagonal vertices and the two cathodes form quadrilateral opposite diagonal vertices. Each stimulus is magnetically attracted by the oppositely charged pole and magnetically repelled by the same charged pole. Each electrode includes a wire wound around a special iron core. The lead can be made of any conductive material (eg copper or aluminum). The core and wire are supported by containment means and attachment means to position the core and wire on a ferroconductive flux return ring on the back surface spaced from the body surface. The ferroconductive flux return ring is designed to return flux, increasing strength and gradient without altering the symmetry of the centered charge and three-dimensional steep flux field. The four poles of the flux generator head have a magnetic flux focusing ring that surrounds the DC electromagnetic coil on the outer periphery and is placed midway between the top and bottom of the magnetic flux core of the pole and is approximately 2.5 inches (6.35 cm) wide and 0.5 inches (1.27) cm). Attachment means are provided to maintain the focusing ring on the outer circumference of the coil. On the outer surface of the focusing ring is attached an electron pole having the same polarity as the associated pole. They are attached near each of the four poles of the present invention and the top of the core is directed towards the geometric side of the pole so that the axes of the two magnets form an angle of 90 degrees. The focusing magnet includes an iron rod, an iron housing and a copper wire coil. The power means excite these focusing magnets to the control means via the servo slave mechanism to regulate power in relation to the slope and energy in the main core. Containment means are provided to hold the magnetic body in the desired configuration, and power means are provided to excite the main electromagnetic body. The arrangement of the containment means, the power supply means, the support means, and the containment means of the embodiments will be provided for various therapeutic purposes in conjunction with the support data for this application.

A. Pain and Swelling

In accordance with the principles of the present invention as embodied and broadly described herein, an electromagnetic therapy device suitable for placement in the body of a living animal is provided. The device comprises a plurality of electromagnetic bodies having at least two positive and two negative magnetic poles generally within a single plane, the magnetic poles being positioned to form four quadrilaterals of quadrilateral, with two anodes facing opposite diagonals. The vertex is formed and the two cathodes form quadrilateral opposite diagonal vertices. Each stimulus is magnetically attracted by the oppositely charged pole and magnetically repelled by the same charged pole. Containment means are provided with magnetic flux return means to maintain magnetic poles of the magnetic body in a desired configuration, and power means are provided for exciting the magnetic flux focusing device and the electromagnetic body.

Preferably, the plurality of magnet bodies comprise four electromagnets which are substantially identical, two of which have an anode and two have a cathode, all of which are in a single plane. Each of the four electromagnetic bodies, when excited, produces a magnetic field. More preferably, the containment means comprises a focusing ring and a flux return ring mounted on a support structure adapted to align the four electromagnetic bodies relative to the body of the living animal. For example, the support structure may comprise a treatment table or treatment chair to which the electromagnetic body is movably attached.

The accompanying drawings illustrate preferred embodiments of the invention and together with the description serve to explain the principles of the invention.

B. Magnetic Therapy Devices for Cardiac Dysfunction-Static Self Stabilizer (SMS-C)

In accordance with the principles of the present invention as embodied and broadly described herein, an electromagnetic therapy device suitable for placement in the body of a living animal is provided. The device comprises a plurality of electromagnetic bodies having at least two positive and two negative magnetic poles generally within a single plane, the magnetic poles being positioned to form four quadrilaterals of quadrilateral, with two anodes facing opposite diagonals. The vertex is formed and the two cathodes form quadrilateral opposite diagonal vertices. Each stimulus is magnetically attracted by the oppositely charged pole and magnetically repelled by the same charged pole. Containment means are provided with magnetic flux return means to maintain magnetic poles of the magnetic body in a desired configuration, power means are provided to excite the electromagnetic body, and containment means for controlling and exciting magnetic flux fields such as tilt and strength. And power means are provided.

Preferably, the plurality of magnet bodies in the flux generator head comprise four substantially identical electromagnets, two of which have a positive electrode and two have a negative electrode, all in a single plane. Each of the four electromagnetic bodies, when excited, produces a magnetic field. More preferably, the containment means is mounted on a support structure adapted to align the four electromagnets in a plane parallel to the surface of the containment bed or treatment structure.

The accompanying drawings illustrate preferred embodiments of the invention and together with the description serve to explain the principles of the invention.

C. Magnetic therapy device to suppress drug resistant seizures and brain edema-static self stabilizer (SMS-E)

In accordance with the principles of the present invention as embodied and broadly described herein, an electromagnetic therapy device suitable for placing each of two magnetic heads on both sides of a live animal's head is provided. The device comprises in each head a plurality of electromagnetic bodies having at least two positive and two negative magnetic poles, generally within a single plane, which magnetic poles are positioned to form four quadrilaterals of quadrilateral and two anodes. Form opposite diagonal vertices and the two cathodes form opposite diagonal vertices. Each stimulus is magnetically attracted by the oppositely charged pole and magnetically repelled by the same charged pole. Containment means are provided to hold the magnetic poles of the magnetic body in the desired configuration, and power means are provided to excite the electromagnetic body. Support means and power means are provided for the flux management system, namely the flux return ring, the flux focusing ring and the flux focusing magnet.

Preferably, the plurality of magnet bodies in each head comprise four substantially identical electromagnets, two of which have an anode and two have a cathode, all in a single plane. Each of the four electromagnetic bodies, when excited, produces a magnetic field. More preferably, the containment means is mounted on a support structure adapted to align the four electromagnets in parallel planes facing the second quadrupole magnet head so that the opposite poles face, ie pull out. The support structure may comprise a metal stand on the roller, which roller may comprise means for attaching it to the stand of the second quadrupole cluster (above or below the patient bed).

The accompanying drawings illustrate preferred embodiments of the invention and together with the description serve to explain the principles of the invention.

D. Magnetic therapy device for suppressing pain and edema due to severe burns-static self stabilizer for burns (SMS-B)

In accordance with the principles of the present invention as embodied and broadly described herein, an electromagnetic therapy apparatus suitable for placing at least four flux generator heads applied to rotate in an arc of 200 around a living animal is provided. The device comprises in each head a plurality of electromagnetic bodies having at least two positive and two negative magnetic poles, generally within a single plane, which magnetic poles are positioned to form four quadrilaterals of quadrilateral and two anodes. Form opposite diagonal vertices and the two cathodes form opposite diagonal vertices. Each stimulus is magnetically attracted by the oppositely charged pole and magnetically repelled by the same charged pole. Containment means are provided to hold the magnetic body in the desired configuration, and power means are provided to excite the electromagnetic body. Support means and power means are provided for the magnetic flux return ring, the magnetic flux focusing ring and the magnetic flux focusing magnet.

Preferably, the plurality of magnet bodies in each head comprise four substantially identical electromagnets, two of which have an anode and two have a cathode, all in a single plane. Each of the four electromagnetic bodies, when excited, produces a magnetic field. More preferably, the containment means is mounted on a support structure adapted to align the four electromagnetic flux generator heads so that they can rotate on a single support bar. The support structure may comprise a metal bar (above or below the patient bed) that includes means for attaching itself to the head and leg of the bed.

The accompanying drawings illustrate preferred embodiments of the invention and together with the description serve to explain the principles of the invention.

E. Magnetic therapy device (SMS-D) to increase the effectiveness of drugs

 In accordance with the principles of the present invention as embodied and broadly described herein, an electromagnetic therapy device suitable for placement in the body of a living animal is provided. The device generally includes a plurality of electromagnetic bodies having at least two positive and two negative magnetic poles within a single plane, the magnetic poles being positioned to form four quadrilaterals of quadrilateral, with the two anodes opposing diagonals. The vertex is formed and the two cathodes form quadrilateral opposite diagonal vertices. Each stimulus is magnetically attracted by the oppositely charged pole and magnetically repelled by the same charged pole.

Preferably, the plurality of magnet bodies in each head comprise four electromagnets which are substantially identical, two of which have an anode and two have a cathode, all in a single plane. Each of the four electromagnetic bodies, when excited, produces a magnetic field. More preferably, the containment means is, in part, a magnetic flux return ring and a magnetic flux focusing ring mounted on a support structure adapted to align the electromagnets such that certain parts of the human body can be treated with a four-pole three-dimensional magnetic flux field gradient. The flux field generation alters receptor shape and / or drug receptor interactions. Since this effect may be an agonist or antagonist effect, magnetic field pharmacological interactions increase or inhibit drug effects and / or side effect effects.

E. Magnetic therapy device for the treatment of stroke and prevention of cell necrosis due to hypoxia damage (SMS-S)

In accordance with the principles of the present invention as embodied and broadly described herein, an electromagnetic therapy device suitable for placing each of the two magnetic heads on both sides of the head of a living animal is provided. The device comprises in each head a plurality of electromagnetic bodies having at least two positive and two negative magnetic poles, generally within a single plane, which magnetic poles are positioned to form four quadrilaterals of quadrilateral and two anodes. Form opposite diagonal vertices and the two cathodes form opposite diagonal vertices. Each stimulus is magnetically attracted by the oppositely charged pole and magnetically repelled by the same charged pole. Containment means are provided to hold the magnetic poles of the magnetic body in the desired configuration, and power means are provided to excite the electromagnetic body. In addition, there are provided containment means and power means for the magnetic flux return ring, the magnetic flux focusing ring and the magnetic flux focusing magnet.

Preferably, the plurality of magnet bodies in each head comprise four substantially identical electromagnets, two of which have an anode and two have a cathode, all in a single plane. Each of the four electromagnetic bodies, when excited, produces a magnetic field. More preferably, the containment means is mounted on a support structure adapted to align the four electromagnets in parallel planes facing the second quadrupole magnet head so that the opposite poles face, ie pull out. The support structure may comprise a metal stand on the roller, which roller may comprise means for attaching it to the stand of the second quadrupole cluster (above or below the patient bed). The magnetic flux fields of the present invention as described herein can prevent hypoxic ischemic brain damage due to cell necrosis or related defects due to stroke that is applied to the human head and / or spinal cord.

The accompanying drawings illustrate preferred embodiments of the invention and together with the description serve to explain the principles of the invention.

G. Magnetic therapy device (SMS-O) to suppress edema and pain, speed up the healing process following surgery, and increase the healing rate of chronic non-oil wounds

 In accordance with the principles of the present invention as embodied and broadly described herein, an electromagnetic therapy device suitable for placement in the body of a living animal is provided. The device generally includes a plurality of electromagnetic bodies having at least two positive and two negative magnetic poles within a single plane, the magnetic poles being positioned to form four quadrilaterals of quadrilateral, with the two anodes opposing diagonals. The vertex is formed and the two cathodes form quadrilateral opposite diagonal vertices. Each stimulus is magnetically attracted by the oppositely charged pole and magnetically repelled by the same charged pole.

Preferably, the plurality of magnet bodies in each head comprise four electromagnets which are substantially identical, two of which have an anode and two have a cathode, all in a single plane. Each of the four electromagnetic bodies, when excited, produces a magnetic field. More preferably, the containment means includes, in part, a magnetic flux return ring and magnetic flux focusing ring and magnetic flux focusing ring mounted on a support structure suitable for aligning the electromagnets so that a particular part of the human body can be treated with a four-pole three-dimensional magnetic flux field gradient. It is a magnet. When the magnetic flux field is applied to a damaged area on an animal or human body, the magnetic flux field suppresses edema and pain and speeds up the healing process following surgery. It will also increase the healing of chronic non-oil wounds.

H. Self-Healing Device (SMS-SC) to Suppress Pain in Sickle Cell Disease and Precipitation of Sickle Cell (SMS-SC)

 In accordance with the principles of the present invention as embodied and broadly described herein, an electromagnetic therapy device suitable for placement in the body of a living animal is provided. The device generally includes a plurality of electromagnetic bodies having at least two positive and two negative magnetic poles within a single plane, the magnetic poles being positioned to form four quadrilaterals of quadrilateral, with the two anodes opposing diagonals. The vertex is formed and the two cathodes form quadrilateral opposite diagonal vertices. Each stimulus is magnetically attracted by the oppositely charged pole and magnetically repelled by the same charged pole.

Preferably, the plurality of magnet bodies in each head comprise four electromagnets which are substantially identical, two of which have an anode and two have a cathode, all in a single plane. Each of the four electromagnetic bodies, when excited, produces a magnetic field. More preferably, the containment means includes, in part, a flux return ring and a flux focusing ring mounted on a support structure suitable for aligning the electromagnets such that a particular portion of the human body can be treated with one or more four-pole three-dimensional flux field tilt heads. , And four focusing magnets. Preferred embodiments include three or more magnetic flux field tilt heads in a support such as a table or bed. The position of the head is controlled by the bedside regulator so that the position of the head can be located in the pain area of a patient with sickle cell crisis. The device can also be used prophylactically twice per day to prevent sickling attacks.

Brief description of the drawings

A. Pain and Swelling

1 is a schematic diagram of various components of an electromagnetic therapy device of the present invention including a flux focusing component.

2 is a plan view of four electromagnets of one preferred embodiment of the electromagnetic therapy device of the present invention with a flux focusing component.

FIG. 3 is a perspective view of the electromagnet shown in FIG. 2 with the insulator cut away to better see the wire coil;

4 is a diagram showing electrical connections between components of the electromagnetic therapy device of the present invention.

5 is a perspective view of a preferred embodiment of the electromagnetic therapy device of the present invention.

6 is a perspective view of another preferred embodiment of the electromagnetic therapy device of the present invention.

7 is a diagram illustrating the positive field of the present invention, where lines e-e represent a steeper slope of the field slope over d-d by merely increasing the magnitude of the peak magnetic flux; Pictorial data showing magnetic field strength as determined by scanning in a parallel plane 0.3 cm above the surface of a trademark Magna Bloc ™ TMNS device with a “Hall Effect” probe and a standard Gaussian meter; Moreover, as the magnetic field strength increases, the increase in the slope of the slope is shown; This magnetic field is the same as the electromagnetic field of the present invention.

8 is a diagram showing electrical connections between components of the electromagnetic therapy device of the present invention with defibrillator.

9 is a perspective view of a preferred embodiment of the electromagnetic body device of the present invention.

10 is a perspective view of a preferred embodiment of the electromagnetic body device of the present invention.

11 is a perspective view of a preferred embodiment of the electromagnetic body device of the present invention.

Detailed description of the preferred embodiment

Preferred embodiments of the invention shown in the accompanying drawings will be described in detail herein. Like numbers refer to like elements throughout the drawings.

A. Pain and Swelling (SMS-P)

The electromagnetic therapy device of the present invention is schematically shown in FIG. The treatment device 10 includes a flux generator 12 and a power source 14. According to the invention, the magnetic flux generator 12 comprises a plurality of electromagnetic bodies having at least four magnetic poles substantially in a single plane, wherein the magnetic poles are positioned to form four vertices of quadrilateral shape. Preferably, the four poles comprise two anodes and two cathodes, where the two anodes form opposite diagonal vertices, and the two cathodes form quadrilateral opposite diagonal vertices. Each stimulus is magnetically attracted by two oppositely charged poles and repulsed by an equally charged pole. The containment means retain the magnetic poles of the magnetic bodies in the above-described configuration. Three important function switching components are attached to the containment means. A magnetic flux return ring 16a is attached to the bottom of the four electromagnetic heads described above, which strengthen the magnetic flux field and suppress undesirable stray induction currents and stray flux from the opposite pole. A magnetic flux focusing ring 16 is located around the magnetic flux head adjacent to the insulated wire coils, which is approximately 2.5 inches (6.35 cm) wide and 1/4 to 1/2 inch (6.35 to 12.7 mm) thick. The attachment means keeps the focusing ring in place for maximum effect. Focusing coils 18a, 20a, 22a and 24a are attached to the flux focusing ring. This focusing coil is attached to the magnetic flux focusing ring adjacent the head of the same charge at 45 to 90 degrees with respect to the long axis of the primary magnetic flux pole. In this position, the flux focusing coil, the flux return ring and the new iron core according to the focusing ring of the present invention make the slope more urgent, increase the field strength and reduce the healing and stray high current. The flux return ring and the flux focusing ring are grounded to reduce stray induction currents and variables added to the therapeutic magnetic field.

As embodied herein and schematically illustrated in FIGS. 1 and 2, the flux generator 12 includes four electromagnetic bodies 18, 20, 22, and 24 that are substantially identical on the containment structure. The containment structure includes a mounting board and a casing or any other structure that houses the electromagnetic bodies 18, 20, 22, and 24 in a desired configuration. In a preferred embodiment, each of the electromagnetic bodies 18, 22 forms a negative stimulus, while each of the electromagnetic bodies 20, 24 forms a positive stimulus. The positive and negative magnetic poles of the electromagnetic bodies 18, 20, 22 and 24 are substantially aligned in a single plane, are arranged in a quadrilateral shape, the anodes are disposed opposite each other in a diagonal direction, and the cathodes are also in a diagonal direction. Disposed opposite each other. Electromagnetic bodies 18, 20, 22 and 24 comprise the electromagnetic heads shown in FIGS. Each electromagnetic head includes a conductive wire 26 wound around the cast iron core 28. The wire 26 is made of a conductive material such as, for example, copper or aluminum. For example, FIG. 3 shows a 1.5 inch (3.81 cm) covered with insulation material having an outer diameter of 5 inches (12.7 cm) with a 2 inch (5.08 cm) center core 28 and 3200 turns of # 22 copper wire. A suitable electromagnet made using the coil space is shown. As shown in FIG. 2, the coils 19, 21, 23 and 25 of the electromagnetic heads 18, 20, 22 and 24 are connected to a power source by wires 30 and 32, respectively.

The conductive wire 26 is wound around the porous cast iron core (or laminated steel) 28 in such a way that the magnetic flux is concentrated within the geometric center of the cast iron core. The current flowing in the conductor emits magnetic flux at 90 degrees in the direction in which the current flows. Therefore, the magnetic flux is concentrated in the core. Therefore, the core is preferably circular.

According to the invention shown in FIG. 4, power means for exciting the electromagnetic body are provided such that each of the excited electromagnetic bodies generates a magnetic flux field. As described herein, the power source 14 includes a control unit 34, a direct current generator 36 and an alternating current power source 38. The DC generator 36 is powered by an AC motor, such as a 220 amp AC motor. Preferably, the direct current generator 36 can generate a 30 amp, 120 volt DC current. The control unit 34 includes an on-off power switch 40 to suppress the current flow of direct current with respect to the flux generator 12. The control unit 34 also includes a voltmeter 42 and an ammeter 44 for monitoring the power and current supplied to the flux generator 12 by the direct current generator 36. Fuses 46 and 48 protect flux generator 12 against power surges. For example, fuses 46 and 48 consist of a 30 amp electrical fuse. Variable resistor (rheostat) 50 allows adjustment of the direct current supplied to flux generator 12 at a given time. The variable resistor 50 is preferably implemented as any conventional variable resistor having a 50 amp 120 volt capacity. As shown in FIGS. 1 and 2, each magnetic head 18, 20, 22, 24 is electrically connected to a power suppressor 34 by a pair of wires 30, 32. Preferably, each magnetic head 18, 20, 22, 24 is individually adjusted such that the symmetrical magnetic power is balanced among all the heads. It is foreseen that each magnetic therapy head is alternately connected to one of the four resistors of the control unit 34 so that the current provided to each of the magnetic therapy heads is individually adjusted.

Preferably, the electromagnetic coils 19 and 23 of the electromagnetic heads 18 and 22 and the electromagnetic coils 21 and 25 of the electromagnetic heads 20 and 24 are connected to a DC generator so that the heads 18 and 22 are connected to the head 20,. A magnetic flux field opposite to the magnetic flux field generated by 24) is generated. As shown in FIG. 2, the coils 19 and 23 are connected to a DC power supply to generate a negative magnetic field, while the coils 21 and 25 are connected to the DC power supply oppositely to generate a positive magnetic field. In an alternative embodiment of the invention, electromagnetic coils 19, 21, 23, 25 are connected to a DC power source such that each head generates a positive magnetic field, a negative magnetic field or a combined magnetic field of both.

According to the invention, the electromagnetic therapy device of the invention is mounted on a support structure adapted to align four electromagnetic bodies with respect to the body of a living animal. In embodiments herein, the support structure may be comprised of a bench, table, bed, chair, or similar assembly. 5 shows an elongated treatment table support structure 62 with a flux generator 12 attached to the floor surface. Preferably the flux generator 12 is powered by a power source (not shown) as described above. The magnetic flux generator 12 is laterally moved along the table bottom surface on the rails 64 and 65. The flux generator 12 is moved manually or by a power driven actuating mechanism 58 to align the desired portion of the human or animal body to which the flux is applied. The magnetic flux field is generated by each electromagnetic head on magnetic flux generator 12 when the electromagnetic head is excited. The magnetic flux field generated by the electromagnetic head extends above the upper plane 60 of the table 62 such that the magnetic flux impinges on the body on the table surface.

Otherwise, the electromagnetic therapy device of the present invention is supported by the chair structure, as shown in FIG. The chair 162 includes a seating surface 164, a vertical back (not shown) and a flux generator 162. The flux generator 12 is moved vertically on the rails 66, 68 in the cavity of the backrest of the chair 62. The flux generator 12 is powered by a power source (not shown) as described above. The power source may be integrated into the bottom of the chair 62 or may be configured as an independent unit. The flux generator 12 may be installed in the chair 162 for manual vertical movement or for automatic movement by the power driven actuating mechanism 70. The electromagnetic therapy device of the present invention is advantageously applied to the human body to reduce pain, reduce fatigue and improve blood circulation. Multiple cases are described below.

Case 1

A 73-year-old female had been aware of severe rheumatoid arthritis in her chest, lower back and neck for 14 years, increased pain and decreased movement. She needed help to move.

Thoracic radicular pain, decreased range of motion in the neck, shoulders and limbs, was accompanied by a second reduction in breathing. Both knees are painfully swollen and inflamed.

Four years ago she replenished her entire right knee. The left knee is now preparing to take care of him. She was treated with non-steroidal, anti-inflammatory drugs for minimal inhibition of symptoms.

Treatment with a local quadrupole permanent magnet device described in US patent application Ser. No. 07 / 171,837 is reported to be a good pain suppression treatment. The swelling in both knees was reduced, and the inflammation disappeared. She continued with non-steroidal, anti-inflammatory medication at the same time as self-treatment. When she experienced aggravation of symptoms in the chest area with neuroculosis, she received a good suppression of symptoms for two and a half years.

Treatment was carried out at her home using an electromagnetic therapy device mounted on a chair, as shown in FIG. Within minutes of starting treatment, the pain is reduced. After 24 hours of treatment, a significant range of motion in the thoracic bones, shoulders and neck has returned. After a week of treatment, the overall range of motion of the limbs improved significantly.

She continued treatment with electromagnetic devices three to four times a day for four months and 30 to 45 minutes per treatment. She was free from pain, moved well without help, and had no joint swelling or inflammation.

Case 2

A 54-year-old woman suffered from acute disc herniation with bone bruises for 10 months after surgery, resulting in cord ischemia. She had secondary left chest pain and sympathetic nerve pain.

Physical examination revealed scoliosis secondary to muscle spasms. She was on pain medication to reduce pain. She could only move with the help of her and could not perform her normal activities a day.

Treatment with a local permanent magnetic device described in US patent application Ser. No. 07 / 171,837 was carried out. She reported a 40% to 60% pain reduction over six months. She resumed some of her daily life. She received neuro-surgical treatment as much as possible for the remaining pain. Dorsal root entry zone procedure was performed to relieve myalgia and sympathetic pain on the nerve distribution in the chest (9, 10, 11) on the left side.

The motor tract obviously inadvertently overheated during surgery, causing paralysis of the lower left quarter, including the left lower abdomen, hips, pelvis, and legs. She lost control of the visceral and bladder functions. After the postoperative edema was relieved, she recovered at least a quarter of the lower left function, as well as the viscera and bladder.

She was discharged from the hospital with little hope of recovery. Physiotherapy was started concurrently with treatment using an electromagnetic therapy device mounted on the bed as shown in FIG. 5.

She gradually reduced pain, increased exercise intensity, and regained full control of visceral and bladder function.

She was treated 1-4 hours a day for approximately five months. If the treatment of the electromagnetic device is stopped for more than 48 hours, she has symptoms of increased pain, decreased muscle strength on the left side and abdominal muscle spasms of the hip flexors, inferior flexors and decreased control of body function.

Case 3

The 55-year-old woman has suffered severe Causalgia in the chest chest (9, 10, and 11) for two years with left thoracic body pain and sympathetic pain.

MRI, CT and EMG were negative. She has received numerous pharmaceutical treatments using anesthetics, non-anesthetic pain medications, steroids, non-steroids, anti-inflammatory drugs, and others with pain relief.

Simultaneously with the electromagnetic treatment device installed on the table, treatment was performed using the local four-pole permanent magnet device described in US Patent Application No. 07 / 171,837. The devices were used on a continuous base. She received electromagnetic therapy on average four times a week for 30 minutes to 1 hour for 4 months.

She reported varying pain reductions of 50% -90% after treatment with electromagnetic devices. After she had been without electromagnetic therapy for 36-48 hours, her pain intensity was increased. She estimated that overall pain was reduced by 40%.

Case 4

The 67-year-old male had a 20-year history of osteoarthritis of the foot with lumbar sacral bone and progressive severe foot and plantar pain. His job required him to stand on the concrete floor 8-10 hours a day. Treatment was carried out at home using an electromagnetic therapy device installed in the reclining chair as shown in FIG. He was treated once a day at night for 30 minutes to 1 hour. The pain was alleviated after the first treatment with sustained pain relief. He was treated every day for two months and had no worsening of pain.

Case 5

A 48-year-old white man with a history of severe atherosclerosis, coronary artery bypass graft and stroke showed painful, cold, bluish feet and legs.

Physical examination showed good pulse but poor poor blood circulation in the lower extremities. The patient was treated for 30 minutes at the lower back on the buttock surface using the electromagnetic unit shown in FIG. 5. After about three minutes, the patient experienced improved color, warmth and temperature sensations in the feet and legs. This sensation continued to improve color and warmth well over 30 minutes of treatment. These improvements lasted approximately 4 hours and resulted in longer duration with additional treatment.

Case 6

A 63-year-old white male had a five-year history of cold footing accompanied by a numbness in the foot caused by a fire. He was a bone. During the examination, he did not have a neurological deficit and had a moderately good spine and posterior foot pulse. He showed a decrease in small blood circulation. The lumbosacral region of the patient was placed on the electromagnetic device shown in FIG. 5 for 30 minutes. The patient experienced a complete recovery from fire sensations and warmth of the foot. This improvement was maintained for 3 to 4 hours and the effect was extended with repeated treatments.

At least in part, the beneficial effect of the electromagnetic treatment device of the present invention is caused by a four-pole alternating center charged symmetrical static magnetic field that impacts on the cell wall of the cell. The steep slopes of these magnetic fields cause polarization of the lipoprotein matrix of the cell wall such that sodium and calcium channels are blocked in a way that interferes with these ion fluxes. The impedance of the ion flux blocks the pacemaker effect of the damaged neuronal cell wall membrane (ie, blocks the onset of spontaneous depolarization). Spontaneous depolarization inhibition of neurons causes: (1) pain inhibition, and (2) dilation of peripheral blood vessels by preventing excessive outflow of sympathetic neuronal discharge into the blood vessels. This suppression of sympathetic firing causes dilation of blood vessels. The effect of calcium channel blockade leads to local expansion of vascular smooth muscle and thus improved blood flow. The pain relief portion will be the result of improved blood flow.

In a preferred embodiment, an electromagnetic therapy device suitable for placement with respect to the body of a living animal comprises: a plurality of electromagnetic bodies having at least four stimuli substantially in a single plane, wherein the stimuli comprise four vertices of a quadrilateral. Each magnetic pole exerts a magnetic force on the other three magnetic poles when the magnetic poles are electrically charged; The electromagnetic therapy device includes a ferroconductor flux submerged at the end of a pole away from an animal or human with a ferromagnetic focusing ring comprising a ferroconductor metal ring and an electromagnet of the same polarity as the pole attached to the focusing ring adjacent to the quadrilateral poles. Means for storing the return ring; Containment means for retaining magnetic poles of the magnetic body in the direction; And power means for exciting the electromagnetic body, each of the excited electromagnetic bodies generating a magnetic flux field; In addition, when the four stimuli are excited together, the four stimuli create a magnetic flux field with a sharp three-dimensional gradient and include a magnetic flux generator head.

Another embodiment includes the electromagnetic treatment device described above, wherein the four poles comprise two anodes and two cathodes, the two anodes forming opposite diagonal vertices and the two cathodes being quadrilateral opposite diagonals. Forming a vertex, each stimulus is magnetically attracted by two oppositely charged poles and magnetically repulsed by an equally charged pole.

Additionally, the electromagnetic treatment device is as described above, wherein the plurality of electromagnetic bodies comprise four electromagnets that are substantially identical, two of the electromagnets having a positive magnetic pole in substantially one plane and having an electromagnetic body Two of them have negative stimuli substantially in one plane, and each of the four electromagnets produces a magnetic field when excited by the power means.

In addition, the electromagnetic treatment device described above is implemented, wherein each of the four electromagnets includes a cast iron core wound with an electrically conductive wire.

In addition, the electrically conducting wire of the electromagnetic therapy device may be copper or aluminum wire.

In addition, the quadrilateral of the electromagnetic treatment device may be a parallelogram, which may be rectangular or square.

In addition, the power means of the electromagnetic treatment device may comprise a direct current generator and may be electrically connected to each of the four electromagnets.

The electromagnetic therapy device may also include power control means for controlling the amount of power supplied to each of the four electromagnetic bodies to adjust the magnetic flux field generated by each of the four electromagnetic bodies.

In a preferred embodiment, the electromagnetic therapy device may be mounted to a support structure adapted to align the four electromagnets with respect to the body of a living animal.

The electromagnetic therapy device is moveable to the planar table so as to movably align with an elongated planar table having a first flat surface suitable for supporting the body of a living animal in which four electromagnets are disposed, and a selected portion of the body of the living animal. A containment means attached to each other, wherein the magnetic flux field generated by each of the four electromagnets extends over the first flat surface of the table when the four electromagnets are excited by the power means.

Furthermore, the planar table of the electromagnetic treatment device may have a cavity in which the containment means is movable. In addition, the planar table of the electromagnetic treatment device may have a second flat surface opposite the first flat surface, and the containment means is movably mounted on the second flat surface.

The support structure of the electromagnetic therapy device may comprise a chair having a backrest substantially perpendicular to the seating surface that is substantially horizontal, wherein the seating surface and backrest are suitable for supporting the body of a living animal with four electromagnets disposed thereon. And the containment means is movably attached to the chair for movable alignment with the optional parts of the living animal's body, the magnetic flux field generated by each of the four electromagnets being substantially when the electromagnets are excited by the power means. Extends from the vertical back surface.

The chair of the electromagnetic treatment device may also have a cavity extending vertically from the back when vertically backed up, and the containment means may be mounted for vertical movement inside the cavity.

In addition, the electromagnetic treatment device may further comprise electrically driven means for moving the containment means vertically and horizontally within the vertically extending cavity.

Further, in a preferred embodiment, the method for therapeutically positioning an electromagnetic therapy device relative to the human body to relieve pain comprises at least two positive stimuli substantially in a single plane and at least two negative stimuli substantially in a single plane. Assembling at least one group of electromagnetic bodies with; Two positive and two negative magnetic poles of a plurality of magnetic bodies in a single plane are arranged to form four rectangular vertices, the two positive magnetic poles forming opposite diagonal vertices, and the two negative magnetic poles are also rectangular opposites. Positioning to form diagonal vertices; Fixing the placement of the plurality of magnetic bodies in a single containment body; Selectively placing the containment body in a position relative to the human body from above in an area producing the pain sensation; And energizing the magnetic body such that each magnetic body generates a magnetic flux field.

In addition, a method for therapeutically positioning an electromagnetic therapy device relative to a human body to improve blood circulation includes at least two positive stimuli substantially in a single plane and at least two negative stimuli substantially in a single plane. Assembling a group of electromagnetic bodies; Two positive and two negative magnetic poles of a plurality of magnetic bodies in a single plane are arranged to form four rectangular vertices, the two positive magnetic poles forming opposite diagonal vertices, and the two negative magnetic poles are also rectangular opposites. Positioning to form diagonal vertices; Fixing the placement of the plurality of magnetic bodies in a single containment body; Selectively placing the containment body in a position relative to the human body from above in an area producing the pain sensation; And energizing the magnetic body such that each magnetic body generates a magnetic flux field.

Those skilled in the art will appreciate that modifications and variations are possible in the electromagnetic treatment device and method of applying the electromagnetic treatment device of the present invention. Therefore, broadly, the present invention can be represented by, but is not limited to, the apparatus and method shown and described above. Accordingly, all specific details described above or shown in the drawings are for illustrative purposes, and not limitations.

B. Magnetic Therapy Device for Heart Dysfunction Static Self Stabilizer (SMS-C)

The electromagnetic flux generator head and circuit of the present invention are schematically illustrated in FIG. The treatment device 10 includes a flux generator 12 and a power source 14. According to the invention, the magnetic flux generator 12 comprises a plurality of electromagnetic bodies having at least four magnetic poles substantially in a single plane, wherein the magnetic poles are positioned to form four vertices of quadrilateral shape. Preferably, the four poles comprise two anodes and two cathodes, where the two anodes form opposite diagonal vertices and the two cathodes form opposite shapes. Each stimulus is magnetically attracted by two oppositely charged poles and repulsed by an equally charged pole. The containment means retain the magnetic poles of the magnetic bodies in the above-described configuration.

As embodied herein and shown in FIG. 2, the flux generator 12 includes four electromagnetic bodies 18, 20, 22, and 24 that are substantially identical on the containment structure. The containment structure includes a mounting board, a magnetic flux return ring (consisting of a ferroconductor) and a casing or any other structure that houses the electromagnetic bodies 18, 20, 22 and 24 in the desired configuration. Next, the structure must be held in place for proper alignment of the field to maximize coverage of the myocardial region as shown in FIG. 5. In a preferred embodiment, each of the electromagnetic bodies 18, 22 forms a negative stimulus, while each of the electromagnetic bodies 20, 24 forms a positive stimulus. The positive and negative magnetic poles of the electromagnetic bodies 18, 20, 22 and 24 are substantially aligned in a single plane, are arranged in a quadrilateral shape, the two anodes are disposed opposite each other in a diagonal direction, and the cathode is also in a diagonal direction. Disposed opposite each other. Preferably the electromagnetic bodies 18, 20, 22 and 24 comprise the electromagnetic heads shown in FIGS. 2, 3 and 5. Each electromagnetic head includes a conductive wire 26 wound around the cast iron core 28. The wire 26 is made of a conductive metal such as, for example, copper or aluminum. For example, FIG. 3 is made using a 5 inch (12.7 cm) outer diameter with a 2 inch (5.08 cm) core core 28 and a 1.5 inch (3.81 cm) coil space wound 3200 turns of # 22 copper wire. A suitable electromagnet is shown. As shown in FIG. 2, the coils 19, 21, 23 and 25 of the electromagnetic heads 18, 20, 22 and 24 are connected to a power source by wires 30 and 32, respectively. The conductive wire 26 is wound around the porous cast iron core (or laminated steel) 28 in such a way that the magnetic flux is concentrated within the geometric center of the cast iron core. The current flowing in the conductor emits magnetic flux at 90 degrees in the direction in which the current flows. Therefore, the magnetic flux is concentrated in the core. Therefore, the core is preferably circular. Three important function switching components are attached to the containment means. A magnetic flux return ring 16a is attached to the bottom of the four electromagnetic heads described above, which strengthens the magnetic flux field and controls undesirable stray induction currents and stray flux from the opposite pole. A magnetic flux focusing ring 16 is located around the magnetic flux head adjacent to the insulated wire coils, which is approximately 2.5 inches (6.35 cm) wide and 1/4 to 1/2 inch (6.35 to 12.7 mm) thick. The attachment means keeps the focusing ring in place for maximum effect. Focusing coils 18a, 20a, 22a and 24a are attached to the flux focusing ring. This focusing coil is attached to the magnetic flux focusing ring adjacent the head of the same charge at 45 to 90 degrees with respect to the long axis of the primary magnetic flux pole. In this position, the flux focusing coil, the flux return ring and the new iron core according to the focusing ring of the present invention make the slope more urgent, increase the field strength and reduce the healing and stray high current. The flux return ring and the flux focusing ring are grounded to reduce stray induction currents and variables added to the therapeutic magnetic field.

According to the invention, power means for magnetically exciting the electromagnetic body are provided so that the excited electromagnetic bodies can each generate a magnetic flux field. As embodied herein, the power source 14 includes a control unit 34, a direct current generator 36 and an alternating current power source 38. The direct current generator 36 is preferably a bridge rectifier and a series of filters. It is preferable that the AC power supply 38 is a 120V AC power supply. DC generator 36 preferably generates a 30 amp 120 V DC current. The capacitor 51 preferably can store a DC current of 8000 V when the switch 53 shown in FIG. 4 is closed. What is additionally required in the present invention is that when the pulse discharge switch is degraded and thereby discharges the capacitor voltage into the magnetic flux generator 12, closing the discharge circuit through the poles b and c depolarizes the myocardium and consequently the heart rate. It is a pulse discharge switch 52 that can prevent the fibrillation of. According to the present invention, if the switch 52 is deteriorated, it is further required that the switch pole a is opened and thus cut off the circuit through the poles a-b. According to the invention it is further required that the circuit through the poles a-b is closed when the discharge switch 52 is not degraded. The control unit 34 includes an on-off power switch 40 for controlling the flow of direct current (battery rating) to the flux generator 12. The control unit 34 also includes a voltmeter 42 and an ammeter 44 for monitoring the power and current supplied to the flux generator 12 by the direct current generator 36. Fuses 46 and 48 protect flux generator 12 against power surges. Fuses 46 and 48 are, for example, 30 amp electric fuses. The variable resistor 50 causes the regulation of the direct current supplied to the magnetic flux generator 12 to be supplied to the magnetic flux generator 12 at any given time. The variable resistor 50 is preferably conventional with a 50 amp 120 V capacity. As shown in FIGS. 1 and 2, each of the magnetic heads 18, 20, 22, and 24 is electrically connected to the power controller 34 by a single pair of wires 30, 32. Preferably, each of the magnetic poles 18, 20, 22 and 24 that make up the flux generator head are individually adjusted so that the symmetrical magnetic power is balanced between all the heads. Each magnetic therapy head is alternatively individually connected to one of four variable resistors in the control unit 34 so that the current supplied to each of the four individual treatment heads or poles is individually controlled by a computer driven servomechanism. Can be.

Preferably, the electromagnetic coils 19, 23 of the electromagnetic heads 18, 22 and the electromagnetic coils 21, 25 of the electromagnetic heads 20, 24 are connected to a DC generator such that the heads 18, 22 are connected to the head 20. , To generate a magnetic flux field opposite to the magnetic flux field generated by 24). As can be seen in FIG. 2, the coils 19 and 23 are connected to the DC power supply to generate a negative magnetic field, while the coils 21 and 25 are connected to the DC power supply to the opposite to generate a positive magnetic field. In an alternative embodiment of the invention, the electromagnetic coils 19, 21, 23 and 25 are each connected to a DC power source to generate a positive magnetic field, a negative magnetic field or a combination thereof.

According to the invention, the electromagnetic therapy device is mounted on a support structure adapted to align four electromagnets with respect to the body of a living animal. As embodied herein, the support structure includes a treatment table, bed or other similar assembly. In Fig. 5 an elongated treatment table support structure 62 is shown having a flux generator 13 attached to its bottom surface according to the invention. As an alternative embodiment of the invention, a similar embodiment of the invention is attached to a hospital intensive care unit bed. The flux generator 12 is preferably powered by the power source (not shown) described in FIG. 8 as described above. The magnetic flux generator 12 is laterally moved along the bottom surface of the table 62 on the rails 64 and 65. The flux generator 12 may be manually moved or moved by a power driven actuating mechanism to cause the flux generator 12 to align to a desired portion of the human body to which a pulsed or steady state magnetic flux is applied. The magnetic flux field is generated by each electromagnetic head on magnetic flux generator 12 when the electromagnetic head is excited. The magnetic flux field generated by the electromagnetic head extends above the upper plane 60 of the table 62 such that the magnetic flux impinges on the human body on the table surface and exerts a very steep three-dimensional magnetic field gradient on the organ being treated.

Otherwise, the electromagnetic therapy device of the present invention is supported by various other support means that can be carried.

In a preferred embodiment, an electromagnetic therapy device suitable for placement against the body of a living animal, wherein the stimuli are arranged to form four vertices of quadrilateral, with each magnetic pole on three different stimuli when the stimuli are electrically charged. A plurality of electromagnetic bodies having at least four magnetic poles located substantially in a single plane to impart; The ferromagnetic flux return ring clamped at the end of the pole away from animals or humans, with a ferromagnetic focusing ring comprising an electromagnet and a ferroconductor metal ring of the same polarity as the pole attached to the focusing ring adjacent to the quadrangle of four poles. pay; Containment means for retaining magnetic poles of the magnetic body in the arrangement; And power means for magnetically exciting the electromagnetic body such that each of the excited electromagnetic bodies generates a magnetic flux field; In addition, it generates a magnetic flux field with a steep three-dimensional gradient when the four stimuli are excited together, and further includes a magnetic flux generator head.

Further embodiments include the above-mentioned electromagnetic therapy device, in addition the magnetic flux generator head being supported by the support means such that the four-pole magnetic flux is applied to the human body part of the myocardium at varying intensity from steady state to high voltage pulse capacitor discharge. do. This discharge is applied to arrest myocardial fibrillation and to prevent reflux fibrillation, pain and coronary artery attack.

In a preferred embodiment, the four poles of the flux generator head of the electromagnetic therapy device comprise two anodes forming opposite diagonal vertices and two cathodes forming a quadrangular opposite diagonal vertex, each stimulus being oppositely charged It is attracted by the poles and magnetically repulsed by the same charged poles.

In addition, the plurality of electromagnetic bodies of the electromagnetic treatment device may include four electromagnets that are substantially identical, two of which have both magnetic poles substantially in a single plane, and two substantially in a single plane. With negative stimulation, the four electromagnets each generate a magnetic field when excited by the power means.

Additionally, the four electromagnets of the electromagnetic treatment device may each comprise a cast iron core wound with a conductive wire, and additionally the wire may be a copper wire or an aluminum wire.

In a preferred embodiment of the electromagnetic therapy device, the quadrilateral form is parallelogram, or rectangular, or square shape.

Moreover, the power means of the electromagnetic treatment device may comprise a direct current generator, said power means being electrically connected to each of the four electromagnets of said single magnetic flux generator head.

Yet another embodiment of the electromagnetic therapy device includes power control means for controlling the amount of power supplied to each of the four electromagnets to adjust the magnetic flux field generated by each of the four electromagnets in the magnetic flux generator head.

In addition, the containment means of the electromagnetic treatment device is installed on a support structure adapted to align the four electromagnetic beam generator heads in the proper direction within the treatment structure to allow the myocardium to adequately receive the desired flux field.

Moreover, the support structure of the electromagnetic therapy device includes an attachment device for supporting the flux generator head in the intensive care unit bed in the hospital, wherein the hospital bed is for supporting the body of a living animal, and the electromagnet is excited by the power supply. The magnetic flux field generated by the four electromagnets of the magnetic flux generator head then shoots a human or animal with a three-dimensional field slope of energy and steep slope of about 200 millel Telsa.

Additionally, in another embodiment of the present invention, an electromagnetic therapy device is placed in proximity to the chest and myocardium to control pathophysiological processes associated with myocardial infarction such as arrhythmia, chest pain and reduced myocardial blood flow. The method of positioning for treatment includes assembling at least one group of full body bodies having at least two positive stimuli in each group substantially in a single plane and having at least two negative stimuli substantially in a single plane; Two anodes and two cathodes of multiple magnetic bodies in a single plane form four rectangular rectangular vertices such that the two anodes form rectangular diagonal opposite vertices and the two cathodes form opposite diagonal vertices. Arranging to make it easy; Fixing the arrangement of the plurality of magnetic bodies in a single enclosure; Then selectively placing the enclosure in a position opposite the human chest, thereby exposing the myocardium to a steep field slope that penetrates the human or animal heart; And exciting the magnetic bodies with power such that each magnetic body creates a magnetic flux field.

Additional embodiments of the present invention relate to a method for therapeutically placing an electromagnetic therapy device in close proximity to an animal's heart to control the pathophysiological process of the heart where myocardial infarction is progressing, wherein at least substantially within a single plane Assembling at least one group of electromagnetic bodies having two positive stimuli and having at least two negative stimuli substantially in a single plane; Two anodes and two cathodes of multiple magnetic bodies in a single plane form four rectangular rectangular vertices such that the two anodes form rectangular diagonal opposite vertices and the two cathodes form opposite diagonal vertices. Arranging to make it easy; Fixing each arrangement of the plurality of magnetic bodies in a single enclosure; Selectively placing said enclosure at an associated location in the heart of an animal or animal to treat complications of myocardial infarction; And exciting the magnetic bodies with power such that each magnetic body creates a magnetic flux field.

C. Magnetic therapy device for suppressing drug-resistant seizures and cerebral edema-static self stabilizer (SMS-E)

One of two identical electromagnetic heads and circuits of the present invention is schematically illustrated in FIG. 1. The treatment device 10 includes a flux generator 12 and a power source 14. According to the invention, the flux generator 12 comprises a plurality of electromagnetic bodies having at least four magnetic poles substantially in a single plane, the magnetic poles being positioned to form four quadrants of a quadrilateral. Preferably, the four poles have two anodes and two cathodes, the two anodes forming opposite diagonal vertices and the two cathodes forming opposite shapes. Each stimulus is attracted to the oppositely charged pole and magnetically repels the same charged pole. The containment means retain the magnetic poles of the magnetic bodies in the above-described configuration. The containment means is attached with three important function change components of the present technology. A magnetic flux return ring 16a is attached to the bottom of the four electromagnetic heads described above, which strengthens the magnetic flux field and controls not only stray flux from the opposite pole but also unwanted stray induction current. The magnetic flux focusing ring 16 is disposed around the magnetic flux head adjacent the insulated wire coils, approximately 2.5 inches (6.35 cm) wide and 1/4 to 1/2 inch (6.35 mm-12.7 mm) thick. The attachment means keeps the focusing ring in the proper position for maximum effect. Focusing coils 18a, 20a, 22a and 24a are attached to the magnetic flux focusing ring. These focusing coils are attached to the magnetic flux focusing ring at 45 degrees to 90 degrees to the long axis of the main magnetic flux pole in proximity to the head with the same charge. In this position, the flux focusing coil, the flux return ring and the new iron core according to the focusing ring of the present invention make the slope steeper, increase the field strength, and reduce the healing and stray high current. The flux return ring and the flux focusing ring are grounded to reduce the variables added to the stray induced current and the therapeutic magnetic field.

As embodied herein, the flux generator 12 includes four electromagnetic bodies 18, 20, 22, and 24 that are substantially identical on the containment structure. The containment structure includes a mounting board, a flux return ring (made of ferroconductor), a casing or any other structure that holds the electromagnetic bodies 18, 20, 22 and 24 in the desired configuration. The structure must then be held in place for proper alignment of the attractive field of the two heads of the present invention as shown in FIG. In the preferred embodiment, each of the electromagnetic bodies 18 and 22 forms a negative stimulus, while each of the electromagnetic bodies 20 and 24 forms a positive stimulus. The positive and negative magnetic poles of the magnetic bodies 18, 20, 22 and 24 are quadrilateral in which the anodes are arranged substantially in a single plane, the anodes are arranged diagonally opposite each other and the cathodes are diagonally opposite each other. Is placed. Electromagnetic bodies 18, 20, 22 and 24 preferably comprise an electromagnetic head as best shown in FIGS. 2, 3 and 9. Each electromagnetic head includes a conductive wire 26 wound around a cast iron core 28. Wire 26 includes any conductive material, for example copper or aluminum. For example, FIG. 3 illustrates a suitable electromagnet made using a 5 inch (12.7 cm) outer diameter with a 2 inch center core 28 and a 1 inch (3.82 cm) coil space wound 3200 turns of # 22 copper wire. Indicates. As shown in FIG. 2, the coils 19, 21, 23, and 25 of the electromagnetic heads 18, 20, 22, and 24 are each connected to a power source by wires 30 and 32. The conductive wire 26 is wound around the porous cast iron core (or laminated steel) 28 in such a way that the magnetic flux is concentrated in the geometric center of the iron core. The current flow in the conductor emits magnetic flux at right angles to the current flow. Therefore, the magnetic flux is concentrated in the core. Therefore, the core is preferably circular.

According to the invention, power means for magnetically exciting the electromagnetic body are provided such that each of the excited electromagnetic bodies can produce a magnetic flux field. As embodied herein, the power supply 14 includes a control unit 34, a direct current generator 36 and an alternating current power supply 38. The direct current generator 36 is preferably a bridge rectifier and a series of filters. The AC power source 38 is a 120 volt AC power source. DC generator 36 is preferably capable of generating a 30 amp, 120 volt DC current. The control unit 34 includes an on-off power switch 40 for controlling the direct current (battery rating) to the flux generator 12. The control unit 34 also includes a voltmeter 42 and an ammeter 44 for monitoring the power and current supplied to the flux generator 12 by the direct current generator 36. Fuses 46 and 48 protect flux generator 12 against power surges. Fuses 46 and 48 will be, for example, 30 amp electric fuses. The variable resistor 50 enables regulation of the direct current that is being supplied to the flux generator 12 at any given time. The variable resistor 50 is preferably implemented with any conventional variable resistor with a 50 amp, 120 volt capacity. As shown in FIGS. 1 and 2, each magnetic head 18, 20, 22, and 24 may be electrically connected to the power controller by a pair of wires 30 and 32. Preferably, each of the magnetic poles 18, 20, 22, and 24 that make up the head can be individually adjusted such that the symmetrical magnetic force is balanced between all the heads. Alternatively, each magnetic therapy head may be individually connected to one of four variable resistors in the control unit 34 so that the current supplied to each of the separate treatment heads can be adjusted individually. These variable resistors can also be maintained at a constant and stable magnetic flux by driving the variable resistors by servo-controlled by a computer. The computer will keep the head in perfect balance and thus enable the best possible biological effect when implemented.

The electromagnetic coils 19 and 23 of the electromagnetic heads 18 and 22 and the electromagnetic coils 21 and 25 of the electromagnetic heads 20 and 24 preferably have the heads 18 and 22 by the heads 20 and 24. It is connected to the DC generator to generate a magnetic flux field opposite to the magnetic flux field that is generated. As shown in FIG. 2, the coils 19 and 23 are connected to a DC power source to generate a negative magnetic field, while the coils 21 and 25 are inversely connected to a DC power source to generate a positive magnetic field. It is done. In alternative embodiments of the invention, the electromagnetic coils 19, 21, 23 and 25 may each be connected to a DC power source to produce a positive magnetic field, a negative magnetic field or some combination thereof.

According to the present invention, the electromagnetic therapy device of the present invention is installed on a support structure adapted to align four electromagnets so that the electromagnets face the other head such that the heads of the electromagnets face each other so that the center axes of the electromagnets meet at opposite centers facing each other. Can be arranged in. This configuration increases the peak power of each pole and makes the slope steep. Increased peak power and increased slope slope both enhance the biological effect. 5 shows the means for supporting the two heads and fixing them to each other. The two heads are flux generators. The flux generator 12 may preferably be driven by a power source (not shown) as described above. The flux generator 12 moves in the x, y, and z axes to obtain the appropriate peak magnetic flux and peak magnetic slope. The flux generator 12 may be moved manually or by a power driven actuating mechanism 54 to cause the flux generator 12 to be aligned in the desired position of the human or animal head and upper spine to which the flux is applied. . The magnetic flux field is created by each electromagnetic pole on magnetic flux generator 12 when the electromagnetic pole is excited. The magnetic flux field so produced by the electromagnetic head extends laterally from the plane so that the magnetic flux impinges on the head and / or upper cervical region of the body located between the two magnetic flux generators 12. The flux field is adjusted and manipulated by a flux return ring and a flux focusing ring that hold the focusing magnet.

The support means 56 allow both the left and right parts to roll forward and can be locked together by lock bars 52 and 53. The lock bar 53 is at the bottom of the bed. The support means 56 comprise a DC power supply 14 and provide support for the four pole flux generator 12. The support means 56 also comprises a control meter 58, a pole selector 60 and a voltage regulator (DC) 61. A lead counter weight 62 is responsible for balancing the flux generator 12. The caster roller 63 provides the ability for the support means 56 to move to the side of the bed.

The patient's head 66 is located in a static quadrupole field between two flux generators 12.

The electromagnetic therapy device of the present invention has been advantageously applied to the body and head of experimental animals and humans to suppress brain attacks and to delay and / or reverse swelling of the brain (cerebral edema).

Experimental data

The beneficial effect of the electromagnetic therapy device of the present invention is a four-pole alternating center-charged, symmetrical static magnetic field (magnetic flux return, magnetic flux focusing ring and focusing magnets) that impinges at least in part on the cell walls of cells in animal and human brains. Is maximized by). This steep slope of the magnetic field causes polarization of the lipid protein matrix in the cell wall, blocking sodium and calcium channels in a way that interferes with the flux of these ions. Interference of ion flux prevents unregulated depolarization of brain neurons, thereby preventing the dispersion of electrical activity caused by seizure focus. Interference of ion flux also prevents the pacemaker effect of seizure focus (ie, prevents the onset of spontaneous depolarization). Regulation of spontaneous depolarization of brain neurons leads to control of seizure focus and control of the distribution of aberrant depolarization of adjacent neurons. Stabilization of the cell wall also impedes the movement of extracellular fluid and thus regulates brain edema and subsequent cell death.

It will be apparent to those skilled in the art that modifications and variations are possible in the electromagnetic treatment device and method of applying the electromagnetic treatment device of the present invention. Therefore, the invention in its broader aspects is not limited to the specific details, representative methods and apparatuses and embodiments shown and described above. Therefore, all the facts included in the drawings and description are to be interpreted as illustrative and not in a limiting sense.

Design-support data of the invention

The purpose of this data is to support the design of the present invention. The biological effect of the present invention is dependent on field slope and field strength. Both tilt and intensity can be increased by approaching the second magnetic flux generator head with opposite poles opposite one of the magnetic flux generator heads of the present invention. 6 demonstrates the change in the slope of the line d as the peak magnetic flux intensity increases as in the diagonal line e. Evidence to support claims of increased energy or peak energy due to the pulling flux generator is shown in Table # 1 (see also Figure 4. Flux generator 12, poles A, B, C, D).

TABLE 1

Table 1 Unit millitesla A B C D Generator # 1 +73 -67 +72 -72 Generator # 1 + 2.9 inches (7.4 cm) from generator # 2 # 1 +94 -92 +72 -72 Generator # 1 + 2.9 inches (7.4 cm) from generator # 2 # 1 +81.4 -75 +79 -80 Generator # 1 + 4.2 inches (10.7 cm) from generator # 2 # 1 +78 -72 +75 -75

Table 1. Table # 1 shows the magnetic flux density at each pole center of magnetic flux generator # 1: a) in Germany, b) the magnetic pole where magnetic flux generator # 2 is located at various distances from magnetic flux generator # 1. When facing towards # 1. It should be noted that the peak flux increases as one pole approaches the opposite attracting pole. As can be seen from FIG. # 6, this effect of increasing the strength of the field simultaneously increases the slope.

In a preferred embodiment, an electromagnetic therapy device suitable for being placed against the body of a living animal comprises: a magnetic pole is arranged to form four vertices of quadrilateral and each magnetic pole is magnetically applied to the remaining three magnetic poles when the magnetic pole is electrically charged. A plurality of electromagnetic bodies having at least four magnetic poles substantially in a single plane; Containment of the ferroconductor magnetic flux return ring clamped at the end of the pole away from the animal or human with ferromagnetic focusing ring comprising a ferromagnetic metal ring and an electromagnet of the same polarity attached to the focusing ring adjacent to the quadrilateral four poles ; Containment means for retaining magnetic poles of the magnetic body in the arrangement; And power means for magnetically exciting the electromagnetic body such that each of the excited electromagnetic bodies generates a magnetic flux field; Each of the excited electromagnetic bodies generates a magnetic flux field, and in addition, generates a magnetic flux field with a steep three-dimensional slope when the four magnetic poles are excited together, and further includes a magnetic flux generator head.

Additional embodiments include the electromagnetic treatment device described above, in addition to which the two flux generator heads are supported by the support means such that the plane faces the poles of each face in the attraction mode when the two flux heads are excited. do.

Moreover, the four magnetic poles of each magnetic flux generator of the electromagnetic therapy device may include two anodes forming quadrilateral opposite diagonal vertices and two cathodes forming opposite diagonal vertices, each of which is oppositely charged and Magnetically repulsed by a pole of the same polarity.

In an additional embodiment of the invention, the electromagnetic therapy device comprises four electromagnets that are substantially identical, wherein the two electromagnets have a positive stimulus that is substantially in a single plane, and the two electromagnets are substantially in a single plane. With a stimulus, each of the four electromagnets produces a magnetic flux field when excited by power means.

The four electromagnets of the electromagnetic treatment device may each comprise a cast iron core wound with an electrically conductive wire of copper wire or aluminum wire.

In addition, the quadrilateral form of the electromagnetic therapy device may be parallelogram, rectangle, or square.

In addition, the power means of the electromagnetic treatment device may comprise a direct current generator, and the power means may be electrically connected to each of the four electromagnets of the single magnetic flux generator head.

In addition, the electromagnetic therapy device of the present invention further includes a power control device for adjusting the amount of power supplied to each of the four electromagnets, whereby the magnetic flux field generated by each of the four electromagnets in both the magnetic flux generator heads. Can be adjusted.

In addition, the containment means of the electromagnetic therapy device may be mounted on a support structure adapted to align the four electromagnets of the magnetic flux generator head in the same direction as the second magnetic flux generator head, such that the two heads face and are parallel to each other. Keep it in one position.

The support structure of the electromagnetic therapy device may additionally include a cabinet for supporting each magnetic flux generator head, the support structure is mounted on a coaster for easy movement, and the two magnetic flux generator heads are mounted on a bed or With means for securing them together when on a table, a bed is provided to support the body of a living animal whose head and neck portions are disposed between two flux generator heads, with four electromagnets of each of the flux generator heads The magnetic flux field generated by exposing the human or animal head to energies of 50 to 500 millitesler and to steep three-dimensional field slopes when the electromagnets are excited by the power means.

Another embodiment of the present invention is a method for therapeutically placing an electromagnetic therapy device in a position proximate to the head and cervical spine of an animal to inhibit seizure discharge and cerebral edema, wherein each group is substantially in a single plane. Assembling at least two groups of electromagnetic bodies having at least two positive stimuli in and having at least two negative stimuli in a substantially single plane; Place two positive and two negative stimuli of multiple magnetic bodies on a single plane to form four rectangular vertices, the two positive stimuli form opposite diagonal vertices, and the two negative stimuli are rectangular Arranging to form opposite vertices of; Fixing the placement of the plurality of magnetic bodies in a single containment body; Selectively placing the containment body in a position facing the second containment body such that a four pole steep slope field penetrates the diseased animal's brain; And energizing the magnetic bodies with power, causing each magnetic body to generate a magnetic flux field.

D. Magnetic Therapy Apparatus for Suppressing Pain and Edema Due to Neutral Burn-Static Magnetic Stabilizer (SMS-B)

One of the electromagnetic heads and circuits of the present invention is schematically illustrated in FIG. The treatment device 10 includes a flux generator 12 and a power source 14. According to the invention, the flux generator 12 comprises a plurality of electromagnetic bodies having at least four magnetic poles substantially in a single plane, the magnetic poles being arranged to form four quadrants of quadrilateral. Preferably, the four stimuli comprise two positive and two negative stimuli, the two positive stimuli forming opposite diagonal vertices, and the two negative stimuli forming the opposite shape. Each stimulus is magnetically attracted to two oppositely charged stimuli and repulses magnetically by an equally charged stimulus. The containment means retain the magnetic poles of the magnetic body in the configuration described above.

As embodied herein, the flux generator 12 includes four substantially identical electromagnetic bodies 18, 20, 22, and 24 on the containment structure 16. Containment structure 16 may include a mounting board, a flux return ring (made of ferroconductor), a casing, or any other structure that holds electromagnetic bodies 18, 20, 22, and 24 in a desired configuration. The structure must then be held in place for proper alignment to transfer the magnetic flux of the present invention as shown in FIG. In the preferred embodiment, the electromagnetic bodies 18 and 22 each form a negative stimulus, while the electromagnetic bodies 20 and 24 each form a positive stimulus. The positive and negative magnetic poles of the magnetic bodies 18, 20, 22 and 24 are substantially aligned within a single plane, are arranged in a quadrilateral shape, the positive magnetic poles are arranged diagonally opposite to each other, and the negative magnetic poles are Are arranged diagonally opposite to. Preferably, the electromagnetic bodies 18, 20, 22 and 24 comprise electromagnetic heads, as best shown in FIGS. 2, 3 and 10. Each electromagnetic head includes a conductive wire 26 wound on a cast iron core 28. Wire 26 may be made of any conductive material, for example copper or aluminum. For example, FIG. 3 has an outer diameter of 5 inches (12.7 cm), a central core 28 of 2 inches (5.08 cm), and a coil spacing of 3200 times wound with # 22 copper wire is 1.5 inches (3.81 cm). A suitable electromagnet is shown. As shown in FIG. 2, the coils 19, 21, 23 and 25 of each electromagnetic head 18, 20, 22 and 24 are connected to a power source by wires 30 and 32, respectively. The conductive wire 26 is wound around the porous cast iron core (or laminated steel) in a manner that concentrates the magnetic flux on the geometric center of the iron core. The current flow in the electrical conductor releases magnetic flux at right angles to the current flow. Thus, the magnetic flux is concentrated at the core. Therefore, it is preferable that the core is circular. Three important functional change components of the present technology are attached to the containment means. The magnetic flux return ring 16a is attached to the bottom of the four electromagnetic heads described, which enhances the magnetic flux field and suppresses stray flux from the counter-stimulus as well as unwanted stray induced currents. The magnetic flux focusing ring 16 is located around the magnetic flux head adjacent to the insulated wire coils and is about 2.5 inches (6.35 cm) wide and 1/4 to 1/2 inch (6.35 mm to 12.7 mm) thick. The attachment means keeps the focusing ring in the proper position for maximum effect. The focusing coils 18a, 20a, 22a and 24a are attached to the magnetic flux focusing ring. These focusing coils are attached to the magnetic flux focusing ring at 45 to 90 degrees relative to the long axis of the primary magnetic pole, adjacent to the head with the same charge. In this position, together with the focusing ring, the magnetic flux return ring and the novel iron core of the present invention, the magnetic flux focusing coil makes the slope more steep, increases the field strength, and reduces the healing and stray high current. The flux return ring and the flux focusing ring are grounded to reduce the variables added to the stray induced current and the therapeutic magnetic field.

According to the invention, power means for magnetically exciting the electromagnetic body are provided such that each of the excited electromagnetic bodies can produce a magnetic flux field. As embodied herein, the power supply 14 includes a control unit 34, a direct current generator 36 and an alternating current power supply 38. The direct current generator 36 is preferably a bridge rectifier and a series of filters. The AC power source 38 is a 120 volt AC power source. DC generator 36 is preferably capable of generating a 30 amp, 120 volt DC current. The control unit 34 includes an on-off power switch 40 for controlling the direct current (battery rating) to the flux generator 12. The control unit 34 also includes a voltmeter 42 and an ammeter 44 for monitoring the power and current supplied to the flux generator 12 by the direct current generator 36. Fuses 46 and 48 protect flux generator 12 against power surges. Fuses 46 and 48 will be, for example, 30 amp electric fuses. The variable resistor 50 enables regulation of the direct current that is being supplied to the flux generator 12 at any given time. The variable resistor 50 is preferably implemented with any conventional variable resistor with a 50 amp, 120 volt capacity. As shown in FIGS. 1 and 2, each magnetic head 18, 20, 22, and 24 may be electrically connected to the power controller by a pair of wires 30 and 32. Preferably, each of the magnetic poles 18, 20, 22, and 24 that make up the head can be individually adjusted such that the symmetrical magnetic force is balanced between all the heads. Alternatively, each magnetic therapy head may be individually connected to one of four variable resistors in the control unit 34 so that the current supplied to each of the separate treatment heads can be adjusted individually. These variable resistors can also be maintained at a constant and stable magnetic flux by driving the variable resistors by servo-controlled by a computer. The computer will keep the head in perfect balance and thus enable the best possible biological effect when implemented.

The electromagnetic coils 19 and 23 of the electromagnetic heads 18 and 22 and the electromagnetic coils 21 and 25 of the electromagnetic heads 20 and 24 preferably have the heads 18 and 22 by the heads 20 and 24. It is connected to the DC generator to generate a magnetic flux field opposite to the magnetic flux field that is generated. As shown in FIG. 2, the coils 19 and 23 are connected to a DC power source to generate a negative magnetic field, while the coils 21 and 25 are inversely connected to a DC power source to generate a positive magnetic field. It is done. In alternative embodiments of the invention, the electromagnetic coils 19, 21, 23 and 25 may each be connected to a DC power source to produce a positive magnetic field, a negative magnetic field or some combination thereof.

According to the present invention, the electromagnetic treatment device of the present invention can be installed on a support structure adapted to align four electromagnets with respect to the body of a live animal with a large burn. As embodied herein, the support structure may comprise a treatment table, bed or other similar assembly. 5 shows an elongated treatment table support structure 62 having a flux generator 12 of the present invention attached to a floor surface and having two movable arms. According to the invention, each bank of the flux generator head 12 consists of three flux generator heads in each bank of the generator head. Similar embodiments of the invention are attached to a hospital burn unit bed as an alternative embodiment of the invention. Preferably, the flux generator 12 is powered by a power source (not shown) as described in FIG. 4 as mentioned above. The flux generator 12 contained in the bottom of the bed moves laterally along the bottom surface of the table 62 on the rails 64 and 66. The magnetic flux generator 12 can be moved by the power drive actuating mechanism 58 to align the magnetic flux generator 12 to the desired portion of the human body to which a constant state magnetic flux is to be applied. The magnetic flux field is generated by each electromagnetic head on magnetic flux generator 12 when the electromagnetic head is excited. The magnetic flux field generated by the electromagnetic head counter maintains the balance of the support arm 71. Each magnetic flux generator head 12 is controlled by a servomotor mechanism 70 designed to maintain the focus of the magnetic flux field tilt as the counter support arm is rotated 30 to 45 above the upper plane 60 of the table 62. The magnetic flux impinges on the body on the table surface, and the burn to be treated has a very steep three-dimensional field tilt on the tissue. The counter balance support arm 71 is rotated every 10 minutes by the servomotor and gear 72. When the flux generator head 67 or 68 treats the surface 60 of the table 62, the flux generator head 12 on the table or bed bottom is turned off by the microswitch of the motor and starvation 72. When the electromagnetic flux generator banks 67 and 68 descend below the surface 60 of the table 62, the microswitch generates a static field steep flux field in which the flux head is charged with DC current and impinges again on the body. Turn the electromagnetic flux generator bank on the bottom in the on state. When the magnetic flux generators 67 and 68 are in the on state when the electromagnetic flux generator bank on the table or bed floor is in the off state, it produces a desired flux field with a steep three-dimensional slope.

The electromagnetic therapy device of the present invention can be otherwise structured without interfering with the basic mechanism of function.

In a preferred embodiment, an electromagnetic therapy device suitable for being placed against the body of a living animal is: a stimulus is arranged to form four vertices of quadrilateral and each stimulus exerts magnetic force on the remaining three stimuli when the stimulus is electrically charged. A plurality of electromagnetic bodies having at least four magnetic poles substantially in a single plane; Containment of the ferroconductor magnetic flux return ring clamped at the end of the pole away from the animal or human with ferromagnetic focusing ring comprising a ferromagnetic metal ring and an electromagnet of the same polarity attached to the focusing ring adjacent to the quadrilateral four poles ; Containment means for retaining magnetic poles of the magnetic body in the arrangement; And power means for magnetically exciting the electromagnetic body; Each of the excited electromagnetic bodies generates a magnetic flux field, and in addition, generates a magnetic flux field with a steep three-dimensional slope when the four magnetic poles are excited together, and further includes a magnetic flux generator head.

Additional embodiments include the electromagnetic treatment device described above, in addition to the magnetic flux generator heads being supported by the support devices such that a four-pole magnetic flux can be applied to the body part of the burn in several intensity, and the discharge may cause pain and It is applied to burnt tissues to reduce edema and speed healing.

In a further embodiment of the present invention, the four magnetic poles of each flux generator of the electromagnetic therapy device may comprise two anodes forming quadrilateral opposite diagonal vertices and two cathodes forming opposite diagonal vertices, Each of the stimuli is oppositely charged and magnetically repelled by the same polarized pole.

In addition, the electromagnetic therapy device includes four electromagnets that are substantially identical, the two electromagnets having a positive stimulus substantially in a single plane, the two electromagnets having a negative stimulus substantially in a single plane, and four electromagnets. Each produces a magnetic flux field when excited by power means.

In addition, the four electromagnets of the electromagnetic treatment device may each include a cast iron core wound with an electrically conductive wire made of copper wire or aluminum wire.

In addition, the quadrilateral form of the electromagnetic therapy device may be parallelogram, rectangle, or square.

In another embodiment of the present invention, the power means of the electromagnetic treatment device comprises a direct current generator, the power means being electrically connected to each of the four electromagnets of the single magnetic flux generator head.

In addition, the electromagnetic therapy apparatus further includes power control means for controlling the amount of power supplied to the four electromagnets, respectively, so as to adjust the magnetic fields generated by the four electromagnets in each of the nine magnetic flux generator heads.

In addition, the containment means of the electromagnetic treatment device is installed on support structures such as tables and beds, such that the electromagnetic flux generator head is suitably disposed within the treatment structure and the burned body can suitably accommodate the desired magnetic flux field. The support structure may further comprise an attachment device for supporting the flux generator head in the imaging unit bed in the hospital, wherein the hospital bed is for supporting the body of a living animal and when the electromagnet is excited by the power means, the flux generator The magnetic flux field generated by the four electromagnets of the head shoots humans or animals with energy and steep three-dimensional field slopes of about 200 milli Tesla.

Yet another embodiment of the present invention is directed to a method for therapeutically placing an electromagnetic therapy device proximate to a human or other animal's body to control a pathophysiological process involving a severe burn, wherein each group is substantially single. Assembling at least one group of electromagnetic bodies having at least two positive magnetic poles in a plane and having at least two negative magnetic poles in a substantially single plane; Place two positive and two negative stimuli of multiple magnetic bodies on a single plane to form four rectangular vertices, the two positive stimuli form opposite diagonal vertices, and the two negative stimuli are rectangular Arranging to form opposite vertices of; Securing the arrangement of the plurality of magnetic bodies to a single containment body; Selectively placing the containment body in a bank of the flux generator head, thereby exposing the body to an abrupt field slope that penetrates the human or animal body; And energizing the magnetic bodies with power, causing each magnetic body to generate a magnetic flux field.

Another embodiment of the present invention is directed to a method for therapeutically placing an electromagnetic therapy device proximate to an animal's body to control pathophysiology of a severe burn, having at least two positive stimuli substantially in a single plane, Assembling at least one group of electromagnetic bodies having at least two sound stimuli substantially in a single plane; Place two positive and two negative stimuli of multiple magnetic bodies on a single plane to form four rectangular vertices, the two positive stimuli form opposite diagonal vertices, and the two negative stimuli are rectangular Arranging to form opposite vertices of; Securing each arrangement of the plurality of magnetic bodies to a single containment body; Selectively placing the containment body at a location relative to the human or animal body to treat complications of the severe burn; And energizing the magnetic bodies with power, causing each magnetic body to generate a magnetic flux field.

E. Magnetic Therapy Devices for Increasing Drug Potency (SMS-D)

Preferred embodiments of the present invention will be described in detail and the accompanying drawings will be described. Throughout the drawings, like reference numerals refer to like elements.

One of two electromagnetic heads and circuits of the present invention is schematically illustrated in FIG. 1. The treatment device 10 includes a flux generator 12 and a power source 14. According to the invention, the flux generator 12 comprises a plurality of electromagnetic bodies having at least four magnetic poles substantially in a single plane, the magnetic poles being arranged to form four quadrants of quadrilateral. Preferably, the four stimuli comprise two positive and two negative stimuli, the two positive stimuli forming opposite diagonal vertices, and the two negative stimuli forming the opposite shape. Each stimulus is magnetically attracted to two oppositely charged stimuli and repulses magnetically by an equally charged stimulus. The containment means retain the magnetic poles of the magnetic body in the above-described configuration. Three important functional change components of the present technology are attached to the containment means. The magnetic flux return ring 16a is attached to the bottom of the four electromagnetic heads described above, which strengthens the magnetic flux field and suppresses stray induction currents from unwanted opposite poles. The magnetic flux focusing ring 16 is located around the magnetic flux head and is about 2.5 inches (6.35 cm) wide and 1/4 to 1/2 inch (6.35 mm to 12.7 mm) thick. The attachment means keeps the focusing ring in the proper position for maximum effect. The focusing coils 18a, 20a, 22a and 24a are attached to the magnetic flux focusing ring. These focusing coils are attached to the magnetic flux focusing ring at 45 to 90 degrees relative to the long axis of the primary magnetic pole, adjacent to the head with the same charge. In this position, the magnetic flux focusing coil together with the focusing ring

It creates a steep slope and increases the effective field strength. The flux return ring and the flux focusing ring are grounded to reduce the variables added to the stray induced current and the therapeutic magnetic field.

As illustrated herein, the flux generator 12 comprises four substantially identical electromagnetic bodies on the containment means. The containment means may comprise a mounting board, a magnetic flux return ring 16a (made of ferroconductor), a casing or any other structure that holds the electromagnetic bodies 18, 20, 22 and 24 in the desired configuration. Magnetic flux focusing ring 16 is attached to the outer surface of coils 18, 20, 22 and 24; This focusing ring holds the focusing electromagnetic poles 18a, 20a, 22a and 24a. The structure must then be held in place for proper alignment of the pull field of the two heads of the invention as shown in FIG. In the preferred embodiment, the electromagnetic bodies 18 and 22 each form a negative stimulus, while the electromagnetic bodies 20 and 24 each form a positive stimulus. The positive and negative magnetic poles of the magnetic bodies 18, 20, 22 and 24 are substantially aligned within a single plane, are arranged in a quadrilateral shape, the positive magnetic poles are arranged diagonally opposite to each other, and the negative magnetic poles are Are arranged diagonally opposite to. Electromagnetic bodies 18, 20, 22 and 24 with a magnetic flux return ring and a focusing ring in conjunction with the focusing magnet comprise an electromagnetic head, as best shown in FIGS. Each electromagnetic head includes a conductive wire 26 wound around the cast iron core 28. Wire 26 may be made of any conductive material, for example copper or aluminum. For example, FIG. 3 has an outer diameter of 5 inches (12.7 cm), a central core 28 of 2 inches (5.08 cm), and a coil spacing 3200 times wound with # 22 copper wire 2 inches (5.08 cm). A suitable electromagnet is shown. As shown in FIGS. 2 and 3, the coils 19, 21, 23, and 25 of each electromagnetic head (shown in cut) 18, 20, 22, and 24 are wires 30 and 32, respectively. Is connected to the power supply. The conductive wire 26 is wound around the porous cast iron core (or laminated steel) in a manner that concentrates the magnetic flux on the geometric center of the iron core. The current flow in the electrical conductor releases magnetic flux at right angles to the current flow. Thus, the magnetic flux is concentrated at the core. Therefore, it is preferable that the core is circular. 3 shows a cross section of the insulator 29 cut to show the wire coil 26.

According to the invention, power means for magnetically exciting the electromagnetic body are provided such that each of the excited electromagnetic bodies can produce a magnetic flux field. As embodied herein, the power supply 14 includes a control unit 34, a direct current generator 36 and an alternating current power supply 38. The direct current generator 36 is preferably a bridge rectifier and a series of filters. Preferably, AC power source 38 is a 120 volt AC power source. DC generator 36 is preferably capable of generating a 30 amp, 120 volt DC current. The control unit 34 includes an on-off power switch 40 for controlling the direct current (battery rating) to the flux generator 12. The control unit 34 also includes a voltmeter 42 and an ammeter 44 for monitoring the power and current supplied to the flux generator 12 by the direct current generator 36. Fuses 46 and 48 protect flux generator 12 against power surges. Fuses 46 and 48 may be, for example, 30 amp electric fuses. The variable resistor 50 enables regulation of the direct current that is being supplied to the flux generator 12 at any given time. The variable resistor 50 is preferably implemented with any conventional variable resistor with a 50 amp, 120 volt capacity. As shown in FIGS. 1 and 2, each magnetic head 18, 20, 22, and 24 may be electrically connected to the power controller by a pair of wires 30 and 32. Preferably, each of the magnetic poles 18, 20, 22, and 24 that make up the head can be individually adjusted such that the symmetrical magnetic force is balanced between all the heads. Alternatively, each magnetic therapy head may be individually connected to one of four variable resistors in the control unit 34 so that the current supplied to each of the separate treatment heads can be adjusted individually.

Preferably, the electromagnetic coils 19 and 23 of the electromagnetic heads 18 and 22 and the electromagnetic coils 21 and 25 of the electromagnetic heads 20 and 24 are connected to a DC generator so that the heads 18 and 22 are connected to the head ( Produces a magnetic field opposite to the magnetic field produced by 20 and 24). As shown in FIG. 2, coils 19 and 23 are connected to a DC power source to generate a negative magnetic field, while coils 21 and 25 are inversely connected to a DC power source to generate a positive magnetic field. In an alternative embodiment of the invention, the electromagnetic coils 19, 21, 23 and 25 are connected to a DC power source, respectively, producing a positive magnetic field, a negative magnetic field or some combination thereof.

According to the present invention, the electromagnetic therapy device of the present invention is installed on a support structure adapted to align four electromagnets so that the electromagnets are rested so that the heads face each other such that the center axis of each electromagnet meets at the center opposite the opposite poles. Can be aligned to the head. This configuration increases the peak power of each pole and makes the slope steep. Increased peak power and increased slope slope both enhance the biological effect. 11 shows the means for supporting two heads and fixing them to each other. The two heads are flux generators. The flux generator 12 may preferably be driven by a power source (not shown) as described above. The flux generator 12 moves in the x, y, and z axes to obtain the appropriate peak magnetic flux and peak magnetic slope. The flux generator 12 can be moved manually or by a power driven actuating mechanism 54 to cause the flux generator 12 to be aligned in the desired position of the human or animal head and upper spine to which the flux is applied. . The magnetic flux field is created by each electromagnetic pole on magnetic flux generator 12 when the electromagnetic pole is excited. The magnetic flux field so produced by the electromagnetic head extends laterally from the plane so that the magnetic flux impinges on the head and / or the upper cervical spine or other area of the body located between the two magnetic flux generators 12. Flexible placement allows the best use of pharmaceutical effects.

The support means 56 allow both the left and right parts to roll forward and can be locked together by lock bars 52 and 53. The lock bar 53 is at the bottom of the bed. The support means 56 comprise a DC power supply 14 and provide support for the four pole flux generator 12. The support means 56 also comprises a control meter 58, a pole selector 60 and a voltage regulator (DC) 61. A lead counter weight 62 is responsible for balancing the flux generator 12. The caster roller 63 provides the ability for the support means 56 to move to the side of the bed.

The patient is placed in a static quadrupole field between two flux generators 12.

The electromagnetic therapy device of the present invention is advantageously applied to the body and head of experimental animals and humans to increase the therapeutic effect of the medicament.

In a preferred embodiment, an electromagnetic therapy device suitable for being placed against the body of a living animal is: a stimulus is arranged to form four vertices of quadrilateral and each stimulus exerts magnetic force on the remaining three stimuli when the stimulus is electrically charged. A plurality of electromagnetic bodies having at least four magnetic poles substantially in a single plane; Containment of the ferroconductor magnetic flux return ring clamped at the end of the pole away from the animal or human with ferromagnetic focusing ring comprising a ferromagnetic metal ring and an electromagnet of the same polarity attached to the focusing ring adjacent to the quadrilateral four poles ; Containment means for retaining magnetic poles of the magnetic body in the arrangement; And power means for magnetically exciting the electromagnetic body; Each of the excited electromagnetic bodies generates a magnetic flux field, and in addition, generates a magnetic flux field with a steep three-dimensional slope when the four magnetic poles are excited together, and further includes a magnetic flux generator head.

Additional embodiments include the electromagnetic treatment device described above, in addition to which the two flux generator heads are supported by the support means such that the plane faces the poles of each face in the attraction mode when the two flux heads are excited. do.

Moreover, the four magnetic poles of each magnetic flux generator of the electromagnetic therapy device may include two anodes forming quadrilateral opposite diagonal vertices and two cathodes forming opposite diagonal vertices, each of which is oppositely charged and Magnetically repulsed by a pole of the same polarity. The magnetic flux return ring can be attached to the bottom of the four electromagnetic heads described above, which strengthen the magnetic flux field and suppress unwanted stray electrical flux from the opposite pole. The flux focusing ring may additionally be disposed around the flux head. The attachment device keeps the focusing ring in place for maximum effect. The focusing coil is attached to the flux focusing ring. These focusing coils are attached to the magnetic flux focusing ring at 45 to 90 degrees relative to the long axis of the primary magnetic pole adjacent to the magnetic flux head having the same charge. In this position, the flux focusing coil together with the focusing ring creates a steeper slope and increases the effective field strength.

In addition, the flux return ring and the flux focusing ring can be grounded to reduce the variables added to the stray induced current and the therapeutic magnetic field.

In addition, four electromagnetic poles with a flux return ring, a focusing ring and a focusing coil may be referred to as a "Therapeutic Head".

In another embodiment of the present invention, the plurality of electromagnetic bodies of the electromagnetic treatment device comprise four electromagnets that are substantially identical, two of the electromagnets having both magnetic poles substantially in a single plane, and two of the electromagnets substantially With a negative stimulus in a single plane, each of the four electromagnets produces a magnetic field when excited by power means.

In addition, the four electromagnets of the electromagnetic treatment device may include a cast iron core wound with an electrically conductive wire, which may be a copper wire or an aluminum wire.

In addition, the quadrilateral shape of the electromagnetic treatment device may be a parallelogram shape, or in particular a rectangle or a square.

In yet another embodiment of the present invention, the power means of the electromagnetic treatment device may comprise a direct current generator, which may be electrically connected to each of the four electromagnets of the single magnetic flux generator head in conjunction with the focusing magnet. In addition, the power control means can be adjusted to control the amount of power supplied to each of the four electromagnetic bodies to regulate the magnetic field generated by each of the four electromagnets of both flux generator heads.

In addition, the containment means of the electromagnetic therapy device is installed on a support structure adapted to align the four electromagnets of the flux generator head in the same position as the second flux generator head so that the two heads face in parallel positions. In addition, the support structure may further comprise a cabinet for supporting each flux generator head, the support structure being mounted on a coaster for easy movement, and two flux generator heads mounted on a bed or table. With means to secure them together, the bed is provided to support the body of a living animal with the head and neck area disposed between the two flux generator heads, each of which has four electromagnets of the flux generator head. The magnetic flux field generated by the magnetic field is 50 to 500 milli Tesla energy and a sharp three-dimensional field slope that can be manipulated by a magnetic flux return ring, a magnetic flux focusing ring on the focusing head when the electromagnets are excited by the power means. Exposed to

In addition, another embodiment of the present invention is a method of placing an electromagnetic therapeutic head for treatment in proximity to the head, cervical spine and other body parts to increase the effectiveness of the medicament, wherein at least each group is substantially in a single plane. Assembling at least two or more groups of electromagnetic bodies, having two positive magnetic poles and at least two negative magnetic poles in a substantially single plane, with a magnetic flux return ring, a magnetic flux focusing ring and a focusing magnet; Place two positive and two negative stimuli of multiple magnetic bodies on a single plane to form four rectangular vertices, the two positive stimuli form opposite diagonal vertices, and the two negative stimuli are rectangular Arranging to form opposite vertices of; Securing the placement of the plurality of magnetic bodies within a single containment body; Selectively placing the containment body in a position facing the second containment body such that a four pole steep slope field penetrates the body of the animal; And energizing the magnetic bodies with power, causing each magnetic body to generate a magnetic flux field.

Yet another embodiment of the present invention is directed to a method of placing an electromagnetic therapy device in a position proximate to an animal's body to increase the effectiveness of a medicament, wherein each electromagnetic body has a magnetic flux return ring, a magnetic flux focusing ring, and a focusing method. Assembling at least two groups of electromagnetic bodies having at least two positive magnetic poles in a substantially single plane with the magnet and having at least two negative magnetic poles in a substantially single plane; Two positive and two negative stimuli of multiple magnetic bodies on a single plane are arranged to form four rectangular vertices, so that the two positive stimuli form opposite diagonal vertices, and the two negative stimuli are rectangular Forming opposite vertices of; Securing the placement of the plurality of magnetic bodies within a single containment body; Selectively placing the containment body in a position relative to the animal body part to treat the animal to increase the effectiveness of the medicament; And exciting the magnetic body with DC power so that each magnetic body produces a magnetic flux field.

F. Magnetic therapy device for the treatment of stroke-for protection from cell death following hypoxia injury (SMS-S)

Preferred embodiments of the invention will be described, examples of which are illustrated in the accompanying drawings. Throughout the drawings, the same reference signs are used to denote the same elements.

One of two electromagnetic heads and circuits of the present invention is schematically illustrated in FIG. 1. The treatment device 10 includes a flux generator 12 and a power source 14. According to the invention, the flux generator 12 comprises a plurality of electromagnetic bodies having at least four magnetic poles substantially in a single plane, the magnetic poles being arranged to form four quadrants of quadrilateral. Preferably, the four stimuli comprise two positive and two negative stimuli, the two positive stimuli forming opposite diagonal vertices, and the two negative stimuli forming the opposite shape. Each stimulus is magnetically attracted to two oppositely charged stimuli and repulses magnetically by an equally charged stimulus. The containment means retain the magnetic poles of the magnetic body in the above-described configuration. Three important functional change components of the present technology are attached to the containment means. The magnetic flux return ring 16a is attached to the bottom of the four electromagnetic heads described above, which strengthens the magnetic flux field and suppresses stray flux from unwanted counter poles. The magnetic flux focusing ring 16 is located around the magnetic flux head and is about 2.5 inches (6.35 cm) wide and 1/4 to 1/2 inch (6.35 mm to 12.7 mm) thick. The attachment means keeps the focusing ring in the proper position for maximum effect. The focusing coils 18a, 20a, 22a and 24a are attached to the magnetic flux focusing ring. These focusing coils are attached to the magnetic flux focusing ring at 45 to 90 degrees relative to the long axis of the primary magnetic pole, adjacent to the head with the same charge. In this position, the flux focusing coil together with the focusing ring creates a steeper slope and increases the effective field strength. The flux return ring and the flux focusing ring are grounded to reduce the variables added to the stray induced current and the therapeutic magnetic field.

As illustrated herein, the flux generator 12 comprises four substantially identical electromagnetic bodies on the containment means. The containment means may comprise a mounting board, a magnetic flux return ring 16a (made of ferroconductor), a casing or any other structure that holds the electromagnetic bodies 18, 20, 22 and 24 in the desired configuration. Magnetic flux focusing ring 16 is attached to the outer surface of coils 18, 20, 22 and 24; This focusing ring holds the focusing electromagnetic poles 18a, 20a, 22a and 24a. The structure must then be held in place for proper alignment of the pull field of the two heads of the invention as shown in FIG. In the preferred embodiment, the electromagnetic bodies 18 and 22 each form a negative stimulus, while the electromagnetic bodies 20 and 24 each form a positive stimulus. The positive and negative magnetic poles of the magnetic bodies 18, 20, 22 and 24 are substantially aligned within a single plane, are arranged in a quadrilateral shape, the positive magnetic poles are arranged diagonally opposite to each other, and the negative magnetic poles are Are arranged diagonally opposite to. Electromagnetic bodies 18, 20, 22 and 24 with magnetic flux return rings and focusing rings in conjunction with a focusing magnet comprise an electromagnetic head, as best shown in FIGS. 2, 3 and 9. Each electromagnetic head includes a conductive wire 26 wound around the cast iron core 28. Wire 26 may be made of any conductive material, for example copper or aluminum. For example, FIG. 3 has an outer diameter of 5 inches (12.7 cm), a central core 28 of 2 inches (5.08 cm), and a coil spacing 3200 times wound with # 22 copper wire 2 inches (5.08 cm). A suitable electromagnet is shown. As shown in FIGS. 2 and 3, the coils 19, 21, 23 and 25 of each electromagnetic head (shown in cut) 18, 20, 22 and 24 are connected to wires 30 and 32, respectively. Is connected to the power supply. The conductive wire 26 is wound around the porous cast iron core (or laminated steel) in a manner that concentrates the magnetic flux on the geometric center of the iron core. The current flow in the electrical conductor releases magnetic flux at right angles to the current flow. Thus, the magnetic flux is concentrated at the core. Therefore, it is preferable that the core is circular. 3 shows a cross section of the insulator 29 cut to show the wire coil 26.

According to the invention, power means for magnetically exciting the electromagnetic body are provided such that each of the excited electromagnetic bodies can produce a magnetic flux field. As embodied herein, the power supply 14 includes a control unit 34, a direct current generator 36 and an alternating current power supply 38. The direct current generator 36 is preferably a bridge rectifier and a series of filters. Preferably, AC power source 38 is a 120 volt AC power source. DC generator 36 is preferably capable of generating a 30 amp, 120 volt DC current. The control unit 34 includes an on-off power switch 40 for controlling the direct current (battery rating) to the flux generator 12. The control unit 34 also includes a voltmeter 42 and an ammeter 44 for monitoring the power and current supplied to the flux generator 12 by the direct current generator 36. Fuses 46 and 48 protect flux generator 12 against power surges. Fuses 46 and 48 may be, for example, 30 amp electric fuses. The variable resistor 50 enables regulation of the direct current that is being supplied to the flux generator 12 at any given time. Electromagnetic focusing magnets 18a, 20a, 22a, and 24a may be present on separate variable resistors to better balance the field. The variable resistor 50 is preferably implemented with any conventional variable resistor with a 50 amp, 120 volt capacity. As shown in FIGS. 1 and 2, each of the magnetic heads 18, 20, 22, and 24 may be electrically connected to the power controller 34 by a pair of wires 30 and 32. Preferably, each of the magnetic poles 18, 20, 22, and 24 that make up the head can be individually adjusted such that the symmetrical magnetic force is balanced between all the heads. Alternatively, each magnetic therapy head may be individually connected to one of four variable resistors in the control unit 34 so that the current supplied to each of the separate treatment heads can be adjusted individually.

Preferably, the electromagnetic coils 19 and 23 of the electromagnetic heads 18 and 22 and the electromagnetic coils 21 and 25 of the electromagnetic heads 20 and 24 are connected to a DC generator so that the heads 18 and 22 are connected to the head ( Produces a magnetic field opposite to the magnetic field produced by 20 and 24). As shown in FIG. 2, coils 19 and 23 are connected to a DC power source to generate a negative magnetic field, while coils 21 and 25 are inversely connected to a DC power source to generate a positive magnetic field. In an alternative embodiment of the invention, the electromagnetic coils 19, 21, 23 and 25 are connected to a DC power source, respectively, producing a positive magnetic field, a negative magnetic field or some combination thereof.

According to the present invention, the electromagnetic therapy device of the present invention is installed on a support structure adapted to align four electromagnets so that the electromagnets are rested so that the heads face each other such that the center axis of each electromagnet meets at the center opposite the opposite poles. Can be aligned to the head. This configuration increases the peak power of each pole and makes the slope steep. Increased peak power and increased slope slope both enhance the biological effect. 9 shows the means for supporting two heads and fixing them to each other. The two heads are flux generators. The flux generator 12 may preferably be driven by a power source (not shown) as described above. The flux generator 12 moves in the x, y, and z axes to obtain the appropriate peak magnetic flux and peak magnetic slope. The flux generator 12 may be manually or by means of a power driven actuating mechanism 54 to cause the flux generator 12 to be aligned at a desired position on the human or animal head or spine or other part of the body to which the flux is applied. Can be moved. The magnetic flux field is created by each electromagnetic pole on magnetic flux generator 12 when the electromagnetic pole is excited. The magnetic flux field so produced by the electromagnetic head extends laterally from the plane so that the magnetic flux impinges on the body and / or the area of the upper cervical spine or other part of the body located between the two magnetic flux generators 12.

The support means 56 allow both left and right parts to roll forward and can be locked together by the lock bars 52 and 53. The lock bar 53 is at the bottom of the bed. The support means 56 comprise a DC power supply 14 and provide support for the four pole flux generator 12. The support means 56 also includes a control meter 58, a pole selector 60 and a voltage regulator (DC) 61. The lead counter weight 62 is responsible for balancing the magnetic flux generator 12. The caster roller 63 provides the ability for the support means 56 to move to the side of the bed.

The patient is placed in a static quadrupole field between two flux generators 12.

The electromagnetic therapy device of the present invention has been advantageously applied to the head and body of laboratory animals to inhibit cell death from hypoxia and / or noxious excitatory neurotransmitters.

In a preferred embodiment, an electromagnetic therapy device suitable for being placed against the body of a living animal is: a stimulus is arranged to form four vertices of quadrilateral and each stimulus exerts magnetic force on the remaining three stimuli when the stimulus is electrically charged. A plurality of electromagnetic bodies having at least four magnetic poles substantially in a single plane; Containment of the ferroconductor magnetic flux return ring clamped at the end of the pole away from the animal or human with ferromagnetic focusing ring comprising a ferromagnetic metal ring and an electromagnet of the same polarity attached to the focusing ring adjacent to the quadrilateral four poles ; Containment means for retaining magnetic poles of the magnetic body in the arrangement; And power means for magnetically exciting the electromagnetic body; Each of the excited electromagnetic bodies generates a magnetic flux field, and in addition, generates a magnetic flux field with a steep three-dimensional slope when the four magnetic poles are excited together, and further includes a magnetic flux generator head.

Additional embodiments include the electromagnetic treatment device described above, in addition to which the two flux generator heads are supported by the support means such that the plane faces the poles of each face in the attraction mode when the two flux heads are excited. do.

Moreover, the four magnetic poles of each magnetic flux generator of the electromagnetic therapy device may include two anodes forming quadrilateral opposite diagonal vertices and two cathodes forming opposite diagonal vertices, each of which is oppositely charged and Magnetically repulsed by a pole of the same polarity. The magnetic flux return ring can be attached to the bottom of the four electromagnetic heads described above, which strengthen the magnetic flux field and suppress unwanted stray electrical flux from the opposite pole. The flux focusing ring may additionally be disposed around the flux head. The attachment device keeps the focusing ring in place for maximum effect. The focusing coil is attached to the flux focusing ring. These focusing coils are attached to the magnetic flux focusing ring at 45 to 90 degrees relative to the long axis of the primary magnetic pole adjacent to the magnetic flux head having the same charge. In this position, the flux focusing coil together with the focusing ring creates a steeper slope and increases the effective field strength.

In addition, the flux return ring and the flux focusing ring can be grounded to reduce the variables added to the stray induced current and the therapeutic magnetic field. In addition, the four electrodes together with the focusing return ring, the focusing ring and the focusing coil may be referred to as the "treatment head."

In another embodiment of the present invention, the plurality of electromagnetic bodies of the electromagnetic treatment device comprise four electromagnets that are substantially identical, two of the electromagnets having both magnetic poles substantially in a single plane, and two of the electromagnets substantially With a negative stimulus in a single plane, each of the four electromagnets produces a magnetic field when excited by power means.

In addition, the four electromagnets of the electromagnetic treatment device may comprise a cast iron core wound with an electrically conductive wire, which may in particular be a copper wire or an aluminum wire.

In addition, the quadrilateral shape of the electromagnetic treatment device may be a parallelogram shape, or in particular a rectangle or a square.

In yet another embodiment of the present invention, the power means of the electromagnetic treatment device may comprise a direct current generator, which may be electrically connected to each of the four electromagnets of the single magnetic flux generator head in conjunction with the focusing magnet. In addition, the power control means can be adjusted to control the amount of power supplied to each of the four electromagnetic bodies to regulate the magnetic field generated by each of the four electromagnets of both flux generator heads.

In addition, the containment means of the electromagnetic therapy device is installed on a support structure adapted to align the four electromagnets of the flux generator head in the same position as the second flux generator head so that the two heads face in parallel positions. In addition, the support structure may further comprise a cabinet for supporting each flux generator head, the support structure being mounted on a coaster for easy movement, and two flux generator heads mounted on a bed or table. With means to secure them together, the bed is provided to support the body of a living animal with the head and neck area disposed between the two flux generator heads, each of which has four electromagnets of the flux generator head. The magnetic flux field generated by the magnetic field is 50 to 500 milli Tesla energy and a sharp three-dimensional field slope that can be manipulated by a magnetic flux return ring, a magnetic flux focusing ring on the focusing head when the electromagnets are excited by the power means. Exposed to

Another embodiment of the present invention is directed to a method for therapeutically placing an electromagnetic therapy head near the head and cervical spine or other body regions to suppress cell death from stroke and other hypoxic diseases, the method returning flux Together with the ring, the magnetic flux focusing ring and the focusing magnet, each group has at least two positive magnetic poles in substantially a single plane and at least two or more groups of electromagnetic bodies having at least two negative magnetic poles in a substantially single plane. Assembling; Two positive and two negative stimuli of multiple magnetic bodies on a single plane are arranged to form four rectangular vertices, so that the two positive stimuli form opposite diagonal vertices, and the two negative stimuli are rectangular Forming opposite vertices of; Securing the placement of the plurality of magnetic bodies within a single containment body; Selectively placing the containment body at a location opposite the second containment body such that the 4-pole steep slope field penetrates the body of the animal; And exciting the magnetic body with power, causing each magnetic body to generate a magnetic flux field.

A further embodiment of the present invention is directed to a method for therapeutically placing an electromagnetic therapy device near the head and neck of an animal to suppress cell death from stroke and other hypoxic diseases of the nervous system, the method comprising: a flux return ring At least two or more, with magnetic flux focusing rings and focusing electromagnets attached to the focusing ring, each group having at least two positive magnetic poles substantially in a single plane and at least two negative magnetic poles substantially in a single plane Assembling the electromagnetic bodies of the group; Two positive and two negative stimuli of multiple magnetic bodies on a single plane are arranged to form four rectangular vertices, so that the two positive stimuli form opposite diagonal vertices, and the two negative stimuli are rectangular Forming opposite vertices of; Securing the placement of the plurality of magnetic bodies within a single containment body; Selectively placing the containment bodies in position relative to the head and neck to treat neural tissue and to prevent cell death secondary to stroke or other hypoxic diseases; And exciting the magnetic body with DC power so that each magnetic body produces a magnetic flux field.

G. Magnetic therapy apparatus of the present invention to increase the healing of chronic non-oil wounds to speed up healing and to suppress edema and pain following surgical procedures.

Embodiments illustrated in the accompanying drawings, preferred embodiments of the present invention will be described in detail by reference. Throughout the drawings, like reference numerals are used to indicate like elements.

One of two electromagnetic heads and circuits of the present invention is schematically illustrated in FIG. 1. The treatment device 10 includes a flux generator 12 and a power source 14. According to the invention, the flux generator 12 comprises a plurality of electromagnetic bodies having at least four magnetic poles substantially in a single plane, the magnetic poles being arranged to form four quadrants of quadrilateral. Preferably, the four stimuli comprise two positive and two negative stimuli, the two positive stimuli forming opposite diagonal vertices, and the two negative stimuli forming the opposite shape. Each stimulus is magnetically attracted to two oppositely charged stimuli and repulses magnetically by an equally charged stimulus. The containment means retain the magnetic poles of the magnetic body in the above-described configuration. Three important functional change components of the present technology are attached to the containment means. The magnetic flux return ring 16a is attached to the bottom of the four electromagnetic heads described above, which strengthens the magnetic flux field and suppresses stray flux from unwanted counter poles. The magnetic flux focusing ring 16 is located around the magnetic flux head and is about 2.5 inches (6.35 cm) wide and 1/4 to 1/2 inch (6.35 mm to 12.7 mm) thick. The attachment means keeps the focusing ring in the proper position for maximum effect. The focusing coils 18a, 20a, 22a and 24a are attached to the magnetic flux focusing ring. These focusing coils are attached to the magnetic flux focusing ring at 45 to 90 degrees relative to the long axis of the primary magnetic pole, adjacent to the head with the same charge. In this position, the flux focusing coil together with the focusing ring creates a steeper slope and increases the effective field strength. The flux return ring and the flux focusing ring are grounded to reduce the variables added to the stray induced current and the therapeutic magnetic field.

As illustrated herein, the flux generator 12 comprises four substantially identical electromagnetic bodies on the containment means. The containment means may comprise a mounting board, a magnetic flux return ring 16a (made of ferroconductor), a casing or any other structure that holds the electromagnetic bodies 18, 20, 22 and 24 in the desired configuration. Magnetic flux focusing ring 16 is attached to the outer surface of coils 18, 20, 22 and 24; This focusing ring holds the focusing electromagnetic poles 18a, 20a, 22a and 24a. The structure must then be held in place for proper alignment of the pull field of the two heads of the invention as shown in FIG. In the preferred embodiment, the electromagnetic bodies 18 and 22 each form a negative stimulus, while the electromagnetic bodies 20 and 24 each form a positive stimulus. The positive and negative magnetic poles of the magnetic bodies 18, 20, 22 and 24 are substantially aligned within a single plane, are arranged in a quadrilateral shape, the positive magnetic poles are arranged diagonally opposite to each other, and the negative magnetic poles are Are arranged diagonally opposite to. Electromagnetic bodies 18, 20, 22 and 24 with a magnetic flux return ring and a focusing ring in conjunction with the focusing magnet comprise an electromagnetic head, as best shown in FIGS. Each electromagnetic head includes a conductive wire 26 wound around the cast iron core 28. Wire 26 may be made of any conductive material, for example copper or aluminum. For example, FIG. 3 has an outer diameter of 5 inches (12.7 cm), a central core 28 of 2 inches (5.08 cm), and a coil spacing 3200 times wound with # 22 copper wire 2 inches (5.08 cm). A suitable electromagnet is shown. As shown in FIGS. 2 and 3, the coils 19, 21, 23 and 25 of each electromagnetic head (shown in cut) 18, 20, 22 and 24 are connected to wires 30 and 32, respectively. Is connected to the power supply. The conductive wire 26 is wound around the porous cast iron core (or laminated steel) in a manner that concentrates the magnetic flux on the geometric center of the iron core. The current flow in the electrical conductor releases magnetic flux at right angles to the current flow. Thus, the magnetic flux is concentrated at the core. Therefore, it is preferable that the core is circular. 3 shows a cross section of the insulator 29 cut to show the wire coil 26.

According to the invention, power means for magnetically exciting the electromagnetic body are provided such that each of the excited electromagnetic bodies can produce a magnetic flux field. As embodied herein, the power supply 14 includes a control unit 34, a direct current generator 36 and an alternating current power supply 38. The direct current generator 36 is preferably a bridge rectifier and a series of filters. Preferably, AC power source 38 is a 120 volt AC power source. DC generator 36 is preferably capable of generating a 30 amp, 120 volt DC current. The control unit 34 includes an on-off power switch 40 for controlling the direct current (battery rating) to the flux generator 12. The control unit 34 also includes a voltmeter 42 and an ammeter 44 for monitoring the power and current supplied to the flux generator 12 by the direct current generator 36. Fuses 46 and 48 protect flux generator 12 against power surges. Fuses 46 and 48 may be, for example, 30 amp electric fuses. The variable resistor 50 enables regulation of the direct current that is being supplied to the flux generator 12 at any given time. Electromagnetic focusing magnets 18a, 20a, 22a, and 24a may be present on separate variable resistors to better balance the field. The variable resistor 50 is preferably implemented with any conventional variable resistor with a 50 amp, 120 volt capacity. As shown in FIGS. 1 and 2, each of the magnetic heads 18, 20, 22, and 24 may be electrically connected to the power controller 34 by a pair of wires 30 and 32. Preferably, each of the magnetic poles 18, 20, 22, and 24 constituting the head is such that symmetrical magnetic forces are balanced between all the heads.

The lock can be adjusted individually. Alternatively, each magnetic therapy head may be individually connected to one of four variable resistors in the control unit 34 so that the current supplied to each of the separate treatment heads can be adjusted individually.

Preferably, the electromagnetic coils 19 and 23 of the electromagnetic heads 18 and 22 and the electromagnetic coils 21 and 25 of the electromagnetic heads 20 and 24 are connected to a DC generator so that the heads 18 and 22 are connected to the head ( Produces a magnetic field opposite to the magnetic field produced by 20 and 24). As shown in FIG. 2, coils 19 and 23 are connected to a DC power source to generate a negative magnetic field, while coils 21 and 25 are inversely connected to a DC power source to generate a positive magnetic field. In an alternative embodiment of the invention, the electromagnetic coils 19, 21, 23 and 25 are connected to a DC power source, respectively, producing a positive magnetic field, a negative magnetic field or some combination thereof.

According to the present invention, the electromagnetic therapy device of the present invention is installed on a support structure adapted to align four electromagnets so that the electromagnets are rested so that the heads face each other such that the center axis of each electromagnet meets at the center opposite the opposite poles. Can be aligned to the head. This configuration increases the peak power of each pole and makes the slope steep. Increased peak power and increased slope slope both enhance the biological effect. 11 shows the means for supporting two heads and fixing them to each other. The two heads are flux generators. The flux generator 12 may preferably be driven by a power source (not shown) as described above. The flux generator 12 moves in the x, y, and z axes to obtain the appropriate peak magnetic flux and peak magnetic slope. The flux generator 12 may be manually or by means of a power driven actuating mechanism 54 to cause the flux generator 12 to be aligned at a desired position on the human or animal head or spine or other part of the body to which the flux is applied. Can be moved. The magnetic flux field is created by each electromagnetic pole on magnetic flux generator 12 when the electromagnetic pole is excited. The magnetic flux field so produced by the electromagnetic head extends laterally from the plane so that the magnetic flux impinges on the body and / or the area of the upper cervical spine or other part of the body located between the two magnetic flux generators 12.

The support means 56 allow both left and right parts to roll forward and can be locked together by the lock bars 52 and 53. The lock bar 53 is at the bottom of the bed. The support means 56 comprise a DC power supply 14 and provide support for the four pole flux generator 12. The support means 56 also includes a control meter 58, a pole selector 60 and a voltage regulator (DC) 61. The lead counter weight 62 is responsible for balancing the magnetic flux generator 12. The caster roller 63 provides the ability for the support means 56 to move to the side of the bed.

The patient is placed in a static quadrupole field between two flux generators 12. Alternatively, one head is used and manipulated so that the surgical treatment area or a poorly healed wound is properly treated by the two or one flux heads of the present invention.

In a preferred embodiment, an electromagnetic therapy device suitable for being placed against the body of a living animal is: a stimulus is arranged to form four vertices of quadrilateral and each stimulus exerts magnetic force on the remaining three stimuli when the stimulus is electrically charged. A plurality of electromagnetic bodies having at least four magnetic poles substantially in a single plane; Containment of the ferroconductor magnetic flux return ring clamped at the end of the pole away from the animal or human with ferromagnetic focusing ring comprising a ferromagnetic metal ring and an electromagnet of the same polarity attached to the focusing ring adjacent to the quadrilateral four poles ; Containment means for retaining magnetic poles of the magnetic body in the arrangement; And power means for magnetically exciting the electromagnetic body; Each of the excited electromagnetic bodies generates a magnetic flux field, and in addition, generates a magnetic flux field with a steep three-dimensional slope when the four magnetic poles are excited together, and further includes a magnetic flux generator head.

Additional embodiments include the electromagnetic treatment device described above, in addition to which the two flux generator heads are supported by the support means such that the plane faces the poles of each face in the attraction mode when the two flux heads are excited. do.

Moreover, the four magnetic poles of each magnetic flux generator of the electromagnetic therapy device may include two anodes forming quadrilateral opposite diagonal vertices and two cathodes forming opposite diagonal vertices, each of which is oppositely charged and Magnetically repulsed by a pole of the same polarity. The magnetic flux return ring can be attached to the bottom of the four electromagnetic heads described above, which strengthen the magnetic flux field and suppress unwanted stray electrical flux from the opposite pole. The flux focusing ring may additionally be disposed around the flux head. The attachment device keeps the focusing ring in place for maximum effect. The focusing coil is attached to the flux focusing ring. These focusing coils are attached to the magnetic flux focusing ring at 45 to 90 degrees relative to the long axis of the primary magnetic pole adjacent to the magnetic flux head having the same charge. In this position, the flux focusing coil together with the focusing ring creates a steeper slope and increases the effective field strength.

In addition, the flux return ring and the flux focusing ring can be grounded to reduce the variables added to the stray induced current and the therapeutic magnetic field. The four electrodes together with the focusing return ring, the focusing ring and the focusing coil may be referred to as the "treatment head".

In another embodiment of the present invention, the plurality of electromagnetic bodies of the electromagnetic treatment device include four electromagnet magnetic flux heads that are substantially identical, two of the electromagnets having both magnetic poles substantially in a single plane, and two of the electromagnets It has a sound stimulus that is substantially in a single plane, and each of the four electromagnets generates a magnetic field when excited by the power means.

The four electromagnets may also comprise a cast iron core each wound with an electrically conductive wire, which may in particular be a copper wire or an aluminum wire.

In addition, the quadrilateral shape of the electromagnetic treatment device may be in particular a parallelogram shape, a rectangle or a square.

The power means may comprise a direct current generator, which may be connected to the focusing magnet and electrically connected to each of the four electromagnets of the single magnetic flux generator head. In addition, the power control means can be adjusted to control the amount of power supplied to each of the four electromagnetic bodies to regulate the magnetic field generated by each of the four electromagnets of both flux generator heads.

In another embodiment of the invention, the containment means is installed on a support structure adapted to align the four electromagnets of the magnetic flux generator head in the same position as the second magnetic flux generator head so that the two heads face in parallel positions. . In addition, the support structure may further comprise a cabinet for supporting each magnetic flux generator head, wherein the support structure is mounted on the coaster for easy movement, and when the two magnetic flux generator heads are on a bed or table With means for fixing them together, a bed is provided to support the body of a living animal in which the body part to be treated is disposed between two flux generator heads, and the magnetic flux generated by each of the four electromagnets of each flux generator head The field exposes the human or animal head when energized by power means to 50-500 milliTesler energy and a sharp three-dimensional field slope that can be manipulated by a magnetic flux return ring, a magnetic flux focusing ring on the focusing head.

Yet another embodiment of the present invention is directed to a method of therapeutically placing an electromagnetic therapeutic head in proximity to a body part to be treated, the method comprising a flux return ring, a flux focusing ring and a focusing magnet. Assembling at least two groups of electromagnetic bodies, each group having at least two positive magnetic poles in a substantially single plane and having at least two negative magnetic poles in a substantially single plane; Two positive and two negative stimuli of multiple magnetic bodies on a single plane are arranged to form four rectangular vertices, so that the two positive stimuli form opposite diagonal vertices, and the two negative stimuli are rectangular Forming opposite vertices of; Securing the placement of the plurality of magnetic bodies within a single containment body; Selectively placing the containment body at a location opposite the second containment body such that the quadrupole steep slope field penetrates the body of the animal; And exciting the magnetic bodies with power, causing each magnetic body to generate a magnetic flux field.

Additionally, one embodiment of the present invention may include a method for placing an electromagnetic therapy device for treatment in proximity to an animal body to be treated, the method comprising attachment to a flux return ring, a flux focusing ring and a focusing ring. Together with the focused focusing electromagnets, each group of electromagnetic bodies assembles at least two groups of electromagnetic bodies having at least two positive magnetic poles in a substantially single plane and having at least two negative magnetic poles in a substantially single plane. Ringing; Two positive and two negative stimuli of multiple magnetic bodies on a single plane are arranged to form four rectangular vertices, so that the two positive stimuli form opposite diagonal vertices, and the two negative stimuli are rectangular Forming opposite vertices of; Securing the placement of the plurality of magnetic bodies within a single containment body; Selectively placing the containment bodies in position relative to the body part to treat pain and edema and to treat sensitive surgical site to promote healing; Wherein similar treatment is provided to the chronic non-oil wounds to cause healing, and energizing the magnetic bodies with DC power, causing each magnetic body to generate a magnetic flux field.

H. Self-Healing Apparatus of the Invention for Suppressing Pain and Sedimentation of Sickle Cells in Sickle Cell Disease (SMS-SC)

Hereinafter, the present invention will be described in detail with reference to preferred embodiments of the present invention. This embodiment is illustrated with reference to the accompanying drawings. Like numbers refer to like components throughout the drawings.

One of two electromagnetic heads and circuits of the present invention is schematically illustrated in FIG. 1. The treatment device 10 includes a flux generator 12 and a power source 14. According to the invention, the flux generator 12 comprises a plurality of electromagnetic bodies having at least four magnetic poles substantially in a single plane, the magnetic poles being arranged to form four quadrants of quadrilateral. Preferably, the four stimuli comprise two positive and two negative stimuli, the two positive stimuli forming opposite diagonal vertices, and the two negative stimuli forming the opposite shape. Each stimulus is magnetically attracted to two oppositely charged stimuli and repulses magnetically by an equally charged stimulus. The containment means retain the magnetic poles of the magnetic body in the above-described configuration. Three important functional change components of the present technology are attached to the containment means. The magnetic flux return ring 16a is attached to the bottom of the four electromagnetic heads described above, which strengthens the magnetic flux field and suppresses stray flux from unwanted counter poles. The magnetic flux focusing ring 16 is located around the magnetic flux head and is about 2.5 inches (6.35 cm) wide and 1/4 to 1/2 inch (6.35 mm to 12.7 mm) thick. The attachment means keeps the focusing ring in the proper position for maximum effect. The focusing coils 18a, 20a, 22a and 24a are attached to the magnetic flux focusing ring. These focusing coils are attached to the magnetic flux focusing ring at 45 to 90 degrees relative to the long axis of the primary magnetic pole, adjacent to the head with the same charge. In this position, the flux focusing coil together with the focusing ring creates a steeper slope and increases the effective field strength. The flux return ring and the flux focusing ring are grounded to reduce the variables added to the stray induced current and the therapeutic magnetic field.

As illustrated herein, the flux generator 12 comprises four substantially identical electromagnetic bodies on the containment means. The containment means may comprise a mounting board, a magnetic flux return ring 16a (made of ferroconductor), a casing or any other structure that holds the electromagnetic bodies 18, 20, 22 and 24 in the desired configuration. Magnetic flux focusing ring 16 is attached to the outer surface of coils 18, 20, 22 and 24; This focusing ring holds the focusing electromagnetic poles 18a, 20a, 22a and 24a. The structure must then be held in place for proper alignment of the pull field of the two heads of the invention as shown in FIG. In the preferred embodiment, the electromagnetic bodies 18 and 22 each form a negative stimulus, while the electromagnetic bodies 20 and 24 each form a positive stimulus. The positive and negative magnetic poles of the magnetic bodies 18, 20, 22 and 24 are substantially aligned within a single plane, are arranged in a quadrilateral shape, the positive magnetic poles are arranged diagonally opposite to each other, and the negative magnetic poles are Are arranged diagonally opposite to. Electromagnetic bodies 18, 20, 22 and 24 with a magnetic flux return ring and a focusing ring in conjunction with the focusing magnet comprise an electromagnetic head, as best shown in FIGS. Each electromagnetic head includes a conductive wire 26 wound around the cast iron core 28. Wire 26 may be made of any conductive material, for example copper or aluminum. For example, FIG. 3 has an outer diameter of 5 inches (12.7 cm), a central core 28 of 2 inches (5.08 cm), and a coil spacing 3200 times wound with # 22 copper wire 2 inches (5.08 cm). A suitable electromagnet is shown. As shown in FIGS. 2 and 3, the coils 19, 21, 23 and 25 of each electromagnetic head (shown in cut) 18, 20, 22 and 24 are connected to wires 30 and 32, respectively. Is connected to the power supply. The conductive wire 26 is wound around the porous cast iron core (or laminated steel) in a manner that concentrates the magnetic flux on the geometric center of the iron core. The current flow in the electrical conductor releases magnetic flux at right angles to the current flow. Thus, the magnetic flux is concentrated at the core. Therefore, it is preferable that the core is circular. 3 shows a cross section of the insulator 29 cut to show the wire coil 26.

According to the invention, power means for magnetically exciting the electromagnetic body are provided such that each of the excited electromagnetic bodies can produce a magnetic flux field. As embodied herein, the power supply 14 includes a control unit 34, a direct current generator 36 and an alternating current power supply 38. The direct current generator 36 is preferably a bridge rectifier and a series of filters. Preferably, AC power source 38 is a 120 volt AC power source. DC generator 36 is preferably capable of generating a 30 amp, 120 volt DC current. The control unit 34 includes an on-off power switch 40 for controlling the direct current (battery rating) to the flux generator 12. The control unit 34 also includes a voltmeter 42 and an ammeter 44 for monitoring the power and current supplied to the flux generator 12 by the direct current generator 36. Fuses 46 and 48 protect flux generator 12 against power surges. Fuses 46 and 48 may be, for example, 30 amp electric fuses. The variable resistor 50 enables regulation of the direct current that is being supplied to the flux generator 12 at any given time. Electromagnetic focusing magnets 18a, 20a, 22a, and 24a may be present on separate variable resistors to better balance the field. The variable resistor 50 is preferably implemented with any conventional variable resistor with a 50 amp, 120 volt capacity. As shown in FIGS. 1 and 2, each of the magnetic heads 18, 20, 22, and 24 may be electrically connected to the power controller 34 by a pair of wires 30 and 32. Preferably, each of the magnetic poles 18, 20, 22, and 24 constituting the head is such that symmetrical magnetic forces are balanced between all the heads.

The lock can be adjusted individually. Alternatively, each magnetic therapy head may be individually connected to one of four variable resistors in the control unit 34 so that the current supplied to each of the separate treatment heads can be adjusted individually.

Preferably, the electromagnetic coils 19 and 23 of the electromagnetic heads 18 and 22 and the electromagnetic coils 21 and 25 of the electromagnetic heads 20 and 24 are connected to a DC generator so that the heads 18 and 22 are connected to the head ( Produces a magnetic field opposite to the magnetic field produced by 20 and 24). As shown in FIG. 2, coils 19 and 23 are connected to a DC power source to generate a negative magnetic field, while coils 21 and 25 are inversely connected to a DC power source to generate a positive magnetic field. In an alternative embodiment of the invention, the electromagnetic coils 19, 21, 23 and 25 are connected to a DC power source, respectively, producing a positive magnetic field, a negative magnetic field or some combination thereof.

According to the present invention, the electromagnetic therapy device of the present invention is installed on a support structure adapted to align four electromagnets so that the electromagnets are rested so that the heads face each other such that the center axis of each electromagnet meets at the center opposite the opposite poles. Can be aligned to the head. This configuration increases the peak power of each pole and makes the slope steep. Increased peak power and increased slope slope both enhance the biological effect. 11 shows the means for supporting two heads and fixing them to each other. The two heads are flux generators. The flux generator 12 may preferably be driven by a power source (not shown) as described above. The flux generator 12 moves in the x, y, and z axes to obtain the appropriate peak magnetic flux and peak magnetic slope. The flux generator 12 may be manually or by means of a power driven actuating mechanism 54 to cause the flux generator 12 to be aligned at a desired position on the human or animal head or spine or other part of the body to which the flux is applied. Can be moved. The magnetic flux field is created by each electromagnetic pole on magnetic flux generator 12 when the electromagnetic pole is excited. The magnetic flux field so produced by the electromagnetic head extends laterally from the plane so that the magnetic flux impinges on the body and / or the area of the upper cervical spine or other part of the body located between the two magnetic flux generators 12. 6 shows the stages for sickle cell development associated with a wide area of the body.

Another embodiment of booze.

The support means 56 allow both left and right parts to roll forward and can be locked together by the lock bars 52 and 53. The lock bar 53 is at the bottom of the bed. The support means 56 comprise a DC power supply 14 and provide support for the four pole flux generator 12. The support means 56 also includes a control meter 58, a pole selector 60 and a voltage regulator (DC) 61. The lead counter weight 62 is responsible for balancing the magnetic flux generator 12. The caster roller 63 provides the ability for the support means 56 to move to the side of the bed.

The patient is placed in a static quadrupole field between two flux generators 12. Alternatively, one head is used and manipulated so that the surgical treatment area or a poorly healed wound is properly treated by the two or one flux heads of the present invention.

In a preferred embodiment, an electromagnetic therapy device suitable for being placed against the body of a living animal is: a stimulus is arranged to form four vertices of quadrilateral and each stimulus exerts magnetic force on the remaining three stimuli when the stimulus is electrically charged. A plurality of electromagnetic bodies having at least four magnetic poles substantially in a single plane; Containment of the ferroconductor magnetic flux return ring clamped at the end of the pole away from the animal or human with ferromagnetic focusing ring comprising a ferromagnetic metal ring and an electromagnet of the same polarity attached to the focusing ring adjacent to the quadrilateral four poles ; Containment means for retaining magnetic poles of the magnetic body in the arrangement; And power means for magnetically exciting the electromagnetic body; Each of the excited electromagnetic bodies generates a magnetic flux field, and in addition, generates a magnetic flux field with a steep three-dimensional slope when the four magnetic poles are excited together, and further includes a magnetic flux generator head.

Additional embodiments include the electromagnetic treatment device described above, in addition to which the two flux generator heads are supported by the support means such that the plane faces the poles of each face in the attraction mode when the two flux heads are excited. do.

In another embodiment of the invention, the four magnetic poles of each magnetic flux generator of the electromagnetic therapy device may comprise two anodes forming quadrilateral opposite diagonal vertices and two cathodes forming opposite diagonal vertices. Each stimulus is oppositely charged and magnetically repelled by the same polarized pole. The magnetic flux return ring can be attached to the bottom of the four electromagnetic heads described above, which strengthen the magnetic flux field and suppress unwanted stray electrical flux from the opposite pole. The flux focusing ring may additionally be disposed around the flux head. The attachment device keeps the focusing ring in place for maximum effect. The focusing coil is attached to the flux focusing ring. These focusing coils are attached to the magnetic flux focusing ring at 45 to 90 degrees relative to the long axis of the primary magnetic pole adjacent to the magnetic flux head having the same charge. In this position, the flux focusing coil together with the focusing ring creates a steeper slope and increases the effective field strength.

In addition, the flux return ring and the flux focusing ring can be grounded to reduce the variables added to the stray induced current and the therapeutic magnetic field. The four electrodes together with the focusing return ring, the focusing ring and the focusing coil may be referred to as the "treatment head".

In another embodiment of the present invention, the plurality of electromagnetic bodies of the electromagnetic treatment device include four electromagnet magnetic flux heads that are substantially identical, two of the electromagnets having both magnetic poles substantially in a single plane, and two of the electromagnets It has a sound stimulus that is substantially in a single plane, and each of the four electromagnets generates a magnetic field when excited by the power means.

The four electromagnets may also comprise a cast iron core each wound with an electrically conductive wire, which may in particular be a copper wire or an aluminum wire.

In addition, the quadrilateral shape of the electromagnetic treatment device may be in particular a parallelogram shape, a rectangle or a square.

The power means may comprise a direct current generator, which may be connected to the focusing magnet and electrically connected to each of the four electromagnets of the single magnetic flux generator head. The electromagnetic therapy apparatus may also include power control means for controlling the amount of power supplied to each of the four electromagnetic bodies to regulate the magnetic field generated by each of the four electromagnets of the two flux generator heads.

In addition, the containment means of the electromagnetic therapy device is installed on a support structure adapted to align the four electromagnets of the flux generator head in the same position as the second flux generator head so that the two heads face in parallel positions. In addition, the support structure may further comprise a cabinet for supporting each magnetic flux generator head, wherein the support structure is mounted on the coaster for easy movement, and when the two magnetic flux generator heads are on a bed or table With means for fixing them together, a bed is provided for supporting the body of a living animal whose head and neck are disposed between two magnetic flux generator heads, the magnetic flux generated by each of the four electromagnets of each magnetic flux generator head. The field exposes human or animal body parts to energies of 50 to 500 milli Tesla and a sharp three-dimensional field slope that can be manipulated by magnetic flux return rings, magnetic flux focusing rings on the focusing head when the electromagnets are excited by power means. Let's do it.

Another embodiment of the present invention is directed to a method for therapeutically placing an electromagnetic therapeutic head in proximity to a body part of an animal or human associated with sickle cell disease, the method comprising: a flux return ring, a flux Together with the focusing ring and the focusing magnet, each group assembles at least two or more groups of electromagnetic bodies having at least two positive magnetic poles substantially in a single plane and having at least two negative magnetic poles substantially in a single plane. step; Two positive and two negative stimuli of multiple magnetic bodies on a single plane are arranged to form four rectangular vertices, so that the two positive stimuli form opposite diagonal vertices, and the two negative stimuli are rectangular Forming opposite vertices of; Securing the placement of the plurality of magnetic bodies within a single containment body; Selectively placing the containment body at a location opposite the second containment body such that the quadrupole steep slope field penetrates the body of the animal; And exciting the magnetic bodies with power, causing each magnetic body to generate a magnetic flux field.

Additionally, one embodiment of the present invention may include a method for therapeutically placing an electromagnetic therapy device in close proximity to a human body having sickle cell disease with sickle cell disease, pain and sedimentation, the magnetic flux Along with the return ring, the magnetic flux focusing ring and the focusing electromagnets attached to the focusing ring, each electromagnetic body has at least two positive magnetic poles in a substantially single plane and at least two negative magnetic poles in a substantially single plane Assembling two or more groups of electromagnetic bodies; Two positive and two negative stimuli of multiple magnetic bodies on a single plane are arranged to form four rectangular vertices, so that the two positive stimuli form opposite diagonal vertices, and the two negative stimuli are rectangular Forming opposite vertices of; Securing the placement of the plurality of magnetic bodies within a single containment body; Selectively placing the containment bodies in position with respect to the body part to be treated to abruptly block sickle cells and sediments and to suppress the pain of sickle cell development; And exciting the magnetic bodies with DC power so that each magnetic body produces a magnetic flux field.

Since many modifications and variations have been made within the scope of the inventive concept described herein, and because many modifications may be made in the embodiments set forth herein in detail in accordance with the scope of the legal description, the detailed description is not intended to be illustrative and not restrictive. It is understood.

Claims (14)

An electromagnetic therapy device adapted to interact with the body of a living organism, A plurality of electromagnetic bodies comprising a plurality of magnetic poles substantially in a single plane and arranged to form four quadrilaterals of quadrilateral-each of said magnetic poles exerting a magnetic force on the other numerous magnetic poles when said magnetic poles are electrically charged; Crazy-; A ferroconductor flux return ring fixed to at least one of the stimuli; A ferromagnetic focusing ring comprising a ferroconductor metal ring and an electromagnet, said electromagnet having the same polarity as the pole attached to the ferromagnetic focusing ring in close proximity to the four poles of the quadrilateral; Containment means for maintaining said magnetic poles of said electromagnetic bodies in such an arrangement; And A power source for magnetically exciting the electromagnetic bodies, each of the excited electromagnetic bodies creating a magnetic flux field; Including, The four stimuli produce a magnetic flux field with a steep three-dimensional gradient when excited together; And The ferroconductor flux return ring increases strength and radiation without altering the concentrated charge and symmetry of the three-dimensional steep slope gradient flux field. The method of claim 1, The four poles comprise two anodes and two cathodes, the two anodes form opposite diagonal vertices, the two cathodes form a quadrangular opposite diagonal vertex, and each of the magnetic poles are reversed. An electromagnetic therapy device, magnetically attracted by two charged stimuli and magnetically repulsed by equally charged stimuli. The method of claim 1, The plurality of electromagnetic bodies comprise four substantially identical electromagnets, two of the electromagnets having a quantum pole in the substantially single plane, and two of the electromagnets being negative in the substantially single plane And wherein each of the four electromagnets generate a magnetic field when excited by the power source. The method of claim 3, wherein Each of the four electromagnets comprises a cast iron core wound with an electrically conductive wire. The method of claim 4, wherein And the electrically conductive wire comprises a wire selected from the group consisting of copper wire and aluminum wire. The method of claim 3, wherein Wherein the shape of the quadrangle is selected from the group consisting of parallelograms, rectangles and squares. The method of claim 1, The power source includes a direct current generator and is electrically connected to each of the four electromagnets. The method of claim 1, Further comprising power control means for controlling the amount of power supplied to each of the four electromagnets to adjust the magnetic flux field generated by each of the four electromagnets. The method of claim 1, And the containment means is installed on a support structure adapted to align the four electromagnets with respect to the body of a living animal. The method of claim 9, The support structure comprises an elongated flat table having a first flat surface, wherein the first flat surface of the table is suitable for supporting the body of a living animal in which the four electromagnets are disposed, and the containment means is alive. The magnetic field is movably attached to the planar table for movable alignment with selected portions of the animal body, the magnetic flux field generated by each of the four electromagnets when the four electromagnets are excited by the power source. Extending above the first flat surface. The method of claim 10, And the planar table comprises a second flat surface opposite the first flat surface and a cavity in which the containment means is movably mounted on the second flat surface. The method of claim 9, The support structure includes a chair having a substantially horizontal seating surface and a substantially vertical backing surface, wherein the seating surface and the backing surface are suitable for supporting the body of a living animal in which the four electromagnets are disposed, A containment means is movably attached to the chair for movable alignment with selected portions of a living animal body, the magnetic flux field generated by each of the four electromagnets being substantially effective when the electromagnets are excited by the power source. Extending from the vertical back surface. The method of claim 12, The chair has a cavity extending vertically behind the vertical back and the containment means is installed for vertical movement within the cavity. The method of claim 1, And electromagnetically driven means for moving the containment means vertically and horizontally within the vertically extending cavity.