RU2071368C1 - Electronic normalizer - Google Patents

Abstract

FIELD: medicine, self-contained electronic stimulators. SUBSTANCE: electronic normalizer comprises body 1, two electrodes 2 and 3, bushing 4, microprocessor 5, contact element 6, power supply source 7, and spring 8. EFFECT: electronic normalizer can be used for treatment of gastrointestinal tract, in gynecology for activating bioelectrical, motorial and secretory functions of genital organs and for cleaning duct systems, for activating of functions of pancreas and prostate glands, for altering psychophysiological and time and immune status, for prophylaxis and treatment of oncological diseases, etc. 4 cl, 10 dwg

Description

 The invention relates to medicine, namely to autonomous stimulants that can be used, for example, in the treatment of the gastrointestinal tract, in gynecology with the aim of activating the bioelectric, motor and secretory activities of organs, cleaning duct systems, activating the functioning of the pancreas and representative glands, and t .d.

A known stimulator of the gastrointestinal tract, in which, in order to ensure the possibility of introducing the treated drugs into the stimulation area, one of the electrodes is equipped with a fitting in the form of a hollow cylinder with holes on the side surface for connection with a drainage tube [1]
Its main disadvantage is the hose attached to the electric stimulator, which does not allow the electric stimulator to be inserted deep enough and excludes the possibility of the passage of the electric stimulator, for example, throughout the gastrointestinal tract.

A gastrointestinal electrical stimulator is also known, containing two electrodes, which are two electrical insulated parts of a drug capsule, in which a pulse shaper and a power source are located [2]
However, this electric stimulator has a number of design flaws that reduce the reliability of its operation. These include the impossibility of introducing deficient trace elements into the body that make up the capsule body, low reliability of a multi-element power source, and insufficient operational reliability of the device. In addition, the known stimulant does not contain controls and self-regulation, as a result of which it has a narrow scope.

 The aim of the invention is to develop the design of an electronic normalizer (EN), which ensures the uniform entry into the body of scarce trace elements, as well as with increased reliability of the design and high radiation efficiency of a low-intensity electromagnetic field of low frequency.

 This is achieved by an electronic normalizer (EL) containing electrodes, which are two isolated parts of the sealed capsule body, inside of which there is a signal driver and a power source, in which the electrodes are made of metallic or non-metallic conductive material with or without a microelement coating, the electrodes are insulated with a sleeve , the signal shaper is a microprocessor, an additional contact element is introduced, which is in contact with one of the poles of the power source ia, and the second pole of the source is pressed using a spring connected to one of the electrodes.

 In this case, the normalizer electrodes, which are the antenna vibrators, are made asymmetric with a ratio of their length 1: 0.75.

 In addition, one or both electrodes can be made in the form of a cone with a rounded top, the sides of which contain ridges.

 Ferrite cores may be introduced into the vertices of the normalizer electrodes.

 The processor of the electronic normalizer may further comprise a receiver-switch or timer, switching the processor to the mode of generating another output signal.

 The essence of the invention lies in the fact that in the proposed design of the electronic normalizer eliminated a number of disadvantages of previous designs.

 In particular, the design of the vibrating electrodes provides a uniform dosed input into the body of trace elements deficient for it, which make up the material or coating of the caps.

 The proposed design provides reliable contact of the poles of the power source, as well as the continuity and tightness of the capsule body by mechanical bonding.

 The signal conditioner is made in the form of a microprocessor, which provides protection of the electrodes from short circuits and breakdown by static electricity.

 The signal conditioner has a 2-3 times reduced value of the DC component of the current between the electrodes, which increases the reliability, shelf life and operation of the electronic normalizer, and in addition, the radiation efficiency of a low-intensity electromagnetic field of low frequency increases.

 The proposed EN provides a life of 150 hours due to the reduced level of the DC component of the current between the electrodes, which, taking into account the tightness of the product due to the increase in the reliability of the design compared to the design of the prototype, allows reusability of its use.

 When using EN, it is possible to increase the therapeutic efficacy of treating the gastrointestinal tract, adjacent organs and other hard-to-reach organs of a living organism, as well as effectively correct lipid and carbohydrate metabolism, adjust the content of neurohormones and the physiological and immune status of the body.

 In FIG. 1 shows the design of an electronic normalizer (EN); in FIG. 2 is one of the options for an electromagnet with an asymmetric shape of the electrodes; in FIG. 3 - construction of an electric heater, one of the electrodes of which is made in the form of a cone with a rounded top and with ridges; in FIG. 4 electronic normalizer with ferrite cores and with a receiver-switch or timer; in FIG. 5-10 waveforms designed to treat various diseases.

 The electronic normalizer consists of a capsule body 1, which is made in the form of two electrically isolated rounded caps made of conductive metallic non-metallic materials serving as electrodes 2 and 3. A microcoating of micronutrient deficient organisms that make up the material or coating can be applied to electrodes 2 and 3 caps, for example, copper, silver, gold, carbon, iron, zinc or a material that promotes the binding and removal of excess trace elements or organic compounds. The electrodes 2 and 3 are insulated by a sleeve 4, glued to them with an adhesive, for example, EO cyacrine, mechanically fixed (locked or crimped) and together with the sleeve form a single sealed and one-piece housing 1. Inside the housing 1 there is a microprocessor 5, encapsulated and glued glue to the insulating sleeve 4, which abuts the contact element 6, in contact with one of the poles of the power source 7, and the second pole of the power source is pressed for reliable contact by a spring 8, mounted on the electrode 3 of the spot laser arch or soldering.

 In FIG. 4, the electronic normalizer further comprises two ferrite cores 9, 10 and a receiver-switch 11.

 Example. The electronic normalizer works as follows: it is introduced into the body, depending on which organ is to be affected, by swallowing, either directly into the rectum, or into the intestinal lumen of the unnatural anus, or into the intestinal incision or into the vagina.

Consider the work of EN when it is introduced into the gastrointestinal tract. EN, after ingestion, enters an electrically conductive acid-base medium. There is a change in conductivity in the electrical circuit: positive pole
power supply 7 electrode 3 conductive medium electrode 2 - microprocessor 5 negative pole of the power source 7. The trigger is activated, the operating mode is turned on, microprocessor 5 starts to generate a series of signals that are applied to electrodes 2 and 3 in contact with the intestinal walls. Electric signals, acting on the intestinal wall, cause the appearance of a response in the form of a peristalsis wave, which promotes EN and the contents of the intestine in its distal sections, where another series of signals is also generated, and the process repeats.

 The microprocessor 5 is designed in such a way that in-circuit changes, compared with the shaper circuit in the prototype, protect the circuit from short circuit and breakdown by static electricity, and has a 2–3 times reduced level of the DC component between the electrodes to increase the reliability and service life of the electric motors .

 The microprocessor can generate signals of the most diverse form, the parameters of which are selected on the basis of the analysis of known methods and methods of treating various diseases with a pulsed modulated electric current and low-frequency electromagnetic field, taking into account the data of domestic and foreign literature, as well as the coincidence of stimulating pulses with the positive phase of their own quasistationary bioelectric oscillations various organs of the body.

 The normalizing pulses in FIG. 5 are intended for general stimulation of the body, detoxification of the intestine, improvement of lipid and carbohydrate metabolism, restoration of myelin sheaths of nerves, elimination of intestinal paresis and enhancement of peristalsis during atony, restoration of parietal digestion, correction of immunity, improvement of the psychological status of the body, cleaning of the duct systems of the pancreas and prostate glands and ureteral system, purification of the porous structures of the kidneys and liver, stimulation of sexual activity, prevention of cancer.

 The normalizing signals shown in FIG. 6, are intended to increase the body's resistance to tumors.

 The pulses in FIG. 7 are intended for the treatment of ureters, duct systems of the pancreas and prostate glands, destruction and removal of stones from the kidneys and ureters, stimulation of sexual activity; in FIG. 8 to clean the porous structures of the liver and kidneys from contaminants; in FIG. 9 for the treatment of thin duct systems; in FIG. 10 to activate vaginal secretory zones.

 To switch the microprocessor to the generation of a specific signal, the normalizer is equipped with a receiver switch, which is designed as a monoblock with a microprocessor.

 To obtain an irregular radiation pattern both in the plane parallel and perpendicular to the longitudinal axis of the device, one or both electrodes can be made in the form of a cone with a rounded apex, the sides of which are equipped with zigs, and to increase the radiation efficiency in the composition of the electrodes that are elements (vibrators) antennas introduced additional inductances in the form of ferrite cores, changing the effective length of the antenna.

 The presence of a spring fixed to the electrode cap by soldering or spot welding, a special contact element abutting the insulating sleeve, provide reliable contact of the poles of the power source.

 The design of the electrodes in the form of two caps of a rounded shape from conductive metal and nonmetallic materials, isolated from each other by an insulating sleeve, with the possibility of applying to the caps a coating of microelements that are deficient for the body and that make up the material or coating of the caps (for example, copper, silver or gold), allows to achieve atraumatic insertion of the device into the body and uniform entry of a trace element deficient for the body into the blood and tissues due to the electrochemical effect that arises of the flow of current between the electrodes through a conductive medium and an organism tissue, and allows for one-piece construction and integrity as the EN housing structure and bonding of the parts.

 Thus, the proposed EN has higher reliability, due to protection against short circuit and breakdown by static electricity of the electrodes and reduced by 2-3 times the value of the DC component of the current between the electrodes; provides reliable contact between the poles of the power source; provides one-piece and tightness of the case; allows you to increase the radiation efficiency of low-intensity electromagnetic field of low frequency.

 These improvements in EH can significantly improve the reliability and therapeutic effectiveness of treatment with an electronic normalizer.

Claims (5)

 1. An electronic normalizer containing electrodes, which are two isolated parts of a sealed capsule body, inside of which there is a signal driver and a power source, characterized in that the electrodes are made of metal or non-metallic conductive material with or without a microelement coating, the electrodes are insulated with a sleeve, the signal shaper is a microprocessor, a contact element is introduced in contact with one of the poles of the power source, and the other pole of the source The nick is pressed using a spring connected to one of the electrodes.  2. The normalizer according to claim 1, characterized in that the electrodes, which are the antenna vibrators, are made asymmetric with lengths in the ratio of 1 0.75.  3. The normalizer according to paragraphs. 1 and 2, characterized in that one or both of the electrodes are made in the form of a cone with a rounded top, the sides of which contain ridges.  4. The normalizer according to paragraphs. 1 to 3, characterized in that ferrite cores are additionally introduced at the tops of the electrodes.  5. The normalizer according to paragraphs. 1 to 4, characterized in that the receiver-switch or timer is additionally inserted inside the capsule.

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