RU2146122C1 - Applicator - Google Patents

Abstract

FIELD: prophylactic, stimulating and curative massage. SUBSTANCE: applicator has monolithic base 1 of conducting homogeneous corrosion-resistant material with needle-shaped members 2 stamped on its body. These members are made as trapezia, upper base of which is at least 0.6 mm long. Needle-shaped members are positioned in rows with space of 5 mm between them and rows. They are bent at right angle to longitudinal axis of base 1. Even and odd rows of needle-shaped members 2 are shifted relative to one another by value equal to half the space. Galvanopairs are formed due to contact of needle-shaped members 2 with patient's skin and because of different reduction-oxidation potentials of biologically active points. Applicator stimulates biologically active points and reflexogenic zones and renders soft magnetic effect. EFFECT: effective mechanical and puncturing massage. 5 cl, 1 dwg, 1 tbl

Description

 The invention relates to medical equipment, in particular to massage devices, and can be used for prophylactic, stimulating, therapeutic massage of reflex points on the body surface and self-massage.

 Known auxiliary device for medical treatment and stimulation of the human body (see Pat. Switzerland N 683822, A 61 H 11/00, 7/00, publ. 05/31/94), containing the main body in the form of a mat of pliable material, which on both The sides have numerous protruding profiles for non-invasive application of pressure on the skin of the patient.

The disadvantages of this device are:
- the complexity of manufacturing;
- provides only the same type of impact - mechanical;
- protruding profiles are located at a considerable distance from each other and create a low concentration of piercing effects of individual elements per unit area of the skin surface, which does not allow the use of the mentioned device in the treatment of a number of diseases, but use as an auxiliary;
- not intended for treatment with magnetic and electrochemical effects.

The well-known "Putilin applicators" (see Pat. RF N 2045946, A 61 H 11/00, 39/04, publ. 10/20/95 and Pat. RF N 2034526, A 61 H 11/00, publ. 05/10/95) containing bases with needle-shaped elements fixed to them in the first source, which are made in the form of rods with one or two bevels to the vertical, each with 15-85 ^o each and directed to the base of the rod with the formation of one or two outer ribs on the contact surface, the rod in cross section is a circle with a diameter of 0.2-5.0 mm or a polygon inscribed in a circle with a diameter rum 0.2-5.0 mm.

 The disadvantages of the applicator include, firstly, the manufacture of needle-shaped elements from a metal wire or pipe, which is fraught with the fact that, in contact with the patient’s skin and during sterilization of the device, corroded areas on the needle-like elements may appear, which makes the further use of the applicator impossible. Applying an anti-corrosion coating on the needle-shaped elements creates additional complexity in the manufacture of the applicator. Secondly, the applicator does not provide an enhanced physiological effect on biologically active points, since the needle-shaped elements are made of either one type of metal or plastic: there is no galvanic pair and there is no corresponding electrochemical effect of the needle-shaped elements on the reflexogenic zones of the human body. Thirdly, the applicator does not have a therapeutic magnetic effect on the patient. Fourthly, in the applicator, the height of the needle-shaped elements is 11 mm, and the distance between them is 8 mm. The location of the needles on the base in increments of more than 5 mm can cause skin damage, as well as needle-shaped elements that are too high (11 mm).

The second applicator contains, along with the needle-shaped elements fixed on the base, also rod elements with a density of their arrangement of 0.1-36 elements per 1 cm ² , while the density of the needle-shaped elements is 0.1-36 elements per 1 cm ² , and the total the density of the elements is equal to or greater than 1 element per 1 cm ² and the height of the core element is 0.2-2 height of the needle-shaped element. In the applicator, several options for the combination of needle-shaped and rod elements are possible. The base can be common to all elements, or can be made in the form of interconnected modules with the same or different area.

The disadvantages of the applicator are the same as in the first applicator:
- the possibility of the appearance of corroded areas on the needle and rod elements made of metal wire, in contact with the skin of the patient;
- the impossibility of providing electrochemical effects with needle and rod elements;
- the impossibility of providing therapeutic magnetic effects on the patient;
- difficulty in sterilizing the device when the base, rod and needle-shaped elements are made of different materials (for example, metal and plastic).

 A known applicator for surface-reflex therapy containing a flexible dielectric plate with metal needles fixed on it, with a pitch of 5 mm, made in the form of U-shaped staples, the transverse base of which is pressed into the plate (see Pat. Republic of Belarus N 1256, cl. A 61 H 11/00, A 61 H 39/04, publ. 16.09.96).

 But the mentioned applicator also has drawbacks. Firstly, although the U-shaped design of the needle makes it possible to obtain the potential difference between the ends of the needles, these redox processes occur in very close to each other skin areas and have very low potential differences, secondly, the applicator design does not provide magnetic effects on the reflex zones of the skin, thirdly, the manufacture of a plate from a polyethylene base, and stainless steel needles complicates the sterilization process of the applicator, and therefore does not provide the necessary hygiene and sterility.

 Closest to the proposed applicator by technical nature is the "Applicator (its options)" (see A. with the USSR N 1797889, option 2, class A 61 H 11/00, publ. 28.02.93), containing the base in the form of connected between them cells with needles, while the cells are made in the form of triangular elements, and the connections between them are made in the form of earrings, and the triangular elements with needles are made or coated with various metals, which form galvanic pairs in contact with the patient’s skin.

 The disadvantage of the applicator is, firstly, the implementation of its base from individual cells of a triangular shape, which are connected using earrings, with the possibility of the formation of a rug. This greatly complicates its manufacture. Secondly, at the base of the cell, the needles are stamped with different orientation of the punches in each third of the cell, which indicates different distances between the needles, and even significant ones, and the distance between the needles is more than 5 mm can cause pain and skin damage when using the applicator.

 Thirdly, the needles have a triangle shape, as can be seen in the drawing (see FIG. 4 of the prototype description), and exposure to sharp corners of the needles can also cause skin damage. Fourth, the authors do not indicate what metals an galvanic pair consists of, but in any case, if steel means simple steel, for example, ST 45 or ST U8, or some other, then when forming a galvanic pair with a second electrode, like this exactly indicated in the description, from nickel, chromium or silver, the natural process of corrosion of simple steel will increase in proportion to the magnitude of the current formed by the galvanic couple, while the product will spoil its decorative appearance with rust in a week.

 The corrosion process will very quickly lead to the formation of a thick layer of rust, which will very quickly lead to a loss in the operational properties of the product: the decorative look will change and the skin will get dirty.

 If by the term “steel” the authors mean any kind of stainless steel, for example 12X18H10T, but upon contact with nickel or chromium, the expected galvanic current will not work due to the presence on all the above metals of an oxide film with low electrical conductivity, which protects them from corrosion processes .

 When stainless steel comes into contact with silver, galvanic currents can be obtained only due to the anodic corrosion processes of stainless steel, which again can lead to its degradation and uncontrolled entry of nickel, chromium and iron salts into the patient’s tissue.

 The problem to which the invention is directed is to provide effective prevention of various diseases, as well as to ensure effective restoration of human health by pricking mechanical, soft magnetic and electrochemical effects on human skin due to the formation of galvanic skin current on the insoluble metal of the applicator.

 The technical result provided by the invention is achieved by the fact that in an applicator containing a metal base with stamped elements, which in contact with the skin form a galvanic pair, the needle elements are made in the form of trapezoid with unidirectional orientation of punches on a monolithic base of a uniformly conductive corrosion-resistant material placed in rows with a step of 5 mm in a row and between rows and bent at right angles to the longitudinal axis of the base, with even and odd rows of needle elements offset relative to each other by an amount equal to half a step, and the upper bases of the trapeziums have a length of at least 0.6 mm, in that, for example, stainless steel modified with silver, gold, platinum is selected as a conductive homogeneous corrosion-resistant material, and it has magnetic properties, as well as the fact that silver or silver plated with gold, for example, is selected as an electrically conductive homogeneous corrosion-resistant material, and that the electrically conductive corrosion-resistant material provides t on standing to separate applicators presence of current between the legs of at least 1 mA.

 The proposed applicator differs from the prototype by the connections between the elements: in the proposed applicator, needle elements are made on a monolithic base, in the prototype, the needle elements are made on triangular cells, which are connected to the mat with the help of earrings made of metal; the mutual arrangement of the needle elements: in the proposed device, the needle elements are made with unidirectional orientation of the punches on a monolithic base, placed in rows with a pitch of 5 mm in a row and between rows, and the even and odd rows of needle elements are offset relative to each other by an amount equal to half the step, and in the prototype, needle elements are placed in each of the three parts of a triangular-shaped cell symmetrically with respect to the bisectors: from the corners to the center of the triangular-shaped cell (as can be seen from Fig. 4 the description of the proto ipa), from which it is clear that the step between the needles will be unequal both in the row and between the rows, which can lead to injuries of the skin when working with the applicator; the form of the device; the proposed applicator is a monolithic device, the prototype is a mat assembled from triangular cells with the help of earrings; the form of the element: in the proposed device, the needle elements are made in the form of trapezoids, in the prototype device in the form of triangles; the parameters of the needle elements: in the proposed applicator, the upper bases of the trapezoid have a length of at least 0.6 mm, and the parameters of the needle elements are not indicated in the prototype; in the proposed device, the needle elements are placed with a pitch of 5 mm in the row and between the rows, and the even and odd rows are offset from each other by an amount equal to half the step, the above parameters are not indicated in the prototype; the material from which the device and the needle elements are made: the proposed applicator is made monolithic of a conductive homogeneous corrosion-resistant material, for example stainless steel, modified silver, gold or platinum, or, for example, silver or silver coated with gold, and the prototype can be made made of steel, chrome, nickel, silver, while the needle elements in the prototype are made of a material different from the base metal of the applicator, and the proposed applicator is also characterized in that stainless steel modified with silver, gold or platinum has magnetic properties, and a conductive homogeneous corrosion-resistant material such as stainless steel modified with silver, gold or platinum, as well as silver or silver coated with gold, provides when standing on separate applicators the presence of current between the legs of at least 1 μA.

 And when working with the proposed applicator and applicator prototype, contact with the patient’s skin occurs with the formation of a galvanic pair. However, in the proposed invention, the galvanic pair is formed due to different redox potentials of different biologically active points and the occurring redox processes on the insoluble electrode, for example stainless steel, modified with noble metals, which provide high conductivity to the protective oxide film always present on stainless steel, and to provide catalytic activity to a number of electrochemical reactions, for example, to the reaction during oxygen formation. In the case when the applicator is made, for example, of silver or silver coated with gold, internal currents will also pass through oxidation and reduction processes without an external energy source: due to the difference in electrochemical potentials.

 In the prototype, galvanic couples of various metals form a current upon contact with the patient’s skin due to the active anodic dissolution of one of the metals. Dissolved metal in the form of its salts penetrates the human skin and in doses that are not controlled by anyone, it can definitely lead not only to positive results, especially when it comes to salts of nickel and chromium, which are related to strong poisons.

 Making the base of the applicator monolithic greatly simplifies its design, and the use of a conductive homogeneous corrosion-resistant material as an applicator material, for example stainless steel, modified with silver, gold or platinum, allows you to save metal and reduce the cost of the product compared to the full-metal precious metal applicator metal. But in some cases, for the prevention of diseases and treatment of patients, it is necessary to use an applicator made of silver (preferably before falling asleep), which has bactericidal properties and provides a sedative effect, or silver coated with gold (preferably upon waking the patient), which provides a tonic effect.

 The implementation of the needle elements in the form of trapeziums with an upper base of at least 0.6 mm with unidirectional orientation of the punches, placing them in rows with a step equal to 5 mm in a row and between rows, allows you to create optimal physiotherapeutic effects on the patient's skin: uniform stretching of the skin and the upper layers of soft tissues with a pleasant tingling sensation, stimulates biologically active points and at the same time affects reflexogenic zones.

 The implementation of the upper base of the trapezoid - the contact surface with the skin of the patient - less than 0.6 mm, and the distance between the needle elements more than 5 mm is undesirable, because it can cause pain and injure the surface of the skin.

 The even and odd rows of needle elements are offset relative to each other by an amount equal to half the pitch. Such placement of the needle elements on the base gives the applicator stability due to their ordered arrangement and exerts at the same time uniform pressure on each square centimeter of the skin surface, both with short and long-term exposure to significant parts of the body.

 The needle elements are bent at right angles to the longitudinal axis of the base. The execution of the needle elements in this way, as well as the linear dimensions of the lower base of the trapezoid, ensure the strength of the needle elements during operation, gives rigidity and stability of the applicator to loads.

 An electrically conductive homogeneous corrosion-resistant material of which the applicator is made, for example stainless steel modified with one of the noble metals, provides high electrical conductivity to the surface oxide film, thereby reducing its ohmic resistance. Upon contact of the needle elements with the patient’s skin, a skin-galvanic current is generated due to different redox potentials of different biologically active points, without anode dissolution of the applicator material.

 The implementation of the applicator monolithic of a conductive homogeneous corrosion-resistant material, such as stainless steel, modified silver, gold or platinum, as well as, for example, silver or silver coated with gold, has the following advantages: simplified design compared to the prototype, the possibility of grounding the applicator for removal of static electricity, increasing the durability of operation, simplifying sterilization by performing the base and needle elements from the same material, in zmozhnost magnetizing the needle elements and the base of the applicator by performing it of a material such as stainless steel, modified with silver, gold or platinum, having magnetic properties appropriate to achieve magnetotherapeutic effect. The shape of the applicator is such that magnetotherapy in the case of manufacturing the applicator, for example, from stainless steel modified with precious metals, is combined with acupressure by acupuncture, that is, the applicator provides, firstly, mechanical and stabbing massage, and secondly, stimulation of BAP and reflexogenic zones thirdly, galvanotherapy with a skin-galvanic current generated by different redox processes of different points and parts of the body without anode dissolution of the applicator material, and provides a soft e magnetic effects, allowing the state to effectively repair and function of various human organs and systems.

 The drawing shows an applicator, a General view. The applicator contains a monolithic base 1 made of a homogeneous conductive corrosion-resistant material, for example stainless steel, modified with silver, gold or platinum, as well as, for example, silver or silver coated with gold, with needle elements 2 stamped on its body, made in trapezoidal shape, the upper base of which has a length of at least 0.6 mm. The needle elements 2 are arranged in rows with a step of 5 mm in the row “a” and between rows “b”, are bent at right angles to the longitudinal axis of the base 1, and the even and odd rows of needle elements are offset relative to each other by an amount equal to half the step a / 2. The base 1 and the needle elements 2 are magnetized (in the case of the applicator, for example, stainless steel, modified silver, gold or platinum).

 The applicator works as follows.

 First, choose a reflex exposure zone, taking into account the type of disease. The procedure can be performed lying or standing on the applicator at a comfort temperature for the client.

 In the sitting position, apply the applicator to the selected reflex zone and, pressing the applicator to the body, take a lying position. In this case, the applicator is located under the reflex zone, and reflex irritation occurs due to mechanical pressure of the patient's body weight on the applicator. During the procedure, you need to relax and not move. The position of the host procedure should be as convenient and comfortable as possible. The duration of the procedure, depending on its purpose (restorative, prophylactic or therapeutic) ranges from 5 to 35 minutes.

 The applicator can be applied locally, that is, directly to the site of a pathological process, for example, a pain syndrome, or to zones of skin integuments located directly above internal organs, joints, muscles.

 But it is most effective to use the applicator as a stitching mat, standing on it with your feet, thereby affecting the reflexogenic zones of the foot, due to mechanical pressure of body weight.

 Both while lying on the applicator, and while standing on it due to the contact of the needle elements with the skin, galvanic couples are formed due to different redox potentials of different BAPs (for example, if the applicator lies along the spine, then the redox potential of the BAT located on the left from the spine, it will be different from the redox potential of the BAP located to the right of the spine, or, if standing on the applicator, the redox potential of the BAP located on the left operator, is different from the redox potential BAT, located on the right foot.

 As a result, a current of redox processes is formed on the needle elements - insoluble electrodes, for example, stainless steel, the oxide film of which is modified with a noble metal (Ag, Au, Pt), which provides the oxide film with high electrical conductivity and catalytic activity to a number of electrochemical reactions , for example, to the oxygen reduction reaction, so necessary for many processes in the body to occur, for example, to prolong the life of cells and the nucleation of new ones. This ensures the effective restoration of the state and functions of various organs and systems of a person. The magnetic effect also has a therapeutic effect: the blood that has passed through the action of magnets has enhanced dissolution properties of salts and toxins, heats and relaxes tense muscles, and relieves fatigue and pain.

 The occurrence of a current of redox processes of a value of at least 1 μA on the needle elements of applicators made of electrically conductive homogeneous corrosion-resistant materials is easily proved by the following experiment: stand with each foot on a separate applicator and close the circuit with a microammeter located between the applicators. The microammeter shows the following currents (see table).

 Analogs in nature and medicine, confirming the above (the presence of a current between the legs of at least 1 μA), is warming up hands or feet in hot water, walking on dew with bare feet.

 Special processing of a conductive homogeneous corrosion-resistant material, such as stainless steel, - modification with silver, gold or platinum, as well as the manufacture of an applicator, for example, from silver or silver coated with gold, provides low overvoltage of cathodic and anodic redox processes of various biologically active points, which is the cause of the appearance of currents between the right and left legs. The generated currents normalize the energy state of the meridians of the human body and are an effective preventive measure against many diseases.

The applicator is made of sheet stainless steel 12X18H10T with a thickness of 0.5-0.6 mm. It has a rectangular base measuring 200 x 400 mm. The needle elements in the form of trapezoid stamped on the base of the applicator equal in height. The length of the needle elements corresponds to 4-5 mm. The step between them in a row and between rows corresponds to 5 mm. Even and odd rows when performing needle elements are offset relative to each other by half a step. The needle elements are bent at an angle of 90 ^o C to the longitudinal axis of the base. Completed in one piece of the applicator base and the needle elements provide the applicator with the necessary rigidity. The applicator has an unlimited service life and increased hygiene. Washing the applicator and sterilization according to OST 64-1-337-78 is not difficult, which facilitates its use in medical institutions.

 The proposed applicator was used in patients with vertebrogenic dorsalgia with moderate pain.

 The method of use consisted in daily morning massage of the feet (patients washed daily in the morning, standing on the applicator), as well as in affecting the pain zones (patients several times a day for 20-25 minutes lay on the applicator.

Of 50 patients after 10 days:
- in 32 patients (64%) the pain syndrome was completely stopped;
- in 12 patients (24%), the pain syndrome decreased significantly;
- in 4 patients (8%), the pain syndrome decreased slightly;
- in 2 patients (4%) the pain syndrome did not decrease.

 None of the patients showed an increase in pain.

 For half an hour of rest, lying on the applicator, strength and performance are restored. Fatigue, insomnia, back pain completely disappear, the blood flow rate, the rate of toxin removal and nutrient intake increase, all thanks to the mechanical, reflexogenic, electro-puncture effect of the skin-galvanic current, electrophoresis by skin-galvanic currents, if any medicinal substance or ointment.

 When standing on the applicator (except for the above advantages), moving the center of balance to the right, left, back and forth forms a posture, prevents scoliosis, develops the muscles of the foot, preventing scoliosis; due to a doubling of the surface of the skin (a complex relief appears), the rate of slag removal through the feet doubles. As a result: legs burn all day, all day they are warm and dry, which is a protection against colds. The metabolic processes are normalized, the acid-base balance and other equilibrium systems are restored, the immune status is increased, the whole body is rejuvenated.

Claims (5)

 1. The applicator containing the base of the metal with stamped needle elements, which in contact with the skin form a galvanic pair, characterized in that the needle elements are made in the form of trapezoid with unidirectional orientation of punches on a monolithic base of a conductive homogeneous corrosion-resistant material, placed in rows with 5 mm in a row and between rows and bent at right angles to the longitudinal axis of the base, and even and odd rows of needle elements are offset relative to each other by rank equal to half the pitch, and the upper base of the trapezoid have a length of at least 0.6 mm.  2. The applicator according to claim 1, characterized in that, for example, stainless steel modified with silver, gold or platinum is selected as an electrically conductive homogeneous corrosion-resistant material.  3. The applicator according to claim 2, characterized in that the stainless steel modified with silver, gold or platinum has magnetic properties.  4. The applicator according to claim 1, characterized in that, for example, silver or silver plated with gold is selected as an electrically conductive uniform corrosion-resistant material.  5. The applicator according to claim 1, characterized in that the electrically conductive homogeneous corrosion-resistant material provides, when standing on separate applicators, a current between legs of at least 1 μA.

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