UA61444U - applicator - Google Patents

Abstract

An applicator with a substrate and needles fixed it, each of them has a base with a pivot point and the head. And bases of needles are made of steel, copper, chromium, nickel or silver. Each needle also has a coating of chromium, nickel, copper or silver. The part of the needles is made from solid and/or is partially covered. In this case the partial covering of needle bases area near their sharp points are made of at least two materials with different electrochemical potentials and the bases and cover of needles are made of chemical elements.

Description

in the user's body, created between different materials - the coating layer is exposed from the end near the point of the blade of each of the individual needles, which excludes the needles; one or more layers of the coating are applied by the sputtering method of spatially complex heterogeneous elec. in turn, limits the effectiveness of the application and conditions Partial coverage of the base of the needle, with the creation of insufficient alignment of the affected pain zone, near the tip of the needle, that is, the contact zone of the electric field battle in the user's skin after the needle with the user's body, from two or more applications, and also causes insufficient intensifiers with different electrochemical potentials of the electrophoresis process. causes the occurrence in the body of the user of galvanic

The basis of a useful model is the problem of nocturnal currents between these materials (the main basis of which is the improvement of the applicator by performing ki and the coating play the role of electrodes, and at least part of the needles with solid and/or frequent- in the body of the user, in particular in the epidermis - tissue coatings, with the creation of partially electrolyte) that flow in planes, perpendicular coating near the tip of the needle zone, which is structural to the surface of the user’s skin, which is made of at least two materials with different safety along with mechanical also electrical action by electrochemical potentials, i.e. the contact zone of the needle on the corresponding area of the user's body, as well as where the needles are with the user's epidermis and the increase extends the possibilities of electrophoresis (microelements of the set of materials for the manufacture of the bases of the needles pass to the user's body both from the base and their coatings , ensures the creation of a needle in the epidermis, both from the coating and from the coatings) and enhances the spatially complex heterogeneous electric ich- its intensity. of the field of microcurrents between the needles and micro- The spread of a set of chemical elements of the expansion of the currents between the bases of individual needles and their coating the possibilities of electrophoresis, because it is possible to nts from a wider set of them, in addition, allow electrophoresis affected by the disease to evenly use for the base of the needle inexpensive, carrying the electric field of the user's skin, and such hard and durable materials, for example, steel, copper, the introduction into the body of a larger a set of brasses, etc., and for coating - soft, expensive and liquid - trace elements and intensification of the process of this dream materials, for example, tin, gold, silver introduction. etc., and this makes it possible to use

The task is solved by the fact that in the up-road and rare materials in a much smaller calculator, which contains a base and bones fixed in it, and also makes it possible to create a micro-needle, each of which has a base with a rod, given parameters at the expense of the needle and the head, and the base of the needles is a manufacturing combination of the materials of the bases and linen coatings made of steel, copper, chrome, nickel or silver, and the tips. they are covered with chromium, nickel, copper, or microcurrents between the bases of the needles and the silver coating, according to a useful model, we predict that they flow in planes that pass through the following structural differences: the longitudinal axes of the needles, and the microcurrents between the needles - in - at least , part of the needles is made of solid planes, perpendicular or inclined to them and/or partially coated; of the above-mentioned planes, which creates a spatial - with partial coverage of the bases of the needles, a complex heterogeneous electric field in the epidermis. near them wister are created from at least two The expansion of the set of chemical elements expands- materials with different electrochemical potentiates the possibilities of electrophoresis, because it is possible llamas; choose the necessary elements from a wider range of them - the bases and coverings of the needles are made from a chemical set, and also use the entire set in one of them elements selected from the group, which, in addition to the applicator, especially in the case of a partial multilayer, includes cobalt, aluminum, magnesium, zinc, tin, the coating of the bases of various needles with various materials - titanium, vanadium, beryllium, gold, platinum, palladium, lama, when strontium, tellurium, as well as their alloys and oxides come into contact with the user's epidermis. a large number of needle base materials and coatings

In addition, the needles in the applicator are arranged tats, and the use of a wide set of mate- so that adjacent needles are needles from rials makes it possible to set the parameters of elect- with different materials of their bases and coatings; the zone of the river field due to the necessary combination of the surface of the needle near the tip is made from the basis of the materials of the foundations and coatings of the needles. In addition, the needles and the coating that is applied to the base of the needle indicated microcurrents accelerate the transition of microe- except for its tip; the area of the needle surface near the tip of the elements to the user's body, which increases the intensity of electrophoresis. The heterogeneity of electrobio- only at the tip; the area of the surface of the needle near the tip of the chemical state of the epidermis during its interaction with different made of the base of the needle and several layers of the materials of individual needles, as well as parameters of digging from different materials, each of which is exposed from electrophoresis, great heterogeneity of the electrode near the tip of the needle; the area of the surface of the needle field determines the leveling as a result near the tip made of applied to the entire applica- broken by the disease uniformity of the electronic needle multilayer coating and application field of the user's skin. on top of it, a coating on the tip of the needle; in the part At the same time, the needles in the applicator can be ro- the surface of the needle, which is composed of applied to the whole arranged in such a way that with adjacent needles, the base of the needle of a multi-layer coating and applied needles with different materials of their bases and a coating on top of it on sharp needles, each one tingled.

This arrangement of the needles in the applicator creates Fig. 1 shows a diagram of a needle with a single-layer coating at different points of contact of the body with separate needles on the base, except for the tip, with a fragment of microcurrents, with different parameter values, and the applicator and the body in a cross section; contact of the body with different materials of individual needles, Fig. 2 and 3 - schemes of exposure from the coating of the tip that increases the heterogeneity of the electric field and the needle shown in Fig. 1; a set of microelements that pass from the bases of the needles Fig. 4 - the scheme of the emergence of galvanic micro- and layers of their coatings to the body, and also accelerates the microcurrent in the epidermis between the base and the coating of electrophoresis and strengthens alignment in the resul- needle shown in Fig. 1; tati reflexotherapy of disturbed homogeneity of electricity Fig. 5 - diagram of a needle with a coating only on the tip; tric field of the user's skin. Fig. b - a diagram of a needle with a coating on the tip of the needle

At the same time, the area of the surface of the needle on the side of the tip and the top of the tip exposed from the coating; can be created from the base of the needle and the coating, Fig. 7 - diagram of a needle with a two-layer coating on which can be applied to the base of the needle in addition to its base of the needle in addition to its tip; tip or tip only. Fig. 8 - diagram of a needle with a single-layer coating

This makes it possible to cover the potential difference between the base of the needle and the point on the point with the simplest method of obtaining the base and applying a layer on top of it; digging In addition, coating with precious stones, including rare materials (gold, the base and a layer of coating applied on top of it - silver, platinum, palladium, etc.), only on the tip or on the tip and with the exposure of both layers of needle coatings gives a great saving of these materials. the top of the point;

It is most expedient to create a surface area. all exposed from the end near the tip of the needle. layers of coatings;

The potential difference between each pair of adjacent Fig. 11 - the diagram of the applicator in the cross section of the coating layers and pairs of other layers, both sides; induces the emergence of a number of different galvanic Fig. 12 - scheme of the applicator, top view. of microcurrents at the point of contact of the needle with the epidermis, the Applicator contains a needle 1 (Fig. 1), which consists of a heterogeneous electric field, which, firstly, comes from the rod 2, tip 3, at one end and enhances the electric action of the needle on the epidermis, and layers 4 - on the other. The needle 1 is fixed in the base 5, secondly, it ensures the transition of microelements to the body from the applicator with the protrusion of its part with a point from all layers of the coating, and this transition is enhanced above the surface 6 of the base 5. Zone 7 near the point is galvanic microcurrents. This is maximally 3, i.e., the contact zone of the needle 1 from the point C to a slow degree increases the effects of reflexology and rhyming 6 of the base 5 or its part, depending on the electrophoresis. required depth of penetration. needles 1 in epider-

It is also advisable to make the surface area of the needle 8, determined by the pressure on the applicator, the density of the point on the side of the needles applied to the entire base of the needle, and the sharpness of their point 3, and the area 7 of the layered coating and the applied surface is made of at least two materials with different coatings on the tip of the needle. electrochemical potentials, in this case

This leads to the occurrence of a galvanic mix of the material of the base of the needle 1 and the material of the layer 9 of the rostrum between the coatings on the tip of the needle and on its coating, applied to the base of the needle 1, except for its base, and also reinforced by this microcurrent of the edge-3 (except for the tip C or part of it, in addition to the transfer of microelements from both outer layers of tip C and the part of rod 2 near tip 3, coatings and due to diffusion also microelements because to apply the coating precisely to the entire rod from the inner layers. In addition, it allows distortion with precise excluding the point Z is difficult). To leave the materials useful for reflexotherapy, the new needle 1 is made of iron or its alloy, with insufficient hardness and durability in the form of, for example, steel, and the coating layer 9 is applied, coatings on a hard and durable base. for example, from nickel, chromium, zinc or copper. Needle 1

At the same time, in the part of the surface of the needle, which can be made of copper or its alloy, it is covered with brass applied to the entire base of the needle, and the coating layer 9 can be applied, one coating layer and applied nickel, chrome or silver surface. At the same time, it is necessary to cover the tip of the needle, each layer should be covered with nickel chrome. The coating can be applied from the end face near the tip by various methods: dipping, napping, which increases the number of microcurrents and amplification, by the galvanic method. varies the intensity of electrophoresis. Layer 9 of the coating should be applied to the entire

In addition, one or more layers of coating ku 1, i.e. also on its tip 3, and then exposed can be applied by sputtering from the point away from the coating, for example, by grinding loose or dense layers. coating near the point C under the cone (Fig. 2),

The looseness of the coating layers, in particular the outer conical surface 10 with the removal of part 11 of the layers, contributes to the diffusion of microelements from the inner 9, or by cutting the coating along the plane of the 10 layers to the outside. (Fig. 3) with removal of part 11 of layer 9,

The essence of the useful model is explained by the drawing - The needle works in this way, where: When the needle 1 (Fig. 4) penetrates the body of the user, in particular, into the epidermis 8, which has a liquid ionized component, the difference in electrochemical

potentials between the material of the base of the needle 1 and the material of the base of the needle 1 and layers 17, 18 occurs by means of the coating 9, the coating generates galvanic micro-diffusion due to the large area of contact between the entire C, i.e., at the same time, galvanic surfaces are created, i.e., here it has the place of advantage is an element with electrodes (the material of the basis of ktrophoresis over the galvanic effect. needles 1 and layer 9 of the coating) and electrolyte (a liquid- Just described the variant of execution by the ionized part of the body 8). Caused by the space can be slightly changed if the tip From the emergence of the needle 1 mechanical irritation of the body 8 is exposed from the layers 17, 18, for example, by their thinning- is accompanied by an effect on the body 8 of the user (Fig. 9) (or rapid wear in the process called by the galvanic microcurrent OS electric- use of the applicator). In this case, an additional field. In addition, there is a transfer of the micro-galvanic micro-current 56 between the layers 17, 18 of the elements, both from the point C of the needle 1, and from the layer 9 of the coating, a galvanic micro-coating is also created, and the current 57 between layer 17 and the point C and the micro-current of the galvanic microcurrent C, which increases both o5 between layer 18 and tip 3. This enhances the electric effect of reflexology, as well as the effect of the electrophoretic effect of needle 1 on the epidermis 8 and gives more vision, both qualitative (two types of microelements) and electrophoretic effect. acidic (more intensive transfer of microelements). On the base of the needle 1 can be applied many

The second version of the device is pre-battolayer coating. For example, from layers 19, 20, 21, layer 12 of the coating on the tip of the needle is applied to the entire needle, and layer 22 is applied to 1 (Fig. 5). The base of the needle 1 and the layer 12 of the coating can only be applied to its tip 3. All these layers cut along the plane must be made of the same materials that were specified for them in the previous version This causes the creation of five different galvanic devices. This option is advisable to carry out with microcurrents (not shown), which significantly increases the introduction of precious and rare materials into the body - the electrical effect of the needle 1 on the body 8, and transferred to the body of lions: platinum, silver, tellurium, etc., because at 8 four different microelements, which strengthens this, significantly reduces their consumption (this meta- effect of electrophoresis. llamas cover only the tip 3, and not the entire base. One or more layers of coating can be needles 1). applied by sputtering with the result of

The needle made according to this version works with loose or dense layers. Loose layers of coating like the previous one. increase the flow of passing trace elements

When a part of the point C is exposed from the coating through them. (Fig. 6) two galvanic couples are created: between the ver- The arrangement of materials on the needle, the bus 13, the tip of the needle 1 and the coating layer 14 starting from the base to the outer layer of the coating (galvanic microcurrent C), as well as between this sha- tya should be, for example, as follows: rum and rod 2 (galvanic microcurrent 2), Ee (Steel) - Mi - Si (or Ri, or Ra, or Ai) - which strengthens the electrical action of the needle 1 and intensifies Ad; forges electrophoresis. Ee - Mi - Ai;

Contact zone of needle 1 with the body 8 of User Re-Sg-An; (Fig. 7) can be composed of the base of the needle 1 and Ee - St (or Ad, or Sy) - Sy (or RU; several, for example, two layers 15 and 16 of coatings - Ee - 2p - Sk; tya, removed near point Z of the needle 1. In this case, three different galvanic pairs are created: Si - Mi - Sg. coating layer 15 - point Z (galvanic micro- The base of the needle is made of iron or copper current 53), layer 16 - tip C (galvanic micro- or from their alloys, for example, steel, brass. Therefore, the current 054) and layer 15 - layer 16 (galvanic micro- on an iron or steel base can be nano- current 55). This further enhances the electrical the effect of seni coating layers of all the above metals at the applicator and provides transfer to the body 8 microe- in the specified order, for example, the first layer of components from all three materials of the needle 1 and nickel digging layers, the second - from copper (or platinum, or of 16. It should also be noted that the transfer of micro-palladium, or of gold), the third - of silver. Copper elements from rod 2 and layer 15 through the ar 16 to or the brass base can be covered with silver, body 8 is carried out due to diffusion, and gold, platinum, palladium, nickel, with a thin volume of this transfer is significant due to a large layer of chromium. of the contact surface between the rod 2 and layer 15, the Applicator (Fig. 11-12) contains a base 5 and between layers 15 and 16, as well as between layer 16 and the body, needles 24-32 are trapped in it, and at least time 8. On the needle 1, you can also apply more layers of clay. electrochemical potentials - this allows transferring a larger amount of llama to the body 8. Needles 24-32 with different base materials of types of trace elements. and coatings are located, for example, in such

The area of contact of the needle 1 with the body 8 (Fig. 8) can be arranged: in one row 33 is placed a completely copper composed of needle 1 applied to the entire base, needle 24, needle 25 with a steel base and a layer of at least one layer 17 of coating and applied - 35 coating with nickel and a bare tip 3, a layer 18 of coating on the tip C 26 with a steel or iron base and a layer 36 of the needle 1 on top of the needle. In this case, a galvanic coating is created on the entire needle 26 with copper and a layer 37 of copper: coating layer 17 - coating layer 18 (electroplating of silver (or gold, platinum or palladium) night microcurrent), and the transfer of trace elements from on the point Z, needle 27 with a base of iron or steel and a two-layer coating of zinc and chromium and needles 24-32 pass to the epidermis 8, are reinforced by a tin tip 3, a needle 28 with a copper base and microcurrents in the epidermis 8. Due to the heterogeneity of the coating on the tip C made of silver (or gold, platinum) the electrochemical state of the epidermis 8, with its interaction or palladium) etc. In the second row, 38 are arranged with needle surface materials, epidermis 8, and needle 29 with a copper or brass base and two-automatically adjusts the parameters of microcurrents and a layered coating of nickel and chromium, a copper electrophoresis needle. 24, needle 30 with a steel or iron base and the location of the needles on the applicator, materials with a double-layer coating of zinc and chrome, steel bases and coatings are chosen depending on the needle 31, needle 32 with a copper or brass base, the desired effect of the applicator on selected areas of the user's body and a layer of copper coating except for the tip Z and so on. In the feeder (required parameters of mechanical action, elec- in further rows, the order of arrangement of needles can trich fields, saturation with these or other micro- be similar or different, the main thing is that each ok- elements). The needle frame was surrounded by needles with different materials. This accelerates electric two types of needles, for example, copper (brass) or trophoresis and equalizes, as a result steel needles and needles with one type of coating or reflexology, the natural heterogeneity of electric coatings. annual skin field. Needles can also be placed in rows,

The applicator works like this. each of which is created with needles from the same chi

The penetration of needles 24-32 into the epidermis 8 creates the same materials and different materials from the effect of mechanical irritation of the selected zone of the needles of other rows, which causes a more homogeneous upper body of the user. At the same time, there is an electric field in the contact zone. ktu needles 25, 26, 27, 28, 29, 30, 32 with an epidermis. For the manufacture of needle bases and coatings, galvanic microcurrents are used (chemical elements from the group described earlier can be used: for different types of needles), the lines of action of which lie in copper, iron, nickel, chromium, cobalt, aluminum, mag-planes of all needles and which determine the effect on the zone, zinc, tin, titanium, silver, vanadium, beryllium, bodies of the user of weak electric fields. In addition to gold, platinum, palladium, strontium, tellurium, as well as the different electrical potentials of different needles, their alloys and oxides. This makes it possible to obtain an inexpensive base of needles with a coating of small between adjacent needles 059-521, the lines of action of which lie in the planes perpendicular to the lines of action of precious, including rare materials, and to expand the set of materials used and microcurrents between the materials of individual needles or, as a result, obtain a large number of microcurrents inclined to them. These currents are superimposed on gammas with different parameters. It also provides levanic microcurrents of individual needles, which creates a transition to the user's body of a large number of micro-spatial complex heterogeneous electric field of roelements. in the user's epidermis. Various microelements with goh yuyu hi M shi lo ya M CHI she Shi sha ; Y MA / DA schi Ah her she sHE WHAT; | "Ts Her

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Ministry of Education and Science of Ukraine

State Department of Intellectual Property, str. Urytskogo, 45, Kyiv, MSP, 03680, Ukraine

SE "Ukrainian Institute of Industrial Property", str. Glazunova, 1, Kyiv - 42, 01601