WO2019240722A1

WO2019240722A1 - Reflexology needle applicator

Info

Publication number: WO2019240722A1
Application number: PCT/UA2019/000059
Authority: WO
Inventors: Николай ЛЯПКО
Original assignee: Николай ЛЯПКО
Priority date: 2018-06-14
Filing date: 2019-05-27
Publication date: 2019-12-19
Also published as: RU2715670C1

Abstract

The invention relates to a structural design for a needle applicator intended for exerting a physiotherapeutic effect on reflexogenic zones of the human body. The present applicator includes an elastic base of a given spacial configuration having protuberances in which needles are fastened, the points of said needles protruding out of the base, thereby forming a working side of the applicator; and also having transverse apertures of a given configuration in the body of the base, a portion of said apertures being made in gaps between groups of the protuberances.

Description

NEEDLE APPLICATOR FOR REFLEXOTHERAPY

The invention relates to medicine, to physiotherapeutic devices made in the form of a needle applicator, designed for physiotherapeutic effects on the reflexogenic zones of the human body, can be used for therapeutic purposes in medical institutions and in domestic conditions.

Needle applicators for reflexology, as a rule, are made in the form of an elastic base of a given spatial configuration with needles fixed in it, the tips of which extend beyond the base from one of its sides and form the working side of the applicator. The basis is the main element of the applicator, since the features of its implementation significantly determine the functionality of the applicator. An important characteristic of the base is the ability of elastic deformation. This is especially evident when performing reflexology on curved sections of the body or individual organs (arms, legs, torso, head, joints), when applicators with an insufficiently elastic base are generally unacceptable. That is, the task of increasing the capabilities of elastic deformation of the base is important to increase the effectiveness of reflexology procedures and expand the functionality of the applicator.

Known as an analog, the basis of the applicator Lyapko N.G. (Ukrainian patent for utility model N ° 60, IPC A61 H 11/00 A61 H 39/08, filing date 06/30/1997), which is made in the form of a plate of any shape, mainly rectangular, from any elastic material, mainly from rubber. On the working side of the base, reflex protrusions are made in which needles are fixed, the tips of which protrude beyond the base with the formation of the working side of the applicator. The reflex protrusions encircle the protruding parts of the needles, thereby increasing the reliability of fixing and fixing the position of the needles in the base. The needles are fixed in the body of the base during the plastic molding of the base during its manufacture. The base can be made two-layer with a supporting-clamping layer (plate) on the back side of the base.

Lyapko’s applicator base is also known (patent of Ukraine for invention N ° 54480, IPC A61 H 39/08, filing date July 15, 1999), which is made of elastic material and has a given spatial configuration. The base is made continuous of one layer or two layers connected to each other in a single whole. On the working side, the basics are made reflex protrusions in which the needles are fixed, the tips of which protrude beyond the base with the formation of the working side of the applicator. The reflex protrusions encircle the protruding parts of the needles, thereby increasing the reliability of fixing and fixing the position of the needles in the base. The needles are fixed in the body of the base during the plastic molding of the base during its manufacture. The base can be made in the form of a rectangular plate, or in the form of a cylindrical roller, or in the form of a body of revolution of a given spatial configuration.

Common features of these analogues and the proposed solution are: the base of the needle applicator for reflexology, which includes an elastic base of a given spatial configuration with reflex protrusions, in part the needles are fixed, the tips of which protrude beyond the base, forming the working side of the applicator.

In these analogues, the deformation ability of the base is determined only by the elastic properties of the base material, which limits the possibility of elastic deformation of the base.

As a prototype, the basis of the reflexology device, known according to the patent of Ukraine for the invention Ns 79691, IPC A61 H 39/08, A61 H 11/00, the filing date of 10.10.2005, was selected.

The basis of the specified device for reflexology is made of an elastic material, for example rubber, has a rectangular or any other shape. The base can be made of one layer or of two layers connected in a single whole. On the working side of the base, reflex protrusions are made in the form of bodies of revolution, in which needles are fixed, the tips of which protrude beyond the base, forming the working side of the device. The needles are made of different metals and their alloys or coated completely or partially with metal coatings with different electrochemical potentials. Neighboring needles have different electrochemical potentials.

At least one through channel, the axis of which is parallel to the working surface of the base (longitudinal channel), and through holes in the peripheral portions of the base, the axes of which are perpendicular to the working surface of the base or made at an angle to the working surface of the base (transverse holes), are made in the body of the base . These holes are designed to accommodate (pull) in them the elements of fastening means made in the form of an elastic tape or cord. The base can be made with curly cuts that define the configuration of the base, for example, a configuration in the form of petals.

The device is used as follows. Tapes or cords are tightened into the indicated longitudinal and transverse channels (holes) of the bases (s), which ensures the connection of the individual bases into a single device (applicator) with an increased area of reflex action and a given spatial configuration. A device is placed on the user's naked body with the working side with protruding needle tips and fixed in this position using the indicated fastening means on the user's body. The therapeutic effect is determined by the mechanical action of the needles and the effect of galvanic microcurrents on the user's body.

Common features of the prototype and the proposed solution are: the base of the needle applicator for reflexology, which includes an elastic base of a given spatial configuration with reflex protrusions, in part there are fixed needles, the tips of which protrude beyond the base, forming the working side of the applicator, and with transverse holes in the body of the base.

As in the above analogues, the deformation ability of the base is determined only by the elastic properties of the base material, which limits the possibility of elastic deformation of the base.

The basis of the invention is the task of increasing the deformation properties of the basis of the needle applicator for reflexology.

The problem is solved in that the basis of the needle applicator for reflexology, including an elastic base of a given spatial configuration with reflex protrusions, in which are fixed needles, the tips of which protrude beyond the base, forming the working side of the applicator, and with transverse holes in the body of the base, according to the invention , a part of the transverse holes is made in the gaps between predetermined groups of reflex protrusions.

These signs are essential features of the invention, as they together provide a technical result - an increase in the deformation properties of the base of the needle applicator for reflexology.

This is explained by the fact that the implementation of the transverse holes in the spaces between the specified groups of needles increases the possibility of elastic deformation of the base due to the deformation of the contour of the holes made in the spaces between the specified groups of needles. That is, the deformation properties of such a base are determined not only by the elastic properties of the base material, but also additionally by the presence of these holes in the gaps between the specified groups of needles. Transverse holes can be made in the form of round holes, and / or rectangular holes, and / or diamond-shaped holes and / or slots, or other configurations.

Cross holes can be made through and / or blind.

Transverse holes should be made with reinforcing sides.

Transverse openings, it is advisable to perform at the stage of plastic formation of the base.

The reflex protrusions in the peripheral portions of the base can have a configuration corresponding to the configuration of the transverse peripheral holes with the possibility of fixing these peripheral reflex protrusions in these transverse peripheral holes of the base.

The peripheral reflex protrusions can be fixed in transverse peripheral holes on the opposite side of at least one and the same base with the formation of a body of revolution.

The peripheral reflex protrusions of at least one base can be fixed in the peripheral transverse holes of at least one other base with the formation of a plane of a given spatial configuration.

The base may have a flat or three-dimensional spatial configuration.

A flat or three-dimensional spatial configuration can have a stylized shape of natural objects, mainly of the animal or plant world, which increases the attractiveness of the applicator for children.

It is advisable to fix the needles in the base at the intersection points of at least two groups of parallel lines intersecting at an angle of less than 90 degrees in the plane of the base.

At least one of the outer layers of the base can be made sections of unexpected shapes and sizes with an unpredictable location in the plane of the base, having different chemical or physical, in particular optical, instrumentally or visually recognizable characteristics that serve as product identifiers.

The following is a description of the inventive basis of the needle applicator for reflexology with reference to the drawings, which show:

FIG. 1 - The basis of the needle applicator for reflexology, making transverse holes in the spaces between the reflex protrusions in the form of round holes, view from the working side of the base.

FIG. 2 - The basis of the needle applicator for reflexology, section AA in FIG. 1, examples of the implementation of needles. FIG. 3 - The basis of the needle applicator for reflexology, section BB in FIG. 1, making transverse holes in the spaces between the reflex protrusions through.

FIG. 4 - The basis of the needle applicator for reflexology, section BB in FIG. 1, making transverse holes in the spaces between the reflex protrusions are deaf.

FIG. 5 - The basis of the needle applicator for reflexology, the scheme of deformation of the base in the transverse direction.

FIG. 6 - The basis of the needle applicator for reflexology, the scheme of deformation of the base in the longitudinal direction.

FIG. 7 - The basis of the needle applicator for reflexology, making transverse holes in the spaces between the reflex protrusions in the form of rectangular or diamond-shaped holes, view from the working side of the base.

FIG. 8 - The basis of the needle applicator for reflexology, section BB in FIG. 7.

FIG. 9 - The basis of the needle applicator for reflexology, making transverse holes in the spaces between the reflex protrusions in the form of slits, a view from the working side of the base.

FIG. 10 - The basis of the needle applicator for reflexology, section GG in FIG. 9.

FIG. 11 - The basis of the needle applicator for reflexology, section DD in FIG. 9.

FIG. 12 - The basis of the needle applicator for reflexology, the transverse holes in the gaps between the reflex protrusions in the form of combinations of holes and slots, view from the working side of the base.

FIG. 13 - The basis of the needle applicator for reflexology, a fragment of the section EE in FIG. 12 on a larger scale.

FIG. 14 - The basis of the needle applicator for reflexology, section FJ in FIG. 13 execution of holes with reinforcing collars.

FIG. 15 - The basis of the needle applicator for reflexology, made in the form of a flat circle.

FIG. 16 - The basis of the needle applicator for reflexology, section KK of FIG. fifteen.

FIG. 17 - The basis of the needle applicator for reflexology, made in the form of a flat ring.

FIG. 18 - The basis of the needle applicator for reflexology, section L-L in FIG. 17. FIG. 19 - The basis of the needle applicator for reflexology, in the form of a flat ring with curly cuts in the peripheral areas.

FIG. 20 - The basis of the needle applicator for reflexology, made in the form of a flat oval.

FIG. 21 - The basis of the needle applicator for reflexology, the execution in the form of a tape.

FIG. 22 - The basis of the needle applicator for reflexology, made in the form of a shoe insole.

FIG. 23 - The basis of the needle applicator for reflexology, made in the form of petals.

FIG. 24 - The basis of the needle applicator for reflexology, in the form of a mask for the eyes.

FIG. 25 - The basis of the needle applicator for reflexology, made in the form of a cylinder.

FIG. 26 - The basis of the needle applicator for reflexology, section MM in FIG. 25.

FIG. 27 - The basis of the needle applicator for reflexology, the implementation in the form of a sphere.

FIG. 28 - The basis of the needle applicator for reflexology, made in the form of a maple leaf.

FIG. 29 - The basis of the needle applicator for reflexology, performed in the form of a hedgehog.

FIG. 30 - The basis of the needle applicator for reflexology, an example of connecting several bases with fastening devices in the form of protrusions on one of the connected bases installed in the transverse holes of the other base, with the formation of a plane of a given spatial configuration.

FIG. 31 - The basis of the needle applicator for reflexology, section HH in FIG. thirty.

FIG. 32 - The basis of the needle applicator for reflexology, node I in FIG. 31.

FIG. 33 - The basis of the needle applicator for reflexology, peripheral reflex protrusions are fixed in the transverse peripheral holes on the opposite side of the same base with the formation of a body of revolution.

FIG. 34 - The basis of the needle applicator for reflexology, an example of connecting several bases with fastening devices in the form of brackets with anchor ends inserted into the transverse holes of the connected bases. FIG. 35 - The basis of the needle applicator for reflexology, section BB in FIG. 34.

FIG. 36 - The basis of the needle applicator for reflexology, an example of connecting several bases with fastening means in the form of threads stretched through the transverse holes of the connected bases.

FIG. 37 - The basis of the needle applicator for reflexology, section PP in FIG. 35.

FIG. 38 - The basis of the needle applicator for reflexology, an example of connecting several bases with fastening means in the form of spirals, stretched through the transverse holes of the connected bases.

FIG. 39 - The basis of the needle applicator for reflexology, section PP in FIG. 37.

FIG. 40 - The basis of the needle applicator for reflexology, an example of the implementation of fasteners in the form of loops with anchor ends installed in the transverse holes of the bases, and belts stretched through these loops.

FIG. 41 - The basis of the needle applicator for reflexology, incision CC in FIG. 39, the execution of loops in the form of a U-shaped bracket.

FIG. 42 - The basis of the needle applicator for reflexology, section CC in FIG. 39, making a loops in the form of a U-shaped bracket with a window.

FIG. 43 - The basis of the needle applicator for reflexology, making a transverse hole for fastening means with reinforcing protrusions.

FIG. 44 - The basis of the needle applicator for reflexology, the needles are fixed at the intersection points of two groups of parallel lines intersecting at an angle of 30 degrees.

FIG. 45 - The basis of the needle applicator for reflexology, the needles are fixed at the intersection points of two groups of parallel lines intersecting at an angle of 70 degrees.

FIG. 46 - The basis of the needle applicator for reflexology, the needles are fixed at the intersection points of two groups of parallel lines intersecting at an angle of 60 degrees.

FIG. 47 - The basis of the needle applicator for reflexology, a fragment of the working side of the applicator with identification areas.

The base of the needle applicator for reflexology is made in the form of an elastic sheet of a given spatial configuration with reflex protrusions, at least in part of which needles are fixed, the tips of which protrude beyond the base, forming the working side of the applicator, and with transverse holes of a given configuration in the body of the base. Part transverse the holes are made in between the predetermined groups of reflex protrusions.

In FIG. 1-4 shows an example of the implementation of the base 1 in the form of a rectangular sheet with reflex protrusions 2, in which the needles 3 are installed, the tips 4 of which extend beyond the base 1, forming the working side of the applicator. The base 1 is made of elastic material. The reflex protrusions 2 encircle the protruding parts of the needles 3, which increases the reliability of fixing and fixing the position of the needles 3 relative to the base 1. The needles 3 are fixed in the base 1 at the stage of plastic molding of the base 1 with reflex protrusions 2. The needles 3 can have a different implementation, for example, in the form clove Za, or rod 36 with one local thickening or rod Sv with two local thickenings, or rod Zg with three local thickenings, or in the form of a U-shaped bracket Zd (Fig. 2). Neighboring needles 3 are made of different metals or with metal coatings with different electrochemical potentials, resulting in the formation of galvanic pairs, which, when in contact with the user's body, generate galvanic microcurrents that cause the known therapeutic effects of galvanization and electrophoresis.

At the base 1, in the spaces between the reflex protrusions 2, transverse deformation openings 5 are made, which increase the possibility of elastic deformation of the base 1, and peripheral transverse openings 6 for installing elements of fastening means for connecting the individual bases 1 in series in order to increase the area of the reflex effect the user's body and receiving the specified applicator configuration, as well as for fixing the applicator to the user's body.

The holes 5 may have a cylindrical (5a), or conical (56), or curly (5c) shape (Fig. 3).

Holes 5 can be made through (Fig. 3, holes 5a, 56, 5c) or blind (Fig. 4, holes 5g, 5d).

The holes 5 can be made with the sides 7, reinforcing the holes 5, and can also be used as a means of limiting the amount of deformation of the patient’s skin with needles 3 (Figs. 3, 4). In these figures, the sides 7 are cylindrical, but can also have another three-dimensional shape, for example, in the form of a truncated cone, hemisphere, etc. (not shown).

On Fig, 5, 6 shows a diagram of the elastic deformation of the base 1 in the transverse and longitudinal directions. Enhanced elasticity deformation of the base 1 is carried out due to deformation of the contour of the holes 5, 6, for example, when tensile (by the amount D) of the base 1.

In FIG. 7-8 shows an example of the implementation of the base 1, the feature of which is the implementation in the intervals between the reflex protrusions 2 of the transverse holes in the form of rectangular 8, or square 9, or diamond-shaped 10 holes (windows), which increase the possibility of elastic deformation of the base 1.

In FIG. 9-11 show an example of the implementation of the base 1, a feature of which is the implementation in the intervals between the reflex protrusions 2 of the transverse holes in the form of slots 11, which increase the possibility of elastic deformation of the base 1.

In FIG. 12-14 shows an example of the implementation of the framework 1, the feature of which is the implementation in the intervals between the reflex protrusions 2 of the transverse holes in the form of combinations of interconnected holes and slots, for example, three holes 12 and two slots 13, or five holes 14 and four slots 15, or two holes 16 and one slit 17, which increase the possibility of elastic deformation of the base 1 (Fig. 12).

The holes 12, 14, 16, it is advisable to perform with reinforcing collars 18 on both sides of the base 1 (Fig. 13, 14).

The base 1 may have a flat or three-dimensional spatial configuration.

In FIG. 15-16 show an example of the implementation of the base 1 with a flat spatial configuration in the form of a flat circle 19. Alternating holes 20 and protrusions 21 can be made along the periphery of the circle 19. The holes 20 increase the possibility of elastic deformation of the peripheral portions of the base 1, and the protrusions 21 prevent the possibility of skin injury end needles 3.

In FIG. 17-18 show an example of the implementation of the framework 1 with a flat spatial configuration in the form of a flat ring 22.

In FIG. 19 shows an example of the implementation of the base 1 with a flat spatial configuration in the form of a flat ring 23, on the peripheral sections of which are shaped cuts, for example, triangular cutouts 24, 25, which define the configuration of the base 1 and increase the possibility of elastic deformation of the peripheral sections of the base 1.

In FIG. 20-24 show examples of another embodiment of the base 1 with a flat spatial configuration in the form of a flat oval 26 (Fig. 20), tape 27 (Fig. 21), shoe insole 28 (Fig. 22), petals 29 (Fig. 23), eye masks 30 (Fig. 24). In FIG. 25-27 shows examples of the implementation of the framework 1 with a three-dimensional spatial configuration: in the form of a cylinder 31 (Fig. 25, 26), a sphere 32 (Fig. 27). The cylinder 31 is obtained by wrapping the sheet blank in a cylinder followed by joining the edges of the sheet with a seam 33. A sphere 32 is obtained by connecting two hemispheres with a seam 34. The base 1 in the form of a cylinder 31 or a sphere 32 can be used in the manufacture of cylindrical or spherical roller massagers.

A flat or three-dimensional spatial configuration may have a stylized form of natural objects, mainly of the animal or plant world. For example, the shape of a maple leaf (Fig. 28), a hedgehog (Fig. 29).

The transverse holes 6, made on the peripheral sections of the base 1, are designed to install elements of fastening means in them, with the help of which the individual bases are sequentially connected in order to increase the area of reflex action on the user's body and obtain a predetermined applicator configuration, and also fix the applicator on the user's body. Fasteners may have different designs.

In FIG. 30-33 illustrate examples of connecting the bases using fastening means in the form of reflex protrusions 38 on the peripheral portions of the bases having a configuration with bulges 39 at the ends, which corresponds to the configuration of the transverse peripheral holes 40, with the possibility of fixing said peripheral reflex protrusions 38 in said transverse peripheral holes 40 basics

In FIG. 30-32 show examples of joining several bases (35, 36, 37) when peripheral reflex protrusions 38 of at least one base are fixed in the peripheral transverse holes 40 of at least one other base to form a plane of a given spatial configuration.

In FIG. 33 shows an example where peripheral reflex protrusions 38 are fixed in transverse peripheral holes 40 on the opposite side of the same base to form a body of revolution.

In FIG. 34, 35 shows an example of connecting the bases 41, 42, 43, 44 using fastening means in the form of U-shaped brackets 45 with anchor ends 46 installed in the transverse holes 6 of the bases 41, 42, 43, 44, interconnected using these staples 45.

In FIG. 36, 37 shows an example of connecting the warp 41, 42, 43, 44 using fasteners in the form of threads 47, stretched through the transverse holes 6 of the warp 41, 42, 43, 44, interconnected using these threads 47. In FIG. 38, 39 shows an example of connecting the bases 41, 42, 43, 44 using fasteners in the form of spirals 48, stretched through the transverse holes 6 of the bases 41, 42, 43, 44, connected to each other using these spirals 48.

In FIG. 40-42 shows an example of connecting the warps 49, 50, 51, 52 using fastening means in the form of loops 53 with anchor ends 54 mounted in the transverse holes 55 of the connected warps 49, 50, 51, 52, and transverse 56 and longitudinal 57 belts, stretched through the indicated loops 53. The loops 53 can be made in the form of a U-shaped bracket (Fig. 41) or in the form of a U-shaped bracket with a window 58 (Fig. 42).

Transverse holes 55 can be made with reinforcing protrusions 59 (Fig. 43).

Needles 3 can be fixed in the base 1 at the intersection points of two groups of parallel lines (parallel lines Ai and parallel lines Bi, Figs. 44-46) that intersect at an angle of 90 degrees or at an angle of less than 90 degrees in the plane of the base 1 (Fig. 1, 7, 9 - at an angle of 90 degrees, Fig. 44 - at an angle of 30 degrees, Fig. 45 - at an angle of 70 degrees, Fig. 46 - at an angle of 60 degrees). This embodiment allows you to get different density of the needles 3 in the longitudinal and transverse directions of the base 1. Thus, when the lines Ai and Bi intersect at an angle of 90 degrees, the needles 3 are located in the corners of the adjacent squares, which ensures the same density of the needles 3 in the longitudinal and transverse directions of the base 1 (Fig. 1, 7, 9). When the lines Ai and Bi intersect at an angle of less than 90 degrees, the needles 3 are located in the corners of the adjacent hexagons (shaded hexagons), the density of the needles 3 in the longitudinal and transverse directions of the base 1 depends on the angle of intersection of the lines Ai and Bi - at the values of the angle of intersection of the lines Ai and Bi less than 60 degrees, the density of needles 3 in the longitudinal direction is greater than in the transverse (hexagons elongated in the transverse direction, Fig. 44), with the values of the angle of intersection of lines Ai and Bi more than 60 degrees, the density of needles 2 in the longitudinal direction is less than in the transverse (hexagons elongated in the longitudinal direction, Fig. 45), with a value of the angle of intersection of lines Ai and Bi of 60 degrees, the density of needles 2 in the longitudinal and transverse direction is the same (regular hexagons, Fig. 46). The transverse holes 5, 8 between the needles, which increase the possibility of elastic deformation of the base 1, are made at the intersection points of the diagonals of the hexagons.

At least one of the outer layers of the base 1 can be made sections 60 of unexpected shapes and sizes with an unpredictable location in the plane of the base 1, which have different chemical or physical, in particular optical, instrumental or visually recognizable characteristics. Such the base layer 1 functions as the identifier of a particular applicator. As a result of unforeseen (arbitrary, random) sections 60 with different characteristics, unique recognizable features of a particular product are obtained, the probability of repetition of which on another product is practically zero.

In FIG. 47 shows a fragment of the working side of the applicator with identification sections 60.

In the peripheral transverse holes of the bases (s), the corresponding elements of the fastening means are installed, which ensures the connection of the individual bases into a single applicator with an increased area of reflex action and a given spatial configuration. An applicator is placed on the naked body of the user with the working side with the protruding tips of the needles and fixed in this position using the indicated fastening means on the user's body. The implementation of the base with transverse holes in the spaces between the specified groups of needles increases the deformation properties of the base, which is important for reflexology of curved parts of the body, for example, reflexology of joints, or reflexology of individual organs (arms, legs, trunk, head). The therapeutic effect is determined by the mechanical action of the needles and the effect of galvanic microcurrents on the user's body.

Claims

Claim

1. The base of the needle applicator for reflexology, including the elastic base (1) of a given spatial configuration with reflex protrusions (2), in which the needles (3) are fixed, the tips (4) of which extend beyond the base (1), forming the working side of the applicator, and with transverse holes (5, 6) in the body of the base (1), characterized in that a part of the transverse holes (5) is made in between the predetermined groups of reflex protrusions (2).

2. The base according to claim 1, characterized in that the transverse holes (5) are made in the form of round holes (5), and / or rectangular holes (8, 9), and / or diamond-shaped holes (10), and / or slots (11) or other configurations.

3. The base according to claim 1, characterized in that the transverse holes are made through (5a, 56, 5c) and / or blind (5e).

4. The base according to claim 1, characterized in that the transverse holes are made with reinforcing sides (18).

5. The base according to claim 1, characterized in that the transverse holes are made at the stage of plastic formation of the base.

6. The base according to claim 1, characterized in that the reflex protrusions (38) on the peripheral portions of the base (1) have a configuration corresponding to the spatial configuration of the transverse peripheral holes (6) with the possibility of fixing said peripheral reflex protrusions (38) in said transverse peripheral holes (6) of the base.

7. The base according to claim 6, characterized in that the peripheral reflex protrusions (38) of at least one base (36) are fixed in the peripheral transverse holes (6) of at least one other base (35, 37) with the formation of a plane of a given spatial configuration.

8. The base according to claim 6, characterized in that the peripheral reflex protrusions (38) are fixed in the transverse peripheral holes (6) on the opposite side of at least one of the same base (40) with the formation of a body of revolution.

9. The base according to claim 1, characterized in that it has a flat or three-dimensional spatial configuration.

10. The basis of claim 9, wherein the flat or three-dimensional spatial configuration has a stylized shape of natural objects, mainly of the animal or plant world.

11. The base according to claim 1, characterized in that the needles (3) are fixed at the intersection points of at least two groups of parallel lines (Ai, Bi) intersecting at an angle of less than 90 degrees in the plane of the base (1).

12. The base according to claim 1, characterized in that at least one of the outer layers of the base (1) has sections (60) of unexpected shapes and sizes with an unpredictable arrangement in the plane of the base (1) having different chemical or physical , in particular optical, instrumentally or visually recognizable characteristics.