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Title:
INSOLE, MIDSOLE, SHOE ARTICLE AND BANDS FOR MAGNETIC PROPHYLAXIS
Document Type and Number:
WIPO Patent Application WO/2010/020019
Kind Code:
A1
Abstract:
The invention concerns insole, midsole, shoe article and a band, which could be applied for magnetic prophylaxis in purpose to strengthen the general physical condition of the organism through improving of metabolism, speeding of blood circulation, regulation of energy balance and reducing the influence of stress. The insole, the midsole and the band for magnetic prophylaxis comprise of layers, where the ground layer (1,4) is made of elastic magnetic material of strips (3a, 3b) of north N and south S poles. The strip (3a) of material with north pole N borders and touches strip (3b) of material of south pole S. The strips (3a, 3b) could be formed unilaterally of the layer (1) or bilaterally of the layer (4). Ferrite magnetic plates 5 and/or 6 are mounted to the bottom side of the magnetic layer (1,4). There is also shoe article suggested for magnetic prophylaxis with an insole or midsole, with ground magnetic layer (1,4) of elastic magnetic material with strips (3a, 3b) of north N and south S poles. Ferrite magnetic plates 5 and/or 6 are mounted to the bottom side of the magnetic layer (1,4).

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Inventors:
PETKOVA SONYA (BG)
Application Number:
PCT/BG2009/000006
Publication Date:
February 25, 2010
Filing Date:
June 03, 2009
Export Citation:
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Assignee:
PETKOVA SONYA (BG)
International Classes:
A43B17/00
Foreign References:
EP1080652A12001-03-07
DE29815670U11998-11-19
US5233768A1993-08-10
Attorney, Agent or Firm:
TAUSHANOVA, Tsonka (fl.3, 1000 Sofia, BG)
Download PDF:
Claims:
PATENT CLAIMS

1. Insole for magnetic prophylaxis comprising layers - top layer of soft material and ground magnetic layer of strips of material of north pole N and of material of south pole S, characterizing with that the ground layer (1, 4) is of elastic magnetic material and it is formed in such a way that strips (3a) and (3b) are of alternating polarity N - S - N, respectively strip (3 a) of material of north pole N and strip (3b) of material of south pole S.

2. Insole for magnetic prophylaxis according to claim 1, characterizing with that the ground magnetic layer (1, 4) is formed of elastic polymer material of included ferrite magnetic particles.

3. Insole for magnetic prophylaxis according to claim 1, characterizing with that the strips (3a), (3b) are formed along the length of the material of the insole and the outsole or transversely to the length of the insole and outsole or under the form of other geometric figures.

4. Insole for magnetic prophylaxis according to claim 3, characterizing with that the strips (3a), (3b) of the ground magnetic layer (1) are formed unilaterally where strip (3 a) is of material that is oriented up with north pole N and borders with strip (3b) of oriented up with south pole S material, where strips (3a), (3b), (3a) are of alternating polarity N - S - N.

5. Insole for magnetic prophylaxis according the claim 4 characterizing with that ferrite magnetic plates (5) and/or (6) are mounted to the bottom side of the ground magnetic layer (1) respectively at the area of arch and/or the area of the heel of the foot.

6. Insole for magnetic prophylaxis according to claim 3, characterizing with that strips (3a), (3b) of the ground magnetic layer (4) are formed bilaterally, of alternating polarity N - S - N, at top and bottom side of the layer (4), where strip (3a) of material oriented up with north pole N borders strip (3b) of material oriented down with south pole S whereas ferrite magnetic plates (5) and/or (6) are mounted to bottom part of the ground magnetic layer (4) respectively in the area of arch and/or in the area of the heel of the foot.

7. Shoe article for magnetic prophylaxis comprising outsole, base and upper part characterizing with that the base is formed by insole with top layer (2) of soft material and ground magnetic layer (1, 4) of elastic polymer material with including of ferrite magnetic particles, where the ground magnetic layer (1, 4) has formed strips (3 a), (3 b) of alternating polarity N - S - N, respectively strip (3 a) of material of north pole N and a strip (3b) of material with south pole S.

8. Shoe article for magnetic prophylaxis according to claim 7, characterizing with that the strips (3 a), (3b) of the ground magnetic layer (1, 4) are formed along the length of the ground of the shoe or transversely to the length of the ground of the shoe article or under the form of other geometric figures.

9. Shoe article for magnetic prophylaxis according to claim 8, characterizing with that strips (3 a), (3b) of the ground magnetic layer 1 are formed unilaterally where strip (3 a) is of material that is oriented up with the north pole N and borders and touches strip (3b) of oriented up material with south pole S, whereas strips (3a), (3b), (3a) are of alternating polarity N - S -N.

10. Shoe article for magnetic prophylaxis according claim 9, characterizing with that that ferrite magnetic plates (5) and/or (6) are mounted to the bottom side of the ground magnetic layer (1) respectively in the area of the arch and/or in the area of the heel of the foot.

11. Shoe article for magnetic prophylaxis according to claim 9, characterizing with that there are ferrite magnetic plates (9) mounted to the outsole (7) under the ground magnetic layer (1) respectively in the area of the arch and/or in the area of the heel of the foot.

12. Shoe article for magnetic prophylaxis according to claim 8 characterizing with that strips (3a), (3b) of the ground magnetic layer (4) are formed bilaterally, of alternating polarity N - S - N, at the top and bottom side of the layer (4), where a strip (3 a) of material oriented up with north pole N borders with a strip (3b) of material oriented down with south pole S, whereas there are ferrite magnetic plates (5) and/or (6) mounted to bottom side of the ground magnetic layer (4) respectively in the area of the arch and/or in the area of he heel of the foot.

13. Shoe article for magnetic prophylaxis according to claim 8 characterizing with that strips (3a), (3b) of the ground magnetic layer (4) are formed bilaterally, of alternating polarity N - S - N, at the top and bottom side of the layer (4) whereas strip (3 a) of material oriented up with the north pole N borders strip (3 b) of material which is oriented down with south pole S whereas there are ferrite magnetic plates (9) mounted to outsole (7) under the ground magnetic layer (4) respectively in the area of the arch and/or in the area of the heel of the foot.

14. Midsole for magnetic prophylaxis which comprises layers - bottom form stable layer, elastic layer and upper layer, characterizing with that it includes as an upper layer an insole of magnetic layer (1 , 4), located above the form stable stable (11) and elastic (12) layers, which upper magnetic layer (1, 4) is made of elastic polymer material of ferrite magnetic particles and has formed strips (3a), (3b) of alternating polarity N - S - N, respectively strip (3a) of material with north pole N and a strip (3b) of material with south pole S.

15. Midsole for magnetic prophylaxis according to claim 14, characterizing with that the strips (3a), (3b) are formed along the length of the magnetic layer (1, 4) or transversely to the length of the magnetic layer (1, 4), or under the form of other geometric figures.

16. Midsole for magnetic prophylaxis according to claim 15, characterizing with that strips (3 a), (3b) of the magnetic layer (1) are formed unilaterally, where strip (3 a) is of oriented up with the north pole N material and borders and touches strip (3b) of oriented up with south pole S material, in such a way that strips (3a), (3b), (3a) are of alternating polarity N - S - N.

17. Midsole for magnetic prophylaxis according to claim 16, characterizing with that above form stable layer (11) there are ferrite magnetic plates foreseen - amplifiers of magnetic impact (13) and/or (14), located in the area of the arch and/or in the area of the heel of the foot.

18. Midsole for magnetic prophylaxis according to claim 15, characterizing with that strips (3a), (3b) of the ground magnetic layer (4) are formed bilaterally, of alternating polarity N - S - N, at the top and bottom side of the layer (4), where strip (3a) of material which is oriented up with the north pole N borders and touches strip (3b) of material oriented down with south pole S.

19. Midsole for magnetic prophylaxis according to claim 18, characterizing with that above form stable layer (11) there are ferrite magnetic plates foreseen - amplifiers of magnetic impact (13) and/or (14), located in the area of the arch and/or in the area of the heel of the foot.

20. Shoe article for magnetic prophylaxis comprising upper part, outsole with heel and midsole, comprising form stable, elastic and upper layers, characterizing with that the midsole of the shoe article is of foreseen insole of magnetic layer (1, 4), which is located as upper layer above the form stable (11) and elastic (12) layers, where the magnetic layer (1, 4) is of elastic polymer material of ferrite magnetic particles and has formed strips (3a), (3b) of alternating polarity N-S, accordingly strip (3a) of material with north pole N and strip (3b) of material with south pole S.

21. Shoe article for magnetic prophylaxis according to claim 20, characterizing with that, the strips (3a), (3b) are formed along the length of the magnetic layer (1, 4) or transversely to the length of magnetic layer (1, 4) or under the form of other geometric figures.

22. Shoe article for magnetic prophylaxis according to claim 21, characterizing with that above form stable layer (11) of the midsole there are ferrite magnetic plates foreseen - amplifiers of magnetic impact (13) and/or (14), which are located in the area of the arch and/or in the area of the heel of the foot.

23. Shoe article for magnetic prophylaxis according to claim 22, characterizing with that the strips (3a), (3b) of magnetic layer (1) are formed unilaterally, where strip (3a) is of oriented up with north pole N material and borders strip (3b) of oriented up with south pole S material, whereas strips (3a), (3b), (3a) are of alternating polarity N - S -N.

24. Shoe article for magnetic prophylaxis according to claim 23 characterizing with that, there are elastic magnetic bands (20), (21), (22) and (23) foreseen in the upper part (24) of the shoe article which bands are formed of elastic polymer material of ferrite magnetic particles where each of the bands (20), (21), (22) and (23) has formed strips (3a) and (3b) of alternating polarity N - S - N, whereas strip (3a) of material oriented with north pole N borders with strip (3b) of material oriented with south pole S which borders strip (3b) of material oriented with south pole S.

25. Shoe article for magnetic prophylaxis according to claim 22, characterizing with that strips (3a), (3b) of the ground magnetic layer (4) are formed bilaterally, of alternating polarity N - S - N, at the top and bottom side of the layer (4), where strip (3 a) is of material oriented up with north pole N and borders strip (3b) of material oriented down with south pole S.

26. Shoe article for magnetic prophylaxis according to claim 25 characterizing with that, there are elastic magnetic bands (20), (21), (22) and (23) foreseen in the upper part (24) of the shoe article which bands are formed of elastic polymer material of ferrite magnetic particles where each of the bands (20), (21), (22) and (23) has formed strips (3a) and (3b) of alternating polarity N - S - N, whereas strip (3 a) of material oriented with north pole N borders with strip (3b) of material oriented with south pole S which borders strip (3b) of material oriented with south pole S.

27. Shoe article for magnetic prophylaxis according to claim 24 or 26, characterizing with that, in the upper part of the article in the area above the arch of the foot there are mounted a band (20) and/or in the area of the ankle a band (21) and/or in the area of the calf band (22) and/or in the area under the knee band

(23).

28. Band for magnetic prophylaxis characterizing with that it comprises base (1, 4) of elastic polymer material with ferrite magnetic including with strips (3a), (3b) formed, where strip (3a) is of material oriented with north pole N, and strip (3b) of material oriented with south pole S, whereas there are additional bands (26) mounted from the internal and external side of the ground (1, 4) which additional bands are made of leather or textile material and at the end there is a device for fixing foreseen (27).

29. Band for magnetic prophylaxis according to claim 28, characterizing with that magnetic strips (3a), (3b) are formed along the length of the band or transversely to the length of the band or under the form of other geometric figures.

30. Band for magnetic prophylaxis according claim 29, characterizing with that the strips (3a), (3b) of the magnetic band are formed unilaterally, from the internal side of the ground magnetic layer (1) of the band for magnetic prophylaxis where strips ( 3a) border and touch strips (3b) with the alternating polarity N - S - N.

31. Band for magnetic prophylaxis according to claim 30, characterizing with that between the external side of the ground magnetic layer (1) of the magnetic band and the band (26) of leather or textile it is mounted a ferrite magnetic plate- amplifier of the magnetic impact (25).

32. Band for magnetic prophylaxis according to claim 29, characterizing with that the strips (3a), (3b) of the ground magnetic layer (4) of the magnetic band are formed bilaterally, of alternating polarity N - S - N, from the internal and external side, where strip (3 a) of polarity N of the internal side borders and touches strip (3b) of polarity S from the external side of the band.

33. Band for magnetic prophylaxis according to claim 32, characterizing with that between the external side of the ground magnetic layer (4) of the magnetic band and the band (26) of leather or textile it is mounted a ferrite magnetic plate - amplifier of the magnetic impact (25).

Description:
INSOLE, MIDSOLE, SHOE ARTICLE AND BANDS FOR MAGNETIC PROPHYLAXIS

Technical Field

The present invention concerns insole, midsole, shoe article and bands for magnetic prophylaxis which use leads to strengthen up the general condition of the body through improving metabolism, speeding up of blood circulation, regulating the energy balance and reducing the impact of stress.

Beckground Art

As a result of the contemporary way of life, the human organism is deprived by the useful influence of the Earth magnetic field, which is a reason for appearing of the syndrome of magnetic deficit (Dr. Kioshi Nakagava).

The symptoms of this state are manifested as insomnia, tiredness, immobilization and pain in the limbs, spine, the neck, breast, headache, apathy, strong sensitiveness to climate changes, magnetic storms and increased sun activity.

Similar problems could appear also at other mammals, for e.g. domestic animals - dogs, cats etc.

The syndrome of magnetic deficit could be overcome through compensatory magnetic treatment. One of the best effective options is the influence of the magnetic field on the reflexive points and zones of the human body or other mammal.

From the prior state of the art it is known the use of permanent magnets for therapeutic purpose in order to overcome of the magnetic deficit through speeding up of the blood circulation, improving the metabolism and regulating of the energy balance. It is known embodiment of permanent magnets in linen and covers for bed, in car seats and trucks as other things for daily use in order to create compensating magnetic impact on the human organism.

According patent US 5233768, published 10.08.1993 there is known "Insole for shoe for magnetic therapy" which ensures comfort and therapy of the user of the shoe, that is supplied with that insole whereas it activates blood circulation and increases the resistant power of the organism. The insole for magnetic therapy according to patent US 5233768 is to be put into the shoe and it comprises of layers - top, central and bottom.

The top layer of the insole is softening, of soft elastic material type "Trecor" (TM), which forms soft cushion for comfort and convenience of the user while wearing of the shoe.

The central layer is formed of longitudinal strips of material of permanent magnet where the strips are oriented along the length of the insole and they are arranged as follows: longitudinal strip of material oriented up with north pole N along the length of the material, which borders with a longitudinal strip of dielectric material P which on his side borders with a longitudinal strip of material oriented up with south pole S. The strips of dielectric material P insulate the trips of material of permanent magnet along the length of the insole. Therefore for each longitudinal strip of magnetic material at the top side, which is magnetized as north pole N, is formed longitudinally of the back side of the material, strip magnetized as south pole S. These strips of magnetic material form the central layer of the insole, where between every north pole N and south pole S along the insole from its top and bottom side there are strips of dielectric material P.

The third, bottom layer is also as the top layer made of soft elastic material. The top surface of this bottom layer is fixed immovably to the central layer of longitudinal strips of permanent magnet. There are a number of bulges, which ensure additional federation to the bottom surface of the bottom layer.

The known insole according to patent US 5233768 doesn't ensure magnetic field of equal intensity along the length of the whole foot as each of the strips of material of oriented up north pole N, respectively a strip of material oriented up with south pole S borders longitudinal strip of dielectric material P. In regard the presence of strips of dielectric material there are neutral zones of zero magnetic intensity.

On the other side, according the known insole for magnetic therapy the effective length of every magnetic bipolar element of strip of material of pole S to pole N is equal to the thickness of the magnetic layer. Whereas the de magnetizing factor, which depends on in inverse proportion on the length of the magnetic element, which in this case is equal to the thickness of the magnetic material, is high. The thickness of the magnetic material used practically is restricted by the high specific gravity of the material weight. In order to achieve the magnetic intensity needed to realize better therapy it is needed to use a material of bigger thickness. That means - heavy insoles and considerably increasing of the weight of the shoe article. In order to make the weight of the shoes acceptable to the user, the insole should be of acceptable weight that means use of magnetic carrier of not very high thickness. Consequently it could be expected, that the insole will have low magnetic induction at its poles, which puts under doubt the possibility to achieve good therapeutic effect.

In the case of bilaterally magnetizing of the insole, which is suggested in the patent under observation, part of the magnetic force lines are closed between opposite poles at the top and bottom part of the magnetic folio, whereas under equal conditions, the intensity is less and the magnetic lines are closed in immediately close position to the surface of the magnetic carrier, consequently they are operating at lower height of considerably lower height of penetrating into the body. The weak penetrating of the magnetic field into the body leads to considerable reducing of its influence on the organism. Disclosure of the Invention

The present invention is addressed to an insole, midsole and a shoe article and bands for magnetic prophylaxis, through which one could ensure impact of the magnetic field of equal intensity along the whole surface of the foot or other selected surface of the body, and also intense magnetic impact in certain zones, whereas the blood circulation to be speed up, to increase oxygen supply to the organs and to improve the metabolism and energy balance of the user of the shoe article for magnetic prophylaxis.

The insole for magnetic prophylaxis comprises layers including upper layer of soft material and ground layer formed of strips of alternating polarity

N - S -N, strips of magnetic material of North pole N and strips of magnetic material of South pole S.

According to the invention the ground layer is of elastic magnetic material and the strips of alternating polarity of the ground layer are formed in such a manner that a strip of material of north pole N borders a strip of material of south pole S and again a strip of north pole N, whereas the strips immediately each other are of alternating polarity N- S -N.

According to one preferred fulfillment the ground layer of the insole for magnetic prophylaxis is formed of elastic polymer material of ferrite including.

According to one preferred fulfillment of the invention the strips of alternating polarity N - S -N of the insole for magnetic prophylaxis are formed unilaterally, whereas a strip of material of north pole N is oriented up and borders immediately a strip of material, which is oriented up with its south pole S .

In the case of the insole for magnetic prophylaxis according to the invention the strips of alternating polarity N - S -N are formed along the length of the material of the insole or transversely against the length of the material of the insole or under the form of various geometric figures. According to one preferred variant of the invention, there are ferrite magnetic plates - amplifiers of the magnetic impact are mounted to the bottom side of the ground magnetic layer respectively in the area of the arch and/or in the area of the heel of the foot. The ground layer is unilaterally bi polar magnetized insole for magnetic prophylaxis of alternating polarity of the strips at the top side N-S-N.

According to other preferred variant of the invention magnetic plates are mounted - amplifiers of magnetic impact, foreseen to bottom side of the ground magnetic layer respectively in the area of the arch and/or the area of the heel of the foot to bilaterally bi polar magnetized insole for magnetic prophylaxis with alternating polarity N-S-N of both sides, as strips of polarity N from the upper side borders the strips of polarity S from the bottom side.

The present invention is addressed also to a shoe article suggested for magnetic prophylaxis comprising outsole, ground and upper part, where the ground is formed as unilateral or bilateral bipolar magnetized insole for magnetic prophylaxis, which could be performed in each of the variants of the insole according to the invention.

In one of the variants of the fulfillment there is unilateral bi polar magnetized insole mounted on the outsole, which insole is made of elastic polymer material of ferrite magnetic including. There are strips of alternating polarity, formed on the polymer material respectively - strips of material oriented up with its north pole N and strips of material oriented up with it south pole S. The strips are alternating immediately as a strip of south pole S borders a strip of north pole N and again comes a strip of south pole S. The bottom part of the unilaterally magnetized insole could be with or without ferrite magnetic plates mounted - amplifiers of the magnetic impact.

In another variant of fulfillment of magnetic insole is used bilaterally bi polar magnetized layer of alternating polarity N - S - N of both sides, whereas in the form of strips of polarity N from the upper side borders the strips of polarity S of the bottom side. There are ferrite magnetic plates - amplifiers of the magnetic impact mounted to the bottom side of ground magnetic layer respectively in the area of the arch and/or area of the heel of the foot.

According to another preferred fulfillment of the invention there are ferrite magnetic plates - amplifiers of the magnetic impact that are mounted under the elastic magnetic layer at the outsole of the shoe article for magnetic prophylaxis respectively the plates are in the area of the arch and/or in the area of the heel of the foot.

The ground - magnetic insole, made of elastic material of ferrite magnetic including of unilaterally or bilaterally bi polar magnetized in strips of alternating polarity N -S - N at the upper side of unilaterally magnetized insole or at top and bottom part of the unilaterally magnetized insole whereas strips of polarity N from the upper side border the strips of polarity S of the bottom side of the insole. The magnetic strips are formed along to the length of the material or transversely against the length or under the form of other geometric figures.

According to one preferred fulfillment of the invention the midsole for magnetic prophylaxis is formed of magnetic layer - insole of unilateral magnetic strips of alternating polarity N- S -N, whereas a strip of material oriented up with south pole S borders a strip of material, oriented up with its north pole N.

According to another fulfillment of the midsole for magnetic prophylaxis, the magnetic layer - insole is of bilaterally formed strips of alternating polarity N- S -N from the upper and bottom side of the magnetic layer whereas the strips of polarity N border the strips of polarity S at the bottom side of the insole.

According to the invention the midsole for magnetic prophylaxis is of magnetic layer - insole, of which the strips are formed along the length of the material, i.e. along the length of the magnetic layer - insole and of the outsole or transversely to the length of the insole and of the outsole or under other geometric figures, with or without ferrite magnetic plates - amplifiers of the magnetic impact, which are mounted at the bottom part of the magnetic layer. One preferred variant of the midsole for magnetic prophylaxis according to the invention is supplied with ferrite magnetic plates - amplifiers of the magnetic impact, which are mounted over the form resistive layer and under the elastic layer and under the elastic magnetic layer - insole, whereas the plates are foreseen to be put in the area of the arch and/or the heel of the foot.

The upper magnetic layer of the midsole is made of elastic material of ferrite including, unilaterally, or bilaterally bi polar magnetized, of strips with alternating polarity N -S - N at the upper side of the unilaterally magnetized layer insole or at the upper and bottom side of the bilaterally magnetized layer insole, whereas a layer of polarity N at the upper part borders with a strip of polarity S of the bottom side of the magnetic layer - insole.

Magnetic strips could be formed along the length of the outsole, or transversely to the length of the outsole or under the form of other geometric figures.

Ferrite magnetic plates mounted in the midsole amplify the magnetic impact in the area and or the heel of the foot and they close the magnetic field at the bottom part of the magnetic layer whereas an effect of shielding of the magnetic field is obtained and the intensity is increased at the upper part of the layer in the area of the arch and/or the heel of the foot and the height of the operation of the magnetic power lines is increased.

A variant of shoe article for magnetic prophylaxis, comprising upper part, outsole with heel and midsole build up of layers - form making, elastic and upper magnetic. According to the invention over the form making and elastic layers there is magnetic layer foreseen - an insole of elastic polymer material of ferrite magnetic including. The magnetic layer - insole is of formed strips of alternating polarity N-S-N, respectively - strips of material of north pole N and strips of material of south pole S. According to one preferred variant the shoe article for magnetic prophylaxis is with midsole, where the ground magnetic layer has unilaterally formed strips of alternating polarity of material oriented up with alternating poles N- S -N.

According to another variant the shoe article for magnetic prophylaxis is with a midsole, where the ground magnetic layer has bilaterally formed magnetic strips of alternating polarity N - S - N , whereas the strips of polarity N on the upper side border the strips of polarity S at the bottom side. The magnetic strips could be formed along the length of the outsole, or transversely to the length of the outsole or under the form of other geometric figures.

The shoe article for magnetic prophylaxis according to one preferred variant, between form making layer and the elastic layer and under the elastic unilaterally or bilaterally, bi polar magnetized layer of the midsole there are ferrite magnetic plates mounted - amplifiers of the magnetic impact in the area of the arch and/or the area of the heel of the foot.

According to another preferred variant the shoe article for magnetic prophylaxis there are elastic magnetic bands mounted in the upper part, which are formed of elastic polymer material of ferrite including. Each of the elastic magnetic bands has magnetic strips formed of alternating polarity N - S.

According to a preferred fulfillment of the shoe article for magnetic prophylaxis the elastic magnetic bands are foreseen to be over the arch of the foot and/or embracing the ankle and/or embracing the calf and/or the area under the knee.

The present invention is addressed also to a band suggested for magnetic prophylaxis of various parts of the body (head, neck, waist, upper and lower limbs) of man or other type of mammal. The band for magnetic prophylaxis comprises ground of elastic polymer material of ferrite magnetic including and of strips formed of alternating polarity N-S-N. Additional bands are mounted on the internal and external side of the ground of the magnetic band made of leather or textile material, and in one end it is foreseen a device for fixing. According to one preferred variant between the external side of the ground of the magnetic band and the additional band made of leather or textile there is a ferrite magnetic plate mounted - an amplifier of the magnetic impact.

According to one variant of the invention the ground of the magnetic bend is of strips formed unilaterally, at the internal side of the band for magnetic prophylaxis, whereas the magnetic strips are of alternating polarity N-S-N and they border immediately to each other.

According another variant of the invention the strips of the ground of the magnetic band are formed bilaterally, of internal and external side of the ground, whereas a strip of polarity N at the internal side adjoins a strip of polarity S of the external side of the band.

The magnetic strips could be formed along the length of the band, or transversely to the length, or under the form of other geometric figures.

In one of the variants of the invention between the external side of the magnetic band and the external band of leather or textile there is a ferrite magnetic plate mounted, which amplifies the magnetic impact through closing of the magnetic field at the external side. In this way an effect of shielding of the magnetic field is obtained whereas its intensity is increased at the internal side, in the zone of the contact with the body, and the height of operating of the magnetic line forces is increased.

The last fact is a reason for better penetrating of the magnetic field in the body, and from there for more effective influence on the blood and lymphatic system as on the general function of the organism.

The basic advantage of the insole, the midsole and the shoe article and of the bands for magnetic prophylaxis according to the invention is that the ground magnetic layer is made of alternating strips of alternate polarity N-S-N and the alternating strips of alternate polarity N - S - N ensures magnetic field of equal intensity through the whole surface of the foot, or other parts of the body, and if ferrite magnetic plates are mounted there is magnetic field of empowered impact to the zones of plates, whereas the blood circulation is speeded up, the organs of the body oxygen supply is increased as the metabolism and energy balance of the user are improved.

In the case of shoe article supplied with magnetic insole or magnetic midsole, or in the case of magnetic bands, according to the invention if the elastic folio is magnetized unilaterally there are no neutral zones of zero magnetic intensity. This means that all reflexive points or zones, on which the magnetic prophylaxis is applied, get into some of the poles. In this way better and equal impact on this reflexive points and zones is achieved as on the blood system, and consequently there is better general influence to the body.

According to the invention in the case of unilateral forming of the strips of alternating polarity N-S-N at the upper side of the insole, the midsole and the bands, also in the case of shoe article for magnetic prophylaxis, which comprises insole or the midsole, the effective length of the magnetic element (from pole S to pole N) is twice as bigger than the thickness of the elastic magnetic layer used.- Demagnetizing factor which depends on in inverse proportion to the effective: length of the magnetic element is less than the demagnetizing factor in the case of bilaterally magnetized folia. Consequently under equal conditions, for e.g. equal thickness of the magnetic layer, in the case of unilaterally magnetized insole there is higher induction achieved at the poles.

This is exceptionally important advantage, because there is high intensity of the magnetic field achieved with smaller thickness of the magnetic carrier. The ground magnetic layer of elastic polymer material of ferrite including has high relative weight. Small difference in the thickness of the insole or magnetic band could lead to considerable difference in the weight. The possibility to reduce the weight of the insole could lead to considerable difference in the weight.

The possibility to reduce the weight of the insoles and the magnetic bands and from there the weight of the shoe and other articles for magnetic prophylaxis makes possible mass implementation of the magnetic components in the shoe production and production of magnetic bands.

In the case of unilaterally forming of the strips of magnetic material at the upper side of the insole or internal side of the magnetic bands, the magnetic flow between every two neighboring poles S-N is closed up on top of the insole, in the area where the contact with human foot is realized, or other parts of the body with magnetic carrier. This under equal conditions leads as to increasing of the intensity of the magnetic field, also to increasing the height of operation of magnetic line forces in the area of the contact. The last fact is a reason for better penetration of the magnetic field in the body, and consequently for more effective influence on the blood and lymphatic system, as on the general function of the organism.

In the case of bilaterally magnetizing part of the magnetic line forces are closed between the two opposite poles in the upper and bottom side of the magnetic folio, whereas under equal conditions, the intensity is lower and the magnetic lines of force are closed in immediate proximity to the surface of the, magnetic carrier, consequently they operate at lower height, of considerably; weaker penetration into the body. This disadvantage could be compensated in certain extent by usage of ferrite magnetic plates - amplifiers of the magnetic impact which are mounted under the ground magnetic layer. The ferrite magnetic plates amplify the magnetic impact and they close the magnetic field circuit in the ground part of the magnetic layer. In this way an effect of shielding of magnetic field is obtained and the intensity of the magnetic field is increased in the upper part of the layer and the height of operation of magnetic force lines is increased. The usage of ferrite magnetic plates put under the magnetic carrier creates possibility to amplify the magnetic field in selected zones in dependence of the specific need. In this way the impact of the magnetic field on every living organism is optimized according to its biological and anatomic peculiarities.

Another advantage of the insole, the midsole, the shoe articles and the bands for magnetic prophylaxis, according to the invention is that they are fulfilled with ground magnetic layer of elastic polymer material of ferrite magnetic including, whereas the forming of the strips of alternating consecutive poles is easy and the production of such articles is beneficial.

Brief Description of the Drawings

Fig. 1 - general view of a fulfillment of unilaterally bipolar magnetized insole from the upper part, according to the invention;

Fig. 2 - view from the bottom of the insole of fig. 1 ;

Fig. 3 - view from the bottom of a variant of the insole from fig. 1 with plates - amplifiers of magnetic field in the area of the arch and/or the heel of the foot;

Fig. 4 - view from bottom of a variant of bilaterally, bi polar magnetized insole with foreseen plates - amplifiers of the magnetic impact in the area of the arch and/or the heel of the foot;

Fig. 5 - depicts general view of shoe article for magnetic prophylaxis with an insole according to the invention.

Fig. 6 - shows the parts in dismantled appearance of the shoe article given in fig.

5;

Fig. 7 - depicts general view of a shoe article for magnetic prophylaxis of the type

"boot" with magnetic insole and plate - amplifier of the magnetic field according to the invention;

Fig. 8 - shows the parts in dismantled appearance of the shoe article of fig. 7;

Fig. 9 - general view of a magnetic midsole according to the invention;

Fig.10 - shows the parts of a magnetic midsole according to the invention given on fig. 9;

Fig. 11 - general view of a variant of magnetic midsole with plates - amplifiers of the magnetic field according to the invention; Fig. 12 - shows the parts of a magnetic midsole according to the invention given on fig. 11 ;

Fig. 13 - depicts general view of a shoe article- pump with a heel and magnetic midsole with plates - amplifiers, shown on fig. 12;

Fig. 14 - shows the parts in dismantled appearance of the shoe article of fig. 13;

Fig. 15 - depicts general view of a shoe article - high boot of magnetic midsole, with plates - amplifiers and elastic magnetic bands according to the invention;

Fig. 16 - shows the parts in dismantled appearance of the shoe article of Fig. 15

Fig. 17 - general view of a band for magnetic prophylaxis for various parts of the body of a human or other type of mammal.

Modes for Caring Out the invention

There is an insole for magnetic prophylaxis given on fig. 1 and fig. 2. according to the present invention. The insole comprises separate layers, of which . the ground one is formed of elastic magnetic material. In specific fulfillment the= insole is formed of upper layer 2 and elastic magnetic layer 1.

The upper layer 2 is made of elastic soft material, for example leather or appropriate textile material.

The magnetic layer 1 is formed of elastic polymer material of ferrite magnetic including. On the polymer material there are magnetic strips formed - 3a and 3b of alternating polarity. The magnetic strips are formed unilaterally. In the case of unilaterally magnetizing, strips 3 a and 3b are formed at the upper part of the insole, respectively 3a - north pole N, while strips 3b - south pole S. The strips alternate immediately whereas strip 3b of south pole S borders strip 3 a of north pole N and again strip 3b of south pole S. The magnetic strips could be formed along the length of the material, i.e. along the length of the insole and of the outsole or transversely to the length of the insole and the outsole as shown on fig. 1, or under the form of other geometric figures. The bottom part of the magnetic layer 1 as shown on fig. 2 is not magnetized.

In the case of magnetic insole fig. 1, according to the invention with ground magnetic layer 1 of elastic polymer material with forming of magnetic strips 3b and 3 a immediately one after another of alternating polarity S and N practically there are no neutral zones. In such a way during the use of a shoe with insole, comprising magnetic layer 1, made of elastic polymer material of ferrite including, all points on the foot get on some of the poles S and N, which are formed in the form of strips 3 b and 3a. Therefore as it is shown on fig. 1, the magnetic lines of forces between each element S-N go through the whole thickness of the layer S and the whole thickness of the layer N and they close the magnetic field circuit up over the insole. In such a way the effective length of magnetic force lines is L ~ 2d, where (d) is the thickness of the polymer material. In this case the demagnetizing factor which is in inverse proportion to the length of the magnetic force lines between the south pole S and north pole N is approximately twice as less the demagnetizing factor in the case of bilaterally magnetized insole of the same thickness of the magnetic folio.

Consequently the magnetic induction at the poles S - N in the case of unilaterally magnetized insole under equal conditions is higher. Another important advantage of the unilaterally magnetized insole is the height of penetration of magnetic field. Magnetic force lines between the south pole S and north pole N are closed on the top side of the insole (fig. 1), i.e. in the zone of realizing a direct contact of human foot with the magnetic carrier. The better penetration of the magnetic field leads to its more effective operation.

There is a variant of magnetic insole of fig. 1 and 2 depicted on fig. 3 where there are thin ferrite magnetic plates foreseen 5 and/or 6 at the bottom side of the magnetic layer 1. The plates 5 and/or 6 are attached at the bottom side of the magnetic layer 1, in the aria of the arch and/or of the heel of the foot. Ferrite magnetic plates close the scattered magnetic field at the bottom side of magnetic layer 1. In this way an effect of shielding of the magnetic field is obtained where the intensity of the magnetic field is increased in the upper part of the insole for magnetic prophylaxis and the height of operation of the magnetic force lines is increased. In the construction of the insole shown on fig. 3 because in the part of the arch the foot does not contact directly with magnetic carrier and consequently the influence of magnetic field is weaker there, the plates 5 operate as an amplifier of the magnetic impact in the area of the arch of the foot and the plate 6 in the area of the heel where the skin is more coarse.

The use of ferrite magnetic plates put under the magnetic carrier gives possibility for amplifying of the magnetic field in selected zones in dependence of the specific need. In this way the impact of the magnetic field on every living creature is optimized in dependence of its biological and constructional anatomic peculiarities.

The insole, according to the invention shown on fig. 3 is one preferred variant to be used as the ferrite magnetic plates 5 and/or 6 mounted under the, magnetic carrier 1 in the area of the arch and/or the heel of the foot amplify the ϊ operating of the magnetic field in these zones, where they compensate the - respective anatomic peculiarities of the human foot - arch which does not contact the magnetic carrier - insole and a coarse skin in the area of the heel. In the both zones there is handicapped penetration of the magnetic field. The ferrite magnetic plates - amplifiers 5 and/or 6 improve the impact on the reflexive points and zones in the area of the arch and/or the heel - reflexive zone of the genitals, genital glands, very important point of the stress etc.

On fig. 4, according to the invention it is shown bilaterally, bi polar magnetized insole, where on the ground elastic magnetic layer 4 the strips 3b and 3a of alternating polarity S and N are formed bilaterally. The magnetic strips 3a of polarity N, on the upper side of the ground magnetic layer border with magnetic strips 3b of polarity S from the bottom side of the ground magnetic layer and vice versa strips 3b of polarity S from the upper side of the ground magnetic layer border strips 3a of polarity N on the bottom side. Over the bilaterally magnetized layer 4 there is upper layer 2 foreseen of soft leather or textile. On the bottom side of the ground magnetic layer there are ferrite magnetic plates mounted - amplifiers of the impact of the magnetic field 5 and/or 6 in the area of the arch and/or of the heel of the foot.

There is a shoe article for magnetic prophylaxis depicted on fig. 5 where its parts are given on fig. 6. The magnetic insole which serves as a base of the shoe article could be fulfilled in each of the variants, shown on fig. 1, 2, fig. 3, or fig. 4.

In one of the variants of the fulfillment, there is unilaterally bipolar magnetized insole mounted on the foot 7 comprising ground magnetic layer 1, made of elastic polymer material of ferrite magnetic including. There are strips 3a and 3b formed on the polymer material of alternating polarity, respectively - strips 3a of material oriented up with the north pole N and strips 3b of material oriented up with the south pole S. The strips alternate immediately, where the strip 3b of south pole S borders the strip 3a of north pole N and again the strip 3b of south pole S. The bottom part of the unilaterally magnetized insole could be with (fig. 3) or without (fig. 1, 2) ferrite plates mounted - amplifiers of magnetic impact.

In another variant of fulfillment for an insole it is used bilaterally bi polar magnetized layer 4 of alternating polarity N - S - N on the both sides, where strips of polarity N 3a at the upper side border (touched) strips of polarity S 3b on the bottom side, with ferrite magnetic plates - amplifiers of the impact of the magnetic field 5 and/or 6 are mounted to the bottom part of the ground magnetic layer respectively in the area of the arch and/or in the area of the heel of the foot.

Magnetic strips 3 a and 3b could be formed along the length of the material, i.e. along the length of the foot or transversely to the length of the foot, in the way as it is shown on fig. 5 and 6, or under the from of other geometric figures.

The bottom side of the magnetic insole, magnetized unilaterally or bilaterally is fixed on the outsole 7, and from the upper side there is elastic, soft layer of leather or textile 2 foreseen. The top part of the shoe - upper 8 is mounted to the outsole 7.

Shoe article for magnetic prophylaxis of the type "boot" is depicted on fig. 7, while its components are given on fig. 8. Upper 10 is mounted to the outsole 7 where an insole for magnetic prophylaxis serves as a ground with ground magnetic layer 1 or 4, respectively with unilaterally or bilaterally magnetized layer and upper layer 2 of soft material - leather or textile.

Under the elastic magnetic layer 1 or 4 there are ferrite magnetic plates - amplifiers of magnetic impact 9, which are mounted to the outsole 7 of the shoe article for magnetic prophylaxis, and they are in the area of the arch and/or in he area of the heel of the foot. In one preferred variant the ferrite magnetic plate 9 is of larger length and it covers as the arch so the heel of the foot.

The ground - magnetic insole is made of elastic material of ferrite including, unilaterally (magnetic layer 1), or bilaterally (magnetic layer 4) bipolar magnetized, to form strips 3a and 3b of alternating polarity N-S-N at the upper side of the unilaterally magnetized insole, or from the top and bottom part of the bilaterally magnetized insole, where a strip of polarity N from the top side adjoins (borders) a strip of polarity S from the bottom side of the insole.

The magnetic strips could be formed along the length of the foot, or transversely to the length of foot, as it is shown on fig. 7 and fig. 8, or under the form of other geometric figures.

A midsole for magnetic prophylaxis according to the invention is shown on fig. 9. The midsole is formed of layers, which are given separately on fig. 10. The bottom layer 11 is form stable and covers 2/3 of the foot in the area of the heel and the arch, where in the specific case it could be made of form stable cardboard, preshpan or other materials known from the state of the techniques. Above this form stable cardboard it is foreseen an elastic layer 12 made of TUFFLEX ® or TEXONS ®, which covers the whole surface of the foot. According to the invention there is ground magnetic layer 1 or 4 foreseen of elastic polymer material of ferrite magnetic including above the form stable 11 and the elastic layer 12.

The top magnetic layer of the midsole is made of elastic material of ferrite including, unilaterally (magnetic layer 1), or bilaterally (magnetic layer 4) bi polar magnetized, of strips 3a and 3b, of alternating polarity N-S-N on the top side of unilaterally magnetized layer - insole or on the top side and bottom side of bilaterally magnetized layer - insole, where a strip of polarity N at the top side adjoins (borders) with a strip of polarity S at the bottom side of the magnetic layer - insole.

Magnetic strips 3a H 3b could be formed along the length of material i.e. along the length of the insole and the outsole or transversely of the length of the insole and the outsole or to be formed as other geometric figures with or without ferrite magnetic plates - amplifiers of magnetic impact 5 and/or 6, mounted at the bottom side of the ground magnetic layer.

There is a magnetic midsole depicted on fig. 11 in another variant while its components are given on fig. 12. The bottom form stable layer 11 and elastic layer 12 are identical with those shown on fig. 9 and fig. 10. Between the two layers 11 and 12 there ferrite magnetic plates are foreseen 13 and/or 14 in the area of the arch and/or the area of the heel of the foot.

In one of the exemplary fulfillments of the magnetic midsole, the top magnetic layer is formed on the ground of unilaterally bipolar magnetized insole for magnetic prophylaxis (fig. 1), according to the invention, which ground magnetic layer 1 is made of elastic polymer material of ferrite magnetic including. Unilaterally, there are strips 3a and 3b of alternating polarity N-S formed on the elastic polymer material respectively strips 3 a of material oriented up with the north pole N and strips 3b of material oriented up with the south pole S. The strips are alternating immediately, where strip 3b of south pole S borders strip 3a of north pole N and again comes strips 3b of material oriented up with south pole S. In another variant of the magnetic midsole of fig. 11 and fig. 12 the top magnetic layer is formed on the ground of bilaterally, bi polar magnetized insole (fig. 4) of alternating polarity N-S-N of both sides of the magnetic layer, where magnetic strips 3a of polarity N at the top side of the layer border magnetic strips 3b of polarity S at the bottom side. The rest of the layers of the midsole 11 and 12 and ferrite magnetic plates - amplifiers 13 and/or 14 are identical with the variant of magnetic midsole of unilaterally magnetized top layer.

The magnetic strips in the two variants could be formed along the length of material, i.e. along the length of the insole and of the outsole or transversely to the length of the insole and outsole or under the form of other geometric figures.

The ferrite magnetic plates 13 and/or 14 amplify the magnetic impact in the area of the arch and/or the heel of the foot where they close the magnetic circuit at the bottom part of he magnetic layer. In this way there is an effect of shielding of the magnetic field obtained, where its intensity is increased at the top part of the layer in the area of the arch and/or the heel of the foot and the height of operating of magnetic force lines is increased.

A shoe type pump with magnetic midsole is shown on fig. 13 with mounted- ferrite magnetic plates - amplifiers, mounted in the midsole (fig. 11,12) where the separate parts in dismantled view are shown on fig. 14. The midsole is formed of form stable layer 11 and elastic layer 12, where between them ferrite magnetic plates - amplifiers of magnetic impact 13 and/or 14 are mounted in the area of the arch and/or the heel of the foot. There is unilaterally or bilaterally bi-polar magnetic layer of elastic polymer material of ferrite magnetic including above the elastic layer 12. There is a layer 2 of soft leather or textile mounted above the magnetic layer of the midsole during the assembling of the shoe article.

The top magnetic layer of the midsole is made of elastic material of ferrite including, unilaterally (magnetic layer 1), or bilaterally (magnetic layer 4) bi-polar magnetized on strips 3a and 3b of alternating polarity N-S-N on the top side of the unilaterally magnetized layer - insole or at the top and bottom side of bilaterally magnetized layer insole, where a strip of polarity N on the top side adjoins (border) a strip of polarity S at the bottom side of the magnetic layer - insole.

The magnetic strips could be formed along the length of the outsole, or transversely to the length of the outsole or under the form of other geometric figures.

The ferrite magnetic plates 13 and/or 14 which are mounted in the midsole amplify the magnetic impact in the area of the arch and/or the heel of the foot where they close the magnetic circuit in the bottom part of the magnetic layer. In this way there is an effect of shielding of the magnetic field, where its intensity is increased in the top part of the layer in the area of the arch and/or the heel of the foot and the height of operating of the magnetic force lines is increased. There is upper part of the shoe 17 mounted in appropriate way to the magnetic midsole while at the bottom the outsole 16 is mounted and a heel of shoe 15 is nailed to the shoe - fig. 14.

Fig. 15 shows a shoe article - lady's high boot, where its separate parts in dismantled view are given on fig. 16. The boot comprises outsole 19 with heel 18; where a magnetic midsole is mounted on the outsole 19, the midsole is of the type shown on fig. 11,12 and upper part 24 of the boot.

The midsole is formed of form stable layer 11 and elastic layer 12, where ferrite magnetic plates - amplifiers of magnetic impact 13 and/or 14 are mounted between them in the area If the arch and/or the heel of the foot. There is a layer foreseen above the elastic layer 12 - unilaterally or bilaterally bipolar magnetized layer of elastic polymer material of ferrite magnetic including. A layer 2 of soft leather or textile is mounted above the magnetic layer of the midsole when the shoe article is assembled.

The top magnetic layer of the midsole is made of elastic material of ferrite including, unilaterally (magnetic layer 1), or bilaterally (magnetic layer 4) bi-polar magnetized in strips 3a and 3b, of alternating polarity N-S-N at the upper side of the unilaterally magnetized layer-insole, or at the top and bottom side of the bilaterally magnetized layer - insole, where a strip of polarity N 3a at the top side adjoins (borders) a strip of polarity S 3b at the bottom side of magnetic layer - insole.

The magnetic strips could be formed along the length of the outsole, or transversely to the length of the outsole, or under the form of other geometric figures.

The ferrite magnetic plates 13 and/or 14 mounted in the midsole amplify the magnetic impact in the area of the arch and/or the heel of the foot whereas they close the magnetic field circuit in the bottom part of the magnetic layer. In this way there is an effect of shielding of the magnetic field obtained where the intensity of the magnetic field in the upper part of the layer in the area of the arch and/or the heel of the foot is increased and the height of operating of magnetic force lines is increased.

The upper part of the boot 24 is mounted in appropriate way to the magnetic midsole.

Elastic magnetic bands 20, 21, 22 and 23 are mounted in the upper part 24 of the boot between the lining and the face leather which bands are formed of elastic polymer material of ferrite magnetic including. There are magnetic strips 3a and 3b of alternating polarity N-S formed on each of the magnetic bands 20, 21, 22 and 23. The magnetic bands 20 are foreseen above the arch of the foot, elastic magnetic band 21 covers the ankle, the elastic magnetic band 22 is at the area of the calf and magnetic band 23 is mounted at the area under the knee. There are cuts made on the lining of the upper part 24 in order to replace the magnetic bands when needed or if needed they are removed. In this way every user could regulate the magnetic impact on its own body. If as a result of self-observation or doctor's consulting a need of change is established to change the magnetic impact then the magnetic bands 20, 21, 22 and 23 could be replaced with bands of higher or lower magnetic intensity or even to remove them. The fact that the magnetic bands are magnetized with alternating polarity S-N and each of them ensures homogenous bi-polar magnetic field gives possibility for each of the magnetic bands to be used separately or at random combination with the others in dependence with the construction and the design of the shoe articles.

A band for magnetic prophylaxis of various parts of the body (head, neck, waist, upper and lower limbs) of a human or other type of mammals is depicted on fig. 17. The band for magnetic prophylaxis comprises a ground of elastic polymer material of ferrite magnetic including and with formed strips 3a and 3b of alternating polarity N-S-N. Additional bands 26 of leather or textile materials are mounted to the external and internal side of the ground of the magnetic band, while at the one end there is a device for fixing 27 foreseen.

According to a preferred variant between the external side of the magnetic band and the additional band of leather or textile 26 there is a ferrite magnetic plate - amplifier of the magnetic impact 25.

According one variant of the invention the ground of the magnetic band is performed as strips 3a and 3b, formed unilaterally at the internal side of the band for magnetic prophylaxis where the magnetic strips 3 a and 3b are of alternating polarity N-S-N and they border immediately each other.

According to another variant of the invention the strips 3a and 3b are formed bilaterally at the internal and external side of the magnetic band while strip 3a of polarity N at the internal side adjoins strip 3b of polarity S at the external side of the band.

The magnetic strips 3a and 3b could be formed along the length of the band or transversely to the length or under the form of other geometric figures.

In one of the variants of the invention there is ferrite magnetic plate 25 mounted between the external side of the magnetic band and the external band 26 of leather or textile, which plate amplifies the magnetic impact and it closes the circuit of the magnetic field at the external side. In this way an effect of shielding of the magnetic field and its intensity is increased at the internal side in the zone of the contact with the body, and the height of operating of the magnetic force lines is increased. The last fact is a reason for better penetration of the magnetic field into the body and consequently for more effective influence on the blood and lymphatic system, as on the general functioning of the organism.