FI63172B - MAGNETIC LAENDGOERDEL FOER MEDICINSKA AENDAMAOL - Google Patents

Description

- ^ —π. NOTICE / 71 <70 ® (11) UTLÄCCNINCSSKRIPT 63172 C Pa Tor. for sale * tty! 0 05 1903 ^ Patent nodd ^ lat ^ ^ (51) Kv.ik? /lnt.ci.3 A 61 N 1/42; FINLAND — FINLAND pi) ΝΜαιω ^ -ρ ** »^ T91281t (22) H» k * ml * p4JvI - Afw & fcnkigid * f i9.OU.79 (23) AHaipOvt — GlMglMadM 19.0U.79 (41) Tullut iulklMksI - ftllvk offuotllf 21.10.79

Patents and registers / 44) Date of filing - 31.01.83

Patent · och ragittarctyralaan 'Amökan utlagd och utLikrifun publkand (32) (33) (31) fyydttty «Tuoikau · —kaglrd prtortMt 20. OU. 78 20.0U.78, 3O.O8.78 Japan-Japan (JP) 5lU38 / 78 (Utility Model), 51 ^ 39/78 (Utility Model), II872U / 78 (Utility Model) (71) TDK Electronics Co., Ltd., 13-1, Nihonbashi 1-chome, Chuo-ku, Tokyo, J apani-Japan (JP) (72) Noriaki Shumiyashu, Tokyo, Japan-Japan (JP) (7U) Oy Kolster Ab (5U) Magnetic lumbar belt This invention relates to a magnetic belt for medical use, and in particular to a magnetic lumbar belt which engages a magnetic flux in the lumbar region between the waist and the hips of the human body.

It has been well known that coupling magnetic flux to the human body contributes to health and well-being by reducing stiffness or pain in the shoulders and / or lower back pain and improving blood circulation, although theoretical research on these effects is not yet advanced. In particular, magnetic neck strap has been known to be an effective treatment for shoulder stiffness. With regard to lower back pain, there is a review called "Treatment of Lower Back Pain Using a Magnetic Lan Belt," published by the Department of Orthopedic Surgery & Rehabilitation Center, Jichi Medical School, Japan. According to the report, the magnetic lumbar belt had a reducing effect on lower back pain in 31 of 50 patients. The magnetic lumbar belt affects 62% of 2,631 72 patients. The effect occurs in patients within a week of using a magnetic lumbar belt. In addition, patients felt heat at the lower back. Of course, no side effects were found.

An earlier magnetic lumbar belt has an elastic belt body made of fabric and several fixed permanent magnets permanently sewn to the belt body. However, the following disadvantages are associated with this earlier magnetic lumbar belt.

First, the previous belt exerts a very uneven pressure on the human body and is difficult to keep on. This is because the contours of the upper and lower lumbar region of the human body are very different. Because of these differences in shape, certain parts of a belt made of ordinary rubber-blended yarn do not fit snugly on the human body. In addition, because the elasticity is not uniform over the entire width of the previous strap, the fit is not tight in different parts of the lumbar region, resulting in discomfort and misalignment of the magnetic flux.

In addition, the magnet must be replaceable to adjust the intensity of the magnetic flux. However, changing the magnet is impossible in the previous magnetic lumbar belt because the previous magnet is permanently sewn to the belt body. In addition, in the prior art magnetic belt, it is impossible to adjust the number of permanent magnets or the part exposed to the human body.

Therefore po. It is an object of the invention to overcome the disadvantages and limitations of the previous magnetic lumbar belt by developing a new and improved magnetic lumbar belt.

Po. It is a further object of the invention to develop a magnetic lumbar belt in which the body of the belt fits evenly with the human body so that it is comfortable and the magnetic flux is applied evenly.

In addition, po. The object of the invention is to develop a magnetic lumbar belt in which the number of permanent magnets attached to the belt can be easily changed and in which, in addition, the attachment location of the permanent magnets is adjustable.

These and other objects are achieved by a magnetic waist belt characterized in that the belt consists of a plurality of elongate belt portions connected side by side, the width of which is greater at the centerline than at the edges of the belt, that 3 63172 a pocket having a plurality of holes and a plurality of capsules, each comprising a permanent magnet in the form of a plate known per se and each having an annular groove on its circumference, each capsule being releasably fitted in its own hole so that when fitting the capsule to the flexible plate. the edge of the hole is located in the annular groove, holding the capsule securely in the hole but allowing the capsule to be pushed out of the hole for replacement.

Po. said and other objects, features and related advantages of the invention will be better understood from the following description and the accompanying drawings, in which: Figures 1 (A) and 1 (B) show po. a magnetic belt of the invention on a human; Figures 2 (A), 2 (B), 2 (C), 2 (D) and 2 (E) show po. the structure of the belt body according to the invention; Figures 3 (A), 3 (B) and 3 (C) show po. an embodiment of a flexible sheet according to the invention; Figure 4 shows po. a second embodiment of a flexible sheet of the invention; Figure 5 shows po. the structure of the magnetic capsule of the invention; Figures 6 (A) and 6 (B) show po. the structure of the second magnetic capsule of the invention; and Figures 7 (A), 7 (B) and 7 (C) show some embodiments of the connection between the magnetic capsule and the magnetic disk.

Figures 1 (A), 1 (B) show a magnetic lumbar belt 10 on a human body. According to these figures, the magnetic belt 10 is attached around the lumbar portion of the body so that the head 12 is

A

buttoned, pressed or Velcro attached to the front of the body 1. At the back of the body 2, a plurality of fixed permanent magnets 16 removably attached to the magnetic plate 14 are also removably attached to the belt body so that magnetic flux from the magnets can be coupled to the lower back or lumbar spine. The embodiments shown in these figures use five permanent magnets 16, which are preferably arranged symmetrically with respect to the spine. According to the figures po. the magnetic belt has a body made of elastic textile, a magnetic plate inserted into the body pocket, and a few permanent magnets removably attached to the plate. All of these details are described in more detail below.

4 63172

The belt body 18 is shown in Figures 2 (A) -2 (E), of which Figure 2 (A) shows a front view of the belt, Figure 2 (B) shows a rear view of the belt, Figure 2 (C) shows a bottom view of the belt, Figure 2 (D) ) shows a side view of the left belt and Fig. 2 (E) shows a side view of the right belt.

The belt body 18 comprises a plurality of elongate, resilient belt portions 18a, 18b, 18c, 18d, 18e, 18f and 18g, each connected by thin warp yarns. The width of these belt sections is not uniform, but depends on their position laterally in the belt. The width of the belt part is preferably large in the middle of the body (18c, 18d, 18e) and small in the peripheral part of the belt (18a, 18b, 18f, 18g) as shown. At both outer ends of the belt body 18 there are means for connecting both ends thereof, which may consist of a button, a Φ key lock or a Velcro fastener. According to Figures 2 (A) -2 (E), β

This embodiment shows a Velcro fastener with a male O

Velcro 19 and female Velcro 20 at each end of the belt body so that the belt fits the human body on the lumbar region. The central part of the belt 18 has a pocket covered with a cover fabric 21. The upper line 21a and the lower line 21b of the cover fabric 21 are sewn to the belt body 18. However, the side lines 21c and / or 21d are not sewn to the body, so that an opening is formed. Therefore, the magnetic plate 14 provided with a plurality of permanent magnets can be releasably placed in a pocket formed by the belt body and the cover fabric through this opening.

Each belt section 18a-18g must be mixed with rubber threads to provide elasticity in the horizontal direction, or they must be elastic threads. Alternatively, the structure of the fabric itself must be such that the fabric acquires longitudinal elasticity. When the pull-out length of the weft yarn is correctly determined, i.e. the width of each belt section 18a-18g, the elasticity coefficient of the belt body should be different in the width direction. As shown in Figures 2 (A) and 2 (B), the width of the belt portion is large at the center of the belt and small at the top and bottom of the belt. So when the belt is stretched, the middle area stretches less than the border areas. Therefore, the belt body fits snugly and comfortably to each part of the lumbar region and the belt sits firmly and evenly in each part of the lumbar region, making the nights comfortable to wear. Because the permanent magnets are suitably distributed on the center of the belt, they are also closely aligned with each part of the lumbar region, allowing the magnetic flux to be effectively applied.

5 63172

In Figs. 2 (A) -2 (E), it should be noted that the surface shown in Fig. 2 (A) is the inner side that contacts the human body through the skin, and the surface shown in Fig. 2 (B) is the outer side.

According to a preferred embodiment, the size of the belt is as follows. The length d1 of the pocket is 20 cm, the length d2 = 15 cm of the Velcro part 19, the width dg = 7 cm of the belt and the total length of the belt can be designed according to the size of the human body.

Next, the structure of the magnetic disk 14 will be described with reference to Figs. 3 (A), 3 (B) and 3 (C) and 4. Figs. 3 (A), 3 (B) and 3 (C) show po. a first embodiment of a plate according to the invention and of which Fig. 3 (A) shows a bottom view, Fig. 3 (B) a vertical view and 3 (C) a cross-sectional view. The plate 14 comprises a flexible plastic plate 30 with a plurality of round holes 32, 34, 36, 38 and 40. The plate is made of e.g. ABC plastic (acrylic-butadiene-styrene) and the plate 14 may have means 42 and 44 for securing the plate belt body. These means 42, 44 are, for example, a Velcro fastener, a button or a key fastener. The round holes 32-40 are intended to receive a magnetic capsule, and for this purpose each hole has a round flange 32a-40a. The magnetic capsule can engage with this flange, so that the magnetic capsule is detachably mounted in the hole. According to a preferred embodiment, the plate sizes d ^ -d ^ g are as follows. The distance between two adjacent holes horizontally d ^ = 6 cm, dj., Which is the vertical length between the holes, is dj = 3 cm, dg, which is the length between the center of the hole and the edge of the plate, is dg = 1.5 cm, the width of the magnetic capsule d ^ = 0.4 cm, the outer diameter of the hole dg = 19.3 mm, the inner diameter of the hole dg = 17.3 mm and the width of the plate d- ^ g = 6 cm.

Figure 4 shows another structure of the magnetic plate 14 with six holes 45a-45f in which the magnetic capsule is removably inserted, and the plate is attached to the belt body by means of Velcro fasteners 46a and 46b.

Next, the structure of the magnetic capsule will be described with reference to Figs. 5, 6 (A) and 6 (B). Figure 5 (A) shows po. a first embodiment of a magnetic capsule according to the invention having a circular plate-shaped permanent magnet 50 and two flexible circular plates 52A and 52B. The diameter of these plates is slightly larger than that of the magnet 50, so that the assembled magnetic capsule remains attached to the hole in the plate. The sheets are made of soft polyethylene, for example. The lower plate 52A is 6 63172 flat and the upper plate 52B has a thick portion in the center thereof as in an optical lens. The curved surface of the top plate 52B faces the human body. The plates are bonded to a magnet 50.

Fig. 6 (A) shows another structure of the magnetic capsule and Fig. 6 (B) shows an assembled view thereof. The magnetic capsule of Figures 6 (A) and 6 (B) comprises a permanent magnet 50, a magnetic shield 60, a cover 62, a cylinder 56 surrounding the magnet 50, a shield 60 and a sheath 62, and two plates 54, 58. The shield 60 is intended to prevent magnetic flux leaks outside the magnetic belt and is made of a ferromagnetic material such as iron. The cover 62 is intended to decorate the magnet and is e.g. gold-colored. The cover 62 can, of course, be replaced with suitably decorated paper. The surface of the top plate 58 is curved according to the drawing. The top and bottom plates 58, 54 and the cylindrical tube 56 are made of a flexible plastic such as soft polyethylene. When assembling the magnetic capsule shown in Figs. 6 (A) and 6 (B), a flat plate 54 is first made together with a cylindrical tube 56 in the middle thereof. The magnetic shield 60 and the permanent magnet 50, together with the sheath 62, are then placed in a cylindrical tube. Next, the top plate 58 is attached to the top end of the tube 56, e.g., by ultrasonic wave bonding, whereby the ultrasonic wave energy generates heat between the top plate 58 and the top end of the tube 56, and the heated portions melt, rendering the top plate 58 with the tube 56. The curved plate 58 is, of course, towards the human body.

Po. according to a preferred embodiment of the invention, each part of the magnetic capsule has the following size. The diameter of the plates 54, 58 dg = 19.3 mm, which is the same as dg in Fig. 3 (C). The outer diameter of the cylindrical tube 56 d ^ = 17.3 mm, which is the same as dg in Fig. 3 (C). The inner diameter d ^ 1 '3olca of the tube 56 is the same as the diameter of the permanent magnet 50, is 15 mm. The thickness d ^ 2 of the permanent magnet 50 is 2 mm. And the thickness of the capsule itself is d ^ = 4 mm, which is the same as d? in Figure 3 (C).

The permanent magnet 50 is magnetized in the axial direction. The polarity of the magnet can be anything. Ts. the upper surface of the magnet that contacts the human body may be either the N-pole or the S-pole. The intensity of the magnetic flux imparted by the magnet is in the range of 500 to 2,000 gauss and is preferably about 1,200 gauss on the surface of the magnet. However, because the magnetic shield 60 is used, the intensity of the magnetic flux at the lower plate 54 decreases to about 400-500 gauss.

7 63172

Po. the permanent magnet may, for example, consist of a mixture of samarium and cobalt with 36% by weight of samarium and 64% by weight of cobalt. The manufacturing process of this SmCo magnet is as follows. First, the raw material is combined and floured and then cast in a mold to the desired shape in an atmosphere with magnetic flux. The light is then sintered in an argon atmosphere at a temperature of about 1,150 ° C for one hour. This is followed by stepwise cooling, which cools the product at a controlled temperature step by step for one hour. When the light is pre-cooled, magnetization is performed to obtain a SmCo permanent magnet. The permanent magnet thus made having said size (diameter 15 mm and thickness 2 mm) weighs approximately 14.8 g.

Figures 7 (A), 7 (B) and 7 (C) show in different embodiments how the magnetic capsule is placed on a plate.

Figures 7 (A) show an embodiment in which the lower part of the magnetic capsule is flat according to the plate 14 and its upper part rises convexly from the plate.

Figure 7 (B) shows an embodiment in which both the upper and lower parts of the magnetic capsule rise convexly from the plate.

Figure 7 (C) shows an embodiment in which both the upper and lower parts of the magnetic capsule are flat according to the plate.

In practice, there is an opinion that the surface facing the human body must be convex so that the magnet rests against the human body at low pressure. In this sense, the embodiments shown in Figs. 7 (A) and 7 (B) are preferred. But since the magnetic belt on the other hand is a fabric, a flat shape is considered desirable to maintain a slim line.

It is to be understood that the magnetic capsule shown in Figures 7 (A) -7 (C) can be detached from the plate because both the plate and the capsule are made of flexible plastic. Removable magnetic capsule is an important feature po. in the invention, and by changing the magnetic capsule, the intensity of the magnetic flux applied to the human body can be adjusted to the desired value.

In addition, since the magnetic plate can slide in the pocket of the body of the food, the part to which the magnetic flux is applied is adjustable.

As described in detail, po. the magnetic lumbar belt according to the invention fits comfortably with the contours of the human body, the position of the magnet and the number of magnets are

Claims (11)

A magnetic waist belt for medical purposes, comprising an elongate elastic belt (18) having means (19, 20) for connecting the ends of the belt, the lumbar belt further comprising at least one magnet attached to the belt, characterized in that the belt (18) consists of a plurality of adjacent combined elongate belt portions (18a-18g) having a width greater at the centerline of the belt than at the edges of the belt, that a pocket (21) is arranged substantially in the center of the belt and that the flexible plate (14) is removably fitted to the belt pocket (21) a plurality of holes (32, 34, 36, 38, 40, 45a-45f) and a plurality of capsules (Fig. 5, Fig. 6A, Fig. 6B, Fig. 7A, Fig. 7B, Fig. 7C), each comprising a permanent magnet (50) in the form of a plate known per se. ), each of which has an annular groove on its circumference, each capsule being releasably fitted in its own hole so that when the capsule is fitted to the flexible plate (14). the edge of the hole is located in the annular groove, holding the capsule securely in the hole but allowing the capsule to be pushed out of the hole for replacement. Lumbar belt according to claim 1, characterized in that each permanent magnet (50) is encapsulated (Fig. 6A, Fig. 6B, Fig. 7A, Fig. 7B, Fig. 7C) in its flexible housing, the housing forming a capsule around it. passing an annular groove. Magnetic lumbar belt according to Claim 2, characterized in that the flexible capsule housing is made of soft polyethylene. 9 63172 Magnetic lumbar belt according to one of Claims 1 to 3, characterized in that the annular groove is adapted to fit together the annular flange (32a, 34a, 36a) radially inwards from the edge of each hole (32, 34, 36, 38, 40). , 38a, 40a) having a flange thickness less than the thickness of the plate (14). Magnetic lumbar belt according to one of the preceding claims, characterized in that the permanent magnet (50) is made of a mixture of samarium and cobalt. Magnetic lumbar belt according to one of the preceding claims, characterized in that the plate (14) has five holes for accommodating capsules. Lumbar belt according to one of the preceding claims 1 to 5, characterized in that the plate (14) has six holes for accommodating capsules. Magnetic lumbar belt according to one of the preceding claims, characterized in that the elastic plate (14) is made of ABS plastic. 8 63172 adjustable and in addition the strength of the magnet is also adjustable. This achieves the most comfortable and effective medical treatment. The story shows that a new and improved magnetic lumbar belt has been invented. It is, of course, to be understood that the embodiments described are merely illustrative of the invention and do not limit the scope of the invention. The scope of the invention is thus apparent from the appended claims and not from the description. Magnetic lumbar belt according to one of the preceding claims, characterized in that each permanent magnet (50) is magnetized in the axial direction. A magnetic lumbar belt according to claim 9, characterized in that the permanent magnet (50) has dimensions of substantially 15 mm in diameter and substantially 2 ram in thickness and is magnetized to a value of about 1200 Gauss at its surface in the axial direction. Magnetic lumbar belt according to one of the preceding claims, characterized in that each magnetic capsule comprises a magnetic shield (60) on one side of the permanent magnet (50). 10 Patentkrav: 6 317 2