JP6415173B2 - Magnetic therapy device - Google Patents

Description

  The present invention relates to a magnetic therapy device used by being wound around a body part.

  2. Description of the Related Art Conventionally, a magnetic treatment device is known that is wound around a part of the body in the form of a necklace or a bracelet for the purpose of health effects such as blood circulation promotion by magnetic action. Patent Document 1 discloses a magnetic therapy device in which magnet particles are embedded at equal intervals in a flexible long body.

JP 2009-18061 A

  However, as in Patent Document 1, when magnet grains are embedded in a flexible long body, the magnetic flux density is inversely proportional to the square of the distance, so the magnetic force on the surface of the long body is weakened, blood circulation promotion, etc. There is a possibility that the effect of is not fully exhibited. That is, there is a concern that the magnet moves away from the body by the thickness of the flexible material that covers the magnet grains, and sufficient magnetic force is not exhibited.

  An object of the present invention is to provide a magnetic therapy device that can exert a sufficient magnetic force and can enhance health effects such as blood circulation promotion.

  A magnetic treatment device according to a first aspect of the present invention is a magnetic treatment device that is used by being wound around a part of a body, and has a flexible elongated body and an array along the longitudinal direction within the elongated body. A plurality of magnets. The elongate body is curved along the longitudinal direction. The plurality of magnets include at least one eccentric magnet arranged eccentrically from a central axis of the elongated body toward a center of curvature of the elongated body in the elongated body.

  Here, the long body is formed to be curved along the longitudinal direction. And at least 1 magnet (eccentric magnet) is eccentrically arranged in the long body from the central axis of the long body toward the center of curvature of the long body. For this reason, the magnetic treatment device can be easily wrapped around the body by the curved folds of the long body, and the eccentric magnet is naturally natural even if the user is not conscious when trying to wrap the magnetic treatment device around the body. And it is arranged biased inside the loop. That is, the eccentric magnet is maintained at a position close to the body when the magnetic therapy device is mounted. Therefore, here, a magnetic treatment device capable of exerting a sufficient magnetic force on the surface of the elongated body is provided, and health effects such as blood circulation promotion are enhanced.

  A magnetic treatment device according to a second aspect of the present invention is the magnetic treatment device according to the first aspect, wherein the plurality of magnets include two or more eccentric magnets. The eccentric magnet is a magnet arranged eccentrically from the central axis of the long body toward the center of curvature of the long body in the long body. In the elongated body, the two or more eccentric magnets are arranged at approximately equal intervals along the longitudinal direction.

  Here, two or more eccentric magnets are arranged in the long body at approximately equal intervals along the longitudinal direction. As a result, the action of a strong magnetic force can be exerted almost uniformly on the part of the body around which the magnetic therapy device is wound.

  A magnetic treatment device according to a third aspect of the present invention is the magnetic treatment device according to the first and second aspects, wherein the plurality of magnets include two or more strong magnets having a relatively strong magnetic force, And two or more weak magnets having a weak magnetic force. In the elongated body, the two or more strong magnets are arranged at approximately equal intervals along the longitudinal direction.

  If only a strong magnet having a relatively strong magnetic force is arranged in the long body, sometimes the magnetic force becomes too strong. However, if only a weak magnet having a relatively weak magnetic force is disposed, there is no portion that exerts a strong magnetic force, and a sufficient magnetic force effect cannot be obtained. However, here, a strong magnet and a weak magnet are used in combination. Two or more strong magnets are arranged at substantially equal intervals along the longitudinal direction. As a result, it is possible to obtain a balanced magnetic force effect that does not become too strong as a whole while exhibiting a strong magnetic force at approximately equal intervals with a strong magnet.

  A magnetic treatment device according to a fourth aspect of the present invention is the magnetic treatment device according to the third aspect, wherein the strong magnet is the eccentric magnet.

  Here, a strong magnet having a relatively strong magnetic force is arranged eccentrically from the central axis of the long body toward the center of curvature of the long body in the long body. Accordingly, the strong magnet is maintained at a position close to the body in a state where the magnetic treatment device is mounted on the body, and the effect of the strong magnetic force of the strong magnet can be further enhanced.

  ADVANTAGE OF THE INVENTION According to this invention, the magnetic treatment tool which can exhibit sufficient magnetic force in the surface of an elongate body is provided, and health effects, such as blood circulation promotion, are improved.

1 is an external view of a magnetic therapy device according to an embodiment of the present invention. The figure which shows a mode that the magnetic treatment tool (substantially half) which concerns on one Embodiment of this invention was extended linearly. The figure which shows the connection structure of the detachable connection part. The figure which shows the connection structure of the connection part by which removal is not assumed. V-V cross section of FIG. VI-VI sectional drawing of FIG. The figure which shows the metal mold | die (outside half body side) used by primary molding. The figure which shows the metal mold | die (magnet side) used by primary molding. The fragmentary sectional view of a pair of metal mold | die in primary molding. The fragmentary sectional view of a primary molded product. The figure which shows the metal mold | die (primary molded product side) used by secondary molding. The figure which shows the metal mold | die (inner half body side) used by secondary molding. The fragmentary sectional view of a pair of metal mold | die in secondary molding. The fragmentary sectional view of a secondary molded product.

  Hereinafter, a magnetic therapy device according to an embodiment of the present invention will be described with reference to the drawings.

<1. Configuration of magnetic therapy device>
In FIG. 1, the external view of the magnetic therapy tool 1 which concerns on this embodiment is shown. The magnetic treatment device 1 is used by being wrapped around a part of the body for the purpose of health effects such as blood circulation promotion by the action of magnetism. As shown in FIG. 1, the magnetic treatment device 1 has a long body 10 having flexibility, and in the long body 10, a plurality of magnets 21 and 22 are separated in the longitudinal direction. Embedded. The long body 10 may be transparent or opaque, and in the case of being opaque, the magnets 21 and 22 cannot be visually recognized from the outside. However, in FIG. Is shown as a solid line. In the other drawings as well, the internal configuration that cannot be visually recognized when the long body 10 and a top pipe 44 described later are opaque is indicated by a solid line.

  The magnetic therapy device 1 is prepared by preparing two magnetic therapy devices 1a shown in FIG. 2 and connecting them using connecting tools 30 and 40 (see FIGS. 3 and 4). However, it is also possible to form a magnetic treatment tool shorter than the magnetic treatment tool 1 by connecting both ends of one magnetic treatment tool 1a in a loop shape using the connection tool 30 (the connection tool 40 may be used). Is possible. Thus, the magnetic treatment device using only one magnetic treatment device 1a is suitable for being worn around a thinner arm as a bracelet. On the other hand, the magnetic treatment device 1 in which two magnetic treatment devices 1a are connected in a loop shape is suitable for being worn as a necklace around a thicker neck. However, the attachment location of the body is not limited to this, and it can be attached to any part of the body that requires the effect of magnetic force such as blood circulation promotion such as an ankle. In addition, it is also possible to connect three or more magnetic therapy devices 1a in a loop using an additional connector 40 (or the connector 30 may be used).

  As shown in FIG. 2, the magnetic therapy device 1a has a long body 10a and a plurality of magnets 21 and 22 arranged in the long body 10a along the longitudinal direction. The long body 10a constitutes the long body 10 together with another long body 10a. The long body 10a includes a long main body portion 11 in which a plurality of magnets 21 and 22 are embedded, a connecting portion 12 disposed at one end of the main body portion 11, and a connecting portion disposed at the other end of the main body portion 11. 13. The main body 11 is a solid member that covers all the directions of the internal magnets 21 and 22. Therefore, the magnets 21 and 22 cannot move within the main body 11. A gap may be partially provided in the main body 11.

  The long body 10a according to the present embodiment is made of silicone rubber. However, the material of the long body 10a is not limited to this, and various materials can be selected as long as the material is flexible enough to bend the magnetic treatment device 1 in a loop shape as shown in FIG. it can. For example, rubber materials other than silicone rubber, soft elastomers, soft resins, and the like can be selected, and urethane rubber, nitrile butadiene rubber, and the like can be suitably selected. However, silicone rubber is preferably selected from the viewpoint that the adverse effect on the skin is relatively small. Silicone rubber is also preferable in terms of its soft touch. As disclosed in Japanese Patent Application Laid-Open No. 2008-173405, a magnetic therapy device formed by a mixture in which magnetic powder is mixed with a main material of silicone rubber is known. And in the case of the magnetic treatment tool containing such magnetic powder, when a magnetic treatment tool touches a wearer's sweat etc., magnetic powder will carry a water | moisture content and swelling may occur rarely. However, in this embodiment, since the elongate body 10a does not contain a magnetic component, such swelling is prevented.

  FIG. 3 is a view showing a connecting structure of the connecting portions 12 and 12. The connecting portions 12 and 12 are detachably connected via a connector 30. The connecting portion 12 has a diameter that is slightly larger than that of the main body portion 11, and an opening S <b> 1 that can receive approximately half of the connecting tool 30 is formed therein. The connector 30 is a resin pin-like member, and is disposed at a position slightly closer to the stopper 33 than the center of the body shaft 31, the body shaft 31, stoppers 32 and 33 disposed at both ends of the body shaft 31, and the center shaft 31. And a stopper 34. The stoppers 32 to 34 are all flange-shaped portions having a diameter larger than that of the main body shaft 31, and the diameters are larger in the order of the stopper 33, the stopper 34, and the stopper 32. The opening S <b> 1 of the connecting portion 12 has a depth that is substantially half the length of the connecting tool 30 so as to correspond to the shape of the connecting tool 30. In addition, the opening S1 has a deepest portion S11 having the largest diameter, a central portion S12 having a smaller diameter, and an inlet portion S13 having a diameter smaller than the deepest portion S11 and larger than the central portion S12. . The central portion S12 is an opening that receives the main body shaft 31, and the innermost portion S11 is an opening that receives the stopper 33 or the stopper 32. The inlet portion S13 can receive the stopper 34. Then, the stoppers 33 and 34 are inserted into the opening S1 of the one connecting portion 12, and the stopper 32 is inserted into the opening S1 of the other connecting portion 12, whereby the connecting portions 12 and 12 are connected. Once the connecting portions 12 and 12 are connected, the stopper 32 has a smaller diameter than the stopper 33, so that it is difficult to remove the stopper 33 from the connecting portion 12, but the stopper 32 is relatively easy to remove. . Therefore, by attaching / detaching the stopper 32 to / from the opening S1 of the connecting portion 12 that receives the stopper 32, the magnetic treatment device 1 can be easily attached / detached to / from a site such as the neck of the wearer. In addition, since the connection parts 12 and 12 are the products made from the silicone rubber which has flexibility, attachment / detachment with the connection tool 30 is easily implement | achieved by the elasticity of such a material.

  FIG. 4 is a view showing a connecting structure of the connecting portions 13 and 13. Unlike the connection parts 12 and 12, the connection parts 13 and 13 are not assumed to be detached, and are connected to each other through the connection tool 40 in a manner that makes it difficult to attach and detach. The connecting portion 13 has the same configuration as the connecting portion 12. On the other hand, the connector 40 is a resin-made pin-like member, and includes a main body shaft 41 and stoppers 42 and 43 disposed at both ends of the main body shaft 41. The stoppers 42 and 43 are larger in diameter than the main body shaft 41 and have the same diameter as the stopper 33 described above. Accordingly, once the stoppers 42 and 43 are inserted into the openings S1 of the connecting portions 13 and 13, it is difficult to remove the connecting portions 13 and 13. The main body shaft 41 is longer than the main body shaft 31 of the connector 30, and a top pipe 44 is attached around the main body shaft 41. The top pipe 44 according to the present embodiment is formed of silicone rubber similarly to the long body 10a, but may be formed of a different material. The top pipe 44 can be a decorative part. Therefore, by devising the material, color, shape, and the like of the top pipe 44, the added value as an accessory of the magnetic therapy device 1 can be increased.

  Next, the magnets 21 and 22 will be described. Each of the magnets 21 and 22 has a rectangular parallelepiped shape, and the magnet 21 is stronger in magnetism than the magnet 22. As shown in FIG. 1, in the present embodiment, four magnets 21 are arranged at approximately equal intervals (approximately 90 ° intervals) along the longitudinal direction of the loop-shaped magnetic treatment device 1. And the magnet 22 is arrange | positioned so that between these four magnets 21 may be filled at equal intervals. Four magnets 22 are arranged between adjacent magnets 21 and 21. In addition, the arrangement | sequence of the whole magnets 21 and 22 is also substantially equal intervals. However, the interval between the magnets in the vicinity of the connecting portions 12 and 13 is designed to be slightly shorter than the interval between the magnets in the center of the main body 11 far from the connecting portions 12 and 13. This is because, when the magnetic therapy device 1 is connected in a loop shape, the magnetic force is weakened in the vicinity of the connecting portions 12 and 12 and the connecting portions 13 and 13 where the magnet is not embedded, so that this is complemented.

  By the way, if only the relatively strong magnet 21 is disposed in the magnetic treatment device 1, the magnetic force sometimes becomes too strong. However, if only the magnet 22 having a relatively weak magnetic force is arranged, there is no portion that exhibits a strong magnetic force, and a sufficient magnetic force effect cannot be obtained. However, in this embodiment, with the arrangement of the magnets 21 and 22 as described above, the magnet 21 exerts a strong magnetic force in a pinpoint manner at approximately equal intervals, and the overall magnetic force does not become too strong. The effect of the magnetic force is demonstrated.

  FIG. 2 shows a state in which the magnetic therapy device 1a is pulled from both ends and stretched linearly. However, the long body 10a, and hence the magnetic treatment device 1a, is formed so as to be naturally curved in a certain direction along the longitudinal direction when no external force is applied. Therefore, when such magnetic treatment tools 1a and 1a are formed in a loop shape using the connecting tools 30 and 40, the surface facing the center of the loop in the magnetic treatment device 1 is constant. Then, the magnetic treatment device 1a can be easily wrapped around the body by the curved scissors of the magnetic treatment device 1a. In addition, although such a curved wrinkle of the elongate body 10a is given by the manufacturing method mentioned later, the method of giving a curved wrinkle is not restricted to this. For example, a curved wrinkle can be generated by forming two portions obtained by virtually dividing the long body 10a along a plane parallel to the central axis A1 from materials having different flexibility. In such a magnetic treatment device 1, a portion having greater flexibility is naturally arranged on the inner side, and a portion having smaller flexibility is naturally arranged on the outer side. Alternatively, the curved wrinkles can also be generated by forming two portions of the long body 10a that are virtually divided by a plane parallel to the central axis A1 with materials having different shrinkage rates.

  5 is a cross-sectional view taken along the line VV in FIG. 1, and FIG. 6 is a cross-sectional view taken along the line VI-VI in FIG. As shown in the figure, the center of the magnet 22 substantially overlaps the central axis A <b> 1 of the long body 10. On the other hand, the magnet 21 is arranged in the long body 10 so as to be decentered from the central axis A1 of the long body 10 toward the center of bending of the magnetic treatment device 1 by the above-described bending scissors. In other words, of the silicone rubber part covering the magnet 21, the thickness of the part that naturally comes to the inside of the magnet 21 by the curved scissors when the magnetic treatment device 1 is wound in a loop shape is naturally outside the magnet 21. It is comprised so that it may become thinner than the thickness of the coming part. As a result, when the magnetic treatment tool 1 is to be wrapped around the body, the magnet 21 is naturally arranged on the inner side of the loop without being conscious of the user. Therefore, when the magnetic therapy device 1 is mounted, the magnet 21 is disposed in the vicinity of the body, and a sufficient magnetic force effect such as blood circulation promotion is exhibited. In addition, the magnetic therapy device 1 may rotate with the movement of the wearer and the position of the magnet 21 may move. However, the direction of movement of the magnet 21 is limited to the circumferential direction of the loop of the magnetic therapy device 1 in principle. . That is, it is difficult for the magnetic treatment device 1 to rotate in the radial direction of the loop due to the curved scissors of the magnetic treatment device 1, and the magnet 21 is always maintained at a position close to the body.

Although the dimension and material of each part of the magnetic therapy device 1 can be set as appropriate, in the present embodiment, as a suitable example, they are set as follows. That is, the dimensions of the magnets 21 and 22 and the silicone rubber portions around the magnets 21 and 22 in the radial cross section of the magnetic therapy device 1 are as shown in FIGS. 5 and 6. Moreover, the dimensions of the magnets 21 and 22 along the longitudinal direction of the magnetic therapy device 1 are 10.06 mm and 6.00 mm, respectively. In the present embodiment, as a suitable example, a samarium cobalt magnet (component ratio: Sm22%, Co62.5%, Pr15%, Fe0.16%, Sn0.34%) is selected as the magnet 21, and the magnet 22 is selected. As a wet anisotropic strontium ferrite magnet (component ratio: SrO 10%, Fe ₂ O ₃ 90%) is selected. The magnetic flux density on the surface of the magnet 21 is about 350 mT, and the magnetic flux density on the surface of the magnet 22 is about 120 mT. Furthermore, the magnetic flux density of the magnet 21 on the surface of the long body 10 is about 150 mT (measured at a position closest to the magnet 21), and the magnetic flux density of the magnet 22 on the surface of the long body 10 is about 70 mT ( (Measured at a position closest to the magnet 22). A polyacetal resin is selected as a material for the couplers 30 and 40.

<2. Manufacturing method>
Hereinafter, the manufacturing method of the above-described magnetic therapy device 1 according to the present embodiment will be described. In this manufacturing method, the magnetic treatment tool 1 is manufactured through two moldings of primary molding and secondary molding.

  First, a sheet made of silicone rubber that is a material of the long body 10 is manufactured. This sheet is produced, for example, by adding a vulcanizing agent and a pigment as appropriate to a silicone rubber compound and kneading them to form a sheet. In this embodiment, as a suitable example, silicone rubber compound (TSE260-7U) and additive (TC-8E) manufactured by Momentive Performance Materials Japan GK are used as the silicone rubber compound and vulcanizing agent. used.

  Then, the long member which has the shape of the half of the main-body part 11 of the elongate body 10a from the above sheet | seat is cut out. In addition, the half body of the main-body part 11 is one part which divided | segmented the main-body part 11 virtually on the surface containing central axis A1 extended along a longitudinal direction. Further, this half corresponds to a portion of the main body 11 that comes outside due to the above-described curved scissors when the magnetic therapy device 1 is wound in a loop shape. In this sense, hereinafter, the long member cut here is referred to as an outer half.

  In addition, a necessary number of magnets 21 and 22 to be embedded in the magnetic therapy device 1 are prepared. In the present embodiment, an appropriate primer solution serving as an adhesive or an adhesion improver is applied to the surfaces of the magnets 21 and 22 in order to ensure adhesion to the outer half made of silicone rubber. It is preferable to select a primer solution that does not change the magnetic fluxes of the magnets 21 and 22, for example, Kunshan Kensho? JX-201 manufactured by Materials Co., Ltd. can be used. Further, if the magnet is of a kind that easily rusts, such as a samarium cobalt magnet, it is preferable to apply a rust preventive coating before applying the primer solution.

  When the above preparation is completed, primary molding is performed. In the primary molding, a pair of molds 51 and 52 shown in FIGS. 7 and 8 are used. The mold 51 is a plate-like member in which a large number of outer half-shaped grooves 51b are formed on one surface 51a. The mold 52 is a plate-like member in which a large number of rectangular parallelepiped openings 52b and 52c in which magnets 21 and 22 can be arranged are formed on one surface 52a. The opening 52b is an opening for setting the magnet 21, and the opening 52c is an opening for setting the magnet 22. The openings 52b and 52c are arranged at positions facing the groove 51b when the surfaces 51a and 52a of the molds 51 and 52 are opposed to each other. The openings 52b and 52c are formed on the surface 52a of the mold 52 in accordance with the arrangement order and intervals of the magnets 21 and 22 in the completed product of the magnetic therapy device 1a.

  And each groove | channel 51b of the metal mold | die 51 is filled with an outer half body, and the magnets 21 and 22 are set to each opening 52b and 52c of the metal mold | die 52, respectively. And as shown in FIG. 9, the metal mold | die 51 is piled up on the metal mold | die 52 so that the surfaces 51a and 52a may face each other, and a press work is performed (primary molding). The outer half silicone rubber after the primary molding is preferably in a semi-vulcanized state. This primary molding can be performed under normal temperature or a high temperature environment higher than normal temperature. In this embodiment, the mold is applied under a high temperature environment of 185 ° C. with a load of 8.5 tons for 5 minutes. FIG. 9 is a partial cross-sectional view of the molds 51 and 52 during the primary molding, and includes a cross section of the molds 51 and 52 at the positions indicated by the dotted lines C1 and C2 in FIGS. During the primary molding, the upper surfaces of the magnets 21 and 22 (the surfaces on the opposite side of the outer half) are pressed against the mold 52, so the positions of the magnets 21 and 22 in the vertical direction (the direction in which the molds 51 and 52 are disposed). The magnets 21 and 22 are bonded to the outer half in this state.

  FIG. 10 is a partial cross-sectional view of the primary molded product 15 manufactured by primary molding. The primary molded product 15 is arranged on the outer half along the longitudinal direction so that the plurality of magnets 21 and 22 are exposed on the upper surface. Further, as shown in FIG. 9, the opening 52 b for the magnet 21 of the mold 52 is deeper than the opening 52 c for the magnet 22, and therefore in the primary molded product 15, the distance from the lower surface of the outer half body to the upper surface of the magnet 21. d1 is longer than the distance d2 from the lower surface of the outer half to the upper surface of the magnet 22. In other words, in the primary molded product 15, on the upper surface of the outer half, the magnet 21 protrudes upward by d 1 from the lower surface of the outer half, and the magnet 22 protrudes upward by d 2 shorter than d 1 from the lower surface of the outer half. Yes.

  When the above primary molding is completed, secondary molding is performed next. Prior to the secondary molding, a long member having approximately the shape of a half of the long body 10a is cut out from the above-mentioned silicone rubber sheet. In addition, the half body of the long body 10a is one part which divided | segmented the long body 10a virtually on the surface containing central axis A1 extended along a longitudinal direction. Further, this half corresponds to a portion of the long body 10a that comes inward by the above-described curved scissors when the magnetic therapy device 1 is wound in a loop shape. In this sense, the long member cut here is hereinafter referred to as an inner half.

  In the secondary molding, a pair of molds 61 and 62 shown in FIGS. 11 and 12 are used. The mold 61 is a plate-like member in which a large number of outer half-shaped grooves 61b are formed on one surface 61a. The groove 61b is an opening for setting the primary molded product 15. Further, openings 61c and 61d in the shape of the connecting portions 12 and 13 are continuous with both ends of the groove 61b. The mold 62 is a plate-like member in which a groove 62b and openings 62c and 62d having the same shape as the groove 61b and the openings 61c and 61d of the mold 61 are formed on one surface 62a. The groove 62b and the openings 62c and 62d are disposed at positions facing the groove 61b and the openings 61c and 61d, respectively, when the surfaces 61a and 62a of the molds 61 and 62 are opposed to each other.

  Then, the primary molded product 15 is arranged in each groove 61b of the mold 61, and each opening 61c, 61d of the mold 61 is filled with a silicone rubber material cut into the shape of the opening 61c, 61d. The silicone rubber material filled in the openings 61c and 61d is also cut out from the above-described silicone rubber sheet. At this time, a metal member corresponding to the shape of the opening S1 is disposed on the silicone rubber material in the openings 61c and 61d in order to form the opening S1 for inserting the couplers 30 and 40. Further, the magnets 21 and 22 included in the primary molded product 15 are arranged so as to face the outside of the groove 61b. On the other hand, each groove 62b and the openings 62c and 62d of the mold 62 are filled with the inner half.

  And as shown in FIG. 13, the metal mold | die 62 is piled up on the metal mold | die 61 so that the surfaces 61a and 62a may face each other, and a press work is performed (secondary molding). This secondary molding can be performed at room temperature or in a high temperature environment higher than room temperature. In the present embodiment, a 8.5-ton load is applied to the mold under a high temperature environment of 185 ° C. It takes a long 7 minutes. FIG. 13 is a partial cross-sectional view of the dies 61 and 62 during the secondary molding, and includes a cross section of the dies 61 and 62 at positions indicated by dotted lines C3 and C4 in FIGS. Then, by the secondary molding, vulcanization of the outer half and the inner half proceeds, and both are bonded. After the secondary molding, the secondary molded product is placed in an oven at 200 ° C. for 4 hours, for example, so that the outer half body and the inner half body can be further vulcanized.

  After the secondary molding, the secondary molded product is taken out from the molds 61 and 62 after waiting for the temperature to drop. FIG. 14 is a partial cross-sectional view of a secondary molded product manufactured by secondary molding. The secondary molded product is an elongated body 10a of silicone rubber having magnets 21 and 22 embedded therein along the longitudinal direction, that is, the magnetic therapy device 1a. Further, the metal member corresponding to the shape of the opening S1 described above is removed, and the opening S1 is opened.

  At the time of performing the secondary molding, the outer half body included in the primary molded product 15 is already hardened because the press molding has already been performed once. Therefore, during the secondary molding, the magnets 21 and 22 are difficult to move with respect to the outer half, and the vertical positions of the magnets 21 and 22 in the magnetic therapy device 1a are stabilized. In the present embodiment, the magnets 21 and 22 are firmly bonded to the outer half through the primary molding, and the movement of the magnets 21 and 22 during the secondary molding is remarkably suppressed. As a result, the positions of the magnets 21 and 22 in the magnetic treatment device 1a for each product are unlikely to vary, and as a result, the magnetic force on the surface of the magnetic treatment device 1a is stabilized.

  Further, at the time of secondary molding, the outer half that has already undergone shrinkage through the primary molding has a smaller shrinkage rate than the inner half that is molded for the first time in the secondary molding. As a result, in the secondary molding, among the silicone rubber material that becomes the long body 10a, the inner half contracts more than the outer half, so that the magnetic therapy device 1a bends toward the inner half. become. As a result, a curl that naturally curves toward the inner half of the magnetic treatment device 1a is generated, and the magnetic treatment device 1 can be easily wrapped around the body.

  As shown in FIG. 14, the secondary molded product is formed such that the thickness of the silicone rubber material covering the magnet 21 is smaller in the inner portion than in the outer portion. For this reason, when the magnetic treatment device 1 is mounted, the curved portion of the magnetic treatment device 1a described above naturally causes the inner portion to face the inside of the loop, and as a result, the magnet 21 is naturally biased to the inside of the loop, thereby promoting blood circulation. The effect of magnetic force such as is effectively exhibited.

  In addition to the primary and secondary molding, the connectors 30 and 40 and the top pipe 44 are molded using different molds. And the magnetic therapy tool 1 is manufactured by connecting these parts 12, 13, 44 and the two magnetic therapy tools 1a by the aspect mentioned above.

<3. Modification>
As mentioned above, although one Embodiment of this invention was described, this invention is not limited to the said embodiment, A various change is possible unless it deviates from the meaning. For example, the following changes can be made. In addition, the gist of the following modifications can be combined as appropriate.

<3-1>
In the above-described embodiment, only the magnet 21 of the magnets 21 and 22 is formed to be eccentric toward the inside of the loop in the long body 10, but the magnet 22 is similarly formed in the long body 10. It can form so that it may become eccentric toward the inner side of a loop. Alternatively, only the magnet 22 of the magnets 21 and 22 can be similarly eccentric.

<3-2>
In the above embodiment, the two types of magnets 21 and 22 are used in combination, but only magnets having the same size and / or magnetic force can be used.

<3-3>
The conditions for primary molding and secondary molding are not limited to those described above. For example, the primary molding time and the secondary molding time are not limited to 5 minutes and 7 minutes, and the primary molding and the secondary molding may be performed for the same time, or the primary molding may be made longer. . The temperature and load can also be changed as appropriate.

  As temperature conditions of primary shaping | molding and secondary shaping | molding, 160 to 185 degreeC is preferable and 175 to 185 degreeC is more preferable. Any temperature and time can be selected as long as the vulcanization of the outer and inner halves proceeds appropriately.

  In addition, the present inventors have (primary molding time, secondary molding time) = (5 minutes, 7 minutes), (5 minutes, 5 minutes), (7 minutes, 7 minutes), (10 minutes, 10 minutes) In other respects, the magnetic therapy device 1a was manufactured under the same conditions as in the above embodiment. And in the state which applied about 10% tension | tensile_strength for these magnetic therapy tools 1a to the longitudinal direction, salt solution, sodium hypochlorite, chlorinated water, body soap, hydrochloric acid, artificial sweat (alkali), artificial sweat (acid) ), And dipped in each solution of castor oil and ethanol for 8 days. Then, when it was confirmed whether or not a crack was generated at the joint between the primary molded portion and the secondary molded portion (the joint between the outer half and the inner half), no crack was confirmed in all tests.

1 Magnetic therapy device 1a Magnetic therapy device (approximately half)
10 Long body 10a Long body (approximately half)
21 Magnet (eccentric magnet, strong magnet)
22 Magnet (weak magnet)

Claims (3)

A magnetic therapy device that is used by wrapping around a body part,
A long body having flexibility;
A plurality of magnets arranged in the longitudinal direction along the longitudinal direction,
The elongated body is curved along the longitudinal direction,
The plurality of magnets includes at least one eccentric magnet arranged eccentrically from a central axis of the long body toward a center of curvature of the long body in the long body ,
The plurality of magnets include two or more strong magnets having a relatively strong magnetic force and two or more weak magnets having a relatively weak magnetic force,
In the elongated body, the two or more strong magnets are arranged at approximately equal intervals along the longitudinal direction.
Magnetic therapy tool. The plurality of magnets includes two or more eccentric magnets arranged eccentrically from a central axis of the long body toward a center of curvature of the long body in the long body,
In the elongated body, the two or more eccentric magnets are arranged at substantially equal intervals along the longitudinal direction.
The magnetic treatment device according to claim 1. The strong magnet is the eccentric magnet.
The magnetic therapy tool according to claim 1 or 2 .