JP2014104342A - High-gauss magnetic treatment device for total-body treatment and part-of-body treatment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make the feature "magnetism generation means usable as support posts" compatible with the feature "improved magnetic efficiency" with one end of a coil bobbin entered into a magnetic pole hole in a case body inner surface and with a flange part of the coil bobbin contacting the case body inner surface.SOLUTION: In a magnetic treatment device including a case body 2 provided with a magnetic action surface 2a, and magnetism generation means 3 built in the case body 2, the magnetism generation means 3 comprises: a coil bobbin 6 with a spool 5 having flanges 4, 4 at both ends and with the spool 5 wound by electric wires around it; and an iron core 7 fitted into the spool 5 with one end part 7a projecting from one flange of the coil bobbin 6. The projecting one end part 7a of the iron core 7 is entered into a magnetic pole hole 8 formed in an inner surface of the magnetic action surface 2a, and one flange 4 is brought into contact with the inner surface of the magnetic action surface 2a, thereby regulating a concavity to the inner surface of the magnetic action surface 2a by the magnetism generation means 3. The projecting one end part 7a of the iron core 7 is shaped tapering down, and the magnetic pole hole 8 in the inner surface of the magnetic action surface 2a is shaped widening toward the opening.

Description

  The present invention relates to a belt-type high gauss magnetic therapy device that includes a magnetism generating means built in a case body having a magnetic action surface, improves blood circulation by magnetism, and is used for health promotion of a person (animal).

2. Description of the Related Art Conventionally, an electromagnetic health promoter that includes a plurality of electromagnets and promotes blood circulation is known (see Patent Document 1).
The electromagnetic health promoter is configured to vary a current or a voltage applied to a plurality of electromagnets and at least one electromagnet coil of the plurality of electromagnets, and to at least one other electromagnet coil of the plurality of electromagnets. A magnetic force control means capable of supplying a current or voltage of a certain strength and a flat protective plate covering the magnetism generating portion, and the magnetic force of a plurality of electromagnets inside the flat protective plate is effective for the human body. And a box formed by arranging a plurality of electromagnets at the position of the irradiated magnetism generating portion.

JP 2004-329584 A

However, the electromagnetic health promoter described in Patent Document 1 includes a planar heating element disposed between the box inner surface side of the planar protection plate and each electromagnet, and between the planar heating element and each electromagnet. A heat insulating material is also provided that covers the planar heating element.
That is, in this electromagnetic health promoter, the magnetism from the electromagnet does not reach the human body unless it passes through three layers of the heat insulating material, the planar heating element, and the planar protective plate, and the magnetic force is inversely proportional to the square of the distance. Therefore, the efficiency of magnetism generation is very poor.
Furthermore, in the electromagnetic health promoter of patent document 1, a clearance gap exists between an electromagnet and a box upper surface part (FIG. 7, 8 of patent document 1). Accordingly, there is a possibility that the box upper surface portion may be dented due to the user's falling on the upper surface portion of the wide box, and a separate shield plate is essential, resulting in an increase in the number of parts and an increase in weight.

  In view of such a point, the present invention allows one end of the iron core protruding from the flange portion of the coil bobbin to enter a magnetic pole hole formed on the inner surface of the case body on the magnetic acting surface side, and the flange portion of the case body is By contacting the inner surface and restricting the dent of the magnetic acting surface with the magnetism generating means, it is possible to achieve both "combined support of the case body by the magnetism generating means" and "improvement of magnetic efficiency" and one end of the protruding iron core It is an object of the present invention to provide a high Gaussian magnetic therapy device in which the positioning allowable range can be extended by forming the taper shape in a tapered shape and forming the magnetic pole hole on the inner surface of the magnetic action surface side so as to widen at the end of the opening.

  A high Gaussian magnetic therapy device 1 according to the present invention is a high Gaussian magnetic therapy device having a case body 2 provided with a magnetic action surface 2a and magnetism generating means 3 incorporated in the case body 2. The body 2 is formed in a substantially rectangular parallelepiped shape with an upper case body 22 having a substantially rectangular shape in plan view whose outer upper surface constitutes the magnetic action surface 2a and a lower case body 21 in plan view having a substantially rectangular shape supporting the magnetism generating means 3. A pair of flat plate portions 23, 23 extending from the middle portion in the thickness direction are provided, and these flat plate portions 23, 23 are respectively only from the upper end portions of the outer peripheral surfaces of the pair of long sides of the substantially rectangular lower case body 21. It is a flat plate having a substantially rectangular shape in plan view extending in a substantially horizontal direction, each having a long hole 23b that penetrates in the thickness direction and passes a band-shaped member. The magnetism generating means 3 has flanges 4a and 4b at the upper and lower ends. Of the provided spool section 5 Two coil bobbins 6 and 6 wound with electric wires on the surface, and a pair of core branch portions fitted into the respective spool portions 5 in a state where each upper end portion 7a protrudes from the upper collar portion 4a of each of the coil bobbins 6 and 6 12 and 12 are provided with a substantially U-shaped iron core 7 provided at both ends of the iron core body 11 having a substantially square cross section, and an electric wire wound around each spool portion 5 is provided on the lower collar portion 4b of each of the two coil bobbins 6 and 6. A guide groove is provided for guiding at the start or end of winding, and a concave portion 13 in which both the adjacent upper collar portions 4a and 4a of the two coil bobbins 6 and 6 are incorporated in the case body 2 is fitted, and the concave portion A pair of magnetic pole holes 8, 8 are formed on the inner surface of the upper case body 22 on the magnetic action surface 2 a side, and the protruding upper end portions 7 a of the iron core branch portions 12 of the iron core 7 are formed in the magnetic pole holes 8. Enter and above Both the parts 4a and 4a are brought into contact with the inner bottom surface of the concave portion 13 of the upper case body 22, and the depression to the inner surface side of the magnetic action surface 2a is regulated by the coil bobbin 6 and the iron core 7, and the iron core When the upper end portion 7a protruding from each iron core branch portion 12 is tapered with an inclined surface, and the inner peripheral surface having a widening end is formed in each magnetic pole hole 8 in the concave portion 13 of the upper case body 22. At the same time, the first feature is that a gap is formed between the inner peripheral surface of each magnetic pole hole 8 and the inclined surface of each upper end portion 7 a of the iron core 7.

  The second feature of the high Gaussian magnetic therapy device 1 according to the present invention is that, in addition to the first feature, the top surface 9 formed on each upper end portion 7a of the iron core 7 in the magnetism generating means 3 has The inclined surface formed on each upper end portion 7a of the iron core 7 in the magnetism generating means 3 is opposed to the inner bottom surface 10 of each magnetic pole hole 8 in the concave portion 13 of the case body 22, and It is in the point facing the inner peripheral surface of the magnetic pole hole 8.

  A third feature of the high gauss magnetic therapy device 1 according to the present invention is that, in addition to the first or second feature, fixed cylinders are erected at four corners of the inner bottom surface of the lower case body 21, and the upper case The body 22 is provided with fixing holes penetrating the four corners, and the upper and lower case bodies 21 and 22 are integrally fixed by screwing the fixing means passing through the fixing holes into the fixing cylinder of the lower case body 21. In the point.

  Further, the high Gaussian magnetic therapy device 1 has two magnetism generating means 3 composed of the two coil bobbins 6 and 6, and the adjacent one of the ribs 4 to 4 in the two magnetism generating means 3 and 3. 4 is formed in the inner surface of the case body 2 on the magnetic action surface 2a side, and the flange 15 that partitions the large recess 14 into the respective recesses 13 and 13 The case body 2 may be formed so as to protrude from the inner surface on the magnetic action surface 2a side.

Due to these characteristics, the magnetism generating means 3 has a coil bobbin 6 in which an electric wire is wound around the peripheral surface of the spool portion 5 provided with the flange portions 4 and 4 at both ends, and one end portion 7a protruding from the one flange portion 4 And the one end 7a protruding from the iron core 7 is inserted into the magnetic pole hole 8 formed on the inner surface of the case body 2 on the magnetic action surface 2a side, The portion 4 is brought into contact with the inner surface of the magnetic action surface 2 a side, and the dent of the magnetic action surface 2 a is restricted by the magnetism generation means 3, so that the magnetism generation means 3 is supported by the magnetic action surface 2 a of the case body 2. At the same time, one end (magnetic emission end) of the iron core 7 can be brought closer to the human body by the amount of protrusion (the amount that has entered the magnetic pole hole 8), and the efficiency of magnetic generation can be improved. .
In other words, it is possible to achieve both “the support of the case body by the magnetism generating means” and “the improvement of the magnetic efficiency”.
Furthermore, by forming the protruding one end portion 7a of the iron core 7 in a tapered shape, the magnetic flux density from the magnetic emission end increases, and as a result, the emitted magnetic force (Gauss) increases and the magnetic action surface 2a side is increased. By forming the magnetic pole hole 8 on the inner surface so as to widen at the end of the opening, the inclined inner peripheral surface 8a inclined at the magnetic pole hole 8 is along the inclined surface at the projecting one end 7a of the tapered iron core 7. .
Accordingly, the magnetic pole hole 8 is not divergent (that is, the inner peripheral surface 8a of the magnetic pole hole 8 is oriented in the vertical direction), and the protruding end portion 7a of the iron core 7 is not tapered (that is, the side surface of the protruding end portion 7a is also Compared with the case of facing the vertical direction), in the present invention, the protruding one end portion 7a of the iron core 7 enters the magnetic pole hole 8, and one flange portion 4 is brought into contact with the inner surface on the magnetic action surface 2a side. In this state, the allowable range for shifting the magnetism generating means 3 with respect to the case body 2 is widened, and the positioning allowable range for assembling the high gauss magnetic therapy device 1 is widened, thereby facilitating the assembly.

  Further, the top surface 9 formed on the one end portion 7a of the iron core 7 is opposed to the inner bottom surface 10 of the magnetic pole hole 8 on the inner surface on the magnetic action surface 2a side, so that the one end portion 7a of the iron core 7 is tapered. In addition, it is possible to suppress a pointed portion at one end portion 7a of the iron core 7 (for example, an edge portion that separates the top surface 9 from other surfaces) and the like, and to prevent the case body 2 from penetrating the magnetic action surface 2a side. The top surface 9 of the portion 7 a abuts against the inner bottom surface 10 of the opposing magnetic pole hole 8, so that the magnetic action surface 2 a of the case body 2 can be supported between the top surface 9 and the inner bottom surface 10.

  The magnetism generating means 3 is configured by fitting the two coil bobbins 6 and 6 into the substantially U-shaped iron core 7, and the recess 13 that can position the flanges 4 and 4 of the two coil bobbins 6 and 6 is magnetically By being formed on the inner surface on the working surface 2a side, the plurality of magnetism generating means 3 can be disposed at the same position as the support column at the same time, and the assembly can be further facilitated while ensuring the strength of the case body 2.

  In addition, when the large recessed part 14 which can position the collar parts 4-4 of the two magnetism generating means 3 and 3 is divided into the recessed parts 13 and 13 by the flange 15, a total of four coil bobbins 6 to 6 are used. Even in this case, easy positioning can be performed, and the strength of the magnetic action surface 2a in the case body 2 can be improved at the same time by the flange 15 protruding from the inner surface.

  According to the high Gaussian magnetic therapy device according to the present invention, one end of the iron core protruding from the flange portion of the coil bobbin is made to enter the magnetic pole hole formed on the inner surface of the case body on the magnetic action surface side, and the flange portion is The inner surface of the magnetically acting surface is tapered so that the dent of the magnetically acting surface is regulated by the magnetism generating means while being in contact with the inner surface. Thus, it is possible to simultaneously realize both “the support of the case body by the magnetic generation means” and “improvement of the magnetic efficiency” and the extension of the positioning allowable range of the magnetic generation means with respect to the case body.

(A) is a perspective view which shows the high Gaussian magnetic therapy device based on this invention of 1st Embodiment, (b) is a perspective view which shows the cross section of a high Gaussian magnetic therapy device. (A) is a perspective view which shows the lower case body and magnetism generating means of the high Gaussian magnetic therapy device of a 1st embodiment, and (b) is a perspective view which shows the magnetism generating means supported by the lower case body. (A) is a perspective view which shows the upper case body and magnetism generating means of 1st Embodiment, (b) is a perspective view which shows the magnetism generating means contact | abutted to the upper case body. (A) is a perspective view which shows the lower case body and magnetism generating means of the high Gaussian magnetic therapy device of 2nd Embodiment, (b) is a perspective view which shows the magnetism generating means supported by the lower case body. (A) is a perspective view which shows the upper case body and magnetism generation means of 2nd Embodiment, (b) is a perspective view which shows the magnetism generation means contact | abutted to the upper case body.

Embodiments of the present invention will be described below with reference to the drawings.
<First Embodiment>
1 to 3 show a high Gaussian magnetic therapy device 1 according to the present invention of a first embodiment.
The high Gaussian magnetic therapy device 1 includes a case body 2 having a magnetic action surface 2a, a magnetism generating means 3 built in the case body 2, a cord, an electric wire and the like for supplying current to the magnetism generating means 3. It has a supply means (not shown).

<Case body 2>
The case body 2 in the present invention is made of synthetic resin such as silicon resin and nylon (polyamide) polymer, and engineering plastic such as polyacetal and polycarbonate, and the shape thereof is a substantially rectangular parallelepiped shape, from the middle in the thickness direction. In addition, a flat plate (a flat plate portion 23 described later) extends in a substantially horizontal direction. Further, the case body 2 can be divided vertically and includes a lower case body 21 and an upper case body 22.

<Lower case body 21>
As shown in FIGS. 1 and 2, the lower case body 21 is a container-like member that supports the magnetism generating means 3 having the two coil bobbins 6 and 6 from below and is substantially rectangular in plan view, and has a pair of long sides Flat plate portions 23, 23 extending in a substantially horizontal direction from the upper end portion of the outer side surface are provided in a pair (front and rear).
The flat plate portion 23 is also substantially rectangular in a plan view, and has a hole (a round hole 23a through which a screw or the like passes, a long hole 23b through which a belt-like member or the like passes) or the like penetrating in the thickness direction. It may be done.

On the inner bottom surface of the lower case body 21, a pair of locking pieces 24, 24 that stand and hold the magnetism generating means 3, in particular, a substantially prismatic iron core body 11 of the iron core 7 to be described later, are erected. Yes.
Each of the pair of locking pieces 24, 24 is substantially U-shaped in a plan view, and each locking piece 24 has locking piece branch portions 24b, 24b provided at both ends of the locking piece body portion 24a. Are deployed to face each other.
Therefore, when the iron core body 11 is placed between these locking pieces 24, the magnetism generating means 3 is supported at a predetermined position, that is, the magnetism generating means 3 is supported so as not to move downward, and is supported. At the predetermined position, the projecting one end 7 a of the iron core 7 on the upper surface side of the magnetism generating means 3 is a position corresponding to the magnetic pole hole 8 on the inner surface of the upper case body 22.

Note that fixed cylinders are erected at the four corners on the inner bottom surface of the lower case body 21, and the upper and lower case bodies 21, 22 are integrally fixed by screws or the like that are inserted into fixing holes described later of the upper case body 22. Is done.
Further, if the upper and lower case bodies 21 and 22 are integrally fixed, they are not limited to the configuration of these fixed cylinders, fixing holes, screws and the like, and may be integrally fixed by fitting or bonding.

<Upper case body 22>
As shown in FIGS. 1 and 3, the upper case body 22 is a lid-like member covering the magnetism generating means 3 having the two coil bobbins 6 and 6 and having a substantially rectangular shape in plan view.
The outer upper surface of the upper case body 22 constitutes a planar magnetic action surface 2 a in the case body 2.

The magnetic action surface 2a does not necessarily have to be a flat surface. Even if it is a curved surface in which a depression is formed in accordance with the shape of the user's waist, shoulder, arm, leg, etc., The surface which consists of both planes may be sufficient.
On the magnetic action surface 2a, the ridges that are substantially concentrically arranged in an approximately 8-character figure form a pattern resembling lines of magnetic force.
However, this pattern may be composed only of concentric circles or single circles, or may not be formed.

A pair of magnetic poles (left and right) into which the projecting one end portion 7a of the iron core 7 of the magnetism generating means 3 can enter each of the inner upper bottom surface of the upper case body 22 (that is, the inner surface of the case body 2 on the side of the magnetic action surface 2a). Holes 8 and 8 are formed.
Each of these magnetic pole holes 8 has a bottom surface (inner bottom surface 10) that is substantially flat and substantially horizontal.
Further, the magnetic pole hole 8 is substantially circular in plan view, and the projecting end 7a of the iron core 7 of the magnetism generating means 3 positioned by the locking pieces 24, 24 of the lower case body 21 is provided at the approximate center of the circle. (In particular, it is located on the top surface 9 of the one end portion 7a).
The depth of the magnetic pole hole 8 substantially coincides with the length of the one end portion 7 a of the iron core 7 protruding from the one flange portion 4 of the coil bobbin 6.

In addition to this, the inner peripheral surface 8a of the magnetic pole hole 8 is formed in an end-opening widening shape in which the diameter increases from the inner bottom surface 10 toward the opening end side (that is, in a downward-end-opening shape in which the diameter increases toward the lower side). .
The inner peripheral surface 8a having a widening shape at the end of the opening is along an inclined surface at one end portion 7a from which the tapered iron core 7 protrudes.
The inclined surface and the inner peripheral surface 8a may have substantially the same inclination.

Further, the two adjacent ones of the coil bobbins 6 and 6 of the two magnetism generating means 3 are fitted to the inner surface (inner upper and lower surface) of the upper case body 22 on the magnetic action surface 2a side. The recessed portion 13 that can be positioned is also formed.
The recess 13 is substantially rectangular in plan view, and is recessed so as to surround both of the two adjacent flanges 4 and 4 from the outside.
If two adjacent flanges 4, 4 are assigned to the recessed portion 13 thus recessed, the projecting one end 7 a of the iron core 7 in the magnetism generating means 3 becomes a position corresponding to the magnetic pole hole 8.
Thus, by forming the concave portion 13 that can position the flange portions 4 and 4 of the two coil bobbins 6 and 6 on the inner surface on the magnetic action surface 2a side, the plurality of magnetism generating means 3 can be positioned simultaneously (that is, Assembling is easy while securing the strength of the case body 2.

A fixing hole that penetrates the four corners is provided on the inner upper bottom surface of the upper case body 22, and screws or the like passing through the fixing holes are screwed into the fixing cylinder body of the lower case body 21, thereby The case bodies 21 and 22 are integrally fixed.
Of course, as described above, the integral fixing of the upper and lower case bodies 21 and 22 is not limited to fixing means using screws or the like as long as they can be fixed.

<Magnetic generating means 3>
As shown in FIGS. 1 to 3, the magnetism generating means 3 in the present invention includes two coil bobbins 6 and 6 that are electromagnets, and a substantially U-shaped iron core 7 that is fitted into the two coil bobbins 6 and 6. ing.

<Coil bobbin 6>
The coil bobbin 6 in the magnetism generating means 3 is made of a synthetic resin such as silicon resin or nylon (polyamide) polymer, or an engineering plastic such as polyacetal or polycarbonate, and the spool portion 5 into which the iron core 7 can be fitted, and the same synthetic resin. And includes hooks 4 and 4 provided at both ends (upper and lower ends) of the spool portion 5 and electric wires wound around the outer peripheral surface of the spool portion 5.
The spool portion 5 in the coil bobbin 6 is a rectangular tube-shaped member having a substantially square cross section, and the cross sectional shape and cross sectional area in the cylinder are slightly larger than the cross sectional shape and cross sectional area of the iron core 7 (iron core branch portion 12). It is almost the same.
Therefore, the spool portion 5 is fixed to the iron core 7 (iron core branch portion 12) by fitting, double-sided tape, adhesive, or the like.
The spool portion 5 is arranged so that the axial center of the spool portion 5 extends along the vertical direction with respect to the case body 2 via the substantially U-shaped iron core 7.

The flange portions 4 in the coil bobbin 6 are a pair of substantially square flat plate members integrally provided at the upper and lower ends of the spool portion 5, and each flange portion 4 is orthogonal to the axis of the spool portion 5, that is, The upper and lower surfaces of each are disposed substantially in the horizontal direction.
Here, of the pair of flange portions 4 and 4, one flange portion 4 (upper flange portion 4a) provided at the upper end of the spool portion 5 is the inner upper bottom surface (magnetic) of the upper case body 22, as described above. (The inner surface on the working surface 2a side).
On the other hand, the other collar part 4 (lower collar part 4b) provided in the lower end of the spool part 5 among a pair of collar parts 4 and 4 contact | abuts on the upper surface of the core trunk | drum 11 in the substantially U-shaped iron core 7. FIG. Thus, the coil bobbin 6 is positioned with respect to the iron core 7, and the insertion depth of the iron core branch portion 12 into the spool portion 5, that is, the protruding length of one end portion 7a of the iron core 7 protruding from the upper collar portion 4 is defined. To do.

In addition, a pair of side end surfaces (front and rear surfaces, left and right surfaces) corresponding to the lower collar portion 4b are provided with latching pins for binding the electric wire at the start or end of winding of the electric wire on the spool portion 5. Alternatively, a guide groove that can guide the electric wire when the electric wire is entangled with the latching pin may be provided.
In addition, two hook pins may be provided at predetermined intervals on a pair of side end surfaces. In this case, winding can be applied to the spool portion 5 in either the left or right direction. (The direction of the wire to be wound can be either right-handed or left-handed), which increases the degree of freedom of work and reduces the number of work steps.

Furthermore, when two hooking pins are provided on each of the pair of side end surfaces, a convex portion is provided between the two hooking pins (substantially intermediate position) to change the direction in which the wire is hooked and wound. May be.
In addition to this, when two latching pins are provided on each pair of side end surfaces, the distance between the two latching pins provided on one side end surface is provided on the other side end surface. Alternatively, it may be set smaller or larger than the distance between the two latch pins.

As long as the electric wire in the coil bobbin 6 can flow electric currents, such as copper, silver, gold | metal | money, aluminum, etc., any material and wire type may be used.
When this electric wire is wound around the spool portion 5, it may be any of manual winding, a winding device, and the like. In addition, when using the winding device for aligned winding, it is necessary to apply tension to the wire to some extent, and unless the wire is stretched, clean aligned winding cannot be performed. Alternatively, it may be temporarily fixed with a tape or entangled with the above-mentioned latch pin.

<Iron core 7>
As shown in FIGS. 1 to 3, the iron core 7 in the magnetism generating means 3 is formed in a substantially U shape, and has a substantially prismatic iron core body 11 and both ends (both left and right) of the iron core body 11. The provided iron core branch parts 12 and 12 are provided.
That is, from the left and right ends of the core body 11 having the longitudinal direction, each core branch section 12 extends in a direction perpendicular to the longitudinal direction of the core body 11 and upward, and is substantially U-shaped (horse-shoe). Is made.
The iron core 7 is configured so that a thin plate such as soft iron is cut out into a predetermined shape and overlapped to have a certain thickness.

Moreover, the upper end part (one end part of the protruding iron core 7) 7a of each iron core branch part 12 is a taper shape, has the top surface 9 in the foremost end, and gradually thickens from this top surface 9 toward the root. Is formed.
Furthermore, the shape of the upper end portion 7a is configured to taper not only in the front view of the iron core 7, but also in the side view.
Therefore, first, a configuration in front view of the upper end portion 7a of each iron core branch portion 12 will be described.

When the upper end portion 7a of the iron core branch portion 12 is viewed from the front, the top surface 9 is substantially flat and substantially horizontal, the vertical surface 31 is continuous with the top surface 9, and the inclined portion is located on the opposite side of the vertical surface 31. 32.
The vertical surface 31 in the upper end portion 7 a is a vertical surface that is provided on the side (inner side) where the pair of left and right iron core branches 12, 12 face each other and continuously extends upward from both ends of the upper surface of the iron core body 11. .

The inclined portion 32 in the upper end portion 7a is provided on the side (outside) of the pair of left and right iron core branches 12 and 12 that do not face each other, and increases from the outside toward the side where each iron core branch 12 approaches. It is inclined.
Further, the inclined portion 32 includes an upper upper inclined surface 33 positioned on the inner side of each iron core branch portion 12, a lower lower inclined surface 34 positioned on the outer side of each iron core branch portion 12 with respect to the upper inclined surface 33, A flat surface 35 is provided between the two inclined surfaces 33 and 34.

  In addition, the shape when the upper end portion 7a is viewed from the front does not have to include the upper inclined surface 33, the lower inclined surface 34, and the flat surface 35 as described above. The upper inclined surface 33 and the lower inclined surface 34 continuously constitute one inclined portion (inclined surface) 32, or the upper inclined surface 33 and the flat surface 35 alone constitute the inclined portion 32, and the lower inclined surface Various shapes can be adopted as long as the shape is tapered, such as a case where 34 is not provided.

On the other hand, in a side view at the upper end portion 7a of each core branch 12, two types of thin plates constituting the core 7 are used, both long and short, in the thickness direction (side view) of the core 7. It is comprised so that.
That is, the pointed portion in a side view is configured by sandwiching several thin plates with a long core branch 12 and sandwiching several thin plates with a short core branch 12 from the front and rear.
Of course, the thickness of the pointed portion in this side view (the upper end portion of a laminate of several thin plates having a long iron core branch portion 12) is the other portion of the iron core 7 such as the iron core trunk portion 11 (the iron core branch portion 12 is long). The laminated body is thinner than the portion sandwiched between the laminated cores with the short core branches 12, and is, for example, 1/3 or more and 2/3 or less of the thickness of other portions.

Thus, by forming the protruding upper end portion 7a of the iron core 7 in a tapered shape, the magnetic flux density from the magnetic emission end increases, and as a result, the magnetic force (Gauss) to be emitted increases.
That is, when the magnetic flux generated in the iron core 7 is energized to the electric wire of the coil bobbin 6, it passes through a narrower space when it exits from the pointed upper end 7 a, so that the magnetic flux density in the space is increased, The magnetic force (Gauss) in the magnetic field increases.
Further, no magnetic field lines are radiated from the inclined part 32 inclined at the upper end part 7a, and all the magnetic field lines come out from the top surface 9 provided at the tip of the small sharp part, so that the top surface 9 having a small area of magnetic field lines. The magnetic force is also increased by radiating from the center.
The current flowing through the coil bobbin 6 may be an alternating current having a predetermined frequency (for example, 50 Hz, 60 Hz, or other frequency) and amplitude. In this case, the magnetic polarity is switched from the coil bobbin according to the frequency. However, an alternating magnetic field in which the magnetic flux density changes with time is generated.
Further, the current flowing through the wire of the coil bobbin 6 is a pulse current in which a current having a predetermined value intermittently flows in a predetermined cycle, for example, a pulse current having a triangular waveform that rises instantaneously and falls gently. In this case, the magnetic flux change is larger than the alternating current having a sine wave-like gentle waveform. In addition, since positive current is generated only positively if it is positive, and negative current is generated intermittently if it is negative, the magnetic flux changes more than when alternating positive and negative currents, such as alternating current. It is difficult to cancel.

In addition to this, the protruding upper end 7a of the tapered iron core 7 has a tapered inner core 8a whose tapered inner peripheral surface 8a is a tapered magnetic core hole 8 formed on the inner surface of the magnetic acting surface 2a. 7 along the inclined surface of the projected upper end 7a.
Therefore, the magnetic pole hole 8 is not divergent (that is, the inner peripheral surface 8a of the magnetic pole hole 8 is oriented in the vertical direction), and the protruding upper end 7a of the iron core 7 is not tapered (that is, the side surface of the protruding upper end 7a is also Compared with the case of facing the vertical direction), in the present invention, the protruding upper end portion 7a of the iron core 7 enters the magnetic pole hole 8, and one flange portion 4 is brought into contact with the inner surface on the magnetic action surface 2a side. In this state, the allowable range for shifting the magnetism generating means 3 with respect to the case body 2 is widened, and the positioning allowable range for assembling the high gauss magnetic therapy device 1 is widened, thereby facilitating the assembly.

Note that if the upper inclined surface 33 of the upper end portion 7 a from which the iron core 7 protrudes is made substantially the same as the inclination of the inner peripheral surface 8 a of the magnetic pole hole 8, the upper inclined surface 33 of the upper end portion 7 a becomes the inner periphery of the magnetic pole hole 8. It will face the surface 8a.
Accordingly, the inclined surface of the protruding upper end portion 7a of the iron core 7 can be brought into contact with the inner peripheral surface 8a of the magnetic pole hole 8, and the allowable range for shifting the magnetism generating means 3 with respect to the case body 2 is expanded as much as possible. .

The top surface 9 formed on the upper end portion 7a of the iron core 7 is substantially flat and substantially horizontal, and the inner bottom surface 10 of the magnetic pole hole 8 on the inner surface on the magnetic action surface 2a side is also substantially flat and substantially horizontal. Therefore, the top surface 9 of the upper end 7a and the inner bottom surface 10 of the magnetic pole hole 8 are opposed to each other.
Accordingly, it is possible to prevent the case 7 from penetrating through the magnetic action surface 2a side of the case body 2 at a pointed portion (for example, an edge portion separating the top surface 9 and the upper inclined surface 33) at the upper end portion 7a of the iron core 7, and the iron core 7 The top surface 9 of the one end 7 a abuts against the inner bottom surface 10 of the opposing magnetic pole hole 8, and the magnetic action surface 2 a of the case body 2 can be supported between the top surface 9 and the inner bottom surface 10.

The present invention having the above-described configuration allows the upper end 7a of the iron core 7 in the magnetism generating means 3 to enter the magnetic pole hole 8 formed on the inner surface of the upper case body 22 on the magnetic action surface 2a side. At the same time, since the upper flange portion 4a is brought into contact with the inner surface of the upper case body 22 on the magnetic action surface 2a side, the indentation of the magnetic action surface 2a toward the inner surface side can be restricted by the magnetism generating means 3.
That is, the magnetism generating means 3 is also used as a support for supporting the magnetic action surface 2a of the case body 2, and at the same time as this support is used, one end (magnetic emission end) of the iron core 7 protrudes ( As much as it has entered the magnetic pole hole 8), it is possible to make it closer to the human body, and the efficiency of magnetism generation can be improved.
In other words, it is possible to achieve both “the support of the case body by the magnetism generating means” and “the improvement of the magnetic efficiency”.
In addition, the case body 2 in 1st Embodiment may be a size which rides on a palm, and in this case, for example, a belt-like member is formed on the flat plate portion 23 (for example, a long hole 23b penetrating in the thickness direction) of the case body 2 or the like. By attaching (inserting) to the belt type, it is easy to apply it to a part of the human body (knee, waist, shoulder, etc.), and it becomes easy to concentrate and partially apply magnetism at a pinpoint.

Second Embodiment
4 and 5 show a high Gaussian magnetic therapy device 1 of the second embodiment.
The second embodiment is most different from the first embodiment in that the number of coil bobbins 6 is four, which is twice.
More specifically, the second embodiment has two (two sets) of magnetism generating means 3 configured by fitting two coil bobbins 6 and 6 into a substantially U-shaped iron core 7, respectively.

Thus, since the second embodiment has four coil bobbins 6 (two magnetism generating means 3), in the second embodiment, the concave portion for positioning the magnetism generating means 3 by the upper case body 22 is the first embodiment. Bigger than.
That is, in the second embodiment, the large concave portion 14 that can be positioned by fitting all the one flange portions 4 to 4 adjacent to each other in the front, rear, left, and right sides of the four coil bobbins 6 to 6 in the two magnetism generating means 3 has a case body. 2 is formed on the inner surface of the magnetic action surface 2a side.
Furthermore, the large concave portion 14 of the second embodiment has a flange 15 formed so as to partition the large concave portion 14 itself into each concave portion 13 for each magnetic generating means 3.

<Flange 15>
As shown in FIG. 5, the flange 15 in the second embodiment is capable of positioning the flanges 4 to 4 of the two sets of magnetism generating means 3 and 3, and the inner bottom surface of the large concave portion 14 having a substantially square shape in plan view ( It is formed inwardly projecting from the inner surface on the magnetic acting surface 2a side.
The flange 15 is a pair of protrusions formed at a predetermined interval, and is provided at a position where the substantially square-shaped large concave portion 14 is divided in substantially half, and has a substantially square shape (with four edges). The substantially center position of one edge portion 14a in the large recess 14 is connected to the approximately center position of the edge portion 14b at a position facing the edge portion 14a.
Thus, by dividing the large concave portion 14 evenly, easy positioning can be performed for each of the magnetism generating means 3 even when a total of four coil bobbins 6 are used.

The protruding height of the flange 15 is substantially the same as the depth of the large concave portion 14, and the protruding end surface (lower end surface) of the flange 15 is the inner surface of the upper case body 22 on the magnetic action surface 2 a side and is the large concave portion. The height position is substantially the same as the portion other than 14 (substantially a single surface).
With such a flange 15, even when a load is applied to the upper surface (magnetic action surface 2 a) of the case body 2 (pressed downward), the magnetic action surface 2 a moves downward. That is, the dent to the inner surface side can be suppressed.

Therefore, in the second embodiment, the flange 15 enables the strength of the magnetic action surface 2a in the case body 2 to be improved simultaneously with easy positioning of the four coil bobbins 6.
In each recess 13 formed by partitioning the large recess 14 with the flange 15, the adjacent upper collar portions 4 a and 4 a of each magnetism generating means 3 are applied to the edge of each recess 13 (large recess 14) and the flange 15. For example, the protruding upper end 7 a of the iron core 7 in the magnetism generating means 3 comes to a position corresponding to each magnetic pole hole 8 of each recess 13.

As shown in FIG. 4, in addition to the flange 15, the second embodiment includes an upper bottom portion 41 that protrudes significantly upward from the inner bottom surface of the lower case body 21.
The thickness of the case body 2 can be adjusted by the degree of the upward bulging of the upper bottom portion 41. For example, by making the thickness of the case member 2 and the cushion member fixed to the substrate substantially the same, a high gauss magnetic therapy device If 1 is attached to the substrate and its periphery is surrounded by a cushion member (a seat cushion type having a predetermined spread), the cushion surface of this cushion member and the magnetic action surface 2a are substantially flush with each other.
Further, even when the magnetism generating means 3 is incorporated in the case body 2 having various thicknesses and sizes, the difference in thickness of each case body 2 is offset by the bulge of the upper bottom portion 41, and each case body 2. The configuration of the magnetism generating means 3 used in the above (such as vertical height) can be made common, leading to cost reduction.
In addition to this, in the second embodiment, the magnetism generating means 3 (iron core body 11) and the lower case body 21 (between the locking pieces 24, 24) are arranged, and the respective magnetism generating means 3 are arranged. A pair of spring plates 44, 44 that urge upward is provided.

As shown in FIGS. 4 and 5, a pair of cutout portions 42, 42 cut downward in a substantially rectangular shape are provided on opposite side surfaces of the lower case body 21, and the pair of cutout portions 42, A pair of projecting pieces 43, 43 projecting downward are provided at corresponding positions on the side surface of the upper case body 22 of 42.
A flange 43a that tapers in the thickness direction as it approaches the tip of the protruding piece 43 from a position thicker than the other portions of the protruding piece 43 is provided on the outer surface of the tip of each protruding piece 43. Each protruding piece 43 can bend in the direction in which 43a moves to the inner surface side of the case body 2.

Accordingly, a case in which the upper and lower case bodies 21 and 22 are integrally fixed in a state in which the protruding pieces 43 and 43 are inserted into the notches 42 and 42 described above, thereby providing a flange portion 43a that can be withdrawn and retracted on the side surface portion. The body 2 can be configured.
With this configuration, for example, by pressing the projecting pieces 43 and 43 at the same time that the collar portions 43a and 43a are locked and retained against the frame or dent that can be fitted to the case body 2. The flanges 43a and 43a can be pushed into the case body 2 to release the locking and can be removed from the frame or the recess.
The protruding pieces 43, 43 described above may be provided with notches formed by cutting the side surfaces of the upper case body 22 from the roots on both sides. In this case, the protruding pieces 43 are further bent and the protruding portions 43a are protruded. The retreat distance becomes longer.

In addition, as described above, the second embodiment may be a seat cushion type in which the periphery of a fitting frame, a dent, or the like is a cushion member. In this case, for example, for one cushion member A magnetic treatment device having a plurality of high Gaussian magnetic treatment devices 1 or a cushion member having the high Gaussian magnetic treatment device 1 as another cushion member (with or without the high Gaussian magnetic treatment device 1), A magnetic therapy device in which two, three, or four or more are connected may be used.
Thus, by using the seat cushion type, it is possible to apply magnetism to the whole body of a person over a wide range while supporting the load from the human body with a predetermined area, and the high gauss magnetic therapy device 1. If it is a magnetic therapy device which connected the cushion member etc. which were equipped with, it will change according to shapes, such as a flat surface, such as a floor, a chair, a sofa, etc., and it will become possible to spread on a floor, a chair, etc.
Other configurations, operational effects, and usage modes of the high Gaussian magnetic therapy device 1 are the same as those in the first embodiment.

The present invention is not limited to the embodiment described above. Each configuration of the high gauss magnetic therapy device 1 or the like, or the overall structure, shape, dimensions, and the like can be appropriately changed in accordance with the spirit of the present invention.
As described above, the case body 2 is divided into the upper and lower cases of the lower case body 21 and the upper case body 22, but one end portion 7a of the iron core 7 protruding from the flange portion 4 of the coil bobbin 6 is connected to the inner surface of the magnetic action surface side 2a. Any configuration may be used as long as it can enter the magnetic pole hole 8 and the flange 4 is brought into contact with the inner surface of the case body 2 and the dent of the magnetic action surface 2a can be regulated by the magnetism generating means 3. Only the upper surface portion (the magnetic action surface 2a portion) is detachable or opens in the front-rear direction or the left-right direction. After the magnetism generating means 3 is placed in the case body 2 from the side, it is opened with a horizontal lid. It may be configured to close

In the above description, the number of coil bobbins 6 in the magnetism generating means 3 is two, or four in total, but may be one, three, or even five or more.
The iron core 7 does not have to be substantially U-shaped as long as there is a protruding portion (one end portion 7a) from one flange portion 4 of the coil bobbin 6 to be inserted. 1 bar) or substantially E-shaped.
In the above description, the inner bottom surface 10 of the magnetic pole hole 8 on the inner surface of the case body 2 on the magnetic action surface 2a side and the top surface 9 formed on the upper end portion 7a of the iron core 7 in the magnetism generating means 3 face each other. Since one flange 4 (upper flange 4a) of the coil bobbin 6 is in contact with the inner surface of the case body 2 on the magnetic action surface 2a side, the inner bottom surface 10 of the magnetic pole hole 8 and the top surface 9 of the upper end 7a. Are not necessarily opposed to each other.
The material of the case body 2 and the coil bobbin 6 is not limited to a synthetic resin or engineering plastic, and may be a material such as fiber reinforced plastic, ceramics, or wood as long as it has the above-described configuration.

  The high gauss magnetic therapy device 1 according to the present invention not only improves the blood circulation of the human body by magnetism, but also improves blood circulation by magnetism for animals such as dogs and cats, etc. It can be used in the medical, beauty, barber, and health fields for humans and animals.

DESCRIPTION OF SYMBOLS 1 High Gaussian magnetic therapy device 2 Case body 2a Magnetic action surface of case body 3 Magnetism generating means 4 Coil bobbin collar part 5 Coil bobbin spool part 6 Coil bobbin 7 Iron core 7a One end part where iron core protruded 8 Magnetic pole hole 9 Top surface of iron core 10 Inner bottom face of magnetic pole hole 11 Iron core body part 12 Iron core branch part 13 Recessed part of inner surface of case body 14 Large recessed part of inner surface of case body 15 Flange

The present invention includes a magnetic generation means built in a case body having a magnetic working surface, improves blood circulation by magnetism, and is a high gauss magnetic therapy device for whole body treatment and partial treatment used for health promotion of a person (animal). About.

2. Description of the Related Art Conventionally, an electromagnetic health promoter that includes a plurality of electromagnets and promotes blood circulation is known (see Patent Document 1).
The electromagnetic health promoter is configured to vary a current or a voltage applied to a plurality of electromagnets and at least one electromagnet coil of the plurality of electromagnets, and to at least one other electromagnet coil of the plurality of electromagnets. A magnetic force control means capable of supplying a current or voltage of a certain strength and a flat protective plate covering the magnetism generating portion, and the magnetic force of a plurality of electromagnets inside the flat protective plate is effective for the human body. And a box formed by arranging a plurality of electromagnets at the position of the irradiated magnetism generating portion.

JP 2004-329584 A

However, the electromagnetic health promoter described in Patent Document 1 includes a planar heating element disposed between the box inner surface side of the planar protection plate and each electromagnet, and between the planar heating element and each electromagnet. A heat insulating material is also provided that covers the planar heating element.
That is, in this electromagnetic health promoter, the magnetism from the electromagnet does not reach the human body unless it passes through three layers of the heat insulating material, the planar heating element, and the planar protective plate, and the magnetic force is inversely proportional to the square of the distance. Therefore, the efficiency of magnetism generation is very poor.
Furthermore, in the electromagnetic health promoter of patent document 1, a clearance gap exists between an electromagnet and a box upper surface part (FIG. 7, 8 of patent document 1). Accordingly, there is a possibility that the box upper surface portion may be dented due to the user's falling on the upper surface portion of the wide box, and a separate shield plate is essential, resulting in an increase in the number of parts and an increase in weight.

  In view of such a point, the present invention allows one end of the iron core protruding from the flange portion of the coil bobbin to enter a magnetic pole hole formed on the inner surface of the case body on the magnetic acting surface side, and the flange portion of the case body is By contacting the inner surface and restricting the dent of the magnetic acting surface with the magnetism generating means, it is possible to achieve both "combined support of the case body by the magnetism generating means" and "improvement of magnetic efficiency" and one end of the protruding iron core It is an object of the present invention to provide a high Gaussian magnetic therapy device in which the positioning allowable range can be extended by forming the taper shape in a tapered shape and forming the magnetic pole hole on the inner surface of the magnetic action surface side so as to widen at the end of the opening.

A high Gaussian magnetic therapy device 1 according to the present invention includes a case body 2 provided with a magnetic action surface 2a, a magnetism generating means 3 incorporated in the case body 2, and a cushion member surrounding the case body 2. The case body 2 is a Gaussian magnetic treatment device, and the case body 2 has an upper case body 22 having a substantially square shape in plan view whose outer upper surface constitutes the magnetic action surface 2a and a lower case in a substantially square shape in plan view for supporting the magnetism generating means 3. The lower case body 21 is formed in a substantially rectangular parallelepiped shape. The lower case body 21 has an upper bottom portion 41 protruding upward from the inner bottom surface, and a pair of cutout portions 42 in which opposite side surfaces of the lower case body 21 are cut downward. , 42, and the upper case body 22 includes a pair of projecting pieces 43, 43 projecting downward at the corresponding positions of the pair of cutout portions 42, 42. The case body 2 The magnet generating means 3 is formed by winding an electric wire around the peripheral surface of the spool portion 5 provided with the flange portions 4a and 4b on the upper and lower ends. The two coil bobbins 6 and 6 and a pair of iron core branch portions 12 and 12 fitted into the respective spool portions 5 in a state where the upper end portions 7a protrude from the upper collar portions 4a of the coil bobbins 6 and 6, respectively, are substantially in cross section. A square iron core body 11 is provided with substantially U-shaped iron cores 7 provided at both ends, and has two magnetism generating means 3 composed of the two coil bobbins 6, 6. These two magnetism generating means 3, 3 The four upper flange portions 4a to 4a adjacent to each other are embedded in and fitted into the case body 2, and the large recess portion 14 is used for each magnetic generating means 3 among the four upper flange portions 4a to 4a. Partition into each recess 13 into which two are fitted. A protruding flange 15 and a pair of magnetic pole holes 8, 8 in each recess 13 are formed on the inner surface of the upper case body 22 on the side of the magnetic action surface 2 a, and projecting at each core branch 12 of the core 7. The upper end portion 7a is made to enter each magnetic pole hole 8, and the four upper flange portions 4a to 4a are brought into contact with the inner bottom surface of the large concave portion 14 of the upper case body 22, so that the inner surface of the magnetic action surface 2a Indentation to the side is regulated by the coil bobbin 6 and the iron core 7, the protruding upper end portion 7 a of each iron core branch portion 12 of the iron core 7 is formed in a tapered shape with an inclined surface, and the upper case body 22 is formed. At the same time, the inner peripheral surface of each magnetic pole hole 8 in the large concave portion 14 is formed with a wide opening at the same time, and at the same time, a gap is formed between the inner peripheral surface of each magnetic pole hole 8 and the inclined surface of each upper end portion 7 a of the iron core 7. And the two magnetism generating hands with respect to one cushion member. A first feature is that a plurality of case bodies 2 each including the steps 3 and 3 are surrounded by a plurality of cases.

The second feature of the high gauss magnetic therapy device 1 according to the present invention is that the case body 2 provided with the magnetic action surface 2a, the magnetism generating means 3 incorporated in the case body 2, and the case body 2 are attached. The case body 2 is a high gauss magnetic therapy device having a belt-like member, and the case body 2 is a plan view that supports the upper case body 22 and the magnetism generating means 3 in a substantially rectangular shape in plan view in which the outer upper surface constitutes the magnetic action surface 2a. A substantially rectangular lower case body 21 is formed in a substantially rectangular parallelepiped shape and includes a pair of flat plate portions 23, 23 extending from a middle portion in the thickness direction. The flat plate portions 23, 23 are formed in the substantially rectangular lower case body. 21 is a substantially rectangular flat plate that extends in a substantially horizontal direction from only the upper end portion of the outer peripheral surface of the pair of long sides, and penetrates in the thickness direction and is attached to the case body 2 with a long hole 23b. Each The surface on the lower case 21 side of the inner peripheral surface of the long hole 23b is substantially flush with the outer peripheral surface of the pair of long sides of the substantially rectangular upper case 22, and the magnetism generating means 3 Are two coil bobbins 6 and 6 in which electric wires are wound around the peripheral surface of the spool portion 5 provided with flange portions 4a and 4b at the upper and lower ends, and upper end portions 7a from the upper flange portions 4a of the coil bobbins 6 and 6 respectively. A pair of iron core branches 12 and 12 fitted into the respective spool portions 5 in a protruding state are provided with substantially U-shaped iron cores 7 provided at both ends of the iron core body 11 having a substantially square cross section, and the two coil bobbins 6 and 6, a recess 13 in which both adjacent upper flanges 4 a and 4 a are built in and fitted in the case body 2, and a pair of magnetic pole holes 8 and 8 in the recess 13 are connected to the magnetic action surface of the upper case body 22. Each iron core branch 1 of the iron core 7 is formed on the inner surface of the 2a side. The upper end portion 7a projecting in the magnetic pole hole 8 is made to enter, and both the upper flange portions 4a, 4a are brought into contact with the inner bottom surface of the concave portion 13 of the upper case body 22, so that the inner surface of the magnetic action surface 2a Indentation to the side is regulated by the coil bobbin 6 and the iron core 7, the protruding upper end portion 7 a of each iron core branch portion 12 of the iron core 7 is formed in a tapered shape with an inclined surface, and the upper case body 22 is formed. At the same time, the inner peripheral surface of each magnetic pole hole 8 in the concave portion 13 is formed with a wide opening at the end, and at the same time, there is a gap between the inner peripheral surface of each magnetic pole hole 8 and the inclined surface of each upper end portion 7a of the iron core 7. It is in the point.

The high gauss magnetic therapy device 1 is a high gauss magnetic therapy device having a case body 2 provided with a magnetic action surface 2a and magnetism generating means 3 built in the case body 2. Is formed in a substantially rectangular parallelepiped shape with an upper case body 22 having a substantially rectangular shape in plan view and an outer case having a substantially rectangular shape in plan view supporting the magnetism generating means 3. A pair of flat plate portions 23, 23 extending from a midway portion in the direction are provided, and these flat plate portions 23, 23 are substantially horizontal only from the upper end portions of the outer peripheral surfaces of the pair of long sides of the substantially rectangular lower case body 21. It is a flat plate having a substantially rectangular shape in plan view, extending in the direction, and is formed with long holes 23b penetrating in the thickness direction and passing through the belt-like member, and the magnetism generating means 3 is provided with flanges 4a and 4b at the upper and lower ends. Electricity is applied to the peripheral surface of the spool section 5 And a pair of core branch portions 12 and 12 fitted into the respective spool portions 5 in a state in which the upper end portions 7a protrude from the upper collar portions 4a of the coil bobbins 6 and 6, respectively. Is provided at both ends of the iron core body 11 having a substantially square cross section, and an electric wire wound around each spool portion 5 is started to be wound around the lower flange portion 4b of each of the two coil bobbins 6 and 6. Alternatively, a guide groove that guides at the end of winding is provided, and both the adjacent upper collar portions 4a and 4a of the two coil bobbins 6 and 6 are incorporated in the case body 2 and fitted therein, and in the recess 13 A pair of magnetic pole holes 8 and 8 are formed on the inner surface of the upper case body 22 on the magnetic action surface 2a side, and the protruding upper end portions 7a of the iron core branch portions 12 of the iron core 7 are caused to enter the magnetic pole holes 8, And the upper collar part 4a 4a is brought into contact with the inner bottom surface of the concave portion 13 of the upper case body 22, and the depression to the inner surface side of the magnetic acting surface 2a is regulated by the coil bobbin 6 and the iron core 7, and each of the iron cores 7 At the same time as the protruding upper end 7a of the iron core branch portion 12 is tapered with an inclined surface, and the inner peripheral surface of the magnetic pole hole 8 in the recess 13 of the upper case body 22 is widened at the same time. There may be a gap between the inner peripheral surface of each magnetic pole hole 8 and the inclined surface of each upper end portion 7 a of the iron core 7 .

In addition, in the high gauss magnetic therapy device 1, the top surface 9 formed at each upper end portion 7 a of the iron core 7 in the magnetism generating means 3 is the inner bottom surface 10 of each magnetic pole hole 8 in the concave portion 13 of the upper case body 22. And the inclined surface formed on each upper end portion 7a of the iron core 7 in the magnetism generating means 3 is opposed to the inner peripheral surface of each magnetic pole hole 8 in the concave portion 13 of the upper case body 22 , Fixed cylinders are erected at the four corners of the inner bottom surface of the lower case body 21, and fixing holes that pass through the four corners are provided in the upper case body 22. A fixing means that passes through the fixing holes is provided on the lower case body 21. by screwing the fixed cylindrical member, the upper and lower cases 21, 22 there may be integrally fixed.

Due to these characteristics, the magnetism generating means 3 has a coil bobbin 6 in which an electric wire is wound around the peripheral surface of the spool portion 5 provided with the flange portions 4 and 4 at both ends, and one end portion 7a protruding from the one flange portion 4 And the one end 7a protruding from the iron core 7 is inserted into the magnetic pole hole 8 formed on the inner surface of the case body 2 on the magnetic action surface 2a side, The portion 4 is brought into contact with the inner surface of the magnetic action surface 2 a side, and the dent of the magnetic action surface 2 a is restricted by the magnetism generation means 3, so that the magnetism generation means 3 is supported by the magnetic action surface 2 a of the case body 2. At the same time, one end (magnetic emission end) of the iron core 7 can be brought closer to the human body by the amount of protrusion (the amount that has entered the magnetic pole hole 8), and the efficiency of magnetic generation can be improved. .
In other words, it is possible to achieve both “the support of the case body by the magnetism generating means” and “the improvement of the magnetic efficiency”.
Furthermore, by forming the protruding one end portion 7a of the iron core 7 in a tapered shape, the magnetic flux density from the magnetic emission end increases, and as a result, the emitted magnetic force (Gauss) increases and the magnetic action surface 2a side is increased. By forming the magnetic pole hole 8 on the inner surface so as to widen at the end of the opening, the inclined inner peripheral surface 8a inclined at the magnetic pole hole 8 is along the inclined surface at the projecting one end 7a of the tapered iron core 7. .
Accordingly, the magnetic pole hole 8 is not divergent (that is, the inner peripheral surface 8a of the magnetic pole hole 8 is oriented in the vertical direction), and the protruding end portion 7a of the iron core 7 is not tapered (that is, the side surface of the protruding end portion 7a is also Compared with the case of facing the vertical direction), in the present invention, the protruding one end portion 7a of the iron core 7 enters the magnetic pole hole 8, and one flange portion 4 is brought into contact with the inner surface on the magnetic action surface 2a side. In this state, the allowable range for shifting the magnetism generating means 3 with respect to the case body 2 is widened, and the positioning allowable range for assembling the high gauss magnetic therapy device 1 is widened, thereby facilitating the assembly.

Incidentally, the top surface 9 formed on one end portion 7a of the core 7, when made to face the inner bottom surface 10 of the pole hole 8 in the inner surface of the magnetic working surface 2a side, one end portion 7a of the core 7 in a tapered shape Even if it does, it can suppress penetrating the magnetic action surface 2a side of the case body 2 at the pointed part (for example, edge part which divides the top surface 9 and other surfaces) at the one end part 7a of the iron core 7, and the iron core 7 The top surface 9 of the one end 7 a abuts against the inner bottom surface 10 of the opposing magnetic pole hole 8, and the magnetic action surface 2 a of the case body 2 can be supported between the top surface 9 and the inner bottom surface 10.

Further , the magnetism generating means 3 is configured by fitting the two coil bobbins 6 and 6 into the substantially U-shaped iron core 7, and the recess 13 capable of positioning the flange portions 4 and 4 of the two coil bobbins 6 and 6 is magnetically when it is formed on the inner surface of the operating surface 2a side, a plurality of magnetism generation means 3 at the same time, it can disposed the posts combined position, while ensuring the strength of the case body 2, thereby further facilitating the assembling.

Further , when the large concave portion 14 capable of positioning the flange portions 4 to 4 of the two magnetism generating means 3 and 3 is partitioned by the flange 15 into the concave portions 13 and 13, a total of four coil bobbins 6 to 6 are used. Even in this case, easy positioning can be performed, and the strength of the magnetic action surface 2a in the case body 2 can be improved at the same time by the flange 15 protruding from the inner surface.

  According to the high Gaussian magnetic therapy device according to the present invention, one end of the iron core protruding from the flange portion of the coil bobbin is made to enter the magnetic pole hole formed on the inner surface of the case body on the magnetic action surface side, and the flange portion is The inner surface of the magnetically acting surface is tapered so that the dent of the magnetically acting surface is regulated by the magnetism generating means while being in contact with the inner surface. Thus, it is possible to simultaneously realize both “the support of the case body by the magnetic generation means” and “improvement of the magnetic efficiency” and the extension of the positioning allowable range of the magnetic generation means with respect to the case body.

(A) is a perspective view showing a high gauss magnetic therapy apparatus according to the first embodiment forms state of the present invention, (b) is a perspective view showing a section of high gauss magnet therapy. (A) is a perspective view which shows the lower case body and magnetism generating means of the high Gaussian magnetic therapy device of a 1st embodiment, and (b) is a perspective view which shows the magnetism generating means supported by the lower case body. (A) is a perspective view which shows the upper case body and magnetism generating means of 1st Embodiment, (b) is a perspective view which shows the magnetism generating means contact | abutted to the upper case body. (A) is a perspective view which shows the lower case body and magnetism generation means of the high Gaussian magnetic therapy device concerning a 2nd embodiment of the present invention , and (b) is a perspective view which shows the magnetism generation means supported by the lower case body. FIG. (A) is a perspective view which shows the upper case body and magnetism generation means of 2nd Embodiment, (b) is a perspective view which shows the magnetism generation means contact | abutted to the upper case body.

Embodiments of the present invention will be described below with reference to the drawings.
<First Embodiment>
1-3 are high gauss magnetic therapy instrument 1 according to the first embodiment forms state of the present invention is shown.
The high Gaussian magnetic therapy device 1 includes a case body 2 having a magnetic action surface 2a, a magnetism generating means 3 built in the case body 2, a cord, an electric wire and the like for supplying current to the magnetism generating means 3. It has a supply means (not shown).

<Case body 2>
The case body 2 in the present invention is made of synthetic resin such as silicon resin and nylon (polyamide) polymer, and engineering plastic such as polyacetal and polycarbonate, and the shape thereof is a substantially rectangular parallelepiped shape, from the middle in the thickness direction. In addition, a flat plate (a flat plate portion 23 described later) extends in a substantially horizontal direction. Further, the case body 2 can be divided vertically and includes a lower case body 21 and an upper case body 22.

<Lower case body 21>
As shown in FIGS. 1 and 2, the lower case body 21 is a container-like member that supports the magnetism generating means 3 having the two coil bobbins 6 and 6 from below and is substantially rectangular in plan view, and has a pair of long sides Flat plate portions 23, 23 extending in a substantially horizontal direction from the upper end portion of the outer side surface are provided in a pair (front and rear).
The flat plate portion 23 is also substantially rectangular in a plan view, and has a hole (a round hole 23a through which a screw or the like passes, a long hole 23b through which a belt-like member or the like passes) or the like penetrating in the thickness direction. It may be done.

On the inner bottom surface of the lower case body 21, a pair of locking pieces 24, 24 that stand and hold the magnetism generating means 3, in particular, a substantially prismatic iron core body 11 of the iron core 7 to be described later, are erected. Yes.
Each of the pair of locking pieces 24, 24 is substantially U-shaped in a plan view, and each locking piece 24 has locking piece branch portions 24b, 24b provided at both ends of the locking piece body portion 24a. Are deployed to face each other.
Therefore, when the iron core body 11 is placed between these locking pieces 24, the magnetism generating means 3 is supported at a predetermined position, that is, the magnetism generating means 3 is supported so as not to move downward, and is supported. At the predetermined position, the projecting one end 7 a of the iron core 7 on the upper surface side of the magnetism generating means 3 is a position corresponding to the magnetic pole hole 8 on the inner surface of the upper case body 22.

Note that fixed cylinders are erected at the four corners on the inner bottom surface of the lower case body 21, and the upper and lower case bodies 21, 22 are integrally fixed by screws or the like that are inserted into fixing holes described later of the upper case body 22. Is done.
Further, if the upper and lower case bodies 21 and 22 are integrally fixed, they are not limited to the configuration of these fixed cylinders, fixing holes, screws and the like, and may be integrally fixed by fitting or bonding.

<Upper case body 22>
As shown in FIGS. 1 and 3, the upper case body 22 is a lid-like member covering the magnetism generating means 3 having the two coil bobbins 6 and 6 and having a substantially rectangular shape in plan view.
The outer upper surface of the upper case body 22 constitutes a planar magnetic action surface 2 a in the case body 2.

The magnetic action surface 2a does not necessarily have to be a flat surface. Even if it is a curved surface in which a depression is formed in accordance with the shape of the user's waist, shoulder, arm, leg, etc., The surface which consists of both planes may be sufficient.
On the magnetic action surface 2a, the ridges that are substantially concentrically arranged in an approximately 8-character figure form a pattern resembling lines of magnetic force.
However, this pattern may be composed only of concentric circles or single circles, or may not be formed.

A pair of magnetic poles (left and right) into which the projecting one end portion 7a of the iron core 7 of the magnetism generating means 3 can enter each of the inner upper bottom surface of the upper case body 22 (that is, the inner surface of the case body 2 on the side of the magnetic action surface 2a). Holes 8 and 8 are formed.
Each of these magnetic pole holes 8 has a bottom surface (inner bottom surface 10) that is substantially flat and substantially horizontal.
Further, the magnetic pole hole 8 is substantially circular in plan view, and the projecting end 7a of the iron core 7 of the magnetism generating means 3 positioned by the locking pieces 24, 24 of the lower case body 21 is provided at the approximate center of the circle. (In particular, it is located on the top surface 9 of the one end portion 7a).
The depth of the magnetic pole hole 8 substantially coincides with the length of the one end portion 7 a of the iron core 7 protruding from the one flange portion 4 of the coil bobbin 6.

In addition to this, the inner peripheral surface 8a of the magnetic pole hole 8 is formed in an end-opening widening shape in which the diameter increases from the inner bottom surface 10 toward the opening end side (that is, in a downward-end-opening shape in which the diameter increases toward the lower side). .
The inner peripheral surface 8a having a widening shape at the end of the opening is along an inclined surface at one end portion 7a from which the tapered iron core 7 protrudes.
The inclined surface and the inner peripheral surface 8a may have substantially the same inclination.

Further, the two adjacent ones of the coil bobbins 6 and 6 of the two magnetism generating means 3 are fitted to the inner surface (inner upper and lower surface) of the upper case body 22 on the magnetic action surface 2a side. The recessed portion 13 that can be positioned is also formed.
The recess 13 is substantially rectangular in plan view, and is recessed so as to surround both of the two adjacent flanges 4 and 4 from the outside.
If two adjacent flanges 4, 4 are assigned to the recessed portion 13 thus recessed, the projecting one end 7 a of the iron core 7 in the magnetism generating means 3 becomes a position corresponding to the magnetic pole hole 8.
Thus, by forming the concave portion 13 that can position the flange portions 4 and 4 of the two coil bobbins 6 and 6 on the inner surface on the magnetic action surface 2a side, the plurality of magnetism generating means 3 can be positioned simultaneously (that is, Assembling is easy while securing the strength of the case body 2.

A fixing hole that penetrates the four corners is provided on the inner upper bottom surface of the upper case body 22, and screws or the like passing through the fixing holes are screwed into the fixing cylinder body of the lower case body 21, thereby The case bodies 21 and 22 are integrally fixed.
Of course, as described above, the integral fixing of the upper and lower case bodies 21 and 22 is not limited to fixing means using screws or the like as long as they can be fixed.

<Magnetic generating means 3>
As shown in FIGS. 1 to 3, the magnetism generating means 3 in the present invention includes two coil bobbins 6 and 6 that are electromagnets, and a substantially U-shaped iron core 7 that is fitted into the two coil bobbins 6 and 6. ing.

<Coil bobbin 6>
The coil bobbin 6 in the magnetism generating means 3 is made of a synthetic resin such as silicon resin or nylon (polyamide) polymer, or an engineering plastic such as polyacetal or polycarbonate, and the spool portion 5 into which the iron core 7 can be fitted, and the same synthetic resin. And includes hooks 4 and 4 provided at both ends (upper and lower ends) of the spool portion 5 and electric wires wound around the outer peripheral surface of the spool portion 5.
The spool portion 5 in the coil bobbin 6 is a rectangular tube-shaped member having a substantially square cross section, and the cross sectional shape and cross sectional area in the cylinder are slightly larger than the cross sectional shape and cross sectional area of the iron core 7 (iron core branch portion 12). It is almost the same.
Therefore, the spool portion 5 is fixed to the iron core 7 (iron core branch portion 12) by fitting, double-sided tape, adhesive, or the like.
The spool portion 5 is arranged so that the axial center of the spool portion 5 extends along the vertical direction with respect to the case body 2 via the substantially U-shaped iron core 7.

The flange portions 4 in the coil bobbin 6 are a pair of substantially square flat plate members integrally provided at the upper and lower ends of the spool portion 5, and each flange portion 4 is orthogonal to the axis of the spool portion 5, that is, The upper and lower surfaces of each are disposed substantially in the horizontal direction.
Here, of the pair of flange portions 4 and 4, one flange portion 4 (upper flange portion 4a) provided at the upper end of the spool portion 5 is the inner upper bottom surface (magnetic) of the upper case body 22, as described above. (The inner surface on the working surface 2a side).
On the other hand, the other collar part 4 (lower collar part 4b) provided in the lower end of the spool part 5 among a pair of collar parts 4 and 4 contact | abuts on the upper surface of the core trunk | drum 11 in the substantially U-shaped iron core 7. FIG. Thus, the coil bobbin 6 is positioned with respect to the iron core 7, and the insertion depth of the iron core branch portion 12 into the spool portion 5, that is, the protruding length of one end portion 7a of the iron core 7 protruding from the upper collar portion 4 is defined. To do.

In addition, a pair of side end surfaces (front and rear surfaces, left and right surfaces) corresponding to the lower collar portion 4b are provided with latching pins for binding the electric wire at the start or end of winding of the electric wire on the spool portion 5. Alternatively, a guide groove that can guide the electric wire when the electric wire is entangled with the latching pin may be provided.
In addition, two hook pins may be provided at predetermined intervals on a pair of side end surfaces. In this case, winding can be applied to the spool portion 5 in either the left or right direction. (The direction of the wire to be wound can be either right-handed or left-handed), which increases the degree of freedom of work and reduces the number of work steps.

Furthermore, when two hooking pins are provided on each of the pair of side end surfaces, a convex portion is provided between the two hooking pins (substantially intermediate position) to change the direction in which the wire is hooked and wound. May be.
In addition to this, when two latching pins are provided on each pair of side end surfaces, the distance between the two latching pins provided on one side end surface is provided on the other side end surface. Alternatively, it may be set smaller or larger than the distance between the two latch pins.

As long as the electric wire in the coil bobbin 6 can flow electric currents, such as copper, silver, gold | metal | money, aluminum, etc., any material and wire type may be used.
When this electric wire is wound around the spool portion 5, it may be any of manual winding, a winding device, and the like. In addition, when using the winding device for aligned winding, it is necessary to apply tension to the wire to some extent, and unless the wire is stretched, clean aligned winding cannot be performed. Alternatively, it may be temporarily fixed with a tape or entangled with the above-mentioned latch pin.

<Iron core 7>
As shown in FIGS. 1 to 3, the iron core 7 in the magnetism generating means 3 is formed in a substantially U shape, and has a substantially prismatic iron core body 11 and both ends (both left and right) of the iron core body 11. The provided iron core branch parts 12 and 12 are provided.
That is, from the left and right ends of the core body 11 having the longitudinal direction, each core branch section 12 extends in a direction perpendicular to the longitudinal direction of the core body 11 and upward, and is substantially U-shaped (horse-shoe). Is made.
The iron core 7 is configured so that a thin plate such as soft iron is cut out into a predetermined shape and overlapped to have a certain thickness.

Moreover, the upper end part (one end part of the protruding iron core 7) 7a of each iron core branch part 12 is a taper shape, has the top surface 9 in the foremost end, and gradually thickens from this top surface 9 toward the root. Is formed.
Furthermore, the shape of the upper end portion 7a is configured to taper not only in the front view of the iron core 7, but also in the side view.
Therefore, first, a configuration in front view of the upper end portion 7a of each iron core branch portion 12 will be described.

When the upper end portion 7a of the iron core branch portion 12 is viewed from the front, the top surface 9 is substantially flat and substantially horizontal, the vertical surface 31 is continuous with the top surface 9, and the inclined portion is located on the opposite side of the vertical surface 31. 32.
The vertical surface 31 in the upper end portion 7 a is a vertical surface that is provided on the side (inner side) where the pair of left and right iron core branches 12, 12 face each other and continuously extends upward from both ends of the upper surface of the iron core body 11. .

The inclined portion 32 in the upper end portion 7a is provided on the side (outside) of the pair of left and right iron core branches 12 and 12 that do not face each other, and increases from the outside toward the side where each iron core branch 12 approaches. It is inclined.
Further, the inclined portion 32 includes an upper upper inclined surface 33 positioned on the inner side of each iron core branch portion 12, a lower lower inclined surface 34 positioned on the outer side of each iron core branch portion 12 with respect to the upper inclined surface 33, A flat surface 35 is provided between the two inclined surfaces 33 and 34.

  In addition, the shape when the upper end portion 7a is viewed from the front does not have to include the upper inclined surface 33, the lower inclined surface 34, and the flat surface 35 as described above. The upper inclined surface 33 and the lower inclined surface 34 continuously constitute one inclined portion (inclined surface) 32, or the upper inclined surface 33 and the flat surface 35 alone constitute the inclined portion 32, and the lower inclined surface Various shapes can be adopted as long as the shape is tapered, such as a case where 34 is not provided.

On the other hand, in a side view at the upper end portion 7a of each core branch 12, two types of thin plates constituting the core 7 are used, both long and short, in the thickness direction (side view) of the core 7. It is comprised so that.
That is, the pointed portion in a side view is configured by sandwiching several thin plates with a long core branch 12 and sandwiching several thin plates with a short core branch 12 from the front and rear.
Of course, the thickness of the pointed portion in this side view (the upper end portion of a laminate of several thin plates having a long iron core branch portion 12) is the other portion of the iron core 7 such as the iron core trunk portion 11 (the iron core branch portion 12 is long). The laminated body is thinner than the portion sandwiched between the laminated cores with the short core branches 12, and is, for example, 1/3 or more and 2/3 or less of the thickness of other portions.

Thus, by forming the protruding upper end portion 7a of the iron core 7 in a tapered shape, the magnetic flux density from the magnetic emission end increases, and as a result, the magnetic force (Gauss) to be emitted increases.
That is, when the magnetic flux generated in the iron core 7 is energized to the electric wire of the coil bobbin 6, it passes through a narrower space when it exits from the pointed upper end 7 a, so that the magnetic flux density in the space is increased, The magnetic force (Gauss) in the magnetic field increases.
Further, no magnetic field lines are radiated from the inclined part 32 inclined at the upper end part 7a, and all the magnetic field lines come out from the top surface 9 provided at the tip of the small sharp part, so that the top surface 9 having a small area of magnetic field lines. The magnetic force is also increased by radiating from the center.
The current flowing through the coil bobbin 6 may be an alternating current having a predetermined frequency (for example, 50 Hz, 60 Hz, or other frequency) and amplitude. In this case, the magnetic polarity is switched from the coil bobbin according to the frequency. However, an alternating magnetic field in which the magnetic flux density changes with time is generated.
Further, the current flowing through the wire of the coil bobbin 6 is a pulse current in which a current having a predetermined value intermittently flows in a predetermined cycle, for example, a pulse current having a triangular waveform that rises instantaneously and falls gently. In this case, the magnetic flux change is larger than the alternating current having a sine wave-like gentle waveform. In addition, since positive current is generated only positively if it is positive, and negative current is generated intermittently if it is negative, the magnetic flux changes more than when alternating positive and negative currents, such as alternating current. It is difficult to cancel.

In addition to this, the protruding upper end 7a of the tapered iron core 7 has a tapered inner core 8a whose tapered inner peripheral surface 8a is a tapered magnetic core hole 8 formed on the inner surface of the magnetic acting surface 2a. 7 along the inclined surface of the projected upper end 7a.
Therefore, the magnetic pole hole 8 is not divergent (that is, the inner peripheral surface 8a of the magnetic pole hole 8 is oriented in the vertical direction), and the protruding upper end 7a of the iron core 7 is not tapered (that is, the side surface of the protruding upper end 7a is also Compared with the case of facing the vertical direction), in the present invention, the protruding upper end portion 7a of the iron core 7 enters the magnetic pole hole 8, and one flange portion 4 is brought into contact with the inner surface on the magnetic action surface 2a side. In this state, the allowable range for shifting the magnetism generating means 3 with respect to the case body 2 is widened, and the positioning allowable range for assembling the high gauss magnetic therapy device 1 is widened, thereby facilitating the assembly.

Note that if the upper inclined surface 33 of the upper end portion 7 a from which the iron core 7 protrudes is made substantially the same as the inclination of the inner peripheral surface 8 a of the magnetic pole hole 8, the upper inclined surface 33 of the upper end portion 7 a becomes the inner periphery of the magnetic pole hole 8. It will face the surface 8a.
Accordingly, the inclined surface of the protruding upper end portion 7a of the iron core 7 can be brought into contact with the inner peripheral surface 8a of the magnetic pole hole 8, and the allowable range for shifting the magnetism generating means 3 with respect to the case body 2 is expanded as much as possible. .

The top surface 9 formed on the upper end portion 7a of the iron core 7 is substantially flat and substantially horizontal, and the inner bottom surface 10 of the magnetic pole hole 8 on the inner surface on the magnetic action surface 2a side is also substantially flat and substantially horizontal. Therefore, the top surface 9 of the upper end 7a and the inner bottom surface 10 of the magnetic pole hole 8 are opposed to each other.
Accordingly, it is possible to prevent the case 7 from penetrating through the magnetic action surface 2a side of the case body 2 at a pointed portion (for example, an edge portion separating the top surface 9 and the upper inclined surface 33) at the upper end portion 7a of the iron core 7, and the iron core 7 The top surface 9 of the one end 7 a abuts against the inner bottom surface 10 of the opposing magnetic pole hole 8, and the magnetic action surface 2 a of the case body 2 can be supported between the top surface 9 and the inner bottom surface 10.

The present invention having the above-described configuration allows the upper end 7a of the iron core 7 in the magnetism generating means 3 to enter the magnetic pole hole 8 formed on the inner surface of the upper case body 22 on the magnetic action surface 2a side. At the same time, since the upper flange portion 4a is brought into contact with the inner surface of the upper case body 22 on the magnetic action surface 2a side, the indentation of the magnetic action surface 2a toward the inner surface side can be restricted by the magnetism generating means 3.
That is, the magnetism generating means 3 is also used as a support for supporting the magnetic action surface 2a of the case body 2, and at the same time as this support is used, one end (magnetic emission end) of the iron core 7 protrudes ( As much as it has entered the magnetic pole hole 8), it is possible to make it closer to the human body, and the efficiency of magnetism generation can be improved.
In other words, it is possible to achieve both “the support of the case body by the magnetism generating means” and “the improvement of the magnetic efficiency”.
In addition, the case body 2 in 1st Embodiment may be a size which rides on a palm, and in this case, for example, a belt-like member is formed on the flat plate portion 23 (for example, a long hole 23b penetrating in the thickness direction) of the case body 2 or the like. By attaching (inserting) to the belt type, it is easy to apply it to a part of the human body (knee, waist, shoulder, etc.), and it becomes easy to concentrate and partially apply magnetism at a pinpoint.

Second Embodiment
4 and 5 is shown the high gauss magnetic therapy instrument 1 according to a second embodiment of the present invention.
The second embodiment is most different from the first embodiment in that the number of coil bobbins 6 is four, which is twice.
More specifically, the second embodiment has two (two sets) of magnetism generating means 3 configured by fitting two coil bobbins 6 and 6 into a substantially U-shaped iron core 7, respectively.

Thus, since the second embodiment has four coil bobbins 6 (two magnetism generating means 3), in the second embodiment, the concave portion for positioning the magnetism generating means 3 by the upper case body 22 is the first embodiment. Bigger than.
That is, in the second embodiment, the large concave portion 14 that can be positioned by fitting all the one flange portions 4 to 4 adjacent to each other in the front, rear, left, and right sides of the four coil bobbins 6 to 6 in the two magnetism generating means 3 has a case body. 2 is formed on the inner surface of the magnetic action surface 2a side.
Furthermore, the large concave portion 14 of the second embodiment has a flange 15 formed so as to partition the large concave portion 14 itself into each concave portion 13 for each magnetic generating means 3.

<Flange 15>
As shown in FIG. 5, the flange 15 in the second embodiment is capable of positioning the flanges 4 to 4 of the two sets of magnetism generating means 3 and 3, and the inner bottom surface of the large concave portion 14 having a substantially square shape in plan view ( It is formed inwardly projecting from the inner surface on the magnetic acting surface 2a side.
The flange 15 is a pair of protrusions formed at a predetermined interval, and is provided at a position where the substantially square-shaped large concave portion 14 is divided in substantially half, and has a substantially square shape (with four edges). The substantially center position of one edge portion 14a in the large recess 14 is connected to the approximately center position of the edge portion 14b at a position facing the edge portion 14a.
Thus, by dividing the large concave portion 14 evenly, easy positioning can be performed for each of the magnetism generating means 3 even when a total of four coil bobbins 6 are used.

The protruding height of the flange 15 is substantially the same as the depth of the large concave portion 14, and the protruding end surface (lower end surface) of the flange 15 is the inner surface of the upper case body 22 on the magnetic action surface 2 a side and is the large concave portion. 14 is substantially the same height position (substantially flush ) as portions other than 14.
With such a flange 15, even when a load is applied to the upper surface (magnetic action surface 2 a) of the case body 2 (pressed downward), the magnetic action surface 2 a moves downward. That is, the dent to the inner surface side can be suppressed.

Therefore, in the second embodiment, the flange 15 enables the strength of the magnetic action surface 2a in the case body 2 to be improved simultaneously with easy positioning of the four coil bobbins 6.
In each recess 13 formed by partitioning the large recess 14 with the flange 15, the adjacent upper collar portions 4 a and 4 a of each magnetism generating means 3 are applied to the edge of each recess 13 (large recess 14) and the flange 15. For example, the protruding upper end 7 a of the iron core 7 in the magnetism generating means 3 comes to a position corresponding to each magnetic pole hole 8 of each recess 13.

As shown in FIG. 4, in addition to the flange 15, the second embodiment includes an upper bottom portion 41 that protrudes significantly upward from the inner bottom surface of the lower case body 21.
The thickness of the case body 2 can be adjusted by the degree of the upward bulging of the upper bottom portion 41. For example, by making the thickness of the case member 2 and the cushion member fixed to the substrate substantially the same, a high gauss magnetic therapy device If 1 is attached to the substrate and its periphery is surrounded by a cushion member (a seat cushion type having a predetermined spread), the cushion surface of this cushion member and the magnetic action surface 2a are substantially flush with each other.
Further, even when the magnetism generating means 3 is incorporated in the case body 2 having various thicknesses and sizes, the difference in thickness of each case body 2 is offset by the bulge of the upper bottom portion 41, and each case body 2. The configuration of the magnetism generating means 3 used in the above (such as vertical height) can be made common, leading to cost reduction.
In addition to this, in the second embodiment, the magnetism generating means 3 (iron core body 11) and the lower case body 21 (between the locking pieces 24, 24) are arranged, and the respective magnetism generating means 3 are arranged. A pair of spring plates 44, 44 that urge upward is provided.

As shown in FIGS. 4 and 5, a pair of cutout portions 42, 42 cut downward in a substantially rectangular shape are provided on opposite side surfaces of the lower case body 21, and the pair of cutout portions 42, A pair of projecting pieces 43, 43 projecting downward are provided at corresponding positions on the side surface of the upper case body 22 of 42.
A flange 43a that tapers in the thickness direction as it approaches the tip of the protruding piece 43 from a position thicker than the other portions of the protruding piece 43 is provided on the outer surface of the tip of each protruding piece 43. Each protruding piece 43 can bend in the direction in which 43a moves to the inner surface side of the case body 2.

Accordingly, a case in which the upper and lower case bodies 21 and 22 are integrally fixed in a state in which the protruding pieces 43 and 43 are inserted into the notches 42 and 42 described above, thereby providing a flange portion 43a that can be withdrawn and retracted on the side surface portion. The body 2 can be configured.
With this configuration, for example, by pressing the projecting pieces 43 and 43 at the same time that the collar portions 43a and 43a are locked and retained against the frame or dent that can be fitted to the case body 2. The flanges 43a and 43a can be pushed into the case body 2 to release the locking and can be removed from the frame or the recess.
The protruding pieces 43, 43 described above may be provided with notches formed by cutting the side surfaces of the upper case body 22 from the roots on both sides. In this case, the protruding pieces 43 are further bent and the protruding portions 43a are protruded. The retreat distance becomes longer.

In addition, as described above, the second embodiment may be a seat cushion type in which the periphery of a fitting frame, a dent, or the like is a cushion member. In this case, for example, for one cushion member A magnetic treatment device having a plurality of high Gaussian magnetic treatment devices 1 or a cushion member having the high Gaussian magnetic treatment device 1 as another cushion member (with or without the high Gaussian magnetic treatment device 1), A magnetic therapy device in which two, three, or four or more are connected may be used.
Thus, by using the seat cushion type, it is possible to apply magnetism to the whole body of a person over a wide range while supporting the load from the human body with a predetermined area, and the high gauss magnetic therapy device 1. If it is a magnetic therapy device which connected the cushion member etc. which were equipped with, it will change according to shapes, such as a flat surface, such as a floor, a chair, a sofa, etc., and it will become possible to spread on a floor, a chair, etc.
Other configurations, operational effects, and usage modes of the high Gaussian magnetic therapy device 1 are the same as those in the first embodiment.

The present invention is not limited to the embodiment described above. Each configuration of the high gauss magnetic therapy device 1 or the like, or the overall structure, shape, dimensions, and the like can be appropriately changed in accordance with the spirit of the present invention.
As described above, the case body 2 is divided into the upper and lower cases of the lower case body 21 and the upper case body 22, but one end portion 7a of the iron core 7 protruding from the flange portion 4 of the coil bobbin 6 is connected to the inner surface of the magnetic action surface side 2a. Any configuration may be used as long as it can enter the magnetic pole hole 8 and the flange 4 is brought into contact with the inner surface of the case body 2 and the dent of the magnetic action surface 2a can be regulated by the magnetism generating means 3. Only the upper surface portion (the magnetic action surface 2a portion) is detachable or opens in the front-rear direction or the left-right direction. After the magnetism generating means 3 is placed in the case body 2 from the side, it is opened with a horizontal lid. It may be configured to close

In the above description, the number of coil bobbins 6 in the magnetism generating means 3 is two, or four in total, but may be one, three, or even five or more.
The iron core 7 does not have to be substantially U-shaped as long as there is a protruding portion (one end portion 7a) from one flange portion 4 of the coil bobbin 6 to be inserted. 1 bar) or substantially E-shaped.
In the above description, the inner bottom surface 10 of the magnetic pole hole 8 on the inner surface of the case body 2 on the magnetic action surface 2a side and the top surface 9 formed on the upper end portion 7a of the iron core 7 in the magnetism generating means 3 face each other. Since one flange 4 (upper flange 4a) of the coil bobbin 6 is in contact with the inner surface of the case body 2 on the magnetic action surface 2a side, the inner bottom surface 10 of the magnetic pole hole 8 and the top surface 9 of the upper end 7a. Are not necessarily opposed to each other.
The material of the case body 2 and the coil bobbin 6 is not limited to a synthetic resin or engineering plastic, and may be a material such as fiber reinforced plastic, ceramics, or wood as long as it has the above-described configuration.

  The high gauss magnetic therapy device 1 according to the present invention not only improves the blood circulation of the human body by magnetism, but also improves blood circulation by magnetism for animals such as dogs and cats, etc. It can be used in the medical, beauty, barber, and health fields for humans and animals.

DESCRIPTION OF SYMBOLS 1 High Gaussian magnetic therapy device 2 Case body 2a Magnetic action surface of case body 3 Magnetism generating means 4 Coil bobbin collar part 5 Coil bobbin spool part 6 Coil bobbin 7 Iron core 7a One end part where iron core protruded 8 Magnetic pole hole 9 Top surface of iron core 10 Inner bottom face of magnetic pole hole 11 Iron core body part 12 Iron core branch part 13 Recessed part of inner surface of case body 14 Large recessed part of inner surface of case body 15 Flange

Claims (3)

A high gaussian magnetic therapy device having a case body (2) provided with a magnetic action surface (2a) and magnetism generating means (3) incorporated in the case body (2),
The case body (2) includes an upper case body (22) having a substantially rectangular shape in plan view whose outer upper surface constitutes the magnetic action surface (2a), and a lower case having a substantially rectangular shape in plan view that supports the magnetism generating means (3). The body (21) is formed in a substantially rectangular parallelepiped shape, and includes a pair of flat plate portions (23, 23) extending from a middle portion in the thickness direction,
These flat plate portions (23, 23) are substantially rectangular flat plates extending in a substantially horizontal direction from only the upper end portions of the outer peripheral surfaces of the pair of long sides of the substantially rectangular lower case body (21). Long holes (23b) that pass through the band-shaped member through the thickness direction are respectively formed,
The magnetism generating means (3) includes two coil bobbins (6, 6) in which an electric wire is wound around a peripheral surface of a spool portion (5) provided with flanges (4a, 4b) at upper and lower ends, and these coil bobbins (6 6) A pair of core branch portions (12, 12) fitted into the spool portions (5) in a state in which the upper end portions (7a) protrude from the upper collar portions (4a) of the respective upper collar portions (4a). Provided with a substantially U-shaped iron core (7) provided at both ends of the body (11),
A guide groove is provided on the lower collar portion (4b) of each of the two coil bobbins (6, 6) to guide the wire wound around each spool portion (5) to the start or end of winding thereof,
A concave portion (13) in which both adjacent upper collar portions (4a, 4a) in the two coil bobbins (6, 6) are built in and fitted in the case body (2), and a pair of the inner portions in the concave portion (13). Magnetic pole holes (8, 8) are formed on the inner surface of the upper case body (22) on the magnetic action surface (2a) side,
The protruding upper end (7a) of each iron core branch (12) of the iron core (7) is caused to enter each magnetic pole hole (8), and both of the upper flanges (4a, 4a) are made to the upper case body ( 22) is in contact with the inner bottom surface of the concave portion (13), and the recess on the inner surface side of the magnetic acting surface (2a) is regulated by the coil bobbin (6) and the iron core (7),
Each projecting upper end (7a) of each iron core branch (12) of the iron core (7) is tapered on an inclined surface, and each magnetic pole hole in the recess (13) of the upper case body (22). At the same time that the inner peripheral surface of the end opening is formed in (8), there is a gap between the inner peripheral surface of each magnetic pole hole (8) and the inclined surface of each upper end (7a) of the iron core (7). A high gauss magnetic therapy device. The top surface (9) formed at each upper end (7a) of the iron core (7) in the magnetism generating means (3) is formed by the magnetic pole hole (8) in the recess (13) of the upper case body (22). Facing the inner bottom surface (10),
An inclined surface formed at each upper end (7a) of the iron core (7) in the magnetism generating means (3) is an inner peripheral surface of each magnetic pole hole (8) in the recess (13) of the upper case body (22). The high gauss magnetic therapy device according to claim 1, wherein the high gauss magnetic therapy device is opposed to the gauss magnetic treatment device. Fixed cylinders are erected at the four corners of the inner bottom surface of the lower case body (21),
The upper case body (22) is provided with fixing holes penetrating the four corners,
The upper and lower case bodies (21, 22) are integrally fixed by screwing the fixing means passing through the fixing holes into the fixed cylindrical body of the lower case body (21). 2. A high gauss magnetic therapy device according to 2.

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