CN212187478U - Magnetic therapeutic instrument - Google Patents

Abstract

The utility model provides a magnetic therapy instrument, which comprises a first magnet support, a first magnet body, a second magnet support and a second magnet body, wherein the first magnet support is composed of cuboid-shaped magnetic bodies, the first magnet body is adsorbed and fixed on one surface of the first magnet support, and the first magnet body is formed by arranging and combining odd magnets according to the mode that the N pole and the S pole of a magnetic pole are mutually alternated; all the magnets of the first magnet body and all the magnets of the second magnet body clamp the first magnet support and the second magnet support in the middle, and the magnetic poles of the magnets of the first magnet body and the magnetic poles of the magnets of the second magnet body are placed and fixed in the positions with the same poles opposite to each other. When the instrument is used by clamping a human body, the instrument can be simply used without determining the position of a magnetic pole.

Description

Magnetic therapeutic instrument

Technical Field

The utility model relates to the technical field of medical equipment, in particular to a magnetic therapy apparatus.

Background

When the magnet is close to or in contact with the human body, the magnetic field around the magnet acts on blood and muscles, and the principle of treating the conditions of human body muscle stiffness, blood circulation and the like is widely applied. In most cases, the magnetic therapy apparatus achieves the effect by allowing magnetic force to penetrate through a human body through methods such as contacting the S pole or the N pole with the human body.

One of the application methods of the magnetic therapeutic apparatus is to use two magnetic therapeutic apparatuses to clamp the human body and make the magnetic lines of force pass through the human body to achieve the therapeutic effect. In this case, the S-pole and the N-pole of the two magnetic treatment apparatuses must be placed at the aligned positions, but it is not clear from the appearance of the apparatus which is the S-pole and which is the N-pole, and therefore, it is necessary to confirm the magnetic poles by another method, which in turn increases the burden on the practitioner.

SUMMERY OF THE UTILITY MODEL

The technical insufficiency exists, the utility model aims to provide a magnetic therapeutic apparatus with alternately arranged magnetic poles, which can be simply used without determining the position of the magnetic poles when clamping the human body.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the magnetic therapy instrument comprises a first magnet support consisting of cuboid-shaped magnetic bodies, a first magnet body, a second magnet support and a second magnet body, wherein the first magnet support is adsorbed and fixed on one surface of the first magnet support and is formed by arranging and combining odd magnets according to the mode that the N poles and the S poles of the magnetic poles are mutually alternated;

all the magnets of the first magnet body and all the magnets of the second magnet body clamp the first magnet support and the second magnet support in the middle, and the magnetic poles of the magnets of the first magnet body and the magnetic poles of the magnets of the second magnet body are placed and fixed in the positions with the same poles opposite to each other.

Preferably, the first magnet holder and the second magnet holder are both a one-piece magnetic body.

Preferably, the first magnet body is composed of more than 3 magnets, and the magnetic poles of the adjacent magnets are alternately arranged and adsorbed on the first magnet support.

Preferably, the first magnet unit is configured such that the magnet located at the center of the first magnet and the second magnet has an S-pole polarity on the attracting surface side; and when the polarity of the magnet on one side of the adsorption surface of the magnet positioned at the center of the first magnet body and the second magnet body is N pole, the magnet is called as a second magnet therapy apparatus, and the first magnet therapy apparatus and the second magnet therapy apparatus are a set of magnet therapy apparatus.

Preferably, the magnetic flux sensor further comprises a third magnet holder composed of a rectangular parallelepiped magnetic body, a third magnet body formed by combining an odd number of magnets and fixed to one side of the third magnet holder by attraction, a fourth magnet holder composed of a rectangular parallelepiped magnetic body, and a fourth magnet body formed by arranging and counting magnets and fixed to one side of the fourth magnet holder by attraction in the same manner as the third magnet body, the third magnet support, the fourth magnet support, all the magnets of the third magnet body and all the magnets of the fourth magnet body clamp the third magnet support and the fourth magnet support in the middle, the magnetic poles of the magnets of the third magnet body and the magnetic poles of the magnets of the fourth magnet body are arranged according to the opposite positions of the same poles, and the surface formed by oppositely placing the homopolarities of the third magnet and the fourth magnet and the surface formed by oppositely placing the homopolarities of the first magnet and the second magnet are crossed at right angles and are fixed.

Preferably, the third magnet holder and the fourth magnet holder are both a one-piece magnetic body.

Preferably, the magnetic device further comprises a fifth magnet holder formed by a rectangular parallelepiped magnetic body, a fifth magnet body composed of 3 magnets and fixed on one surface of the fifth magnet holder in an attracting manner, a sixth magnet holder formed by a rectangular parallelepiped magnetic body, and fixed on one surface of the sixth magnet holder in an attracting manner, and a sixth magnet having the same number of magnets and arrangement as the fifth magnet, the fifth magnet holder and the sixth magnet holder, all the magnets of the fifth magnet and all the magnets of the sixth magnet being sandwiched between the fifth magnet holder and the sixth magnet holder, the magnetic pole of the magnet of the fifth magnet body and the magnetic pole of the magnet of the sixth magnet body are arranged according to the opposite positions of the same poles, and the surface formed by oppositely placing the homopolarities of the fifth magnet and the sixth magnet and the surface formed by oppositely placing the homopolarities of the first magnet and the second magnet are crossed at right angles and are fixed.

Preferably, the case is made of a metal material which is a non-magnetic body and has conductivity.

Preferably, the housing is made of any one of copper, gold and aluminum, and a chromium plating layer or a silver plating layer is arranged outside the housing.

Preferably, the supplementary magnet is placed in an inner space formed by the approximately triangular protrusion when the housing is viewed from above in a horizontal direction.

The beneficial effects of the utility model reside in that: when the instrument is used by clamping a human body, the instrument can be simply used without determining the position of a magnetic pole.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a magnetic therapy apparatus provided by the present invention;

FIG. 2 is a schematic structural view of a magnet unit;

FIG. 3 is a schematic view of a pair of magnet units;

fig. 4 is a schematic view of the therapeutic state of the magnetic therapeutic apparatus provided by the present invention;

FIG. 5 is a schematic view showing the arrangement of magnets in the magnet units when the magnet therapy apparatus is used in pairs;

fig. 6 is a schematic view showing the arrangement of magnets in the magnet unit according to embodiment 1;

FIG. 7 is a schematic perspective view of magnet units in a magnet therapy apparatus according to example 1, when the magnet units are paired;

fig. 8 is a schematic structural view of a magnetic therapeutic apparatus provided in example 2;

fig. 9 is a schematic structural view of a magnetic therapeutic apparatus provided in example 3;

fig. 10 is a schematic structural view of a magnetic therapeutic apparatus provided in example 4;

fig. 11 is a schematic structural view of a magnetic therapeutic apparatus provided in example 5;

fig. 12 is a schematic structural view of a magnetic therapeutic apparatus provided in example 6.

Description of reference numerals:

the X-magnet therapy instrument comprises a B-human body, Xa, Xb, Va, Vb, Ya, Za, Ua, Ub and Uc are magnet units, 10-a first magnet, 11-a magnet, 20-a second magnet, 21-a magnet, 30A, 30B, 70A, 70B and 100A are magnet supports, 40-a shell, 41-an external cover, 50-a third magnet, 51-a magnet, 60-a fourth magnet, 61-a magnet, 80-a fifth magnet, 81-a magnet, 90-a sixth magnet, 100-a supplementary magnet, 101-a magnet and 110-a magnet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, a magnet unit Xa is enclosed in a substantially rectangular parallelepiped case 40 to form a magnet unit X. The copper surface of the shell 40 is plated with hard chromium, so that static electricity carried by a human body can be removed when the shell 40 is in contact with the human body, and the effect of magnetic therapy is improved. In addition, a protrusion having an approximately triangular shape in a plan horizontal direction is formed to protrude outward at the center of the surface of the casing 40 having the smallest area. On the housing 40, a cover 41 is provided to enclose the magnet unit therein.

When the material of the case 40 is made of copper, it is necessary to plate a hard chrome plating layer (outer plating layer) on the outside thereof, and other methods are possible. For example, since copper is easily corroded when the outer plating is peeled off, the disadvantage of corrosion can be eliminated when gold is used as the material for the case 40. In addition, when aluminum is used as the material of the case 40, the weight of the magnet therapy apparatus X can be reduced, and the burden on the practitioner can be reduced. In addition, silver plating can be used to replace hard chromium plating, and static electricity in human body can be removed.

Referring to fig. 2, the magnet unit Xa is formed by combining a first magnet body 10, a second magnet body 20, and a magnet holder 30, and the magnet holder 30 is a rectangular parallelepiped rod-shaped iron product. The first magnet body 10 is formed of a single magnet 11, and the magnet 11 is attracted and fixed to one surface of the magnet holder 30. The single magnet 21 constituting the second magnet body 20 is identical to the magnet 11 constituting the first magnet body 10. The magnet 21 is attracted and fixed to the other surface of the holder 30 opposite to the attraction surface of the first magnet 10. The magnetic poles of the attracting surfaces of the first magnet 10 and the second magnet 20 are the same. The magnet unit Xa having the above-described configuration has the magnet holder 30 sandwiched therebetween, and magnets on both sides thereof are arranged symmetrically, and the magnetic poles of the outward facing magnets are all of the same polarity. The outward facing magnetic pole of the magnet unit Xa shown in fig. 2 may be either the S pole or the N pole. When the magnet units are used in pair, the magnet units with the outward N poles and the magnet units with the outward S poles are used as a group.

The method of using the magnetic therapy instrument X having the above-described configuration and the operation thereof will be described below. When the magnet apparatus X is used alone, it can be used as a general magnet apparatus, but depending on the structural characteristics thereof, it is also possible to perform a combination therapy by using two magnet apparatus X at the same time. Specifically, the magnet unit Xa of the first magnet 10 and the second magnet 20 shown in fig. 2 has an S-pole as its outward magnetic pole, and constitutes the magnet therapy apparatus X (1). The first magnet 10 and the second magnet 20 of the magnet unit Xb shown in fig. 3 have N-poles as their outward magnetic poles, and constitute a magnet therapy apparatus X (2), and the magnet therapy apparatus X (1) and the magnet therapy apparatus X (2) can be used in combination in pairs.

In use, referring to fig. 4, the magnetic therapy apparatus X (1) and the magnetic therapy apparatus X (2) are positioned to sandwich the treatment position of the human body B. At this time, only the opposite surfaces of the magnetic therapy apparatus X (1) and the magnetic therapy apparatus X (2) need to be aligned with each other, so that as shown in fig. 5, the magnets can generate magnetic lines of force between the magnetic therapy apparatus X (1) and the magnetic therapy apparatus X (2) due to the opposite poles of the magnets. Since the first magnet 10 and the second magnet 20 are symmetrical to each other, regardless of the first magnet 10 or the second magnet 20, the magnetic poles of the magnetic therapy apparatuses (1) and (2) on the side contacting the human body are necessarily opposite in opposite polarity regardless of how the magnetic therapy apparatuses X (1) and X (2) are turned over. Therefore, when a human body is clamped for treatment, only the magnetic therapy instrument X (1) and the magnetic therapy instrument X (2) are required to be aligned, the selection problem of N and S poles of the contact surface of the magnetic therapy instrument and the human body does not need to be considered, the magnetic force inevitably passes through the human body, and the treatment can be simpler, easier and quicker. In addition, although the magnet unit has 6 faces, 3 sets of the facing faces are provided in total, and the remaining two sets of the facing faces which are not in contact with the human body are inevitably attracted to each other only by aligning the facing faces of the magnet therapy apparatus X (1) and the magnet therapy apparatus X (2) with each other.

Example 1

Referring to fig. 6 and 7, each of the first magnet 10 and the second magnet 20 is formed of 1 magnet, and in modification 1, the number of magnets can be increased to an odd number of 3 or more. Fig. 6 is a perspective view of a magnet unit Va including a first magnet 10 and a second magnet 20, each of the first magnet 10 and the second magnet 20 including 5 magnets 11 and 21. The first magnet body 10 in the magnet unit Va is composed of 5 magnets 11, all the magnets 11 are fixed on one side surface of the magnet holder 30 in an attracting manner in a longitudinal direction, and the magnetic poles, N poles and S poles of the magnets 11 on the attracting side are alternately arranged. Since the number 5 of the magnets 11 is odd, the magnetic field directions of the magnets 11 at both end positions are the same. The second magnet body 20 is constituted by 5 magnets 21, and the magnets 21 are the same type of magnets as the magnets 11 in the first magnet body 10. All the magnets 21 are the same as the first magnet body 10, and have N poles and S poles which alternate with each other, and are longitudinally arranged and fixed by attraction to a surface of the magnet holder 30 on the side opposite to the attraction surface of the first magnet body 10. The magnetic poles of the attracting faces of the magnets facing each other in the first magnet body 10 and the second magnet body 20 are adjusted to be the same polarity, and the magnet holder 30 is sandwiched and symmetrical. In the magnet unit Va having the above configuration, the S-poles and N-poles of the magnets sandwiched between the magnet holder 30 are alternately arranged, and the magnetic poles of 4 magnets in total at both ends are all identical. In the above configuration, when the magnet unit Va shown in fig. 7 and the magnet unit Vb having the magnetic poles completely opposite to each other are used in combination to clamp the human body, it is only necessary to face the surfaces having the same shape and size with each other, and then the magnetic poles of the magnets are inevitably opposite to each other.

Further, if a plurality of N poles and S poles are alternately arranged according to magnetic poles, the magnetic force is always kept in a variable state. During machining, the magnets 10 and 20 are rapidly attracted to both sides of the ferromagnetic magnet holder 30 before the magnetic properties of the magnet holder are changed at the center, so that a 0 magnetic field is formed at the center because the magnetic fields cancel each other. The so-called 0 magnetic field, i.e., the magnetic field generated when the two magnetic fields are balanced with each other, is a 0 magnetic field in the magnetic therapy apparatus X, for example, when the magnetic therapy apparatus X is used to clamp an internal organ for treatment, the magnetic force can reach the internal organ, so as to achieve the effect of improving the health of the human body.

Example 2

Referring to fig. 8, the magnet holder 30 is provided as an iron rod common to the first magnet 10 and the second magnet 20, and the first magnet 10 and the second magnet 20 may be attracted to new magnet holders 30A and 30B and may be arranged in parallel with the magnet holders 30A and 30B, respectively, like the magnet unit Ya shown in fig. 9. Further, when the distance between the magnet holders 30A, 30B is increased, the behavior of the magnetic force of the magnet is observed to be increased.

Example 3

Referring to fig. 9, in the magnet unit Za, both the third magnet 50 and the fourth magnet 60 perpendicular to the surfaces of the first magnet 10 and the second magnet 20 parallel to each other are also parallel to each other. The magnet unit Za is a new magnet unit obtained by adding the third magnet element 50 and the fourth magnet element 60 to the magnet unit Ya shown in fig. 8. The third magnet body 50 and the fourth magnet body 60 are respectively composed of 3 magnets 51 and 3 magnets 61, the magnetic poles of the magnets 51 and 61 facing each other are the same, and the magnetic poles of the magnets in the respective magnet bodies are alternately arranged, and each magnet is fixedly attached to a separate magnet holder 70A, 70B. The third magnet 50 and the fourth magnet 60 are disposed at the minimum surface of the rectangular parallelepiped magnetotherapeutic device, and the two positions where the area of the case 40 is minimum are both flat surfaces. In fig. 9, 2 or more magnet holders 30A, 30B, 70A, and 70B may be used in combination.

Example 4

In fig. 10, both the fifth magnet 50 and the sixth magnet 60, which are perpendicular to the mutually parallel surfaces of the first magnet 10 and the second magnet 20, are also mutually parallel. Specifically, a third magnet holder 70A, a fourth magnet holder 70B, a fifth magnet 80, and a sixth magnet 90, which are independent of each other and are formed of a rectangular parallelepiped magnetic body, are disposed on the surfaces parallel to each other of the fifth magnet 80 and the sixth magnet 90, which are perpendicular to the surfaces parallel to each other of the first magnet 10 and the second magnet 20, and the third magnet holder 70A and the fourth magnet holder 70B are respectively attracted to the fifth magnet 80 and the sixth magnet 90. Here, the fifth magnet 80 and the sixth magnet 90 are each composed of 3 magnets 81 and 91 having the same size, and the magnetic poles of the respective adjacent magnets are alternately arranged in the direction of each other and are fixed to one surface of the magnet holder 70A or 70B by attraction. The magnetic poles of the facing magnets 81 and 91 are aligned, and the magnetic poles at the attraction points of the respective magnet bodies are alternately arranged. The third magnet holder 70A and the fourth magnet holder are preferably formed of an integral magnetic material.

Example 5

Referring to fig. 11, in the magnet unit Ub, the supplementary magnet 100 is disposed in an internal space formed by a protrusion of the case 40 in a substantially triangular shape when viewed from above in a horizontal direction. The supplementary magnet structure is composed of an SN-pole magnet 101 and a magnet holder 100A having the same structure as the fourth magnet 60 shown in the above-described modification 3 in fig. 11.

Further, the supplementary magnet body 100 may be formed in various ways, and may include a magnet holder and at least 1 or more magnets. When the magnet holder is composed of a plurality of magnets, the magnetic pole directions of the adjacent magnets are alternately arranged and are fixed on one surface of the magnet holder 100 by adsorption. The number of magnets included in the supplemental magnet body 100 is not necessarily fixed to an odd number, and an even number of magnets may be provided.

Example 6

Referring to fig. 12, in the magnet unit Uc, the upper magnet bodies 110 are disposed on all of the 4 long side surfaces of the magnet holder 30, the polarities of the magnetic poles of the facing surfaces of the facing magnet bodies 110 are the same, and the polarities of the magnetic poles facing outward of the respective magnet bodies 110 are all the same.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. The magnetic therapy instrument comprises a first magnet support consisting of cuboid-shaped magnetic bodies, a first magnet body, a second magnet support and a second magnet body, wherein the first magnet support is adsorbed and fixed on one surface of the first magnet support and is formed by arranging and combining odd magnets according to the mode that the N poles and the S poles of the magnetic poles are mutually alternated;

the magnetic pole of the magnet of the first magnet body and the magnetic pole of the magnet of the second magnet body are placed and fixed according to the opposite positions of the same poles.

2. A magnetic therapy apparatus according to claim 1 wherein said first magnet support and said second magnet support are each a unitary magnetic body.

3. The magnet apparatus according to claim 1, wherein the first magnet body is composed of 3 or more magnets, and magnetic poles of the adjacent magnets are alternately arranged and attracted to the first magnet holder.

4. A magnetic therapeutic apparatus according to any one of claims 1 to 3, wherein the first magnetic therapeutic apparatus is provided when the polarity of the attracting surface side of the magnet located at the center of the first magnet and the second magnet is S-pole; and when the polarity of the magnet on one side of the adsorption surface of the magnet positioned at the center of the first magnet body and the second magnet body is N pole, the magnet is called as a second magnet therapy apparatus, and the first magnet therapy apparatus and the second magnet therapy apparatus are a set of magnet therapy apparatus.

5. A magnetic therapeutic apparatus according to any one of claims 1 to 3, further comprising a third magnet holder made of a rectangular parallelepiped magnetic body, a third magnet body which is fixedly attached to one side of the third magnet holder and made of an odd number of magnets, a fourth magnet holder made of a rectangular parallelepiped magnetic body, and a fourth magnet body which is fixedly attached to one side of the fourth magnet holder and made of magnets arranged in the same manner and in the same number as the third magnet body, wherein the third magnet holder, the fourth magnet holder, all the magnets of the third magnet body and all the magnets of the fourth magnet body sandwich the third magnet holder and the fourth magnet holder, the magnetic poles of the magnets of the third magnet body and the magnetic poles of the magnets of the fourth magnet body are arranged in the same-pole opposite positions, and wherein the surface formed by arranging the third magnet body in the same-pole opposite position as the fourth magnet body and the surface formed by arranging the first magnet body in the same-pole opposite position as the second magnet body are arranged in the same-pole opposite position as the first magnet body The surfaces are crossed and fixed at right angles.

6. A magnetic therapy apparatus according to claim 5 wherein said third magnet support and said fourth magnet support are each a one-piece magnetic body.

7. A magnet therapeutic apparatus according to any one of claims 1 to 3 further comprising a fifth magnet holder formed of a rectangular parallelepiped magnetic body, a fifth magnet body composed of 3 magnets and attachably fixed to one surface of the fifth magnet holder, a sixth magnet holder formed of a rectangular parallelepiped magnetic body, a sixth magnet body attachably fixed to one surface of the sixth magnet holder and having the same number of magnets and arrangement as the fifth magnet body, the fifth magnet holder and the sixth magnet holder being sandwiched by all the magnets of the fifth magnet body and all the magnets of the sixth magnet body, the magnetic pole of the magnet of the fifth magnet body and the magnetic pole of the magnet of the sixth magnet body being arranged in positions of homopolar opposition, and the surface formed of the fifth magnet body and the sixth magnet body being arranged in positions of homopolar opposition and the same pole of the first magnet body and the second magnet body being arranged in the same pole opposition The surfaces formed by the placement are placed in a right-angle intersection way and fixed.

8. A magnetic therapeutic apparatus according to any one of claims 1 to 3 further comprising a housing made of a non-magnetic and electrically conductive metal material.

9. A magnetic therapy apparatus according to claim 8, wherein the casing is made of any one of copper, gold and aluminum, and the exterior of the casing is provided with a chrome plating or a silver plating.

10. A magnet therapeutic apparatus according to claim 8 wherein a supplementary magnet is placed in an inner space formed by the protrusion of the substantially triangular shape when the housing is viewed horizontally from above.

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