CN110538056B - Composite energy meridian brush - Google Patents

Abstract

The invention provides a composite energy meridian brush, comprising: rigid structures and elastic structures. The elastic structure is wrapped with the rigid structure. The rigid structure comprises a frame body, a plurality of convex grain supporting pieces and a plurality of feedback supporting pieces. The frame body is provided with a plurality of accommodating holes, each feedback supporting piece is accommodated in one accommodating hole, each convex grain supporting piece is partially accommodated in one accommodating hole, and each convex grain supporting piece is abutted with one feedback supporting piece. The brush body, the elastic convex particles and the clamping handle are all made of far infrared powder, anion powder, magnetic particle powder and silica gel. The meridian brush is characterized in that the elastic convex particles are not easy to break under the action of the convex particle supporting piece. The elastic deformation of the elastic convex particles forces the convex particle supporting piece and the feedback supporting piece to slide in the frame body, the feedback supporting piece protrudes, and the massage force is fed back through the feedback supporting piece, so that the massage force can be conveniently controlled. The far infrared powder, the negative ion powder and the magnetic particle powder have health care effects, so that physiotherapy functions are enriched.

Description

Composite energy meridian brush

Technical Field

The invention relates to the technical field of health care products, in particular to a composite energy meridian brush.

Background

Far infrared powder is a white powder, which is formed by mixing various substances. The far infrared powder has a main characteristic function of being able to radiate far infrared rays more than normal objects. The method is mainly applied to manufacturing various far infrared thermal insulation materials such as far infrared ceramic powder, far infrared ceramic fiber, far infrared ceramic polyester and the like in a normal temperature area. The far infrared powder has the catalytic oxidation function, generates negative monovalent hydroxyl ions under the irradiation of sunlight, especially ultraviolet rays, can effectively remove benzene, formaldehyde, sulfide, ammonia and odor substances in a room, and has the sterilization function. Currently, it has been widely used in various health care products.

The negative ion powder is a composite mineral which is artificially synthesized or proportioned by human beings according to the principle of generating negative ions in nature. Generally contains tourmaline powder, lanthanoid element, rare earth element, etc. Negative ion powder can generate negative ions, and in the medical field, the negative ions are confirmed to be effective means for killing bacteria and purifying air. The mechanism is mainly that after the negative ions are combined with bacteria, the bacteria generate structural change or energy transfer, so that the bacteria die and finally sink on the ground. Medical research shows that the negatively charged particles in the air increase the oxygen content in the blood, are beneficial to the transportation, absorption and utilization of blood oxygen, and have the effects of promoting metabolism of human bodies, improving the immunity of human bodies, enhancing the muscle energy of human bodies and regulating the functional balance of human bodies. According to the examination, the negative ions have the effects of inhibiting, relieving and assisting in treating more than thirty diseases on seven systems of human bodies, and particularly have more obvious health care effects on human bodies.

The magnetic particle powder is powder prepared by grinding permanent magnetic particle materials. Products made from magnetic particle powder, due to the particulate material with permanent magnets inside, are subjected to a magnetic field having a polarity of N, S. The magnetic lines of force generated by the magnetic particles form a magnetic loop from the N pole to the S pole. The magnetic particles generate a plurality of N, S magnetic loops and the emitted magnetic force lines, which are interwoven into a layer of invisible stereoscopic magnetic wire net. The net film can perform omnibearing three-dimensional stimulation and massage on the close skin. The skin surface is in a micro-movement state, the cell metabolism capacity is activated, and the body microcirculation is promoted. The magnetic particles closely attached to the acupoints of skin can penetrate the acupoints. The beam is invisible, and the magnetic force lines without sense play the same role as the acupuncture of traditional Chinese medicine, so that physiotherapy can be performed anytime and anywhere. Currently, it has been widely used in various health care products.

The meridian brush is a health care product, and can quickly dredge lymphatic vessels and meridians of all parts of the body, thereby achieving the effects of losing weight and beautifying. The meridian brush is provided with a plurality of elastic convex particles, the gaps among the elastic convex particles are small, the elastic convex particles can squeeze and eliminate fat, hard fat is scattered, and orange peel tissues are effectively eliminated. The toxin waste can be prevented from being accumulated by being silted up by combining proper force and proper essential oil. The five elements of the traditional Chinese medicine are effectively combined, and the health value of the user is estimated. The weight-losing effect with little effort can be achieved.

However, after the current meridian brush is used for a long time, the elastic convex particles are easy to break and separate in the process of health care massage, the durability of each elastic convex particle is lower, and the elastic convex particles are easy to fall off from the meridian brush body. Secondly, when the health care physical therapist uses the meridian brush to carry out health care massage on the patient, the massage force is difficult to control, and the health care physical therapist can only control the massage force according to experience, so that the health care physical therapist is not beneficial to quickly mastering the massage and health care skills. In addition, the physical therapy function of the meridian brush is single, and the effective application of health care materials such as far infrared powder, anion powder and magnetic particle powder is lacking, so that the meridian brush does not have multiple health care functions and can not meet the requirements of modern people.

Disclosure of Invention

Based on the above, it is necessary to provide a composite energy meridian brush aiming at the technical problems that elastic convex particles are easy to break, physical therapy massage force is difficult to control and health care function is single.

A composite energy meridian brush, the composite energy meridian brush comprising: rigid structures and elastic structures. The elastic structure encapsulates the rigid structure. The rigid structure comprises a frame body, a plurality of convex grain supporting pieces and a plurality of feedback supporting pieces. The frame body is provided with a plurality of containing holes, each feedback supporting piece is contained in one containing hole and is in sliding connection with the frame body, each convex grain supporting piece is contained in one containing hole and is in sliding connection with the frame body, and each convex grain supporting piece is abutted with one feedback supporting piece. The end face, far away from the convex grain support piece, of the feedback support piece is coplanar with one face, facing away from the convex grain support piece, of the frame body, and the end portion, far away from the feedback support piece, of the convex grain support piece protrudes out of one face, facing away from the feedback support piece, of the frame body. The elastic structure comprises a brush body, a plurality of elastic convex particles and a clamping handle. The elastic convex particles are connected to one surface of the brush body, and the clamping handle is connected to the other surface of the brush body. The brush body, the elastic convex particles and the clamping handle are all made of far infrared powder, anion powder, magnetic particle powder and silica gel in a mixing mode. The brush body is coated on the frame body, and each elastic convex particle is coated on one convex particle supporting piece.

In one embodiment, the accommodating hole is a circular through hole, the convex grain support piece and the feedback support piece are both in cylindrical structures, and the accommodating hole is respectively matched with the convex grain support piece and the feedback support piece.

In one embodiment, the elastic convex particles have a spherical structure.

In one embodiment, the end of the boss support remote from the feedback support is of spherical configuration.

In one embodiment, the end of the feedback support remote from the boss support is of spherical configuration.

In one embodiment, the end of the feedback support remote from the boss support is tapered.

In one embodiment, the interior of the housing is hollow.

In one embodiment, the clamping handle comprises two clamping columns, the two clamping columns are arranged at intervals, and the two clamping columns are connected to one surface of the brush body, which faces away from the elastic protruding particles.

In one embodiment, each clamping post is provided with a stop collar.

In one embodiment, the brush body, the plurality of elastic protruding particles and the two clamping posts are integrally formed.

The elastic structure is wrapped by the rigid structure, so that the composite energy meridian brush has strong structural stability. Each elastic convex particle is coated with a convex particle supporting piece, and is not easy to break and separate under the supporting effect of each convex particle supporting piece. When the meridian brush is used, when each elastic convex particle is in contact with the skin of a patient, the elastic convex particle can generate elastic deformation due to forced extrusion, so that the convex particle support piece and the feedback support piece are forced to slide in the containing hole of the frame body, and the feedback support piece is pushed by the abutting of the convex particle support piece, and the end part of the feedback support piece, which is far away from the convex particle support piece, protrudes out of the end face of the frame body. Because the forces are mutually applied, the pressure applied by the elastic convex particles and the skin of the patient is fed back to the hands of the health care physiotherapy staff through the convex particle supporting piece and the feedback supporting piece. That is, in the process that the health care physiotherapist uses the meridian brush to massage and physiotherapist, the feeling of the massage force of the patient is fed back to the hands of the health care physiotherapist through the feedback supporting piece, so that the health care physiotherapist can conveniently control the massage force. In addition, the brush body, the elastic convex particles and the clamping handle are all made of far infrared powder, negative ion powder, magnetic particle powder and silica gel in a mixing way, that is, the meridian brush has the health care effects of the far infrared powder, the negative ion powder and the magnetic particle powder, so that the health care physiotherapy function is enriched.

Drawings

FIG. 1 is a schematic diagram of a composite energy meridian brush in one embodiment;

FIG. 2 is another schematic diagram of a composite energy meridian brush in accordance with one embodiment;

FIG. 3 is an enlarged schematic view of the M portion of the composite energy meridian brush in the embodiment of FIG. 2;

FIG. 4 is a schematic diagram of yet another configuration of a composite energy meridian brush in accordance with one embodiment;

FIG. 5 is a schematic structural view of a rigid structure of a composite energy meridian brush in one embodiment;

FIG. 6 is a schematic view showing a partial structure of a composite energy meridian brush according to an embodiment;

fig. 7 is another schematic view of a portion of the structure of the composite energy meridian brush in the embodiment shown in fig. 6.

Detailed Description

In order that the above objects, features and advantages of the invention will be readily understood, a more particular description of the invention will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the invention, whereby the invention is not limited to the specific embodiments disclosed below.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present invention, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

In the present invention, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

It will be understood that when an element is referred to as being "fixed" or "disposed" on another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Referring to fig. 1 to 7, the present invention provides a composite energy meridian brush 10, the composite energy meridian brush 10 includes: a rigid structure 100 and a resilient structure 200. The elastic structure 200 encloses the rigid structure 100. The rigid structure 100 includes a frame 110, a number of boss supports 120, and a number of feedback supports 130. The frame 110 is provided with a plurality of accommodating holes 111, each feedback support member 130 is accommodated in one accommodating hole 111 and is in sliding connection with the frame 110, each boss support member 120 is partially accommodated in one accommodating hole 111 and is in sliding connection with the frame 110, and each boss support member 120 is abutted with one feedback support member 130. The end surface of the feedback support 130 away from the boss support 120 is coplanar with the surface of the frame 110 facing away from the boss support 120, and the end of the boss support 120 away from the feedback support 130 protrudes from the surface of the frame 110 facing away from the feedback support 130. The elastic structure 200 includes a brush body 210, a plurality of elastic protrusions 220, and a grip handle 230. The elastic protrusions 220 are connected to one surface of the brush body 210, and the grip handle 230 is connected to the other surface of the brush body 210. The brush body 210, the plurality of elastic protrusions 220, and the grip handle 230 are all made of a mixture of far infrared powder, negative ion powder, magnetic particle powder, and silica gel. The brush body 210 covers the frame 110, and each elastic protrusion 220 covers a protrusion support 120.

The above-mentioned composite energy meridian brush 10 has strong structural stability because the elastic structure 200 is arranged to cover the rigid structure 100. Each elastic convex particle 220 is wrapped by a convex particle supporting piece 120, and each elastic convex particle 220 is not easy to break and separate under the supporting action of each convex particle supporting piece 120. In the use process of the meridian brush, when each elastic convex particle 220 is contacted with the skin of a patient, the elastic convex particle 220 is elastically deformed due to the forced extrusion, so that the convex particle support 120 and the feedback support 130 are forced to slide in the accommodating hole 111 of the frame body 110, and the end part of the feedback support 130, which is far away from the convex particle support 120, protrudes out of the end surface of the frame body 110 under the abutting pushing of the feedback support 130 by the convex particle support 120. Since the forces are applied to each other, the pressure applied by each elastic bead 220 to the skin of the patient is fed back to the hands of the health care and physiotherapy person through the bead support 120 and the feedback support 130. That is, in the course that the health care physiotherapist uses the meridian brush to perform massage physiotherapy on the patient, the feeling of the massage force of the patient is fed back to the hands of the health care physiotherapist through the feedback support 130, so that the health care physiotherapist can conveniently control the massage force. In addition, since the brush body 210, the plurality of elastic protrusions 220 and the grip handle 230 are all made of the mixture of the far infrared powder, the negative ion powder, the magnetic particle powder and the silica gel, that is, the meridian brush has the health care effects of the far infrared powder, the negative ion powder and the magnetic particle powder, thereby enriching the health care and physiotherapy functions.

The rigid structure 100 is used for supporting the elastic structure 200 to promote stability of the elastic structure 200. The frame 110 is used as a main frame to provide installation sites for the plurality of bump supports 120 and the plurality of feedback supports 130. To reduce the weight of the composite energy meridian brush, in one embodiment, the interior of the housing 110 is hollow. Therefore, the composite energy meridian brush is lighter and more convenient for a user to hold. Specifically, in one embodiment, the frame 110 is a carbon fiber frame. In another embodiment, the frame 110 is an aluminum alloy frame. Therefore, the quality of the composite energy meridian brush is reduced, and the flexibility is improved.

The convex grain support 120 is used for supporting and stabilizing the elastic convex grain 220, and when the elastic convex grain 220 is transversely elastically deformed, the convex grain support 120 plays a role in supporting and fixing, so that the transverse elastic deformation amplitude of the elastic convex grain 220 is prevented from being overlarge, and the breakage of the elastic convex grain 220 is prevented. When the elastic protrusion 220 presses the skin of the patient to generate the longitudinal elastic deformation, the elastic protrusion 220 forces the protrusion support 120 and the feedback support 130 to slide in the receiving hole 111 of the frame 110, and the end of the feedback support 130 far away from the protrusion support 120 protrudes out of the end surface of the frame 110 under the pushing of the feedback support 130. The feedback support 130 reflects the longitudinal deformation degree of the elastic protrusion 220 specifically, that is, the greater the longitudinal deformation degree of the elastic protrusion 220, the deeper the portion of the protrusion support 120 retracted into the receiving hole 111, and the longer the portion of the feedback support 130 protruding from the end surface of the frame 110. Since the forces are applied to each other, the pressure applied by each elastic bead 220 to the skin of the patient is fed back to the hands of the health care and physiotherapy person through the bead support 120 and the feedback support 130. That is, in the course that the health care physiotherapist uses the meridian brush to perform massage physiotherapy on the patient, the feeling of the massage force of the patient is fed back to the hands of the health care physiotherapist through the feedback support 130, so that the health care physiotherapist can conveniently control the massage force.

It should be noted that, since the elastic structure 200 is an elastic material, it has a certain elastic tension characteristic, i.e. an ability to generate elastic deformation and an ability to recover elastic deformation. During the sliding process of the bump supporting member 120 and the feedback supporting member 130 in the receiving hole 111, the elastic structure 200 will change its shape and recover the original shape and structure when the force is lost. Second, the tension provided by the resilient structure 200 during use makes the rigid structure 100 relatively stable. That is, in the case of the elastic structure 200 having the elastic deformation limit, the bump supporting member 120 and the feedback supporting member 130 are at least partially received in the receiving hole 111, and ensure a good sliding connection relationship with the frame 110, so that the overall frame of the rigid structure 100 is not damaged.

In order to maintain a good sliding connection relationship between each boss support 120 and each feedback support 130 and the frame 110, in one embodiment, the receiving hole 111 is a circular through hole, the boss support 120 and the feedback support 130 are both in cylindrical structures, and the receiving hole 111 is respectively matched with the boss support 120 and the feedback support 130. In this way, each boss support 120 and each feedback support 130 can be engaged with the frame 110, thus ensuring good stability of the rigid structure 100 and improving durability of the rigid structure 100.

In order to avoid the skin of the patient from being scratched by the elastic beads 220 during the massage therapy, in one embodiment, the elastic beads 220 have a spherical structure. Thus, the elastic convex particles 220 have a round structure and no sharp convex parts, and the surfaces of the elastic convex particles 220 are smooth, so that the skin of a patient is protected. Thus, the safety performance of the composite energy meridian brush is improved.

To avoid the protrusion support 120 from puncturing the resilient protrusion 220, in one embodiment, the end of the protrusion support 120 remote from the feedback support 130 is in a spherical configuration. In this way, the end structure of the pellet support 120 is rounded without sharp protrusions, avoiding the pellet support 120 from puncturing the resilient pellets 220. Thus, the structural stability of the composite energy meridian brush is improved. To avoid penetration of the feedback support 130 through the brush body 210, in one embodiment, the end of the feedback support 130 remote from the boss support 120 is in a spherical configuration. In this way, the end structure of the feedback support 130 is rounded, without sharp protrusions, avoiding the feedback support 130 from penetrating the brush body 210. Thus, the structural stability of the composite energy meridian brush is further improved.

To enhance the feedback of the compound energy meridian brush to the healthcare therapist during massage therapy, in one embodiment, the end of the feedback support 130 remote from the boss support 120 is tapered. Thus, the feedback support 130 provides more direct feedback of the massage force to the health care physical therapist, and provides a greater degree of feedback, thereby facilitating the health care physical therapist to more directly control the massage force, and at the same time forcing the health care physical therapist to alleviate the massage force. Thus, the application range of the composite energy meridian brush is further widened.

The elastic structure 200 is used for generating elastic form change to match with the manipulation of the health care physical therapist to complete the massage health care course. The brush body 210, the plurality of elastic protrusions 220, and the grip handle 230 are all made of a mixture of far infrared powder, negative ion powder, magnetic particle powder, and silica gel. Far infrared powder is a white powder, which is formed by mixing various substances. The far infrared powder has a main characteristic function of being able to radiate far infrared rays more than normal objects. The method is mainly applied to manufacturing various far infrared thermal insulation materials such as far infrared ceramic powder, far infrared ceramic fiber, far infrared ceramic polyester and the like in a normal temperature area. The far infrared powder has the catalytic oxidation function, generates negative monovalent hydroxyl ions under the irradiation of sunlight, especially ultraviolet rays, can effectively remove benzene, formaldehyde, sulfide, ammonia and odor substances in a room, and has the sterilization function. The negative ion powder is a composite mineral which is artificially synthesized or proportioned by human beings according to the principle of generating negative ions in nature. Generally contains tourmaline powder, lanthanoid element, rare earth element, etc. Negative ion powder can generate negative ions, and in the medical field, the negative ions are confirmed to be effective means for killing bacteria and purifying air. The mechanism is mainly that after the negative ions are combined with bacteria, the bacteria generate structural change or energy transfer, so that the bacteria die and finally sink on the ground. Medical research shows that the negatively charged particles in the air increase the oxygen content in the blood, are beneficial to the transportation, absorption and utilization of blood oxygen, and have the effects of promoting metabolism of human bodies, improving the immunity of human bodies, enhancing the muscle energy of human bodies and regulating the functional balance of human bodies. According to the examination, the negative ions have the effects of inhibiting, relieving and assisting in treating more than thirty diseases on seven systems of human bodies, and particularly have more obvious health care effects on human bodies. The magnetic particle powder is powder prepared by grinding permanent magnetic particle materials. Products made from magnetic particle powder, due to the particulate material with permanent magnets inside, are subjected to a magnetic field having a polarity of N, S. The magnetic lines of force generated by the magnetic particles form a magnetic loop from the N pole to the S pole. The magnetic particles generate a plurality of N, S magnetic loops and the emitted magnetic force lines, which are interwoven into a layer of invisible stereoscopic magnetic wire net. The net film can perform omnibearing three-dimensional stimulation and massage on the close skin. The skin surface is in a micro-movement state, the cell metabolism capacity is activated, and the body microcirculation is promoted. The magnetic particles closely attached to the acupoints of skin can penetrate the acupoints. The beam is invisible, and the magnetic force lines without sense play the same role as the acupuncture of traditional Chinese medicine, so that physiotherapy can be performed anytime and anywhere. Therefore, the composite energy meridian brush has the health care effects of far infrared powder, negative ion powder and magnetic particle powder, so that the health care physiotherapy function of the composite energy meridian brush is enriched.

The brush body 210 is a main body part of the composite energy meridian brush. The elastic convex particles 220 are the main acting components of the composite energy meridian brush, and the elastic convex particles 220 can squeeze and eliminate fat, break up hard fat and eliminate orange peel tissues, so that the effects of dredging the meridian and expelling toxin waste are achieved. In this embodiment, the plurality of elastic protruding particles 220 are uniformly arranged, so that the curative effect of the health care function can be better exerted. The grip handles 230 are used to provide grip points for the user so that the user can stably hold the composite energy meridian brush.

In order to facilitate the user to clamp the composite energy meridian brush and improve the convenience of using the composite energy meridian brush, in one embodiment, please refer to fig. 4 again, the clamping handle 230 includes two clamping posts 231, the two clamping posts 231 are disposed at intervals, and the two clamping posts 231 are connected to one side of the brush body 210 facing away from the elastic protruding particles 220. In this way, the user can grip the two grip posts 231 with fingers to take the composite energy meridian brush. In one embodiment, a user's middle finger is inserted into two clamping posts 231, an index finger is placed on one side of one clamping post 231, and a ring finger is placed on one side of the other clamping post 231. I.e., the index finger and the middle finger are clamped to one clamping post 231, and the middle finger and the ring finger are clamped to the other clamping post 231. The user can take the composite energy meridian brush more easily, conveniently and stably. Therefore, the stability of the composite energy meridian brush clamped by the user is improved, and the use convenience is improved.

To prevent the composite energy meridian brush from falling off the health care physiotherapist's hand, in one embodiment, each of the clamping posts 231 is provided with a stop collar 232. Thus, the limiting ring 232 plays a limiting role, and specifically, limits the movement of the fingers of the user, so that the composite energy meridian brush is prevented from falling off from the hands of the user. Thus, the clamping stability of the composite energy meridian brush is further improved.

In order to improve the strength and stability of the elastic structure 200, in one embodiment, the brush body 210, the plurality of elastic protrusions 220, and the two holding posts 231 are integrally formed. In this way, the brush body 210, the plurality of elastic protrusions 220 and the two holding posts 231 are more firmly connected, and each elastic protrusion 220 and each holding post 231 are not easy to separate from the brush body 210. In this way, the strength and stability of the elastic structure 200 are further improved.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. A composite energy meridian brush comprising: rigid structures and elastic structures; the elastic structure wraps the rigid structure;

the rigid structure comprises a frame body, a plurality of convex grain supporting pieces and a plurality of feedback supporting pieces; the frame body is provided with a plurality of containing holes, each feedback supporting piece is contained in one containing hole and is in sliding connection with the frame body, each convex grain supporting piece part is contained in one containing hole and is in sliding connection with the frame body, and each convex grain supporting piece is abutted with one feedback supporting piece; the end face, far away from the convex grain support, of the feedback support is coplanar with one face, away from the convex grain support, of the frame body, and the end part, far away from the feedback support, of the convex grain support protrudes out of one face, away from the feedback support, of the frame body;

the elastic structure comprises a brush body, a plurality of elastic convex particles and a clamping handle; the elastic convex particles are connected to one surface of the brush body, and the clamping handle is connected to the other surface of the brush body; the brush body, the elastic convex particles and the clamping handle are all prepared by mixing far infrared powder, negative ion powder, magnetic particle powder and silica gel;

the brush body is coated on the frame body, and each elastic convex particle is coated on one convex particle supporting piece;

the convex particle supporting piece is used for supporting and stabilizing the elastic convex particles, and plays a role in supporting and fixing when the elastic convex particles are transversely elastically deformed, so that the overlarge transverse elastic deformation amplitude of the elastic convex particles is avoided, and the breakage of the elastic convex particles is prevented; when the elastic convex particles press the skin of a patient to generate longitudinal elastic deformation, the elastic convex particles force the convex particle supporting pieces and the feedback supporting pieces to slide in the containing holes of the frame body, and the feedback supporting pieces are pushed by the abutting of the convex particle supporting pieces, and the end parts, far away from the convex particle supporting pieces, of the feedback supporting pieces protrude out of the end faces of the frame body; the greater the longitudinal deformation degree of the elastic convex particles, the deeper the part of the convex particle supporting piece which is retracted in the accommodating hole, and the longer the part of the feedback supporting piece which is protruded out of the end face of the frame body; the pressure exerted by each elastic convex particle and the skin of the patient is fed back to the hands of the health care physiotherapy staff through the convex particle supporting piece and the feedback supporting piece.

2. The composite energy meridian brush of claim 1, wherein the receiving hole is a circular through hole, the convex grain support and the feedback support are both in cylindrical structures, and the receiving hole is respectively matched with the convex grain support and the feedback support.

3. The composite energy meridian brush of claim 1, wherein the elastic raised particles are spherical in structure.

4. The composite energy meridian brush of claim 1, wherein an end of the protuberance support member distal from the feedback support member is spherically configured.

5. The composite energy meridian brush of claim 1, wherein an end of the feedback support distal from the lobe support is spherically configured.

6. The composite energy meridian brush of claim 1, wherein an end of the feedback support distal from the lobe support is tapered.

7. The composite energy meridian brush of claim 1, wherein the interior of the frame is hollow.

8. The composite energy meridian brush of claim 1, wherein the grip handle includes two grip posts spaced apart from each other, both of the grip posts being connected to a face of the brush body facing away from the resilient protrusions.

9. The composite energy meridian brush of claim 8, wherein each of the clamp posts is provided with a stop collar.

10. The composite energy meridian brush of claim 9, wherein the brush body, the plurality of elastic protrusions and the two clamping posts are integrally formed.