CN211634236U - Composite energy meridian brush - Google Patents

Abstract

The utility model provides a compound energy main and collateral channels brush, include: rigid structures and resilient structures. The elastic structure is wrapped around the rigid structure. The rigid structure comprises a frame body, a plurality of convex particle supporting pieces and a plurality of feedback supporting pieces. The frame body is provided with a plurality of accommodating holes, each feedback support piece is accommodated in one accommodating hole, each convex grain support piece is partially accommodated in one accommodating hole, and each convex grain support piece is abutted to one feedback support piece. The brush body, the elastic convex particles and the clamping handle are all made of composite energy materials, and the composite energy materials are made by mixing far infrared powder, negative ion powder, magnetic particle powder and silica gel. Above-mentioned main and collateral channels brush, the difficult fracture of elasticity protruding grain, elasticity protruding grain deformation will force protruding grain support piece and feedback support piece to slide in the support body, and feedback support piece protrusion, massage dynamics passes through feedback support piece feedback to be convenient for the accuse massage dynamics. The far infrared powder, the anion powder and the magnetic particle powder provide health care efficacy, thereby enriching the physical therapy function.

Description

Composite energy meridian brush

Technical Field

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

Background

The far infrared powder is a white powder and is prepared by mixing a plurality of substances. The far infrared powder has a main characteristic function of being capable of radiating 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 catalytic oxidation function, generates negative monovalent hydroxyl ions under the irradiation of sunlight, especially ultraviolet radiation, can effectively remove indoor benzene, formaldehyde, sulfide, ammonia and odor substances, and has sterilization function. At present, the health care product is widely applied to various health care products.

The negative ion powder is a kind of composite mineral artificially synthesized or proportioned by human beings by utilizing the principle of producing negative ions in the natural world. Generally contains tourmaline powder, lanthanide element and rare earth element. The anion powder can generate anions, and the anions are confirmed to be effective means for killing germs and purifying air in the medical field. 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 to the ground. Medical research shows that the negatively charged particles in the air increase the oxygen content in the blood, are beneficial to blood oxygen transportation, absorption and utilization, and have the effects of promoting human metabolism, improving human immunity, enhancing human body muscle energy and regulating the function balance of the human body. According to the examination, the anion has the effects of inhibiting, relieving and assisting in treating more than thirty diseases of seven systems of human bodies, and particularly has more obvious health care effect on human bodies.

The magnetic particle powder is powder prepared by grinding permanent magnetic particle materials. The product made of the magnetic granular powder has a magnetic field with N, S poles due to the particulate material containing permanent magnets inside. The magnetic lines of force generated by these magnetic particles form a magnetic circuit from the N pole to the S pole. The many N, S magnetic loops generated by these magnetic particles and the emitted magnetic lines are interwoven into a layer of invisible three-dimensional magnetic wire mesh. The net film can carry out omnibearing three-dimensional stimulation and massage on the close skin. The skin surface is in a micro-motion state, the cell metabolism capability is activated, and the body microcirculation is promoted. The magnetic particles clinging to the skin acupuncture points can emit magnetic lines of force to penetrate through the acupuncture points. The bundle of magnetic lines is invisible, and the magnetic lines without sensation have the same function as the traditional Chinese medicine acupuncture, so that physical therapy can be performed at any time and any place. At present, the health care product is widely applied to various health care products.

The meridian brush is a health care product, and can quickly dredge lymph vessels and meridians of all parts of a body, so that the effects of losing weight and beautifying are achieved. The meridian brush is provided with a plurality of elastic convex grains, gaps among the elastic convex grains are small, and the elastic convex grains can extrude and remove fat, break up hard fat and effectively remove orange peel tissues. With proper strength and proper essential oil, the composition can dredge channels and collaterals to prevent toxin waste from being silted and accumulated. The health value of the user is conjectured by effectively combining the five elements theory of the traditional Chinese medicine. Can achieve the effect of losing weight with half the effort.

However, after long-term use of the existing meridian brush, the elastic convex particles are easy to break and separate in the health-care massage process, and the durability of each elastic convex particle is low, so that the elastic convex particles are easy to fall off from the meridian brush body. Secondly, when the health care physiotherapist uses the main and collateral channels brush to carry out the health care massage to the patient, the control of the massage strength is difficult, and the health care physiotherapist can only control the massage strength according to experience, which is not beneficial for the health care physiotherapist in new promotion to quickly master the massage health care skill. In addition, the meridian brush has a single physical therapy function, and lacks effective application of health care materials such as far infrared powder, anion powder and magnetic particle powder, so that the meridian brush does not have multiple health care functions and cannot meet the requirements of modern people.

SUMMERY OF THE UTILITY MODEL

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

A composite energy meridian brush, comprising: rigid structures and resilient structures. The elastic structure wraps the rigid structure. The rigid structure comprises a frame body, a plurality of convex particle supporting pieces and a plurality of feedback supporting pieces. The support body is provided with a plurality of accommodating holes, each feedback support piece is accommodated in one of the accommodating holes and is in sliding connection with the support body, each convex grain support piece is partially accommodated in one of the accommodating holes and is in sliding connection with the support body, and each convex grain support piece is abutted to one of the feedback support pieces. The end face of the feedback support piece far away from the convex grain support piece and the face of the support body back to the convex grain support piece are coplanar, and the end part of the convex grain support piece far away from the feedback support piece protrudes out of the support body back to the face of the feedback support piece. The elastic structure comprises a brush body, a plurality of elastic convex particles and a clamping handle. The elastic convex grains 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 composite energy materials. 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 receiving hole is a circular through hole, the bump support and the feedback support are both cylindrical structures, and the receiving hole is respectively matched with the bump support and the feedback support.

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

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

In one embodiment, the end of the feedback support remote from the button support is spherically shaped.

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

In one embodiment, the interior of the frame body 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, back to the elastic convex particles, of the brush body.

In one embodiment, each of the clamping posts is provided with a stop collar.

In one embodiment, the brush body, the elastic convex grains and the two clamping columns are integrally formed.

Above-mentioned compound energy main and collateral channels brush, because the setting of elastic construction cladding rigid structure, this main and collateral channels brush's structural stability is strong. Each elastic convex grain is coated with a convex grain supporting piece, and under the supporting action of each convex grain supporting piece, each elastic convex grain is not easy to break and separate. This main and collateral channels brush is in the use, and when each elasticity protruding grain and patient skin contact, because of the atress extrusion, elasticity protruding grain can produce elastic deformation to force protruding grain support piece and feedback support piece to slide in the accepting hole of support body, feedback support piece is under protruding grain support piece's butt promotion, and feedback support piece keeps away from protruding grain support piece's tip will bulge in the terminal surface of support body. Because the action of the force is mutual, the pressure of each elastic convex grain and the skin of the patient is fed back to the hands of the health care physical therapist through the convex grain supporting piece and the feedback supporting piece. That is to say, the in-process that the physiotherapy of massaging to the patient is carried out to the physiotherapy teacher of health care use this main and collateral channels brush, will feed back to health care physiotherapy teacher's hand through feedback support piece to the impression of patient's massage dynamics to it is convenient for health care physiotherapy teacher to control the massage dynamics. In addition, the brush body, the elastic convex particles and the clamping handle are all made of composite energy materials, and the composite energy materials are made of far infrared powder, anion powder, magnetic particle powder and silica gel in a mixing mode, namely, the meridian brush has the health-care effects of the far infrared powder, the anion powder and the magnetic particle powder, and therefore the health-care and physical therapy functions are enriched.

Drawings

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

FIG. 2 is another schematic structural view of a composite energy meridian brush according to an 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 view of another embodiment of a composite energy meridian brush;

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

FIG. 6 is a schematic view showing a state of a partial structure of the composite energy meridian brush in one embodiment;

fig. 7 is another state diagram illustrating a partial structure of the composite energy meridian brush in the embodiment of fig. 6.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying 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, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

In the description of the present invention, it is to 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", and the like, indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

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

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" 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 as used herein are for illustrative purposes only and do not denote a unique embodiment.

Referring to fig. 1 to 7, the present invention provides a composite energy meridian brush 10, wherein the composite energy meridian brush 10 includes: a rigid structure 100 and a resilient structure 200. The resilient structure 200 encases the rigid structure 100. Rigid structure 100 includes a frame 110, a plurality of pellet supports 120, and a plurality of feedback supports 130. The frame 110 has a plurality of receiving holes 111, each feedback support 130 is received in one of the receiving holes 111 and slidably connected to the frame 110, each pellet support 120 is partially received in one of the receiving holes 111 and slidably connected to the frame 110, and each pellet support 120 abuts against one of the feedback supports 130. The end surface of the feedback supporter 130 far from the pellet supporter 120 is coplanar with the surface of the frame body 110 facing away from the pellet supporter 120, and the end of the pellet supporter 120 far from the feedback supporter 130 protrudes from the surface of the frame body 110 facing away from the feedback supporter 130. The elastic structure 200 includes a brush body 210, a plurality of elastic protrusions 220, and a grip handle 230. A plurality of elastic protrusions 220 are connected to one surface of the brush body 210, and a 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 made of a composite energy material. The brush body 210 covers the frame 110, and each of the elastic beads 220 covers a bead support 120.

The composite energy meridian brush 10 has a strong structural stability because the elastic structure 200 is disposed to cover the rigid structure 100. Each elastic convex grain 220 is wrapped around a convex grain support 120, and under the supporting action of each convex grain support 120, each elastic convex grain 220 is not easy to break and separate. When the meridian brush is used, when each elastic convex grain 220 contacts with the skin of a patient, the elastic convex grain 220 is elastically deformed due to the stress and extrusion, so that the convex grain support 120 and the feedback support 130 are forced to slide in the receiving hole 111 of the frame body 110, and the end of the feedback support 130 far away from the convex grain support 120 protrudes out of the end surface of the frame body 110 under the pushing of the convex grain support 120 by the feedback support 130. Since the forces are applied to each other, the pressure exerted by each elastic bead 220 on the patient's skin is fed back to the hands of the health care physiotherapist through the bead support 120 and the feedback support 130. That is to say, the in-process that the physiotherapy of massaging to the patient is carried out to the physiotherapy teacher using this main and collateral channels brush, will feed back to physiotherapy teacher's hand through feedback support piece 130 to the physiotherapy teacher of being convenient for is to accuse massage dynamics. In addition, since the brush body 210, the plurality of elastic convex particles 220 and the grip handle 230 are made of the composite energy material made of the far infrared powder, the anion powder, the magnetic particle powder and the silica gel, the meridian brush has the health care effects of the far infrared powder, the anion powder and the magnetic particle powder, thereby enriching the health care and physical therapy functions.

The rigid structure 100 is used to support the elastic structure 200 to improve the stability of the elastic structure 200. The frame 110 serves as a main structure for providing an installation site for the plurality of pellet supports 120 and the plurality of feedback supports 130. In order to reduce the weight of the composite energy meridian brush, in one embodiment, the interior of the frame body 110 is hollow. Therefore, the composite energy meridian brush is lighter and more convenient for a user to hold and use. 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 mass of the composite energy meridian brush is reduced, and the flexibility is improved.

The convex grain support member 120 is used for supporting the stable elastic convex grains 220, when the elastic convex grains 220 generate transverse elastic deformation, the convex grain support member 120 plays a role in supporting and fixing, the transverse elastic deformation amplitude of the elastic convex grains 220 is prevented from being too large, and the breakage of the elastic convex grains 220 is avoided. When the elastic protrusions 220 press the skin of the patient to generate longitudinal elastic deformation, the elastic protrusions 220 force 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 away from the protrusion support 120 protrudes from the end surface of the frame 110 when the feedback support 130 is pushed by the protrusion support 120. The feedback support 130 reflects the longitudinal deformation degree of the elastic protruding grain 220, that is, the greater the longitudinal deformation degree of the elastic protruding grain 220 is, the deeper the portion of the protruding grain support 120 retracted into the receiving hole 111 is, and the longer the portion of the feedback support 130 protruding out of the end surface of the frame body 110 is. Since the forces are applied to each other, the pressure exerted by each elastic bead 220 on the patient's skin is fed back to the hands of the health care physiotherapist through the bead support 120 and the feedback support 130. That is to say, the in-process that the physiotherapy of massaging to the patient is carried out to the physiotherapy teacher using this main and collateral channels brush, will feed back to physiotherapy teacher's hand through feedback support piece 130 to the physiotherapy teacher of being convenient for is to accuse massage dynamics.

It should be noted that, since the elastic structure 200 is an elastic material, it has certain elastic tension characteristics, i.e. the elastic structure has the capability of generating elastic deformation and the capability of recovering the elastic deformation. During the sliding process of the protruding grain supporting element 120 and the feedback supporting element 130 in the receiving hole 111, the elastic structure 200 will change its shape accordingly, and recover to its original shape structure when the force is removed. Second, the tension provided by the resilient structure 200, during use, makes the rigid structure 100 relatively stable. That is, in the elastic structure 200, under the elastic deformation limit, the bump support 120 and the feedback support 130 are at least partially received in the receiving hole 111, and ensure a good sliding connection with the frame 110, so that the overall frame of the rigid structure 100 is not damaged.

In order to maintain the good sliding connection between the pellet supports 120 and the feedback supports 130 and the frame 110, in one embodiment, the receiving holes 111 are circular through holes, the pellet supports 120 and the feedback supports 130 are cylindrical structures, and the receiving holes 111 are respectively matched with the pellet supports 120 and the feedback supports 130. In this way, each of the bump supporters 120 and each of the feedback supporters 130 can be engaged with the frame body 110, so that the good stability of the rigid structure 100 is ensured and the durability of the rigid structure 100 is improved.

In order to prevent the skin of the patient from being scratched by the elastic beads 220 during the therapeutic massage treatment, in one embodiment, the elastic beads 220 have a spherical structure. Thus, the structure of the elastic convex particles 220 is round without sharp convex parts, and the surface of the elastic convex particles 220 is smooth, thereby protecting the skin of a patient. Therefore, the safety performance of the composite energy meridian brush is improved.

To prevent the button support 120 from piercing the resilient button 220, in one embodiment, the end of the button support 120 distal from the feedback support 130 is spherically shaped. Thus, the end structure of the button support 120 is rounded without sharp protrusions, preventing the button support 120 from piercing the resilient buttons 220. Therefore, the structural stability of the composite energy meridian brush is improved. To avoid the feedback support 130 from penetrating the brush body 210, in one embodiment, the end of the feedback support 130 distal from the nib support 120 is spherically shaped. Thus, the end structure of the feedback support 130 is rounded without sharp protrusions, preventing the feedback support 130 from penetrating the brush body 210. Therefore, the structural stability of the composite energy meridian brush is further improved.

To enhance the feedback of the composite energy meridian brush to the health care therapist during the massage therapy, in one embodiment, the end of the feedback support 130 distal from the button support 120 is tapered. Like this, feedback support piece 130 is more direct to the feedback of health care physiotherapist's massage dynamics, and the feedback degree is bigger to be convenient for health care physiotherapist more directly to the accuse massage dynamics, will force health care physiotherapist to alleviate the dynamics of physiotherapy massage simultaneously. Therefore, the application range of the composite energy meridian brush is further expanded.

The elastic structure 200 is used to change the elastic form to match the technique of the health care physical therapist to complete the massage health care treatment course. The brush body 210, the plurality of elastic convex particles 220 and the clamping handle 230 are all made of composite energy materials, the composite energy materials are common base materials in the field of health care products, and the composite energy materials are generally made by mixing far infrared powder, negative ion powder, magnetic particle powder and silica gel. The far infrared powder is a white powder and is prepared by mixing a plurality of substances. The far infrared powder has a main characteristic function of being capable of radiating 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 catalytic oxidation function, generates negative monovalent hydroxyl ions under the irradiation of sunlight, especially ultraviolet radiation, can effectively remove indoor benzene, formaldehyde, sulfide, ammonia and odor substances, and has sterilization function. The negative ion powder is a kind of composite mineral artificially synthesized or proportioned by human beings by utilizing the principle of producing negative ions in the natural world. Generally contains tourmaline powder, lanthanide element and rare earth element. The anion powder can generate anions, and the anions are confirmed to be effective means for killing germs and purifying air in the medical field. 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 to the ground. Medical research shows that the negatively charged particles in the air increase the oxygen content in the blood, are beneficial to blood oxygen transportation, absorption and utilization, and have the effects of promoting human metabolism, improving human immunity, enhancing human body muscle energy and regulating the function balance of the human body. According to the examination, the anion has the effects of inhibiting, relieving and assisting in treating more than thirty diseases of seven systems of human bodies, and particularly has more obvious health care effect on human bodies. The magnetic particle powder is powder prepared by grinding permanent magnetic particle materials. The product made of the magnetic granular powder has a magnetic field with N, S poles due to the particulate material containing permanent magnets inside. The magnetic lines of force generated by these magnetic particles form a magnetic circuit from the N pole to the S pole. The many N, S magnetic loops generated by these magnetic particles and the emitted magnetic lines are interwoven into a layer of invisible three-dimensional magnetic wire mesh. The net film can carry out omnibearing three-dimensional stimulation and massage on the close skin. The skin surface is in a micro-motion state, the cell metabolism capability is activated, and the body microcirculation is promoted. The magnetic particles clinging to the skin acupuncture points can emit magnetic lines of force to penetrate through the acupuncture points. The bundle of magnetic lines is invisible, and the magnetic lines without sensation have the same function as the traditional Chinese medicine acupuncture, so that physical therapy can be performed at any time and any place. Thus, the composite energy meridian brush has the health care effects of the far infrared powder, the anion powder and the magnetic particle powder, and the health care and physical therapy functions of the composite energy meridian brush are enriched.

The brush body 210 is a main body part of the composite energy meridian brush. The elastic convex particles 220 are main action parts of the composite energy meridian brush, and the elastic convex particles 220 can extrude and remove fat, break up hard fat and remove orange peel tissues, so that the effects of dredging meridians and expelling toxin and waste are achieved. In this embodiment, the plurality of elastic protrusions 220 are uniformly disposed, so that the therapeutic effect of the health function is better exerted. The grip handle 230 is used to provide a grip stress point for a user, thereby facilitating the user to 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 the composite energy meridian brush, in one embodiment, referring 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 the surface of the brush body 210 facing away from the elastic convex particles 220. In this way, the user can grip the two grip posts 231 with the fingers to take the composite energy meridian brush. In one embodiment, the middle finger of the user is inserted into the two posts 231, the index finger is placed on one side of one post 231, and the ring finger is placed on one side of the other post 231. That is, the index finger and the middle finger are clamped on one clamping column 231, and the middle finger and the ring finger are clamped on the other clamping column 231. The user can take the composite energy meridian brush more easily, conveniently and stably. So, improved the stability of this compound energy main and collateral channels brush of user's centre gripping, promoted the convenience in use.

In order to prevent the composite energy meridian brush from falling off from the hands of the health care physiotherapist, in one embodiment, each of the clamping columns 231 is provided with a spacing ring 232. Thus, the limiting ring 232 plays a limiting role, and particularly limits the movement of the fingers of the user, so that the composite energy meridian brush is prevented from falling off from the hand of the user. Therefore, the clamping stability of the composite energy meridian brush is further improved.

In order to enhance the strength and stability of the elastic structure 200, in one embodiment, the brush body 210, the elastic protrusions 220 and the two clamping posts 231 are integrally formed. Thus, the connection between the brush body 210, the elastic protrusions 220 and the two clamping posts 231 is more stable, and each elastic protrusion 220 and the two clamping posts 231 are not easily separated from the brush body 210. Thus, the strength and stability of the elastic structure 200 are further improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

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

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

the elastic structure comprises a brush body, a plurality of elastic convex particles and a clamping handle; the elastic convex grains 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 composite energy materials;

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

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

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

4. The composite energy meridian brush of claim 1, wherein an end of the spur support distal from the feedback support is in a spherical configuration.

5. The composite energy meridian brush of claim 1 wherein an end of the feedback support distal from the spur support is of a spherical configuration.

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

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

8. The composite energy meridian brush as claimed in claim 1, wherein the clamping handle includes two clamping posts spaced apart from each other, and both of the two clamping posts are connected to a surface of the brush body facing away from the elastic convex particles.

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

10. The composite energy meridian brush as claimed in claim 9, wherein the brush body, the plurality of elastic convex grains and the two clamping columns are integrally formed.

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