CN112472573A - Beater and beating assembly thereof - Google Patents

Abstract

The present invention provides a flapper and a flapping assembly thereof, wherein the flapper comprises a rod and a flapping assembly, wherein the flapping assembly is traversably arranged on the rod, and the flapping assembly is swung by the rod. The flapping assembly comprises a flapping body, a hole-slapping element, and at least one counterweight element, wherein the hole-slapping element is arranged back to back on the flapping body, wherein the flapping body and the hole-slapping element are arranged on both sides of the rod, when the rod is swung, the flapping body transmits the flapping force of the rod to flap the person being flapped, and the hole-slapping element transmits the knocking force of the rod to knock the person being flapped, and the counterweight element is arranged on the flapping body, and when the rod drives the flapping assembly to move, the counterweight element provides an inertial force to the flapping body to increase the flapping force of the flapping body.

Description

Beater and beating assembly thereof

Technical Field

The invention relates to health care equipment, in particular to a beater and a beating component thereof.

Background

According to the theory of traditional Chinese medicine and the research of medical practice, the proper beating and knocking on the skin of a human body are beneficial to softening blood vessels, accelerating blood circulation, eliminating fatigue and the like. For example, one treatment method called "patting" in the traditional Chinese medical treatment is to regulate the contraction and relaxation of muscles by patting on body parts, and to enhance the blood circulation of muscles and the blood flow between tissues, thereby activating blood circulation to dissipate blood stasis, and removing putrefaction to promote tissue regeneration. Has good therapeutic effects on painful diseases, sub-health state, common cold, fever, disease prevention, health promotion and mild visceral dysfunction. In addition, the knocking and beating of the acupuncture points and blood vessels of the important parts of the human body are an effective means for the traditional Chinese massage.

The way of beating the body is many, and people generally like beating the skin directly with the palm or by means of a beating object similar to the palm. Only part of the body can be flapped by beating with the palm, and many parts are difficult to flap by oneself, so that the palm can only help by other people. In addition, the beating method is difficult to achieve the beating effect in a short time, but one person is difficult to persist in beating for a long time. It is common to pat the body in tapping fashion with the aid of massage hammers, palm-like beaters or other striking tools. The knocking tool in the prior art directly knocks the epidermis of the body in the using process, the knocking strength is difficult to control in the mode, and the soft tissue injury of the body is easily caused. Such beating methods not only fail to provide a good therapeutic effect, but also affect the normal health and increase the discomfort of the body.

Fig. 1 shows a magnetic disk single-double suction health care device in the prior art, wherein the magnetic disk single-double suction health care device comprises a connecting rod 1P, one end of the connecting rod 1P is provided with a grab handle 4P, and the other end is provided with a beating head 2P and a magnetic block 3P. The patting head 2P is a bowl-shaped sucker, the patting head further comprises an inner sucker and an outer sucker, and the bottom of the outer sucker is in pin joint connection with the connecting rod 1P. The double suction discs of the beating head of the magnetic disc single-double suction health care device act on the surface of skin to form an adsorption effect, and the magnetic disc single-double suction health care device has the effect similar to a cupping effect. Because the beating head 2P of the magnetic disk single-double suction health care device is of a bowl-shaped structure, the gravity center of the beating head is dispersed at the periphery of the sucking disc or the inner side of the bowl-shaped structure, and the gravity center of the beating head 2P is difficult to stabilize when the beating is performed. Therefore, when the patting head 2P is patted on each part of the body, the acting force applied to each part of the body is not uniform, and the patting effect is poor.

The connecting rod 1P of the health care equipment is connected to the beating head 2P through a screw, and a force perpendicular to the direction of the connecting rod 1P is applied to the beating head 2P by the connecting rod 1P, but the connecting mode is easy to slip off in the beating process, so that the connecting position of the connecting rod 1P and the beating head 2P is unstable. On the other hand, for the convenience of use, the prior art exercise machine has a link 1P wrapped by the grip 4P. That is, the length of the link 1P cannot be adjusted, and the length of the flap can be adjusted only by adjusting the portion held by the user, which is inconvenient for the user to use. In addition, the adjustment of the beating strength of the health care equipment can only be adjusted by the user according to experience. That is, only a person with professional skills can accurately operate and use the health care apparatus, and it is difficult for general consumers to grasp the correct use method of the apparatus, and there is a high possibility that the user may have an adverse effect on soft tissues or skin of the body in case of an operational error.

Disclosure of Invention

One major advantage of the present invention is to provide a beater and beater assembly thereof, wherein at least one weight element is configured to a beater body of the beater to increase and stabilize the position of the center of gravity of the beater, thereby facilitating the beating effect of the beater by the inertia of the weight element.

Another advantage of the present invention is to provide a beater and a beating assembly thereof, wherein the weight element is disposed inside the beating main body, and the beating center of gravity of the beater is stably fixed by the weight element, which is beneficial to increase beating inertia of the beating tool during beating, thereby improving beating effect.

Another advantage of the present invention is to provide a beater and a beating assembly thereof, wherein the weight element is disposed in an upper portion of the beating body in a wrapping manner, the weight device raises a center of gravity of the beating body, and an inertia force of the beating body when contacting a body part is increased.

Another advantage of the present invention is to provide a beater and a beating assembly thereof, wherein the weight element of the beater is drivingly connected to a rod of the beater, and when the rod drives the weight element to move, the weight element drives the beating body to move under inertia, which is beneficial to improve beating effect of the beater.

Another advantage of the present invention is to provide a beater and a beating assembly thereof, wherein when the beater is flapped, the weight member presses the air pressure space formed by the beating body and the body under the inertia effect, so as to generate the effect of pressing the body with air.

Another advantage of the present invention is to provide a beater and beating assembly thereof, wherein when the beater is swiped, the weight member presses the gas in the gas pressure space under the inertia effect, and the beating body forms a negative pressure environment under the elastic effect, thereby forming a suction effect on the body surface.

Another advantage of the present invention is to provide a beater and a beating assembly thereof, wherein when the beater is swiped to beat, the beating body beats the surface of the beaten body under the inertia of the weight element, wherein after the beater beats, the lever of the beater pulls the weight element, and the weight element drives the beating body to move in an opposite direction, wherein the beating body attracts a part of muscle tissue of the beaten body to move in the same direction, so that the beater can perform beating and suction effects on the body each time the beater beats the body, which is beneficial to improving the user experience.

Another advantage of the present invention is to provide a beater and a beating assembly thereof, wherein the rod is a telescopic rod, and the length of the beater is adjusted by adjusting the telescopic length of the rod, so that a user can adjust the length of the rod according to a beating position.

Another advantage of the present invention is to provide a beater and a beating assembly thereof, wherein the rod is a telescopic rod, and the beating force of the beater is adjusted by adjusting the telescopic length of the rod.

Another advantage of the present invention is to provide a beater and a beating assembly thereof, wherein the beater further includes an aperture beating element, wherein the aperture beating element and the beating body are disposed back to back at two ends of the rod, and the aperture beating element is moved toward and beats the aperture of the body of the person to be beaten by swinging the rod.

Another advantage of the present invention is to provide a beater and a beating assembly thereof, wherein the aperture beating element and the beating body of the beater are clamped at both ends of the lever, and one end of the lever is fixedly retained at the aperture beating element, thereby improving the fixing effect of the beater.

Another advantage of the present invention is to provide a beater and beating assembly thereof, wherein the beater further includes a finger-pressing element allowing a user to operate the beater to press a surface of a body through the finger-pressing element to simulate the effect of human finger pressing, thereby enhancing the pressing effect.

Another advantage of the present invention is to provide a beater and a beater assembly thereof, wherein the lever of the beater can be extended and retracted, wherein the overall size of the beater is reduced when the lever of the lever is shortened, thereby facilitating storage and storage of the beater.

Additional advantages and features of the invention will be set forth in the detailed description which follows and in part will be apparent from the description, or may be learned by practice of the invention as set forth hereinafter.

In accordance with one aspect of the present invention, the foregoing and other objects and advantages are achieved in a beater assembly of the present invention, adapted to be mounted to a bar for use by a player, comprising:

a flapping main body;

an aperture beating element, wherein the aperture beating element is arranged back to back on the beating main body, so that the beating main body and the aperture beating element are arranged at two sides of the rod, when the rod is waved, the beating action force of the rod is transmitted by the beating main body to beat the beaten person, and the beating action force of the rod is transmitted by the aperture beating element to beat the beaten person; and

at least one counterweight element, wherein the counterweight element is set up in clap the main part, for the member drive when clapping the subassembly motion, by the counterweight element is for when clapping the main part and providing inertial force, in order to improve clap the main part clap the effort.

According to an embodiment of the invention, the weight element is arranged at the upper end of the flapping body, and the flapping assembly has a center of gravity, which is maintained at the upper end of the flapping body by the weight element.

According to an embodiment of the invention, the flapping body is integrally formed at the outer side of the weight element, and the flapping body comprises a connecting end and a force applying end integrally extending from the connecting end, wherein the connecting end is wrapped at the outer side and the lower end of the weight element, so that when the rod member is used for flapping, the weight element transmits a force to the force applying end through the connecting end.

According to an embodiment of the invention, the flapping body is integrally formed on the weight element, the flapping body includes a connecting end and a force applying end integrally extending from the connecting end, wherein the weight element is embedded in the connecting end, so that when the rod member is used for flapping, the weight element transmits acting force to the force applying end through the connecting end.

According to an embodiment of the invention, the force application end extends downward and radially outward from the bottom of the coupling end, wherein the coupling end and the force application end of the flapping body define an air massage cavity, so that when the rod is used for flapping, the weight element presses the air massage cavity through the coupling end, and the air in the air massage cavity presses the flappers to form an air pressure pressing effect.

According to an embodiment of the present invention, the force application end extends downward and radially outward from a bottom of the coupling end, wherein the coupling end and the force application end of the flapping body define a gas massage cavity, and after the flapping body flares, gas in the gas massage cavity is squeezed out, so as to form a negative pressure environment in the gas massage cavity, and the flapped person is adsorbed by the gas massage cavity, so as to form a gas pressure adsorption effect.

According to an embodiment of the invention, the coupling end further comprises a coupling end outer edge and a coupling end lower bottom, wherein the coupling end outer edge is formed at the periphery of the weight element and the coupling end lower bottom is formed below the weight element, wherein the weight element transmits driving force to the force application end through the coupling end lower bottom, wherein the weight element transmits traction force through the coupling end outer edge.

According to an embodiment of the present invention, the flapping body further comprises a set of reinforcing ribs, wherein the reinforcing ribs are disposed at the force applying end of the flapping body, and the reinforcing ribs are radial along the outward extending direction of the force applying end of the flapping body.

According to an embodiment of the present invention, the weight element includes a weight upper end and a weight lower end extending downward from the weight upper end, wherein the size of the weight lower end is larger than that of the weight upper end, so that the beating body is fixed to the outside of the weight element.

According to an embodiment of the present invention, the rod member further comprises at least one fixing member, wherein the weight member is further provided with at least one weight mounting portion, so that the fixing member can fix the weight member to the rod member through the weight mounting portion.

According to an embodiment of the present invention, the handle further comprises at least one fixing element, wherein the flapping body is further provided with at least one mounting portion, so that the fixing element can fix the flapping body to the rod via the mounting portion.

According to one embodiment of the invention, the hole beating element comprises a hole beating main body and at least one knocking unit arranged on the hole beating main body, wherein the knocking unit is positioned at the upper end of the hole beating main body.

According to an embodiment of the present invention, the cavity racket body includes a mounting wall, a fixing base and a receiving groove, wherein the receiving groove is formed below the fixing base, and an opening of the receiving groove is formed at the bottom of the mounting wall, so that the mounting wall can limit the rod to the receiving groove.

According to an embodiment of the present invention, the striking unit is integrally formed at an upper end of the paddle main body, and the striking unit includes a striking lower end portion and a striking upper end portion integrally extended upward from the striking lower end portion, wherein a width dimension of the striking lower end portion is larger than a dimension of the striking upper end portion.

According to an embodiment of the invention, the knocking unit is further provided with a hollow groove, and the racket body further comprises a hole hitting unit, wherein the hole hitting unit is accommodated in the hollow groove.

According to one embodiment of the invention, the hole striking unit comprises a cap unit and a filling unit, wherein the filling unit is arranged in the hollow groove, the cap unit protrudes out of the filling unit, and the cap unit covers the striking unit.

According to one embodiment of the invention, the knocking unit is detachably arranged at the upper end of the cavity beating main body and comprises a knocking lower end part and a knocking upper end part integrally and upwardly extending from the knocking lower end part, wherein the width dimension of the knocking lower end part is larger than that of the knocking upper end part.

According to another aspect of the present invention, the present invention further provides a beater comprising:

a rod member; and

a flapping assembly, wherein the flapping assembly is driveably disposed to the bar, whereby the bar swings the flapping assembly, wherein the flapping assembly comprises:

a flapping main body;

an aperture beating element, wherein the aperture beating element is arranged back to back on the beating main body, wherein the beating main body and the aperture beating element are arranged on two sides of the rod, when the rod is waved, the beating action force of the rod is transmitted by the beating main body to beat the beaten person, and the beating action force of the rod is transmitted by the aperture beating element to beat the beaten person; and

at least one counterweight element, wherein the counterweight element is set up in pat the main part, when the member drive when beating the subassembly motion, by the counterweight element for pat the main part and provide inertial force, in order to improve pat the main part's clapping effort.

According to an embodiment of the invention, the weight element is arranged at the upper end of the flapping body, and the flapping assembly has a center of gravity, which is maintained at the upper end of the flapping body by the weight element.

According to an embodiment of the present invention, the flapping body is integrally formed at an outer side of the weight element, and the flapping body comprises a connecting end and a force applying end integrally extending from the connecting end, wherein the connecting end wraps an outer side and a lower end of the weight element, and the weight element transmits a force to the force applying end through the connecting end when the lever is used for flapping.

According to an embodiment of the present invention, the flapping body is integrally formed on the weight element, the flapping body includes a connecting end and a force applying end integrally extending from the connecting end, wherein the weight element is embedded in the connecting end, and when the lever is used for flapping, the weight element transmits a force to the force applying end through the connecting end.

According to an embodiment of the present invention, the force application end extends downward and radially outward from a bottom of the coupling end, wherein the coupling end and the force application end of the flapping body define an air massage cavity, when the rod member is used for flapping, the weight element presses the air massage cavity through the coupling end, and air in the air massage cavity presses the flappers to form an air pressure pressing effect.

According to an embodiment of the present invention, the force application end extends downward and radially outward from a bottom of the coupling end, wherein the coupling end and the force application end of the flapping body define a gas massage cavity, and after the flapping body flares, gas in the gas massage cavity is squeezed out, so as to form a negative pressure environment in the gas massage cavity, and the flapped person is adsorbed by the gas massage cavity, so as to form a gas pressure adsorption effect.

According to an embodiment of the invention, the coupling end further comprises a coupling end outer edge and a coupling end lower bottom, wherein the coupling end outer edge is formed at the periphery of the weight element and the coupling end lower bottom is formed below the weight element, wherein the weight element transmits driving force to the force application end through the coupling end lower bottom, wherein the weight element transmits traction force through the coupling end outer edge.

According to an embodiment of the present invention, the flapping body further comprises a set of reinforcing ribs, wherein the reinforcing ribs are disposed at the force applying end of the flapping body, and the reinforcing ribs are radial along the outward extending direction of the force applying end of the flapping body.

According to an embodiment of the present invention, the weight element includes a weight upper end and a weight lower end extending downward from the weight upper end, wherein the size of the weight lower end is larger than that of the weight upper end, so that the beating body is fixed to the outside of the weight element.

According to an embodiment of the present invention, the rod member further comprises at least one fixing member, wherein the weight member is further provided with at least one weight mounting portion, and the fixing member fixes the weight member to the rod member through the weight mounting portion.

According to an embodiment of the present invention, the handle further comprises at least one fixing element, wherein the flapping body is further provided with at least one mounting portion, and the fixing element fixes the flapping body to the rod through the mounting portion.

According to one embodiment of the invention, the hole beating element comprises a hole beating main body and at least one knocking unit arranged on the hole beating main body, wherein the knocking unit is positioned at the upper end of the hole beating main body.

According to an embodiment of the present invention, the cavity racket body includes a mounting wall, a fixing base, and a receiving groove, wherein the receiving groove is formed below the fixing base, an opening of the receiving groove is formed at a bottom of the mounting wall, and the mounting wall restricts the rod to the receiving groove.

According to an embodiment of the present invention, the striking unit is integrally formed at an upper end of the paddle main body, and the striking unit includes a striking lower end portion and a striking upper end portion integrally extended upward from the striking lower end portion, wherein a width dimension of the striking lower end portion is larger than a dimension of the striking upper end portion.

According to an embodiment of the invention, the knocking unit is further provided with a hollow groove, and the racket body further comprises a hole hitting unit, wherein the hole hitting unit is accommodated in the hollow groove.

According to one embodiment of the invention, the hole striking unit comprises a cap unit and a filling unit, wherein the filling unit is arranged in the hollow groove, the cap unit protrudes out of the filling unit, and the cap unit covers the striking unit.

According to one embodiment of the invention, the knocking unit is detachably arranged at the upper end of the cavity beating main body and comprises a knocking lower end part and a knocking upper end part integrally and upwardly extending from the knocking lower end part, wherein the width dimension of the knocking lower end part is larger than that of the knocking upper end part.

According to an embodiment of the invention, the lever comprises a holding unit and a telescopic unit, wherein the telescopic unit is telescopically arranged in the holding unit, and the beating force of the beater is adjusted by adjusting the extension length of the telescopic unit.

According to an embodiment of the present invention, the lever further includes at least one locking element, the locking element being adjustably switchable between a locking state and an unlocking state, and when the locking element is in the locking state, the locking element can lock the telescopic unit to maintain the extended length of the telescopic unit; when the locking element is in an unlocking state, the telescopic unit of the rod piece can be stretched back and forth based on the holding unit so as to adjust the overall length of the rod piece and further adjust the beating force of the beater.

According to an embodiment of the present invention, the telescopic unit includes an extension arm and a transmission end extending from the extension arm, wherein the flapping component is fixedly disposed at the transmission end of the telescopic unit, and the transmission end drives the flapping component to move.

According to an embodiment of the present invention, the extension arm of the telescopic unit includes an arm body and a series of spacing units disposed on the arm body, wherein any two adjacent spacing units form a spacing slot at intervals, and when the lock member is in the locked state, the lock member is inserted into the spacing slot to prevent the arm body of the telescopic unit from moving.

According to an embodiment of the present invention, the holding unit includes a holding main body and further includes at least one retractable accommodating cavity and a limiting opening, and the extension arm of the retractable unit is telescopically disposed in the retractable accommodating cavity.

According to an embodiment of the present invention, the holding body further includes a holding front end and a holding rear end, wherein the limiting opening is formed at the holding front end of the holding body, and the locking member is pivotally disposed at the holding front end of the holding body.

According to an embodiment of the present invention, further comprising at least one finger-pressure element, wherein the finger-pressure element is disposed at the holding unit of the lever.

Further objects and advantages of the invention will be fully apparent from the ensuing description and drawings.

These and other objects, features and advantages of the present invention will become more fully apparent from the following detailed description, the accompanying drawings and the claims.

Drawings

FIG. 1 is a prior art single-disk double-suction health care apparatus.

Fig. 2 is an overall schematic view of a beater according to a first preferred embodiment of the present invention.

Fig. 3 is an exploded view of the beater according to the above preferred embodiment of the present invention.

FIG. 4A is an overall view of a flapping assembly of the beater according to the above preferred embodiment of the present invention.

FIG. 4B is a schematic view of another perspective of the flapping assembly of the beater according to the above preferred embodiment of the present invention.

Fig. 5 is a perspective sectional view of the flapping assembly of the beater according to the above preferred embodiment of the present invention.

FIG. 6 is a schematic view of a flapping body of the flapping assembly of the beater according to the above preferred embodiment of the present invention.

FIG. 7 is a schematic view of an aperture beating element of the beating assembly of the beater according to the above preferred embodiment of the present invention.

FIG. 8A is a schematic view of an aperture beating element of the beating assembly of the beater according to the above preferred embodiment of the present invention.

FIG. 8B is a schematic view of an alternative embodiment of an aperture element of the flapping assembly of the beater according to the above preferred embodiment of the invention.

Fig. 9 is an extended schematic view of a lever of the beater according to the above preferred embodiment of the present invention.

Fig. 10A to 10C are schematic diagrams of three swinging motions of the beater according to the above preferred embodiment of the present invention, showing different beating forces of the beater under different extending lengths of the lever.

Fig. 11A is a schematic view of a using state of the beater according to the above preferred embodiment of the present invention.

Fig. 11B is a schematic view of another usage status of the beater according to the above preferred embodiment of the present invention.

Fig. 11C is a schematic view of another usage status of the beater according to the above preferred embodiment of the present invention.

Fig. 11D is a schematic view of another usage status of the beater according to the above preferred embodiment of the present invention.

FIG. 11E is a schematic view of another usage status of the beater according to the above preferred embodiment of the present invention.

Fig. 11F is a schematic view of another usage status of the beater according to the above preferred embodiment of the present invention.

FIG. 12A is a schematic view of an alternative embodiment of a flapping body of the flapping assembly according to the above preferred embodiment of the present invention.

Fig. 12B is a cross-sectional view of the tapping body of the tapping assembly according to the above preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced devices or components must be in a particular orientation, constructed and operated in a particular orientation, and thus the above terms are not to be construed as limiting the present invention.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

A beater according to a first preferred embodiment of the present invention is illustrated in the following description with reference to figures 2 to 7 of the accompanying drawings. The beater comprises a beating assembly 10 and a rod 20, wherein the beating assembly 10 is fixedly arranged on the rod 20, the rod 20 is forced to swing the beating assembly 10, and the beating assembly 10 is driven by the rod 20 or beats the body of the beaten person under the action of inertia. The beater assembly 10 is secured to one end of the bar 20 in a clamping manner, wherein the beater assembly 10 is driven or inertially moved by the bar 20.

It should be noted that in the preferred embodiment of the present invention, the flapping assembly 10 has two modes of action, wherein when the flapping assembly 10 is driven by the rod 20 or moves towards one direction under the inertia effect, the flapping assembly 10 acts on the body of the person to be flapped; when the beating assembly 10 is driven by the rod 20 or moves reversely under the inertia effect, the beating assembly 10 acts on the body of the slammed person in a beating manner. In short, the beater of the preferred embodiment of the present invention has at least two different modes of use, namely, a beating mode and a tapping mode.

In detail, the flapping assembly 10 comprises a flapping body 11, an aperture flapping element 12 and at least one weight element 13, wherein the flapping body 11 and the aperture flapping element 12 are disposed back to back on the rod 20, wherein the weight element 13 is disposed on the flapping body 11, and the inertia force of the flapping body 11 is increased by the weight element 13 when the flapping body is swung. When the lever 20 drives the flapping assembly 10 to move towards the direction toward which the flapping body 11 faces, the flapping body 11 is driven or flapped on the skin surface of the person under the inertia effect of the weight element 13; when the lever 20 drives the flapping assembly 10 to move towards the direction towards which the aperture beating element 12 faces, the aperture beating element 12 is driven or beaten on the skin surface of the person under the inertia effect of the weight element 13. In particular, the tapping body 11 or the tapping element 12 of the tapping assembly 10 can be used to tap or tap an acupoint of a human body, and regulate contraction and relaxation of muscles by tapping or tapping, thereby enhancing blood circulation of muscles and blood flow between tissues.

As shown in fig. 2 and 3, the tapping body 11 of the tapping assembly 10 is disposed outside the weight element 13 in an enveloping manner, wherein the aperture element 12 and the weight element 13 are drivingly disposed on both sides of the lever 20. The weight element 13 is a weight with a preset weight, wherein the weight element 13 is covered on the flapping body 11, and the rod member 20 applies force to the weight element 13 to drive or pull the weight element 13 to move. The weight element 13 drives the beating main body 11 to beat the patted person under the driving or self inertia acting force, or drives the hole beating element 12 to beat the patted person.

Preferably, in this preferred embodiment of the invention, said beating body 11 is integrally formed on the outer side of said weight element 13 by means of moulding or injection moulding. The weight element 13 is wrapped around the upper end of the weight element 13, whereby the center of gravity G of the tapping assembly 10 is maintained at the upper end of the tapping body 11 by the weight element 13. It will be understood by those skilled in the art that the specific manner of forming the tapping body 11 is merely exemplary and not limiting.

It can be understood that, the center of gravity G of the flapping assembly 10 is high, and when the flapping body 11 of the flapping assembly 10 flaps the body of the person to be flapped, the greater the flapping force of the flapping assembly 10 to the body under the inertia effect is, which is beneficial to improving the flapping effect of the flapping body 10. It will be appreciated that when the beater is used to beat the body of a person to be beaten, the aperture-beating element 12, which is disposed back-to-back on the beating body 11, is located above the weight element 13. Therefore, the clap element 12 acts as a weight, and when the clap is swiped, the clap element 12 further increases the inertial force applied to the main clap body 11, which is beneficial to improving the clapping effect of the clap assembly 10.

The flapping body 11 and/or the weight element 13 of the flapping assembly 10 is/are fixed to the lever 20, and the flapping force is transmitted to the flapping body 11 and/or the weight element 13 by the lever 20. Preferably, in this preferred embodiment of the invention, the weight element 13 is fixed to one end of the rod 20. It is understood that in this preferred embodiment of the invention, the fixing manner of the beating body 11 and the weight element 13 is herein taken as an example only and not as a limitation.

The aperture-beating element 12 of the flapping assembly 10 is fixedly arranged on the rod 20, and when the beater is swung to strike a slammed person, such as an acupoint of the slammed person, the rod 20 transmits the swinging force to the aperture-beating element 12 of the flapping assembly.

Preferably, the weight element 13 and the paddle element 12 are fixed back to back on both sides of one end of the rod 20. The weight element 13 and the racket element 12 may be connected by various fixing means such as gluing, screwing, riveting, etc.

As shown in fig. 2 and 3, the flapping assembly 10 further comprises at least one fixing element 14, wherein the fixing element 14 fixes the weight element 13 and the flapping element 12 on both sides of the rod 20 in a threaded manner. In short, in the preferred embodiment of the present invention, the fixing element 14 may be, but is not limited to, a screw, which fixes the weight element 13 and the pocket beating element 12 to the rod 20.

It will be readily appreciated by those skilled in the art that the fixing element 14 may also be implemented as other kinds of connecting devices, wherein the fixing element 12 may fixedly connect the weight element 13 and the paddle element 12 to both sides of the rod 20 by means of respective fixing means; or the fixing element 12 is used for fixing the flapping body 11 and the flapping element 12 on two sides of the rod 20; or the fixing element fixes the weight element 13 and the racket element 12 on two sides of the rod 20 by means of adhesion, welding, snap connection and other connection methods.

As shown in fig. 4A to 5, the tapping body 11 includes a coupling end 111 and a force applying end 112 integrally extending from the coupling end 111, wherein the coupling end 111 is wrapped on the outer side of the weight element 13. When the flapping assembly 10 is swung, the weight element 13 transmits the acting force to the connecting end 111 of the flapping body 11, and the connecting end 111 distributes the acting force of the weight element 13 to the force applying end 112. The force applying end 112 of the patting body 11 applies a force to the body surface of the patted person to form a patting effect. Preferably, in this preferred embodiment of the present invention, the tapping body 11 is a bowl-shaped or cup-shaped structure, i.e. the force application end 112 extends downwardly and radially outwardly from the bottom of the coupling end 111.

It should be noted that, in the preferred embodiment of the present invention, the flapping body 111 of the flapping assembly 10 is made of a material with elasticity, such as plastic or rubber.

The combining end 111 and the force applying end 112 of the tapping body 11 define an air massage cavity 113 having an opening, wherein the bottom end of the force applying end 112 forms an opening 114 for communicating with the external environment to the air massage cavity 113. When the beater is swung to beat the body of the beater by the beating body 11, the connecting end 111 of the beating body 11 is driven by the weight element 13, and the gas massage chamber 113 is pressed by the connecting end 111 and the force applying end 112 of the beating body 11.

It can be understood that when the gas massage cavity 113 is pressed by the combining end 111 and the force applying end 112, the gas pressure inside the gas massage cavity 113 is greater than the external environment gas pressure, so that the gas inside the gas massage cavity 113 is pressed against the body surface of the flapped person. Since the force application end 112 is pressed and deformed by the coupling end, the air in the air massage chamber 113 flows outward through the opening 114 and the gap against the body surface, thereby forming an outward flow of air. It can be understood that the air flow formed by the pressurized air massage cavity 113 blows over the skin surface of the flappers, which improves the experience and feeling of the flappers.

The coupling end 111 of the tapping body 11 is wrapped around the outside of the weight element 13, wherein the coupling end 111 further comprises a coupling end outer edge 1111 and a coupling end lower bottom 1112, wherein the coupling end outer edge 1111 is formed at the periphery of the weight element 13, and the coupling end lower bottom 1112 is formed below the weight element 13.

It is worth mentioning that when the flapping body 11 is swung to flap the person, the connecting end 111 of the flapping body 11 is subjected to the driving or inertial force of the weight element 13, and the connecting end outer edge 111 of the connecting end 111 transmits the force to the force applying end 112, so that the force applying end 112 flaps the body surface of the person and drives the force applying end 112 to deform. The lower bottom 1112 of the combining end of the flapping body 11 is driven by the weight element 13 to press the space volume of the air massage cavity 113, so as to form an air pressing cavity.

After the tapping body 11 taps, the tapping body 11 pulls the tapping assembly 10 to move reversely under the action of its own elasticity or by the rod 20, when the tapping body 11 rebounds or is pulled to move reversely, the force applying end 112 of the tapping body 11 gradually returns to the original state, and the combining end 111 and the force applying end 112 of the tapping body 11 move, so that the air massage cavity 113 forms a negative pressure. The air massage chamber 113 sucks the skin surface of the body of the person to be beaten below the air massage chamber 113 under the negative pressure, thereby forming an effect similar to cupping.

The weight element 13 includes a weight upper end 131 and a weight lower end 132 extending downward from the weight upper end 131, wherein the weight lower end 132 has a lateral dimension greater than the weight upper end 131. In other words, the weight element 13 is a structure that is small in top and large in bottom, in which the coupling end outer edge 1111 of the coupling end 111 wraps around the circumferential outer side of the weight upper end portion 131 of the weight element 13, and the coupling end lower base 1112 is integrally formed below the weight lower end portion 132.

Preferably, in the preferred embodiment of the present invention, the weight element 13 can be implemented as a cylindrical or cylinder-like structural weight, and the overall center of gravity position of the flapping assembly 10 is maintained above the gas massage chamber 113 by the weight element 13. More preferably, the weight element 13 is made of a dense material such as iron block or stone. It is to be understood that the construction and materials of the weight element 13 in the preferred embodiment of the present invention are illustrative only and not limiting.

The weight element 13 has a side wall 133, a lower end face 134, and an upper end face 135, wherein the side wall 133 is formed on the circumferential side of the weight upper end portion 131 and the weight lower end portion 132 of the weight element 13, the lower end face 134 is formed on the lower end bottom face of the weight lower end portion 132, and the upper end face 135 is formed on the upper end surface of the weight upper end portion 132 of the weight element 13.

It is worth mentioning that the side wall 133 of the weight element 13 is attached by the coupling end 111 of the beating body 11, wherein the coupling end outer edge 1111 of the coupling end 111 is attached to the periphery of the weight upper end portion 131 of the weight element 13 and is located at the upper end of the weight lower end portion 132. Therefore, when the weight element 13 pulls the tapping body 11 to move upward, the weight lower end portion 132 of the weight element 13 transmits a force to the coupling end 111 of the tapping body 11. In addition, the outer edge 1111 of the coupling end 111 is attached to the periphery of the upper end 131 of the weight element 13 and located at the upper end of the lower end 132 of the weight, the coupling end 111 of the flapping body 11 can prevent the weight element 13 from being detached from the flapping body 11, thereby prolonging the service life of the flapping device.

It is worth mentioning that in this preferred embodiment of the invention, the upper end face 135 of the weight element 13 is flush with the upper end of the coupling end 111 of the tapping body 11; alternatively, the upper end face 135 of the weight element 13 is covered by the coupling end 111 of the tapping body 11, i.e. the weight element 13 is integrally embedded in the tapping body 11. The fixing element 14 fixes the weight element 13 to the rod 20 from the upper end surface 135 of the weight element 13.

The force application end 112 of the tapping body 11 is further provided with a force application surface 1131 and a contact edge 1132, wherein the force application surface 1131 is formed on the inner side surface of the force application end 112, and the contact edge 1132 is the outer bottom edge of the force application end 112, and the opening 114 of the tapping body 11 is defined by the contact edge 1132. When the tapping body 11 taps the person to be tapped while the tapping body is being swung, the contact edge 1132 of the tapping body 11 first contacts the skin surface of the person to be tapped. When the weight element 13 drives the force application end 112 of the flapping body 11 to deform, the force application surface 1131 of the force application end 112 is attached to the swatter, and force is transmitted to the skin surface of the swatter by the force application surface 1131 and the contact edge 1132 to form a flapping action.

The tapping body 11 further comprises a set of ribs 116, wherein the ribs 116 are disposed at the force applying end 112 of the tapping body 11, and the ribs 116 reinforce the strength of the force applying end 112 capable of bearing the force.

Preferably, the reinforcing ribs 116 are radial along the outward extending direction of the force applying end 112 of the tapping body 11. When the beating body 11 is subjected to the driving force of the weight element 13, the reinforcing ribs 116 uniformly disperse the force of the weight element 13 to all directions of the force application end 112 of the beating body 11, so that the force applied to all directions and angles by the force application end 112 are the same. More preferably, the reinforcing bead 116 is integrally molded to the upper end surface of the force applying end 112. As will be readily appreciated by those skilled in the art, the reinforcing ribs 116 are disposed inboard of the force application end 112; or the reinforcing rib 116 is integrally formed on the inner lower end surface or the outer upper end surface of the force applying end 112 of the tapping body 11.

As shown in fig. 3 to 5, the fixing element 14 fixes the weight element 13 and the paddle element 12 by means of screw fixation. Accordingly, in this preferred embodiment of the present invention, the fixing member 14 may be, but is not limited to, a screw, wherein the weight member 13 is further provided with at least one weight mounting portion 136, wherein the weight mounting portion 136 is fitted to the fixing member 14, and the weight mounting portion 136 is provided with an internal thread to be fitted to the fixing member 14. Preferably, the weight mounting portion 136 is implemented to be fitted into a mounting hole, a mounting groove, or a hole preset at the weight upper end portion 131 of the fixing member 14.

As shown in fig. 3 and 7, the paddle element 12 is disposed on the rod 20, wherein the paddle element 12 and the weight element 13 are disposed back to back. Therefore, when the beater is used to beat the body of the person to be beaten, the inertial force of the weight element 13 and the beating body 11 acts on the hole beating element 12, and the body surface of the person to be beaten is beaten by the hole beating element 12.

The racket member 12 includes a racket main body 121 and at least one knocking unit 122 disposed on the racket main body 121, wherein the knocking unit 122 is disposed at an upper end of the racket main body 121. The paddle body 121 of the paddle member 12 is fixedly disposed on the rod member 20 by the fixing member 14. Preferably, in the preferred embodiment of the present invention, the striking unit 122 is integrally formed above the racket body 121, the driving force of the rod 20 is transmitted from the racket body 121 to the striking unit 122, and the body of the racket is struck by the striking unit 122.

Preferably, the fixing element 14 clamps the rod 20 between the patting body 11 and the patting element 12 through the patting body 121 of the patting element 12. In other words, the fixing element 14 fixes the rod 20 to the tapping body 11 or the weight element 13 through the tapping body 121 of the tapping element 12.

Accordingly, the cavity paddle body 121 of the cavity paddle element 12 includes a mounting wall 1211, a fixing base 1212, and further has a receiving groove 1213 and a fixing hole 1214 formed in the fixing base 1212. The receiving groove 1213 is formed below the fixing base 1212, and an opening of the receiving groove 1213 is formed at the bottom of the mounting wall 1211, wherein the rod 20 is fixed to the receiving groove 1213 by the fixing member 14.

The shape of the accommodating groove 1213 is adapted to the rod 20, wherein one end of the rod 20 is placed in the accommodating groove 1213. The mounting wall 1211 of the racket body 121 surrounds the periphery of the fixing substrate 1212, and the rod 20 is restricted by the mounting cavity 1211. The fixing element 14 fixes the rod 20 in the accommodating groove 1213 through the fixing base 1212, and the rod 20 is limited in the accommodating groove 1213 by the mounting wall 1211, so as to prevent the rod 20 from rotating circumferentially around the fixing element 14.

As shown in fig. 3 to 6, the tapping body 11 of the tapping assembly 10 further includes at least one limiting protrusion 117, wherein the limiting protrusion 117 is integrally formed above the coupling end 111 for limiting the rotation of the rod 20.

As shown in fig. 7, the striking unit 122 of the paddle element 12 integrally extends upward from the paddle body 121, wherein the striking unit 122 includes a striking lower end 1221 and a striking upper end 1222 integrally extending upward from the striking lower end 1221. Preferably, in the preferred embodiment of the present invention, the cavity paddle element 12 is an integrally injection molded structure.

Preferably, the knocking unit 122 has a hollow frustum structure, i.e., the diameter of the knocking upper end 1222 of the knocking unit 122 is smaller than that of the knocking lower end 1221. In short, the striking unit 122 has a structure in which the upper end is small and the lower end is large. When the beater is swung in a beating manner, the beating upper end 1222 of the beating unit 122 of the beater transmits the force of the lever 20 to the body of the beaten person. The striking unit 122 further has a hollow groove 1223, wherein the hollow groove 1223 communicates with the fixing hole 1214. In short, the fixing element 14 passes through the hollow slot 1223 to fix the racket element 12 to the rod 20.

As shown in fig. 3 and 7, the hole beating element 12 further includes at least one hole beating unit 123, wherein the hole beating unit 123 is received in the hollow groove 1223. The hole striking unit 123 is a cylindrical structure with a hemispherical top end, wherein the top end of the hole striking unit 123 protrudes out of the striking unit 122. When the beater is swung in a tapping manner, the hole hitting unit 123 of the beater contacts and hits the body of the person to be beaten. It can be understood that, since the top end of the hole striking unit 123 of the hole striking element 12 is of a hemispherical structure, when the hole striking element 12 strikes the body of the user, the hole striking unit 123 does not cause damage to the person being struck. It is to be understood that the construction of the hole striking unit 123 according to the present invention is herein described by way of example only and not by way of limitation.

Referring to fig. 8A and 8B of the drawings accompanying this specification, two alternative embodiments of the paddle element 12 according to the above preferred embodiment of the invention are illustrated in the following description. As shown in fig. 8A, the racket member 12 includes a racket body 121, a striking unit 122 and a racket unit 123A, wherein the structure and function of the racket body 121 and the striking unit 122 are the same as those of the above preferred embodiment, and the difference is that the racket unit 123A. In the preferred embodiment of the present invention, the hole striking unit 123A includes a cap unit 1231A and a filling unit 1232A, wherein the filling unit 1232A is filled in the striking unit 122, and the striking unit 122 transmits the striking force to the cap unit 1231A of the hole striking unit 123A. The cap unit 1231A is integrally molded to the upper end of the filling unit 1232A. Preferably, the top end of the cap unit 1231A is a hemisphere-shaped structure, and when the beater is swung in a knocking manner, the cap unit 1231A of the beater contacts and hits the body of the player to prevent the player from being injured.

As shown in fig. 8B, the paddle member 12 includes a paddle main body 121, and a tapping unit 122B, wherein the tapping unit 122B is disposed at an upper end of the paddle main body 121. Unlike the above preferred embodiment, the knocking unit 122B is disposed at the upper end of the racket body 121 by a snap or fixed connection. The striking unit 122B is implemented as a hemispherical frustum having a hemispherical structure at the top end thereof, wherein the lower end of the striking unit 122B is detachably provided to the racket body 121. When the beater is swung in a beating manner, the beating unit 122B of the beater contacts and hits the body of the person to be beaten, preventing the person to be beaten from causing injury.

As shown in fig. 3 and 9, the lever 20 is implemented as a telescopic structure so that the user can adjust the telescopic length of the lever 20 based on the tapping position to adapt the beater to the user's use for tapping different body positions. In other words, the beater of the preferred embodiment of the present invention can adjust the length of the lever 20, so that the user can operate the beater by a single person to beat the body. On the other hand, by adjusting the telescopic length of the rod 20, the beating force of the beater is adjusted to meet the actual use requirement of the user.

In detail, the rod 20 includes a holding unit 21 and a telescopic unit 22, wherein the telescopic unit 22 is telescopically disposed on the holding unit 21. The flapping assembly 10 is fixedly arranged on the telescopic unit 22 of the rod 20, and a user can flap or beat the body part of the person to be flapped by swinging the flapping assembly 10 of the flapping device through the holding unit 21. It is easily understood by those skilled in the art that the holding unit 21 of the lever 20 can be telescopically arranged on the telescopic unit 22, and the flapping assembly 10 is fixedly arranged on the telescopic unit 22 of the lever 20, so that a user can flap or beat the body part of a flapped person by waving the flapping assembly 10 of the flapping device through the holding unit 21.

The lever 20 further comprises a lock member 23, wherein the lock member 23 has a locked state and an unlocked state, and the lock member 23 is switched between the locked state and the unlocked state. When the locking member 23 is in the locked state, the locking member 23 can lock the telescopic unit 22 to the holding unit 21 to fix the extension length of the telescopic unit 22 relative to the holding unit 21. When the locking element 23 is in the unlocked state, the retractable unit 22 of the lever 20 can be retracted back and forth based on the holding unit 21 to adjust the overall length of the lever 20, so as to adjust the beating force of the beater.

As shown in fig. 9, the telescopic unit 22 includes an extension arm 221 and a driving end 222 extending from the extension arm 221, wherein the tapping assembly 10 is fixedly disposed at the driving end 222 of the telescopic unit 22, and the driving end 222 drives or pulls the tapping assembly 10 to move. The extension arm 221 is telescopically disposed on the holding unit 21, and the locking member 23 locks the extension arm 221 to fix the extension length of the telescopic unit 22.

The driving end 222 of the telescopic unit 22 is disposed in the accommodating groove 1213 of the flapping assembly 10, wherein the telescopic unit 22 is further provided with at least one positioning hole 220, and the positioning hole 220 is disposed in the driving end 222. The fixing element 14 passes through the positioning hole 220 to fix the expansion unit 22 in the accommodating groove 1213.

The extension arm 221 of the telescopic unit 22 includes an arm main body 2211 and a series of spaced apart units 2212 disposed on the arm main body 2211, wherein any two adjacent units 2212 are spaced apart to form a gap 2213. The arm body 2211 has a front side 2215 and a back side 2214, wherein the spacing unit 2212 is disposed on the front side 2215 of the arm body 2211.

Preferably, the tapping body 11 of the tapping assembly 10 is disposed at the driving end 222 in a manner of being disposed in the same direction as the back surface 2214 of the arm body 2211. More preferably, the lock member 23 is disposed at one end of the holding unit 21, wherein the lock member 23 is disposed in the same direction as the front face 2215 of the arm main body 2211, so that the user can operate the lock member 23 with one hand when the user holds the holding unit 21 of the lever 20.

The locking member 23 locks the telescopic unit 22 to the grip unit 21 through a series of spaced apart units 2212 and slots 2213. The telescopic unit 22 further includes a slip prevention unit 223, wherein the slip prevention unit 223 is disposed at the end of the extension arm 221, wherein the slip prevention unit 223 is restricted to the grip unit 21 to prevent the telescopic unit 22 from being disengaged from the grip unit 21.

As shown in fig. 9 to 10C, the holding unit 21 includes a holding body 211 and further includes at least one retractable accommodating cavity 212 and a limiting opening 213, and the extension arm 221 of the retractable unit 22 is disposed in the retractable accommodating cavity 210 in a retractable manner. The aperture size of the stopper hole 213 is smaller than the size of the slip-off prevention unit 223, so that the slip-off prevention unit 223 of the telescopic unit 22 is restricted by the stopper hole 213. The limiting opening 213 is formed at one end of the holding body 211, and the limiting opening 213 communicates with the telescopic receiving cavity 212, wherein the extension arm 221 of the telescopic unit 22 extends from the limiting opening 213 to the telescopic receiving cavity 213.

The holding body 211 of the holding unit 21 further includes a front holding end 2111 and a rear holding end 2112, wherein the limiting opening 213 is formed at the front holding end 2111 of the holding body 211. Preferably, the lock member 23 is pivotally disposed at the front end 2111 of the grip main body 211, so that a user can operate the lock member 23 with one hand while gripping the grip unit 21.

The locking member 23 is engaged with the space 2212 of the extension arm 221 to lock the extended state of the arm body 2211 of the extension arm 221. The locking member 23 further includes a pivot connection unit 231, a locking unit 232, and an operation unit 233, wherein the locking unit 232 and the operation unit 233 integrally extend from the pivot connection unit 231. In short, the lock member 23 is a one-piece structure. The user can lock or unlock the telescopic unit 22 by rotating the position of the locking unit 232 by operating the operating unit 233.

Preferably, in the preferred embodiment of the present invention, the lock member 23 is implemented as an "L" shaped member, wherein the lock member 23 is rotatably connected to the grip main body 211 of the grip unit 21 by the pivot connection unit 231. It is to be understood that the specific shape of the locking unit 23 in the preferred embodiment of the present invention is merely exemplary and not limiting.

It is worth mentioning that the width of the spacing groove 2213 of the extension arm 221 is adapted to the locking unit 232 of the locking member 23. When the locking member 23 is operated to lock the telescopic unit 22, the locking unit 232 of the locking member 23 is rotated into the space 2213. The locking unit 232 of the locking member 23 prevents the partition units 2212 on both sides of the partition slot 2213 from sliding through the lower end of the locking unit 232. When unlocked, the operating unit 233 of the locking member 23 is operated, so that the locking unit 232 rotates out of the spacing groove 2213 to allow the extension arm 221 to extend back and forth in the telescopic receiving cavity 212.

As shown in fig. 3 and 9, the beater further comprises at least one finger-pressure element 30, wherein the finger-pressure element 30 is suitable for pressing the body of the beaten person to simulate the finger-tip pressing action of a human finger. In detail, the finger-pressure elements 30 of the beater operated by the user are pressed against the body, such as acupuncture points, and the finger-pressure elements 30 simulate the feeling of human fingers pressing against the acupuncture points of the body.

Preferably, the finger-pressure element 30 is integrally formed with the grip unit 21 of the lever 20. More preferably, the finger-pressure element 30 is provided at the grip tail 2112 of the grip unit 21 so that the user operates the grip unit 21 to press the body of the clapped person by the finger-pressure element 30.

Preferably, in the preferred embodiment of the present invention, the telescopic unit 22 of the rod 20 is implemented as an elastic support rod. Therefore, when the beater is slapped or knocked by a swing, the telescopic unit 22 of the rod 20 drives the beating assembly 10 to move, and the inertial acting force generated during the movement process of the beating assembly 10 drives the telescopic unit 22 to bend and deform. It will be appreciated that the tapping assembly 10 of the tapping machine is driven by the telescopic unit 22 of the lever 20, so that the extension arm 221 extending out of the grip unit 21 is bent. The direction of the elastic force generated by the extension arm 221 is the same as the moving direction of the beating component 10, and the extension arm 221 drives the beating component 10 to move, so that the beating force of the beating component 10 is increased. When the beater stops beating, the beating assembly 10 drives the extension arm 221 of the telescopic unit 22 to deform under the action of inertia. The direction of the elastic force generated by the extension arm 221 is opposite to the running direction of the flapping assembly 10, and the flapping force of the flapping assembly 10 is reduced by the telescopic unit 22.

As shown in fig. 10A to 10C, by adjusting the telescopic length of the telescopic unit 22 of the lever 20, the beating force of the beater is adjusted. The extension arm 221 of the telescopic unit 22 has a total length of L, the extension arm 221 fixed to the telescopic receiving cavity 212 has a length of L1, and the extension arm 221 extending out of the telescopic receiving cavity 212 has a length of L2. It is understood that the telescopic unit 22 of the rod 20 is fixed by the lock member 23, and the extension arm 221 of the telescopic unit 22 performs lever-like movement based on the lock member 23, wherein the lock member 23 is a fulcrum position of the lever movement.

If the length of L1 is greater than or equal to two thirds of L, that is, the extension arm 221 is mostly fixed in the telescopic receiving cavity 212, the flapping radius of the flapping assembly 10 is small when the beater is swung, and the generated inertia force is small. The user can control the flapping component 10 to flap or beat the body of the person with low force through the holding element 21. If the length of L2 is greater than or equal to two thirds of L, that is, the extension arm 221 extends out of the telescopic receiving cavity 212 for the most part, when the beater is swung, the inertial force generated by the swinging radius of the beating assembly 10 is large. Therefore, the user can control the flapping assembly 10 to flap or beat the body of the flapped person with a large force through the holding element 21.

Referring to fig. 11A to 11F of the drawings of the present specification, a usage scenario when the beater is used for beating is shown. As shown in fig. 11A, when the beater is used to beat a person to be beaten, the weight element 13 of the beater is driven by the lever 20 when the user operates the beater to perform a power swing, wherein the weight element 13 transmits the power of the lever 20 to the beating body 11. The tapping body 11 is driven to contact the body surface of the person to be tapped, and the user is tapped by the force applying end 112 of the tapping body 11. As shown in fig. 11B, when the beater is used to beat a person to be beaten, when the user operates the beater to stop the beating, the weight element 13 of the beater drives the lever 20 under its own inertia and transmits the force to the beating body 11. It will be appreciated that the user may control the beater beating power by such beating.

As shown in fig. 11C and 11D, when the beater beats the body of the person, the force application end 112 of the beating body 11 of the beater applies a force to the body surface of the person, and the gas in the gas massage chamber 113 of the beating body 11 applies a pressing action of the gas to the body surface of the person. After the flapping, the air in the air massage cavity 113 is exhausted, the flapping body 11 returns to the initial state under the action of elasticity, and the air massage cavity 113 of the flapping body 11 adsorbs the skin on the body surface of the person to be flapped, so as to form the massage effect on the skin.

As shown in FIGS. 12A and 12B, an alternative embodiment of a beater assembly 10C of the beater according to the above preferred embodiment of the present invention is illustrated in the following description. The patting assembly 10C comprises a patting body 11C, at least one weight element 13C and an aperture patting element 12C, wherein the aperture patting element 12C of the patting assembly 10C has the same structure and function as the aperture patting element 12 of the first preferred embodiment, and the difference is the structure of the patting body 11C and the weight element 13C.

In detail, the weight element 13C is integrally embedded in the beating body 11C, wherein the beating body 11C is drivably connected to the rod 20, and the rod 20 drives the beating body 11C to move. It can be understood that the weight element 13C is embedded in the flapping body 11C, and when the flapping assembly 10C is swung, the weight element 13C increases the inertial force applied to the flapping body 11C, which is beneficial to improving the flapping force of the flapping assembly 10C.

The tapping body 11C includes a coupling end 111C and a force applying end 112C integrally extending from the coupling end 111C, wherein the coupling end 111C is wrapped around the upper end and the outer side of the weight element 13C. The tapping body 11C is further provided with at least one mounting portion 110C, wherein the fixing member 14 is fixedly mounted on the rod member 20 through the mounting portion 110C. Preferably, the mounting portion 110C is implemented to be fitted into a mounting hole, a mounting groove of the fixing member 14, or a hole pre-formed at the coupling end 111C.

It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are given by way of example only and are not limiting of the invention. The objects of the invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the examples, and any variations or modifications of the embodiments of the present invention may be made without departing from the principles.

Claims (41)

1. A beater assembly adapted to be mounted to a bar for use by a player, comprising:

a flapping main body;

an aperture beating element, wherein the aperture beating element is arranged back to back on the beating main body, so that the beating main body and the aperture beating element are arranged at two sides of the rod, when the rod is waved, the beating action force of the rod is transmitted by the beating main body to beat the beaten person, and the beating action force of the rod is transmitted by the aperture beating element to beat the beaten person; and

at least one counterweight element, wherein the counterweight element is set up in clap the main part, for the member drive when clapping the subassembly motion, by the counterweight element is for when clapping the main part and providing inertial force, in order to improve clap the main part clap the effort.

2. A tapping assembly as in claim 1 wherein the weight element is provided at an upper end of the tapping body, the tapping assembly having a center of gravity, the center of gravity being maintained at the upper end of the tapping body by the weight element.

3. A tapping assembly as claimed in claim 2 wherein the tapping body is integrally formed at an outer side of the weight element, the tapping body including a coupling end and a force applying end integrally extending from the coupling end, wherein the coupling end wraps around the outer side and the lower end of the weight element such that when the lever is used to tap, the weight element transmits force to the force applying end through the coupling end.

4. A tapping assembly as claimed in claim 2 wherein the tapping body is integrally formed with the weight element, the tapping body including a coupling end and a force application end integrally extending from the coupling end, wherein the weight element is embedded in the coupling end such that when the lever is used for tapping, the weight element transmits force to the force application end through the coupling end.

5. A tapping assembly according to claim 3 or 4, wherein the force application end extends downwardly and radially outwardly from a bottom of the coupling end, wherein the coupling end and the force application end of the tapping body define a gas massage chamber, such that when the lever is used to tap, the weight element presses the gas massage chamber through the coupling end, and gas in the gas massage chamber presses the tapped person, so as to create a gas pressure pressing effect.

6. The clapping assembly of claim 3 or 4 wherein the force application end extends downwardly and radially outwardly from a bottom of the coupling end, wherein the coupling end and the force application end of the clapping body define a gas massage chamber, wherein gas in the gas massage chamber is displaced after the clapping body slaps, thereby creating a negative pressure environment in the gas massage chamber to attract the clapped person with the gas massage chamber to create a gas pressure attracting effect.

7. A beater assembly according to claim 3 or 4, wherein the coupling end further comprises a coupling end outer edge and a coupling end lower base, wherein the coupling end outer edge is formed at the periphery of the weight element and the coupling end lower base is formed below the weight element, wherein the weight element transmits driving forces to the force application end via the coupling end lower base, wherein the weight element transmits traction forces via the coupling end outer edge.

8. A tapping assembly as claimed in claim 3 or 4 wherein the tapping body further comprises a set of stiffening ribs, wherein the stiffening ribs are provided at the force application end of the tapping body, said outwardly extending direction along the force application end of the tapping body being radial.

9. A beater assembly according to claim 3, wherein the weight element includes a weight upper end and a weight lower end extending downwardly from the weight upper end, wherein the size of the weight lower end is greater than the size of the weight upper end such that the beater body is secured to the outside of the weight element.

10. A beater assembly according to claim 9, further comprising at least one securing member, wherein the weight member is further provided with at least one weight mounting portion for the securing member to secure the weight member to the bar member via the weight mounting portion.

11. A tapping assembly as claimed in claim 9 further comprising at least one securing member, wherein said tapping body is further provided with at least one mounting portion for said securing member to secure said tapping body to said lever member via said mounting portion.

12. A tapping assembly as claimed in claim 2, 3, 4, 10 or 11 wherein the tapping element comprises a tapping body and at least one tapping unit provided to the tapping body, wherein the tapping unit is located at an upper end of the tapping body.

13. A tapping assembly as claimed in claim 12 wherein the tapping body comprises a mounting wall, a fixed base and further provided with a receiving slot, wherein the receiving slot is formed below the fixed base and an opening of the receiving slot is formed at the bottom of the mounting wall for the mounting wall to restrain the rod in the receiving slot.

14. A tapping assembly as claimed in claim 13 wherein the tapping unit is integrally formed at an upper end of the paddle body, the tapping unit including a tapping lower end and a tapping upper end integrally extending upwardly therefrom, wherein the tapping lower end has a width dimension greater than a dimension of the tapping upper end.

15. A tapping assembly as in claim 14 wherein the tapping unit is further provided with a hollow slot and the paddle body further comprises a tapping unit, wherein the tapping unit is received in the hollow slot.

16. A tapping assembly as claimed in claim 15 wherein the aperture unit comprises a cap unit and a filler unit, wherein the filler unit is disposed in the hollow channel, the cap unit protrudes from the filler unit, and the cap unit covers the tapping unit.

17. A tapping assembly as claimed in claim 13 wherein the tapping unit is detachably provided at an upper end of the tapping body, said tapping unit comprising a tapping lower end portion and a tapping upper end portion integrally extended upwardly from the tapping lower end portion, wherein the width dimension of the tapping lower end portion is larger than the dimension of the tapping upper end portion.

18. A beater, comprising:

a rod member; and

a flapping assembly, wherein the flapping assembly is driveably disposed to the bar, whereby the bar swings the flapping assembly, wherein the flapping assembly comprises:

a flapping main body;

an aperture beating element, wherein the aperture beating element is arranged back to back on the beating main body, wherein the beating main body and the aperture beating element are arranged on two sides of the rod, when the rod is waved, the beating action force of the rod is transmitted by the beating main body to beat the beaten person, and the beating action force of the rod is transmitted by the aperture beating element to beat the beaten person; and

at least one counterweight element, wherein the counterweight element is set up in pat the main part, when the member drive when beating the subassembly motion, by the counterweight element for pat the main part and provide inertial force, in order to improve pat the main part's clapping effort.

19. A beater according to claim 18, wherein the weight element is provided at an upper end of the beater body, the beater assembly having a center of gravity, the center of gravity being maintained at the upper end of the beater body by the weight element.

20. A beater according to claim 19, wherein the beater body is integrally formed at an outer side of the weight element, the beater body including a coupling end and a force applying end integrally extending from the coupling end, wherein the coupling end wraps around the outer side and a lower end of the weight element, the weight element transmitting a force to the force applying end through the coupling end when the lever is used for beating.

21. A beater according to claim 19, wherein the beater body is integrally formed with the weight element, the beater body including a coupling end and a force application end integrally extending from the coupling end, wherein the weight element is embedded in the coupling end, the weight element transmitting force to the force application end via the coupling end when the lever is used for beating.

22. A beater according to claim 20 or 21, wherein the force application end extends downwardly and radially outwardly from a bottom of the coupling end, wherein the coupling end and the force application end of the beater body define an air massage chamber, the weight element presses against the air massage chamber via the coupling end when the lever is used for beating, the air in the air massage chamber presses against the beaten to create an air pressure pressing effect.

23. The beater of claim 20 or 21, wherein the force application end extends downwardly and radially outwardly from a bottom of the coupling end, wherein the coupling end and the force application end of the beating body define a gas massage chamber, and after beating by the beating body, gas in the gas massage chamber is squeezed out, so that a negative pressure environment is formed in the gas massage chamber, and the beaten person is sucked by the gas massage chamber, so as to form a gas pressure suction effect.

24. A beater according to claim 20 or 21, wherein the coupling end further comprises a coupling end outer edge and a coupling end lower edge, wherein the coupling end outer edge is formed at the periphery of the weight element and the coupling end lower edge is formed below the weight element, wherein the weight element transmits driving forces to the force application end through the coupling end lower edge, wherein the weight element transmits traction forces through the coupling end outer edge.

25. A beater according to claim 20 or 21, wherein the beating body further comprises a set of ribs, wherein the ribs are provided at the force application end of the beating body, the outward extension of the force application end of the beating body being radial.

26. A beater according to claim 20, wherein the weight element includes a weight upper end and a weight lower end extending downwardly from the weight upper end, wherein the weight lower end is sized larger than the weight upper end so that the beater body is secured to the outside of the weight element.

27. A beater according to claim 26, further comprising at least one securing member, wherein the weight member is further provided with at least one weight mounting portion, the securing member securing the weight member to the lever member via the weight mounting portion.

28. A beater according to claim 26, further comprising at least one securing member, wherein the beater body is further provided with at least one mounting portion, the securing member securing the beater body to the lever member via the mounting portion.

29. A beater according to claim 19, 20, 21, 27 or 28, wherein the paddle element comprises a paddle body and at least one striking unit disposed on the paddle body, wherein the striking unit is located at an upper end of the paddle body.

30. A beater according to claim 29, wherein the beater body includes a mounting wall, a stationary base, and further includes a receiving slot, wherein the receiving slot is formed below the stationary base, and an opening of the receiving slot is formed at a bottom of the mounting wall, the mounting wall confining the lever to the receiving slot.

31. A beater according to claim 30, wherein the striking unit is integrally formed at an upper end of the paddle body, the striking unit including a striking lower end and a striking upper end integrally extending upwardly from the striking lower end, wherein the striking lower end has a width dimension greater than a dimension of the striking upper end.

32. A beater according to claim 31, wherein the striking unit is further provided with a hollow slot, the beater body further comprising an aperture unit, wherein the aperture unit is received in the hollow slot.

33. A beater according to claim 32, wherein the aperture unit includes a cap unit and a filler unit, wherein the filler unit is disposed in the hollow slot, the cap unit protrudes from the filler unit, and the cap unit covers the beating unit.

34. A beater according to claim 30, wherein the striking unit is detachably provided at an upper end of the paddle body, the striking unit including a striking lower end portion and a striking upper end portion integrally extending upward from the striking lower end portion, wherein a width dimension of the striking lower end portion is larger than a dimension of the striking upper end portion.

35. A beater according to any one of claims 18 to 21, wherein the lever comprises a holding unit and a telescopic unit, wherein the telescopic unit is telescopically arranged in the holding unit, and the beating force of the beater is adjusted by adjusting the extension length of the telescopic unit.

36. A beater according to claim 35, wherein the lever further comprises at least one lock member adjustably switchable between a locked state and an unlocked state, the lock member locking the telescopic unit to maintain the extended length of the telescopic unit when the lock member is in the locked state; when the locking element is in an unlocking state, the telescopic unit of the rod piece can be stretched back and forth based on the holding unit so as to adjust the overall length of the rod piece and further adjust the beating force of the beater.

37. The beater of claim 36, wherein the extension unit includes an extension arm and a drive end extending from the extension arm, wherein the beater assembly is fixedly disposed at the drive end of the extension unit, and the beater assembly is moved by the drive end.

38. A beater according to claim 37, wherein the extension arm of the telescopic unit includes an arm body and a series of spaced units disposed on the arm body, wherein any two adjacent spaced units are spaced to form a spaced slot, and the lock member is inserted into the spaced slot to prevent the arm body of the telescopic unit from moving when the lock member is in the locked state.

39. A beater according to claim 38, wherein the holding unit includes a holding body and further includes at least one telescoping receiving chamber and a stop, the extension arm of the telescoping unit being telescopically disposed in the telescoping receiving chamber.

40. A beater according to claim 39, wherein the grip body further comprises a grip front end and a grip rear end, wherein the limiting opening is formed at the grip front end of the grip body, and the lock member is pivotally disposed at the grip front end of the grip body.

41. The beater of claim 40, further comprising at least one finger pressure element, wherein the finger pressure element is disposed at the gripping unit of the lever.

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