CN213346751U

CN213346751U - Automatic patting massager

Info

Publication number: CN213346751U
Application number: CN202021729878.6U
Authority: CN
Inventors: 晏雨扬; 晏长友
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-18
Filing date: 2020-08-18
Publication date: 2021-06-04
Anticipated expiration: 2030-08-18

Abstract

The utility model relates to the field of fitness equipment, in particular to an automatic beating massager, which comprises a first beating component, a second beating component, a connecting component and a controller, wherein the connecting component is in insulated connection with the first beating component and the second beating component, and the controller is electrically connected with the first beating component and the second beating component; the first flapping component comprises a first electromagnet; the second flapping component comprises a second electromagnet; the first electromagnet and the second electromagnet are electrically connected with the controller. The utility model adopts the first and second flapping components of the first and second electromagnets, and under the driving of the pulse current of the controller, the first and second electromagnets can flap the muscles relatively at the same time, thereby stimulating the deep muscles, solving the problem that the massager beats the muscles in one way or kneads the muscles not in place locally, ensuring the massage effect and having good user experience; the controller is arranged to adjust the working frequency and the working strength of the first electromagnet and the second electromagnet, so that the massage frequency and the massage force can be freely adjusted.

Description

Automatic patting massager

Technical Field

The utility model relates to the field of fitness equipment, concretely relates to automatic pat massager.

Background

In order to relieve the stiffness of leg and arm muscles caused by lack of exercise of people or the soreness of leg and arm muscles caused by virus infection and exercise of professionals, fitness equipment for massaging muscles, such as massage chairs, full-automatic air wave leg heating physical therapy devices, manual working electric beating massagers, fascial gun muscle massagers and the like, are disclosed.

Referring to patent documents CN108703876A and patent documents CN106963631A and patent documents 2018, 10 and 26, leg physiotherapy instrument, the massage chair has similar functions to a full-automatic air wave leg heating physiotherapy instrument, generally adopts a pneumatic massage component, takes compressed air as a power source to drive a machine to complete stretching or rotating actions, but has low frequency and small force, cannot meet the massage requirements of strong frequency and high force, has larger volume, heavier weight, high price and is difficult to carry.

The hand-held electric beating massager is similar to the fascia gun muscle massager in function, is driven by a motor in a rotating mode, is light in weight and small in volume, but needs to be matched with the hand in a hand-held mode and low in strength, is difficult to reach deep muscles, and has unsatisfactory massage effect.

At present, a massager which can realize that massage reaches deep muscles, can perform fixed-point positioning beating on the muscles without hand holding, and has the advantages of freely adjustable beating frequency and force, light weight, small volume and low cost is lacked.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic pat massager, the technical problem of solution lies in: the existing massager for relaxing muscles can not realize that the massage reaches deep muscles and the fixed-point positioning beating of the muscles can not be carried out simultaneously, and has the advantages of no need of hand holding, freely adjustable beating frequency and strength, light weight, small size and low cost.

The utility model provides a basic scheme does:

an automatic tapping massager:

the flapping device comprises a first flapping component, a second flapping component, a connecting component in insulation connection with the first flapping component and the second flapping component, and a controller in electric connection with the first flapping component and the second flapping component;

the first flapping component comprises a first electromagnet;

the second flapping component comprises a second electromagnet;

the first beating assembly and the second beating assembly are oppositely arranged;

the first electromagnet and the second electromagnet are electrically connected with the controller.

The working principle and advantages of this basic scheme (first embodiment) are:

1. the first and second beating components adopting the first and second electromagnets are arranged, and the first and second electromagnets are driven by pulse current of the controller to beat muscles relatively, so that deep muscles can be stimulated, the problem that the masseur cannot stimulate the muscles in place due to unidirectional beating or local kneading is solved, the massage effect is ensured, and the user experience is good;

2. the controller is arranged to adjust the working frequency and the working strength of the first electromagnet and the second electromagnet, so that the massage frequency and the massage force can be freely adjusted, various requirements of a user on beating frequency and force are met, the experience of the user is enhanced, the application range of the massager is wider, and the market competitiveness is stronger;

3. the flapping device is only composed of a flapping component, a connecting component, a controller and other micro structures, and has the advantages of small product volume, light weight and low cost.

On the whole, the automatic massager of patting that this basic scheme provided can realize simultaneously that the massage reachs deep muscle, pat to muscle fixed point location still need not artifical work, pat frequency and dynamics height freely adjustable and light in weight, small, with low costs, easily equipment, and the user uses and experiences well, and application scope is wide, the sexual valence relative altitude.

In a further second embodiment, the first electromagnet comprises a first coil support, a first coil mounted on the first coil support, a first iron core arranged in the first coil in a penetrating manner, a first iron core head sleeved on one side of the first iron core, and a first iron core head rubber sleeve wrapping the first iron core head;

the second electromagnet comprises a second coil support, a second coil arranged on the second coil support, a second iron core arranged in the second coil in a penetrating mode, a second iron core head sleeved on one side of the second iron core, and a second iron core head rubber sleeve wrapping the second iron core head;

the first iron core head and the second iron core head are oppositely arranged.

The scheme has the beneficial effects that:

1. the internal structure of the electromagnet is described, under the drive of the pulse current of the controller, the iron core is electrified when the current exists, the magnetic force is generated under the action of the coil, and the iron core is powered off when the current does not exist, so that the magnetic force disappears. By controlling the direction of current and the winding direction of the coil, the magnetic force of the first electromagnet and the second electromagnet is acted on the iron core force when the current flows, so that the beating action is completed, the magnetic force of the first electromagnet and the second electromagnet is eliminated when the current does not flow (or the current direction is opposite), the iron core is released (or counteraction) to complete the transition action of preparing for secondary beating, and the relative beating of the first electromagnet and the second electromagnet on muscles is realized;

2. the iron core head rubber sleeve is arranged to buffer acting force of the electromagnet on muscles during working, so that the experience of a user is enhanced;

meanwhile, the counterforce of the muscle on the electromagnet core is increased, and preparation is made for next beating.

In a further third embodiment, on the basis of the second embodiment, the first flapping assembly further comprises a first electromagnet outer sleeve, and the first electromagnet is fixed in the first electromagnet outer sleeve through the first coil support; the second flapping assembly further comprises a second electromagnet outer sleeve, and the second electromagnet is fixed in the second electromagnet outer sleeve through the second coil support;

the scheme has the beneficial effects that:

the first electromagnet and the second electromagnet are fixed through the first electromagnet outer sleeve and the second electromagnet outer sleeve, the first electromagnet and the second electromagnet are prevented from being in direct contact with the outside, on one hand, the first electromagnet and the second electromagnet are protected, on the other hand, the electromagnets are electrically insulated from the outside, and the electromagnets are convenient to fix.

In a further fourth embodiment, based on the first embodiment, the first flapping assembly further comprises a first pocket, a first binding fixed to the first pocket, and a first electromagnet housing fixed to the first pocket;

the second flapping component further comprises a second pocket and a second binding piece fixed on the second pocket, and the second electromagnet outer sleeve is fixed in the second pocket.

The scheme has the beneficial effects that:

1. the first and second electromagnets can be effectively fixed in the first and second pockets;

2. the whole electromagnet is fixed in the sleeve bag, if the sleeve bag adopts firm light waterproof cloth with a certain thickness as one side contacting with a human body, the electromagnet can be protected from being eroded by moisture, sweat and the like, so that the service life of the electromagnet is prolonged, and the service life of the massager is further prolonged; furthermore, the human body can be further electrically insulated from the electromagnet.

3. The first and second bindings can be conveniently secured to the first and second pockets by stitching.

In a further fifth embodiment, in addition to the fourth embodiment,

the first binding member includes a first binding band sewn to the first pocket, both ends of the first binding band extending outside the first pocket; one end of the first binding belt is sewed with a buckle in a shape like a Chinese character 'ri', and the other end of the first binding belt is sleeved with a male end of the buckle;

the second binding member includes a second binding band sewn to the second pocket, both ends of the second binding band extending outside the second pocket; one end of the second binding belt is sewed with a female end of the eye-splice;

the male end of the eye-splice sleeved on one end of the first binding belt is arranged corresponding to the female end of the eye-splice sewed on one end of the second binding belt; the ' Chinese character ' ri ' buckle that first ligature area one end seam connects corresponds the setting with the second ligature area other end that extends to the second cover bag outside.

The scheme has the beneficial effects that: with the extension of first, second ligature area one end and shorten, rethread connecting piece (' day ' word buckle and eye-splice), can tie up and tie up on the human column position of different girths, can be favorable to more fixing first, the second electro-magnet in the different positions that need beat simultaneously relatively to liberation user's both hands save artifical work and realize patting the fixed point location of muscle crowd.

In a further sixth embodiment, on the basis of the third embodiment, the connection assembly comprises:

a first metal support bar;

a second metal support bar;

the first rotatable elastic buckling clamp is connected with one end of the first metal supporting rod and one end of the second metal supporting rod;

the first electromagnet support frame is movably connected to the other end of the first metal support rod, and the first electromagnet is rotatably arranged on the first electromagnet support frame;

and the second electromagnet support frame is movably connected to the other end of the second metal support rod, and the second electromagnet is rotatably arranged on the second electromagnet support frame.

The scheme has the beneficial effects that:

1. the first metal supporting rod and the second metal supporting rod are arranged, and the first beating component and the second beating component are attached to the muscles, so that the muscles can be beaten relatively;

2. the first rotatable elastic buckling clamp is arranged to be connected with the first metal supporting rod and the second metal supporting rod, and the opening degree between the first metal supporting rod and the second metal supporting rod can be adjusted to adapt to muscles with different circumferences;

3. set up first, second electro-magnet support frame, rotatably install first, second electro-magnet on first, second metal support pole to first, second electro-magnet has certain activity space when patting, and reinforcing user's use is experienced.

In a further seventh embodiment, on the basis of the third embodiment, the connection assembly comprises:

a third metal support bar;

a fourth metal support bar;

a second rotatable elastic clip connecting one end of the third metal support rod and one end of the fourth metal support rod;

the third electromagnet support frame is fixedly connected to the other end of the third metal support rod, and the first electromagnet is rotatably arranged on the third electromagnet support frame;

the fourth electromagnet support frame is fixedly connected to the other end of the fourth metal support rod, and the second electromagnet is rotatably arranged on the fourth electromagnet support frame;

the third metal supporting rod and the fourth metal supporting rod are of telescopic structures.

This solution differs from the sixth embodiment in that:

the third metal support rod the fourth metal support rod is of a telescopic structure, and the total length of the third metal support rod and the total length of the fourth metal support rod can be adjusted, so that the arm length attached to muscles is adjusted, and the experience of a user is enhanced.

In a further eighth embodiment, on the basis of the seventh embodiment,

the telescopic structure comprises a first rod body connected with the second rotatable elastic buckling clamp, a second rod body connected with the first flapping component or the second flapping component, and a pin for fixing the first rod body and the second rod body; the coincidence position of the second body of rod and the first body of rod is equipped with the multiunit through-hole, the pin inserts and is in a set of realize fixedly in the through-hole.

The scheme has the beneficial effects that: the first rod body and the second rod body which are overlapped are arranged to realize extension and retraction; and set up multiunit through-hole at the coincidence position, insert through the pin and can realize adjusting the overall length of first body of rod and second body of rod in the through-hole that corresponds, realize fixedly.

In a further ninth embodiment, in addition to the seventh embodiment,

the telescopic structure comprises a third rod body connected with the second rotatable elastic buckling clamp and a fourth rod body connected with the first flapping component or the second flapping component; the tail end of the third rod body is fixedly provided with a sleeve frame, a buckle is arranged on the sleeve frame, and the fourth rod body is inserted into the sleeve frame and is fixed through the buckle.

The scheme has the beneficial effects that: the sleeve frame is used for sleeving the fourth rod body to realize expansion; the buckle arranged on the sleeve frame realizes fixation.

In a further tenth embodiment, based on the basic aspect (the first embodiment), the controller includes a housing, a circuit board mounted in the housing, and a power plug electrically connected to the circuit board; the circuit main board is provided with a control key, and the control key is embedded in the surface of the shell; the circuit main board is connected with the first electromagnet and the second electromagnet through wires.

The scheme has the beneficial effects that:

the controller accomplishes the demand to the adjustable frequency of muscle and dynamics based on the control electro-magnet, sets up the circuit mainboard, and this circuit mainboard can include the singlechip of outlying control button, power conversion circuit and core, and power conversion circuit can turn into DC power supply with the commercial power and supply power for the singlechip, still can turn into impulse current, and impulse current exports under the control of singlechip first electro-magnet and second electro-magnet, the break-make of control button steerable power, the operating frequency and the intensity of patting of electro-magnet under user's triggering satisfy the various transform demands of user to patting frequency and dynamics.

Drawings

Fig. 1 is a schematic view of a basic structure of an automatic tapping massager provided in embodiment 1 of the present invention;

fig. 2 is a vertical sectional view of the first flapping assembly of fig. 1 according to embodiment 1 of the present invention;

fig. 3 is a top view of fig. 1 provided in embodiment 1 of the present invention;

fig. 4 is a schematic view of a basic structure of an automatic tapping massager provided in embodiment 2 of the present invention;

fig. 5 is a schematic view of a basic structure of an automatic tapping massager provided in embodiment 3 of the present invention;

fig. 6 is a schematic view of a basic structure of an automatic tapping massager provided in embodiment 4 of the present invention;

fig. 7 is a top view of fig. 6 provided in embodiment 4 of the present invention.

Detailed Description

The following is further detailed by the specific embodiments:

example 1

The reference numerals in figures 1 to 4 of the specification include: the device comprises a first flapping component 1, a second flapping component 2, a connecting component 3, a controller 4, a first electromagnet 11 and a second electromagnet 21; the electromagnetic coil comprises a first coil support 11-1, a first coil 11-2, a first iron core 11-3, a first iron core head 11-4, a first iron core head rubber sleeve 11-5, a first electromagnet outer sleeve 12, a second electromagnet outer sleeve 22, a first metal supporting rod 31, a second metal supporting rod 32, a first rotatable elastic buckle clamp 33, a first electromagnet supporting frame 34, a second electromagnet supporting frame 35 and a sliding long buckle 36.

The applicant found that: for specific large muscle groups (such as large and small leg muscle groups, large and small arm muscle groups), the deep muscles are difficult to be reached by ordinary beating, and the effect of relieving muscle soreness is not ideal. Through multi-directional thinking and observation of daily life, the applicant concludes that some old people flap leg muscles with both hands facing each other, and the method has the best effect of relieving muscle soreness. Moreover, the applicant finds out through experiments that the effect of the included angle of the two hands in the force application direction is the best when the hands are flapped relatively, and the effect is gradually reduced when the included angle of the two hands in the force application direction is gradually reduced. Theoretically, the two shock waves traveling in opposite directions would oscillate in a superimposed manner when they meet, with the most intense point of oscillation being at the shortest distance between the two shock waves. Moreover, for a flexible enclosure (such as a water bag) if one-way flapping is performed, the energy expended in flapping is largely consumed by the swinging of the whole flexible enclosure, and the impact on the interior of the flexible enclosure is reduced; however, if simultaneous opposing flapping is performed, the overall flexible enclosure swings less under the opposing force, and the energy expended in flapping is almost always accepted by the flexible enclosure. Therefore, simultaneous and opposite beating is the best method for muscle massage.

Although various massagers are available in the market, and the massage modes are various, many users still have the reflection that the massager is not manually used for massage in place and is comfortable. Among various massage modes, kneading and beating (or beating) are the mainstream, and both of them can achieve the same effect basically, and in beating, the beating effect is the best for the same muscle relatively (if the beating is unidirectional or unilateral, the muscle will move, so the muscle is weak in force and the beating effect is not good). Based on this, in this embodiment, an automatic tapping massager is designed for a tapping (or beating) massage mode, which can simultaneously achieve that the massage reaches deep muscles, the fixed-point positioning and relative tapping of the muscles are realized, and the massager does not need manual work, has freely adjustable tapping frequency and force, and is light in weight, small in size and low in cost.

Specifically, the present embodiment provides an automatic tapping massager, which has a basic structure as shown in fig. 1, and includes a first tapping assembly 1, a second tapping assembly 2, a connecting assembly 3 connected to the first tapping assembly 1 and the second tapping assembly 2 in an insulated manner, and a controller 4 electrically connected to the first tapping assembly 1 and the second tapping assembly 2;

the first flapping assembly 1 comprises a first electromagnet 11;

the second tapping assembly 2 comprises a second electromagnet 21;

the first flapping component 1 and the second flapping component 2 are oppositely arranged;

the first electromagnet 11 and the second electromagnet 21 are electrically connected with the controller 4.

The controller 4 comprises a shell, a circuit mainboard arranged in the shell and a power plug wire electrically connected with the circuit mainboard; the circuit main board is provided with a control key, and the control key is embedded in the surface of the shell; the circuit main board is connected with the first electromagnet 11 and the second electromagnet 21 through conducting wires. The structure of the controller 4 is general, and the structure is not shown in this embodiment.

As shown in fig. 2, the first electromagnet 11 includes a first coil support 11-1, a first coil 11-2 installed on the first coil support 11-1, a first iron core 11-3 inserted into the first coil 11-2, a first iron core head 11-4 sleeved on one side of the first iron core 11-3, and a first iron core head rubber sleeve 11-5 wrapping the first iron core head 11-4;

the second electromagnet 21 comprises a second coil bracket, a second coil arranged on the second coil bracket, a second iron core arranged in the second coil in a penetrating way, a second iron core head sleeved on one side of the second iron core, and a second iron core head rubber sleeve wrapping the second iron core head;

the first iron core head 11-4 and the second iron core head are oppositely arranged;

the first flapping component 1 further comprises a first electromagnet outer sleeve 12, and the first electromagnet 11 is fixed in the first electromagnet outer sleeve 12 through a first coil support 11-1; the second flapping assembly 2 further comprises a second electromagnet outer sleeve 22, and the second electromagnet 21 is fixed in the second electromagnet outer sleeve 22 through a second coil support. The first electromagnet outer sleeve 12 and the second electromagnet outer sleeve 22 are made of heat-resistant and insulating plastics.

Since the internal structure of the first electromagnet 11 is the same, the second coil support, the second coil, the second iron core head, and the second iron core head rubber sleeve are not illustrated in this embodiment. In order to meet the flapping requirements of high and low frequencies, the first electromagnet 11 and the second electromagnet 21 both adopt high-power electromagnets.

As shown in fig. 3, the connecting assembly 3 includes:

a first metal support bar 31;

a second metal support bar 32;

a first rotatable elastic clip 33 connecting one end of the first metal support bar 31 and one end of the second metal support bar 32;

the first electromagnet support frame 34 is movably connected to the other end of the first metal support rod 31, and the first electromagnet 11 is rotatably arranged on the first electromagnet support frame 34;

and the second electromagnet support frame 35 is movably connected to the other end of the second metal support rod 32, and the second electromagnet 21 is rotatably arranged on the second electromagnet support frame 35.

The first electromagnet support frame 34 is fixed on the first metal support rod 31 through the sliding long buckle 36, and the same process is performed between the second electromagnet support frame 35 and the second metal support rod 32.

Among them, this embodiment:

1. by adopting the first electromagnet 11 and the second electromagnet 21, under the drive of the pulse current of the controller 4, the iron core is electrified when the current exists, the magnetic force is generated under the action of the coil, and the iron core is powered off when the current does not exist, so that the magnetic force disappears. By controlling the direction of the current and the winding direction of the coil, the magnetic force of the first electromagnet 11 and the second electromagnet 21 acts on the iron core when the current flows, so that the beating action is completed, and when no current (or the direction of the current is opposite), the magnetic force of the first electromagnet 11 and the second electromagnet 21 is eliminated (or the magnetic force counteracts the iron core), so that the iron core is released (or counteracts) to complete the transition action of preparing for secondary beating, and the relative beating of the first electromagnet 11 and the second electromagnet 21 on the muscle is realized;

2. the iron core head rubber sleeve is used for buffering acting force of the electromagnet on muscles during working, so that the experience of a user is enhanced; meanwhile, the counterforce of the muscle on the electromagnet core is increased to prepare for next beating;

3. the first electromagnet outer sleeve 13 and the second electromagnet outer sleeve 22 are arranged to fix the first electromagnet 11 and the second electromagnet 21, so that the first electromagnet 11 and the second electromagnet 21 can be prevented from directly contacting the outside, on one hand, the first electromagnet 11 and the second electromagnet 21 are protected, on the other hand, the electromagnet is electrically insulated from the outside, and the electromagnet is convenient to fix;

4. the first metal support rod 31 and the second metal support rod 32 are arranged, and the first flapping component 1 and the second flapping component 2 are attached to muscles, so that the muscles can be flapped relatively;

5. a first rotatable elastic clamping clip 33 is arranged to be connected with the first metal supporting rod 31 and the second metal supporting rod 32, and the opening degree between the first metal supporting rod 31 and the second metal supporting rod 32 can be adjusted to adapt to muscles with different circumferences;

6. the first electromagnet support frame 34 and the second electromagnet support frame 35 are arranged, and the first electromagnet 11 and the second electromagnet 21 are rotatably arranged on the first metal support rod 31 and the second metal support rod 32, so that the first electromagnet 11 and the second electromagnet 21 have certain moving spaces during flapping, and the use experience of a user is enhanced;

7. the sliding long buckle 36 is arranged, so that the arm length of the muscle acted by the first metal supporting rod 31 and the second metal supporting rod 32 can be adjusted, and the use experience of a user is enhanced.

Particularly, accomplish the demand to adjustable frequency of muscle and dynamics based on the control electro-magnet, controller 4 in this embodiment is provided with the circuit board, this circuit board can include peripheral control button, the singlechip of power conversion circuit and core, power conversion circuit can turn into mains supply for the singlechip power supply, still can turn into impulse current and be used for exporting first electro-magnet 11 and second electro-magnet 21 under the control of singlechip, the control button is the break-make of steerable power under user's trigger, the operating frequency and the intensity of patting of electro-magnet, satisfy the various transform demands of user to patting frequency and dynamics.

More specifically, the control keys comprise a key type power switch, a force increasing key, a corresponding force reducing key, a frequency increasing key and a corresponding frequency reducing key which are respectively electrically connected with the single chip microcomputer.

More specifically, the control logic (the whole working process of the beating massager) of the single chip microcomputer is as follows:

1) resetting after each power failure, and starting again to press the power switch for 1-3 seconds; after each starting, the singlechip controls the power supply conversion circuit to respectively output pulse current with lowest power and lowest frequency to the two high-power electromagnets (the power corresponds to the strength of beating force, and the frequency corresponds to the beating frequency), and at the moment, the beating force and the frequency of the electromagnets are both lowest, which is a 0 gear;

2) the single chip microcomputer is pre-provided with 1(0 gear) +15 (or multiples of 3 such as 30, 9 and the like, and the number of the beating strength gears is determined according to the jumping number of the primary long press, and the number of the beating strength gears is set to be multiples of 3 if the number of the beating strength gears is 3, wherein the 15 gears in three sections are respectively 1-5 gears with low strength, 1-5 gears with medium strength and 1-5 gears with high strength, and the total number is 1-15 gears. Starting from the lowest-intensity gear 0 gear in 1), increasing the pulse current intensity of one gear (such as 0 → 1 gear) every short press of the force increasing key, and increasing the pulse current intensity of 3 gears (such as 0 → 3 gear) every long press of the force increasing key (1-2 s). On the contrary, the force reducing key is pressed for each short time to reduce the pulse current intensity of one gear, and the force reducing key is pressed for a long time (1-2s) to reduce the pulse current intensity of 3 gears. So that the user can realize the quick adjustment of the beating intensity.

Similarly, 1(0 gear) +15 (or multiples of 3 such as 30, 9) beating frequency gears are pre-installed in the single chip microcomputer, and the beating frequency gears are consistent with the control principle of the beating intensity, and are not described again here.

And 16 intensity adjustment gears can form 16 × 16-256 beating modes, and 256 different beating experiences are provided for users.

In three gears, the low-section 5 (or 10, 3) gears are shifted from low to high, the interval time of the key is required to be 0.5-1 second when the force is increased every time, the middle-section 5 (or 10, 3) gears are shifted from low to high, the interval time of the key is required to be 1-2 seconds when the force is increased every time, the high-section 5 (or 10, 3) gears are shifted from low to high when the force is increased every time, the interval time of the key is required to be 2-3 seconds when the force is increased every time, and the interval of the key is only required to be 0.1 second when the force is decreased every time. Because the gear is higher, and the frequency and the dynamics of patting are higher, set up interval time longer and can avoid appearing the user and respond to the gear untimely blind gear shift often, arouse user's discomfort.

The control logic of the single chip microcomputer is only one of the preferable ones, and under the same teaching, various modifications can be set according to specific requirements, and the embodiment does not specifically limit the control logic of the single chip microcomputer, but requires that the control logic can control the beating frequency and the intensity of the electromagnet to change for 3 grades at least.

In conclusion, the automatic beating massager provided by the embodiment has the following beneficial effects:

1. the first beating component 1 and the second beating component 2 which adopt the first electromagnet 11 and the second electromagnet 21 are arranged, and the first electromagnet 11 and the second electromagnet 21 carry out relative beating on muscles with various forces under the driving of multi-gear pulse current of the controller 4, so that deep muscles can be stimulated, the problem that the muscles are not stimulated in place due to unidirectional beating or local kneading of a massager is solved, the massage effect is ensured, and the user experience is good;

2. the controller 4 is arranged to adjust the working frequency and the working strength (256 levels in total) of the first electromagnet 11 and the second electromagnet 21, so that the massage frequency and the massage strength can be freely adjusted, various requirements of users on beating frequency and strength are met, the experience of the users is enhanced, the application range of the massager is wider, and the market competitiveness is stronger;

3. the flapping machine is only composed of a flapping component, a connecting component 3, a controller 4 and other micro structures, and has the advantages of small product volume, light weight and low cost.

Example 2

The reference numbers in figure 4 of the specification include: a first set of bag 13, a second set of bag 23, a first binding belt 14-1, a buckle 14-2 shaped like a Chinese character 'ri', a male end 14-3, a second binding belt 24-1, a female end 24-3 and a controller 4.

The present embodiment is different from embodiment 1 in that: the first electromagnet 11, the second electromagnet 21, and the controller 4 are different in structure, except that the other structures are the same. The different structures are: 1. a first flapping component 1 and a second flapping component; 2. a connecting assembly 3.

In this embodiment, as shown in fig. 4, first flapping assembly 1 further comprises a first pocket 13, a first harnessing element 14 secured to first pocket 13, first coil support 11-1 secured in first pocket 13;

the second tapping assembly 2 further comprises a second pocket 23, a second binding 24 fixed to the second pocket 23, and a second coil support fixed in the second pocket 23.

The detailed structure of the second flapping assembly 2 is the same as the specific structure of the first flapping assembly 1, and this embodiment is not shown.

The first binding 14 comprises a first binding band 14-1 sewn to the first pocket 13, both ends of the first binding band 14-1 extending out of the first pocket 13; one end of the first binding belt 14-1 is sewed with a buckle 14-2 shaped like a Chinese character 'ri', and the other end is sleeved with a male end 14-3 of a buckle;

the second binding piece 24 includes a second binding band 24-1 sewn to the second pocket 23, both ends of the second binding band 24-1 extending outside the second pocket 23; one end of the second binding belt 24-1 is sewed with a female end 24-3 of a plug-in buckle;

the 'male' end 14-3 of the eye-splice sleeved on one end of the first binding band 14-1 is arranged corresponding to the 'female' end 24-3 of the eye-splice sewed on one end of the second binding band 24-1; a buckle 14-2 shaped like a Chinese character 'ri' sewn at one end of the first binding band 14-1 is correspondingly arranged at the other end of the second binding band 24-1 extending out of the second pocket 23.

In this embodiment:

1. the first and second binding belts can be extended and shortened at one end and can be bound on the columnar parts of the human body with different circumferences through connecting pieces (a Chinese character 'ri' shaped buckle and a plug buckle), so that the first and second electromagnets can be more favorably fixed at different positions needing relative flapping at the same time, the hands of a user are liberated, and manual work is saved to realize fixed-point positioning flapping on muscle groups;

2. can fix whole first electro-magnet 11, second electro-magnet 21 in first cover bag 13, second cover bag 23 through first coil support 11-1, second coil support, first electro-magnet 11, second electro-magnet 21 contact user's skin through first cover bag 13, second cover bag 23 when patting, can give the touch sense that the user is releived, guarantee good use and experience.

In other embodiments, the connection assembly 3 may be a plurality of elastic strings with elasticity, and the elastic strings may be small blocks threaded thereon, or may be a connection chain (non-metal) similar to a watch band.

Example 3

The reference numbers in figure 5 of the specification include: the flapping device comprises a first flapping assembly 1, a second flapping assembly 2, a third metal support rod 37, a fourth metal support rod 38, a second rotatable elastic buckling clamp 39, a first rod body 38-1, a second rod body 38-2 and a pin 38-3.

The present embodiment is different from embodiment 1 in that: a connecting assembly 3.

In the present embodiment, as shown in fig. 5, the connecting assembly 3 includes:

a third metal support bar 37;

a fourth metal support bar 38;

a second rotatable elastic clip 39 connecting one end of the third metal supporting bar 37 and one end of the fourth metal supporting bar 38;

the third electromagnet support frame is fixedly connected to the other end of the third metal support rod 37, and the first electromagnet 11 is rotatably arranged on the third electromagnet support frame;

the fourth electromagnet support frame is fixedly connected to the other end of the fourth metal support rod 38, and the second electromagnet 21 is rotatably arranged on the fourth electromagnet support frame;

the third metal supporting rod 37 and the fourth metal supporting rod 38 are of telescopic structures.

The telescopic structure comprises a first rod body 38-1 connected with a second rotatable elastic buckling clamp 39, a second rod body 38-2 connected with a second flapping component 2 or a first flapping component 1, and a pin 38-3 for fixing the first rod body 38-1 and the second rod body 38-2; a plurality of groups of through holes are formed in the position, where the second rod body 38-2 is overlapped with the first rod body 38-1, and the pins 38-3 are inserted into the through holes to be fixed.

Compared with the embodiment 1, in this embodiment, the third metal supporting rod 37 and the fourth metal supporting rod 38 are of a telescopic structure, and the total length of the third metal supporting rod 37 and the fourth metal supporting rod 38 can be adjusted, so that the arm length attached to the muscle can be adjusted, and the experience of the user can be enhanced. The first rod body 38-1 and the second rod body 38-2 which are overlapped are arranged to realize extension and retraction; and a plurality of groups of through holes are arranged at the overlapping positions, and the total length of the first rod body 38-1 and the second rod body 38-2 can be adjusted by inserting the pins 38-3 into the corresponding through holes, so that fixation is realized.

Example 4

The reference numbers in figures 6 and 7 of the specification include: the flapping device comprises a first flapping component 1, a second flapping component 2, a second rotatable elastic buckle clamp 39, a third rod body 38-4, a fourth rod body 38-5, a sleeve frame 38-6 and a buckle 38-7.

The present embodiment is different from embodiment 1 in that: a telescopic structure.

In this embodiment, as shown in fig. 6 and 7, the telescopic structure includes a third rod 38-4 connected to the second rotatable elastic clip 39, and a fourth rod 38-5 connected to the first flapping assembly 1 and the second flapping assembly 2; the tail end of the third rod body 38-4 is fixed with a sleeve frame 38-6, a buckle 38-7 is arranged on the sleeve frame 38-6, and the fourth rod body 38-5 is inserted into the sleeve frame 38-6 and is fixed through the buckle 38-7.

Example 5

The difference between this embodiment and embodiment 1 is that the circuit board in the controller 4 has no control button, but has newly added a wireless communication module, and this wireless communication module can be connected with user's intelligent terminal, and the user passes through the flapping intensity and the frequency of intelligent terminal control electro-magnet, and the control level is higher, and the operation is also simpler. The wireless communication module of this embodiment has integrateed WIFI module and bluetooth module, and the user can select the action of going the control electro-magnet through the mode of WIFI wireless network or bluetooth according to actual control demand.

Example 6

The difference between this embodiment and embodiment 1 is that the wireless communication module is added to the circuit board in the controller 4, and this wireless communication module can be connected with user's intelligent terminal, and the user passes through the patting intensity and the frequency of intelligent terminal control electro-magnet, and the control level is higher, and the operation is also simpler. The wireless communication module of this embodiment has integrateed WIFI module and bluetooth module. The user can select the mode through WIFI wireless network or bluetooth or the mode of control button to control the action of electro-magnet according to actual control demand.

The above are merely examples of the present invention, and common general knowledge of known specific structures and characteristics of the embodiments is not described herein, and those skilled in the art will know all the common technical knowledge in the technical field of the present invention before the application date or priority date, can know all the prior art in this field, and have the ability to apply the conventional experimental means before this date. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. An automatic patting massager is characterized in that: the flapping device comprises a first flapping component, a second flapping component, a connecting component in insulation connection with the first flapping component and the second flapping component, and a controller in electric connection with the first flapping component and the second flapping component;

the first flapping component comprises a first electromagnet;

the second flapping component comprises a second electromagnet;

2. An automatic tapping massager as claimed in claim 1, wherein: the first electromagnet comprises a first coil support, a first coil arranged on the first coil support, a first iron core arranged in the first coil in a penetrating mode, a first iron core head sleeved on one side of the first iron core, and a first iron core head rubber sleeve wrapping the first iron core head;

the first iron core head and the second iron core head are oppositely arranged.

3. An automatic tapping massager as claimed in claim 2, wherein:

the first flapping assembly further comprises a first electromagnet outer sleeve, and the first electromagnet is fixed in the first electromagnet outer sleeve through the first coil support; the second flapping assembly further comprises a second electromagnet outer sleeve, and the second electromagnet is fixed in the second electromagnet outer sleeve through the second coil support;

the first electromagnet outer sleeve and the second electromagnet outer sleeve are made of heat-resistant and insulating plastics.

4. An automatic tapping massager as claimed in claim 1, wherein:

the first flapping assembly further comprises a first pocket and a first binding piece fixed on the first pocket, and the first electromagnet outer sleeve is fixed in the first pocket;

5. An automatic tapping massager as claimed in claim 4, wherein:

6. An automatic tapping massager as claimed in claim 3, wherein said coupling assembly comprises:

a first metal support bar;

a second metal support bar;

7. An automatic tapping massager as claimed in claim 3, wherein said coupling assembly comprises:

a third metal support bar;

a fourth metal support bar;

8. An automatic tapping massager as claimed in claim 7, wherein:

the telescopic structure comprises a first rod body connected with the second rotatable elastic buckling clamp, a second rod body connected with the first flapping component or the second flapping component, and a pin for fixing the first rod body and the second rod body; a plurality of groups of through holes are formed in the overlapping position of the second rod body and the first rod body, and the pins are inserted into the through holes to be fixed;

or the telescopic structure comprises a third rod body connected with the second rotatable elastic buckling clamp and a fourth rod body connected with the first flapping component or the second flapping component; the tail end of the third rod body is fixedly provided with a sleeve frame, a buckle is arranged on the sleeve frame, and the fourth rod body is inserted into the sleeve frame and is fixed through the buckle.

9. An automatic tapping massager as claimed in claim 1, wherein: the controller comprises a shell, a circuit main board arranged in the shell and a power plug wire electrically connected with the circuit main board; the circuit main board is provided with a control key, and the control key is embedded in the surface of the shell; the circuit main board is connected with the first electromagnet and the second electromagnet through wires.