CN217828366U - Stepless speed-regulating electric foam shaft vibration massager - Google Patents

Abstract

A stepless speed regulation electric foam shaft vibration massager comprises a foam shaft and a vibration structure, wherein the foam shaft is provided with a through cavity, the vibration structure is arranged in the through cavity, and the vibration structure comprises a vibration core, a motor assembly, a battery assembly and a knob speed regulation assembly; the motor assembly and the battery assembly are arranged in the vibrating core, one end of the vibrating core is provided with the singlechip driving module and the switch assembly, and the other end of the vibrating core is provided with the knob speed regulating assembly; the knob speed regulating assembly comprises a knob and a speed regulating circuit board which are installed in a matched mode. The driver is a singlechip driving module, and a fixed program can be implanted according to the customized requirements of customers; set up knob speed governing subassembly again, divide into artifical strong and weak mode and programmed vibration mode of regulation with the vibration regulation, the knob of the rotatory knob speed governing subassembly of user is regarded as to artifical strong and weak mode of regulation, and programmed vibration mode also passes through knob control, lets the utility model discloses can satisfy the demand of user under each condition, easy operation is intelligent reasonable again.

Description

Stepless speed-regulating electric foam shaft vibration massager

Technical Field

The utility model relates to a body-building apparatus field, more specifically relates to an electronic foam axle vibration massager of stepless speed regulation.

Background

The foam shaft is called a yoga column, generally has light weight and high buffering elasticity, and can help a yoga practicer to finish various balance actions. Its advantages are: release of muscle fascia and tightening of muscles; the foam shaft not only can extend muscles and tendons, but also can break up soft tissue adhesion and scar tissue, and the self weight and the cylindrical foam shaft can be used for self massage and muscle fascia release, so that a trigger point is broken, the tension fascia is relieved, and the blood flow and the soft tissue circulation are increased.

Therefore, national fitness exercise is advocated in China, the physical quality of the nation is improved, the working and living pressure of people is increased along with the continuous development of national economy of China, mountaineering, riding and traditional sports can relieve the pressure of people, sports enthusiasts are continuously increased, the requirements of muscle relaxation, exercise, functional rehabilitation and the like are continuously increased, and the sports equipment has huge market potential and very wide prospect in the field of sports equipment.

However, in the existing electric foam shaft product, most of the regulation and control modes are preset vibration modes selected through the keys and the toggle switch, and a user cannot adjust the optimal vibration frequency according to the user's own requirements, so that the user experience is poor.

The muscle relaxer comprises a foam shaft and a vibration assembly, wherein the foam shaft is provided with a through cavity, the vibration assembly comprises a shell, a driving device and a rotating piece, the shell is detachably installed in the through cavity, the driving device is installed in the shell with the rotating piece, and an output shaft of the driving device is connected with the rotating piece. The vibration assembly further comprises a first end cover and a second end cover, a control panel is installed on the first end cover and electrically connected with the driving device, and the control panel is provided with a touch key used for controlling the rotating speed of the driving device. According to the required vibration frequency, a user can adjust the rotating speed of the driving device by touching the touch key, so that the vibration frequency of the foam shaft is changed. However, when the key is touched, the massage vibration frequency is designed, and the most suitable gear cannot be selected according to the self condition.

Like the modularization vibrations dabber of yoga foam axle of patent, including the beam barrel, have both ends open-ended installation cavity in the beam barrel, install circuit board, eccentric motor and with circuit board, the battery of eccentric motor electricity connection in the installation cavity, the beam barrel other end is provided with rather than coaxial connecting cylinder of arranging, and connecting cylinder screw-thread fit is connected with the back lid of tube-shape. Its connecting cylinder and back lid through design tail end threaded connection, according to the foam axle length of difference, the number of turns of adjusting locking between connecting cylinder and the back lid is adjusted the installation distance of vibrations dabber, has solved the selection of user on length, still can not solve the customer and select the most suitable vibration intensity problem.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an overcome above-mentioned prior art the user can not select the defect of best vibration intensity when using, provides a stepless speed regulation electric foam axle vibration massager, and the user can be according to self demand adjustment vibration frequency, convenient to use.

In order to solve the technical problem, the technical scheme of the utility model as follows:

a stepless speed regulation electric foam shaft vibration massager comprises a foam shaft and a vibration structure, wherein the foam shaft is provided with a through cavity, the vibration structure is arranged in the through cavity, and the vibration structure comprises a vibration core, a motor assembly, a battery assembly and a knob speed regulation assembly; the motor assembly and the battery assembly are arranged in the vibrating core, one end of the vibrating core is provided with the singlechip driving module and the switch assembly, and the other end of the vibrating core is provided with the knob speed regulating assembly; the knob speed regulating assembly comprises a knob and a speed regulating circuit board which are installed in a matched mode; the single chip microcomputer driving module is electrically connected with the battery assembly, the input end of the single chip microcomputer driving module is electrically connected with the switch assembly and the knob speed regulating assembly, and the output end of the single chip microcomputer driving module is electrically connected with the input end of the motor assembly.

According to the design of the technical scheme, the driver of the massager is a singlechip driving module: a fixed program can be implanted according to the customization requirements of customers; the product is shut down; programming the intensity and the pulsation of the vibration, for example, changing from strong to weak gradually, and changing the vibration mode cyclically and alternately in a wave-like manner; automatic protection and other intelligent functions. The vibration adjustment is divided into a manual strong and weak adjustment mode and a programmed vibration mode, the manual strong and weak adjustment mode is realized by rotating a knob of a knob speed regulation assembly through a user, so that the vibration mode which is most suitable for the current situation of the user is selected, and the user cannot be injured due to too strong vibration or cannot achieve the massage effect due to too weak vibration.

When the battery is sufficient, the user presses the switch component, the massager enters a starting state, and the user can adjust the strength of the massager by manually rotating the knob; or the long press of the knob enters a vibration mode, the knob is rotated to select a preset mode, and after the selection is finished, the knob is pressed again to confirm the selection; the massager enters a dormant power-off state after running for a certain time; when the battery is low in power, the vibration structure displays that the power is low.

Further, knob speed governing subassembly still includes light-transmitting ring, install light-transmitting ring between knob and the speed governing circuit board.

According to the technical scheme, the light-transmitting ring can be customized into different colors according to the requirements of users, and is used for distinguishing the current vibration strength of the massager.

Further, knob speed governing subassembly still includes the vibration intensity tag board, the vibration intensity tag board sets up in the terminal surface of vibration core.

According to the technical scheme design, the vibration strength label plate can customize a range value or a strength mode according to requirements for distinguishing the vibration strength of the current massager by a user.

Further, the switch assembly comprises a rubber button, and the rubber button is installed at the input end of the single chip microcomputer driving module.

According to the design of the technical scheme, the rubber button can be replaced according to the color of the foam shaft, so that the whole color of the whole massager is uniform and exquisite.

Furthermore, the vibrating structure further comprises a light guide strip, the light guide strip is embedded into the end face of the vibrating core, and the input end of the light guide strip is electrically connected with the output end of the single chip microcomputer driving module.

According to the design of the technical scheme, the light guide strips are embedded into the end face of the vibrating core, and the light guide strips with different colors are arranged and selected under other conditions such as sufficient electric quantity, insufficient electric quantity and the like according to the setting of the single chip microcomputer driving module.

Furthermore, the motor assembly comprises a permanent magnet direct current motor and an eccentric block, and the eccentric block is connected with an output shaft of the permanent magnet direct current motor.

According to the technical scheme, the permanent magnet direct current motor has the characteristics of small volume, large output power and small power consumption, and can provide a powerful vibration source for products. The output shaft of the permanent magnet direct current motor drives the eccentric block, thereby providing vibration for the massager.

Furthermore, the battery pack comprises a high-energy-density power lithium battery, and the high-energy-density power lithium battery is connected with the single chip microcomputer driving module through a lead.

According to the technical scheme, the high-energy density power lithium battery is good in performance and can provide good endurance guarantee for the massager during vibration massage.

Furthermore, the vibrating core comprises an upper cover and a bottom cover, the bottom cover is of a cylindrical structure provided with a cavity, the single chip microcomputer driving module and the switch assembly are arranged in the first cavity, the battery assembly and the motor assembly are arranged in the second cavity, and the speed regulating circuit board is arranged in the third cavity; the upper cover is matched and arranged at the second cavity of the bottom cover.

According to the design of the technical scheme, the vibration core of the cylindrical structure is more beneficial to the use of a user, the user performs rolling massage by utilizing the massager, the inner cavity is used for accommodating each part, the second cavity in the middle is more beneficial to accommodating the battery assembly and the motor assembly, the vibration source is arranged in the middle of the massager, and the vibration massage range of the massager is wider.

Furthermore, a front cover and a rear cover are respectively installed at two ends of the vibrating core.

Furthermore, the speed regulation circuit board is fixedly installed on the front cover, the single chip microcomputer driving module is fixedly installed on the rear cover, and the rear cover is further provided with a charging hole.

According to the design of the technical scheme, the front cover and the rear cover are designed at the two ends of the vibrating core, the front cover and the rear cover are respectively arranged on the single chip driving module, the switch assembly and the knob speed regulating assembly, the design is more reasonable, the two ends are arranged, and the operation is more convenient.

Compared with the prior art, the utility model discloses technical scheme's beneficial effect is:

a stepless speed regulation electric foam shaft vibration massager comprises a foam shaft and a vibration structure, wherein the foam shaft is provided with a through cavity, the vibration structure is arranged in the through cavity, and the vibration structure comprises a vibration core, a motor assembly, a battery assembly and a knob speed regulation assembly; the motor assembly and the battery assembly are arranged in the vibrating core, one end of the vibrating core is provided with the singlechip driving module and the switch assembly, and the other end of the vibrating core is provided with the knob speed regulating assembly; the knob speed regulating assembly comprises a knob and a speed regulating circuit board which are installed in a matched mode; the single chip microcomputer driving module is electrically connected with the battery assembly, the input end of the single chip microcomputer driving module is electrically connected with the switch assembly and the knob speed regulating assembly, and the output end of the single chip microcomputer driving module is electrically connected with the input end of the motor assembly.

The utility model discloses set up the driver and be singlechip drive module: a fixed program can be implanted according to the customization requirements of customers; realizing the shutdown/stop of the product; intelligent functions of programmed vibration intensity, pulsation and the like; set up knob speed governing subassembly again, divide into artifical strong and weak mode and programmed vibration mode of regulation with the vibration control, the knob of artifical strong and weak mode for through the rotatory knob speed governing subassembly of user, programmed vibration mode also is through knob control, lets the utility model discloses can satisfy the demand of user under each condition, easy operation is intelligent reasonable again.

Drawings

Fig. 1 is a schematic structural diagram of a stepless speed-regulating electric foam shaft vibration massager.

Fig. 2 is a schematic structural diagram of a stepless speed-regulating electric foam shaft vibration massager.

Fig. 3 is an exploded view of the stepless speed-regulating electric foam shaft vibrating massager in embodiment 3.

Fig. 4 is a sectional view of the stepless speed-regulating electric foam shaft vibrating massager in embodiment 3.

Wherein: 1. a foam shaft; 2. a vibrating structure; 201. a vibrating core; 2011. an upper cover; 2012. a bottom cover; 2013. a front cover; 2014. a rear cover; 202. a motor assembly; 2021. a permanent magnet DC motor; 2022. an eccentric block; 203. a battery assembly; 204. a knob speed regulating assembly; 2041. a knob; 2042. a speed regulation circuit board; 2043. a light transmitting ring; 2044. a vibration intensity label plate; 205. the singlechip drive module; 206. a switch assembly; 2061. a rubber button; 207. and a light guide strip.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the present application will be clearly and completely described below with reference to the drawings of the embodiments of the present application. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments without any inventive step, are within the scope of protection of the present application.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. As used in this application, the terms "first," "second," and the like, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item preceding the word comprises the element or item listed after the word and its equivalent, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

Example 1

As shown in fig. 1 to fig. 2, the embodiment discloses a stepless speed regulation electric foam shaft vibration massager, which comprises a foam shaft 1 and a vibration structure 2, wherein the foam shaft 1 is provided with a through cavity, the vibration structure 2 is arranged in the through cavity, and the vibration structure 2 comprises a vibration core 201, a motor component 202, a battery component 203 and a knob speed regulation component 204; the motor assembly 202 and the battery assembly 203 are arranged in the vibration core 201, one end of the vibration core 201 is provided with a single chip microcomputer driving module 205 and a switch assembly 206, and the other end of the vibration core 201 is provided with a knob speed regulation assembly 204; the knob speed regulating component 204 comprises a knob 2041 and a speed regulating circuit board 2042 which are installed in a matching way; the single chip microcomputer driving module 205 is electrically connected with the battery assembly 203, the input end of the single chip microcomputer driving module 205 is electrically connected with the switch assembly 206 and the knob speed regulating assembly 204, and the output end of the single chip microcomputer driving module 205 is electrically connected with the input end of the motor assembly 202.

In the implementation process of this embodiment, when the battery is sufficient, the user presses the switch component 206, the massager enters the start state, the battery component 203 starts to supply power to the component, and the motor component 202 generates vibration, so as to achieve the purpose of massaging, and the user can adjust the strength of the massager by manually rotating the knob 2041; or the long press of the knob 2041 enters a vibration mode, the knob 2041 is rotated to select a preset mode, and after selection, the knob 2041 is pressed again to confirm the selection; the massager enters a dormant power-off state after running for a certain time; when the battery is low, the vibrating structure 2 indicates that the battery is low.

Example 2

As shown in fig. 1 to 2, in this embodiment, a front cover 2013 and a rear cover 2014 are added on the basis of embodiment 1, and a stepless speed-regulating electric foam shaft vibration massager is disclosed, which includes a foam shaft 1 and a vibration structure 2, wherein the foam shaft 1 is provided with a through cavity, the vibration structure 2 is arranged in the through cavity, and the vibration structure 2 includes a vibration core 201, a motor assembly 202, a battery assembly 203 and a knob speed-regulating assembly 204; the motor assembly 202 and the battery assembly 203 are arranged in the vibration core 201, one end of the vibration core 201 is provided with a single chip microcomputer driving module 205 and a switch assembly 206, and the other end of the vibration core 201 is provided with a knob speed regulation assembly 204; the knob speed regulating assembly 204 comprises a knob 2041 and a speed regulating circuit board 2042 which are installed in a matching mode; the single chip microcomputer driving module 205 is electrically connected with the battery assembly 203, the input end of the single chip microcomputer driving module 205 is electrically connected with the switch assembly 206 and the knob speed regulating assembly 204, and the output end of the single chip microcomputer driving module 205 is electrically connected with the input end of the motor assembly 202.

In a specific implementation process, a front cover 2013 and a rear cover 2014 are respectively installed at two ends of the vibrating core 201. The speed regulation circuit board 2042 is fixedly mounted on the front cover 2013, the single chip microcomputer driving module 205 is fixedly mounted on the rear cover 2014, and the rear cover 2014 is further provided with a charging hole.

In the implementation process of this embodiment, when the battery is sufficient, the user presses the switch component 206 on the back cover 2014, the massager enters the start state, the battery component 203 starts to supply power to the components, the motor component 202 generates vibration, and the user can adjust the strength of the massager by manually rotating the knob 2041 of the front cover 2013; or the long press of the knob 2041 enters a vibration mode, the knob 2041 is rotated to select a preset mode, and after selection, the knob 2041 is pressed again to confirm the selection; the massager enters a dormant shutdown state after running for a certain time; when the battery power is not enough, the vibrating structure 2 displays that the power is not enough, and the massager can be charged through the charging hole of the rear cover 2014.

Example 3

As shown in fig. 1 to 4, in this embodiment, a light-transmitting ring 2043, a vibration intensity tag board 2044 and other components are added on the basis of embodiment 2, and a stepless speed-regulating electric foam shaft vibration massager is provided, which includes a foam shaft 1 and a vibration structure 2, wherein the foam shaft 1 is provided with a through cavity, the vibration structure 2 is arranged in the through cavity, and the vibration structure 2 includes a vibration core 201, a motor assembly 202, a battery assembly 203 and a knob speed-regulating assembly 204; the motor assembly 202 and the battery assembly 203 are arranged in the vibration core 201, one end of the vibration core 201 is provided with a single chip microcomputer driving module 205 and a switch assembly 206, and the other end of the vibration core 201 is provided with a knob speed regulation assembly 204; the knob speed regulating component 204 comprises a knob 2041 and a speed regulating circuit board 2042 which are installed in a matching way; the single chip microcomputer driving module 205 is electrically connected with the battery assembly 203, the input end of the single chip microcomputer driving module 205 is electrically connected with the switch assembly 206 and the knob speed regulating assembly 204, and the output end of the single chip microcomputer driving module 205 is electrically connected with the input end of the motor assembly 202.

In a specific implementation process, the knob speed adjusting assembly 204 further includes a light transmitting ring 2043, and the light transmitting ring 2043 is installed between the knob 2041 and the speed adjusting circuit board 2042.

The knob speed adjusting assembly 204 further includes a vibration intensity tag plate 2044, and the vibration intensity tag plate 2044 is disposed on the end surface of the vibrating core 201.

The switch assembly 206 includes a rubber button 2061, and the rubber button 2061 is installed at the input end of the single chip microcomputer drive module 205.

The vibrating structure 2 further comprises a light guide bar 207, the light guide bar 207 is embedded in the end face of the vibrating core 201, and the input end of the light guide bar 207 is electrically connected with the output end of the single chip microcomputer driving module 205.

The motor assembly 202 comprises a permanent magnet dc motor 2021 and an eccentric block 2022, wherein the eccentric block 2022 is connected with an output shaft of the permanent magnet dc motor 2021.

The battery assembly 203 comprises a high energy density power lithium battery which is connected with the singlechip drive module 205 through a lead.

The vibration core 201 comprises an upper cover 2011 and a bottom cover 2012, the bottom cover 2012 is a cylindrical structure provided with a cavity, the single chip microcomputer driving module 205 and the switch assembly 206 are arranged in the first cavity, the battery assembly 203 and the motor assembly 202 are arranged in the second cavity, and the speed regulation circuit board 2042 is arranged in the third cavity; the upper cap 2011 fits over the second cavity of the bottom cap 2012.

A front cover 2013 and a rear cover 2014 are respectively mounted at both ends of the vibration core 201. The speed regulation circuit board 2042 is fixedly mounted on the front cover 2013, the single chip microcomputer driving module 205 is fixedly mounted on the rear cover 2014, and the rear cover 2014 is further provided with a charging hole.

In the implementation process of this embodiment, after the battery pack 203 and the motor pack 202 are installed in the second cavity of the vibrating core 201 in a matching manner, the upper cover 2011 is installed on the bottom cover 2012 by using self-tapping screws ST 2.9; after the light guide bar 207 is installed on the back surface of the back cover 2014 in a matching manner, the single chip microcomputer driving module 205 is installed on the back surface of the back cover 2014 through self-tapping screws ST2.9, the rubber button 2061 is installed on the back cover 2014 in a matching manner, and the back cover 2014 is installed on the first cavity in a matching manner through the self-tapping screws ST 2.9; after the knob 2041 and the light-transmitting ring 2043 are installed in a matched mode, and the knob speed adjusting assembly 204 is installed on the back face of the front cover 2013 in a matched mode through self-tapping screws ST2.9, the front cover 2013 is installed in the third cavity in a matched mode, and the vibration intensity tag plate 2044 is installed on the front face of the front cover 2013; the lines between the respective components are fitted, and the fitted vibration core 201 is fitted into the foam shaft 1.

In a preset program of the single chip microcomputer driving module 205, when the electric quantity of a product is sufficient, the rubber button 2061 is pressed for a long time, the light guide bar 207 emits light, the display displays the electric quantity, the vibration strength of the knob 2041 can be selected manually, or the knob 2041 can be pressed down to rotate the knob 2041 to select a preset vibration mode of the single chip microcomputer driving module 205, wherein the light transmitting ring 2043 is matched with the vibration strength label plate 2044, the color of the light transmitting ring 2043 can be changed according to the vibration strength, and the vibration strength can be selected according to the vibration strength label plate 2044; after use, the long-press rubber button 2061 is turned off; wherein the leaded light strip 207 scintillation is luminous when the electric quantity is not enough, reminds the user to charge, and the user inserts the charging wire hole of charging and can charge this massager.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not limitations to the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A stepless speed regulation electric foam shaft vibration massager comprises a foam shaft (1) and a vibration structure (2), wherein the foam shaft (1) is provided with a through cavity, and the vibration structure (2) is arranged in the through cavity, and is characterized in that the vibration structure (2) comprises a vibration core (201), a motor component (202), a battery component (203) and a knob speed regulation component (204);

the motor assembly (202) and the battery assembly (203) are arranged in the vibration core (201), one end of the vibration core (201) is provided with a single chip microcomputer driving module (205) and a switch assembly (206), and the other end of the vibration core (201) is provided with a knob speed regulation assembly (204);

the knob speed regulation component (204) comprises a knob (2041) and a speed regulation circuit board (2042) which are installed in a matched mode;

the single chip microcomputer driving module (205) is electrically connected with the battery assembly (203), the input end of the single chip microcomputer driving module (205) is electrically connected with the switch assembly (206) and the knob speed regulating assembly (204), and the output end of the single chip microcomputer driving module (205) is electrically connected with the input end of the motor assembly (202).

2. The variable speed electric foam shaft vibrating massager of claim 1, wherein the knob speed regulating assembly (204) further comprises a light transmitting ring (2043), and the light transmitting ring (2043) is installed between the knob (2041) and the speed regulating circuit board (2042).

3. The stepless speed regulation electric foam shaft vibration massager as claimed in claim 1, wherein the knob speed regulation assembly (204) further comprises a vibration intensity tag board (2044), and the vibration intensity tag board (2044) is arranged on the end face of the vibration core (201).

4. The variable speed electric foam shaft vibrating massager of claim 1 wherein the switch assembly (206) comprises a rubber button (2061), the rubber button (2061) being mounted at the input of the single chip microcomputer drive module (205).

5. The vibrating massager with stepless speed regulation electric foam shaft as claimed in claim 1, wherein the vibrating structure (2) further comprises a light guide bar (207), the light guide bar (207) is embedded in the end surface of the vibrating core (201), and the input end of the light guide bar (207) is electrically connected with the output end of the singlechip drive module (205).

6. The variable speed motor-driven foam shaft vibrating massager of claim 1 wherein the motor assembly (202) comprises a permanent magnet direct current motor (2021) and an eccentric mass (2022), and the eccentric mass (2022) is connected with an output shaft of the permanent magnet direct current motor (2021).

7. The variable speed electric foam shaft vibrating massager of claim 1, wherein the battery assembly (203) comprises a high energy density power lithium battery connected with the single chip microcomputer driving module (205) through a wire.

8. The vibrating massager with stepless speed regulation electric foam shaft as claimed in claim 1, wherein the vibrating core (201) comprises an upper cover (2011) and a bottom cover (2012), the bottom cover (2012) is a cylindrical structure with a cavity, the single chip microcomputer driving module (205) and the switch assembly (206) are arranged in a first cavity, the battery assembly (203) and the motor assembly (202) are arranged in a second cavity, and the speed regulation circuit board (2042) is arranged in a third cavity; the upper cover (2011) is fittingly installed at the second cavity of the bottom cover (2012).

9. The vibrating masseur with stepless speed regulation electric foam shaft as claimed in claim 1, wherein the vibrating core (201) is provided with a front cover (2013) and a rear cover (2014) at its two ends.

10. The vibrating massager with stepless speed regulation electric foam shafts as claimed in claim 9, wherein the speed regulation circuit board (2042) is fixedly mounted on the front cover (2013), the single chip microcomputer driving module (205) is fixedly mounted on the rear cover (2014), and the rear cover (2014) is further provided with a charging hole.

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