CN215025327U - Wearable LED physiotherapy device - Google Patents

Wearable LED physiotherapy device Download PDF

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Publication number
CN215025327U
CN215025327U CN202120299380.9U CN202120299380U CN215025327U CN 215025327 U CN215025327 U CN 215025327U CN 202120299380 U CN202120299380 U CN 202120299380U CN 215025327 U CN215025327 U CN 215025327U
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module
led physiotherapy
led
control circuit
physiotherapy
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CN202120299380.9U
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Chinese (zh)
Inventor
张强
易彬
成富保
江霁
郝冰
龚美花
温小兰
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Qiyun Technology Shenzhen Co ltd
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Qiyun Technology Shenzhen Co ltd
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Abstract

The utility model discloses a wearable LED physiotherapy device, a method and a storage medium, wherein the device comprises a line control switch control circuit and a bendable or foldable LED physiotherapy module, and the line control switch control circuit controls and operates the LED physiotherapy module; the control operation comprises control of the LED physiotherapy module to be opened, closed and adjusted, pulse and adjustment of the LED physiotherapy module are carried out, the LED physiotherapy module is subjected to stroboflash, timing and light color switching and adjustment, and the LED physiotherapy module is subjected to at least one of indirect stroboflash. The utility model discloses can realize functions such as switching, closing, timing, photochromic switch, and wearable each parts of health such as eye, arm, foot, waist, shoulder, head, convenient to use can satisfy consumer's user demand.

Description

Wearable LED physiotherapy device
Technical Field
The utility model relates to an apparatus technical field relates to a wearable LED physiotherapy device particularly.
Background
The LED physiotherapy device adopts the photodynamic principle to activate deep cells and better metabolize skin. After the light is absorbed by the skin, the light energy is converted into the energy in the cells, the micro-blood vessels are dilated and strengthened, the photochemical reaction-enzymatic reaction is generated between the light energy and the skin, the content of glycogen and protein is increased, and therefore the metabolism and the synthesis of the cells are promoted. The special photons emitted by the LED physical therapy device have the functions of physical therapy and beauty for local skin of a human body, promoting metabolism and circulation of subcutaneous tissues, increasing collagen, accelerating repair of damaged tissues, relieving pain, accelerating cell renewal and repair, and playing a role in beauty and physical therapy.
However, most of the traditional LED physiotherapy devices are handheld or fixed irradiation type, so that the use is very inconvenient, and hands are required to be specially vacated to hold the traditional LED physiotherapy devices when the traditional LED physiotherapy devices are used, or the traditional LED physiotherapy devices are required to be fixed at a certain position and are inconvenient to move and use. And the traditional LED physiotherapy device is generally single in control mode, usually only emits light to irradiate or stop irradiating, and can not better meet the use requirements of consumers.
SUMMERY OF THE UTILITY MODEL
In order to overcome the defects of the prior art, the utility model aims to provide a wearable LED physiotherapy device, which solves the problem that the traditional LED physiotherapy device is inconvenient to use and can not meet the use requirements of consumers.
The purpose of the utility model is realized through the following technical scheme:
a wearable LED physiotherapy device comprises a line control switch control circuit and a bendable or foldable LED physiotherapy module, wherein the line control switch control circuit is connected with the LED physiotherapy module and is used for controlling and operating the LED physiotherapy module; the control operation comprises control of the LED physiotherapy module to be opened, closed and adjusted, pulse and adjustment of the LED physiotherapy module are carried out, the LED physiotherapy module is subjected to stroboflash, timing and light color switching and adjustment, and the LED physiotherapy module is subjected to at least one of indirect stroboflash.
Furthermore, the LED physiotherapy module adopts a lamp body structure which can be bent or folded at 360 degrees, and the light source adopted by the LED physiotherapy module has the light emitting wavelength of 460 and 940 nm.
Further, drive-by-wire switch control circuit includes button control circuit, step-down circuit, MCU main control chip, GGB indicating circuit and on-off control circuit, button control circuit is connected with MCU main control chip, MCU main control chip is right through the on-off control circuit LED physiotherapy module carries out control operation, and input power passes through the step-down circuit and is connected with MCU main control chip, MCU main control chip with GGB indicating circuit connects.
The wireless control circuit comprises a transmitting control module and a receiving control module matched with the transmitting control module for use, the transmitting control module is in communication connection with the receiving control module, and the receiving control module is in communication connection with the MCU main control chip.
Compared with the prior art, the utility model discloses following beneficial effect has:
the utility model discloses a drive-by-wire on-off control circuit is right LED physiotherapy module carries out control operation, can realize function such as opening, closing, timing, photochromic switching, and wearable in each parts of health such as eye, arm, foot, waist, shoulder, head, carries out local physiotherapy or whole body physiotherapy, and it is very little to occupy the volume after folding, the packing and the transportation of being convenient for, and convenient to use has satisfied consumer's user demand.
Further, the utility model discloses input power supply accessible step-down circuit is connected with MCU main control chip, makes the utility model discloses both can use portable power source "treasured that charges" power supply, also can use power adapter to supply power, provide convenience for the consumer. Further, carry out wireless remote control through wireless control circuit, make the utility model discloses both can carry out wireless remote control and also can carry out button control, further made things convenient for consumer's use.
Drawings
Fig. 1 is a schematic view of a wearable LED physiotherapy apparatus according to an embodiment of the present invention;
fig. 2 is a schematic diagram of a frame of a line-controlled switch control circuit according to an embodiment of the present invention
Fig. 3a is a schematic diagram of a MCU master control chip according to an embodiment of the present invention;
fig. 3b is a schematic diagram of a voltage step-down circuit according to an embodiment of the present invention;
fig. 3c is a schematic diagram of an GGB indicating circuit according to an embodiment of the present invention;
fig. 3d is a schematic diagram of a switch control circuit according to an embodiment of the present invention;
fig. 3e is a schematic diagram of a key control circuit according to an embodiment of the present invention;
fig. 4 is a schematic diagram illustrating a nano waterproof layer of a wearable LED physiotherapy device according to an embodiment of the present invention;
fig. 5 is a schematic view illustrating a wearable LED physiotherapy device folded into a hat for head physiotherapy according to an embodiment of the present invention;
fig. 6 is a schematic view illustrating a wearable LED physiotherapy device according to an embodiment of the present invention folded to form a phototherapy neck guard;
fig. 7 is a schematic view illustrating a wearable LED physiotherapy device according to an embodiment of the present invention folded to be used as a phototherapy eyeshade;
fig. 8 is a schematic view illustrating a wearable LED physiotherapy device according to an embodiment of the present invention folded to form a phototherapy waistband;
fig. 9 shows a packaging schematic of an apparatus adopted in a wearable LED physiotherapy method according to another embodiment of the present invention;
fig. 10 is a schematic diagram of a launch control module according to an embodiment of the present invention;
fig. 11 is a schematic flow chart illustrating a wearable LED physiotherapy method according to another embodiment of the present invention;
fig. 12 is a schematic diagram of an electronic device according to another embodiment of the present invention;
10, a line control switch control circuit; 20. an LED physiotherapy module; 11. the MCU main control chip; 12. a switch control circuit; 13. GGB denotes a circuit; 14. a voltage reduction circuit; 15. and a key control circuit.
Detailed Description
The present invention will be described in further detail with reference to the following drawings and specific embodiments.
The first embodiment is as follows:
referring to fig. 1, a wearable LED physiotherapy device according to an embodiment of the present invention is shown, including a switch-by-wire control circuit 10 and a bendable or foldable LED physiotherapy module 20, where the switch-by-wire control circuit 10 is connected to the LED physiotherapy module 20, and the switch-by-wire control circuit 10 controls and operates the LED physiotherapy module 20; the control operation comprises controlling the LED physiotherapy module 20 to be opened, closed and adjusted the pulse of the LED physiotherapy module 20, adjusting the stroboscopic of the LED physiotherapy module 20, right the LED physiotherapy module 20 is timed, the light color of the LED physiotherapy module 20 is switched and the LED physiotherapy module 20 is adjusted to perform at least one of indirect stroboscopic.
Optionally, the LED physiotherapy module 20 adopts a lamp body structure capable of being bent or folded at 360 degrees, and the light source adopted by the LED physiotherapy module 20 has a light emission wavelength of 460 and 940 nm.
In practical application, the lamp body structure capable of being bent or folded by 360 degrees can adopt an LED physiotherapy lamp strip with a 360-degree bending or folding function (it should be noted that the lamp strip is formed by assembling an LED lamp on a strip-shaped FPC flexible circuit board). The physiotherapy can be irradiated at any angle and position through 360-degree bending or folding, and the use of consumers is facilitated.
As specific embodiment, the utility model discloses a when the device was used on the product, its structure can specifically include flexible bottom surface, the flexible lamp plate of LED, flexible surface, flexible border, control circuit board, button, DC seat. The control circuit board is provided with a line control switch control circuit 10 connected with a key, the LED physiotherapy module 20 comprises an LED flexible lamp panel, the bottom surface, the edge and the surface of the LED flexible lamp panel are respectively provided with a flexible bottom surface, a flexible edge and a flexible surface, and the LED flexible lamp panel is powered by a DC base input power supply connected with the LED flexible lamp panel.
Optionally, the utility model discloses a device still can include the nanometer waterproof layer, and the nanometer waterproof layer can refer to figure 4 and show, through set up the nanometer waterproof layer on the device surface, possesses waterproof ability, can prevent that human sweat from producing the corruption to the product.
In specific application, the utility model discloses owing to have 360 crooked or folding lamp body structures, can fold or crooked, can fold into many shapes for multiple physiotherapy uses, for example shapes such as phototherapy eye-shade, phototherapy neck band, phototherapy waistband, aesthetic therapy area. When the cap is folded to be in a cap shape and can be applied to head physiotherapy, fig. 5 shows an application schematic diagram that the cap is folded to be in a cap shape and can be implanted into the cap, and the cap is folded to be used for head physiotherapy. FIG. 6 shows a schematic view of the device of the present invention folded to form a phototherapy neck band; fig. 7 shows a schematic view of the device of the present invention folded to act as a phototherapy eyeshade; fig. 8 shows a schematic view of the device of the present invention folded to form a phototherapy waistband.
The utility model discloses a product can be applied to the beauty of people or animal health physiotherapy, and the special wavelength photon of 460 + 940nm scope that LED physiotherapy module 20 sent can carry out the physiotherapy beauty to local skin of human body, has the function that promotes subcutaneous tissue metabolic cycle, increases collagen, accelerates damaged tissue restoration, alleviates pain and accelerate cell renewal restoration, plays cosmetic and physiotherapy effect.
It should be noted that the light source of the LED physiotherapy module 20 adopts a special waveband LED lamp with a light emitting wavelength within the range of 460-.
Referring to fig. 2, a frame schematic diagram of the switch-by-wire control circuit 10 is shown, and includes a key control circuit 15, a voltage reduction circuit 14, an MCU main control chip 11, an GGB indication circuit 13, and a switch control circuit 12, where the key control circuit 15 is connected to the MCU main control chip 11, the MCU main control chip 11 controls and operates the LED physiotherapy module 20 through the switch control circuit 12, an input power supply is connected to the MCU main control chip 11 through the voltage reduction circuit 14, and the MCU main control chip 11 is connected to the GGB indication circuit 13.
As a specific application example, the schematic diagrams of the switch-by-wire control circuit 10 of the present invention can be shown with reference to fig. 3a to 3 e.
Specifically, fig. 3a shows the utility model provides a schematic diagram of MCU main control chip 11, wherein, MCU main control chip 11 adopts singlechip GC87T07S chip, and the 7 th pin, 6 th pin, the 5 th pin of singlechip GC87T07S chip are the pulse control end of singlechip GC87T07S chip respectively, all are connected with on-off control circuit 12's input for control LED of various photochromic in the LED physiotherapy module 20.
Fig. 3b is a schematic diagram of a voltage step-down circuit 14 according to an embodiment of the present invention; the anode of an input power supply is sequentially connected with one end of a resistor R6 and a power supply input end of a chip LOOH7233SOT-89-3, an output end of the chip LOOH7233SOT-89-3 is used for power supply output, the other end of the resistor R6 is connected with the ground through a capacitor C5, the power supply input end of the chip LOOH7233SOT-89-3 is connected with the ground through a capacitor C3, and the output end of the chip LOOH7233SOT-89-3 is connected with the ground through a capacitor C4.
Fig. 3c is a schematic diagram of an GGB indicating circuit 13 according to an embodiment of the present invention; wherein, GGB indicating circuit 13 figure contains a plurality of pilot lamp group, and each pilot lamp group contains a plurality of emitting diode.
Fig. 3d is a schematic diagram of a switch control circuit 12 according to an embodiment of the present invention; the pulse control end of the chip of the single chip microcomputer GC87T07S is respectively connected with an MOS (metal oxide semiconductor) tube and connected with LED lamps with various light colors through the MOS tube to control the on-off of the LED lamps. In fig. 3d, a red lamp, an infrared lamp of 850nm and an infrared lamp of 830nm are shown, respectively, emitting light at a wavelength of 660 nm.
Fig. 3e is a schematic diagram of a key control circuit 15 according to an embodiment of the present invention; the power supply 5V is connected with the ground through a resistor R8 and a resistor R2 in sequence and a capacitor C2, and the power supply 5V is connected with the key switch S1 and then grounded through a resistor R8 and a resistor R2 in sequence.
It should be understood that the circuit diagrams shown in fig. 3a-3e of the present invention are not intended to be limiting, but merely exemplary, to the switch-by-wire control circuit 10 of the present invention.
Optionally, the utility model provides a pair of wearable LED physiotherapy device includes wireless control circuit, wireless control circuit includes transmission control module and the supporting receipt control module who uses with transmission control module, transmission control module and receipt control module communication connection, receipt control module and 11 communication connection of MCU main control chip.
Specifically, the transmission control module may be as shown in fig. 10, and includes a first resistor and a second resistor, a first transistor connected in series with the first resistor, a second transistor connected in series with the first transistor, and a first capacitor, a second capacitor, a third capacitor, and a fourth capacitor connected in series or in parallel with the second transistor, where the first capacitor is connected to the antenna, and the first transistor and the fourth capacitor are grounded.
When the transmitting control module sends an instruction signal for opening or closing the channel, the receiving control module transmits the instruction signal to the MCU main control chip 11 after receiving the instruction sent by the transmitting control module to open the channel, and the MCU main control chip 11 controls the channel according to the instruction signal.
Example two:
the utility model discloses a wearable LED physiotherapy method is applied to wearable LED physiotherapy controlling means, wearable LED physiotherapy controlling means includes drive-by-wire switch control circuit 10 and LED physiotherapy module 20, drive-by-wire switch control circuit 10 includes MCU main control chip 11 and on-off control circuit 12, MCU main control chip 11 switches on or cuts off through on-off control circuit 12 control load interface, key control circuit 15 includes key switch and key switch peripheral circuit, LED physiotherapy module 20 includes the LED physiotherapy lamp of one or more photochromic, please refer to figure 11 and show, include:
step S1, after the power is on, the MCU main control chip 11 responds to the key operation of the key switch;
and step S2, when the key switch is pressed down, the MCU main control chip 11 controls the on/off of the load interface to control the LED physiotherapy lamp.
Specifically, the control operation includes controlling the LED physiotherapy module 20 to open, close, adjust the pulse of the LED physiotherapy module 20, adjust the stroboscopic of the LED physiotherapy module 20, right the LED physiotherapy module 20 performs timing, right the light color of the LED physiotherapy module 20 switches, adjusts the LED physiotherapy module 20 performs at least one of indirect stroboscopic.
Specifically, when key switch is pressed, the step of controlling the operation of the LED physiotherapy lamp by turning on or off the load interface controlled by the MCU main control chip 11 specifically includes:
step A, when the key switch is pressed down, the MCU main control chip 11 controls the LED physiotherapy lamps with one or more light colors to be turned on completely;
step B, when the key switch is pressed down again, controlling a red light with the wavelength of 660nm to be on through the MCU main control chip 11;
step C, when the key switch is pressed down again, the infrared lamp with the wavelength of 850nm and the infrared lamp with the wavelength of 830nm are controlled to be simultaneously on through the MCU main control chip 11;
step D, when the key switch is pressed again, the MCU main control chip 11 controls all the LED physiotherapy lamps to be turned off; and returning to the step A.
In the specific implementation process, when the circuit is electrified, the key switch LED indicator lamp is turned on in green, the first key switch LED indicator lamp is turned on in green and the load interface is turned on in full, the LED lamp is turned on in full, the second key switch LED indicator lamp is turned on in green, the MOS transistor Q1 controlled by the second foot of the single chip microcomputer is turned on, 660nm is turned on in red, when the third key switch is pressed, the third foot of the single chip microcomputer controls the MOS transistor Q2, the second load interface is switched on, 850nm is turned on in infrared, the MOS transistor Q3 controlled by the fourth foot of the single chip microcomputer is turned on, the third load interface is switched on, and 830nm is turned on in infrared. And pressing the fourth key switch to turn off the indicator light, turning off all the first load interface, the second load interface and the third load interface, and turning off all the LED lights.
Optionally, the method of the present invention further comprises:
when the key switch is pressed for a first set time, the MCU main control chip 11 controls all stroboscopic of the LED physiotherapy lamp with one or more light colors;
when the key switch is pressed for the first time after being pressed for the first set time for a long time, the red light stroboscopic with the wavelength of 660nm is controlled by the MCU main control chip 11;
when the key switch is pressed for the second time after being pressed for the first set time for a long time, the infrared lamp stroboscopic with the wavelength of 850nm and 830nm is controlled by the MCU main control chip 11;
and C, when the key switch is pressed for the third time after being pressed for the first set time for a long time, controlling all the LED physiotherapy lamps to be on through the MCU main control chip 11, and returning to the step A.
In a specific implementation process, the first set time can be set to 3 seconds, when the circuit is powered on, the key switch indicates that a green light is on, the key switch is pressed for 3 seconds for a long time, the key switch indicates that a blue light is on, meanwhile, the first load interface, the second load interface and the third load interface are all fully opened, the LED physiotherapy light with one or more light colors is all strobed and fully blinked, for example, the LED physiotherapy light can blink at 10 Hz, the key switch is pressed again, the MOS tube Q1 is turned on, 660nm red light flashes at 10 Hz, the key switch is pressed again, the first load interface and the second load interface are turned on, the MOS tube Q2 and the MOS tube Q3 are turned on, 850nm infrared and 830nm infrared 10 Hz flashes again, and the first load interface, the second load interface and the third load interface are all turned off. And C, pressing for a short time again, enabling the LED physiotherapy lamps with one or more light colors to return to a full-bright and non-flickering state, and returning to the step A.
Optionally, the method of the present invention further comprises:
after the key switch is pressed for a third set time, the MCU main control chip 11 controls all the LED physiotherapy lamps to be turned off.
In a specific implementation process, the third set time may be set to 20 minutes, and the operation is stopped after the timing is started for 20 minutes. The timing starts from the start of the lamp, the timing is carried out after non-electrification, the lighting timing is started after the key switch is pressed for 20 minutes, and the device stops working.
Optionally, the method of the present invention further comprises:
when the LED physiotherapy lamp with any one light color is on, after the key switch is pressed for a second set time, the MCU main control chip 11 controls the LED physiotherapy lamp with the light color to strobe; when the key switch is pressed for a second set time and then pressed, the MCU main control chip 11 controls the LED physiotherapy lamp with the other light color to strobe; when the key switch is pressed each time after being pressed for a long time for the second set time, the LED physiotherapy lamp with the flash color different from that of the last time is controlled by the MCU main control chip 11 to carry out stroboflash.
In a specific implementation process, the second set time may be set to 3s, and when any one of the lamps is normally on, the indicator lamp is pressed for 3 seconds, the indicator lamp is turned on to flash the lamp with the color of the light, and when the indicator lamp is pressed again, the indicator lamp is switched to another light color to flash.
The following description is given by way of specific examples:
the utility model discloses a device encapsulation schematic diagram that the method adopted please refer to fig. 9, have timing, LED instruction and control three routes load output function, as follows the table:
table: schematic diagram of device output function
Figure BDA0002930015430000121
Figure BDA0002930015430000131
Example three:
fig. 12 is a schematic structural diagram of an electronic device according to an embodiment of the present application, and an electronic device 100 for implementing a wearable LED physiotherapy method according to the present application can be described with reference to the schematic diagram shown in fig. 12.
As shown in fig. 12, an electronic device 100 includes one or more processors 102, one or more memory devices 104, and the like, which are interconnected via a bus system and/or other type of connection mechanism (not shown). It should be noted that the components and structure of the electronic device 100 shown in fig. 12 are only exemplary and not limiting, and the electronic device may have some of the components shown in fig. 12 and may have other components and structures not shown in fig. 12 as needed.
The processor 102 may be a Central Processing Unit (CPU) or other form of processing unit having data processing capabilities and/or instruction execution capabilities, and may control other components in the electronic device 100 to perform desired functions.
The storage 104 may include one or more computer program products that may include various forms of computer-readable storage media, such as volatile memory and/or non-volatile memory. The volatile memory may include, for example, Random Access Memory (RAM), cache memory (cache), and/or the like. The non-volatile memory may include, for example, Read Only Memory (ROM), hard disk, flash memory, etc. On which one or more computer program instructions may be stored that may be executed by processor 102 to implement the functions of the embodiments of the application (as implemented by the processor) described below and/or other desired functions. Various applications and various data, such as various data used and/or generated by the applications, may also be stored in the computer-readable storage medium.
The utility model discloses still provide a computer storage medium, its storage has the computer program on, the utility model discloses a method if realize and sell or when using as independent product with the form of software function unit, can save in this computer storage medium. Based on such understanding, the present invention can also implement all or part of the processes in the methods of the above embodiments by using a computer program to instruct related hardware, where the computer program can be stored in a computer storage medium, and when the computer program is executed by a processor, the steps of the above embodiments of the methods can be implemented. Wherein the computer program comprises computer program code, which may be in the form of source code, object code, an executable file or some intermediate form, etc. The computer storage medium may include: any entity or device capable of carrying the computer program code, recording medium, usb disk, removable hard disk, magnetic disk, optical disk, computer Memory, Read-Only Memory (ROM), Random Access Memory (RAM), electrical carrier wave signals, telecommunications signals, software distribution medium, and the like. It should be noted that the computer storage media may include content that is subject to appropriate increase or decrease as required by legislation and patent practice in jurisdictions, for example, in some jurisdictions, computer storage media that does not include electrical carrier signals and telecommunications signals as subject to legislation and patent practice.
The embodiment of the present invention is not limited to this, according to the above-mentioned content of the present invention, the common technical knowledge and the conventional means in the field are utilized, without departing from the basic technical idea of the present invention, the present invention can also make other modifications, replacements or changes in various forms, all falling within the protection scope of the present invention.

Claims (4)

1. A wearable LED physiotherapy device is characterized by comprising a line control switch control circuit and a bendable or foldable LED physiotherapy module, wherein the line control switch control circuit is connected with the LED physiotherapy module and used for controlling the LED physiotherapy module; the control operation comprises control of the LED physiotherapy module to be opened, closed and adjusted, pulse and adjustment of the LED physiotherapy module are carried out, the LED physiotherapy module is subjected to stroboflash, timing and light color switching and adjustment, and the LED physiotherapy module is subjected to at least one of indirect stroboflash.
2. The wearable LED physiotherapy device of claim 1, wherein the LED physiotherapy module is a lamp body structure that can be bent or folded by 360 degrees, and the light source of the LED physiotherapy module has a light emission wavelength of 460 and 940 nm.
3. The wearable LED physiotherapy device of claim 1, wherein the drive-by-wire switch control circuit comprises a key control circuit, a voltage reduction circuit, an MCU main control chip, an GGB indicating circuit and a switch control circuit, the key control circuit is connected with the MCU main control chip, the MCU main control chip controls the LED physiotherapy module to operate through the switch control circuit, the input power supply is connected with the MCU main control chip through the voltage reduction circuit, and the MCU main control chip is connected with the GGB indicating circuit.
4. The wearable LED physiotherapy device of claim 3, further comprising a wireless control circuit, wherein the wireless control circuit comprises an emission control module and a reception control module used in cooperation with the emission control module, the emission control module is in communication connection with the reception control module, and the reception control module is in communication connection with the MCU main control chip.
CN202120299380.9U 2021-02-02 2021-02-02 Wearable LED physiotherapy device Ceased CN215025327U (en)

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CN202120299380.9U CN215025327U (en) 2021-02-02 2021-02-02 Wearable LED physiotherapy device

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