Photon therapy controller, therapy assembly and therapy garment
By integrating photon therapy lamps and EMS conductive fabric into clothing, the problems of inconvenient portability of photon therapy equipment and limited functionality of health care clothing are solved, enabling convenient photon therapy and electrical stimulation training and improving the user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIMAISI TECH CO LTD
- Filing Date
- 2025-04-22
- Publication Date
- 2026-06-26
AI Technical Summary
Existing photon therapy equipment is bulky and inconvenient to carry, requires professional operation, and is difficult to be widely used in daily life. In addition, existing health care clothing has limited functions and poor comfort.
The phototherapy lamp with photon therapy function is integrated into everyday clothing and combined with EMS conductive fabric to provide convenient photon therapy and electrical stimulation training. It can be portable and operated autonomously through a controller.
This improves the convenience and practicality of photon therapy, allowing users to receive photon therapy and EMS electrical stimulation training anytime, anywhere, thus enhancing the user experience.
Smart Images

Figure CN224404196U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of photon therapy clothing technology, and in particular to a photon therapy controller, therapy components and therapy clothing. Background Technology
[0002] In today's fast-paced life, people are paying increasing attention to health and beauty, and also desire to achieve efficient relaxation and maintenance of their bodies within a limited time. Traditional beauty and health care methods, such as massage and hot compresses, can provide some soothing effects, but they often require a significant investment of time and energy, and the results vary from person to person. Furthermore, these methods usually need to be performed in professional settings, making them difficult for most people to use in their daily lives.
[0003] With the continuous advancement of technology, photon therapy has gradually come into people's view. Photon therapy is a technology that uses light of specific wavelengths to act on the human body to achieve effects such as promoting blood circulation, relieving pain, and beautifying the skin. Through the thermal effect and biostimulation of light energy, it can effectively improve local tissue blood circulation, promote metabolism, and relieve muscle fatigue, showing significant improvement effects on some common physical discomforts and skin problems. However, most existing photon therapy devices are large and inconvenient to carry and use, limiting their widespread application in daily life. In addition, these devices usually require professional operators, making it difficult for ordinary users to operate them themselves, which also limits the popularization of photon therapy technology to some extent. In the clothing industry, although there are some underwear and fitness clothing with health functions on the market, these products mostly suffer from problems such as complex structure, discomfort when worn, and unclear functional effects.
[0004] In conclusion, there is currently a lack of health clothing products on the market that can combine photon therapy technology with everyday wear, while also being convenient, comfortable, and multifunctional. Therefore, developing photon therapy beauty clothing that can meet users' diverse needs in beauty and health care and can be used anytime in daily life has significant practical implications and broad market prospects. Utility Model Content
[0005] The purpose of this invention is to provide a photon therapy controller, a therapy component, and a therapy garment. This invention integrates a therapy lamp with photon therapy function into everyday clothing, allowing users to receive photon therapy anytime and anywhere during daily activities to promote blood circulation, relieve pain, and improve skin condition, greatly improving ease of use and practicality. At the same time, it can also integrate EMS conductive fabric, allowing users to receive EMS electrical stimulation training while receiving photon therapy, improving the user experience.
[0006] To achieve the above objectives, the following technical solution is adopted:
[0007] A photon therapy controller includes a mounting bracket assembly and a control housing. The mounting bracket assembly includes a supporting base plate, a conductive post PCBA board disposed on one side of the supporting base plate, and a mounting seat connected to one side of the supporting base plate and pressing and limiting the conductive post PCBA board. The control housing houses a spring-loaded PCBA board, a battery, and a control main board. The spring-loaded PCBA board and the battery are respectively connected to the control main board. The mounting seat also has a first slot, and the control housing is also equipped with a latching assembly that cooperates with the first slot. The mounting seat is detachably mounted on the control housing via the first slot and the latching assembly. The control housing has a first connecting hole corresponding to the spring-loaded PCBA board, and the mounting seat has a second connecting hole corresponding to the first connecting hole. The spring-loaded pins on the spring-loaded PCBA board pass through the first connecting hole and the second connecting hole in sequence and connect to the conductive post PCBA board.
[0008] Furthermore, a first connecting groove is provided on one side of the buckle seat, and a first locking hole is also provided in the upper part of the first connecting groove; a first locking block extends from the top inner wall of the first connecting groove into the first connecting groove, and the first locking block and the first locking hole form a first locking groove; a first protrusion is provided on one side of the control housing corresponding to the first connecting groove, and the first protrusion is used to engage in the first connecting groove.
[0009] Furthermore, a first through hole is provided at the upper part of the first protrusion corresponding to the first slot, extending into the control housing; the buckle assembly includes a disassembly switch and a spring; the disassembly switch includes a first connecting plate and a second connecting plate, both of which are L-shaped; one side of the L-shaped vertical end of the first connecting plate is integrally connected to the L-shaped horizontal end of the second connecting plate; the inner wall of the control housing is also connected to a first limiting post, and the bottom of the L-shaped horizontal end of the first connecting plate is also connected to a first limiting block at the position corresponding to the first limiting post, with the spring connecting between the first limiting block and the first limiting post; a disassembly button is also installed at the top of the L-shaped horizontal end of the first connecting plate, and the disassembly button moves through the control housing and extends outward; the bottom of the L-shaped vertical end of the second connecting plate is provided with a first hook that matches the first slot, and the first hook moves through the first through hole; the buckle seat is detachably installed on the control housing via the first slot and the first hook.
[0010] Furthermore, a first limiting groove is provided at the bottom of the first limiting block, and the spring is arranged in the first limiting groove; a clearance notch is also provided at the connection between the first connecting plate and the second connecting plate, and the first limiting post is arranged through the clearance notch; the outer wall of the first limiting block and the L-shaped vertical end of the first connecting plate are both provided with guide sliding holes that penetrate into the first limiting groove in the vertical direction, and the two guide sliding holes are arranged opposite to each other; the outer wall of the first limiting post is also connected to a first guide plate inserted into the guide sliding hole, and the bottom of the spring abuts against the top of the first guide plate.
[0011] Furthermore, the control housing is also equipped with a power switch, a power increase switch, a power decrease switch, and a charging interface.
[0012] Furthermore, the control housing includes a control bottom shell and a control top shell detachably connected to the control bottom shell; the spring pin PCBA board, battery and control main board are sequentially installed inside the control bottom shell; a display screen is also installed on the outer wall of the control top shell.
[0013] A photon therapy component includes the controller described above, and also includes a therapy lamp connected to the controller.
[0014] Furthermore, the physiotherapy lamp includes a lamp housing, a lamp board, and a lamp shade; a first mounting groove is provided on one side of the lamp housing, and the lamp board is installed in the first mounting groove; the lamp shade is detachably connected to one side of the lamp housing and covers the front of the lamp board; a number of lamp beads are arranged in an array on the front of the lamp board, and a lens is provided on the lamp shade corresponding to the lamp beads to enclose the lamp beads; a magnetic buckle is also installed on the lamp board, and a wiring hole is provided on the lamp shade corresponding to the magnetic buckle; a protective skin is also attached to the back of the lamp board.
[0015] A photon therapy garment includes a garment body and the aforementioned photon therapy components; the controller and the therapy lamp are detachably mounted on the garment body, and the side of the therapy lamp used for emitting light is arranged facing the inside of the garment body.
[0016] Furthermore, an EMS conductive fabric connected to the controller is also installed on the inner side of the garment body.
[0017] By adopting the above solution, the beneficial effects of this utility model are:
[0018] This invention integrates a phototherapy lamp with photon therapy function into everyday clothing, allowing users to receive photon therapy anytime and anywhere during daily activities to promote blood circulation, relieve pain, and improve skin condition, greatly improving ease of use and practicality. At the same time, it can also integrate EMS conductive fabric, allowing users to receive EMS electrical stimulation training while receiving photon therapy, improving the user experience. Attached Figure Description
[0019] Figure 1 This is a schematic diagram of the controller of this utility model;
[0020] Figure 2 This is an exploded view of the buckle assembly of this utility model;
[0021] Figure 3 This is an exploded view of the control housing of this utility model;
[0022] Figure 4 This is a schematic diagram of the control base shell of this utility model;
[0023] Figure 5 A schematic diagram of the structure for controlling one viewpoint of the housing;
[0024] Figure 6 This is an exploded view of the physiotherapy lamp of this utility model;
[0025] Figure 7 This is a schematic diagram of the fabric structure of yoga pants in one embodiment;
[0026] Figure 8 This is a schematic diagram of the structure of the present invention applied to yoga pants in one embodiment;
[0027] The following are explanations of the labels in the attached diagram:
[0028] 1. Buckle assembly; 2. Control housing; 3. Spring pin PCBA board; 4. Battery; 5. Control main board; 6. Disassembly switch; 7. Spring; 8. Therapeutic lamp; 9. Garment body; 11. Support base plate; 12. Conductive post PCBA board; 13. Buckle seat; 21. First connecting hole; 22. First boss; 23. First limiting post; 24. Power switch; 25. Power increase switch; 26. Power decrease switch; 27. Charging interface; 28. Control bottom shell; 29. Control top shell; 20. Display screen; 61. First connecting plate; 62. Second connecting plate; 63. First limiting block; 64. Removal button; 65. First hook; 66. Alignment notch; 67. First guide plate; 68. First through hole; 81. Lamp housing; 82. Lamp board; 83. Lamp shade; 84. Lens; 85. Magnetic buckle; 86. Protective skin; 87. Anti-electric shock tape; 91. EMS conductive cloth; 131. Second connecting hole; 132. First connecting groove; 133. First locking hole; 134. First locking block; 135. Second locking hole; 221. Protrusion; 222. Guide block; 223. Stop block. Detailed Implementation
[0029] The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.
[0030] Reference Figures 1 to 8As shown, this utility model provides a photon therapy controller. In one embodiment, it includes a mounting bracket 1 and a control housing 2. The mounting bracket 1 includes a supporting base plate 11, a conductive post PCBA board 12 arranged on one side of the supporting base plate 11, and a mounting seat 13 connected to one side of the supporting base plate 11 and pressing and limiting the conductive post PCBA board 12. The control housing 2 is equipped with a spring-loaded PCBA board 3, a battery 4, and a control main board 5. The spring-loaded PCBA board 3 and the battery 4 are respectively connected to the control main board 5. The mounting seat 1... The control housing 2 is also equipped with a first slot and a buckle assembly that works in conjunction with the first slot. The buckle seat 13 is detachably mounted on the control housing 2 via the first slot and the buckle assembly. The control housing 2 is also equipped with a first connection hole 21 corresponding to the spring pin PCBA board 3, and the buckle seat 13 is also equipped with a second connection hole 131 corresponding to the first connection hole 21. The spring pins on the spring pin PCBA board 3 pass through the first connection hole 21 and the second connection hole 131 in sequence and connect to the conductive post PCBA board 12.
[0031] In this embodiment, the controller is used in conjunction with the phototherapy lamp 8, which can be installed on clothing, physiotherapy equipment, or other areas used for phototherapy. The controller is used to control the physiotherapy lamp 8 to emit light of a specific wavelength, which acts on the human body to achieve effects such as promoting blood circulation, relieving pain, and beautifying the skin.
[0032] Continue to refer to Figures 1 to 8As shown, in this embodiment, the control housing 2 is also equipped with a power switch 24 (for turning the controller on or off), a power increase switch 25, a power decrease switch 26 (the power increase and decrease switches are used for the user to adaptively adjust the phototherapy power), and a charging interface 27 (for connecting a charger to charge the battery 4); the control housing 2 includes a control bottom housing 28 and a control upper housing 29 detachably connected to the control bottom housing 28; the spring pin PCBA board 3, the battery 4, and the control main board 5 are sequentially installed inside the control bottom housing 28. Specifically, the inner wall of the control bottom housing 28 has a fixing groove. The control bottom housing 28 can be placed flat on the table with the fixing groove facing upwards, and the spring pin PCBA board 3 can be placed into the fixing groove. At the same time, it should be ensured that the spring pins on the spring pin PCBA board 3 are aligned with the first connecting hole 21 and pass through it. Then, screws are used to secure the spring pins. The PCBA board 3 is locked and fixed. Then, the battery 4 is first attached to the back of the control motherboard 5, and then they are installed together into the control bottom shell 28. The control motherboard 5 is then locked and fixed with screws. Then, the buckle assembly, power switch 24, power increase switch 25, power decrease switch 26 and charging interface 27 are installed in their respective positions (in this embodiment, the buckle assembly is installed on the top of the control shell 2, the power switch 24 is installed on one side of the control shell 2, the power increase switch 25 and power decrease switch 26 are installed on the other side of the control shell 2, and the charging interface 27 is installed on the bottom of the control shell 2). Then, the control upper shell 29 is snapped on, and then the display screen 20 is installed on the surface of the control upper shell 29 (the display screen 20 is used to display the phototherapy status, such as temperature and other information). The assembly of the control shell 2 is then completed, and the assembly is convenient.
[0033] The buckle assembly 1 can be installed on the control housing 2 via the first slot and the buckle assembly. At the same time, the spring pins on the spring pin PCBA board 3 will pass through the first connection hole 21 and the second connection hole 131 in sequence to connect with the conductive post PCBA board 12. The conductive post PCBA board 12 is used to connect with the physiotherapy lamp 8 via a cable. The control motherboard 5 transmits control signals to the physiotherapy lamp 8 via the spring pin PCBA board 3 and the conductive post PCBA board 12.
[0034] In one embodiment, a first connecting groove 132 is provided on one side of the fastening seat 13, and a first locking hole 133 is also provided in the upper part of the first connecting groove 132; a first locking block 134 extends from the top inner wall of the first connecting groove 132 inward, and the first locking block 134 and the first locking hole 133 form a first locking groove; a first protrusion 22 is provided on one side of the control housing 2 corresponding to the first connecting groove 132, and the first protrusion 22 is used to engage with the first connecting groove 132. In this embodiment, a first connecting hole 21 is provided on the first protrusion 22, and a second connecting hole 131 is provided in the first connecting groove 132.
[0035] Meanwhile, a first through hole 68 is provided on the upper part of the first protrusion 22 corresponding to the first slot, extending into the control housing 2; the buckle assembly includes a disassembly switch 6 and a spring 7; the disassembly switch 6 includes a first connecting plate 61 and a second connecting plate 62, both of which are L-shaped; one side of the L-shaped vertical end of the first connecting plate 61 is integrally connected to the L-shaped horizontal end of the second connecting plate 62; the inner wall of the control housing 2 is also connected to a first limiting post 23, and the bottom of the L-shaped horizontal end of the first connecting plate 61 corresponds to the first limiting post 23. A first limiting block 63 is also connected at the location, and a spring 7 is connected between the first limiting block 63 and the first limiting post 23; a disassembly button 64 is also installed at the top of the L-shaped horizontal end of the first connecting plate 61, and the disassembly button 64 moves through the control housing 2 and extends outward; the bottom of the L-shaped vertical end of the second connecting plate 62 is provided with a first hook 65 that matches the first slot, and the first hook 65 moves through the first through hole 68; the buckle seat 13 is detachably installed on the control housing 2 via the first slot and the first hook 65.
[0036] In this embodiment, a second locking hole 135 is also provided in the lower part of the first connecting groove 132, and a protrusion 221 extends downward from the bottom of the first boss 22. During assembly, the protrusion 221 can be inserted into the second locking hole 135 for initial positioning. Then, with the bottom of the first boss 22 as the fulcrum, the first boss 22 is rotated toward the first connecting groove 132. Then, the disassembly button 64 is pressed, so that the first hook 65 descends to the bottom of the first slot. At this time, the first boss 22 is pressed down into the first connecting groove 132. Then, the disassembly button 64 is released. Under the restoring force of the spring 7, the first hook 65 rises and locks into the first slot, thus completing the assembly. If disassembly is required, simply press the disassembly button 64 to separate the first hook 65 from the first slot, and the control housing 2 can be removed. Assembly and disassembly are convenient.
[0037] In addition, a first limiting groove is provided at the bottom of the first limiting block 63, and the spring 7 is arranged in the first limiting groove; a clearance notch 66 is also provided at the connection between the first connecting plate 61 and the second connecting plate 62, and the first limiting post 23 is arranged through the clearance notch 66; the outer wall of the first limiting block 63 and the L-shaped vertical end of the first connecting plate 61 are both provided with guide sliding holes that pass through the first limiting groove in the vertical direction, and the two guide sliding holes are arranged opposite to each other; the outer wall of the first limiting post 23 is also connected to a first guide plate 67 inserted into the guide sliding hole, and the bottom of the spring 7 abuts against the top of the first guide plate 67. When the disassembly / removal button 64 is pressed, the first guide plate 67 can slide within the guide hole to limit and guide the lifting path of the disassembly / removal switch 6. At the same time, the bottom of the first hook 65 is also connected to a guide block 222. A first limiting groove is formed between the spring pin PCBA board 3 and the fixing groove. The guide block 222 is inserted into the first limiting groove to further limit and guide the lifting path of the disassembly / removal switch 6, ensuring its smooth movement. Meanwhile, the inner wall of the control base 28 is also connected to a stop block 223. A second limiting groove is formed between the battery 4 and the stop block 223. The L-shaped vertical end of the second connecting plate 62 is arranged in the second limiting groove to further limit the disassembly / removal switch 6, ensuring its stable installation.
[0038] In one embodiment, a photon therapy component is also provided, including the controller described above, and a therapy lamp 8 connected to the controller; the therapy lamp 8 includes a lamp housing 81, a lamp plate 82, and a lamp shade 83; a first mounting groove is provided on one side of the lamp housing 81, and the lamp plate 82 is installed in the first mounting groove; the lamp shade 83 is detachably connected to one side of the lamp housing 81 and covers the front of the lamp plate 82; a plurality of lamp beads are arrayed on the front of the lamp plate 82, and a lens 84 is provided on the lamp shade 83 at the corresponding position to enclose the lamp beads; a magnetic buckle 85 is also installed on the lamp plate 82, and a wiring hole is provided on the lamp shade 83 at the corresponding position to the magnetic buckle 85; a protective skin 86 is also attached to the back of the lamp plate 82.
[0039] In this embodiment, the cables on the conductive post PCBA board can be soldered to the magnetic buckle 85 through the wiring holes to complete the connection between the controller and the physiotherapy lamp 8. The lamp housing 81 of the physiotherapy lamp 8 is made of sponge material, which has good softness, elasticity and breathability, and can effectively absorb external force to prevent damage to the lamp body. A mounting groove is opened on one side of the lamp housing 81 for mounting the lamp board 82. Several lamp beads are arranged in an array on the front of the lamp board 82. A protective skin 86 (PU skin) is attached to the back of the lamp board 82 to protect the back of the lamp board 82. The lamp shade 83 is made of transparent TPU material and is detachably connected to one side of the lamp housing 81 to cover the front of the lamp board 82. A lens 84 is provided on the lamp shade 83 at the corresponding position of the lamp beads, which can protect the lamp board 82 and allow light to pass through. In addition, an anti-electric shock tape 87 is attached to one side of the lamp shade 83 at the position corresponding to the magnetic buckle 85 to prevent the user from being shocked when removing the lamp board 82.
[0040] In one embodiment, a photon therapy garment is also provided, including a garment body 9 and the aforementioned photon therapy components; the controller and the therapy lamp 8 are detachably mounted on the garment body 9, and the side of the therapy lamp 8 used for emitting light is arranged facing the inside of the garment body 9.
[0041] Reference Figure 8 As shown, the following is a detailed explanation using the example of installing the therapy lamp 8 and controller on yoga pants (it can also be installed on tops, underwear, other types of pants, etc., there are no restrictions):
[0042] In this embodiment, the controller is installed on the upper part of the pants, and two therapeutic lamps 8 are provided, respectively arranged on both sides of the pants. First, the controller is installed. During assembly, the conductive post PCBA board 12 is placed on the support base plate 11 (the support base plate 11 has a groove, and the conductive post PCBA board 12 is placed in the groove), and then the assembled component is placed flat on the table so that the conductive post PCBA board 12 faces upward. Then, the front right side of the yoga pants is covered on the component, and then the buckle seat 13 is arranged in the front right side of the yoga pants at the position corresponding to the support base plate 11. The screws are tightened to lock the support base plate 11 and the buckle seat 13. At this time, the buckle assembly 1 is attached to the pants. Then, the assembly of the control housing 2 is completed according to the above steps. Then, according to the above steps, the buckle assembly 1 is snapped onto the control housing 2 through the first slot and the first hook 65.
[0043] Next, assemble the physiotherapy lamp 8. First, install the magnetic buckle 85 onto the lamp plate 82. Then, attach PU leather (protective leather 86) to the back of the lamp plate 82 and place the lamp plate 82 into the first mounting slot of the lamp housing 81. After that, place the lamp face up on the table and cover the lamp cover 83 on the lamp face of the assembly in the previous step, aligning the lamp beads with the lens 84 on the lamp cover 83. Then, use a machine to press and glue the edges flat and secure them, and then cut the edges as a whole. Finally, place the assembled physiotherapy lamp 8 on the corresponding position on the inner side of the back piece of the fabric and then press and glue it onto the fabric.
[0044] Next, we will connect the wires. First, solder the connecting wires onto the conductive post PCBA board and guide them to the magnetic buckle 85 on the physiotherapy lamp 8. Solder them to the corresponding positions to make the circuit conductive and turn on the lamp.
[0045] Furthermore, in a preferred embodiment, an EMS conductive cloth 91 (i.e., Electrical Muscle Stimulation conductive cloth, capable of electrically stimulating and training human muscles) connected to a controller is also installed on the inner side of the garment body 9. In this embodiment, four pieces of EMS conductive cloth 91 are provided. During assembly, they can first be pressed together in the corresponding positions on the back panel of the fabric. Then, connecting wires are soldered onto the conductive post PCBA board, and the connecting wires are guided to the corresponding soldering positions of the EMS conductive cloth for soldering, so that the circuit is conductive and the EMS conductive cloth is energized.
[0046] Finally, sew the trouser fabric together. First, sew the front lining piece from the crotch area, then sew the back crotch area of the lining. Then, put the front and back pieces together and sew the two outer and inner edges in sequence. After that, sew the outer fabric in the same way as the lining fabric. Finally, attach the elastic band to complete the assembly of the entire product.
[0047] The above are merely preferred embodiments of the present utility model and are not intended to limit the present utility model. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A photonic physiotherapy controller, characterized by, The device includes a fastener assembly and a control housing. The fastener assembly includes a support base plate, a conductive post PCBA board arranged on one side of the support base plate, and a fastening seat connected to one side of the support base plate and pressing and limiting the conductive post PCBA board. The control housing houses a spring pin PCBA board, a battery, and a control main board. The spring pin PCBA board and the battery are respectively connected to the control main board. The fastening seat also has a first slot, and the control housing is also equipped with a fastening assembly that cooperates with the first slot. The fastening seat is detachably installed on the control housing via the first slot and the fastening assembly. The control housing has a first connecting hole corresponding to the spring pin PCBA board, and the fastening seat has a second connecting hole corresponding to the first connecting hole. The spring pins on the spring pin PCBA board pass through the first connecting hole and the second connecting hole in sequence and connect to the conductive post PCBA board.
2. The photon therapy controller according to claim 1, characterized in that, The buckle seat has a first connecting groove on one side, and a first locking hole is also provided in the upper part of the first connecting groove; a first locking block extends from the top inner wall of the first connecting groove into the first connecting groove, and the first locking block and the first locking hole form a first locking groove; a first protrusion is provided on one side of the control housing corresponding to the first connecting groove, and the first protrusion is used to lock into the first connecting groove.
3. The photon therapy controller according to claim 2, characterized in that, The upper part of the first protrusion, corresponding to the first slot, has a first through hole extending into the control housing; the buckle assembly includes a disassembly switch and a spring; the disassembly switch includes a first connecting plate and a second connecting plate, both of which are L-shaped; one side of the L-shaped vertical end of the first connecting plate is integrally connected to the L-shaped horizontal end of the second connecting plate; the inner wall of the control housing is also connected to a first limiting post, and the bottom of the L-shaped horizontal end of the first connecting plate, corresponding to the first limiting post, is also connected to a first limiting block, and the spring is connected between the first limiting block and the first limiting post; the top of the L-shaped horizontal end of the first connecting plate is also equipped with a disassembly button, which moves through the control housing and extends outward; the bottom of the L-shaped vertical end of the second connecting plate is provided with a first hook that matches the first slot, and the first hook moves through the first through hole; the buckle seat is detachably installed on the control housing via the first slot and the first hook.
4. The photon therapy controller according to claim 3, characterized in that, The bottom of the first limiting block is provided with a first limiting groove, and the spring is arranged in the first limiting groove; the connection between the first connecting plate and the second connecting plate is also provided with a clearance notch, and the first limiting post is arranged through the clearance notch; the outer wall of the first limiting block and the L-shaped vertical end of the first connecting plate are both provided with guide sliding holes that pass through the first limiting groove in the vertical direction, and the two guide sliding holes are arranged opposite to each other; the outer wall of the first limiting post is also connected with a first guide plate inserted into the guide sliding hole, and the bottom of the spring abuts against the top of the first guide plate.
5. The photon therapy controller according to claim 1, characterized in that, The control housing is also equipped with a power switch, a power increase switch, a power decrease switch, and a charging interface.
6. The photon therapy controller according to claim 1, characterized in that, The control housing includes a control bottom housing and a control top housing detachably connected to the control bottom housing; the spring pin PCBA board, battery and control main board are sequentially installed inside the control bottom housing; a display screen is also installed on the outer wall of the control top housing.
7. A photon therapy component, comprising a controller as described in any one of claims 1 to 6, characterized in that, It also includes a therapy lamp that connects to the controller.
8. The photon therapy component according to claim 7, characterized in that, The therapeutic lamp includes a lamp housing, a lamp board, and a lamp shade; a first mounting groove is provided on one side of the lamp housing, and the lamp board is installed in the first mounting groove; the lamp shade is detachably connected to one side of the lamp housing and covers the front of the lamp board; a number of lamp beads are arranged in an array on the front of the lamp board, and a lens is provided on the lamp shade corresponding to the lamp beads to enclose the lamp beads; a magnetic buckle is also installed on the lamp board, and a wiring hole is provided on the lamp shade corresponding to the magnetic buckle; a protective skin is also attached to the back of the lamp board.
9. A photon therapy garment, comprising a garment body, characterized in that, It also includes the photon therapy component as described in any one of claims 7 to 8; the controller and the therapy lamp are detachably mounted on the garment body, and the side of the therapy lamp used for emitting light is arranged facing the inside of the garment body.
10. The photon therapy garment according to claim 9, characterized in that, The inner side of the garment body is also fitted with an EMS conductive cloth that is connected to the controller.