CN116603172B

CN116603172B - Flexible quantum dot far infrared physiotherapy belt

Info

Publication number: CN116603172B
Application number: CN202310661932.XA
Authority: CN
Inventors: 穰红伟
Original assignee: Slt Lighting Technology Dongguan Co ltd
Current assignee: Slt Lighting Technology Dongguan Co ltd
Priority date: 2023-06-06
Filing date: 2023-06-06
Publication date: 2024-01-02
Anticipated expiration: 2043-06-06
Also published as: CN116603172A

Abstract

The invention discloses a flexible quantum dot far infrared physiotherapy belt, which comprises a flexible belt, wherein a plurality of quantum light emitting devices are arranged on the flexible belt along the length direction of the flexible belt; the quantum light-emitting device comprises a first body with a light-transmitting surface, wherein the first body is provided with an elastic isolation film which forms a liquid cavity with the first body, the surface of the elastic isolation film is coated with a magnetic coating, and the liquid cavity is filled with quantum dot liquid in which a plurality of quantum light-emitting units with ferromagnetism are suspended; a light source module for exciting the quantum light-emitting unit to emit far infrared rays is arranged above the elastic isolation film; the liquid cavities of the quantum light-emitting devices are sequentially connected in series; the invention realizes the adjustment of far infrared ray intensity, can be flexibly adjusted according to different users, has more flexible structure use and is beneficial to improving the use experience of users.

Description

Flexible quantum dot far infrared physiotherapy belt

Technical Field

The invention relates to the technical field of physiotherapy, in particular to a flexible quantum dot far infrared physiotherapy belt.

Background

Along with the development of science and technology, quantum far infrared physiotherapy equipment is increasingly used, and adopts the electroluminescent principle, and far infrared rays are generated by exciting quantum dot materials through visible light generated by a visible light source, and far infrared physiotherapy is performed by utilizing the generated far infrared rays.

However, in the actual use process, the far infrared excitation intensity of the existing quantum far infrared physiotherapy instrument is not adjustable, and cannot be flexibly adjusted according to different users, so that the structure flexibility is poor, and the use experience is poor.

Disclosure of Invention

The invention aims to overcome the defects and provide the flexible quantum dot far infrared physiotherapy belt.

In order to achieve the above object, the present invention is specifically as follows:

a flexible quantum dot far infrared physiotherapy belt comprises a flexible belt, wherein a plurality of quantum light emitting devices are arranged on the flexible belt along the length direction of the flexible belt;

the quantum light-emitting device comprises a first body with a light-transmitting surface, wherein an elastic isolation film which forms a liquid cavity with the first body is arranged on the first body, a magnetic coating is coated on the surface of the elastic isolation film, and the liquid cavity is filled with quantum dot liquid in which a plurality of quantum light-emitting units with ferromagnetism are suspended; a light source module for exciting the quantum light-emitting unit to emit far infrared rays is arranged above the elastic isolation film; the liquid cavities of the quantum light-emitting devices are sequentially connected in series.

Optionally, the quantum light emitting unit includes a light-transmitting layer, a quantum dot layer disposed on one side of the light-transmitting layer, and a ferromagnetic grating layer disposed on the other side of the light-transmitting layer.

Optionally, the light source module includes an LED light emitting unit for emitting visible light and a diffusion plate for parallel diffusion of the visible light emitted from the LED unit.

Optionally, the light-transmitting surface is a fresnel lens structure.

Optionally, a plurality of massage heads are uniformly distributed on the flexible belt.

Optionally, flexible shaping pipes are arranged on two sides of the flexible belt, and shaping particles with certain fluidity in a natural state are filled in the shaping pipes.

Optionally, one end of the flexible belt is provided with a connector, the connector is provided with a first channel communicated with the two shaping pipes, and the first channel is connected with a first connecting pipe communicated with an external vacuum generating device.

Optionally, a second channel communicated with the liquid cavity is arranged in the connector, and the second channel is connected with a second connecting pipe communicated with an external liquid pump.

Optionally, a plurality of the quantum light emitting devices are equally spaced along the length direction of the flexible band.

The beneficial effects of the invention are as follows: according to the invention, the quantum light-emitting device is arranged on the flexible belt, and the quantum light-emitting unit is attached to the surface of the elastic isolation film under the action of the magnetic coating, so that the volume of the quantum dot liquid in the liquid cavity is controlled, and the elastic isolation film is changed between a plane state and a cambered surface state, so that the effective stimulated area of the quantum light-emitting unit is adjusted, the adjustment of far infrared intensity is realized, the structure can be flexibly adjusted according to different users, the structure is more flexible to use, and the use experience of the user is facilitated to be improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic illustration of an application of the present invention;

FIG. 3 is a schematic cross-sectional view of a quantum light emitting device of the present invention;

FIG. 4 is another cross-sectional schematic view of a quantum light emitting device of the present invention;

fig. 5 is a schematic structural view of a quantum light emitting unit of the present invention;

reference numerals illustrate: 1. a flexible belt; 11. a shaping pipe; 12. a connector; 13. a first connection pipe; 14. a second connection pipe; 2. a quantum light emitting device; 21. a first body; 211. a light-transmitting surface; 22. an elastic isolation film; 23. a quantum light emitting unit; 231. a light-transmitting layer; 232. a quantum dot layer; 233. a ferromagnetic grating layer; 24. a light source module; 241. an LED light emitting unit; 242. a diffusion plate; 3. a massage head.

Detailed Description

The invention will now be described in further detail with reference to the drawings and the specific embodiments, without limiting the scope of the invention.

As shown in fig. 1 to 5, the flexible quantum dot far infrared physiotherapy band according to the present embodiment is applied to a scene of a portion to be physiotherapy, such as a limb of a user, where the portion to be physiotherapy is inconvenient to be laid flat, and the flexible quantum dot far infrared physiotherapy band includes a flexible band 1, wherein the flexible band 1 is a flexible metal sheet, such as an aluminum substrate, a copper sheet, and the like, which is bendable and flexible;

the flexible belt 1 is provided with a plurality of quantum light emitting devices 2 along the length direction thereof; the quantum light emitting device 2 comprises a first body 21 with a light transmission surface 211, wherein the first body 21 is provided with an elastic isolating film 22 which forms a liquid cavity with the first body 21, the surface of the elastic isolating film 22 is coated with a magnetic coating, and the liquid cavity is filled with quantum dot liquid in which a plurality of quantum light emitting units 23 with ferromagnetism are suspended; a light source module 24 for exciting the quantum light-emitting unit 23 to emit far infrared rays is arranged above the elastic isolation film 22; the liquid cavities of the quantum light emitting devices 2 are sequentially connected in series. Specifically, the elastic isolation film 22 is made of a light-transmitting material, so that visible light is fully transmitted through the elastic isolation film 22 and then irradiated onto each quantum light-emitting unit 23; the liquid cavities between the quantum light emitting devices 2 are connected in series through hoses.

When the device is actually used, the physiotherapy belt is wound on the physiotherapy part of a user in a posture that the light-transmitting surface 211 faces the physiotherapy part, after the winding is completed, as the surface of the elastic isolation film 22 is provided with a magnetic coating, the quantum light-emitting unit 23 in the liquid cavity is attached to the surface of the elastic isolation film 22 under the magnetic adsorption action of the magnetic coating, the elastic isolation film 22 is in a planar state in a natural state, so that the effective stimulated area of the quantum light-emitting unit 23 attached to the surface of the elastic isolation film 22 is the largest, the intensity of far infrared generated by stimulation is the strongest, then visible light is emitted through the light source module 24, and then the visible light is irradiated to the quantum light-emitting unit 23 after passing through the elastic isolation film 22, so that the far infrared generated far infrared is stimulated to generate far infrared rays, and the physiotherapy part is irradiated to the physiotherapy part through the light-transmitting surface 211;

when the far infrared intensity of the quantum light-emitting unit 23 needs to be adjusted, the liquid volume of the quantum dots in the liquid cavity is increased by injecting the supplementary solution into the liquid cavity, the elastic isolating film 22 is extruded, the elastic isolating film 22 is changed from a planar state to an arc surface state, the effective stimulated area of the quantum light-emitting unit 23 is reduced by the elastic isolating film 22 in the arc surface state due to the fact that the quantum light-emitting unit 23 is closely attached to the surface of the elastic isolating film 22, and accordingly the far infrared quantity generated by the quantum light-emitting unit 23 is reduced, and the far infrared intensity is weakened.

According to the embodiment, the quantum light-emitting device 2 is arranged on the flexible belt 1, and the quantum light-emitting unit 23 is attached to the surface of the elastic isolation film 22 under the action of the magnetic coating, so that the volume of quantum dot liquid in the liquid cavity is controlled, the elastic isolation film 22 is changed between a plane state and a cambered surface state, the effective stimulated area of the quantum light-emitting unit 23 is adjusted, the adjustment of far infrared intensity is realized, the flexible adjustment can be carried out according to different users, the structure is more flexible to use, and the use experience of the user is improved.

As an embodiment of the present invention, as shown in fig. 5, the quantum light emitting unit 23 includes a light-transmitting layer 231, a quantum dot layer 232 disposed on one side of the light-transmitting layer 231, and a ferromagnetic grating layer 233 disposed on the other side of the light-transmitting layer 231. In actual use, the visible light emitted by the light source module 24 irradiates onto the quantum dot layer 232 through the light-transmitting window of the ferromagnetic grating layer 233, so as to excite the quantum dot layer 232 to emit far infrared rays, and when the equivalent quantum light-emitting unit 23 changes the cambered surface state from the planar state along with the elastic isolation film 22, the included angle between the light-transmitting window of the ferromagnetic grating layer 233 and the propagation direction of the visible light changes, so that the effective luminous flux passing through the light-transmitting window of the ferromagnetic grating layer 233 changes, i.e. the visible light irradiated onto the quantum dot layer 232 changes, thereby achieving the purpose of adjusting the intensity of the infrared rays generated by the excitation of the quantum dot layer 232 by the visible light.

As an embodiment of the present invention, as shown in fig. 3 and 4, the light source module 24 includes an LED light emitting unit 241 for emitting visible light and a diffusion plate 242 for parallel diffusion of the visible light emitted from the LED unit. In actual use, the LED light emitting unit 241 emits visible light with a frequency greater than the far infrared frequency, and irradiates the surface of the elastic isolation film 22 in a parallel light state after being scattered by the scattering plate 242, and irradiates the quantum dot layer 232 through the light-transmitting window of the ferromagnetic grating layer 233, so as to excite the quantum dot layer 232 to emit far infrared, and perform far infrared physiotherapy on the part to be treated.

As an embodiment of the present invention, as shown in fig. 3 and 4, the light-transmitting surface 211 is a fresnel lens structure; so set up for far infrared that quantum light-emitting unit 23 sent shines to treating physiotherapy position with the parallel light gesture, thereby treat physiotherapy position and fully shine, improve physiotherapy effect.

As an embodiment of the present invention, as shown in fig. 1, a plurality of massage heads 3 are uniformly distributed on the flexible belt 1; so set up, utilize massage head 3 to treat physiotherapy position and massage to handle to improve the travelling comfort in the physiotherapy process.

As an embodiment of the present invention, as shown in fig. 1, both sides of the flexible band 1 are provided with flexible shaping pipes 11, and the shaping pipes 11 are filled with shaping particles having a certain fluidity in a natural state. Specifically, the shaping particles are rigid spheres, such as glass spheres, after the flexible belt 1 is wound on the part to be treated, the flexible belt 1 is preliminarily shaped, and then the shaping tube 11 is vacuumized, so that the shaping tube 11 is in a vacuum state, the shaping tube 11 is contracted under the action of air pressure, the shaping particles in the tube are mutually extruded and abutted, the shaping tube 11 is converted into a rigid state from a flexible state, the flexible belt 1 which is preliminarily shaped is shaped, the flexible belt 1 is prevented from being separated or deformed due to the action of external force in the physiotherapy process, the normal operation of physiotherapy work is ensured, and the structure is more reliable to use.

As an embodiment of the present invention, as shown in fig. 1, a connector 12 is provided at one end of the flexible band 1, the connector 12 is provided with a first channel communicating with both the forming pipes 11, and the first channel is connected with a first connecting pipe 13 for communicating with an external vacuum generating device. When in actual use, the external vacuum generating device vacuumizes the shaping pipe 11 through the first connecting pipe 13 and the first channel, so that shaping particles in the shaping pipe 11 are mutually extruded and abutted, and the shaping pipe 11 is converted from a flexible state to a rigid state; the whole structure is more convenient to install and operate.

As an embodiment of the present invention, as shown in fig. 1, a second channel communicating with the liquid chamber is provided in the connector 12, and the second channel is connected with a second connection pipe 14 for communicating with an external liquid pump. In this embodiment, the second channel and the second connecting pipe 14 are disposed in the connector 12, so that when the intensity of far infrared rays needs to be adjusted, the external liquid pump injects the supplementary solution into each liquid cavity through the second connecting pipe 14 and the second channel, so that the liquid volume of the quantum dots in the liquid cavity is increased, and the elastic isolating film 22 is driven to deform, thereby changing the intensity of far infrared rays emitted by the quantum light emitting unit 23.

As an embodiment of the present invention, as shown in fig. 1, a plurality of the quantum light emitting devices 2 are equally spaced apart in the length direction of the flexible tape 1; the device is arranged so as to perform full far infrared physiotherapy on the region of the part to be treated, and improve physiotherapy effect.

The foregoing description is only one preferred embodiment of the invention, and therefore all changes and modifications that come within the meaning and range of equivalency of the structures, features and principles of the invention are intended to be embraced therein.

Claims

1. The flexible quantum dot far infrared physiotherapy belt is characterized by comprising a flexible belt, wherein a plurality of quantum light emitting devices are arranged on the flexible belt along the length direction of the flexible belt;

the quantum light-emitting device comprises a first body with a light-transmitting surface, wherein an elastic isolation film which forms a liquid cavity with the first body is arranged on the first body, a magnetic coating is coated on the surface of the elastic isolation film, and the liquid cavity is filled with quantum dot liquid in which a plurality of quantum light-emitting units with ferromagnetism are suspended; a light source module for exciting the quantum light-emitting unit to emit far infrared rays is arranged above the elastic isolation film; the liquid cavities of the quantum light-emitting devices are sequentially connected in series;

the elastic isolating film is made of light-transmitting material;

when the device is used, the physiotherapy belt is wound on the physiotherapy part to be treated of a user in a posture that the light-transmitting surface faces the physiotherapy part to be treated, after the winding is completed, the quantum light-emitting unit in the liquid cavity is attached to the surface of the elastic isolation film under the magnetic adsorption action of the magnetic coating, the elastic isolation film is in a plane state in a natural state, so that the effective stimulated area of the quantum light-emitting unit attached to the surface of the elastic isolation film is the largest, the strength of stimulated far infrared rays is the strongest, then visible light is emitted through the light source module, and then the visible light is emitted to the quantum light-emitting unit after passing through the elastic isolation film, so that the quantum light-emitting unit is stimulated to generate far infrared rays, the generated far infrared rays are irradiated to the physiotherapy part to be treated through the light-transmitting surface, and far infrared physiotherapy is carried out on the physiotherapy part to be treated;

when the far infrared intensity of the quantum light-emitting unit needs to be adjusted, the liquid volume of the quantum dots in the liquid cavity is increased by injecting the supplementary solution into the liquid cavity, the elastic isolating film is extruded, the elastic isolating film is changed from a plane state to a cambered surface state, the effective stimulated area of the quantum light-emitting unit is reduced by the elastic isolating film in the cambered surface state, and therefore the far infrared quantity generated by the quantum light-emitting unit is reduced, and the far infrared intensity is weakened.

2. The flexible quantum dot far infrared physiotherapy belt according to claim 1, wherein the quantum light emitting unit comprises a light transmitting layer, a quantum dot layer arranged on one side of the light transmitting layer, and a ferromagnetic grating layer arranged on the other side of the light transmitting layer.

3. The flexible quantum dot far infrared physiotherapy band according to claim 1, wherein the light source module comprises an LED light emitting unit for emitting visible light and a diffusion plate for parallel diffusion of the visible light emitted from the LED unit.

4. The flexible quantum dot far infrared physiotherapy belt according to claim 1, wherein the light-transmitting surface is a fresnel lens structure.

5. The flexible quantum dot far infrared physiotherapy belt according to claim 1, wherein a plurality of massage heads are uniformly distributed on the flexible belt.

6. The flexible quantum dot far infrared physiotherapy belt according to claim 1, wherein flexible shaping pipes are arranged on two sides of the flexible belt, and shaping particles with fluidity in a natural state are filled in the shaping pipes.

7. The flexible quantum dot far infrared physiotherapy belt according to claim 6, wherein a connector is arranged at one end of the flexible belt, the connector is provided with a first channel communicated with two shaping pipes, and the first channel is connected with a first connecting pipe communicated with an external vacuum generating device.

8. The flexible quantum dot far infrared physiotherapy belt according to claim 7, wherein a second channel communicated with the liquid cavity is arranged in the connector, and the second channel is connected with a second connecting pipe communicated with an external liquid pump.

9. The flexible quantum dot far infrared physiotherapy belt according to any one of claims 1 to 8, wherein a plurality of said quantum light emitting devices are equally spaced apart along the length of the flexible belt.