CN211912466U - Skin-permeable beauty phototherapy device - Google Patents

Abstract

The utility model provides a skin-transparent beauty phototherapy device, including the light source of a plurality of different wave bands, multimode fiber, optical fiber attenuator and fiber collimator, the light source of a plurality of different wave bands closes to enter multimode fiber after a bundle, and multimode fiber's end is connected with optical fiber attenuator's income light mouth, and optical fiber attenuator's light-out mouth is connected with fiber collimator, and demountable installation has focus lens or defocusing lens on fiber collimator's the light-emitting window; when the laser phototherapy device is used, laser in multiple wave bands enters the optical fiber attenuator after passing through the multimode optical fiber, light sources in different wave bands can be turned on according to needs, the optical fiber attenuator can adjust the passing light power so as to meet different cosmetic phototherapy requirements, and the focusing lens or the defocusing lens can perform small-range or large-range cosmetic phototherapy irradiation; the whole process adopts the multimode optical fiber to conduct light, the flexibility of the optical fiber is strong, the optical fiber can be bent and kinked at various angles, and the optical fiber collimator can be flexibly used through the soft optical fiber.

Description

Skin-permeable beauty phototherapy device

Technical Field

The utility model relates to a cosmetic technical field, concretely relates to skin penetration beauty phototherapy ware.

Background

The phototherapy for beauty treatment is a phototherapy method for human body to perform phototherapy type beauty treatment by applying sunlight, visible rays and invisible rays in an artificial light source. Phototherapy begins with phototherapy, which has been documented as early as the 2 nd century. Artificial light sources began in the end of the 18 th world, and in the 19 th century, visible light, infrared light, ultraviolet light and the like are successively formed, and then, the artificial light sources are widely applied and continuously developed in various fields. The existing beauty phototherapy needs to adopt a heavier laser to carry out beauty phototherapy, is not light and flexible enough, and is troublesome in use.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model provides a through skin cosmetic phototherapy ware can shine out the treatment light in order to carry out phototherapy to the human body.

A skin-transparent beauty phototherapy device is characterized in that: the optical fiber attenuator comprises a plurality of light sources with different wave bands, a multimode optical fiber, an optical fiber attenuator and an optical fiber collimator, wherein the plurality of light sources with different wave bands are combined into one beam and then enter the multimode optical fiber, the tail end of the multimode optical fiber is connected with a light inlet of the optical fiber attenuator, a light outlet of the optical fiber attenuator is connected with the optical fiber collimator, and a focusing lens or a defocusing lens is detachably mounted on a light outlet window of the optical fiber collimator.

Furthermore, the wave bands of the plurality of light sources at least comprise infrared, red, green, blue and ultraviolet wave bands.

Furthermore, the tail end of the multimode fiber is provided with a fiber connector, and the light inlet of the fiber attenuator is provided with a fiber connector which are connected through a fiber flange.

Furthermore, an optical fiber jumper is arranged on the light inlet of the optical fiber attenuator, and the tail end of the multimode optical fiber is connected with the optical fiber jumper at the light inlet of the optical fiber attenuator in a melting mode.

Furthermore, the mirror surface of the focusing lens or the defocusing lens is covered with an oil-sparse layer.

Furthermore, the light sources of a plurality of different wave bands are combined into one beam by the optical fiber beam combiner and then enter the multimode optical fiber.

Furthermore, all the light sources are output through optical fibers, and the output optical fibers of the plurality of light sources are fused into a beam.

The beneficial effects of the utility model are embodied in: the utility model provides a skin-transparent beauty phototherapy device, including the light source of a plurality of different wave bands, multimode fiber, optical fiber attenuator and fiber collimator, the light source of a plurality of different wave bands closes to enter multimode fiber after a bundle, and multimode fiber's end is connected with optical fiber attenuator's income light mouth, and optical fiber attenuator's light-out mouth is connected with fiber collimator, and demountable installation has focus lens or defocusing lens on fiber collimator's the light-emitting window; when the laser phototherapy device is used, laser in multiple wave bands enters the optical fiber attenuator after passing through the multimode optical fiber, light sources in different wave bands can be turned on according to needs, the optical fiber attenuator can adjust the passing light power so as to meet different cosmetic phototherapy requirements, and the focusing lens or the defocusing lens can perform small-range or large-range cosmetic phototherapy irradiation; the whole process adopts the multimode optical fiber to conduct light, the flexibility of the optical fiber is strong, the optical fiber can be bent and kinked at various angles, the optical fiber collimator can be flexibly used through the soft optical fiber, laser can be conveniently led out from a light source, a heavy light source does not need to be carried during use, and the portable multimode optical fiber, the optical fiber attenuator and the optical fiber collimator only need to be held by hands.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic structural diagram according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram according to another embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the present invention belongs.

A skin-transparent beauty phototherapy device is shown in figures 1 and 2 and comprises a plurality of light sources 1 with different wave bands, multimode optical fibers 111, an optical fiber attenuator 5 and an optical fiber collimator 6, wherein the light sources 1 with the different wave bands are combined into a bundle and then enter the multimode optical fibers 111, the tail end of each multimode optical fiber 111 is connected with a light inlet of the optical fiber attenuator 5, a light outlet of the optical fiber attenuator 5 is connected with the optical fiber collimator 6, and a light outlet window of the optical fiber collimator 6 is detachably provided with a focusing lens 7 or a defocusing lens 8.

When the utility model is used, the light sources 1 in different wave bands are combined to enter the multimode optical fiber 111 for transmission, the multimode optical fiber 111 has large light capacity, the transmission of high-power laser can be realized, the optical fiber attenuator 5 can perform power attenuation adjustment on the passing laser, and the optical fiber collimator 6 is used for keeping the optical fiber collimator 6 aligned with the part of the human body needing beauty phototherapy when the laser in the multimode optical fiber 111 is coupled out to a free light space; the light source 1 of single or a plurality of different wave bands can be turned on according to the phototherapy requirement; the optical fiber collimator 6 can be far away from the human body for irradiation, and can also be attached to the skin of the human body for irradiation. The multimode optical fiber 111 is adopted for light guide in the whole process, the optical fiber is strong in flexibility and can be bent and twisted at various angles, and the optical fiber collimator 6 can be flexibly used through the soft optical fiber; the optical fiber can conveniently lead out laser from the light source 1, the light source 1 which is heavy is not required to be carried during use, after the light source 1 is placed on a desktop and the multimode optical fiber 111 with proper length is selected, the beauty phototherapy can be carried out only by holding the portable multimode optical fiber 111, the optical fiber attenuator 5 and the optical fiber collimator 6.

Specifically, the light source 1 may use a fiber laser, and light emitted therefrom directly enters the multimode fiber 111 through a fiber bundle; the LED light source may be used, and the LED light source couples light emitted from the LED light source into the optical fiber through lens coupling, and then combines the optical fibers into the multimode optical fiber 111, or combines the LED light source into a bundle through a spatial prism, and then enters the multimode optical fiber 111.

For example, when ultraviolet light is needed for beauty phototherapy, the light source 1 in the ultraviolet band is turned on; clinical tests prove that narrow-spectrum medium-wave ultraviolet rays with the wavelength of about 311nm have obvious curative effects on skin diseases such as leucoderma, psoriasis and the like, and belong to pure physical treatment. The ultraviolet phototherapy instrument can emit medium-wave ultraviolet rays with the wavelength of 311nm, and most of the ultraviolet rays with the wavelength can be absorbed by epidermal tissues, so that the ultraviolet phototherapy instrument has obvious biological effects on the tissues such as skin and the like. The ultraviolet has good drying, sterilizing and anti-inflammatory effects, has direct killing effect on bacteria or viruses in superficial tissues, has the effects of accelerating blood circulation, easing pain and promoting epithelial regeneration, enables the skin to be better and has a beautifying effect;

when the optical fiber collimator 6 is aligned with a human body for cosmetic phototherapy, the optical fiber attenuator 5 can be adjusted at any time to adjust the optical power passing through the optical fiber attenuator 5, so that the power emitted from the optical fiber collimator 6 is adjusted to meet different treatment requirements and different requirements of different beauty workers, for example, some beauty workers need lower power, and some beauty workers have lower ultraviolet ray tolerance; focusing lens 7 or defocusing lens 8 on the light-emitting window of optical fiber collimator 6 can be used for focusing or defocusing, and when phototherapy is carried out on small points in need concentration, focusing lens 7 can be adopted, and when phototherapy is carried out on a large range in need, defocusing lens 8 can be adopted.

The plurality of light sources 1 have a plurality of wavelength bands including at least infrared, red, green, blue, and ultraviolet wavelength bands, and can be used for various beauty purposes.

Specifically, in one embodiment, the end of the multimode fiber 111 is provided with a fiber connector, and the light inlet of the fiber attenuator 5 is provided with a fiber connector, which are connected through the fiber flange 4.

In another embodiment, the optical fiber jumper is arranged on the light inlet of the optical fiber attenuator 5, and the end of the multimode optical fiber 111 is connected with the optical fiber jumper at the light inlet of the optical fiber attenuator 5 in a melting way.

Correspondingly, the light outlet of the optical fiber attenuator 5 on the market is generally provided with an optical fiber jumper, the optical fiber jumper selects the multimode optical fiber 111, and the multimode optical fiber 111 connects the light emitted by the optical fiber attenuator 5 to the optical fiber collimator 6.

Preferably, the mirror surface of the focusing lens 7 or the defocusing lens 8 is coated with an oil-repellent layer, and when the optical fiber collimator 6 is attached to the skin, the oil-repellent layer can make the migration smoother when the optical fiber collimator 6 migrates.

Preferably, as shown in fig. 1 and 2, a plurality of light sources 1 with different wavebands are combined into a bundle by the optical fiber combiner 2 and then enter the multimode optical fiber 111, the combining efficiency of the optical fiber combiner 2 is high, and the device is light and has a simple structure. Specifically, the following steps can be performed: when the light source 1 adopts a fiber laser, light output by a plurality of fiber lasers enters the multimode fiber 111 after being combined by the fiber combiner 2; when the light source 1 is an LED light source, light of the LED light source is coupled into an optical fiber through an optical fiber collimator or a lens, and then the optical fibers butted with the LED light source are combined into one bundle through an optical fiber combiner 2 and then enter the multimode optical fiber 111.

The beam combination scheme may also be: all the light sources 1 are output through optical fibers, the output optical fibers of the light sources 1 are fused and fused into a beam, and the optical fibers can be combined with each other by adopting optical fiber tapering.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (7)

1. A skin-transparent beauty phototherapy device is characterized in that: the optical fiber attenuator comprises a plurality of light sources with different wave bands, a multimode optical fiber, an optical fiber attenuator and an optical fiber collimator, wherein the plurality of light sources with different wave bands are combined into one beam and then enter the multimode optical fiber, the tail end of the multimode optical fiber is connected with a light inlet of the optical fiber attenuator, a light outlet of the optical fiber attenuator is connected with the optical fiber collimator, and a focusing lens or a defocusing lens is detachably mounted on a light outlet window of the optical fiber collimator.

2. A percutaneous cosmetic phototherapy device as claimed in claim 1, wherein: the wave bands of the plurality of light sources at least comprise infrared, red, green, blue and ultraviolet wave bands.

3. A percutaneous cosmetic phototherapy device as claimed in claim 2, wherein: the tail end of the multimode optical fiber is provided with an optical fiber connector, and the light inlet of the optical fiber attenuator is provided with an optical fiber connector which are connected through an optical fiber flange plate.

4. A percutaneous cosmetic phototherapy device as claimed in claim 2, wherein: and the tail end of the multimode optical fiber is connected with the optical fiber jumper wire of the optical fiber attenuator light inlet in a melting way.

5. A skin penetrating cosmetic phototherapy device as claimed in claim 3 or claim 4 wherein: and the mirror surface of the focusing lens or the defocusing lens is covered with an oil-thinning layer.

6. A percutaneous cosmetic phototherapy device as claimed in claim 5, wherein: the multimode optical fiber is characterized by further comprising an optical fiber combiner, and the light sources with different wave bands are combined into one beam through the optical fiber combiner and then enter the multimode optical fiber.

7. A percutaneous cosmetic phototherapy device as claimed in claim 5, wherein: all the light sources are output through optical fibers, and the output optical fibers of the plurality of light sources are fused and converged into a beam.

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