CN111558172A - Intelligent optical fiber beauty blanket - Google Patents

Abstract

The invention relates to a laser intelligent optical fiber beauty blanket, which comprises a blanket body, a light source controller, a connector, at least one light source module and a luminous optical fiber corresponding to the electric light source module, wherein the blanket body is provided with a light source controller; the luminous optical fiber and the polymer fiber material are interwoven into an optical fiber luminous woven part; the surface of the light-emitting optical fiber is provided with a light-transmitting point, and the tail end of the light-emitting optical fiber is connected with the light source module in a coupling mode after being converged and conducts light to the optical fiber light-emitting woven part; the optical fiber luminous woven parts are woven into the head end and the tail end of the blanket body to form an integral structure with the blanket body. The blanket with the built-in light source with the specific wavelength has the effects of beautifying, rejuvenating, whitening, removing freckles, wrinkles and scars in the using process.

Description

Intelligent optical fiber beauty blanket

Technical Field

The invention relates to an intelligent optical fiber beauty blanket, in particular to a beauty blanket which uses a flexible optical fiber light guide sheet material to cooperate with a light source with a specific wavelength to beautify, rejuvenation, whiten, remove spots, wrinkles and scars of multiple parts of a human body.

Background

With the development of science and technology and the pursuit of health and beauty of people, the related applications of beautifying by using light with specific wavelength parameters, removing scars, wrinkles, whitening and caring skin are gradually increased. The light beauty technology is that strong pulse light is utilized to directly irradiate the skin to generate a photo-physical chemical effect, so that collagen fibers and elastic fibers in the skin can be rearranged, the elasticity of the skin is recovered, the microcirculation of the face is improved, and wrinkles are eliminated or reduced; on the other hand, strong pulse light can penetrate the skin and be preferentially and selectively absorbed by pigment clusters and capillary vessels in the tissue, and the heat energy can solidify the blood and thermally decompose and destroy the pigment clusters on the premise of not destroying normal skin tissues, thereby treating telangiectasia, removing color spots, removing redundant hair and the like. The photocosmetic uses polychromatic light to emit incoherent light with multiple colors, the wavelength of the incoherent light is 400-1200 nm, and the incoherent light comprises green light (532nm), yellow light (585nm), red light (694nm) and infrared light (700+ nm). According to different purposes, different filters (515-755 nm) can be applied to filter out harmful or useless light to the body so as to increase the safety and effectiveness of treatment. At present, the light source with specific wavelength is mainly directly applied to the market to be made into a therapeutic apparatus, a therapeutic box, a therapeutic cover and a handheld device, and the light source is fixedly applied to professional places such as professional medical cosmetology, a beauty parlor, a beauty and body care center and the like. Most of the products are large instruments with hard structures, and the products used for different parts of the body are different in shape and structure and poor in universality. And the price is high, so that the method is not suitable for personal home use.

Disclosure of Invention

To solve the above problems in the prior art, the present application provides an intelligent optical fiber beauty blanket, which has the effects of skin beautifying, skin rejuvenation, skin whitening, spot removing, wrinkle removing and scar removing by using a blanket with a built-in light source with a specific wavelength in the using process. The high-light-conductivity optical fiber fabric sheet is utilized to manufacture an integrated structure. The portable multifunctional household appliance has the characteristics of portability, multiple purposes, daily life and multi-scene use in a household environment.

The purpose of the invention is realized by adopting the following technical scheme:

an intelligent fiber optic beauty blanket comprising: the blanket comprises a blanket body, a light source controller, a connector, at least one light source module and a light-emitting optical fiber corresponding to the electric light source module; the luminous optical fiber and the polymer fiber material are interwoven into an optical fiber luminous woven part;

the surface of the light-emitting optical fiber is provided with light-transmitting points, and the tail end of the light-emitting optical fiber is connected with the light source module in a coupling mode after being converged and conducts light to the optical fiber light-emitting woven part;

the optical fiber luminous woven part is woven into the head end and the tail end of the blanket body to form an integral structure with the blanket body, and is used for guiding out the point light source to form a luminous surface;

the electric light source module is connected with the light source controller through a feeder line and receives an optical fiber signal of the light source controller;

the light source controller is used for setting the color, brightness and/or dynamic program of the light source for the light source module.

Preferably, the light-emitting optical fiber connector further comprises a connector, the connector comprises a light-emitting optical fiber connecting end and a light source connecting end, an optical fiber bundle formed by connecting light-emitting optical fibers is fixed through the light-emitting optical fiber connecting end, the light source module is fixed through the light source connecting end, and the light-emitting optical fiber connecting end is in threaded butt joint with the light source connecting end.

Preferably, the blanket body is further provided at an end thereof with a connecting means for fixing and adjusting a use area, and the connecting means is an adjustable length buckle structure or a reusable hook and loop structure.

Preferably, at least one coupling unit is further included between the end of the light emitting optical fiber and the light source module;

and the coupling unit is used for combining optical carriers with different wavelengths and coupling the optical carriers into the same optical fiber for transmission.

Preferably, the light source controller is used for controlling the start-stop, the intensity, the working time and other intelligent control of the electric light source module;

the light source controller includes a control circuit, a battery, and a housing.

Preferably, the light-emitting optical fiber comprises a PMMA core material and a light-reflecting fluororesin cladding layer, which are sequentially arranged and twisted from inside to outside, wherein the light-reflecting fluororesin cladding layer is coated on the surface of the PMMA core material.

Preferably, the electric light source module includes: the switch power supply and at least two light-emitting branches are connected with one end of the switch power supply; the two light-emitting branches are mutually connected in parallel; the light emitting branch comprises at least two light emitting units which are connected in series.

Furthermore, the electric light source module is also provided with a flexible flat cable interface, the flexible flat cable interface is inserted and electrically connected with an FPC (flexible printed circuit), and the other end of the FPC is inserted and electrically connected with the light source controller.

Further, the light emitting unit includes: the LED driving circuit comprises a first wiring terminal P1, a second wiring terminal P2, a fuse F1, a first rectifier bridge U1, a second rectifier bridge U2, a first capacitor C1, a second capacitor C2, a resistor R1, a first LED D1 and a second LED D2 which are sequentially connected in series;

the first light-emitting diode D1 and the second light-emitting diode D2 are nano laser LED lamps.

Further, the first output end of the first connection terminal P1 and the first output end of the second connection terminal P2 are connected to one end of a fuse F1, the other end of the fuse F1 is connected to a first ac pin of a second rectifier bridge U2, the second output end of the first connection terminal P1 and the second output end of the second connection terminal P2 are connected to a second ac pin of the second rectifier bridge U2, the positive terminal of the second rectifier bridge U2 is connected to the input terminal of the first rectifier bridge U1, the current pin of the first rectifier bridge U1 is connected to one end of a resistor R1, the positive terminal of the first light emitting diode D1 and one end of a second capacitor C2, the other end of the resistor R1 is connected to all the output ends of the first rectifier bridge U1, the other end of the second capacitor C2 is connected to the negative terminal of the second light emitting diode D2, and the first capacitor C1 is connected to the first rectifier bridge U1 in parallel.

The invention has the beneficial effects that:

the invention provides an intelligent optical fiber beauty blanket as an intelligent optical fiber beauty blanket, and particularly provides effects of beautifying, rejuvenating, whitening, removing freckles, wrinkles and scars by utilizing a blanket with a built-in light source with a specific wavelength in the using process. The high-light-conductivity optical fiber fabric sheet is utilized to manufacture an integrated structure. The effective light is conducted through the fiber optic sheet to the entire functional area of the blanket, covering the entire functional area. LEDs with specific wavelengths are used as light sources and are arranged at the two ends of the optical fiber beauty blanket, so that the surface of the whole blanket can uniformly emit light. The LED light source is driven and controlled by a controller and a battery module which are light and handy in size. The optical fiber fabric sheet has the air permeability and the comfort similar to those of common fabric cloth, is soft and bendable, and has very good skin-adhering and skin-friendly performances. The LED light source and the controller are compact and light in structure, the beauty blanket can have the same effect as large-scale special-purpose equipment due to the structure, and meanwhile, the beauty blanket has the characteristics of portability, multiple purposes, daily life and multi-scene use in a home environment.

The invention can realize that the user can obtain the same beauty and body-building effects as those of professional medical beauty institutions and beauty parlors in the daily household life process. The fiber fabric sheet with high light conductivity is used to make fiber beauty and body-building blanket, and the light source with special wavelength and the controller form an integral structure. The light with specific wavelength is transmitted to the inside of the whole blanket surface through the high-light-conductivity optical fiber sheet to form a functional area, and the whole area needing beauty treatment is covered. The LED light source is driven and controlled by a controller and a battery module which are light and handy in size. The optical fiber fabric sheet has the air permeability and the comfort similar to those of common fabric cloth, is soft and bendable, and has very good skin-adhering and skin-friendly performances. The LED light source and the controller are compact and light in structure, the beauty blanket can have the same effect as large-scale special-purpose equipment due to the structure, and meanwhile, the beauty blanket has the characteristics of portability, multiple purposes, daily life and multi-scene use in a home environment. In the aspect of materials, the plastic optical fiber technology is mature, and the materials are easy to obtain. The optical fiber mixed spinning light guide sheet material can realize high-efficiency and large-batch production by adopting mature production equipment. The optical fiber beauty and body-building blanket is manufactured by the same processes of cutting, sewing, pressing and the like as common fabric products, and has no extra special production process requirements. The light source, the controller and other parts are all made of universal electronic components, and the standardized and mass production is facilitated. The raw materials of the existing textile products can be utilized, the same production process flow is adopted, and the existing production line of the similar products is shared for mass production.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or 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 view of an optical fiber light emitting woven part provided in an embodiment of the present invention;

FIG. 2 is a schematic view of a light-emitting optical fiber structure provided in an embodiment of the present invention;

fig. 3 is a schematic diagram of an electric light source module and a light source controller thereof provided in an embodiment of the present invention;

fig. 4 is a schematic diagram of a light emitting unit circuit provided in an embodiment of the present invention.

In the attached drawings, 1-optical fiber luminous woven part; 2-a light-emitting optical fiber; 21-light reflective fluororesin cladding; 22-PMMA core material; 3-a polymer fiber material; 4-a connector; 5-an electric light source module; 6-a feeder line; 7-light source controller.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings.

In order to specifically understand the technical solutions provided by the present invention, the technical solutions of the present invention will be described and illustrated in detail in the following examples. It is apparent that the embodiments provided by the present invention are not limited to the specific details familiar to those skilled in the art. The following detailed description of the preferred embodiments of the invention is intended to provide further embodiments of the invention in addition to those described herein.

The present invention will be described in detail with reference to the accompanying drawings and examples. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the application discloses a cosmetic blanket of laser intelligence optic fibre comprises high leaded light rate fiber fabric sheet, the light source of specific wavelength, connector, controller and battery module, the flexible cladding material of blanket limit, the flexible fabric layer of blanket face protection. The optical fibers in the optical fiber light guide sheet are bound together at the ends. The optical fiber bundle conducts light to the optical fiber sheet and realizes uniform light emission on the whole surface. The edge of the optical fiber light guide sheet is coated by using a flexible soft rubber material, and the carpet surface is protected by using a flexible fabric material. The integrated structure is assembled by adopting the processes of thermoforming, sewing, pressing and the like. The end of the optical fiber beauty blanket is provided with a connecting device for fixing and adjusting the use area. The connecting device can be a length-adjustable buckle structure or a reusable magic tape structure, so that the flexible application mode that the connecting device can be randomly adjusted according to the use requirements of users and is suitable for different parts of the body is achieved. The light source with specific wavelength is driven and controlled by a controller and a battery, and the controller is provided with a switch to control the on and off of the light source. The controller and battery pack are placed at the end of the blanket without interfering with the use of the blanket. The production of the optical fiber beauty and body-building blanket adopts heat setting, pressing, sewing and other general textile products and electronic production processes. The used materials are all general materials in the industry and are easy to obtain. The production process conforms to the general production and processing mode of similar products, and is convenient for mass and high-efficiency production.

The laser intelligent optical fiber beauty blanket specifically comprises a blanket body, a light source controller 7, at least one light source module and a light-emitting optical fiber corresponding to the electric light source module; the luminous optical fiber and the polymer fiber material are interwoven into an optical fiber luminous woven part;

the surface of the light-emitting optical fiber 2 is provided with a light-transmitting point, the tail end of the light-emitting optical fiber 2 is in coupling connection with the light source module after being converged, and light is conducted to the optical fiber light-emitting woven part 1;

the optical fiber luminous woven part 1 is woven into the head end and the tail end of the blanket body to form an integral structure with the blanket body; the blanket comprises a blanket body and is characterized in that the end part of the blanket body is also provided with a connecting device for fixing and adjusting the using area, and the connecting device is a length-adjustable buckle belt structure or a reusable magic tape structure;

the electric light source module is connected with the light source controller through a feeder 6 and receives an optical fiber signal of the light source controller;

the light source controller is used for setting the color, brightness and/or dynamic program of the light source for the light source module 5.

The intelligent optical fiber beauty blanket further comprises a connector 4, wherein the connector 4 comprises a light-emitting optical fiber connecting end and a light source connecting end, an optical fiber bundle formed by connecting light-emitting optical fibers is fixed through the light-emitting optical fiber connecting end, a light source module is fixed through the light source connecting end, and the light-emitting optical fiber connecting end is in threaded butt joint with the light source connecting end.

At least one coupling unit is further arranged between the tail end of the light-emitting optical fiber 2 and the light source module 5; and the coupling unit is used for combining optical carriers with different wavelengths and coupling the optical carriers into the same optical fiber for transmission.

The optical fiber luminous woven part 1 is formed by interweaving luminous optical fibers 2 and polymer fiber materials 3; the tail ends of the light-emitting optical fibers 2 are coupled and connected with the electric light source module through the connector after being gathered, and light is conducted to the polymer fiber material 3 to form the optical fiber light-emitting woven part 1 which emits light uniformly, as shown in fig. 1.

As shown in fig. 2, the light source controller is configured to control start-stop, intensity, working time, and other intelligent operations of the electric light source module; the light source controller includes a control circuit, a battery, and a housing. The electric light source module is connected with the light source controller through a feeder 6 and receives a control signal of the light source controller. The feeder line 6 comprises a receiving section for receiving a signal and a feedback section for feeding back the received signal to the receiver.

As shown in fig. 3, the light-emitting optical fiber 2 includes a PMMA core 22 and a light-reflecting fluororesin clad 21, which are twisted and arranged in this order from the inside to the outside, and the surface of the PMMA core 22 is coated with the light-reflecting fluororesin clad 21.

A PMMA (Polymethyl methacrylate) core material 22, wherein the PMMA core material 22 has the characteristics of high transparency and high light conductivity, and is soft in texture and light in weight; the light-reflecting fluororesin cladding 21 has high flexibility, bending resistance and transparency, is beneficial to the light transmission of an internal core material, has low friction coefficient and excellent anti-adhesion property, is not easy to adhere to the inner wall of a tube, and can still well cooperate with a PMMA core material to guide light when the diameter of the light-reflecting fluororesin cladding 21 reaches a millimeter level.

The light-emitting optical fibers 2 can be completely bundled at the tail end according to actual needs, or divided into a plurality of strands to be bundled respectively, and each strand of optical fiber bundle is fixedly connected with a light power module through a connector. The connector is a hollow plastic shell or a heat-shrinkable sleeve with any suitable shape (which can be adjusted according to customization requirements or actual production requirements), and the optical fiber bundle and the light source module 5 are fixed inside the connector, so that light emitted by the light source module 5 is transmitted into the PMMA core material 22 in the optical fiber bundle to be displayed; the light source module 5 is a monochromatic or color high-brightness light emitting diode and is used for displaying the light emitting effect of the light emitting color, the brightness and the dynamic program through the light source controller. According to the specific embodiment of the invention, PMMA/fluororesin light-emitting optical fibers and cotton yarns are interwoven, the light-emitting optical fibers in the fabric are subjected to bundling treatment by using a certain means, and the bundled light-emitting optical fibers are coupled and connected with a light source to form the light-emitting optical fiber light-emitting fabric, the brightness of the light-emitting fabric is tested, the influence of fabric tissues, warp and weft densities and other fabric structure parameters on the brightness of the light-emitting optical fibers is discussed, and a certain reference is provided for the development of intelligentization and diversification of light-emitting optical fiber light-emitting products.

The electric light source module includes: the switch power supply and at least two light-emitting branches are connected with one end of the switch power supply; the two light-emitting branches are mutually connected in parallel; the light emitting branch comprises at least two light emitting units which are connected in series.

In addition, the electric light source module is also provided with a flexible flat cable interface, the flexible flat cable interface is inserted and electrically connected with an FPC (flexible printed circuit), and the other end of the FPC is inserted and electrically connected with the light source controller.

As shown in fig. 4, wherein the light emitting unit includes: the LED driving circuit comprises a first wiring terminal P1, a second wiring terminal P2, a fuse F1, a first rectifier bridge U1, a second rectifier bridge U2, a first capacitor C1, a second capacitor C2, a resistor R1, a first LED D1 and a second LED D2 which are sequentially connected in series;

the first light-emitting diode D1 and the second light-emitting diode D2 are nano laser LED lamps.

A first output end of the first connection terminal P1 and a first output end of the second connection terminal P2 are connected with one end of a fuse F1, the other end of the fuse F1 is connected with a first alternating current pin of the second rectifier bridge U2, a second output end of the first connection terminal P1 and a second output end of the second connection terminal P2 are connected with a second alternating current pin of the second rectifier bridge U2, a positive terminal of the second rectifier bridge U2 is connected with an input terminal of the first rectifier bridge U1, a current pin of the first rectifier bridge U1 is connected with one end of a resistor R1, a positive terminal of the first light emitting diode D1 and one end of a second capacitor C2, the other end of the resistor R1 is connected with all output ends of the first rectifier bridge U1, the other end of the second capacitor C2 is connected with a negative terminal of the second light emitting diode D2, and the first capacitor C1 is connected in parallel with the first rectifier bridge U1.

Example (b): the light emitting fiber (POF) is a filament-like transmission line capable of conducting light power, which is made of polymer material or organic material, and has the characteristics of flexibility, low density, low price, no light conduction, no electricity conduction, no heat generation and the like.

The luminous fabric has the advantages of good flexibility, light weight, excellent wearability, durable and safe use, easy connection with a light source and the like.

The optical fiber luminous fabric has the advantages of no electricity, no heat generation, good flexibility, good impact resistance, no electromagnetic radiation and low power consumption, and is widely applied to the fields of clothing, home textiles, lighting decoration, safety warning, medical phototherapy, flexible display and the like.

Experiments prove that the luminance of the luminous fabric is tested by using a LumiCam 1300 color image luminance colorimeter, and the luminous rule of the luminous fiber in the fabric and the influence of the weft yarn coverage rate and the bending radius in different fabric tissues on the luminance of the luminous fiber are analyzed;

the relation between the brightness of the light-emitting optical fiber in the fabric and the distance from the light source is second-order exponential attenuation, and the attenuation curve of the light-emitting optical fiber accords with the side light-emitting rule of the double-light-source optical fiber, but the fluctuation is large; the fabric weave structure parameters such as fabric weave, warp and weft density, warp and weft yarn diameter and the like all have important influence on the brightness of the luminous optical fiber luminous fabric, and in 8 kinds of fabrics with different weaves, the brightness is also highest because the weft yarn coverage rate and the bending radius of 1/4 fabrics are obviously higher than those of other weaves.

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; while the invention has been described in detail and with reference to the foregoing embodiments, it will 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 depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims (10)

1. An intelligent fiber optic cosmetic blanket, comprising: the blanket comprises a blanket body, a light source controller, a connector, at least one light source module and a light-emitting optical fiber corresponding to the electric light source module; the luminous optical fiber and the polymer fiber material are interwoven into an optical fiber luminous woven part;

the surface of the light-emitting optical fiber is provided with light-transmitting points, and the tail end of the light-emitting optical fiber is connected with the light source module in a coupling mode after being converged and conducts light to the optical fiber light-emitting woven part;

the optical fiber luminous woven part is woven into the head end and the tail end of the blanket body to form an integral structure with the blanket body, and is used for guiding out the point light source to form a luminous surface;

the electric light source module is connected with the light source controller through a feeder line and receives an optical fiber signal of the light source controller;

the light source controller is used for setting the color, brightness and/or dynamic program of the light source for the light source module.

2. The intelligent fiber optic beauty blanket of claim 1, wherein: the light-emitting optical fiber connector comprises a light-emitting optical fiber connecting end and a light source connecting end, an optical fiber bundle formed by connecting light-emitting optical fibers is fixed through the light-emitting optical fiber connecting end, a light source module is fixed through the light source connecting end, and the light-emitting optical fiber connecting end is in threaded butt joint with the light source connecting end.

3. The intelligent fiber optic beauty blanket of claim 1, wherein: the blanket body is characterized in that the end part of the blanket body is also provided with a connecting device for fixing and adjusting the using area, and the connecting device is an adjustable length buckle belt structure or a reusable magic tape structure.

4. The intelligent fiber optic beauty blanket of claim 1, wherein: at least one coupling unit is further arranged between the tail end of the light-emitting optical fiber and the light source module;

and the coupling unit is used for combining optical carriers with different wavelengths and coupling the optical carriers into the same optical fiber for transmission.

5. The intelligent fiber cosmetic blanket of claim 1, wherein the light source controller is configured to control the start-stop, intensity, operation time and other intelligent operations of the electrical light source module;

the light source controller includes a control circuit, a battery, and a housing.

6. An intelligent optical fiber beauty blanket as claimed in claim 1, wherein the light emitting optical fiber comprises a PMMA core and a light reflecting fluororesin cladding, which are sequentially arranged from inside to outside and twisted, and the light reflecting fluororesin cladding is coated on the surface of the PMMA core.

7. The intelligent fiber optic cosmetic blanket of claim 1, wherein the electrical light source module comprises: the switch power supply and at least two light-emitting branches are connected with one end of the switch power supply; the two light-emitting branches are mutually connected in parallel; the light emitting branch comprises at least two light emitting units which are connected in series.

8. The intelligent optical fiber beauty blanket of claim 7, wherein the electric light source module is further provided with a flexible flat cable interface, the flexible flat cable interface is plugged and electrically connected with an FPC, and the other end of the FPC is plugged and electrically connected with the light source controller.

9. The intelligent fiber optic beauty blanket of claim 7, wherein said light emitting unit comprises: the LED driving circuit comprises a first wiring terminal P1, a second wiring terminal P2, a fuse F1, a first rectifier bridge U1, a second rectifier bridge U2, a first capacitor C1, a second capacitor C2, a resistor R1, a first LED D1 and a second LED D2 which are sequentially connected in series;

the first light-emitting diode D1 and the second light-emitting diode D2 are nano laser LED lamps.

10. The intelligent optical fiber beauty blanket of claim 9, wherein the first output terminal of the first connection terminal P1 and the first output terminal of the second connection terminal P2 are connected to one end of a fuse F1, the other end of the fuse F1 is connected to a first ac pin of a second rectifier bridge U2, the second output terminal of the first connection terminal P1 and the second output terminal of the second connection terminal P2 are connected to a second ac pin of a second rectifier bridge U2, the positive terminal of the second rectifier bridge U2 is connected to the input terminal of a first rectifier bridge U1, the current pins of the first rectifier bridge U1 are respectively connected to one end of a resistor R1, the positive terminal of the first light-emitting diode D1 is connected with one terminal of the second capacitor C2, the other terminal of the resistor R1 is connected with all output terminals of the first rectifier bridge U1, the other terminal of the second capacitor C2 is connected with the negative terminal of the second light-emitting diode D2, and the first capacitor C1 is connected with the first rectifier bridge U1 in parallel.

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