CN113713276A - Interactive intelligent phototherapy hair growth cap, system and control method - Google Patents

Abstract

Translated fromChinese

本发明属于互联网脱发光治疗技术领域，用于解决现有技术中采用光治疗脱发照射效果差的技术问题。本发明提供了一种可交互的智能光疗生发帽、系统及控制方法。生发帽包括帽体，帽体外套，帽体的顶部设有开口面积可变化的帽顶，帽体的边缘设有帽檐，帽体的侧面设有第一红光光源，帽顶设有第二红光光源，帽檐设有柔性智能电路控制板，分别控制第一红光光源和第二红光光源发光且彼此发出的光不交叠，识别码，用于被扫码识别时从服务器获取本次生发帽的照射方案，照射方案至少包括以下之一：第一红光光源、第二红光光源的照射参数和帽顶的开口面积。本发明可以从服务器得到与各用户相适配的个性化照射方案，提升了光照智能化程度，有利于脱发再生。

The invention belongs to the technical field of internet hair loss treatment, and is used for solving the technical problem of poor irradiation effect of light treatment for hair loss in the prior art. The invention provides an interactive intelligent phototherapy hair growth cap, a system and a control method. The hair growth cap includes a cap body, a cap body coat, a cap top with a variable opening area on the top of the cap body, a brim on the edge of the cap body, a first red light source on the side of the cap body, and a second red light source on the top of the cap body. The red light source, the brim is provided with a flexible intelligent circuit control board, which respectively controls the first red light source and the second red light source to emit light without overlapping each other. The identification code is used to obtain this code from the server when it is recognized by scanning the code. The irradiation scheme of the secondary hair cap includes at least one of the following: the irradiation parameters of the first red light source, the second red light source, and the opening area of the top of the cap. The present invention can obtain a personalized irradiation scheme suitable for each user from the server, improves the degree of illumination intelligence, and is beneficial to hair loss regeneration.

Description

Interactive intelligent phototherapy hair growth cap, system and control method

Technical Field

The invention belongs to the technical field of Internet alopecia phototherapy, and particularly relates to an interactive intelligent phototherapy hair growth cap, a system and a control method.

Background

Relevant studies have shown that red light with a wavelength between 600 and 700nm has a superior effect on promoting hair growth and preventing hair loss. Specifically, the red light can affect the activity of some enzymes in human tissues on the basis of biochemical reaction, and can play a role in regulating balance of various biochemical enzymes of the human body. For example, red light has a regulatory effect on 5-a reductase affecting male hair loss, and on tyrosinase activity affecting white hair. Meanwhile, the red light can enhance the synthesis of ribonucleic acid in human tissue cells, thereby enhancing the synthesis of protein.

It is known that protein is the main component of hair, accounting for 85% -90% of hair, and can accelerate hair growth by red light irradiation, and enhance tightness, density and elasticity of hair, so as to make hair black and bright. In addition, the red light can also strengthen and regulate the functions of thyroid and adrenal gland, has excellent improving and recovering effects on alopecia areata caused by hyperthyroidism and hypothyroidism, and has the advantages that the red light is easily absorbed by hemoglobin to improve the oxygen carrying capacity of blood, promote the local blood circulation of a human body and improve the atrophy of hair follicles caused by insufficient blood supply. For example, in the text of the prior art (application of phototherapy to alopecia areata in the journal of leprosy in china, volume 33, stage 3 in 3 months in 2017, wu daxing, wu li peak, yang pine mark, ju zheng xiang and wu manping), it is pointed out that the wavelength of linearly polarized light infrared ray is 600-1600 nm, and the linearly polarized light infrared ray can penetrate deep subcutaneous tissues, and is widely used for treating neuralgia, arthralgia and skin ulcer, and has the effects of stimulating hair follicle regeneration and increasing blood supply of hair follicles; meanwhile, a random control test is carried out on male androgenetic alopecia patients, and the result shows that red light of 655nm can promote hair growth and obviously increase the number of hairs. The effective rate of treating alopecia areata by 630 nm red light irradiation reported by domestic scholars can reach 84.8%, in addition, red or near infrared laser can promote tissue repair and regeneration, low-energy laser therapy (LLLT) with the wavelength range of 500-1100 nm (tissue optical window) has wide biological effect, and is used for various diseases, such as promotion of hair growth, wound healing, nerve regeneration and the like. Clinical trials have shown that LLLT is safe and effective in treating androgenetic alopecia, although the mechanism of action is not completely understood, there is evidence that LLLT acts on mitochondria to alter cellular metabolism, increase ATP production, regulate reactive oxygen species and induce transcription factors such as nuclear factor kappa B, which in turn stimulate cell proliferation and migration.

In the prior art, a light source capable of emitting red light is often arranged in wearable products such as hats, helmets and the like, and when a user wears the wearable products, the light source emits red light to irradiate a hair growing area of the head of the user so as to enhance the effect of regenerating human hair. The foregoing approach requires the user to wear a hat or helmet having a red light source on the head while in use. The cap or helmet is heavy, which brings inconvenience to the user. And after a user wears a hat or a helmet, the head is shielded, the surrounding air flow is not smooth, and heat generated during the work of the product cannot be dispersed, so that the discomfort of the user is easily caused. For example, CN108391881A in the prior art proposes a laser hair growing cap and its using method, the laser hair-generating cap body is provided with a cap body, the cap body is provided with a cap body outer sleeve, the top of the cap body outer sleeve is provided with a cap top, the inner container of the cap body is arranged in the cap body, the brim is arranged at the edge of one side of the cap body, the shaping liner is arranged in the brim, the storage battery is arranged on the laser hair-growing cap body, wherein, the cap liner is provided with a small round hole, a laser generator is arranged above the cap liner, the laser generator is provided with a flexible circuit board, the flexible circuit board is provided with an infrared laser diode, the infrared laser diode penetrates through the small round hole, radiating grooves are symmetrically formed in two sides of the cap liner, radiating holes are formed in one side, close to the brim, of the cap liner, and a wire connector is arranged on the other side, close to the bottom edge, of the cap liner. The laser generating cap is characterized in that the inner container is arranged at the top of the cap, and the laser generator in the inner container is used for emitting laser to irradiate the head; the characteristics of the hat used outdoors are ignored, the use mode of the hat cannot be selected according to the outdoor weather state, meanwhile, the user can only use the existing irradiation mode, the mode is poor in difference, effective irradiation cannot be carried out according to actual conditions, and the user experience effect is influenced.

Disclosure of Invention

In view of this, the invention provides an interactive intelligent phototherapy hair growth cap, a system and a control method, which are used for solving the technical problems of inconvenient use and poor actual irradiation effect of the existing hair enhancement and regeneration technology, and thus the user experience effect is poor.

The technical scheme adopted by the invention is as follows:

the invention provides an interactive intelligent phototherapy hair growth cap, which comprises a cap body, wherein a cap outer sleeve is arranged on the side surface of the cap body, a cap top with a variable opening area is arranged at the top of the cap body, a cap peak is arranged at the edge of the cap body, a first red light source is arranged on the side surface of the cap body, a second red light source is arranged on the cap top, a flexible intelligent circuit control board is arranged on the cap peak, the first red light source is electrically connected with the flexible intelligent circuit control board, the second red light source is electrically connected with the flexible intelligent circuit control board, an identification code is further arranged on the cap body or the cap peak of the hair growth cap, an irradiation scheme of the hair growth cap is obtained from a remote server by identifying the identification code, and the irradiation scheme at least comprises one of the following steps: the illumination parameters of the first red light source and the second red light source and the opening area of the cap top.

Preferably, the first red light source is a flexible LED light bar, and a first mounting portion for mounting the first red light source is provided on the inner side surface of the cap outer cover and/or the cap body.

Preferably, the first installation portion is arranged from the bottom to the top of the cap body in a spiral or a plurality of independent ring shapes, and the first red light source is a flexible LED light bar corresponding to the first installation portion in a spiral structure, or the first red light source is at least one flexible LED light bar corresponding to the first installation portion in each independent ring shape.

Preferably, the second red light source is a flexible LED lamp strip, the crown is flexible crown, the crown is equipped with and is used for placing the second red light source's second installation department, the second installation department is followed the outside of crown is along laying spirally along the inside border, the second red light source is placed in the second installation department.

Preferably, the second mounting portion is a strip mounting groove or a tubular mounting member or a plurality of spiral mounting members formed by circular rings or snap rings.

Preferably, the LED lamp also comprises a plurality of temperature sensors, wherein the temperature sensors are electrically connected with the flexible intelligent circuit control board and used for acquiring temperature information of an irradiation area of the red light source.

Preferably, be equipped with communication module, power module and intelligent control ware on the flexible intelligent circuit control panel, temperature sensor transmits the temperature information of each irradiation zone of gathering for intelligent control ware, power module supplies power for each electronic component, intelligent control ware passes through communication module and remote server communicate.

Preferably, the cap body is provided with a cap tail on the other side relative to the brim, and the cap tail is arranged on the lower edge of the cap body.

Preferably, the cap tail is in flexible connection or rotary connection with the cap body, a third red light source is arranged in the cap tail, and the third red light source is a flexible LED light bar.

The invention also provides a system which comprises a server, a mobile terminal and the interactive intelligent phototherapy hair growth cap, wherein the mobile terminal scans the identification code on the interactive intelligent phototherapy hair growth cap to obtain the identity information of the interactive intelligent phototherapy hair growth cap, and then sends the identity information to the server.

The invention also provides a control method applied to the interactive intelligent phototherapy hair growth cap, which comprises the following steps:

acquiring identity information of the hair growing cap and current temperature information of the hair growing cap;

determining historical use information of a user who uses the hair growing cap currently according to the identity information;

traversing a historical database to generate an irradiation scheme of the current light irradiation of the user according to the temperature information and the historical use information;

wherein the illumination scheme comprises at least one of: the opening area of the cap top, the light irradiation intensity, the irradiation frequency, and the irradiation duration.

Has the advantages that:

according to the interactive intelligent phototherapy hair growing cap, the system and the control method, the hair growing cap comprises the cap body and the identification code, the identification code is used for identifying identity information between a user and the corresponding hair growing cap, the user obtains a current irradiation scheme from the server through the identification code, the irradiation scheme is matched with the current user, and the user experience effect is improved; meanwhile, red light sources are respectively arranged on the cap body and the cap top of the hair growing cap, and the opening area of the cap top is adjustable, so that the hair growing cap can be used in different environments conveniently, and the intelligence of the hair growing cap is realized; the invention determines the current illumination scheme by communicating with the server, can obtain the latest illumination scheme matched with each user, so that people can comfortably use red light illumination to help hair regeneration, thereby improving the user experience effect.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below, and for those skilled in the art, without any creative effort, other drawings may be obtained according to the drawings, and these drawings are all within the protection scope of the present invention.

Fig. 1 is a schematic structural diagram of an interactive intelligent phototherapy hair growth cap in embodiment 1 of the present invention;

fig. 2 is a schematic structural diagram of a fully-unfolded crown form of the interactive intelligent phototherapy hair growth cap in embodiment 1 of the present invention;

fig. 3 is a schematic structural diagram of a partially unfolded top of an interactive intelligent phototherapy hair growth cap in embodiment 1 of the present invention;

fig. 4 is a schematic structural diagram of a top-storage form of the interactive intelligent phototherapy hair growth cap in embodiment 1 of the present invention;

fig. 5 is a schematic cross-sectional view of an interactive intelligent phototherapy hair growth cap in embodiment 1 of the present invention;

fig. 6 is a schematic structural diagram of an interactive intelligent phototherapy hair growth cap system in embodiment 2 of the present invention;

fig. 7 is a flowchart illustrating an interactive intelligent phototherapy hair growth cap control method in embodiment 3 of the present invention.

Description of reference numerals:

10. a cap body; 11. a cap body coat; 110. a first mounting portion; 111. a first light-transmitting layer; 12. a brim, 13, a crown; 130. a tension member; 131. a second mounting portion; 132. a second light-transmitting layer; 133. accommodating grooves; 14. a cap tail; 15. a light blocking section; 21. a first red light source; 22. a second red light source.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention. It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element. In case of conflict, the embodiments of the present invention and the various features of the embodiments may be combined with each other within the scope of the present invention.

Example 1

The embodiment of the invention provides an interactive intelligent phototherapy hair growth cap, so that target objects needing hair growth do not need to worry about negative influence on hair growth caused by overhigh sun outdoors, meanwhile, illumination hair growth can be provided for the target objects needing hair growth anytime and anywhere, more and more target objects needing hair growth are met, specific treatment is carried out for the target objects without too much time, and the problem that the target objects needing hair growth are difficult to hair growth is solved.

Referring to fig. 1, fig. 1 is a schematic structural view of an interactive intelligent phototherapy hair growth cap according to the present invention, which includes acap body 10, a capouter cover 11 is disposed on a side surface of the cap body, acap top 13 with a variable opening area is disposed on a top of the cap body, abrim 12 is disposed on an edge of the cap body, a firstred light source 21 is disposed on the side surface of thecap body 10, a secondred light source 22 is disposed on thecap top 13, a flexible intelligent circuit control board (not shown) is disposed on thebrim 12, the firstred light source 21 is electrically connected to the flexible intelligent circuit control board, and the secondred light source 22 is electrically connected to the flexible intelligent circuit control board. Referring to fig. 1, thecap top 13 in fig. 1 is in a state of having an opening, and referring to fig. 2, thecap top 13 in fig. 2 is in a closed state without an opening; adopt opening adjustable mode, when temperature is higher, can increase the opening ofcrown 13 for the head heat dissipation is equipped with red light source respectively atcrown 13 andcap body overcoat 11 simultaneously, can carry out zone control to the head increase hair, if: when the hair increasing is only needed to be carried out on the area of the cap bodyouter sleeve 11, the first red light source is started, the opening of thecap top 13 is enlarged, the hair can be effectively increased, and the heat dissipation can be guaranteed; if the head top area needs to be increased, the opening of thecap top 13 is reduced and then irradiated, the second red light source is closed after the irradiation is carried out for a certain time, the opening of thecap top 13 is increased, the heat dissipation is not accelerated, and the operations are repeated, so that the head top area can be effectively increased, and the discomfort of the head caused by the untimely heat dissipation can be prevented.

In an embodiment, an identification code is further provided on the cap body or the visor, and the identification code includes, but is not limited to, a two-dimensional code or a bar code. The user is after purchasing the cap of growing or when using this cap of growing for the first time, bind user information and this cap of growing through the identification code on the App (one grow cap once can only bind a user, a plurality of cap of growing can be bound simultaneously to a user), the user is when the cap of growing needs shines at every turn, can carry out the identification code discernment and send identification information for the server through the App procedure, the server confirms the user information of the current user who should grow the cap and correspond according to the information of identification code, user information includes one of following at least: age, sex, region. Acquiring historical use information of a user about the hair growing cap (the user may have a plurality of hair growing caps which are used alternately), namely a historical irradiation scheme which is irradiated by the user aiming at alopecia, traversing a historical database to determine a current irradiation scheme of the user, wherein when the current irradiation scheme needs to be explained, the current irradiation scheme also comprises temperature information of the cap or temperature information of the current environment, so that when the historical use information of the user is acquired, positioning information of the user is acquired at the same time so as to determine the environment temperature of an area where the user is located; it should be noted that: when the user does not start the positioning permission, temperature compensation can be added, for example, when the temperature is 18-24 ℃, the scheme A is adopted, and when the temperature is 15-18 ℃, the scheme B is adopted, and the like.

It should be noted that: the historical database is a hair growth effect sample uploaded by a user at intervals, and irradiation schemes of different users are optimized and user experience effects are improved by continuously updating samples of the database.

In an embodiment, referring to fig. 3, an outer cap 11 is disposed on an outer side of the cap 10, the cap 10 is covered by the outer cap 11, and a first light-transmitting layer 111 is disposed on an inner side of the cap 10 (i.e., an inner side surface of a cavity of the sun visor cap), the light-transmitting layer may be a mesh structure or a light-transmitting material with a rhombohedral structure, and the light-transmitting material with the mesh structure can ensure that light from a red light source reaches a head region and can also ensure air permeability; it should be noted that, if the first light-transmitting layer 111 has a mesh structure, the first light-transmitting layer 111 is preferably detachably connected to the cap body 10 and/or the cap outer cover 11, so as to facilitate cleaning; if the first light-transmitting layer 111 is made of a light-transmitting material with a rhombohedral structure, the first light-transmitting layer 111 is preferably fixedly connected with the cap body 10 and/or the cap body outer sleeve 11, so that the service life is prevented from being shortened due to frequent disassembly; the first red light source is a flexible LED light bar, and a first installation part used for installing the first red light source is arranged on the inner side surface of the cap body outer sleeve and/or the cap body.

In an embodiment, the first mountingportion 110 is disposed along the bottom to the top of thecap body 10 in a spiral shape or a plurality of independent ring shapes, the first mountingportion 110 may be a belt-shaped or a clamping groove integrated structure, or a plurality of clamping rings or buckles are disposed according to a predetermined position to form a plurality of independent ring shapes; or a spiral mounting structure, the firstred light source 21 is a flexible LED light bar corresponding to the first mountingportion 110 of the spiral structure, or the firstred light source 21 is at least one flexible LED light bar corresponding to the first mountingportion 110 of each independent ring shape.

In an embodiment, referring to fig. 3, a second light-transmitting layer 132 is disposed on the inner side of the crown 13, a second mounting portion 131 is disposed between the crown 13 and the second light-transmitting layer and fixed on the crown 13 and/or the second light-transmitting layer 132, the second mounting portion 131 is laid along the outer edge and the inner edge of the crown 13, when the opening of the crown 13 is the smallest, the second mounting portion 132 is in a spiral state, when the opening of the crown 13 is the largest, as shown in fig. 4, the spiral diameters formed by the second mounting portion 132 are the same, the crown 13 is completely retracted into the receiving groove 133, the second light-transmitting layer 132 is in a mesh structure, the second red light source 22 is a flexible LED light bar, the crown 13 is a flexible crown, and preferably, the crown 13 is a cloth crown; the second red light source is fixed through second installation department 131 (specifically, second red light source 22 is placed in second installation department 131), second installation department 131 is a banding mounting groove or the spiral installed part that a tubular flexible installed part or a plurality of rings or snap ring formed, wherein, if second installation department 131 is tubular structure, then second red light source 22 suit is in second installation department 131, if second installation department 131 is buckle, draw-in groove class structure, then second red light source and second installation department 131 joint, and the LED lamp strip of second red light source can be in second installation department 131 internalization, thereby prevent to cause the damage to LED lamp strip when the opening size of crown 13 changes.

In an embodiment, referring to fig. 4, a stretchingmember 130 is further disposed at the opening position of thecrown 13, the stretchingmember 130 can be fixed between the opening position of thecrown 13 and the secondtransparent layer 132, and includes a second mountingportion 131 not limited to the opening position of thecrown 13, and the stretchingmember 13 is an elastic member including not limited to a rubber band, so that the positional relationship between the stretchingmember 13 and the opening of thecrown 13 is not changed regardless of the size of the opening of thecrown 13.

In an embodiment, referring to fig. 4 and 5, a cap tail 14 is further disposed on the other side of the cap body 10 corresponding to the brim 12, the front end of the cap tail 14 is flexibly or rotatably connected with the cap body 10 or the lower edge of the cap body outer sleeve 11, a third red light source is disposed in the cap tail 14, the third red light source includes at least one flexible LED light bar, the flexible LED light bar can be understood as a light bar which can be wound and twisted at any angle without affecting normal light emission of the LED, the cap tail 14 includes a first form and a second form, wherein the first form is that the end of the cap tail 14 is detachably connected with the outer side surface of the cap body outer sleeve 11, including but not limited to being fastened and bonded, the cap tail 14 is attached to the outer side surface of the cap body outer sleeve 11, and the third red light source is turned off in the first form; the second configuration is that the cap body 14 naturally hangs down under the action of gravity so that the cap tail 14 fits in the neck region of the back of the head, and the third red light source can be turned on or off in the second configuration.

It should be noted that: the firstred light source 21, the secondred light source 22 and the second red light source can emit red light with the wave band of 600 nm-700 nm, and the skin can be quickly raised in microcirculation level of capillary vessels of the skin by single illumination and can be effectively raised in ultrasonic density level of skin tissues by multiple continuous illumination by adopting the skin illuminated by the red light. And can help hair regeneration by activating the mitochondrial respiratory chain, producing ATP (adenosine triphosphate) to help hair regeneration. Preferably, in this embodiment, the irradiation of the hair follicle portion of the target subject with the generated red light stimulates the enzymatic production of nitric oxide in the body of the target user, while multiple irradiations stimulates the release of nitric oxide from endogenous stores in the tissue to promote hair growth in the head of the user. In an embodiment, referring to fig. 4 and 5, the lower edge of thecap body 10 is further provided with alight blocking portion 15, when thecap body 10 is fitted on the target head, thelight blocking portion 15 is tightly attached to the contact area of the human head, and the manner of tightly attaching thelight blocking portion 15 to the contact area of the human head includes an elastic manner, an air pressure effect, and an adhesion manner, which is not limited to an elastic material, so as to prevent light leakage when the head is subjected to the emission and irradiation by the firstred light source 21, and similarly, the same manner as that of thelight blocking portion 15 can be adopted on the outer side surface of theaccommodating groove 133 to prevent the light of the firstred light source 21 from leaking from the top.

In an embodiment, at least one temperature sensor is respectively arranged in the areas corresponding to thecap top 13, thecap body 10 and thecap tail 14, the temperature sensors can acquire the temperature information of the area of the cap body 10 (the side of the head of a user), the area corresponding to thecap top 13 and the area corresponding to thecap tail 14 in real time, and determine whether to illuminate each area or not and the intensity of illumination light according to the temperature information of each area, so that the effective control of hair growth is realized, and the phenomena that the illumination is performed when the temperature is too high, a target object is uncomfortable and the experience effect is influenced are avoided; specifically, the temperature sensor transmits the acquired temperature information to an intelligent controller on a flexible intelligent circuit control panel, and the intelligent controller transmits the temperature information to an App end through a communication module or directly transmits the temperature information to a server; the LED light source control system can control each red light source according to temperature information of a user or a processor, and further comprises a power supply module which supplies power to each electronic element. In a specific application embodiment, the opening of thecrown 13 is maximized, only the first red light source is turned on, if the temperatures of all regions of the head are low or moderate, the size of the opening of the crown can be reduced, thetail 14 of the cap is placed at the same time, then the second red light source and the third all-red light source are turned on to irradiate corresponding positions, the temperature sensor monitors the temperatures of the regions in real time, if the temperature of a certain region rises, but within a preset range, the illumination intensity of the region only needs to be reduced, if the temperature exceeds the preset range, operations such as stopping or increasing heat dissipation and the like are considered, and an illumination mode corresponding to various conditions can be specifically set for illumination to adapt to hair growth illumination of various conditions.

In an application embodiment, the red light with the wavelength of 600-700nm is different from the common visible red light, the penetrating power of the red light to a human body is extremely strong, the penetrating depth is 2-3 mm, the absorption of hemoglobin in blood can be promoted by utilizing the biochemical reaction of light, the oxygen carrying capacity of the blood is improved, the local blood circulation of the human body is promoted, the atrophy of hair follicles caused by insufficient blood supply is improved, the blood supply function of hair papilla is repaired and recovered, the activity of the hair follicles in the resting period and the shedding period is stimulated, the hair follicles are reactivated and regenerated, cells at the lower part of a hair bulb are vigorously split and massively proliferated, cells at the upper part of the hair bulb are differentiated into cortex and hair cortex, so that the growth of the hair is accelerated, the tightness, the density and the elasticity of the hair are enhanced, and the hair is gradually formed. The user will grow the type and store to App, and the App end looks for the illumination scheme of database according to user's type of growing, and the user can control the luminous information of cap of growing according to the illumination scheme of App end, and luminous information includes and is not limited to: red light wavelength, illumination time and illumination frequency; such as: aiming at male androgenetic alopecia patients, the penetration depth of red light with the wavelength of 655nm is 2-3 mm, and the functions of activating fibroblast growth, increasing I-type procollagen expression and the like are achieved; aiming at a hair loss patient with skin problems, 640nm red light is adopted to irradiate the skin, the microcirculation level of the capillary vessels of the skin can be quickly improved by single illumination, the ultrasonic density level of skin tissues can be effectively improved by multiple continuous illuminations, the skin injury and scar repair can be facilitated, and the skin elasticity and compactness can be enhanced; still alternatively, 630 nm red light illumination may be selected for alopecia areata patients; the method comprises the following steps of not only irradiating red light with a single wavelength, but also irradiating red light with multiple wavelengths in a crossed manner; app can remind the user to carry out light therapy according to the preset scheme of shining, and the user can control the light parameter of growing cap according to the requirement anytime and anywhere and carry out the management and treatment, and easy operation realizes the alopecia treatment anytime and anywhere, improves user's experience effect.

By adopting the interactive intelligent phototherapy hair growing cap provided by the embodiment, the hair growing cap comprises a cap body and an identification code, the identification code is used for identifying identity information between a user and the corresponding hair growing cap, and the user acquires a current irradiation scheme from a server through the identification code, so that the irradiation scheme is matched with the current user, and the user experience effect is improved; meanwhile, red light sources are respectively arranged on the cap body and the cap top of the hair growing cap, and the opening area of the cap top is adjustable, so that the hair growing cap can be used in different environments conveniently, and the intelligence of the hair growing cap is realized; the invention determines the current illumination scheme by communicating with the server, can obtain the latest illumination scheme matched with each user, so that people can comfortably use red light illumination to help hair regeneration, thereby improving the user experience effect.

Example 2

Referring to fig. 7, fig. 7 is an interactive intelligent phototherapy hair growth cap system in embodiment 2 of the present invention, the system includes a server, a mobile terminal and the interactive intelligent phototherapy hair growth cap described in any one of the above, wherein the mobile terminal scans an identification code on the interactive intelligent phototherapy hair growth cap to obtain identity information of the interactive intelligent phototherapy hair growth cap, and then sends the identity information to the server.

Specifically, when a user purchases or uses a hair growing cap for the first time, an App is downloaded by scanning an identification code on the hair growing cap, the hair growing cap is bound with the user through verification information, binding information of the user and the hair growing cap is transmitted to a server through the App, when the user is ready to use the hair growing cap for light irradiation, the identification code on the hair growing cap is identified through the App of a mobile terminal, identity information represented by the identification code on the hair growing cap is uploaded to the server, the server determines user information bound with the hair growing cap according to the identity information, historical use information (including historical use information of the hair growing cap used by the current user corresponding to the current hair growing cap and other hair growing caps) of the user is acquired from a database, so that the server generates a current irradiation scheme of the user, and transmits the irradiation method to the App and/or the hair growing cap of the mobile terminal, the user can control the hair growing cap to irradiate according to the irradiation scheme sent by the server, and meanwhile, the user can also directly communicate with the server through the hair growing cap, and the user mainly transmits necessary data, such as temperature information of the hair growing cap.

By adopting the interactive intelligent phototherapy hair growth cap system provided by the embodiment, the hair growth cap comprises a cap body and an identification code, the identification code is used for identifying identity information between a user and the corresponding hair growth cap, and the user acquires a current irradiation scheme from a server through the identification code, so that the irradiation scheme is matched with the current user, and the user experience effect is improved; meanwhile, red light sources are respectively arranged on the cap body and the cap top of the hair growing cap, and the opening area of the cap top is adjustable, so that the hair growing cap can be used in different environments conveniently, and the intelligence of the hair growing cap is realized; the invention determines the current illumination scheme by communicating with the server, can obtain the latest illumination scheme matched with each user, so that people can comfortably use red light illumination to help hair regeneration, thereby improving the user experience effect.

Example 3

Referring to fig. 7, fig. 7 is a flowchart illustrating a control method of an interactive intelligent phototherapy hair growth cap in embodiment 3 of the present invention, where the red light source intelligent hair growth control method is a specific control method for performing illumination control based on the interactive intelligent phototherapy hair growth cap in embodiment 1, and the method includes:

s1, acquiring the identity information of the hair growing cap and the current temperature information of the hair growing cap;

specifically, when a user needs to use the hair growing cap to irradiate red light, the user identifies the identification code on the hair growing cap through an App program, so that the server determines the identity information of the current hair growing cap through the received identification information of the user, wherein the identity information comprises the number of the hair growing cap and the user information of the user who uses the hair growing cap currently; meanwhile, the current temperature information of the hair growing cap is obtained so as to determine the opening area of the cap top and the irradiation mode of each red light source.

S2, determining the historical use information of the user who uses the hair growing cap currently according to the identity information;

s3, traversing a history database to generate an irradiation scheme of the current light irradiation of the user according to the temperature information and the history use information;

wherein the illumination scheme comprises at least one of: the opening area of the cap top, the light irradiation intensity, the irradiation frequency, and the irradiation duration.

Specifically, the server determines a user corresponding to the hair growing cap according to the identity information of the hair growing cap so as to obtain historical light irradiation data of the user and obtain temperature information of the hair growing cap at the same time, and then determines the light irradiation scheme of this time according to the historical information and the temperature information of the user, where: the temperature information of the hair growing cap can be the actual temperature collected by a temperature sensor of the hair growing cap and then is uploaded to the server, and the accuracy of the server for generating the current irradiation scheme can be improved and the user experience effect can be improved by adopting the actual temperature collected by the temperature sensor; the server may acquire the time-sharing temperature of the local air temperature according to the geographic position of the hair growing cap, and the use of the temperature sensor may be reduced by acquiring the local air temperature from the public platform, so that the cost is saved.

By adopting the interactive intelligent phototherapy hair growth cap control method provided by the embodiment, the hair growth cap comprises a cap body and an identification code, the identification code is used for identifying identity information between a user and the corresponding hair growth cap, and the user acquires a current irradiation scheme from a server through the identification code, so that the irradiation scheme is matched with the current user, and the user experience effect is improved; meanwhile, red light sources are respectively arranged on the cap body and the cap top of the hair growing cap, and the opening area of the cap top is adjustable, so that the hair growing cap can be used in different environments conveniently, and the intelligence of the hair growing cap is realized; the invention determines the current illumination scheme by communicating with the server, can obtain the latest illumination scheme matched with each user, so that people can comfortably use red light illumination to help hair regeneration, thereby improving the user experience effect.

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; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a can interactive intelligent phototherapy cap of giving birth to, a serial communication port, the cap of giving birth to includes the cap body, the side of the cap body is equipped with cap body overcoat, the top of the cap body is equipped with the crown that open area can change, the edge of the cap body is equipped with the brim of a hat, the side of the cap body is equipped with first red light source, the crown of a hat is equipped with second red light source, the brim of a hat is equipped with flexible intelligent circuit control board, flexible intelligent circuit control board controls respectively first red light source with the luminous and the not overlap of light that sends each other of second red light source, wherein the cap body of cap of giving birth to or give birth to still be equipped with the identification code on the brim of a hat, the identification code is used for being swept and obtains this from the server when sign indicating number discernment the scheme of giving birth to cap of giving birth to, it at least includes one of following: the illumination parameters of the first red light source and the second red light source and the opening area of the cap top.

2. The interactive intelligent phototherapy hair growth cap of claim 1, wherein the first red light source is a flexible LED light bar, and a first mounting portion for mounting the first red light source is provided on the inner side surface of the cap outer cover and/or the cap body.

3. The interactive intelligent phototherapy hair growth cap of claim 2, wherein the first installation portion is provided along the bottom to the top of the cap body in a spiral shape or a plurality of independent ring shapes, the first red light source is a flexible LED light bar corresponding to the first installation portion of the spiral structure, or the first red light source is at least one flexible LED light bar corresponding to the first installation portion of each independent ring shape.

4. The interactive intelligent phototherapy hair growth cap of claim 1, wherein the second red light source is a flexible LED light bar, the crown is a flexible crown, the crown is provided with a second installation part for placing the second red light source, the second installation part is laid along an outer edge of the crown to an inner edge in a spiral shape, and the second red light source is placed in the second installation part.

5. The interactive smart phototherapy hair growth cap of claim 4, wherein the second mounting portion is a strip mounting groove or a tubular mounting member or a plurality of spiral mounting members formed by rings or clasps.

6. The interactive smart phototherapy hair growth cap of any one of claims 1-5 further comprising a plurality of temperature sensors electrically connected to the flexible smart circuit control board, the temperature sensors being configured to collect temperature information of an area illuminated by the red light source.

7. The interactive intelligent phototherapy hair growth cap of claim 6, wherein a communication module, a power module and an intelligent controller are arranged on the flexible intelligent circuit control board, the temperature sensor transmits the collected temperature information of each irradiation area to the intelligent controller, the power module supplies power to each electronic element, and the intelligent controller communicates with a remote server through the communication module.

8. The interactive intelligent phototherapy hair growth cap of claim 7, wherein the cap body is provided with a cap tail at another side opposite to the brim, the cap tail is arranged at a lower edge of the cap body, the cap tail is flexibly or rotatably connected with the cap body, a third red light source is arranged in the cap tail, and the third red light source is a flexible LED light bar.

9. A system, comprising a server, a mobile terminal, and the interactive intelligent phototherapy hair growth cap of any one of claims 1-8, wherein the mobile terminal scans an identification code on the interactive intelligent phototherapy hair growth cap to obtain identity information of the interactive intelligent phototherapy hair growth cap, and then sends the server.

10. A control method applied to the interactive smart phototherapy hair growth cap of any one of claims 1 to 8, the method comprising:

acquiring identity information of the hair growing cap and current temperature information of the hair growing cap;

determining historical use information of a user who uses the hair growing cap currently according to the identity information;

traversing a historical database to generate an irradiation scheme of the current light irradiation of the user according to the temperature information and the historical use information;

wherein the illumination scheme comprises at least one of: the opening area of the cap top, the light irradiation intensity, the irradiation frequency, and the irradiation duration.

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