CN114082108B - Sleep phototherapy device for realizing auxiliary treatment and control system - Google Patents

Abstract

The application discloses a sleep phototherapy device for implementing adjuvant therapy, the device comprising: two applying parts arranged along the first direction and a bulge part which is positioned between the two applying parts and is respectively connected with the two applying parts; the application part includes: a first substrate and a first phototherapy module formed on a first side of the first substrate; the ridge includes: the middle part of the second base material bends the protrusion towards the direction far away from the first side, and the central axis of the protrusion is perpendicular to the first direction.

Description

Sleep phototherapy device for realizing auxiliary treatment and control system

Technical Field

The present disclosure relates generally to the field of photomedical technology, and more particularly to a sleep phototherapy device and control system for implementing adjuvant therapy.

Background

According to the known theory, the radiation energy applied to the affected part of the patient by using light rays has the effect of assisting in treating the disease. Solar therapy was described as early as the 2 nd century of the male member, and artificial light sources were formed successively from the end of the 18 th world to the 19 th century, and then are widely used and continuously developed in various fields of clinical treatment.

As described above, the existing phototherapy apparatuses are mostly used for clinical medical treatment, and in many cases, the phototherapy apparatuses are large in size and are often arranged in a fixed scheme, and it is very difficult to move the position thereof, so that it is difficult to make wide application. Although phototherapy apparatuses have begun to be popularized in the daily field in recent years, there are also many miniaturized phototherapy apparatuses on the market, such as: phototherapy eyeshade, phototherapy cosmetic mask, etc. However, most of the existing products are cosmetic products, and few products with specific auxiliary treatment effects are needed, so that development and improvement are needed.

The existing sleep phototherapy system is mainly used for adjusting the physiological rhythm of a user or solving the problem caused by insufficient light and disturbance of the user, and the specific treatment method comprises the following steps: light therapy is provided to the user prior to or while the patient is asleep to alleviate or cure the light deficiency disorder. Although the above treatment method can regulate the physiological state of the user to some extent, in seasonal physiological disorders, such as: allergic rhinitis has very limited actual treatment effects, and particularly, it is difficult to relieve the symptoms associated with the user in a sleeping state, and optimization and improvement are needed.

Allergic rhinitis refers to a chronic inflammatory reaction disease of nasal mucosa, which is mainly mediated by IgE and mainly comprises histamine release, various immunocompetent cells, cytokines and the like after an atopic individual contacts with allergen, and is mainly characterized by nasal itching, sneeze, nasal hypersecretion, nasal mucosa swelling and the like. In particular, during the allergic season, allergic conditions tend to occur at night when the human body's yang qi is weak, common symptoms include: any symptom of nasal obstruction, itching of eyes or hypersecretion of the nose can seriously affect the normal rest of a patient, and long-term, although allergic rhinitis is not a serious disease, the daily life, study and working efficiency of the patient can be affected. The existing relief measures often take antiallergic drugs, but interruption of sleep time is unavoidable, and also causes great physiological and psychological burden to patients.

Disclosure of Invention

In view of the above-described drawbacks or deficiencies of the prior art, it is desirable to provide a sleep phototherapy device and control system for achieving adjuvant therapy that is capable of being activated periodically during sleep to alleviate allergic nasal conditions in a patient, as compared to the prior art.

In a first aspect, a sleep phototherapy device for implementing adjuvant therapy, the device comprising: two applying parts arranged along the first direction and a bulge part which is positioned between the two applying parts and is respectively connected with the two applying parts; the application part includes: a first substrate and a first phototherapy module formed on a first side of the first substrate; the ridge includes: the middle part of the second base material bends the protrusion towards the direction far away from the first side, and the central axis of the protrusion is perpendicular to the first direction.

According to the technical scheme provided by the embodiment of the application, the method further comprises the following steps: an elastic auxiliary sheet arranged on the second side of the second base material; the second substrate is provided with a first through groove and a second through groove which are symmetrically distributed on two sides of the central axis of the protrusion; two ends of the elastic auxiliary sheet respectively enter the first through groove and the second through groove and are respectively fixedly connected with the inner wall of the protrusion on the first side; and the parts of the elastic auxiliary sheets entering the first through groove and the second through groove are provided with second phototherapy modules.

According to the technical scheme provided by the embodiment of the application, the part of the elastic auxiliary sheet, which is positioned between the first through groove and the second through groove, forms an arch structure, and the arch structure is extruded, so that the shape of the part of the elastic auxiliary sheet, which enters the first through groove and the second through groove, can be adjusted.

According to the technical scheme provided by the embodiment of the application, the thickness of the arch structure is larger than that of the elastic auxiliary sheet, and when the arch structure is extruded to the position that the two ends of the arch structure are fixedly connected with the first through groove and the second through groove respectively, the position of the arch structure can be limited.

According to the technical scheme provided by the embodiment of the application, the thickness of the arch structure gradually decreases from the middle part to the two sides.

According to the technical scheme provided by the embodiment of the application, the inner walls of the first through groove and the second through groove are respectively provided with a first magnet; the upper part of the arch structure is symmetrically provided with a second magnet which is attracted with the first magnet.

According to the technical scheme provided by the embodiment of the application, the arch structure is embedded with the third through groove, and the third through groove can form a space capable of accommodating the nose penetrating piece.

According to the technical scheme provided by the embodiment of the application, the parts of the elastic auxiliary sheet entering the first through groove and the second groove are respectively provided with a hemispherical first groove on one side, which is relatively far away from the arch structure, of the second phototherapy module; a hollow spherical structure is arranged in the first groove; and a third phototherapy module is embedded in the spherical structure.

According to the technical scheme provided by the embodiment of the application, the spherical structure is rotatably connected in the first groove; when the arch-shaped structure is not extruded, the third phototherapy module in the spherical structure faces the first groove; when the arch-shaped structure is pressed, the spherical structure rotates along with the arch-shaped structure, so that the third phototherapy module in the spherical structure rotates to face outwards.

According to the technical scheme provided by the embodiment of the application, one end of the raised part corresponding to the eyebrow center is provided with the second groove; a micro-curved auxiliary sheet is slidably embedded in the second groove, and the first side of the micro-curved auxiliary sheet is arranged on the fourth phototherapy module; when not in use, the micro-curved auxiliary sheet is hidden in the second groove; in use, the micro-curved auxiliary sheet is pulled to move along the central axis of the protrusion in a direction away from the bulge so that the fourth phototherapy module is exposed outside the second groove.

According to the technical scheme provided by the embodiment of the application, the fourth phototherapy module comprises at least three first units, second units and third units which are distributed along the central axis of the protrusion from one side close to the protrusion to one side far from the protrusion.

In a second aspect, a sleep phototherapy control system for implementing adjuvant therapy, comprising: a driving device for controlling the sleep phototherapy device for implementing adjuvant therapy according to the first aspect, the driving device comprising: a main control module; the first driving module is used for controlling the first phototherapy module and is electrically connected with the main control module, and the first driving module is configured to provide driving voltage for the first phototherapy module; preferably, the second driving module is used for controlling and controlling the second phototherapy module and is electrically connected with the main control module, and the second driving module is configured to provide driving voltage for the second phototherapy module; preferably, the third driving module is used for controlling and controlling the third phototherapy module and is electrically connected with the main control module, and the third driving module is configured to provide driving voltage for the third phototherapy module; the main control module is configured to respond to an external input instruction, and start the first driving module, and/or the second driving module, and/or the third driving module.

According to the technical scheme provided by the embodiment of the application, the method further comprises the following steps: the fourth driving module is used for controlling the fourth phototherapy module and is electrically connected with the main control module, and the fourth driving module is configured to provide driving voltage for the fourth phototherapy module;

the main control module is configured to respond to an external input instruction and start the fourth driving module.

According to the technical scheme provided by the embodiment of the application, the fourth driving module comprises: a first driving unit, a second driving unit and a third driving unit for controlling the first unit, the second unit and the third unit, respectively; the main control module is configured to respond to an external input instruction and sequentially start the first driving unit, the second driving unit and the third driving unit in a reciprocating manner.

In summary, the application discloses a sleep phototherapy device and a control system for implementing adjuvant therapy.

According to the technical scheme, on one hand, the sleep phototherapy device for realizing auxiliary treatment is provided, and the first phototherapy module is arranged on the application part of the device and used for carrying out phototherapy on eyes of a user, promoting local blood circulation, relieving eye fatigue, simultaneously helping the user to sleep, carrying out phototherapy on acupuncture points around eyes, and relieving symptoms such as dry itching, lacrimation and the like of eyes caused by allergic symptoms.

Further, the structure of the ridge is also designed, namely: the elastic auxiliary sheet is additionally arranged on the bulge, the middle part of the elastic auxiliary sheet is exposed between the first through groove and the second through groove, the two ends of the elastic auxiliary sheet respectively enter the first through groove and the second through groove and are respectively fixedly connected with the inner wall of the first side, and the second phototherapy module is arranged on the part of the elastic auxiliary sheet, which enters the first through groove and the second through groove, and is used for phototherapy on two sides of the nose wing, so that the nose can be stimulated to circulate blood when rhinitis symptoms occur, and nasal obstruction and nasal hypersecretion symptoms possibly occurring at night can be effectively relieved.

Further, the part of the elastic auxiliary sheet located between the first through groove and the second through groove forms an arch structure, and the arch structure is extruded, so that the shape of the part of the elastic auxiliary sheet entering the first through groove and the second through groove can be adjusted. When the arch structure is extruded, the second phototherapy module inclines and irradiates the acupuncture points of the root of the nasal wing, so that the symptom of nasal obstruction can be relieved. Meanwhile, two wings of the nose can be extruded, and an auxiliary relieving effect is achieved.

Further, on the parts of the elastic auxiliary sheet entering the first through groove and the second through groove, hemispherical first grooves are respectively arranged on one side, relatively far away from the arch structure, of the second phototherapy module; a hollow spherical structure is arranged in the first groove; and a third phototherapy module is embedded in the spherical structure. When the arch structure is extruded, the second phototherapy module inclines and irradiates the acupuncture points of the root of the nasal wing, so that the symptom of nasal obstruction can be relieved. At this time, the fourth phototherapy module in the ball-shaped structure is turned over to be exposed out of the spherical groove, and starts to start, so that phototherapy can be performed on the Yingxiang acupoint.

Further, a second groove is formed in one end, corresponding to the eyebrow, of the raised part; a micro-curved auxiliary sheet is slidably embedded in the second groove, and the first side of the micro-curved auxiliary sheet is arranged on the fourth phototherapy module; when not in use, the micro-curved auxiliary sheet is hidden in the second groove; in use, the micro-curved auxiliary sheet is pulled to move along the central axis of the protrusion in a direction away from the bulge so that the fourth phototherapy module is exposed outside the second groove. The fourth phototherapy module can carry out thermal therapy on the Yintang acupoint, relieve rhinitis symptoms, and the massage protrusions are started, so that a better effect of relieving rhinitis is achieved.

In one aspect, the present disclosure provides a sleep phototherapy control system for implementing adjuvant therapy, the control system comprising: the main control module is used for controlling the first phototherapy module and the first driving module electrically connected with the main control module, controlling the second phototherapy module and the second driving module electrically connected with the main control module, and controlling the third phototherapy module and the third driving module electrically connected with the main control module. Further, the method further comprises the following steps: the fourth driving module is used for controlling the fourth phototherapy module and is electrically connected with the main control module, and preferably, the fourth driving module comprises: the main control module is configured to respond to an external input instruction and sequentially start the first driving unit, the second driving unit and the third driving unit in a reciprocating mode, program phototherapy can be implemented on the Yintang acupoint based on the design, the massage effect is similar, and a better phototherapy effect is achieved.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the detailed description of non-limiting embodiments, made with reference to the accompanying drawings in which:

FIG. 1 is a schematic perspective view of a sleep phototherapy device for implementing adjuvant therapy;

FIG. 2a is a schematic diagram of a sleep phototherapy device (elastic auxiliary sheet) for implementing auxiliary treatment;

FIG. 2b is a schematic diagram of a sleep phototherapy device (elastic auxiliary sheet) for implementing auxiliary treatment;

FIG. 3a is a schematic diagram of a sleep phototherapy device for performing adjuvant therapy (initial state of arch structure);

FIG. 3b is a schematic diagram of a sleep phototherapy device for achieving adjuvant therapy (arch deformed state);

fig. 4 is a schematic structural view of a sleep phototherapy apparatus for realizing adjuvant treatment (arch structure fixed state);

fig. 5 is a schematic structural view of a sleep phototherapy apparatus for realizing adjuvant treatment (arch structure fixed state);

fig. 6 is a schematic structural view of a sleep phototherapy apparatus (third through-slot) for implementing adjuvant therapy;

fig. 7 is a schematic structural view (spherical structure) of a sleep phototherapy apparatus for realizing adjuvant therapy;

fig. 7a is a schematic structural view of a sleep phototherapy apparatus for implementing adjuvant therapy (initial state of spherical structure);

fig. 7b is a schematic structural view of a sleep phototherapy apparatus for implementing adjuvant therapy (spherical structure in use state);

fig. 8 is a schematic structural view of a sleep phototherapy apparatus (micro-curved auxiliary sheet) for realizing auxiliary treatment;

FIG. 9 is a schematic diagram of the fourth phototherapy module of FIG. 8;

fig. 10 is a schematic diagram of a sleep phototherapy control system for implementing adjuvant therapy.

In the figure:

10. an application part; 11. a first substrate; 12. a first phototherapy module;

20. a bulge; 21. a second substrate; 211. a first through groove; 212. a second through slot; 22. a second groove; 23. micro-bending auxiliary tablets; 24. a fourth phototherapy module; 241. a first unit; 242. a second unit; 243. a third unit;

30. an elastic auxiliary sheet; 31. a second phototherapy module; 32. an arch structure; 321. a third through slot; 33. a first groove; 34. a spherical structure; 35. a third phototherapy module;

40. a main control module; 41. a first driving module; 42. a second driving module; 43. a third driving module; 44. a fourth driving module; 441. a first driving unit; 442. a second driving unit; 443. a third driving unit;

50. a connecting belt;

60. a first magnet;

70. a second magnet.

Detailed Description

The application is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be noted that, for convenience of description, only the portions related to the application are shown in the drawings.

It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other. The application will be described in detail below with reference to the drawings in connection with embodiments.

Embodiment one:

please refer to a schematic structure diagram of a sleep phototherapy device for implementing adjuvant therapy shown in fig. 1.

A sleep phototherapy device for implementing adjuvant therapy in fig. 1, the device comprising: two applying parts 10 arranged along a first direction and a bulge part 20 positioned between the two applying parts 10 and respectively connected with the two applying parts 10;

the application part 10 includes: a first base material 11 and a first phototherapy module 12 formed on a first side of the first base material 11;

the ridge 20 includes: and a second base material 21, wherein the middle part of the second base material 21 bends the protrusion towards the direction away from the first side, and the central axis of the protrusion is perpendicular to the first direction.

Wherein:

the application part 10, the number of which is two, is arranged along the first direction, and includes: a first substrate 11 and a first phototherapy module 12 formed on a first side of the first substrate 11. Preferably, the first substrate is made of flexible materials, rubber and TPU. Preferably, silica gel. Optionally, the surface thereof is doped with silver ions in order to improve antibacterial properties. The first base material is provided with a first phototherapy module, after the first base material is electrified, the first phototherapy module can carry out phototherapy on eyes of a user, is used for carrying out phototherapy on eyes of the user, promotes local blood circulation, relieves eye fatigue, simultaneously helps the user to sleep, carries out phototherapy on acupuncture points around eyes, and can relieve symptoms such as dry itching, lacrimation and the like of eyes caused by allergic symptoms. Alternatively, the first phototherapy module may be an LED or an OLED.

The ridge 20 includes: the second substrate 21, optionally, the second substrate 21 has a hardness greater than the hardness of the first substrate. Specifically, the middle portion of the second substrate 21 is bent away from the first side to form a protrusion, and the central axis of the protrusion is perpendicular to the first direction. Based on this design, the protrusions can be adapted to the nose of the user in order to facilitate the placement of the device. Alternatively, the two ends of the bulge may be designed integrally with the application part, or may be detachably connected, such as by clamping or gluing.

It will be appreciated that the two sides of the application portion are provided with a connecting band 50 which can be easily fixed on the side of the application portion away from each other.

Referring to fig. 2a, in another preferred embodiment, the method further comprises: an elastic auxiliary sheet 30 provided on the second side of the second base material 21;

referring to fig. 2b, the second substrate 21 is provided with a first through groove 211 and a second through groove 212 symmetrically distributed on two sides of the central axis of the protrusion; optionally, the first through groove and the second through groove extend along the direction of the central axis;

the two ends of the elastic auxiliary sheet 30 respectively enter the first through groove 211 and the second through groove 212 and are respectively fixedly connected with the inner wall of the protrusion on the first side;

the parts of the elastic auxiliary sheets 30 entering the first through grooves 211 and the second through grooves 212 are provided with second phototherapy modules 31.

Wherein:

the elastic auxiliary sheet 30 is made of elastic material, so that two ends of the elastic auxiliary sheet can enter the first through groove and the second through groove respectively corresponding to two ends of the elastic auxiliary sheet.

The two ends of the elastic auxiliary sheet 30 respectively enter the first through groove 211 and the second through groove 212 and are respectively fixedly connected with the inner wall of the protrusion on the first side; based on this design, the elastic auxiliary sheet can form two symmetrically arranged areas on the side wall of the first side of the bulge, and in addition, the areas are obliquely arranged in view of the fact that an oblique structure is formed between any one of two ends of the elastic auxiliary sheet and the inner wall of the bulge located on the first side.

Specifically, the second phototherapy module 31 is disposed on the portion of the elastic auxiliary sheet 30 that enters the first through groove 211 and the second through groove 212. With this design, the second phototherapy module can obliquely perform phototherapy on the nasal wings. The Yingxiang acupoint is mainly irradiated, and the acupoint is named as Jing-Yi-Hai-Ji-Yi-Ji-Hui-Ji-Yi-Ji, and is named as nasal obstruction, nasal wear and nose penetration; is positioned at the junction of the nasal alar cartilage and the turbinate, near the upper end of the nasal labial sulcus, and has the function of clearing nasal orifices.

In an application scene, the second phototherapy module carries out phototherapy on two sides of the nasal wings, and when rhinitis symptoms occur, the nasal phototherapy module can stimulate blood circulation of the nasal part, so that nasal obstruction and nasal hypersecretion symptoms possibly occurring at night are effectively relieved.

In the design of fig. 2, the second phototherapy module is used for phototherapy on the nasal wings, but when symptoms of nasal hypersecretion are obvious, the phototherapy module needs to be applied to key acupoints, in order to adjust the illumination angle of the second phototherapy module, please refer to fig. 3a and fig. 3b, in another preferred embodiment, the portion of the elastic auxiliary sheet 30 located between the first through groove 211 and the second through groove 212 forms an arch structure 32, and the arch structure 32 is pressed, so that the shape of the portion of the elastic auxiliary sheet 30 entering the first through groove 211 and the second through groove 212 can be adjusted.

In fig. 3a, an initial state of the arch structure is: the light of the second phototherapy module mainly acts on the nose wing when the deformation does not occur.

In fig. 3b, a downward extrusion force is applied to the arch structure, so that the arch structure drives the elastic auxiliary sheet to enter the first through groove and the second through groove to deform simultaneously, and drives the second phototherapy module to incline downwards, so that the light of the second phototherapy module inclines downwards and can meet the fragrance of the root of the nose. Ying Xiang point is one of the acupoints of human body, belonging to the large intestine meridian of hand yang, and coming from the "Jia Yi Jing" in acupuncture. This acupoint is located near the midpoint of the outer edge of the nose wing, and is located in the nasolabial folds; has effects of dispelling pathogenic wind and heat, and relieving nasal obstruction; is mainly used for treating nasal obstruction and other diseases.

Based on the design of fig. 3a and 3b, to facilitate fixing the deformation of the arch, the following embodiments can be used to free the hands of the user:

in the embodiment shown in fig. 4, the thickness of the arch 32 is greater than that of the elastic auxiliary sheet 30, and the position of the arch 32 can be defined when the arch 32 is pressed to the point where both ends of the arch 32 are fixedly connected with the first through-slot 211 and the second through-slot 212, respectively.

In fig. 4, the arch structure includes three parts, a base part in the middle and side wing parts symmetrically arranged at two ends of the base part, and when downward force is applied to the arch structure 32, the side wing parts corresponding to the first through groove are tightly fixedly connected with the first through groove, the end of the elastic auxiliary piece is deformed and fixed.

Correspondingly, when downward force is applied to the arch structure to tightly fix the side wing part corresponding to the second through groove on the arch structure 32 with the second through groove, the end of the elastic auxiliary sheet is deformed and fixed.

Preferably, the thickness of the arch 32 decreases gradually from the middle to the sides.

In the embodiment shown in fig. 5, the first magnets 60 are respectively disposed on the inner walls of the first through grooves 211 and the second through grooves 212; the arch structure 32 is provided with a second magnet 70 which is attracted to the first magnet.

In the embodiment of fig. 5, the thickness of the arch structure may be not significantly changed, and the second magnets are symmetrically disposed on both sides of the arch structure.

When a downward force is applied to the arch structure to the second magnet on the arch structure 32 and the first magnet on the first through groove are tightly fixedly connected, the end of the elastic auxiliary piece is deformed and fixed.

When a downward force is applied to the arch structure to tightly fix the second magnet on the arch structure 32 and the first magnet on the second through slot, the end of the elastic auxiliary piece is deformed and fixed.

Referring to fig. 6, the arch structure 32 is embedded with a third through slot 321, and the third through slot 321 may form a space capable of accommodating the nose piece. Under the irradiation of the second phototherapy module, the elastic auxiliary sheet gradually heats up, and the nose patch can be used. The nose-smoothing patch can be any commercial product currently available on the market.

Embodiment two:

based on any of the above embodiments, the present embodiment further optimizes the design of the elastic auxiliary sheet based on the design of the elastic auxiliary sheet, as shown in fig. 7:

the parts of the elastic auxiliary sheet 30 entering the first through groove 211 and the first through groove 212 are respectively provided with a hemispherical first groove 33 on one side of the second phototherapy module 31 relatively far from the arch structure 32; a hollow spherical structure 34 is arranged in the first groove 33; the spherical structure 34 is embedded with a third phototherapy module 35.

The elastic auxiliary sheet 30 is symmetrically provided with a hemispherical first groove, specifically, a part of the first groove relatively close to the nose tip of the user.

In fig. 7, the first groove is embedded with a hollow spherical structure, alternatively, the spherical structure may be composed of two hemispherical structures fastened to each other, specifically, the third phototherapy module is disposed in the spherical structure, and the power supply circuit penetrates through the spherical structure, and the first groove is provided with a position for supplying power, that is, being able to be connected with the power supply circuit, so that after the third phototherapy module in the spherical structure is ensured to supply power, the spherical structure is embedded in the first groove.

In a specific application scenario, the spherical structure is located on the side of the second phototherapy module 31 relatively far from the arch structure 32, i.e. the third phototherapy module can be closer to the fragrance receiving point than the second phototherapy module.

Under the design, after the third phototherapy module is started, the targeted phototherapy on the Yingxiang acupoint can be realized. In this embodiment, phototherapy on the Yingxiang acupoint can be realized without adjusting the position of the second phototherapy module.

Alternatively, referring to fig. 7a and 7b, the ball structure 34 is rotatably connected in the first recess 33.

The two ends of the spherical structure are connected with the first groove through the two connecting rods, the connecting rods are hollow, the power supply line is convenient to introduce, and the two connecting rods can be rotatably connected with the first groove, so that the spherical structure can rotate in the first groove.

Based on the above design, the third phototherapy module 35 within the spherical structure 34 is directed towards the first recess 33 when the arch structure 32 is not pressed.

Upon squeezing the arch 32, the spherical structure 34 rotates therewith, so that the third phototherapy module 35 within the spherical structure 34 rotates toward the outside. In fig. 7b, when a downward external force is applied to the arch structure, both sides of the elastic auxiliary sheet move downward, and during this process, the spherical structure rotates, so that the fixing structure of the spherical structure is not shown therein in the view of fig. 7b, because the fixing structure is parallel to the central axis of the protrusion.

Under this design, can make third phototherapy module and second phototherapy module combine the use, specific application scenario is as follows:

in the initial state, the second phototherapy module is started to carry out phototherapy on the nasal wings, and at the moment, the third phototherapy module is not started.

And extruding the arch structure to enable the second phototherapy module to incline and irradiate the root of the nasal wing, and simultaneously starting the rotation of the spherical structure and starting the third phototherapy module. In the process, reliable phototherapy near the Yingxiang acupoint can be realized, meanwhile, extrusion of the Yingxiang acupoint can be applied by utilizing the spherical structure, and when the third phototherapy module is started, extrusion thermotherapy can be carried out near the Yingxiang acupoint by utilizing the spherical structure, so that the treatment of rhinitis can be effectively assisted after long-term use.

Embodiment III:

with reference to fig. 8, in addition to any of the above embodiments, a second groove 22 is formed at an end of the raised portion 20 corresponding to the eyebrow center; the second groove 22 is slidably embedded with a micro-curved auxiliary sheet 23, and a first side of the micro-curved auxiliary sheet 23 is provided with a fourth phototherapy module 24.

Specifically, based on the protruding design on the bulge, the second recess presents certain curved structure, the embedded micro-curved auxiliary piece that is equipped with adaptation its shape of second recess, micro-curved auxiliary piece with second recess sliding connection for it can expose outside the second recess under the exogenic action, also can return in the second recess under the exogenic action.

Namely:

when not in use, the micro-curved auxiliary sheet 23 is buried in the second groove 22.

In use, the micro-curved auxiliary sheet 23 is pulled to move along the protrusion axis in a direction away from the raised portion 20 so that the fourth phototherapy module 24 is exposed outside the second recess 22.

According to the existing Chinese medicine theory, the Yintang acupoint has the functions of improving eyesight and relieving stuffy nose, and the Yintang acupoint is positioned on the face when the intersection point of the connecting line between two eyebrows and the front midline is the point.

When the novel multifunctional therapeutic device is used, the fourth phototherapy module can carry out phototherapy on the Yintang acupoint after being started, so that rhinitis symptoms are relieved, the massage protrusions are started, frequency massage can be carried out on the periphery of the Yintang acupoint, and a better effect of relieving rhinitis is achieved.

The effect of the auxiliary treatment can be better achieved by combining the effect of the second phototherapy module in the first embodiment or the effect of the third phototherapy module in the second embodiment.

Preferably, referring to fig. 9, the specific distribution structure of the fourth phototherapy module 24 is further provided in this embodiment, and the specific distribution structure includes at least three first units 241, second units 242, and third units 243 distributed along the central axis of the protrusion from the side close to the protrusion to the side far from the protrusion.

In a specific driving process, the first unit 241, the second unit 242 and the third unit 243 can be powered sequentially, and the steps are performed in a reciprocating manner, so that the program phototherapy of the Yintang acupoint and the nearby area can be realized, and the massage-like effect can be achieved.

Embodiment four:

referring to fig. 10, a sleep phototherapy control system for implementing adjuvant therapy, comprising: a driving device for controlling the sleep phototherapy device for implementing adjuvant therapy according to the first aspect, the driving device comprising: a main control module 40; a first driving module 41 for controlling the first phototherapy module 12 and electrically connected to the main control module 40, the first driving module being configured to provide a driving voltage for the first phototherapy module 12; preferably, a second driving module 42 for controlling the second phototherapy module 31 and electrically connected to the main control module 40, the second driving module being configured to provide a driving voltage to the second phototherapy module 31; preferably, a third driving module 43 for controlling the third phototherapy module 35 and electrically connected to the main control module 40, the third driving module being configured to provide a driving voltage to the third phototherapy module 35; the main control module 40 is configured to respond to an external input instruction, and start the first driving module, and/or the second driving module, and/or the third driving module.

Optionally, the main control module can be a single chip microcomputer, and the specific model can be referred to the market model.

The first driving module 41 is a conventional driving module capable of driving a first phototherapy module, such as an LED or an OLED.

The second driving module 42 is a conventional driving module capable of driving the first phototherapy module, such as an LED or an OLED.

The third driving module 43 is a conventional driving module capable of driving the first phototherapy module, such as an LED or an OLED.

Preferably, the method further comprises: a fourth driving module 44 for controlling the fourth phototherapy module 24 and electrically connected to the main control module 40, the fourth driving module being configured to provide a driving voltage for the fourth phototherapy module 24; the main control module 40 is configured to respond to an external input command and start the fourth driving module.

The fourth driving module 44 is a conventional driving module capable of driving the first phototherapy module, such as an LED or an OLED.

Preferably, when the fourth driving module 44 includes: the main control module 40 is configured to respond to an external input command when the first driving unit 241, the second driving unit 242, and the third driving unit 243 are respectively controlled, and to sequentially and reciprocally start the first driving unit 441, the second driving unit 442, and the third driving unit 443.

Specifically, the first unit 241, the second unit 242, and the third unit 243 are independently controlled for the partition.

The first driving unit 441 corresponds to the first unit 241.

The second driving unit 442 corresponds to the second unit 242.

The third driving unit 443 corresponds to the third unit 243.

The control logic is specifically as follows:

activating the first driving unit 441 to supply power to the first unit 241;

after a preset period of time, stopping supplying power to the first unit 241, and simultaneously, starting the second driving unit 442 to supply power to the second unit 242;

after a preset period of time, stopping supplying power to the second unit 242, and simultaneously, starting the third driving unit 443 to supply power to the third unit 243;

after a preset period of time, stopping supplying power to the third unit 243; meanwhile, the first driving unit 441 is started to supply power to the first unit 241; and so on, the reciprocating cycle.

Based on the control method, the massage-like effect can be realized in the Yintang acupoint and the nearby area, and the temperature cannot be too high, so that the massage-like massage device is more suitable for popularization and use. .

The above description is only illustrative of the preferred embodiments of the present application and of the principles of the technology employed. It will be appreciated by persons skilled in the art that the scope of the application referred to in the present application is not limited to the specific combinations of the technical features described above, but also covers other technical features formed by any combination of the technical features described above or their equivalents without departing from the inventive concept. Such as the above-mentioned features and the technical features disclosed in the present application (but not limited to) having similar functions are replaced with each other.

Claims (15)

1. A sleep phototherapy device for realizing auxiliary treatment is characterized in that,

the device comprises: two applying parts arranged along the first direction and a bulge part which is positioned between the two applying parts and is respectively connected with the two applying parts;

the application part includes: the eye mask comprises a first base material and a first phototherapy module formed on a first side of the first base material, wherein the first phototherapy module is used for phototherapy of eyes of a user and phototherapy of acupuncture points around eyes at the same time;

the ridge includes: the middle part of the second base material is bent to form a protrusion in a direction away from the first side, and the central axis of the protrusion is perpendicular to the first direction;

the sleep phototherapy device further includes: an elastic auxiliary sheet arranged on the second side of the second base material;

the second substrate is provided with a first through groove and a second through groove which are symmetrically distributed on two sides of the central axis of the protrusion; two ends of the elastic auxiliary sheet respectively enter the first through groove and the second through groove and are respectively fixedly connected with the inner wall of the protrusion on the first side;

the parts of the elastic auxiliary sheets entering the first through groove and the second through groove are provided with second phototherapy modules, and the second phototherapy modules are used for phototherapy on two sides of the nose wing.

2. A sleep phototherapy device for effecting adjuvant therapy as claimed in claim 1, wherein:

the part of the elastic auxiliary sheet, which is positioned between the first through groove and the second through groove, forms an arch structure, and the arch structure is extruded, so that the shape of the part of the elastic auxiliary sheet, which enters the first through groove and the second through groove, can be adjusted.

3. A sleep phototherapy device for effecting adjuvant therapy as claimed in claim 2, wherein:

the thickness of the arch structure is larger than that of the elastic auxiliary sheet, and when the arch structure is extruded to the two ends of the arch structure to be fixedly connected with the first through groove and the second through groove respectively, the position of the arch structure can be limited.

4. A sleep phototherapy device for effecting adjuvant therapy as claimed in claim 2, wherein:

the thickness of the arch structure gradually decreases from the middle part to the two sides.

5. A sleep phototherapy device for effecting adjuvant therapy as claimed in claim 2, wherein:

the inner walls of the first through groove and the second through groove are respectively provided with a first magnet; the upper part of the arch structure is symmetrically provided with a second magnet which is attracted with the first magnet.

6. A sleep phototherapy device for use in achieving adjuvant therapy according to any of claims 2 to 5, wherein:

the arch structure is embedded to be equipped with the third tee bend groove, the space that can hold the nose piece can be formed to the third tee bend groove.

7. A sleep phototherapy device for use in achieving adjuvant therapy according to any of claims 1 to 5, wherein:

the elastic auxiliary sheet is provided with a hemispherical first groove on one side, which is relatively far away from the arch structure, of the second phototherapy module on the part which enters the first through groove and the second through groove;

a hollow spherical structure is arranged in the first groove;

and a third phototherapy module is embedded in the spherical structure.

8. A sleep phototherapy device for achieving adjuvant therapy as claimed in claim 7, wherein:

the spherical structure is rotatably connected in the first groove;

when the arch-shaped structure is not extruded, the third phototherapy module in the spherical structure faces the first groove;

when the arch-shaped structure is pressed, the spherical structure rotates along with the arch-shaped structure, so that the third phototherapy module in the spherical structure rotates to face outwards.

9. A sleep phototherapy device for use in achieving adjuvant therapy according to any of claims 1 to 5, wherein:

a second groove is formed in one end, corresponding to the eyebrow center, of the raised part;

a micro-curved auxiliary sheet is slidably embedded in the second groove, and the first side of the micro-curved auxiliary sheet is arranged on the fourth phototherapy module;

when not in use, the micro-curved auxiliary sheet is hidden in the second groove;

in use, the micro-curved auxiliary sheet is pulled to move along the central axis of the protrusion in a direction away from the bulge so that the fourth phototherapy module is exposed outside the second groove.

10. A sleep phototherapy device for effecting adjunctive therapy as claimed in claim 9, wherein:

the fourth phototherapy module comprises at least three first units, second units and third units which are distributed from one side close to the protrusion to one side far from the protrusion along the central axis of the protrusion;

in the specific driving process, the first unit, the second unit and the third unit can be powered in sequence, and the power supply is performed repeatedly in this way, so that the program phototherapy of the Yintang acupoint and the nearby area can be realized, and the massage-like effect is achieved.

11. A sleep phototherapy control system for effecting adjuvant therapy, comprising: a driving device for controlling a sleep phototherapy device for implementing adjuvant therapy according to any one of claims 1 to 10,

the driving device includes:

a main control module;

the first driving module is used for controlling the first phototherapy module and is electrically connected with the main control module, and the first driving module is configured to provide driving voltage for the first phototherapy module.

12. A sleep phototherapy device for effecting adjunctive therapy as defined in claim 11, wherein:

the driving device further comprises a second driving module which is used for controlling and controlling the second phototherapy module and is electrically connected with the main control module, and the second driving module is configured to provide driving voltage for the second phototherapy module.

13. A sleep phototherapy device for effecting adjunctive therapy as defined in claim 12, wherein:

the driving device further comprises a third driving module which is used for controlling and controlling a third phototherapy module and is electrically connected with the main control module, and the third driving module is configured to provide driving voltage for the third phototherapy module;

the main control module is configured to respond to an external input instruction, and start the first driving module, and/or the second driving module, and/or the third driving module.

14. A sleep phototherapy control system for implementing adjuvant therapy as claimed in claim 13, wherein:

further comprises: the fourth driving module is used for controlling the fourth phototherapy module and is electrically connected with the main control module, and the fourth driving module is configured to provide driving voltage for the fourth phototherapy module;

the main control module is configured to respond to an external input instruction and start the fourth driving module.

15. A sleep phototherapy control system for implementing adjuvant therapy as claimed in claim 14, wherein:

the fourth driving module includes: the first driving unit, the second driving unit and the third driving unit are respectively used for controlling the first unit, the second unit and the third unit;

the main control module is configured to respond to an external input instruction and sequentially start the first driving unit, the second driving unit and the third driving unit in a reciprocating manner.