CN114167624A - Glasses - Google Patents

Abstract

The embodiment of the invention discloses a pair of glasses. The glasses comprise a glasses frame, a nose plug connecting structure, a nose plug and a driving device; the spectacle frame is connected with the nose plug connecting structure, and the nose plug connecting structure is arranged at the position of the spectacle frame corresponding to the nasal cavity; the nose plug comprises a main body and a first light-emitting structure, and the main body is connected with the nose plug connecting structure; the body is provided with at least one hole, and the first light-emitting structure is arranged on the surface of the body and exposes the hole; the driving device is arranged in the mirror bracket, electrically connected with the first light-emitting structure and used for driving the first light-emitting structure to emit light. According to the embodiment of the invention, the first light-emitting structure is controlled to emit red light, so that capillaries around the nasal cavity are expanded, blood circulation and metabolism are promoted, the tissue regeneration capacity is increased, the immunity of the organism is improved, the effects of inhibiting rhinitis and protecting the nasal cavity are achieved, and the skin is not damaged by long-time irradiation. The holes arranged on the main body can ensure the smoothness of the nasal cavity on the basis of inhibiting rhinitis, and improve the breathing comfort of the patient.

Description

Glasses

Technical Field

The embodiment of the invention relates to the technical field of optical medical treatment, in particular to a pair of glasses.

Background

Rhinitis, an inflammatory disease of the nasal cavity, is inflammation of the mucous membrane of the nasal cavity caused by viruses, bacteria, allergens, various physicochemical factors and certain systemic diseases. The main pathological changes of rhinitis are congestion, swelling, exudation, hyperplasia, atrophy or necrosis of the nasal mucosa. After the cells are irradiated by red light, the catalase activity of mitochondria is increased, so that the metabolism of the cells can be increased, and the cells can enter blood circulation; meanwhile, the phagocytosis of white blood cells is increased, and the immune function of the organism is improved, so that the nasal cavity is protected, and the rhinitis symptom is inhibited.

At present, the medical nasal plug mainly adopts laser as a light source, and the light emitted by the laser has a single direction, and the long-time irradiation can cause harm to the skin.

Disclosure of Invention

The invention provides a pair of glasses, which aims to realize the directional divergence of an emission light source, the emitted flexible light source irradiates a nasal cavity through a hole arranged on a main body of a nose plug, the skin cannot be damaged by long-time irradiation, the treatment effect of nasal cavity rhinitis is improved, and the treatment comfort of a patient is ensured.

The embodiment of the invention provides glasses, which comprise a glasses frame, a nose plug connecting structure, a nose plug and a driving device, wherein the nose plug is arranged in the glasses frame;

the spectacle frame is connected with a nose plug connecting structure, and the nose plug connecting structure is arranged at a position of the spectacle frame corresponding to a nasal cavity; the nasal plug comprises a main body and a first light-emitting structure, and the main body is connected with the nasal plug connecting structure; the body is provided with at least one hole, and the first light-emitting structure is arranged on the surface of the body and exposes the hole; the driving device is arranged in the mirror bracket, electrically connected with the first light-emitting structure and used for driving the first light-emitting structure to emit light.

Optionally, the glasses further comprise a nose pad, the nose pad is connected with the glasses frame, and the nose pad is arranged at a position of the glasses frame corresponding to a nose bridge;

and a second light-emitting structure is arranged on one side of the nose support facing the nose bridge, the second light-emitting structure is electrically connected with the driving device, and the driving device is also used for driving the second light-emitting structure to emit light.

Optionally, the first light emitting structure and the second light emitting structure are connected in parallel.

Optionally, the driving device includes a first driving unit and a second driving unit, the first driving unit is electrically connected to the first light emitting structure, and the first driving unit is configured to drive the first light emitting structure to emit light; the second driving unit is electrically connected with the second light-emitting structure and used for driving the second light-emitting structure to emit light.

Optionally, the second light emitting structure is disposed on the nose pad, or the second light emitting structure is embedded in the nose pad.

Optionally, the second light emitting structure is attached to a surface of the nose pad facing the nose bridge;

the perpendicular projection of the second light-emitting structure on the surface of the nose support facing the nose bridge covers the surface of the nose support facing the nose bridge.

Optionally, when the first light emitting structure is a strip light emitting structure, the first light emitting structure is wound on the surface of the main body; when the first light-emitting structure is a blocky light-emitting structure, the first light-emitting structure is attached to the surface of the main body.

Optionally, the nasal prong further comprises an encapsulation layer covering the first light emitting structure.

Optionally, the material of the nasal plug connecting structure is a bendable material.

Optionally, the glasses frame comprises a glasses leg, the glasses leg is of a hollow structure, and the driving device is arranged in the glasses leg.

The technical scheme of this embodiment can be through controlling first light emitting structure red light for the nasal cavity capillary vasodilatation all around promotes blood circulation and metabolism, increases the regeneration ability of tissue, improves the immunocompetence of organism, thereby plays the effect of suppressing rhinitis, health care nasal cavity, and long-time irradiation can not produce harm to skin. Meanwhile, the holes are arranged on the main body, so that the smoothness of the nasal cavity can be guaranteed on the basis of rhinitis inhibition and nasal cavity health care, and the breathing comfort of a patient can be guaranteed.

Drawings

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

FIG. 2 is a schematic structural diagram of a main body according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of another pair of spectacles according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a nose pad according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of another nose pad provided by an embodiment of the invention;

FIG. 6 is a schematic diagram of a first light-emitting structure according to an embodiment of the present invention;

fig. 7 is a schematic diagram of another first light-emitting structure according to an embodiment of the invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Fig. 1 is a schematic structural view of glasses according to an embodiment of the present invention, and referring to fig. 1, the glasses according to the embodiment of the present invention include a frame 10, a nasal prong connecting structure 20, nasal prongs 30, and a driving device 40; the spectacle frame 10 is connected with the nasal plug connecting structure 20, and the nasal plug connecting structure 20 is arranged at the position of the spectacle frame 10 corresponding to the nasal cavity; the nasal prong 30 comprises a main body 301 and a first light emitting structure 302, wherein the main body 301 is connected with the nasal prong connecting structure 20; the main body 301 has at least one hole, and the first light emitting structure 302 is disposed on a surface of the main body 301 and exposes the hole; the driving device 40 is disposed in the frame 10, the driving device 40 is electrically connected to the first light emitting structure 302, and the driving device 40 is configured to drive the first light emitting structure 302 to emit light.

Specifically, the nasal plug connecting structure 20 is disposed at a position of the frame 10 corresponding to the nasal cavity, and when the rhinitis patient wears the glasses, the nasal plugs 30 on the nasal plug connecting structure 20 can extend to the nasal cavity. The first light emitting structure 302 can emit dispersed red light, the first light emitting structure 302 is disposed on the surface of the main body 301, and when the main body 301 is connected to the nasal prong connecting structure 20, the first light emitting structure 302 can extend to the nasal cavity along with the nasal prong connecting structure 20. The drive mechanism 40 is disposed within the frame 10. the drive mechanism 40 includes wiring, a removable power source, and a switch 401. Illustratively, the removable power source may be a battery. The detachable power source is connected to the first light emitting structure 302 by a wire. Illustratively, the arc-shaped portion of the frame 10 is provided with a via through which wires extend to the outside of the frame 10, and the leads of the first light emitting structure 302 are connected to the detachable power source via wires inside the arc-shaped frame 10. The switch 401 may control a conducting state between the detachable power source and the first light emitting structure 302, and when the switch 401 is turned on, the detachable power source provides power to the first light emitting structure 302, so that the first light emitting structure 302 emits red light, illustratively, the light emitted by the first light emitting structure 302 in the nasal cavity is red light. When the glasses are used for treating rhinitis, the patient wears the glasses, then the nasal plug 30 on the nasal plug connection structure 20 that corresponds the setting with the nasal cavity extends to nasal cavity department, and make drive arrangement 40 drive first light emitting structure 302 luminous, make the red light of dispersion light ray irradiation of first light emitting structure 302 department to nasal cavity department, make nasal cavity capillary vessel expansion all around, promote blood circulation and metabolism, increase the regeneration capacity of tissue, improve the immunocompetence of organism, thereby play and restrain rhinitis, the effect of health care nasal cavity, and long-time irradiation can not produce harm to skin. Simultaneously, main part 301 has the hole, exposes this hole when first light emitting structure 302 sets up in main part 301 surface, can restrain rhinitis at first light emitting structure 302, guarantees the unobstructed of nasal cavity on the basis of health care nasal cavity to can guarantee patient's breathing comfort level.

Fig. 2 is a schematic structural view of a main body provided by an embodiment of the present invention, and referring to fig. 1 and 2, the main body 301 is shaped to fit the nasal cavity. The material of the main body 301 may be made of porous material, or when there is no pore in the material of the main body 301, the main body 301 is made of porous material, for example, the main body 301 may be a glue stick suitable for the shape of the nasal cavity. The main body 301 has at least one hole, which means that the number of the holes may be one or more than one, and the specific number of the holes in the embodiment of the present invention is not limited, and may be set according to actual needs. The arrangement of the holes can ensure that the nostrils breathe more smoothly during examination of a patient, and the humanized design can improve the treatment satisfaction of the patient.

The technical scheme of this embodiment can be through controlling first light emitting structure red light for the nasal cavity capillary vasodilatation all around promotes blood circulation and metabolism, increases the regeneration ability of tissue, improves the immunocompetence of organism, thereby plays the effect of suppressing rhinitis, health care nasal cavity, and long-time irradiation can not produce harm to skin. Meanwhile, the holes are arranged on the main body, so that the smoothness of the nasal cavity can be guaranteed on the basis of rhinitis inhibition and nasal cavity health care, and the breathing comfort of a patient can be guaranteed.

With continued reference to fig. 1, optionally, the frame 10 includes a temple 60, the temple 60 being hollow, and the driver being disposed within the temple 60.

The glasses legs 60 at the two sides of the glasses frame 10 are of a hollow structure, the driving device 40 is arranged in the glasses legs 60, the driving device 40 comprises a power supply, a driving circuit and a switch 401, the driving circuit is electrically connected with the first light-emitting structure 302 and the second light-emitting structure through leads in the arc-shaped glasses frame 10, and the switch 401 controls the light-emitting structure to emit light, so that irradiation treatment on nasal sinuses and nasal cavities is achieved. The hollow structure of the temple 60 can reduce the weight of the frame 10 and improve the comfort of treatment; on the other hand, the detachable power supply can be conveniently replaced, and the influence of too many external circuits on the whole attractiveness of the spectacle frame 10 is avoided.

Fig. 3 is a schematic structural view of another glasses according to an embodiment of the present invention, and referring to fig. 3, the glasses further optionally include a nose pad 50, the nose pad 50 is connected to the frame 10, and the nose pad 50 is disposed at a position of the frame 10 corresponding to a bridge of the nose; the second light emitting structure 303 is disposed on a side of the nose pad 50 facing the nose bridge, the second light emitting structure 303 is electrically connected to the driving device 40, and the driving device 40 is further configured to drive the second light emitting structure 303 to emit light.

Specifically, the nose pads 50 are made of silicone, and the nose pads 50 and the frame 10 can be connected in a nested manner. It should be noted that in other embodiments, the nose piece 50 and the frame 10 can be adhered using glue. Illustratively, as shown in fig. 3, the nose pads 50 are designed to be symmetrical with respect to the midline of the nose bridge, and the left and right nasal plugs 30 are respectively arranged at equal intervals and symmetrically on both sides of the nose pads 50. The second light-emitting structure 303 disposed on one side of the nested nose pad 50 facing the nose bridge is electrically connected to the driving device 40 through a lead in the arc-shaped frame 10, and the second light-emitting structure 303 emits red light within the range of 600-700nm by controlling the switch 401 in the driving device 40, so as to realize the illumination of the position of the nasal sinuses.

Specifically, the nose holds in the palm 50 and sets up in the position that mirror holder 10 corresponds with the bridge of the nose, and when the rhinitis patient worn glasses, the second light emitting structure 303 that the nose held in the palm 50 one side towards the bridge of the nose set up can attach in sinus department, and drive arrangement 40 is connected with second light emitting structure 303, and the red light ray of control second light emitting structure 303 transmission dispersion to the realization is to shining of sinus position.

The drive mechanism 40 is disposed within the frame 10. the drive mechanism 40 includes wiring, a removable power source, and a switch 401. Illustratively, the removable power source may be a battery. The detachable power source is connected to the second light emitting structure 303 through a wire. Illustratively, the arc-shaped portion of the mirror frame 10 is provided with a switch 401 via hole through which a wire extends to the outside of the mirror frame 10, and the lead of the second light emitting structure 303 is connected to the detachable power source through the wire inside the arc-shaped mirror frame 10. The switch 401 may control the conduction state between the detachable power source and the second light emitting structure 303, and when the switch 401 is turned on, the detachable power source provides power to the second light emitting structure 303, so that the second light emitting structure 303 emits red light. Illustratively, the light emitted by the second light emitting structure 303 at the surface of the sinus is red light. When glasses are used for treating rhinitis, the patient wears glasses, the second light emitting structure 303 that the nose set up towards one side of the bridge of the nose of nose 50 can attach in paranasal sinus department, and make drive arrangement 40 drive second light emitting structure 303 luminous, make the red light ray of dispersion of second light emitting structure 303 transmission shine to paranasal sinus department, make paranasal sinus capillary vessel expansion all around, promote blood circulation and metabolism, increase the regeneration ability of tissue, improve the immunocompetence of organism, thereby play and restrain rhinitis, the effect of health care paranasal sinus, and shine for a long time and can not produce harm to skin.

It should be noted that two earplugs can be disposed at the ends of the side legs of the frame, and the second light emitting structure is embedded in the earplugs. When the glasses are used for treating rhinitis, a patient wears the glasses, the two earplugs are placed in ears, and dispersed red light rays emitted by the light-emitting structures in the earplugs irradiate the insides of the ears, so that ear inflammation can be treated.

The nasal support can perform irradiation treatment on the position of the nasal sinus by using the red light source emitted by the second light-emitting structure arranged on one side of the nasal support facing the nasal bridge; the red light source emitted by the first light-emitting structure on the main body of the nasal plug can also be used for irradiating the nasal cavity; the nasal sinuses and the nasal cavity can be irradiated and treated simultaneously by utilizing the two methods.

Optionally, the first and second light emitting structures are connected in parallel.

Wherein, first light emitting structure and second light emitting structure are parallelly connected to can simultaneous control, make first light emitting structure and second light emitting structure treat patient's nasal cavity region and sinus region simultaneously, thereby can increase the function of glasses, improve the effect of glasses treatment rhinitis.

Optionally, the driving device includes a first driving unit and a second driving unit, the first driving unit is electrically connected to the first light emitting structure, and the first driving unit is configured to drive the first light emitting structure to emit light; the second driving unit is electrically connected with the second light-emitting structure and used for driving the second light-emitting structure to emit light.

Specifically, the arc-shaped part of the mirror bracket is provided with a via hole, a wire extends to the outside of the mirror bracket through the via hole, and a lead of the first light-emitting structure is connected with the first driving unit through the wire in the arc-shaped mirror bracket. When the nasal cavity needs to be irradiated, the first driving unit drives the first light-emitting structure to emit light. The arc-shaped part of the mirror bracket is provided with a via hole, a wire extends to the outside of the mirror bracket through the via hole, and a lead of the second light-emitting structure is connected with the second driving unit through the wire in the arc-shaped mirror bracket. When the position of the nasal sinuses needs to be irradiated, the second driving unit drives the second light-emitting structure to emit light. When the positions of the nasal cavity and the nasal sinuses need to be irradiated, the first driving unit drives the first light-emitting structure to emit light, and the second driving unit drives the second light-emitting structure to emit light.

Fig. 4 is a schematic structural diagram of a nose pad according to an embodiment of the present invention, and fig. 5 is a schematic structural diagram of another nose pad according to an embodiment of the present invention, and referring to fig. 4 and fig. 5, optionally, the second light emitting structure 303 is disposed on the nose pad, or the second light emitting structure 303 is embedded in the nose pad.

Specifically, the second light emitting structure can be flexible OLED or LED, and when the second light emitting structure adopted flexible OLED as the treatment light source, flexible OLED set up on the nose holds in the palm, and when glasses were used for treating rhinitis, the patient wore glasses, and the second light emitting structure that sets up on the nose held in the palm can closely laminate the paranasal sinus, and drive arrangement drive second light emitting structure is luminous for the red light ray of dispersion of second light emitting structure transmission shines to paranasal sinus department. When the second light-emitting structure adopts the LEDs as the treatment light source, the single or multiple LEDs are directly embedded in the nasal support and tightly attached to the nasal sinuses, and the driving device drives the second light-emitting structure to emit light, so that the dispersed red light rays emitted by the second light-emitting structure irradiate to the nasal sinuses.

Optionally, the second light emitting structure is attached to the surface of the nose pad facing the nose bridge; the perpendicular projection of the second light emitting structure on the surface of the nose support facing the nose bridge covers the surface of the nose support facing the nose bridge.

Wherein, the second light emitting structure is attached to the face of the nose support facing the nose bridge, when the glasses are used for treating rhinitis, the patient wears the glasses, the second light emitting structure arranged on the face of the nose support facing the nose bridge is attached to the face of the nose support facing the nose bridge and tightly attached to the paranasal sinus, and the driving device drives the second light emitting structure to emit light, so that the dispersed red light rays emitted by the second light emitting structure irradiate to the paranasal sinus. The second light emitting structure holds in the palm the perpendicular projection on the surface of the nose bridge of orientation in the nose and covers the face that the nose held in the palm towards the nose bridge in order to ensure that second light emitting structure can wrap up the nose and hold in the palm in order to guarantee bigger light emitting area, and the ruddiness to the emission of sinus position makes the capillary dilation, promotes blood circulation and metabolism, increases the regeneration ability of tissue, improves the immunocompetence of organism to play the suppression rhinitis, realize the treatment to the sinus.

Fig. 6 is a schematic view of a first light emitting structure according to an embodiment of the present invention, fig. 7 is a schematic view of another first light emitting structure according to an embodiment of the present invention, and referring to fig. 6 and fig. 7, optionally, when the first light emitting structure 302 is a stripe light emitting structure, the first light emitting structure 302 is wound on a surface of the main body 301; when the first light emitting structure 302 is a block light emitting structure, the first light emitting structure 302 is attached to the surface of the main body 301.

Specifically, the first light emitting structure 302 may be a bar light emitting structure or a block light emitting structure, and both the bar light emitting structure and the block light emitting structure may be flexible OLEDs. When the glasses are used for treating rhinitis, when a patient wears the glasses, the nasal plugs on the nasal plug connecting structures corresponding to the nasal cavities extend to the nasal cavities, and the driving device drives the first light-emitting structures 302 to emit light, so that the dispersed red light rays emitted by the first light-emitting structures 302 irradiate the nasal cavities. When the first light-emitting structure 302 is a strip-shaped light-emitting structure, referring to fig. 6, the first light-emitting structure 302 is wound on the surface of the main body 301 and emits red light within the range of 600-700nm to the periphery of the nasal cavity; when the first light emitting structure 302 is a block light emitting structure, referring to fig. 7, the first light emitting structure 302 is attached to the surface of the main body 301 and emits red light within the range of 600-700nm to the periphery of the nasal cavity.

Optionally, the nasal prong further comprises an encapsulation layer covering the first light emitting structure.

Wherein, the material of encapsulation layer can select for use resin material or flexible material, and the encapsulation layer covers first light emitting structure and can plays the effect of hindering water oxygen, plays the guard action to light emitting structure.

Optionally, the material of the nasal prong connecting structure is a bendable material.

The nasal plug connecting structure is made of bendable material, and can be bent to positions out of the way such as cheeks when not being treated, so that a patient can conveniently adjust the position of the nasal plug. For example, a bendable metal tube or a plastic tube is adopted to facilitate the patient to adjust the position of the nasal plug.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. A pair of glasses is characterized by comprising a glasses frame, a nose plug connecting structure, a nose plug and a driving device;

the spectacle frame is connected with a nose plug connecting structure, and the nose plug connecting structure is arranged at a position of the spectacle frame corresponding to a nasal cavity; the nasal plug comprises a main body and a first light-emitting structure, and the main body is connected with the nasal plug connecting structure; the body is provided with at least one hole, and the first light-emitting structure is arranged on the surface of the body and exposes the hole; the driving device is arranged in the mirror bracket, electrically connected with the first light-emitting structure and used for driving the first light-emitting structure to emit light.

2. The eyeglasses according to claim 1, further comprising a nose pad connected to the frame, the nose pad being disposed at a position of the frame corresponding to a nose bridge;

and a second light-emitting structure is arranged on one side of the nose support facing the nose bridge, the second light-emitting structure is electrically connected with the driving device, and the driving device is also used for driving the second light-emitting structure to emit light.

3. The eyewear of claim 2, wherein the first and second light emitting structures are connected in parallel.

4. The eyeglasses according to claim 2, wherein the driving device comprises a first driving unit and a second driving unit, the first driving unit is electrically connected with the first light-emitting structure, and the first driving unit is used for driving the first light-emitting structure to emit light; the second driving unit is electrically connected with the second light-emitting structure and used for driving the second light-emitting structure to emit light.

5. The eyeglasses according to claim 2, wherein the second light-emitting structure is disposed on the nose pad or embedded in the nose pad.

6. The eyeglasses according to claim 5, wherein the second light-emitting structure is attached to the surface of the nose pad facing the bridge of the nose;

the perpendicular projection of the second light-emitting structure on the surface of the nose support facing the nose bridge covers the surface of the nose support facing the nose bridge.

7. The eyeglasses according to claim 1, wherein when the first light-emitting structure is a strip-shaped light-emitting structure, the first light-emitting structure is wound on the surface of the main body; when the first light-emitting structure is a blocky light-emitting structure, the first light-emitting structure is attached to the surface of the main body.

8. The eyewear of claim 1, wherein the nasal prongs further comprise an encapsulation layer covering the first light emitting structure.

9. The eyeglasses according to claim 1, wherein the material of the nasal prong connecting structure is a bendable material.

10. The eyeglasses according to claim 1, wherein the frame comprises a temple arm, the temple arm is of a hollow structure, and the driving device is disposed in the temple arm.

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