CN114010953B - Phototherapy main part and nose treatment device - Google Patents

Abstract

The application discloses phototherapy main part and nose treatment device. Comprising the following steps: a ventilation duct disposed within the phototherapy body; the ventilation pore canal is provided with at least one ventilation hole and at least one air outlet, wherein the ventilation hole can be communicated with the nasal cavity; the air outlet hole is communicated with an external air source. This application has specifically designed two phototherapy main parts that can insert in the human nasal cavity to through set up ventilative pore in the phototherapy main part, make the phototherapy main part possess the gas permeability, ventilative pore possesses at least one bleeder vent and at least one venthole, bleeder vent and nasal cavity intercommunication, and the venthole tip runs through base and outside air supply intercommunication, in the treatment, patient's nasal cavity and outside air supply accessible bleeder vent, ventilative pore and venthole exchange gas, let the nasal cavity can keep normal breathing and realize the purpose of stabilizing the treatment.

Description

Phototherapy main part and nose treatment device

Technical Field

The present disclosure relates generally to the technical field of nasal treatment devices, and more particularly to a phototherapy body and nasal treatment apparatus.

Background

Although the economic development leads to a general improvement in living standard, the incidence of diseases such as allergic rhinitis increases with the increase of environmental pollution, particularly air pollution.

Rhinitis is an inflammatory disease of the nasal mucosa accompanied by one or more symptoms of runny nose, sneeze, itching, nasal obstruction, etc. Acute rhinitis is an infectious rhinitis generally defined as a cold, and chronic rhinitis caused by bacteria occurs when symptoms of rhinitis are repeated due to incomplete treatment of acute rhinitis. Most chronic rhinitis patients have nasal obstruction, if not emphasized, the patients can obstruct breathing through the nose and finally turn into breathing through the oral cavity, and the patients can easily suffer from pharyngolaryngitis, and the throat can often feel pain. Moreover, the headache and the pressure caused by the headache and the pressure can cause distraction, easily cause attention reduction and can have great influence on work and study.

At present, a rhinitis therapeutic apparatus commonly used is an apparatus having an intra-nasal cavity light irradiation therapeutic function, and in the course of treatment, the nasal cavity of a patient is completely blocked by the apparatus, and long-term nasal breathing cannot be performed, which is very painful for the patient. As disclosed in the reference CN110812709a, the therapeutic body of the apparatus completely enters the nasal cavity, completely blocks the nasal cavity, and the patient can breathe only with his/her mouth during the treatment, and the patient may feel dry and dry during the treatment, and the patient's nasal cavity exhales weakly, so that the therapeutic body is easily pushed out of the nasal cavity, and the affected area cannot be treated stably. Therefore, we propose a phototherapy main body and nose treatment device for solving the problems of poor experience and poor treatment effect of patients in the treatment process caused by the fact that the rhinitis treatment instrument has no air permeability.

Disclosure of Invention

In view of the above-described drawbacks or shortcomings of the prior art, it is desirable to provide a phototherapy body and nasal treatment device that has good breathability, a stable treatment process, improved patient treatment satisfaction, and simple operation and easy implementation.

In a first aspect, the present application provides a phototherapy body insertable into a nasal cavity for treatment; comprising the following steps:

a ventilation duct disposed within the phototherapy body; the ventilation pore canal is provided with at least one ventilation hole and at least one air outlet, wherein the ventilation hole can be communicated with the nasal cavity; the air outlet hole is communicated with an external air source.

According to the technical scheme provided by the embodiment of the application, the air hole is provided with an air hole adjusting piece for adjusting the air flow of the air hole.

According to the technical scheme provided by the embodiment of the application, the air hole adjusting piece comprises:

the protection sheet is positioned outside the phototherapy main body and corresponds to the ventilation holes;

the driving mechanism is positioned in the ventilation pore canal and used for driving the protection sheet to be close to or far away from the ventilation holes.

According to the technical scheme provided by the embodiment of the application, the phototherapy main body comprises:

the mounting seat is provided with a plurality of mounting holes,

the light protection cover is arranged on the mounting seat and forms a protection cavity with the mounting seat;

the elastic mounting plate is arranged in the protection cavity and is arranged along with the inner wall of the light protection cover in a shape;

the light source is uniformly arranged on the surface of the elastic mounting plate, which is close to the light protection cover.

According to the technical scheme provided by the embodiment of the application, the light source is an OLED light source, an LED light source or an optical fiber.

In a second aspect, the present application provides a nasal treatment device comprising:

a base;

two phototherapy bodies mounted on the base;

the softness fixing component is arranged on the base and is positioned between the two phototherapy main bodies;

the softness fixing component is provided with two clamping parts which are symmetrically arranged and used for clamping the nose columella.

According to the technical scheme provided by the embodiment of the application, the clamping part comprises:

and the air inlet of the air bag can be communicated with an air pump which is independently arranged.

According to the technical scheme that this application embodiment provided, a plurality of draw-in grooves of evenly arranging have been seted up on the surface of gasbag, and every all install the sponge piece in the draw-in groove.

In a third aspect, the present application provides a nasal treatment device comprising:

a base having a hollow cavity provided corresponding to the nasal cavity;

the control components are two in number and are respectively arranged in the corresponding hollow cavities;

the two phototherapy main bodies are arranged corresponding to the control components, and each phototherapy main body is respectively connected with the corresponding control component;

the control component is configured to control the two phototherapy bodies to alternately enter corresponding nasal cavity treatments, and an air-permeable gap is formed between the phototherapy bodies in a non-entering state and corresponding nasal cavity walls.

According to the technical scheme provided by the embodiment of the application, the control component comprises:

the stroke sleeve is arranged in the hollow cavity;

the sliding block is slidably arranged in the travel sleeve along the first direction; the first direction is parallel to the in-out direction of the phototherapy main body;

the electromagnet is arranged at the bottom of the travel sleeve;

a connection part provided between the slider and the phototherapy body;

the metal sheet is arranged on one side of the sliding block, which is close to the electromagnet;

an elastic element arranged between the electromagnet and the sliding block;

and the control circuit is used for controlling the on-off of the power supply circuit of the electromagnet.

According to the technical scheme provided by the embodiment of the application, the phototherapy main body has the structure of the phototherapy main body.

According to the technical scheme provided by the embodiment of the application, the base is provided with the softness fixing component;

the softness fixing component is provided with two clamping parts which are symmetrically arranged and used for clamping the nose columella.

According to the technical scheme provided by the embodiment of the application, the clamping part comprises:

the air bag is arranged on the base and positioned between the two phototherapy main bodies, and the air inlet of the air bag can be communicated with an air pump which is independently arranged.

According to the technical scheme that this application embodiment provided, a plurality of draw-in grooves of evenly arranging have been seted up on the surface of gasbag, and every all install the sponge piece in the draw-in groove.

In summary, the technical scheme specifically discloses a specific structure of the nasal cavity phototherapy structure. This application has specifically designed two phototherapy main parts that can insert in the human nasal cavity to through set up ventilative pore in the phototherapy main part, make the phototherapy main part possess the gas permeability, ventilative pore possesses at least one bleeder vent and at least one venthole, bleeder vent and nasal cavity intercommunication, and the venthole tip runs through base and outside air supply intercommunication, in the treatment, patient's nasal cavity and outside air supply accessible bleeder vent, ventilative pore and venthole exchange gas, let the nasal cavity can keep normal breathing and realize the purpose of stabilizing the treatment.

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 following drawings, in which:

fig. 1 is a schematic view of a nasal phototherapy structure.

Fig. 2 is a schematic structural view of the air hole regulator.

Fig. 3 is a schematic structural view of a nasal phototherapy structure.

Fig. 4 is a schematic view of a nasal treatment device.

Fig. 5 is a schematic diagram of a portion a in fig. 4.

Fig. 6 is a schematic structural diagram of the portion B in fig. 4.

Fig. 7 is a schematic view of a nasal treatment device.

Reference numerals in the drawings: 1. a base; 2. a hollow cavity; 3. a phototherapy body; 4. a travel sleeve; 5. a slide block; 6. an electromagnet; 7. an elastic element; 8. a connection part; 9. a metal sheet; 10. a mounting base; 11. an optical protection cover; 12. an elastic mounting plate; 13. a light source; 14. a clamping part; 15. a connecting seat; 16. a soft elastic support sleeve; 17. an air bag; 18. a sponge block; 19. ventilation duct; 20. ventilation holes; 21. an air outlet hole; 22. a protective sheet; 23. a screw rod; 24. a transmission gear; 25. a driving motor; 26. and a drive gear.

Detailed Description

The present 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 invention and are not limiting of the invention. It should be noted that, for convenience of description, only the portions related to the invention are shown in the drawings.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Example 1

Referring to fig. 1, a schematic structural diagram of a first embodiment of a phototherapy body provided in the present application, the phototherapy body 3 may be inserted into a nasal cavity for treatment; comprising the following steps:

the ventilation duct 19 is arranged in the phototherapy main body 3, so that the phototherapy main body has ventilation property, and a patient can breathe normally during treatment without affecting the stability of treatment;

specifically, the ventilation hole 19 is provided with at least one ventilation hole 20 and at least one air outlet hole 21 which can be communicated with the nasal cavity of a human body, and the end part of the ventilation hole 20 penetrates through the base 1 and is communicated with an external air source, so that air exhaled by the nasal cavity is released to the outside through the ventilation hole 20, the ventilation hole 19 and the air outlet hole 21 in sequence, and the external air source can be inhaled through the air outlet hole 21, the ventilation hole 19 and the ventilation hole 20, and the nasal cavity and the external air source exchange air smoothly, so that a patient can breathe normally in the treatment process, and the phototherapy main body 3 is not pushed out of the nasal cavity due to air flow in the nasal cavity, so that the treatment stability is not affected;

here, the shape of the ventilation duct 19 is not limited, and optionally, as shown in fig. 1, for example, in a Y-shaped structure, the ventilation duct 19 is provided with two ventilation holes 20 and one ventilation hole 21, and the ventilation duct 19 and the ventilation hole 21 allow the nasal cavity to exchange gas with an external air source through the two ventilation holes 20, so as to achieve the purposes of normal breathing of the nasal cavity and stable treatment.

Further, an air hole adjusting assembly provided at the air hole 20 for adjusting the air flow rate of the air hole 20;

as shown in fig. 2, the air hole regulator includes:

a protective sheet 22, which is positioned outside the phototherapy body 3 and is used for adjusting the air flow at the air holes 20;

the driving mechanism is positioned in the ventilation duct 19 and used for driving the protection sheet 22 to be close to or far from the ventilation holes 20;

specifically, the specific structure of the driving mechanism is, for example:

the number of the lead screws 23 is at least two, and the lead screws 23 are symmetrically arranged on the side wall of the ventilation pore canal 19 close to the ventilation holes 20, and one end of each lead screw 23 is connected with the protection sheet 22 and used for driving the protection sheet 22 to move;

the edges of the protection sheets 22 are chamfered, so that the protection sheets 22 are prevented from damaging the inner wall of the nasal cavity when the screw rod 23 drives the protection sheets 22 to rotate in the nasal cavity;

the transmission gear 24 is sleeved on one side of the screw rod 23 far away from the protective sheet 22 and is used for driving the screw rod 23 to do linear motion along the side wall direction of the ventilation duct 19;

a driving motor 25 disposed on a sidewall of the ventilation duct 19 away from the ventilation holes 20 for providing driving force;

a drive gear 26 provided at an end of an output shaft of the drive motor 25, the drive gear 26 being disposed in meshing engagement with the transmission gear 24 for transmitting the acquired drive force to the transmission gear 24;

the driving gear 26, the transmission gear 24 and the screw rod 23 are sequentially driven to rotate by the driving motor 25, and the position of the protection sheet 22 is adjusted, so that the protection sheet 22 is controlled to be close to or far from the ventilation holes 20, and the ventilation holes 20 are controlled to be turned on or turned off;

specifically, when the protective sheet 22 is pushed out, the ventilation holes 20 are communicated with the nasal cavity; in addition, the pushing distance of the protective sheet 22 can be controlled according to different sizes of nasal cavities of different patients, so that the air flow of the air holes 20 can be adjusted, and the patients can obtain good experience; when the protective sheet 22 is retracted, the protective sheet 22 shields the ventilation holes 20, and the ventilation holes 20 are blocked, separating the ventilation holes 20 from the nasal cavity.

As shown in fig. 4, the phototherapy main body 3 includes:

a mount 10 as a base for the phototherapy main body 3 for mounting components required for nasal treatment;

the light protection cover 11 is arranged on the mounting seat 10, and forms a protection cavity with the mounting seat 10, and is used for separating the light source 13 from the nasal cavity, so that the light source 13 is prevented from directly contacting the inner wall of the nasal cavity, and the inner wall is prevented from being damaged;

an elastic mounting plate 12, which is disposed in the protection cavity and is disposed along with the inner wall of the light protection cover 11, for mounting the light source 13;

as shown in fig. 5, the light source 13 is uniformly arranged on the surface of the elastic mounting plate 12 close to the light protection cover 11 and is used as a radiation source for nose treatment;

the elastic mounting plate 12 is tightly attached to the inner wall of the light protection cover 11; the light source 13 can be largely emitted from the light protection cover 11, so that the maximum utilization of the light source and the maximum light source treatment area are realized, and the aim of high-efficiency treatment is fulfilled.

Here, the materials of the light protection cover 11 and the elastic mounting plate 12 are, for example, transparent TPU or PVC.

The specific installation mode of the light source 13 on the aluminum substrate is that, for example, an accommodating groove which is uniformly distributed is formed on the aluminum substrate, the light source 13 is provided with a base, at least two parallel installation pore passages are formed on the side wall of the base, through holes which are correspondingly arranged with the installation pore passages are formed on the side wall of the accommodating groove, the base is placed in the accommodating groove, the installation pore passages are aligned with the through holes, the installation pore passages are concentric, and the independently arranged fixing pins sequentially penetrate through the installation holes, the installation pore passages and the installation holes, so that the light source is installed on the aluminum substrate.

Here, the type of the light source 13 is, for example, an OLED light source, an LED light source, or an optical fiber;

the light source 13 can be selected according to the treatment requirements, and the phototherapy effect of the light with different colors is as follows:

the light irradiation depth of yellow green light with the wave band of 510 nm-590 nm is between blue light and red light, so that the dredging and the expansion of capillary vessels with the skin depth can be promoted, the resistance of cells can be enhanced, and the treatment effect of an affected part can be accelerated.

Red light with the wave band of 590-810 nm can lead mitochondria to release cytochrome c oxidase, increase adenosine triphosphate, and the cells provide energy by using the adenosine triphosphate, thereby promoting the metabolism of the cells; meanwhile, the red light irradiation heats molecules in blood vessels, regulates the vasodilation and improves the blood circulation; blue light irradiation in the 440-510 nm band can be used for relieving pain and swelling caused by inflammation.

An opening provided in the optical protection cover 11 corresponding to the protection sheet 22 is formed to accommodate the protection sheet 22 to be movable.

Example 2

In this embodiment, on the basis of embodiment 1, a base 1 is used as a base bearing member of the present device to mount the phototherapy body 3 described in embodiment 1;

the softness fixing component is arranged on the base 1 and positioned between the two phototherapy main bodies 3 and is used for clamping the small nose column, so that the device can stably treat;

the flexible fixing component is provided with a pair of symmetrically arranged clamping parts 14, and the two clamping parts 14 are matched for use so as to clamp the columella nasi, thereby realizing stable treatment;

specifically, as shown in fig. 4, each of the clamping portions 14 includes:

the air inlet of the air bag 17 can be communicated with an air pump which is independently arranged, and the form of the air bag 17 is regulated by controlling the inflation amount of the air bag 17;

the sponge block 18 is filled in the clamping groove on the surface of the air bag 17 so as to prevent the air bag 17 from generating larger friction force with the small nasal column and damaging the small nasal column;

here, a connecting seat 15 may be further designed on the base 1 as a connecting medium between the clamping portion 14 and the base 1;

further, a soft elastic supporting sleeve 16 can be arranged on the connecting seat and sleeved outside the air bag 17 for contacting with the side wall of the small nose column, so that the clamping and supporting effects of the clamping part 14 are further improved; the two soft elastic support sleeves 16 can be matched to clamp the small nose column; as shown in fig. 6, at least three clamping grooves which are uniformly distributed are formed on the surface of the soft elastic supporting sleeve 16, and each clamping groove is filled with a sponge block 18 for preventing the clamping part 14 from damaging the small nasal column;

when the device is in the rest condition, as shown in figure 3, the balloon 17 is in the deflated condition and the flexible fixation assembly is free to pass into and out of the nasal cavity following its corresponding phototherapy body 3.

As shown in fig. 1, when the device is in a working state, the softness fixing component follows the phototherapy main body 3 to enter the corresponding nasal cavity, and the air pump arranged independently is utilized to inflate the air bags 17, so that the soft elastic supporting sleeves 16 are supported up until the two soft elastic supporting sleeves 16 can be propped against the small nasal posts, the air pump is closed, the air inlet of the air bags 17 is closed, and at the moment, the phototherapy main body 3 is stably placed in the nasal cavity and cannot fall off from the nasal cavity;

at the end of the treatment, the air bag 17 is deflated from the air inlet of the air bag 17 to the outside, the air bag 17 becomes soft gradually, and the soft elastic support sleeve 16 becomes soft accordingly, so that the soft fixing component can be taken out of the nasal cavity smoothly along with the phototherapy body 3.

Example 3

As shown in fig. 4, a base 1, which is a basic carrier of the nose treatment device, includes a hollow cavity 2 provided corresponding to a nasal cavity of a person;

the control components are two in number and are respectively arranged in the corresponding hollow cavities 2 and used for adjusting the position of the phototherapy main body 3;

the two phototherapy bodies 3 are configured to control the two phototherapy bodies 3 to alternately enter corresponding nasal cavity treatments, and ventilation gaps are formed between the phototherapy bodies 3 in a non-entering state and corresponding nasal cavity walls;

wherein the control assembly includes:

the travel sleeve 4 is arranged in the hollow cavity 2 and is coaxially arranged with the hollow cavity 2 and is used for providing a sliding path for the sliding block 5;

the sliding block 5 is arranged in the travel sleeve 4, and the sliding block 5 is connected with the phototherapy main body 3 through the connecting part 8 and is used for driving the phototherapy main body 3 to move along the first direction; here, the first direction is parallel to the in-out direction of the phototherapy body 3;

and, the metal sheet 9 is disposed at the bottom of the slider 5;

electromagnet 6 sets up in travel sleeve 4, and its bottom that is located travel sleeve 4, electromagnet 6 is connected with control circuit, and electromagnet 6 is connected with slider 5 through elastic element 7, through the break-make of control circuit, the existence of control electromagnet 6 magnetism, make the position of corresponding slider 5 change, thereby adjust the space between phototherapy main part 3 and the corresponding nasal cavity, make phototherapy main part 3 form alternate treatment mode, the nasal cavity treatment is carried out in stretching into to phototherapy main part 3, then another phototherapy main part 3 forms the space rather than the nasal cavity that corresponds, be used for normal breathing.

Here, the elastic element 7 is of the type, for example, a spring.

Specifically, as shown in the left part structure of fig. 4, the control circuit of the left part is in a conducting state, the electromagnet 6 generates magnetism and attracts the metal sheet 9, so that the sliding block 5 slides along the inner wall of the travel sleeve 4 in a direction close to the electromagnet 6, at this time, the connecting part 8 at the bottom of the phototherapy main body 3 moves downwards along the hollow cavity 2, so that the phototherapy main body 3 can withdraw from a part of the corresponding nasal cavity, and a ventilation gap is formed between the nasal cavity and the phototherapy main body 3, and at this time, the nasal cavity can keep normal breathing;

as shown in the right part structure of fig. 4, the control circuit of the right part is in an off state, the electromagnet 6 is not magnetic, the slide block 5 pushes the phototherapy main body 3 out of the hollow cavity 2 under the action force of the elastic element 7, and at this time, the corresponding phototherapy main body 3 is pushed into the corresponding nasal cavity to perform treatment;

the position of the phototherapy main body 3 is controlled by the on-off of the control circuit in the treatment process, namely, the phototherapy main body 3 stretches out of or stretches into the nasal cavity to form an alternate treatment mode, the depth of the phototherapy main body 3 in the working state stretching into the nasal cavity is deeper, and the depth of the phototherapy main body 3 in the non-working state stretching into the nasal cavity is shallower, so that a gap is formed between the phototherapy main body 3 and the nasal cavity for breathing, and a nasal cavity of a patient can breathe normally all the time in the treatment process; the alternating treatment mode can not only enable the patient to breathe with nose normally, but also realize stable treatment.

Example 4

In the embodiment, on the basis of the embodiment 3, a flexible fixing component is also designed between the two phototherapy main bodies 3 and is used for clamping a small nose column, so that the device can stably treat;

the flexible fixing component is provided with a pair of symmetrically arranged clamping parts 14, and the two clamping parts 14 are matched for use so as to clamp the columella nasi, thereby realizing stable treatment;

specifically, each of the clamping portions 14 includes:

the air inlet of the air bag 17 can be communicated with an air pump which is independently arranged, and the form of the air bag 17 is regulated by controlling the inflation amount of the air bag 17;

the sponge block 18 is filled in the clamping groove on the surface of the air bag 17 so as to prevent the air bag 17 from generating larger friction force with the small nasal column and damaging the small nasal column;

here, a connecting seat 15 may be further designed on the base 1 as a connecting medium between the clamping portion 14 and the base 1;

further, a soft elastic supporting sleeve 16 can be arranged on the connecting seat and sleeved outside the air bag 17 for contacting with the side wall of the small nose column, so that the clamping and supporting effects of the clamping part 14 are further improved; the two soft elastic support sleeves 16 can be matched to clamp the small nose column; as shown in fig. 6, at least three clamping grooves which are uniformly distributed are formed on the surface of the soft elastic supporting sleeve 16, and each clamping groove is filled with a sponge block 18 for preventing the clamping part 14 from damaging the small nasal column;

when the device is in the inactive state, the balloon 17 is in the deflated state and the flexible fixation assembly is free to pass into and out of the nasal cavity following its corresponding phototherapy body 3.

When the device is in a working state, the softness fixing component enters the corresponding nasal cavity along with the phototherapy main body 3, and the air bag 17 is inflated by the air pump, so that the soft elastic supporting sleeves 16 are supported up until the two soft elastic supporting sleeves 16 can be propped against the small nasal posts, the phototherapy main body 3 cannot fall off from the nasal cavity, and the inflation is stopped;

at the end of the treatment, the air is discharged to the outside through the air inlet of the air bag 17, the air bag 17 becomes soft, and the soft elastic supporting sleeve 16 becomes soft, so that the soft fixing component can be smoothly taken out from the nasal cavity along with the phototherapy main body 3, and the treatment device can stably treat.

Example 5

As shown in fig. 7, this embodiment combines embodiment 1 with embodiment 3.

Specifically, as shown in the left part structure of fig. 7, the ventilation hole 20 in the phototherapy main body 3 of the part is covered by the protection sheet 22, the protection sheet 22 and the light protection cover 11 can form a relatively smooth surface, and the control circuit is in a conducting state, the electromagnet 6 generates magnetism to attract the metal sheet 9, so that the sliding block 5 slides along the inner wall of the travel sleeve 4 towards the direction close to the electromagnet 6, at the moment, the connecting part 8 at the bottom of the phototherapy main body 3 moves downwards along the hollow cavity 2, so that the phototherapy main body 3 can smoothly exit a part from the corresponding nasal cavity, and a ventilation gap is formed between the nasal cavity and the phototherapy main body 3 for normal breathing;

as shown in the structure of the right part of fig. 7, the control circuit of the part is in an off state, the electromagnet 6 is not magnetic, the slide block 5 pushes the phototherapy main body 3 out of the hollow cavity 2 under the action force of the elastic element 7, at this time, the corresponding phototherapy main body 3 is pushed into the corresponding nasal cavity to perform treatment, and in order to promote the comfort of a patient, the ventilation holes 20 on the phototherapy main body 3 of the part are opened, so that the ventilation holes 20 are communicated with the nasal cavity, and nasal cavity breathing in a treatment interval is further assisted; the alternating breathing patterns are fused with the airway breathing patterns so that the patient obtains an optimal therapeutic experience.

The foregoing description is only of the preferred embodiments of the present application and is presented as a description of the principles of the technology being utilized. It will be appreciated by persons skilled in the art that the scope of the invention referred to in this application is not limited to the specific combinations of features described above, but it is intended to cover other embodiments in which any combination of features described above or equivalents thereof is possible without departing from the spirit of the invention. Such as the above-described features and technical features having similar functions (but not limited to) disclosed in the present application are replaced with each other.

Claims (8)

1. Phototherapy body, characterized in that the phototherapy body (3) is insertable into the nasal cavity for treatment; comprising the following steps:

a ventilation duct (19) arranged in the phototherapy main body (3); the ventilation duct (19) is provided with at least one ventilation hole (20) and at least one air outlet hole (21), wherein the ventilation hole can be communicated with the nasal cavity; the air outlet hole (21) is communicated with an external air source;

an air hole adjusting piece is arranged at the air hole (20) and used for adjusting the air flow of the air hole (20);

the air hole adjusting member includes:

a protection sheet (22) which is positioned outside the phototherapy main body (3) and corresponds to the ventilation holes (20);

the driving mechanism is positioned in the ventilation duct (19) and is used for driving the protection sheet (22) to do linear motion along the side wall direction of the ventilation duct (19) so as to drive the protection sheet (22) to be close to or far away from the ventilation holes (20);

through the ventilation holes (20) and the air outlet holes (21), the nasal cavity and an external air source are subjected to air exchange, so that the nasal cavity breathes normally.

2. A phototherapy body according to claim 1, characterized in that the phototherapy body (3) comprises:

a mounting base (10),

the light protection cover (11) is arranged on the mounting seat (10) and forms a protection cavity with the mounting seat (10);

the elastic mounting plate (12) is arranged in the protection cavity and is arranged along with the inner wall of the light protection cover (11);

the light sources (13) are uniformly arranged on the surface, close to the light protection cover (11), of the elastic mounting plate (12).

3. A phototherapy body according to claim 2, characterized in that the light source (13) is an OLED light source, an LED light source or an optical fiber.

4. A nasal treatment device, comprising:

a base (1);

two phototherapy bodies (3) according to any of claims 1 to 3 mounted on the base (1);

a flexible fixing component which is arranged on the base (1) and is positioned between the two phototherapy main bodies (3);

the flexible fixing assembly is provided with two clamping parts (14) which are symmetrically arranged and are used for clamping the columella nasi.

5. The nasal treatment device according to claim 4, wherein the clip portion (14) comprises:

and the air inlet of the air bag (17) can be communicated with an independently arranged air pump.

6. The nose treatment device according to claim 5, wherein a plurality of evenly arranged clamping grooves are formed in the surface of the air bag (17), and a sponge block (18) is arranged in each clamping groove.

7. A nasal treatment device, comprising:

a base (1) provided with a hollow cavity (2) provided corresponding to the nasal cavity;

the control components are two in number and are respectively arranged in the corresponding hollow cavities (2);

a phototherapy body (3) according to any of the claims 1 to 3, being arranged in correspondence of said control assemblies, and each phototherapy body (3) being connected to a respective said control assembly;

the control component is configured to control the two phototherapy bodies (3) to alternately enter corresponding nasal cavity treatments, and an air-permeable gap is formed between the phototherapy bodies (3) in a non-entering state and corresponding nasal cavity walls.

8. The nasal treatment device of claim 7, wherein the control assembly comprises:

the travel sleeve (4) is arranged in the hollow cavity (2);

the sliding block (5) is slidably arranged in the travel sleeve (4) along a first direction; the first direction is parallel to the in-out direction of the phototherapy main body (3);

the electromagnet (6) is arranged at the bottom of the travel sleeve (4);

a connection part (8) arranged between the slider (5) and the phototherapy main body (3);

the metal sheet (9) is arranged on one side of the sliding block (5) close to the electromagnet (6);

an elastic element (7) arranged between the electromagnet (6) and the slider (5);

and the control circuit is used for controlling the on-off of the power supply circuit of the electromagnet (6).