阅读说明：本技术 一种红光鼻腔照射促进鼻腔水肿消散方法及其系统 (Method and system for promoting nasal cavity edema dissipation through red light nasal cavity irradiation ) 是由 不公告发明人 于 2021-08-19 设计创作，主要内容包括：本发明提供了一种红光鼻腔照射促进鼻腔水肿消散方法及其系统,涉及一种促进鼻腔水肿消散领域,包括照射器安装的发光部分放置在鼻孔处,照射器安装的发光部分发出红色的光照射到鼻孔内的鼻腔,其红色的光是1到12个非连续单频点光波的组合,照射器发光部分发出红色的光是闪烁的,红色的光闪烁频率在0.1赫兹到35赫兹范围变化。(The invention provides a method and a system for promoting nasal cavity edema dissipation through red light nasal cavity irradiation, and relates to the field of promoting nasal cavity edema dissipation, wherein a light emitting part installed on an irradiator is placed at a nostril, the light emitting part installed on the irradiator emits red light to irradiate the nasal cavity in the nostril, the red light is a combination of 1 to 12 discontinuous single-frequency point light waves, the red light emitted by the light emitting part of the irradiator is flickering, and the flickering frequency of the red light is changed within the range of 0.1 Hz to 35 Hz.)

1. A method for promoting nasal cavity edema dissipation by red light nasal cavity irradiation comprises nostrils, an irradiator and a light emitting part, and is characterized in that: the light emitting part of the irradiator is arranged to emit red light to irradiate the nostrils, the red light is a combination of 1 to 12 discontinuous single-frequency-point light waves with the wavelength of 560 nanometers to 750 nanometers, the light emitting part of the irradiator emits red light which flickers, the flickering frequency of the red light ranges from 0.1 Hz to 35 Hz, and the flickering mode is that the parts of the combination of 1 to 12 discontinuous single-frequency-point light waves with the wavelength of 560 nanometers to 750 nanometers are turned off and on according to own frequency.

2. The method for promoting dissipation of nasal edema through nasal irradiation with red light as claimed in claim 1, wherein: the light emitting part arranged on the irradiator emits red light to the nostrils, when a person is in cold, one nostril is irradiated for 10 minutes to 30 minutes once a day, and the two nostrils are irradiated for 20 minutes to 1 hour.

3. The method for promoting dissipation of nasal edema through nasal irradiation with red light as claimed in claim 1, wherein: the nasal cavity in which the luminous part installed on the irradiator emits red light to the nostrils is used for treating allergic rhinitis of a human, and when the human does not depart from the environment of a sensitization source, the red light is emitted by one nostril for 10 minutes to 30 minutes, and the red light is emitted by two nostrils for 20 minutes to 1 hour.

4. The method for promoting dissipation of nasal edema through nasal irradiation with red light as claimed in claim 1, wherein: the illuminating part arranged on the irradiator emits red light to the nasal cavity in the nostril, which is used for treating the intractable rhinitis of a human, once a day, one nostril irradiates for 10 minutes to 30 minutes, and the two nostrils irradiate for 20 minutes to 1 hour for 30 days.

5. The utility model provides a ruddiness nasal cavity irradiation promotes nasal cavity edema dissipation system, includes irradiator, luminous portion, light mixer, casing, its characterized in that: the light-emitting part shell is a closed-end tubular shell made of transparent quartz glass.

6. The system of claim 5, wherein the optical mixer comprises a light collector and a light emitting diode, and wherein the light mixer comprises: the light gathering body is a cone with one large end and the other small end, the surface of the light gathering body is smooth and is made of transparent materials, the two ends of the light gathering body are circular planes, the light emitting diode is installed at the large end of the light gathering body, and the number of the light emitting diodes installed at the large end of the light gathering body can be 1 to 20.

Technical Field

The invention relates to the field of nasal edema dissipation promotion, in particular to a method and a system for promoting nasal edema dissipation through red light nasal irradiation.

Background

The nose of a person is the first gateway of the respiratory system, is the starting point of the respiratory passage and is also an important olfactory organ, however, diseases of the nose often occur due to the nose.

Nasal disease is mostly manifested in the form of "rhinitis", i.e., edema in the nasal cavity, and among various nasal inflammations, sinusitis is more difficult to treat and is a multiple symptom of the nose of a human.

Because the structure of the nose of a human is complex, the nose has nasal mucosa with rich capillary vessels, a nasal sinus with a closed cavity and the like, the medicine treatment is not easy to reach an affected part, or the medicine treatment is directly contacted with the outside air and is easy to be infected, and particularly purulent secretion in the nasal sinus is difficult to discharge.

Inflammation and edema of the nose can cause aversion to cold, fever, malaise, lassitude, anorexia, etc. in the acute process, and severe patients may have general symptoms such as convulsion, vomiting and diarrhea.

The nose is inflamed and edematous, and nasal obstruction secretion accumulation is caused by congestion and swelling of nasal mucosa in local parts, nasal obstruction appears, and local pain and headache and sense of smell decline are frequently caused.

The chronic inflammation and edema of the nose can cause discomfort to the human body, affect the life quality, cause respiratory tract infection and eye infection, lead to craniocerebral pulmonary complications of severe people, cause vision change and even cause death due to aggravation of infection.

In the medical field, for symptomatic nasal inflammation, enough antibiotics are adopted to control infection, such as headache or local pain, a sedative or an analgesic is properly used, medicines such as ephedrine, vasoconstrictor, mucous excretion promoter and the like are adopted to improve nasal sinus drainage aiming at nasal obstruction, and severe patients can be treated by nasal endoscope operations such as inferior nasal sinus operation, maxillary sinus intranasal windowing operation, maxillary sinus radical operation, intranasal ethmoid sinus resection, extranasal ethmoid sinus resection, frontal sinus drilling operation, frontal sinus resection, sphenoid sinus resection and the like.

At present, a method for treating nasal inflammation by irradiating nasal cavities with red light is also available, and the method utilizes the principle that after red light irradiation, the oxygen carrying capacity of blood can be improved, and the dissipation and recovery of inflammation and edema are promoted.

However, since the oxygen carrying capacity of blood is improved only after light irradiation, and release of oxygen after blood enters cells is neglected, the oxygen content in blood is finally increased, but it is relatively difficult for cells to obtain oxygen from blood, and as a result, the cells are still in an anoxic state, resulting in poor therapeutic effect.

Disclosure of Invention

The invention aims to solve the technical problem of providing a method and a system for promoting nasal cavity edema dissipation by red light nasal cavity irradiation,

the oxygen carrying capacity of blood is improved through red light irradiation, and oxygen can be rapidly released after the blood reaches pathological change cells, so that the treatment effect is improved, and the pathological change healing is accelerated.

In order to achieve the purpose, the technical scheme of the invention is as follows: a method for promoting nasal cavity edema dissipation by red light nasal cavity irradiation comprises the steps that a light emitting part installed on an irradiator is placed at a nostril, the light emitting part installed on the irradiator emits red light to the nasal cavity in the nostril, the red light is a combination of 1 to 12 discontinuous single-frequency-point light waves with the wavelength of 560 nanometers to 750 nanometers, the light emitting part of the irradiator emits the red light and flickers, the flickering frequency of the red light is changed in the range of 0.1 Hz to 35 Hz, and the flickering mode is that the respective part of the combination of 1 to 12 discontinuous single-frequency-point light waves with the wavelength of 560 nanometers to 750 nanometers is turned off and on according to the own frequency.

Furthermore, the light emitting part arranged on the irradiator is placed at the nostrils, and the light emitting part arranged on the irradiator emits red light to the nasal cavities in the nostrils, so that when a person is in a cold condition, the light is emitted to one nostril for 10 to 30 minutes, and the light is emitted to two nostrils for 20 to 1 hour, so that the symptoms of nasal obstruction, cough and sneeze can be relieved.

Further, the light emitting part installed on the irradiator is placed at the nostrils, the nasal cavity in which the red light emitted by the light emitting part installed on the irradiator is irradiated to the human allergic rhinitis, and when the human does not leave the environment of the sensitization source, the light is irradiated to one nostril for 10 minutes to 30 minutes and the light is irradiated to two nostrils for 20 minutes to 1 hour, so that the allergic symptoms can be relieved.

Further, the light-emitting part installed on the irradiator is placed at the nostrils, the red light emitted by the light-emitting part installed on the irradiator is irradiated to the nasal cavities in the nostrils once a day, one nostril is irradiated for 10 minutes to 30 minutes, the irradiation is carried out on the two nostrils for 20 minutes to 1 hour, and after 30 days, the symptoms can be relieved.

Furthermore, the mode of the flashing is that each part of the combination of 1 to 12 discontinuous single frequency point light waves with the wavelength between 560 nanometers and 750 nanometers is turned off and on according to the own frequency, each frequency point in the combined light waves is turned on and off according to the respective frequency, the flashing can be unrelated or related according to each frequency point, the energy of each chemical bond in chromosome and mitochondrion chains can be improved on the premise of not damaging the biological structure by the flashing, the escape energy of electrons in the chemical bonds is reduced, the energy combined with oxygen atoms is also reduced, and the combined oxygen atoms can be released when the red light is turned off by the flashing, so that the oxygen can be rapidly combined and delivered to cells, and the oxygen can be released in the cells to promote the vitality of the cells.

A system for promoting nasal cavity edema dissipation through red light nasal cavity irradiation is characterized in that the irradiator is provided with the light emitting part at one end, the light mixer is arranged in the light emitting part, and the casing of the light emitting part is a closed tubular casing made of transparent quartz glass and provided with one end.

Further, the optical mixer includes a light collector and a light emitting diode, and is characterized in that: the light gathering body is a cone with one large end and the other small end, the surface of the light gathering body is smooth and is made of transparent materials, the two ends of the light gathering body are circular planes, the light emitting diode is installed at the large end of the light gathering body, and the number of the light emitting diodes installed at the large end of the light gathering body can be 1 to 20.

The technical scheme of the invention at least has the following advantages and beneficial effects:

1. the twinkling red light irradiates on the nasal cavity edema cells in the nostrils, mitochondrial peptide chains absorb the twinkling red light and generate low-frequency oscillation in the process of electron transition to high energy level, so that the mitochondria are unstable, the unstable damaged mitochondria are replaced by the newborn normal mitochondria instead of accelerating death, the biological characteristics are rapidly changed, the damaged mitochondria are recovered and changed into the normal state, and the cell edema is rapidly dissipated.

2. The method of the invention is used for observing and the patient feels that the edema of the nasal cavity is better dissipated 15 minutes after the edema of the nasal cavity in the nostril is irradiated.

3. The flashing red light can improve the energy of each chemical bond in chromosome and mitochondrion chain on the premise of not destroying the biological structure, thus reducing the escape energy of electrons in the chemical bonds and the energy combined with oxygen atoms, and simultaneously being beneficial to the release of the combined oxygen atoms when the flashing red light is turned off, thereby achieving the purposes of rapidly combining and delivering oxygen to cells and releasing oxygen in the cells to promote the vitality of the cells.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a flow chart of a method for promoting nasal edema dissipation by red light nasal irradiation according to the present invention;

FIG. 2 is a schematic view of the application of the method for promoting dissipation of nasal edema by nasal irradiation with red light according to the present invention;

FIG. 3 is a schematic view of a system for dispersing nasal edema by red light nasal irradiation according to the present invention;

FIG. 4 is a schematic structural diagram of an optical mixer of the system for promoting dissipation of nasal edema through red light nasal cavity irradiation

Icon: 1-nostril; 2-a light-emitting portion; 3-an irradiator; 4-a shell; 5-an optical mixer; 6-a light concentrator; 7-light emitting diode.

Detailed Description

In the description of the present invention, it should be noted that, if the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or the orientations or positional relationships that the products of the present invention are usually placed in when used, the terms are only used for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements indicated must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be further noted that unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The application discloses a method for promoting nasal cavity edema dissipation through red light nasal cavity irradiation, which is shown in a flow chart of fig. 1 and comprises the following steps:

step S1, start the flow;

step S2, setting a counter to be 0, determining a starting point of the process, and turning to step S3;

step S3, reading the LED flicker scheme corresponding to the counter value, and turning to step S4;

further, the led flashing scheme is that leds for generating 1 to 12 discontinuous single-frequency light waves with wavelengths between 560 nm and 750 nm are used, and at the time when the counter corresponds to the value, 1 to 12 frequency points that should emit light waves and 1 to 12 frequency points that should not emit light waves.

Step S4, according to the LED flashing scheme, turning on or off the LED, and turning to step S5;

further, the turning on or off of the leds is the leds corresponding to the frequency point in the led blinking scheme, which correspondingly turns on and off the leds generating 1 to 12 discontinuous single-frequency-point light waves with wavelengths between 560 nanometers and 750 nanometers according to the led blinking scheme read in step S3.

Step S5, adding 1 to the counter to provide the counter value for reading the next LED flashing scheme;

step S6, delaying, namely maintaining the duration of red light irradiation for a short time, wherein the delay time is 1 millisecond to 1 second;

step S7, judging whether the operation is finished, if so, turning to step S8, otherwise, turning to step S3;

further, when the step S3 is executed, after the counter is incremented by 1 in step S5, the flow goes to S3 and the led flashing scheme corresponding to the counter value read is the led flashing scheme next to the led flashing scheme read last time.

Step S8, the flow ends.

As shown in fig. 2, a method for promoting dissipation of nasal edema by nasal irradiation with red light is schematically applied, and comprises nostrils, an irradiator and a light-emitting part.

In the present embodiment, the light emitting portion 2 including the illuminator 3 is installed at the nostril 1, the light emitting portion 2 installed in the illuminator 3 emits red light to the nasal cavity in the nostril 1, the red light is a combination of 1 to 12 discontinuous single frequency point light waves with the wavelength between 560 nanometers and 750 nanometers, the light emitting portion of the illuminator emits red light and is twinkling, the twinkling frequency of the red light is varied from 0.1 Hz to 35 Hz, and the twinkling is performed in a manner that the respective parts of the combination of 1 to 12 discontinuous single frequency point light waves with the wavelength between 560 nanometers and 750 nanometers are turned off and on according to the own frequency.

As shown in fig. 3, a system for promoting dissipation of nasal edema by nasal irradiation with red light comprises an irradiator 3, a light emitting part 2, a light mixer 5 and a housing 4.

In this embodiment, the irradiator 3 is provided with the light-emitting portion 2 at one end, the light-emitting portion 2 is provided with the optical mixer 5 inside, and the housing 4 of the light-emitting portion 2 is a closed-end tubular housing made of transparent quartz glass. The red light is emitted from the frequency mixer, the shell 4 with one end of the transparent quartz glass sealed with the tubular shell is penetrated through, and the shell is made of quartz glass, so that the light penetrating performance is good, and the effect of irradiating the inside of the nostril is obvious.

Further, the optical mixer is as shown in fig. 4, and includes a light collector 6 and light emitting diodes 7, wherein the light collector 6 is a cone with one large end and the other small end, the surface of the light collector 6 is smooth, the light collector is made of transparent material, the two ends of the light collector 6 are circular planes, the light emitting diodes 7 are installed at the large end of the light collector 6, and the number of the light emitting diodes 7 installed at the large end of the light collector 6 can be 1 to 20. The light emitted from the light emitting diodes 7 is incident into the light collector 6 from the larger end of the light collector 6, and since the light collector 6 is a cone having the larger end and the smaller end, the red light is totally reflected inside, and thus different lights emitted from the light emitting diodes 7 are mixed well at the smaller end of the light collector 6.