CN218739326U - Formula negative oxygen ion xerophthalmia therapeutic instrument is swashed to gas - Google Patents

Abstract

The application provides an air-excited negative oxygen ion xerophthalmia therapeutic instrument which comprises a negative oxygen ion generator, wherein the negative oxygen ion generator comprises a cavity and an air-excited negative oxygen ion generating device arranged in the cavity, the cavity is provided with a first air inlet and a first exhaust port, and the first air inlet is connected with an air source through a first conduit; the gas-excited negative oxygen ion generating device is connected with the first air inlet through a connecting pipe; the eyeshade comprises an eyeshade body, the eyeshade body is a container with one open end, the open end of the container can be in sealing fit with the periphery of the eyes of a person, a second air inlet and a second exhaust port are formed in the eyeshade body, and the second air inlet of the eyeshade is connected with the first exhaust port of the negative oxygen ion generator through a second guide pipe. By adopting the scheme, the high-concentration high-humidity ecological negative oxygen ions enter the eyeshade, act on eye tissues, accelerate the dissolution of lipid secretion and be beneficial to eliminating xerophthalmia.

Description

Formula negative oxygen ion xerophthalmia therapeutic instrument is swashed to gas

Technical Field

The application relates to the field of eye therapy equipment, especially relates to an air-excited negative oxygen ion xerophthalmia therapeutic apparatus.

Background

Dry eye refers to a general term for diseases of eye discomfort caused by abnormal quality or quantity or abnormal dynamics of tears due to various factors, and reduced stability of tear film and damage of eye surface, and patients often have symptoms of dry eyes, foreign body sensation, burning sensation, itching sensation, photophobia, red pain, blurred vision, easy fatigue, and filament adhesion.

The dry eye syndrome treatment mainly comprises dredging facial plate glands and improving the functions of the facial plate glands, and the currently adopted treatment measures are wearing wet house glasses, traditional Chinese medicine steam fumigation, hot compress, massage, artificial tears, magnetic therapy, infrared therapy, aurora therapy and the like, but the treatment methods have defects and have unobvious and lasting effects.

The negative oxygen ions are called as 'air vitamins', and have the effects of promoting metabolism of human body, enhancing immunity, resisting oxidation, preventing aging, eliminating free radicals in vivo, removing toxins, improving eyesight and the like. Negative oxygen ions are classified into two types: the first type is negative oxygen ions generated around natural environments such as seashore, forest, grassland and waterfall, and the negative oxygen ions generated by physical impact such as artificial water attack and air shock, which have long service life (1 to 30 minutes), high activity and small particle size, belong to the category; the second type is negative oxygen ions generated by corona discharge, radiation, ultraviolet rays, etc., which have a short life (several seconds), low activity, large particle size, contain substances harmful to health such as ozone and nitrogen oxides, and have a significant electrostatic effect. If the first kind of negative oxygen ions are sent into a sealed eyeshade worn by a xerophthalmia patient and certain pressure is formed, the negative oxygen ions can permeate into facial gland ducts, eyeballs, eye muscles and blood vessels, reduce the viscosity of facial gland secretions, discharge abnormal sand-separating substances, conduct the facial gland ducts, improve the tear quality and obviously improve or treat xerophthalmia.

Disclosure of Invention

The utility model aims to solve above-mentioned prior art arbitrary not enough, provide an air-exciting formula negative oxygen ion xerophthalmia therapeutic instrument, can provide the wet room environment of moist heat and high concentration negative oxygen ion for xerophthalmia patient, provide a new way for treating xerophthalmia, both the curative effect is showing, convenient to use again.

Specifically, the present application provides a dry eye therapeutic apparatus comprising

The negative oxygen ion generator comprises a cavity and an air-excited negative oxygen ion generating device arranged in the cavity, wherein the cavity is provided with a first air inlet and a first air outlet, and the first air inlet is connected with an air source through a first conduit; the gas-excited negative oxygen ion generating device is connected with the first air inlet through a connecting pipe;

the eye patch comprises an eye patch body, wherein the eye patch body is a container with one open end, the open end of the eye patch body can be in sealing fit with the periphery of a human eye, a second air inlet and a second air outlet are formed in the eye patch body, and the second air inlet of the eye patch is connected with the first air outlet of the negative oxygen ion generator through a second conduit.

In one embodiment, there is further included heating means for heating the gas prior to its entry into the eyecup body container.

In one embodiment, the heating device is disposed on at least one of the first conduit, the second conduit, the oxygen anion generator, and the eye mask.

In one embodiment, the heating means is an annular heating means arranged outside the first conduit and/or the second conduit.

In one embodiment, the heating device is arranged at the periphery of the first exhaust port of the cavity, the heating device comprises a heating pipe, a heating wire, a heating device air outlet nozzle and a heating device shell, the heating wire is wound on the heating pipe, one end of the heating pipe is connected with the heating device air outlet nozzle, the other end of the heating pipe is connected with the first exhaust port, and the heating pipe and the heating wire are arranged in an inner cavity of the heating device shell.

In one embodiment, the eye mask further comprises a fixing strap and a soft pad, wherein two ends of the fixing strap are connected to two sides of the eye mask body, and the soft pad is arranged at the opening end of the eye mask body and used for being in contact with the skin.

In one embodiment, the chamber comprises a bottle and a cap, the first gas inlet is disposed on one of the bottle and the cap, and the first gas outlet is disposed on one of the bottle and the cap; gas is swashed formula negative oxygen ion generating device and is included generator body and gas and swashs the board, and the upper end of generator body is connected the connecting pipe is equipped with the generator air inlet below the generator body, sets up the gas below lieing in the generator air inlet in the generator body and swashs the hole, and the opposite in gas swashs the hole sets up gas swashs the board.

In one embodiment, the therapeutic apparatus comprises a bag-shaped housing, and the housing and the oxygen anion generator are both disposed within the bag-shaped housing.

In one embodiment, the housing is provided with a heat sink for removing heat generated by components within the housing.

In one embodiment, the heat dissipation device is a fan and/or a heat sink.

By adopting the scheme of the application, the method has the following advantages:

high-concentration high-humidity ecological negative oxygen ions enter the eyeshade to act on eye tissues, so that the dissolving of lipid secretion can be accelerated, the viscosity of the facial gland is reduced, the secretion discharge of the facial gland is promoted, the facial gland catheter is dredged, the lipid layer structure of the tear film is improved, the stability of the tear film is improved, the tear volatilization is reduced, and the dry eye symptom is eliminated.

The high-concentration ecological negative oxygen ions have high humidity, and the water droplet particle size is smaller than that of water droplets generated by the atomizer, so that the water droplets are good in dispersibility, easy to absorb by eye tissues, quick in effect and long in duration.

The gas in the eye cover can keep the circulation state, and the fresh negative oxygen ion gas is ensured in the eye cover all the time, and the pressure of the negative oxygen ions in the eye cover keeps constant, so that the skin of a person is pressed constantly, and the person feels comfortable. The problem that the machine is influenced by overlarge pressure in the eyeshade is solved, the air leakage through the contact position of the eyeshade and the skin is avoided, the air leakage is not controllable, the negative oxygen ion pressure in the eyeshade is unstable, and the uncomfortable feeling is brought to people is solved.

The gas is higher than the room temperature when contacting the skin around the eyes of a human, does not cause the human to feel whiz, has better body feeling, avoids the problem of cold caused by low temperature or the problem of treatment effect influence caused by the contraction of blood vessels caused by cold of the skin, has the hot compress effect, and has the treatment effect on other eye diseases besides xerophthalmia.

Drawings

FIG. 1 is a general structural view of a dry eye treatment apparatus according to the present invention;

FIG. 2 is a structural view of a negative oxygen ion generator according to the present application;

FIG. 3 is a general structural view of a dry eye treatment apparatus according to another embodiment of the present application;

FIG. 4 is a general configuration diagram of a dry eye treatment apparatus according to another embodiment of the present application

Fig. 5 is a view showing a structure of a seat for installation in one embodiment of the present application.

In the figure, 1-eye mask, 101-eye mask body, 102-lens, 103-second air inlet, 104-second air outlet, 105-fixing band, 106-soft pad, counterweight 107, 21-first conduit, 22-second conduit, 3-heating device, 301-heating tube, 302-heating wire, 303-heating device air outlet nozzle, 304-heating device shell, 4-negative oxygen ion generator, 401-negative oxygen ion generator, 4011-generator body, 4012-air exciting hole, 4013-air exciting chamber, 4014-air exciting plate, 4015-generator air inlet, 40-cavity, 402-bottle body, 506-cover body, 4031-first air inlet, 4032-first air outlet, 404-connecting tube, 5-air pump, 501-air pump body, 502-air pump air outlet, 503-air pump air inlet, 504-spring, 505-filter, 506-fixer, 507-heat dissipation device, 6-shell, 7-handbag shell, 701-bag-lifting handle, 702-observing part, 70403-outer layer, 7042-inner layer, 7042-outer layer, and 7042.

Detailed description of the preferred embodiments

In order to make the technical solutions and advantages of the present application more clear, the present application is described in detail below with reference to the accompanying drawings and specific embodiments.

As shown in Figs. 1 to 5, the dry eye treatment apparatus of the present application comprises

A gas source;

the negative oxygen ion generator 4 comprises a cavity 40 and an air-excited negative oxygen ion generating device 401 installed in the cavity 40, wherein the cavity 40 is provided with a first air inlet 4031 and a first air outlet 4032, and the first air inlet 4031 is connected with the air source through a first conduit 21; the gas-excited negative oxygen ion generating device 401 is connected with the first air inlet 4031 through a connecting pipe 404;

the eyeshade 1, the eyeshade 1 includes eyeshade body 101, eyeshade body 101 is one end open-ended container, and its open end can be with people's eye periphery sealing joint, be provided with second air inlet 103 and second exhaust port 104 on the eyeshade body 101, the second air inlet 103 of eyeshade 1 through second pipe 22 with the first exhaust port 4032 of negative oxygen ion generator 4 is connected.

By adopting the scheme, high-concentration negative oxygen ion gas generated by the negative oxygen ion generator 4 can enter the eyeshade 1, and because the eyeshade body 101 is a container with one open end, the open end is attached to the periphery of human eyes, the negative oxygen ion gas can be stored in the container of the eyeshade body 101 to be fully contacted with the skin and eyes around the human eyes, and the tissue microcirculation of the skin and the eyes around the eyes is improved. And because the second exhaust port 104 is arranged on the eyeshade body 101, the gas in the eyeshade 1 can keep a circulating state, the fact that the inside of the eyeshade 1 is always fresh negative oxygen ion gas is guaranteed, the pressure of the negative oxygen ions in the eyeshade 1 keeps constant, the skin of a person is constantly pressed, and the person feels comfortable. The problem that the machine is influenced by overlarge pressure in the eye patch 1, the air leakage is uncontrollable due to the mode that air leaks through the contact position of the eye patch 1 and the skin is avoided, the negative oxygen ion pressure in the eye patch 1 is unstable, and people feel uncomfortable is solved.

In one embodiment, heating means 3 are also provided for heating the gas prior to its entry into the container of the eyecup body 101.

By adopting the scheme, the gas is higher than the room temperature when contacting the skin around the eyes, so that the gas can not feel whiz by people, the body feeling is better, and the problem that the cold is caused by low temperature or the treatment effect is influenced by the contraction of the blood vessels caused by the cold of the skin is avoided.

In one embodiment, the heating means 3 are arranged on the first conduit 21 and/or the second conduit 22.

In one embodiment, the heating device 3 is an annular heating device 3 arranged outside the first conduit 21 and/or the second conduit 22. For example by means of resistive heating. In one embodiment, the temperature of the negative oxygen ion gas heated by the heating device 3 is between 30 and 40 degrees. The temperature will not cause damage to the conduit or decompose to produce harmful gases.

In one embodiment, the heating temperature of the heating device 3 is adjustable. By adopting the scheme, the user can adjust the temperature according to the self feeling, and the comfort level is improved. Preferably, the temperature adjustable range is within a safe range.

In one embodiment, the heating device 3 is a structure connected between the segmented conduits, and specifically, the heating device 3 includes a heating body and a first socket and a second socket at two ends, the heating body includes a heating wire 302 disposed on an air path, and the first socket and the second socket can be respectively inserted into the conduit segments at two ends. By adopting the scheme, compared with an annular heating scheme arranged outside the guide pipe, the gas temperature is heated more uniformly, the conditions of uneven cooling and heating caused by high peripheral temperature and low internal temperature are avoided, the temperature illusion caused by people is also avoided, and the error caused by improper temperature adjustment of a user is made.

In one embodiment, the heating device 3 is disposed at the periphery of the first exhaust port 4032 of the chamber 40. The heating device 3 comprises a heating pipe 301, a heating wire 302, a heating device 3 air outlet nozzle 303 and a heating device shell 304, the heating wire 302 is wound on the heating pipe 301, one end of the heating pipe 301 is connected with the heating device 3 air outlet nozzle 303, the other end of the heating pipe 301 is connected with a first air outlet 4032, and the heating pipe 301 and the heating wire 302 are installed in an inner cavity of the heating device shell 304.

In one embodiment, the heating means 3 is provided on the eye patch 1. For example, at the position of the second air inlet 103, the structure thereof may be the same as that of the heating device 3 provided at the first air outlet 4032 described above or other heating means may be used.

In one embodiment, the eyecup 1 further includes a fixing band 105, wherein the fixing band 105 has elasticity, and both ends thereof are connected to both sides of the eyecup body 101. For example elastic bands.

In one embodiment, the eyecup 1 further includes a cushion 106, the cushion 106 being disposed at the open end of the eyecup body 101 for contact with the skin. The soft pad 106 is made of soft silicone material, for example.

In one embodiment, the second intake port 103 is provided at a central position of the lower surface of the eyecup body 101 near the front, and the second exhaust port 104 is provided at both sides of the upper surface of the eyecup body 101. By adopting the scheme, the pipeline connected with the second air inlet 103 can not contact the skin or the nose, the comfort feeling of the human body can not be influenced, the sight line can not be influenced, in addition, the second air inlet 103 is arranged at the central position, the acting force of the weight of the second conduit 22 on the eyeshade 1 is uniform, and the deflection can not occur. And the gas outlet sets up in upper surface both sides, can make eye-shade 1 internal gas can fully flow, has avoided some gas in eye-shade body 101 inside can not in time renew, and the problem of the influence treatment that causes.

In one embodiment, the communication port of the second air inlet 103 with the inside of the goggle body 101 is provided at one end of the lower portion of the goggle body 101, and the second air outlet 104 is provided at the other end of the upper surface opposite to the one end. By adopting the scheme, the air inlet enters the container wall of the eyeshade body 101 from the center of the eyeshade 1, and enters the container containing part from the communication port at one corner of the eyeshade body 101, the communication port is arranged opposite to the second air outlet 104, and the communication port is arranged at the lower left and the upper right or the lower right and the upper left, so that the negative oxygen ion gas can flow and update again in the container of the eyeshade body 101.

In one embodiment, the passage between the second air inlet 103 and the communication port is disposed within the material of the eyecup body 101. In one embodiment, the passage between the second air inlet 103 and the communication port is provided outside the inner wall of the goggle body 101, by an attached conduit. The scheme is simpler to manufacture and can save cost.

In one embodiment, an ophthalmic lens is also provided on the eyecup body 101. The user can see the external things normally when treating.

In one embodiment, the cavity 40 of the gas-excited negative oxygen ion generator 4 comprises a bottle 402 and a cover 403. The first intake port 4031 is provided in the cap 403, and the first exhaust port 4032 is provided in the sidewall of the bottle 402. Preferably, the exhaust port is disposed at a position above the sidewall of the bottle 402, for example, at a position near the cover 403. In another embodiment, the first inlet 4031 is provided in a sidewall of the vial 402 and the first outlet 4032 is provided in the cap 403. In another embodiment, the first inlet 4031 and the first outlet 4032 are both disposed on the cover 403 or on a sidewall of the bottle body 402. Water or a solution with a drug added is disposed within the vial 402.

In one embodiment, gas laser formula negative oxygen ion generating device 401 includes generator body 4011 and gas laser board 4014, and the spiro union mouth of spiro union connecting pipe 404 is seted up to generator body 4011's upper end, sets up generator air inlet 4015 below the spiro union mouth, lies in below generator air inlet 4015 in generator body 4011 and sets up gas laser hole 4012, and the opposite of gas laser hole 4012 sets up gas laser board 4014. In one embodiment the gas-excited holes 4012 have a diameter of 0.3 to 3.0mm, preferably 0.5 to 1.0mm, and a number of 1 to 5.

By adopting the scheme, the gas excitation chamber 4013 is connected with the connecting pipe 404 through the gas excitation hole 4012 and the generator air inlet 4015, the gas excitation chamber 4013 is enclosed between the gas excitation plate 4014 and the generator body 4011, the gas excitation chamber 4013 is communicated with the inner cavity of the bottle body 402, and gas impacts the gas excitation plate 4014 through the gas excitation hole 4012 to form negative oxygen ion gas in water.

In one embodiment, the body 402 and the cap 403 are sealingly releasably connected, for example, by a threaded connection, a flanged connection, or a snap-fit connection, although other connections may be used.

In one embodiment, a central hole is formed in the center of the cover 403, and the connection pipe 404 is fixedly connected and connected with the inlet nozzle of the cover 403 through the central hole of the cover 403.

In one embodiment, when the first exhaust port 4032 is provided on the cover 403, a heating device 3 is screwed to the exhaust port of the cover 403 for heating the oxygen anion air.

In one embodiment, the gas panel 4014 is a laid down U-shaped structure comprising a vertical plate and parallel top and bottom plates. The top plate and the bottom surface of the negative oxygen ion generating device 401 are fixedly connected or integrated, an opening corresponding to the gas exciting hole 4012 is formed in the top plate, and the bottom plate forms a barrier for gas sprayed from the gas exciting hole 4012 so as to realize the effect of generating negative oxygen ions by gas excitation. Adopt such scheme, space between the U-shaped of falling constitutes gas laser room 4013, this kind of structure is to the fixed simpler and firm of gas laser board 4014 (bottom plate), gravity and the indirect whole bottom surface that is used in negative oxygen ion generating device 401 of gas laser strength, and unit area's atress is little to adopt the U-shaped structure of falling, modes such as bolt are compared to this kind of connected mode of riser, and it is simple to make, and the strength that the bottom plate bore is compared in the screw mode safe and reliable more through riser transmission to the roof, can not produce not hard up scheduling problem.

In one embodiment, the gas source is an air pump.

In one embodiment, a spring 504 is disposed on the fixing device 506 at the bottom of the air pump 5, and the air pump 5 is fixed to the housing 6 by the spring 504. The spring 504 eliminates or slows down the vibration of the air pump 5, reducing noise. In one embodiment, the air pump 5, filter 505 and spring 504 are all mounted within the housing 6. More preferably, the air pump 5, the filter 505, the spring 504, and the air-excited negative oxygen ion generator 4 may be installed together in the housing 6.

In one embodiment, the air pump 5 is an oil-free air pump 5, the air pump 5 includes an air pump body 501, and an air pump air inlet 503, an air pump air outlet 502 and a fixing device 506 disposed on the air pump body 501, the air pump air inlet 503 on the air pump 5 is connected to the filter 505, the air pump air outlet 502 is connected to the first conduit 21, and the air pump 5 is fixed on the housing 6 through the fixing device 506.

In one embodiment, the housing 6 is provided with a heat sink 507 for removing heat generated by components within the housing 6.

In one embodiment, the first conduit 21 is disposed adjacent to the heat sink 507 and is heated by heat emitted at the heat sink 507. By adopting the scheme, the heat radiator 507 heats the air in the first conduit 21, so that the temperature of negative oxygen ions generated by gas excitation can be increased, namely, useless heat is fully utilized to heat the air, and the heat of the heat radiator 507 can be effectively taken away.

In another embodiment, the second conduit 22 is disposed adjacent the heat sink 507 and is heated by heat dissipated at the heat sink 507. By adopting the scheme, the negative oxygen ion gas can be directly heated, and the heating effect is better.

In one embodiment, the heat dissipation device 507 is a fan, and the first duct 21 or the second duct 22 is spirally wound around the exhaust duct of the fan. By adopting the scheme, the heat in the shell 6 is discharged by the exhaust fan along with the air and passes through the spirally coiled conduit, so that the gas in the conduit can be sufficiently heated, meanwhile, the gas in the conduit can quickly take away the hot gas discharged by the exhaust fan, and the phenomenon that the heat wanders around the shell 6 and cannot be discharged in time to cause damage to two pairs of internal equipment is avoided.

In one embodiment, the heat dissipation device 507 is a metal heat sink that contacts heat generating components within the housing 6, and the first conduit 21 is disposed through the heat sink. In a preferred embodiment, the portion of the first conduit 21 penetrating through the heat sink is made of a good thermal conductor, for example, a thermal conductive resin material, and the specific kind of the thermal conductive resin is known in the art and will not be described herein.

In one aspect, the spiral is wound as a variable diameter spiral with each turn of the spiral having a smaller and smaller inner diameter. With the adoption of the scheme, the contact area of the multilayer guide pipe and wind is larger on the air exhaust path of the fan. And, the air outlet, the strength of airing exhaust is the biggest, contact with the pipe of the biggest circle spiral, the pipe of contact is the most, heat exchange is the most thorough, and, the pipe of the spiral internal diameter that dwindles gradually has the effect of inside guide to the wind direction, has avoided the heat to spread outward and can not contact with subsequent pipe.

In one aspect, the housing 6 is a square box structure, and the heat sink 507 is disposed on a top wall of the housing 6. In another aspect, the heat sink 507 is disposed on a sidewall of the housing 6.

In one embodiment, the apparatus comprises a bag-shaped housing 7, the housing 6 being placeable in the bag-shaped housing 7. The bag-shaped housing 7 includes a handle 701 at the top for easy carrying by a user. According to the scheme, the therapeutic apparatus is compact in structure, easy to carry and convenient for users to use.

In one embodiment, the negative oxygen ion generator 4 is also placed within the handbag-shaped housing 7. Preferably, an air discharge nozzle is provided on the bag-shaped housing 7 for the second conduit 22 to pass through.

In one embodiment, an observation part 702 is further provided on the bag-shaped case 7 for observing the operation state of the internal device, in particular, the liquid level inside the negative oxygen ion generator 4. In one embodiment, the bag shaped shell 7 is further provided with an opening and a cover 703 covering the opening. The lid 703 is opened to expose the opening through which the oxygen anion generator 4 can be taken out to perform a liquid charging operation. By adopting the scheme, the content of the liquid in the cavity 40 can be conveniently observed, and the liquid can be conveniently added.

In one embodiment, the negative oxygen ion cover 403 is provided with a liquid injection port, which is closed by a one-way valve. When the cover part is opened, the liquid injection equipment can directly enter the handbag-shaped shell 7 from the opening, and liquid is injected into the liquid injection port. By adopting the scheme, the liquid can be supplemented without taking out the negative oxygen ion generator 4, the operation is simpler and more convenient, the damage to a conduit or other equipment caused by the taking-out action of the negative oxygen ion generator 4 due to improper operation or unskilled operation is avoided, and the injury to an operator is also avoided.

In one embodiment, a mounting base 704 is provided inside the bag-shaped housing 7 for fixing the oxygen anion generator 4. For example, the mount 704 is a sleeve-shaped structure.

In one embodiment, the mount 704 is disposed on the box-type housing 6, such as on a sidewall of the box-type housing 6. More preferably, the heat sink 507 is disposed near the mounting seat for heat exchange with the liquid inside the negative oxygen ion generator 4, and preferably, at least a portion of the cavity 40 is made of a good heat conductor, for example, a light metal such as aluminum, or a heat conductive resin. In this way, the whole negative oxygen ion generator 4 is equivalent to a heat sink, and compared with the air heat dissipation mode, the heat can be conducted away more quickly and effectively, and further the negative oxygen ion gas is heated. Meanwhile, the air with the indoor temperature and the negative oxygen ion gas provided by the air pump 5 can take away the temperature of the liquid, so that the temperature of the negative oxygen ion gas is increased, and the heat is fully utilized while the heat is fully dissipated.

In one embodiment, the sleeve-shaped mount 704 has a hollow sidewall with a double layer structure, the heat sink 507 communicates with the hollow, the inner layer 7041 of the double layer structure includes a plurality of slits for hot gas to contact the cartridge, and the outer layer 7042 of the double layer structure restricts upward flow of gas in the hollow. By adopting the scheme, the heat discharged by the heat dissipation device 507 can be fully utilized, and the heat dissipation effect and the liquid heating effect are better.

In one embodiment, the second exhaust port 104 on the eye mask 1 is adjustable in exhaust volume. For example, an adjusting device is provided, when there is more than one second exhaust port 104, the adjusting device can act to block or open part of the second exhaust port 104, so as to achieve the adjustable total exhaust amount. When there is one second exhaust port 104, the second exhaust port 104 may be partially blocked or opened, so as to adjust the exhaust amount. The adjusting device is, for example, in the form of a blocking piece, and is embedded in a groove arranged on the eyeshade body 101, and a protrusion is arranged on the blocking piece, so that the adjusting device can be conveniently adjusted by hands. By adopting the scheme, the user can adjust the exhaust volume of the second exhaust port 104 according to the needs of the user, and then can adjust the pressure of the negative oxygen ion gas in the container of the eyeshade body 101, so as to adjust the pressure feeling on the skin and adapt to different user requirements. And the updating speed of the negative oxygen ion gas can be adjusted, and the appropriate updating speed can be adjusted according to the skin condition of the user, so that the treatment effect can be fully achieved, and the integral liquid consumption can be saved. Of course, at this time, the pressure of the air pump 5 may be adjusted as needed to be adapted to each other. Of course, the adjusting device may have other structures, such as an openable and closable valve structure or a one-way valve structure that can adjust the opening and closing pressure. Further compression or release of the spring and thus adjustment of the spring pressure, etc. is achieved, for example, by a knob.

In one embodiment, the second air inlet 103 is disposed at one side below the eyecup body 101, the second air inlet 103 is disposed at the other side above the eyecup body 101, and a weight is disposed at the other side of the eyecup body 101 opposite to the one side of the second air inlet 103 for balancing the weight borne by the eyecup body 101. In one embodiment, the weight is disposed on the second exhaust port 104. By adopting the scheme, the strength borne by the eye patch 1 is uniform, and the eye patch cannot have a downward trend due to deflection, so that the user is prevented from having a bad experience feeling, and the eye patch 1 is prevented from being damaged after long-term use.

An embodiment of the present application is described below with reference to the drawings.

Examples

Referring to fig. 1 and 2, the air-excited negative oxygen ion dry eye therapeutic apparatus of the present embodiment includes a housing 6; the air pump 5 is mounted in the shell 6; a negative oxygen ion generator 4 having a first air inlet 4031 connected to the air pump 5 through a first conduit 21; and the eye mask 1 is connected to the first exhaust port 4032 of the oxygen anion generator 4 through a second duct 22.

Eye shade 1 includes eye shade body 101, eye shade body 101 is an one end open-ended container, its open end and the sealed laminating in people's eye periphery, eye shade 1 is by injection moulding's eye shade body 101 with set up lens 102 on eye shade body 101, second air inlet 103, second gas vent 104, fixed band 105 and cushion 106 construct or, lens 102 sets up the other end relative at eye shade body 101 open end, arrange with people's eye looks mutual disposition, second air inlet 103 and second gas vent 104 run through eye shade body 101 wall portion, the second air inlet sets up in the place that eye shade body 101 is close to the bridge of the nose, second gas vent 104 runs through and sets up in eye shade body 101 top left and right sides, fixed band 105 adopts the elastic cord, cushion 106 adopts soft silica gel and imbeds eye shade body 101's open end, the pipe adopts nontoxic tasteless silicone tube or soft plastic pipe.

The gas-excited negative oxygen ion generator 4 comprises a gas-excited negative oxygen ion generator 401, a bottle body 402, a cover body 403 and a connecting pipe 404, wherein the gas-excited negative oxygen ion generator 401 comprises a stainless steel generator body 4011 and a stainless steel gas-excited plate 4014, a screw joint of the screw joint connecting pipe 404 is formed in the upper end of the generator body 4011, a generator gas inlet 4015 is formed below the screw joint, the generator body 4011 is located below the generator gas inlet 4015 and provided with a gas-excited hole 4012 with the diameter of 1mm, the opposite surface of the gas-excited hole 4012 is provided with a gas-excited plate 4014, a gas-excited chamber 4013 is formed between the gas-excited plate 4014 and the generator body 4011 in a surrounding mode, the gas-excited chamber 4013 is communicated with the inner cavity of the bottle body 402, the gas-excited chamber 4013 is communicated with the gas inlet 404 through the gas-excited hole 4012 and the generator gas inlet 4015, the bottle body 402 and the connecting pipe 403 adopt a threaded connection mode, a through hole is formed in the center of the connecting pipe 403, the connecting pipe 404 is fixedly connected with the cover body 403 and communicated with a heating pipe 403403, the first exhaust nozzle 4033 is formed in a first exhaust port 4033.

The heating device 3 is composed of a heating pipe 301, a heating wire 302, a heating device 3 air outlet nozzle 303 and a heating device shell 304, the heating wire 302 is wound on the heating pipe 301, one end of the heating pipe 301 is connected with the heating device 3 air outlet nozzle 303, the other end of the heating pipe 301 is in threaded connection with a first air outlet 40302, and the heating pipe 301 and the heating wire 302 are installed in an inner cavity of the heating device shell 304.

The air pump 5 adopts an oil-free piston pump, the flow rate is 30L/min, the pressure is 0.15MPa, an air pump air inlet 503 of the air pump 5 is connected with a filter 505, an air pump air outlet 502 is communicated with an air inlet nozzle of a cover body 403 through a guide pipe, a fixing device 506 is arranged on the bottom surface of the air pump 5, and a spring 504 is arranged below the fixing device 506. The air pump 5, the filter 505 and the spring 504 are mounted together in a housing 6.

The shell 6 and the air-excited negative oxygen ion generator 4 are both arranged in the handbag-shaped shell 7, and the second conduit 22 is connected with the eyeshade 1 through an air outlet nozzle on the handbag-shaped shell 7.

The above list of details is only for the concrete description of the feasible embodiments of the present application, they are not intended to limit the scope of the present application, and all equivalent embodiments or modifications that do not depart from the technical spirit of the present application are intended to be included within the scope of the present application.

Claims (10)

1. The utility model provides an air-excited negative oxygen ion xerophthalmia therapeutic instrument which characterized in that: comprises that

The negative oxygen ion generator comprises a cavity and a gas-excited negative oxygen ion generating device arranged in the cavity, wherein the cavity is provided with a first gas inlet and a first exhaust port, and the first gas inlet is connected with a gas source through a first conduit; the gas-excited negative oxygen ion generating device is connected with the first air inlet through a connecting pipe;

the eye patch comprises an eye patch body, wherein the eye patch body is a container with one open end, the open end of the eye patch body can be in sealing fit with the periphery of a human eye, a second air inlet and a second air outlet are formed in the eye patch body, and the second air inlet of the eye patch is connected with the first air outlet of the negative oxygen ion generator through a second conduit.

2. The air-excited negative oxygen ion dry eye therapeutic apparatus according to claim 1, wherein: also comprises a heating device for heating the gas before the gas enters the container of the eyeshade body.

3. The air-excited negative oxygen ion dry eye therapeutic apparatus according to claim 2, wherein: the heating device is arranged on at least one of the first conduit, the second conduit, the negative oxygen ion generator and the eyeshade.

4. The air-excited negative oxygen ion dry eye therapeutic apparatus according to claim 2, wherein: the heating device is an annular heating device arranged outside the first conduit and/or the second conduit.

5. The air-excited negative oxygen ion dry eye therapeutic apparatus according to claim 2, wherein: heating device sets up the first exhaust port periphery of cavity, heating device includes heating pipe, heating wire, heating device air outlet nozzle and heating device shell, and the heating wire twines on the heating pipe, and heating device air outlet nozzle is connected to the one end of heating pipe, and first exhaust port is connected to the other end, and heating pipe and heating wire are installed in the inner chamber of heating device shell.

6. The air-excited negative oxygen ion dry eye therapeutic apparatus according to claim 1, wherein: the eye patch further comprises a fixing band and a soft cushion, wherein two ends of the fixing band are connected to two sides of the eye patch body, and the soft cushion is arranged at the opening end of the eye patch body and is used for being in contact with skin.

7. The air-excited negative oxygen ion dry eye therapeutic apparatus according to claim 1, wherein: the cavity comprises a bottle body and a cover body, the first air inlet is arranged on one of the bottle body and the cover body, and the first air outlet is arranged on one of the bottle body and the cover body; gas is swashed formula negative oxygen ion generating device and is included generator body and gas and swashs the board, and the upper end of generator body is connected the connecting pipe is equipped with the generator air inlet below the generator body, sets up the gas below lieing in the generator air inlet in the generator body and swashs the hole, and the opposite in gas swashs the hole sets up gas swashs the board.

8. The air-excited negative oxygen ion dry eye therapeutic apparatus according to any one of claims 1 to 7, wherein: the therapeutic apparatus comprises a shell and a handbag-shaped shell, wherein an air pump, a filter and a spring are arranged in the shell; the air pump is fixed on the shell through the spring, and an air inlet of the air pump is connected with the filter; the shell and the negative oxygen ion generator are both arranged in the handbag-shaped shell.

9. The air-excited negative oxygen ion dry eye therapeutic apparatus according to claim 8, wherein: the shell is provided with a heat dissipation device used for removing heat generated by the components in the shell.

10. The air-excited negative oxygen ion dry eye therapeutic apparatus according to claim 9, wherein: the heat dissipation device is a fan and/or a heat sink.

Images