CN116637019A - Self-cleaning type atomization fumigating instrument for eyes - Google Patents

Abstract

The application discloses a self-cleaning type ophthalmic atomization fumigating instrument, which comprises: the device comprises an atomization assembly, a cleaning assembly, a gas making assembly, a conveying pipeline, an eye cover assembly and a temperature control assembly, wherein the eye cover assembly is respectively communicated with the atomization assembly, the gas making assembly and the cleaning assembly through the conveying pipeline, and the temperature control assembly is connected to the conveying pipeline. The application can clean the conveying pipeline and the eye cover assembly through the cleaning assembly, and can dry the conveying pipeline and the eye cover assembly through the air making assembly and the temperature control assembly, and the atomization fumigator can perform self-cleaning after being used for realizing the rapid use for another patient or realizing the fumigation of changing different liquid medicines for different patients.

Description

Self-cleaning type atomization fumigating instrument for eyes

Technical Field

The application relates to the technical field of eye fumigators, in particular to a self-cleaning type eye atomization fumigator.

Background

Dry eye refers to a lacrimal secretion disorder eye disease, which is caused by various factors and is mainly manifested by dry eyes, and is often accompanied by itching, foreign body sensation, burning sensation of eyes, photophobia, blurred vision, vision fluctuation, and the like. Common symptoms include dry eyes, easy tiredness, itching eyes, feeling of foreign body, pain and burning sensation, sticky secretion, fear of wind, photophobia and sensitivity to external stimuli; sometimes the eyes are too dry, the basic tears are insufficient, instead, reflex tear secretion is stimulated, and frequent tearing is caused; the eyes are red, swollen, hyperemic, keratinized, broken and adhered with filiform substances, and the damage can cause keratoconjunctival lesions and affect the eyesight after a long time.

At present, the dry eye is mainly treated by drugs such as artificial tears and physical therapy. Wherein, the physical therapy comprises laser therapy of LTP, hot compress, fumigation, meibomian gland massage, etc.

For example, application number 201720000731.5 discloses an eye fumigation massage therapeutic apparatus, wherein an eye massager is arranged on a fumigation machine, and a patient is treated by the eye massager. The utility model has the defects that after one patient uses, the pipeline and the eye massage instrument of the fumigating machine are difficult to clean, and the pipeline and the eye massage instrument are difficult to be used by the next patient in time, so that the atomization fumigating instrument is not beneficial to be reused.

Accordingly, the prior art is in need of improvement.

Disclosure of Invention

The application aims to provide a self-cleaning type ophthalmic atomization fumigating instrument, and aims to solve the technical problem that the prior art is difficult to clean a pipeline of a fumigating machine and an eye massage instrument, so that the atomization fumigating instrument is not beneficial to reuse.

In order to achieve the above purpose, the application adopts the following technical scheme:

the application provides a self-cleaning type ophthalmic atomization fumigating instrument, which comprises: the device comprises an atomization assembly, a cleaning assembly, a gas making assembly, a conveying pipeline, an eye cover assembly and a temperature control assembly, wherein the eye cover assembly is respectively communicated with the atomization assembly, the gas making assembly and the cleaning assembly through the conveying pipeline, and the temperature control assembly is connected with the conveying pipeline;

the atomizing subassembly is used for atomizing the liquid medicine and will the atomized liquid medicine is carried to the pipeline, afterwards the control by temperature change subassembly is right atomized liquid medicine in the pipeline heats or cools down, afterwards the atomized liquid medicine flows into the eye-shade subassembly is fumigated, when fumigating finishes, the subassembly is washed to the cleaning element warp the pipeline is in the eye-shade subassembly fills the cleaning liquid, is used for realizing with the pipeline with the eye-shade subassembly washes, afterwards the gas making subassembly warp the pipeline is to the eye-shade subassembly lets in gas, and the control by temperature change subassembly is in heat the gas in the pipeline, is used for realizing with the pipeline with the eye-shade subassembly dries.

In one embodiment, the atomizing assembly comprises: at least one atomizing mechanism, the atomizing mechanism comprising:

the liquid storage box body is used for storing fumigation liquid medicine;

and one end of the atomizer is connected with the box body, the other end of the atomizer is connected with the conveying pipeline, and the atomizer is used for atomizing the fumigating liquid medicine.

In one embodiment, the atomizing assembly comprises: two the atomizing mechanism, wherein, two the atomizing mechanism includes: a warm fumigation atomizing group and a cold fumigation atomizing group;

the warm fumigation atomizing group comprises a first box body and a first atomizer, one end of the first atomizer is connected with the first box body, and the other end of the first atomizer is connected with the conveying pipeline;

the cold fumigation atomization group comprises a second box body and a second atomizer, one end of the second atomizer is connected with the second box body, and the other end of the second atomizer is connected with the conveying pipeline.

In one embodiment, the cleaning assembly includes: the cleaning device comprises a third box body, a third pipeline and a third liquid supply pump, wherein cleaning liquid is stored in the third box body, the third liquid supply pump is arranged on the third pipeline, the third box body, the third liquid supply pump, the third pipeline and the conveying pipeline are connected to form a cleaning pipeline, and the cleaning pipeline is communicated with the eye cover assembly.

In one embodiment, the cleaning liquid comprises physiological saline, and the cleaning assembly further comprises a third atomizer, one end of the third atomizer is connected with the third box, and the other end of the third atomizer is connected with the conveying pipeline.

In one embodiment, the gas generating assembly includes a hydrogen generating oxygenerator and an air compressor, both of which are connected to the delivery conduit, the hydrogen generating oxygenerator being configured to provide oxygen or hydrogen to the eye mask assembly, and the air compressor being configured to provide air to the eye mask assembly.

In one embodiment, the temperature control assembly includes: the device comprises a PLC logic controller, a heating and refrigerating module and a temperature sensor, wherein the PLC logic controller is respectively and electrically connected with the heating and refrigerating module and the temperature sensor, and the temperature sensor is positioned on one side of the conveying pipeline close to the eye cover assembly.

In one embodiment, the eye shield assembly comprises:

an eye shield housing having a receiving cavity;

the surrounding flow passage is positioned in the accommodating cavity;

the nozzles are arranged on the surrounding flow channel;

the air exchange valve is arranged on the eye shield shell and is communicated with the accommodating cavity;

the elastic pad is arranged at the contour edge of the eyeshade shell;

and the eye socket paste is detachably connected with the elastic pad.

In one embodiment, the nozzle is directed toward a face-engaging side of the eye mask shell.

In one embodiment, the elastic pad comprises one of the following structures:

a water bag or an air bag.

The self-cleaning type ophthalmic atomization fumigating instrument provided by the application has the beneficial effects that:

the application discloses a self-cleaning type ophthalmic atomization fumigating instrument, which comprises: the device comprises an atomization assembly, a cleaning assembly, a gas making assembly, a conveying pipeline, an eye cover assembly and a temperature control assembly, wherein the eye cover assembly is respectively communicated with the atomization assembly, the gas making assembly and the cleaning assembly through the conveying pipeline, and the temperature control assembly is connected with the conveying pipeline; the atomizing subassembly is used for atomizing the liquid medicine and will the atomized liquid medicine is carried to the pipeline, afterwards the control by temperature change subassembly is right atomized liquid medicine in the pipeline heats or cools down, afterwards the atomized liquid medicine flows into the eye-shade subassembly is fumigated, when fumigating finishes, the subassembly is washed to the cleaning element warp the pipeline is in the eye-shade subassembly fills the cleaning liquid, is used for realizing with the pipeline with the eye-shade subassembly washes, afterwards the gas making subassembly warp the pipeline is to the eye-shade subassembly lets in gas, and the control by temperature change subassembly is in heat the gas in the pipeline, is used for realizing with the pipeline with the eye-shade subassembly dries. The application can clean the conveying pipeline and the eye cover assembly through the cleaning assembly, and can dry the conveying pipeline and the eye cover assembly through the air making assembly and the temperature control assembly, and the atomization fumigator can perform self-cleaning after being used for realizing the rapid use for another patient or realizing the fumigation of changing different liquid medicines for different patients.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a block diagram of a self-cleaning ophthalmic atomizing fumigator according to an embodiment of the present application;

FIG. 2 is a block diagram of an embodiment of a self-cleaning ophthalmic atomizing fumigator according to an embodiment of the present application;

FIG. 3 is a block diagram of an atomization mechanism according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of an embodiment of a self-cleaning type ophthalmic atomization fumigator according to an embodiment of the present application;

fig. 5 is a schematic structural view of another embodiment of a self-cleaning type ophthalmic atomization fumigator according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a separated box body in a control box according to an embodiment of the present application;

FIG. 7 is a schematic diagram showing the use state of the self-cleaning type ophthalmic atomization fumigator according to the embodiment of the present application;

fig. 8 is a schematic view of a usage state of an orbital patch according to an embodiment of the application;

fig. 9 is a schematic diagram of an assembling structure of an eye socket patch and an eye mask shell according to an embodiment of the present application;

fig. 10 is a schematic structural view of an eye mask housing according to an embodiment of the present application;

FIG. 11 is a schematic view of a surrounding flow channel according to an embodiment of the present application;

fig. 12 is a schematic structural diagram of a temperature control component according to an embodiment of the present application.

Wherein, each reference sign in the figure:

100. an atomizing assembly; 200. cleaning the assembly; 300. a gas making assembly; 400. a delivery conduit; 500. an eye shield assembly; 600. a temperature control assembly; 700. a control box; 800. a reflow assembly; 100a, an atomization mechanism; 100b, a liquid storage tank body; 100c, an atomizer; 110. a warm fumigation atomizing group; 120. a cold fumigation atomizing group; 111. a first case; 112. a first atomizer; 121. a second case; 122. a second atomizer; 210. a third case; 220. a third conduit; 230. a third liquid supply pump; 240. a third atomizer; 310. a hydrogen-producing and oxygen-producing machine; 320. an air compressor; 510. an eye shield case; 520. surrounding the flow passage; 530. a nozzle; 540. a gas exchange valve; 550. an elastic pad; 560. orbital patch; 570. a receiving chamber; 511. an eye shield support; 512. an eye shield cover plate; 610. a PLC logic controller; 620. a heating and refrigerating module; 630. a temperature sensor.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly or indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The directions or positions indicated by the terms "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. are directions or positions based on the drawings, and are merely for convenience of description and are not to be construed as limiting the present technical solution. The terms "first," "second," and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. The meaning of "a plurality of" is two or more, unless specifically defined otherwise.

Referring to fig. 1, the embodiment provides a self-cleaning type ophthalmic atomization fumigating apparatus, which includes: the device comprises an atomization assembly 100, a cleaning assembly 200, a gas making assembly 300, a conveying pipeline 400, an eye cover assembly 500 and a temperature control assembly 600, wherein the eye cover assembly 500 is respectively communicated with the atomization assembly 100, the gas making assembly 300 and the cleaning assembly 200 through the conveying pipeline 400, and the temperature control assembly 600 is connected with the conveying pipeline 400; the atomizing subassembly 100 is used for atomizing the liquid medicine and carries the atomized liquid medicine to pipeline 400, then the temperature control subassembly 600 heats or cools down the atomized liquid medicine in the pipeline 400, then the atomized liquid medicine flows into the eye-shade subassembly 500 and fumigates, when fumigating finishes, the cleaning subassembly 200 fills cleaning liquid into the eye-shade subassembly 500 through pipeline 400 for the realization is washed pipeline 400 and eye-shade subassembly 500, then the gas making subassembly 300 lets in gas through pipeline 400 to eye-shade subassembly 500, and the temperature control subassembly 600 heats gas in pipeline 400 for the realization is dried pipeline 400 and eye-shade subassembly 500.

In this embodiment, the atomization component 100 can atomize the liquid medicine and convey the liquid medicine to the eye mask component 500 through the conveying pipeline 400 to perform eye fumigation physiotherapy, wherein the temperature control component 600 can heat or cool the atomized liquid medicine in the conveying pipeline 400 for realizing warm fumigation or cold fumigation, when fumigation is completed, the cleaning component 200 can be started to convey cleaning liquid to the conveying pipeline 400 for cleaning the conveying pipeline 400 and the eye mask component 500, and after cleaning, air can be input to the conveying pipeline 400 through the air making component 300 for drying, or the air can be heated in combination with the temperature control component 600 for realizing drying the conveying pipeline 400 and the eye mask component 500, so that the next patient can normally use, the conveying pipeline 400 and the eye mask component 500 can be prevented from being replaced, or the cleaning instrument can be prevented from being used for cleaning the atomized fumigation instrument.

Therefore, the application can clean the conveying pipeline 400 and the eye cover assembly 500 through the cleaning assembly 200, and can dry the conveying pipeline 400 and the eye cover assembly 500 through the air making assembly 300 and the temperature control assembly 600, and can self-clean after the atomization fumigator is used for realizing quick use for another patient or realizing fumigation of changing different liquid medicines for different patients.

Referring to fig. 2 and 7, the self-cleaning type ophthalmic atomization fumigating apparatus may include an atomization component 100, a cleaning component 200, an air making component 300, a conveying pipeline 400, an eye mask component 500, a temperature control component 600, a reflux component 800 and a control box 700, wherein the atomization component 100, the cleaning component 200, the air making component 300, the temperature control component 600 and the reflux component 800 are disposed in the control box 700, the control box 700 is connected with the eye mask component 500 through the conveying pipeline 400, a plurality of function keys may be disposed on the control box 700, and a liquid medicine atomization physiotherapy mode, a cleaning mode, a ventilation drying mode and a liquid reflux mode may be performed through the function keys, and the control keys and fumigation separation may be performed. For example, in the liquid atomization physiotherapy mode, the liquid reflux mode may be performed simultaneously, and at this time, the gas in the eye mask assembly 500 may be condensed and then refluxed into the atomization assembly 100 for cyclic atomization, or the gas in the eye mask assembly 500 may be condensed and then refluxed into the control box 700 for direct discharge or collection in the recovery box. For example, a liquid return mode may be performed simultaneously in the cleaning mode to return cleaning liquid in the eye shield assembly 500 to the control box 700. For example, the return assembly 800 may include a recovery tank in communication with the atomizing assembly 100 and the cleaning assembly 200, respectively, via solenoid valves. The reflow assembly 800 and the control box 700 may be understood as the prior art, and thus the specific structure of the reflow assembly 800 and the control box 700 will not be described herein.

Referring to fig. 3 and 6, the atomizing assembly 100 includes: at least one atomizing mechanism 100a, the atomizing mechanism 100a comprising: the liquid storage box 100b and the atomizer 100c, the box is used for storing fumigating liquid medicine, one end of the atomizer 100c is connected with the box, the other end is connected with the conveying pipeline 400, and the atomizer 100c is used for atomizing fumigating liquid medicine.

In this embodiment, the atomizing assembly 100 may include one atomizing mechanism 100a, and the atomizing assembly 100 may also include two atomizing mechanisms 100a or three atomizing mechanisms 100a. Because one atomizing mechanism 100a is relatively independent, one atomizing mechanism 100a can realize one physiotherapy fumigation, for example, two atomizing mechanisms 100a can respectively realize warm fumigation and cold fumigation, or one atomizing mechanism 100a can be matched with one medicine liquid fumigation, and when the medicine liquid fumigation machine is used for different patients, different atomizing mechanisms 100a can be replaced for replacing different medicine liquid fumigation.

Referring to fig. 4, the atomizing assembly 100 may include: two atomizing mechanisms 100a, wherein the two atomizing mechanisms 100a include: a warm fumigation atomizing group 110 and a cold fumigation atomizing group 120; the warm fumigation atomizing group 110 comprises a first box 111 and a first atomizer 112, wherein one end of the first atomizer 112 is connected with the first box 111, and the other end is connected with a conveying pipeline 400; the cold fumigation atomizing group 120 includes a second tank 121 and a second atomizer 122, one end of the second atomizer 122 is connected to the second tank 121, and the other end is connected to the conveying pipe 400.

In this embodiment, the atomizing assembly 100 may include: two atomizing mechanisms 100a, namely a warm fumigation atomizing group 110 and a cold fumigation atomizing group 120. For example, the same patient can carry out warm fumigation (39-41 ℃) through the warm fumigation atomization group 110, massage is carried out after meibomian gland grease is softened, conjunctival sac is washed after massage, at this time, the red irritation symptom of eyes of the patient is obvious, and cold fumigation at 5-15 ℃ is needed through the cold fumigation atomization group 120, which is equivalent to cold compress for 10 minutes, so that eyes of the patient are comfortable.

Referring to fig. 12, the temperature control assembly 600 includes: the PLC logic controller 610, the heating and refrigerating module 620 and the temperature sensor 630, the PLC logic controller 610 is electrically connected with the heating and refrigerating module 620 and the temperature sensor 630 respectively, the temperature sensor 630 is located at one side of the conveying pipeline 400 close to the eye mask assembly 500, and the heating and refrigerating module 620 can be used for heating or refrigerating atomized liquid medicine, physiological saline or air in the conveying pipeline 400.

In this embodiment, the temperature control assembly 600 includes: the PLC logic controller 610, the heating and refrigerating module 620 and the temperature sensor 630, the heating and refrigerating module 620 can heat or refrigerate atomized liquid medicine, normal saline or air in the conveying pipeline 400, the temperature sensor 630 can monitor the temperature of the atomized liquid medicine in real time, wherein the temperature sensor 630 is positioned on one side of the conveying pipeline 400 close to the eye cover assembly 500, or the temperature sensor 630 can be positioned in the eye cover assembly 500 for accurately controlling the temperature of the atomized liquid medicine, the normal saline or the air in the eye cover assembly 500. For example, when the temperature sensor 630 is located in the eye mask assembly 500, for example, during warm fumigation (39-41 ℃), the temperature sensor 630 can monitor the temperature of atomized liquid medicine in the eye mask assembly 500 in real time, if the temperature of the atomized liquid medicine is lower than 39 ℃, the PLC logic controller 610 can adjust the heating and refrigerating module 620 according to the temperature transmitted by the temperature sensor 630, and the heating effect of the heating and refrigerating module 620 can be improved so that the temperature of the atomized liquid medicine is 39-41 ℃; or, if the temperature of the atomized liquid medicine is higher than 41 ℃, the PLC logic controller 610 may adjust the heating and cooling module 620 according to the temperature transmitted by the temperature sensor 630, and may reduce the heating effect of the heating and cooling module 620 so that the temperature of the atomized liquid medicine is 39-41 ℃. When cold fumigation (5-15 ℃) is carried out, the temperature sensor 630 can monitor the temperature of atomized liquid medicine in the eye cover assembly 500 in real time, if the temperature of the atomized liquid medicine is lower than 5 ℃, the PLC logic controller 610 can adjust the heating and refrigerating module 620 according to the temperature transmitted by the temperature sensor 630, and the refrigerating effect of the heating and refrigerating module 620 can be reduced to enable the temperature of the atomized liquid medicine to be 35-15 ℃; or, if the temperature of the atomized liquid medicine is higher than 15 ℃, the PLC logic controller 610 may adjust the heating and cooling module 620 according to the temperature transmitted by the temperature sensor 630, and may promote the cooling effect of the heating and cooling module 620 so that the temperature of the atomized liquid medicine is 5-15 ℃.

In this embodiment, the eye mask assembly 500 can realize warm fumigation and cold fumigation through the temperature control assembly 600, the temperature thereof can be precisely controlled, the eye skin is prevented from being supercooled and frosted, and meanwhile, the eye mask assembly can be matched with proper traditional Chinese medicine liquid for atomization fumigation, wherein the PLC logic controller 610 and the heating and refrigerating module 620 can be understood as the prior art, and the specific structures of the PLC logic controller 610 and the heating and refrigerating module 620 are not repeated here.

Referring to fig. 4, the cleaning assembly 200 includes: the third tank 210, the third pipe 220 and the third liquid supply pump 230, the third tank 210 stores cleaning liquid, the third liquid supply pump 230 is arranged on the third pipe 220, the third tank 210, the third liquid supply pump 230, the third pipe 220 and the conveying pipe 400 are connected to form a cleaning pipe, and the cleaning pipe is communicated with the eye mask assembly 500.

In this embodiment, the cleaning assembly 200 includes: the third box 210, the third pipeline 220 and the third liquid supply pump 230, the cleaning liquid is stored in the third box 210, the third box 210 can convey the cleaning liquid to the conveying pipeline 400 through the third liquid supply pump 230, so that the conveying pipeline 400 and the eye shield assembly 500 can be cleaned, the next patient can use the self-cleaning type ophthalmic atomization fumigator normally, different patients can use the self-cleaning type ophthalmic atomization fumigator timely, the recycling of equipment is realized, and the medical cost is saved.

Referring to fig. 4, the cleaning liquid includes physiological saline, and the cleaning assembly 200 further includes a third atomizer 240, wherein one end of the third atomizer 240 is connected to the third tank 210, and the other end is connected to the conveying pipe 400.

In this embodiment, the cleaning assembly 200 includes: the third tank 210, the third pipe 220, the third liquid supply pump 230 and the third atomizer 240, wherein the cleaning liquid may be physiological saline, and one end of the third atomizer 240 is connected to the third tank 210 and the other end is connected to the delivery pipe 400. For example, some patients may be allergic to the drugs, such as some children or adults, by nebulizing the saline in the wash assembly 200 and then by fumigation therapy through the eye mask assembly 500, on the one hand, the saline of the wash assembly 200 may be used as a wash fluid and delivered to the delivery tube 400 via the third tube 220 and the third fluid supply pump 230 for washing the delivery tube 400 and the eye mask assembly 500; on the other hand, the physiological saline of the cleaning assembly 200 can be atomized by the third atomizer 240 for fumigation therapy, so as to be suitable for patients who may be allergic to the traditional Chinese medicine.

For example, taking different patients as an example, the patient 1 can perform warm fumigation (39-41 ℃) through the warm fumigation atomization group 110, massage is performed after meibomian gland grease is softened, conjunctival sac is washed after massage, at this time, the red irritation symptom of eyes of the patient is obvious, cold fumigation at 5-15 ℃ is required to be performed through the cold fumigation atomization group 120, which is equivalent to cold compress for 10 minutes, and thus the eyes of the patient are comfortable.

Then, before the fumigation physiotherapy is performed on the patient 2, the patient can be washed by normal saline in the cleaning assembly 200, then the patient can be dried by introducing air through the air making assembly 300, and then different atomization mechanisms 100a can be replaced for replacing different liquid medicines to perform the atomization fumigation physiotherapy.

Alternatively, patient 3 may be allergic to the nebulized fumigation of the drug solution and the nebulized fumigation of the saline may be performed by the third nebulizer 240.

Referring to fig. 4, the gas generating assembly 300 includes a hydrogen generating oxygenerator 310 and an air compressor 320, both of which are connected to a delivery pipe 400, the hydrogen generating oxygenerator 310 is used to provide oxygen or hydrogen to the eye mask assembly 500, and the air compressor 320 is used to provide air to the eye mask assembly 500.

In the present embodiment, the gas generating assembly 300 includes the hydrogen generating oxygenerator 310 and the air compressor 320, and hydrogen or oxygen can be injected into the eye mask assembly 500 through the hydrogen generating oxygenerator 310, wherein oxygen or hydrogen is injected into the eye mask assembly 500, which can improve the oxygen-enriched or hydrogen-enriched environment of the ocular surface, which is helpful for treatment. The air compressor 320 may inject air into the transfer duct 400 and the eye mask assembly 500 to blow-dry or dry the transfer duct 400 and the eye mask assembly 500. Or the air compressor 320 may be replaced by another fan, wherein the hydrogen-making and oxygen-making machines 310 and 320 may be understood as the prior art, and thus the specific structures of the hydrogen-making and oxygen-making machines 310 and 320 are not described herein.

Referring to fig. 5, in another embodiment, the first atomizer 112 is respectively connected to the third tank 210, the first tank 111 and the second tank 121, that is, the physiological saline in the cleaning assembly 200, the liquid medicine in the warm fumigation atomizing group 110 and the liquid medicine in the cold fumigation atomizing group 120 are all atomized by the first atomizer 112, so that the equipment volume can be saved and the cost can be saved. For example, the liquid medicine in the first box 111 may be atomized by the first atomizer 112 for warm fumigation therapy, then the cleaning assembly 200 may be used for cleaning, then the air compressor 320 is used for drying, then the liquid medicine in the second box 121 may be atomized by the first atomizer 112 for cold fumigation therapy, or the physiological saline in the third box 210 may be atomized by the first atomizer 112, i.e. atomized physiological saline for atomization fumigation therapy, so as to be suitable for patients allergic to the traditional Chinese medicine.

Referring to fig. 6, the atomizing assembly 100 includes two atomizing mechanisms 100a, each of the atomizing mechanisms 100a can store a Chinese medicinal liquid, the two atomizing mechanisms 100a are disposed in a control box 700, and a cleaning assembly 200 and an air generating assembly 300 are further disposed in the control box 700, wherein the two atomizing mechanisms 100a include: a warm fumigation atomizing group 110 and a cold fumigation atomizing group 120; the warm fumigation atomizing group 110 comprises a first box 111 and a first atomizer 112, wherein one end of the first atomizer 112 is connected with the first box 111, and the other end is connected with a conveying pipeline 400; the cold fumigation atomizing group 120 comprises a second box body 121 and a second atomizer 122, one end of the second atomizer 122 is connected with the second box body 121, and the other end is connected with the conveying pipeline 400; purge assembly 200 may include a third tank 210, a third conduit 220, a third liquid supply pump 230, and a third atomizer 240, and gas production assembly 300 includes a hydrogen-producing oxygenerator 310, and an air compressor 320.

In this embodiment, the four unit modules of the warm fumigation atomizing group 110, the cold fumigation atomizing group 120, the cleaning assembly 200 and the air making assembly 300 can be communicated with the conveying pipeline 400, and the multiple modules are combined together, so that the filling of multiple liquid medicines can be simultaneously satisfied. For example, the same patient can perform warm fumigation (39-41 ℃) through the warm fumigation atomization group 110, massage is performed after meibomian gland grease is softened, conjunctival sac is washed after massage, at this time, the red irritation symptom of eyes of the patient is obvious, cold fumigation at 5-15 ℃ is required through the cold fumigation atomization group 120, which is equivalent to cold compress for 10 minutes, so that eyes of the patient are comfortable, if the patient is allergic to the traditional Chinese medicine liquid, the patient can perform fumigation physiotherapy through physiological saline in the third box 210 through atomization of the third atomizer 240. Or, during fumigation physiotherapy, oxygen or hydrogen can be introduced into the eye mask assembly 500 through the hydrogen-making oxygenerator 310, so that the oxygen-enriched or hydrogen-enriched environment of the eye surface is improved, and the treatment effect is improved. Taking different patients as an example, after the fumigation physiotherapy of the patient 1 is finished, normal saline can be pumped by the cleaning assembly 200 to be washed, and then air is introduced to blow-dry or dry, so that the patient 2 can use the fumigation physiotherapy, or the fumigation physiotherapy of different liquid medicines can be realized for different patients.

Referring to fig. 8, 9 and 10, the eye shield assembly 500 includes: the eyeshade shell 510 with the containing cavity 570, the surrounding flow channel 520, a plurality of nozzles 530, the ventilation valve 540, the elastic pad 550 and the eye socket paste 560, wherein the surrounding flow channel 520 is arranged in the containing cavity 570, the nozzles 530 are arranged on the surrounding flow channel 520, the ventilation valve 540 is arranged on the eyeshade shell 510, the ventilation valve 540 is communicated with the containing cavity 570, the elastic pad 550 is arranged at the outline edge of the eyeshade shell 510, and the eye socket paste 560 is detachably connected with the elastic pad 550.

In this embodiment, the eyeshade housing 510 with the accommodating cavity 570 may include the eyeshade bracket 511 and the eyeshade cover plate 512, the surrounding flow channel 520 may be disposed on the eyeshade bracket 511, that is, the surrounding flow channel 520 is disposed in the accommodating cavity 570 of the eyeshade housing 510, the eyeshade cover plate 512 is disposed on the eyeshade bracket 511, the elastic pad 550 is disposed on the eyeshade cover plate 512 of the eyeshade housing 510, and the elastic pad 550 has elasticity, can be tightly attached to the face of the patient, can prevent the eyeshade assembly 500 from sliding down, can be suitable for different facial features of the patient, and can improve the comfort of use.

Wherein the ventilation valve 540 may be provided at the top or bottom or side of the eye mask housing 510, for example, the top of the eye mask housing 510 is provided with two ventilation valves 540 for adjusting the atomization fumigation effect of the eye mask assembly 500.

The surrounding flow channel 520 can surround the inner circumference of the eyeshade shell 510, a plurality of nozzles 530 are arranged on the surrounding flow channel 520, the plurality of nozzles 530 can be uniformly distributed on the surrounding flow channel 520, and the atomized gas fumigation Fan Ye can be uniformly and stably discharged through the plurality of nozzles 530, for example, when the atomized fumigation physiotherapy is performed through the atomization mechanism 100a, the atomized gas can be uniformly discharged into the eyeshade assembly 500 through the nozzles 530 on the surrounding flow channel 520; when the atomized fumigation physiotherapy is performed by the atomized physiological saline by the atomizing mechanism 100a, the nozzle 530 on the surrounding flow channel 520 can uniformly discharge the atomized physiological saline into the eye mask assembly 500; the nozzles 530 on the circumferential flow channel 520 are capable of uniformly discharging oxygen or hydrogen or air into the eye mask assembly 500 when the gas generating assembly 300 is in operation.

The eye socket patch 560 can be detachably connected with the elastic pad 550, so that the patient can use the disposable eye socket patch 560, for example, the patient can wear the eye socket patch 560 on the eyes first, and can wear the eye mask assembly 500 after adjusting the position, for example, the eye mask assembly 500 can be fixed on the eyes of the patient through a telescopic annular belt, and the eye mask assembly 500 body is not contacted with the patient by means of the fitting of the eye socket patch 560 to the face of the patient, so that the disinfection cost can be reduced by combining the self-cleaning function of the cleaning assembly 200.

Referring to fig. 9 and 11, the nozzles 530 face the face-facing side of the mask housing 510. For example, a surrounding flow channel 520 is arranged along the inner periphery of the eyeshade shell 510, a plurality of nozzles 530 are uniformly arranged on the surrounding flow channel 520, and the nozzles 530 face to the face-facing side of the eyeshade shell 510, so that the nozzles 530 spray gas or liquid to the face-facing or eye-facing side, thus the atomized gas or fumigation liquid is uniformly and stably discharged, water and gas can be discharged, the water and gas can be discharged to wash the inside of the eyeshade, the gas and gas can dry the inside of the eyeshade, the self-cleaning effect is achieved, and the gas discharged by the nozzles 530 is prevented from being directly rushed to the face of a patient.

Referring to fig. 9, the elastic pad 550 may include one of the following structures:

a water bag or an air bag.

For example, the circumference of the eye mask housing 510 near one side of the patient's face is provided with a water bag, the eye mask housing 510 is tightly attached to the patient's face through the water bag, and the water bag has elasticity, can adapt to different facial features of the patient, and can improve the comfort of use.

Or, the periphery of the eye mask shell 510, which is close to one side of the face of the patient, is provided with an air bag, the eye mask shell 510 is tightly attached to the face of the patient through the air bag, and the air bag has elasticity, so that the eye mask shell can be suitable for different facial features of the patient, and the comfort level of use can be improved.

In summary, the application discloses a self-cleaning type ophthalmic atomization fumigating instrument, which comprises: the device comprises an atomization assembly, a cleaning assembly, a gas making assembly, a conveying pipeline, an eye cover assembly and a temperature control assembly, wherein the eye cover assembly is respectively communicated with the atomization assembly, the gas making assembly and the cleaning assembly through the conveying pipeline, and the temperature control assembly is connected with the conveying pipeline; the atomizing subassembly is used for atomizing the liquid medicine and carries the liquid medicine of atomizing to pipeline, and then the control by temperature change subassembly heats or cools down the atomizing liquid medicine in the pipeline, and then the atomizing liquid medicine flows into the eye-shade subassembly and fumigates, and when fumigating finishes, cleaning component fills into cleaning liquid to the eye-shade subassembly through pipeline for realize washing pipeline and eye-shade subassembly, later the gas making subassembly lets in gas to the eye-shade subassembly through pipeline, and the control by temperature change subassembly heats gas in pipeline for realize drying pipeline and eye-shade subassembly. The application can clean the conveying pipeline and the eye cover assembly through the cleaning assembly, and can dry the conveying pipeline and the eye cover assembly through the air making assembly and the temperature control assembly, and the atomization fumigator can perform self-cleaning after being used for realizing the rapid use for another patient or realizing the fumigation of changing different liquid medicines for different patients.

The foregoing description of the preferred embodiments of the application is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the application.

Claims (10)

1. A self-cleaning ophthalmic atomizing fumigating instrument, comprising: the device comprises an atomization assembly, a cleaning assembly, a gas making assembly, a conveying pipeline, an eye cover assembly and a temperature control assembly, wherein the eye cover assembly is respectively communicated with the atomization assembly, the gas making assembly and the cleaning assembly through the conveying pipeline, and the temperature control assembly is connected with the conveying pipeline;

the atomizing subassembly is used for atomizing the liquid medicine and will the atomized liquid medicine is carried to the pipeline, afterwards the control by temperature change subassembly is right atomized liquid medicine in the pipeline heats or cools down, afterwards the atomized liquid medicine flows into the eye-shade subassembly is fumigated, when fumigating finishes, the subassembly is washed to the cleaning element warp the pipeline is in the eye-shade subassembly fills the cleaning liquid, is used for realizing with the pipeline with the eye-shade subassembly washes, afterwards the gas making subassembly warp the pipeline is to the eye-shade subassembly lets in gas, and the control by temperature change subassembly is in heat the gas in the pipeline, is used for realizing with the pipeline with the eye-shade subassembly dries.

2. The self-cleaning ophthalmic atomizing fumigator of claim 1 wherein the atomizing assembly comprises: at least one atomizing mechanism, the atomizing mechanism comprising:

the liquid storage box body is used for storing fumigation liquid medicine;

and one end of the atomizer is connected with the box body, the other end of the atomizer is connected with the conveying pipeline, and the atomizer is used for atomizing the fumigating liquid medicine.

3. The self-cleaning ophthalmic atomizing fumigator of claim 2 wherein the atomizing assembly comprises: two the atomizing mechanism, wherein, two the atomizing mechanism includes: a warm fumigation atomizing group and a cold fumigation atomizing group;

the warm fumigation atomizing group comprises a first box body and a first atomizer, one end of the first atomizer is connected with the first box body, and the other end of the first atomizer is connected with the conveying pipeline;

the cold fumigation atomization group comprises a second box body and a second atomizer, one end of the second atomizer is connected with the second box body, and the other end of the second atomizer is connected with the conveying pipeline.

4. The self-cleaning ophthalmic atomizing fumigating device of claim 1 wherein the cleaning assembly comprises: the cleaning device comprises a third box body, a third pipeline and a third liquid supply pump, wherein cleaning liquid is stored in the third box body, the third liquid supply pump is arranged on the third pipeline, the third box body, the third liquid supply pump, the third pipeline and the conveying pipeline are connected to form a cleaning pipeline, and the cleaning pipeline is communicated with the eye cover assembly.

5. The self-cleaning ophthalmic atomizing fumigating device of claim 4 wherein the cleaning liquid comprises normal saline and the cleaning assembly further comprises a third atomizer, one end of the third atomizer being connected to the third tank and the other end being connected to the delivery conduit.

6. The self-cleaning ocular aerosolization fumigator of claim 1 wherein the gas generating assembly comprises a hydrogen generating oxygen generator and an air compressor, both connected to the delivery conduit, the hydrogen generating oxygen generator for providing oxygen or hydrogen to the eye mask assembly and the air compressor for providing air to the eye mask assembly.

7. The self-cleaning ophthalmic atomizing fumigating device of claim 1 wherein the temperature control assembly comprises: the device comprises a PLC logic controller, a heating and refrigerating module and a temperature sensor, wherein the PLC logic controller is respectively and electrically connected with the heating and refrigerating module and the temperature sensor, and the temperature sensor is positioned on one side of the conveying pipeline close to the eye cover assembly.

8. The self-cleaning ophthalmic aerosolization fumigating device of claim 1 wherein the eye shield assembly comprises:

an eye shield housing having a receiving cavity;

the surrounding flow passage is positioned in the accommodating cavity;

the nozzles are arranged on the surrounding flow channel;

the air exchange valve is arranged on the eye shield shell and is communicated with the accommodating cavity;

the elastic pad is arranged at the contour edge of the eyeshade shell;

and the eye socket paste is detachably connected with the elastic pad.

9. The self-cleaning ophthalmic aerosol fumigator of claim 8 wherein the nozzle faces the face-facing side of the eye mask shell.

10. The self-cleaning ophthalmic aerosolization fumigating apparatus of claim 1 wherein the resilient pad comprises one of the following structures:

a water bag or an air bag.