CN217448214U - Novel atomizing eye-shade - Google Patents

Abstract

The utility model provides a novel atomizing eye shield, which comprises an eye shield body; the front cover surface of the eye shield body is provided with an air inlet pipe, and an air inlet is formed and communicated with the air inlet pipe; the eye shield body is provided with a cup cavity which is used for accommodating the eyes and forms an atomization cavity after being attached to the eyes, and the cup cavity is communicated with the air inlet pipe through the air inlet; the eye shield body is also provided with a first air hole communicated with the cup cavity; the air inlet pipe, the air inlet, the cup cavity and the first air holes are communicated in sequence to form a flow path channel of atomized steam. So set up, by atomizing liquid medicine vapour can pass through the intake pipe with the air inlet enters into in the cup chamber, and rotatory, flow in the cup chamber, press close to as user's eye during the cup chamber, can with liquid medicine atomizing vapour in the cup chamber contacts, and then plays treatment eye disease, or the tired effect of eye of releiving.

Description

Novel atomizing eye-shade

Technical Field

The application relates to the technical field of medical auxiliary instruments, in particular to a novel atomizing eye patch.

Background

In recent years, with the incidence rate of eye diseases caused by electronic devices such as computers, mobile phones and tablets being greatly improved, xerophthalmia has become a common disease. Especially in high-temperature seasons and dry weather in autumn and winter, the air conditioner is commonly used in households and workplaces, so that the evaporation of water in human bodies including eyes is greatly increased, and patients with xerophthalmia are also greatly increased. Common symptoms of dry eye include: dry eyes, easy fatigue, itching eyes, foreign body sensation, pain and burning sensation, or viscous secretion, aversion to wind and photophobia. Sometimes, the eyes are too dry, the basic tears are insufficient, and the reflex tears are stimulated to secrete, so that the frequent tears are caused; eyes of more serious patients will be red, swollen and congested. Research shows that artificial tears and various functional eye drops adopted by western medicine and hot compress, massage, acupuncture, fumigation and the like adopted by traditional Chinese medicine can treat and relieve eye dryness, and various medicinal components directly act on eyes through atomization, so that the eye dryness treatment eye cream has better effect and takes effect more quickly. At present, the medical atomizer is mainly used for treating various upper and lower respiratory system diseases, such as diseases of the trachea, the bronchus, the alveolus and the chest cavity, such as cold, fever, cough, asthma, sore throat, pharyngitis, rhinitis, bronchitis, pneumoconiosis and the like, and the existing medical atomizer is of a uniform type, the atomizing mouth is cylindrical or flat cylinder, and the exhaust hole is open. Can not meet the requirements of the patients with the eyes.

SUMMERY OF THE UTILITY MODEL

Based on the above problem, a novel atomizing eye patch which can facilitate the use of atomized vapor for treating eye diseases of a human body or relieving eye fatigue is provided.

A novel atomization eye shield comprises an eye shield body; the front cover surface of the eye shield body is provided with an air inlet pipe, and an air inlet is formed and communicated with the air inlet pipe; the eye shield body is provided with a cup cavity which is used for accommodating the eyes and forms an atomization cavity after being attached to the eyes, and the cup cavity is communicated with the air inlet pipe through the air inlet; the eye shield body is also provided with a first air hole communicated with the cup cavity; the air inlet pipe, the air inlet, the cup cavity and the first air holes are communicated in sequence to form a flow path channel of atomized steam. So set up, by atomizing liquid medicine vapour can pass through the intake pipe with the air inlet enters into in the cup chamber, and rotatory, flow in the cup chamber, press close to as user's eye during the cup chamber, can with liquid medicine atomizing vapour in the cup chamber contacts, and then plays treatment eye disease, or the tired effect of eye of releiving. The atomized vapor of liquid medicine can follow after the cup chamber flows out in the first bleeder vent, lets new liquid medicine atomized vapor enter into the cup chamber and contacts with user's eye, forms stable liquid medicine atomized vapor flow path.

In one embodiment, the cup cavity comprises a first eye cup cavity and a second eye cup cavity; the first eye patch cup cavity and the second eye patch cup cavity are respectively communicated with the air inlet pipe through the air inlet; the first air hole is communicated with the first eye cup cavity, and the air inlet pipe, the air inlet, the first eye cup cavity and the first air hole are sequentially communicated to form a flow path channel of atomized steam; the eye cover body is also provided with a second air hole communicated with the second eye cover cavity; the air inlet pipe, the air inlet, the second eye patch cup cavity and the second air vent are communicated in sequence to form a flow path channel of atomized steam. In this embodiment, the first eye patch cavity and the second eye patch cavity can correspond to two eyes, so that each eye has a relatively independent liquid medicine atomization environment, and different eye problems can be effectively treated.

In one embodiment, the cup cavities comprise a first eye-mask cup cavity and a second eye-mask cup cavity so as to respectively correspond to the left eye and the right eye of a person; the first eye patch cup cavity and the second eye patch cup cavity are communicated with each other. In this embodiment, the first eye cup cavity and the second eye cup cavity can correspond to two eyes, and the first eye cup cavity and the second eye cup cavity are communicated with each other to facilitate the average distribution of the liquid medicine atomized vapor.

In one embodiment, the first vent is in communication with the first eye cup cavity; the eye cover body is also provided with a second air hole communicated with the second eye cover cavity; the air inlet pipe, the air inlet, the second eye patch cup cavity and the second air vent are communicated in sequence to form a flow path channel of atomized steam. In this embodiment, the first air vent is communicated with the first eye cup cavity, and the second air vent is communicated with the second eye cup cavity, so that in general, the liquid medicine atomized vapor passing through the first eye cup cavity is discharged through the first air vent, and the liquid medicine atomized vapor passing through the second eye cup cavity is discharged through the second air vent, thereby facilitating guiding the flow direction of the liquid medicine atomized vapor.

In one embodiment, the atomizing cup is further included; the atomizing cup is provided with an air outlet pipe; the air outlet pipe is communicated with the air inlet pipe; the atomizing cup is used for containing liquid medicine and atomizing the liquid medicine. In this embodiment, the atomizing cup is also in external communication with a source of high pressure air, typically oxygen.

In one embodiment, the outlet pipe is integrally provided with the inlet pipe.

In one embodiment, the device further comprises a gas delivery pipe; the gas transmission pipe is communicated with the atomizing cup and is used for inputting high-pressure air to the atomizing cup to cut the surface of the liquid medicine so as to atomize the liquid medicine.

In one embodiment, the outlet pipe is detachably connected with the inlet pipe.

In one embodiment, the elastic band is further included; the two ends of the elastic band are respectively and correspondingly connected with the two ends of the eye shield body so as to be convenient for wearing the eye shield body and fixing the eye shield body on the head of a user.

In one embodiment, the nose support is further arranged at the middle lower part of the eye shield body, so that when a user wears the eye shield, the nose bridge is taken as one of the stress points for bearing the gravity of the eye shield body, and the wearing is more stable.

In one embodiment, the edge of the cup cavity is provided with a soft rubber cushion, so that the part of the user contacting the human body when wearing the eye shield body is soft and can play a role of sealing.

In one embodiment, the eye mask body is made of plastic.

In one of the embodiments, the intake pipe is provided with a valve for adjusting the amount of intake air.

In one embodiment, a light source for phototherapy is further arranged in the cup cavity.

In one embodiment, the cup cavity is also provided with a heating device for heating the liquid medicine atomized vapor so as to perform the hot compress effect on eyes.

In one embodiment, a refrigerating device is further arranged in the cup cavity and used for absorbing heat of the liquid medicine atomized vapor so as to perform a cold compress effect on eyes.

In one embodiment, a heating device is further arranged in the air inlet pipe and used for heating the liquid medicine atomized vapor so as to perform the function of hot compress on eyes.

In one embodiment, a refrigerating device is further arranged in the air inlet pipe and used for absorbing heat of the liquid medicine atomized vapor so as to perform a cold compress effect on eyes.

According to the novel atomizing eye shield, the air inlet pipe is arranged on the front cover surface of the eye shield body, and the air inlet is formed to be communicated with the air inlet pipe; the eye shield body is provided with a cup cavity which is used for accommodating the eyes and forms an atomization cavity after being attached to the eyes, and the cup cavity is communicated with the air inlet pipe through the air inlet; in addition, the eye shield body is also provided with a first air vent communicated with the cup cavity; the air inlet pipe, the air inlet, the cup cavity and the first air holes are communicated in sequence to form a flow path channel of atomized steam. So set up, by atomizing liquid medicine vapour can pass through the intake pipe with the air inlet enters into in the cup chamber, and rotatory, flow in the cup chamber, press close to as user's eye during the cup chamber, can with liquid medicine atomizing vapour in the cup chamber contacts, and then plays treatment eye disease, or the tired effect of eye of releiving. The atomized vapor of liquid medicine can follow after the cup chamber flows out in the first bleeder vent, lets new liquid medicine atomized vapor enter into the cup chamber and contacts with user's eye, forms stable liquid medicine atomized vapor flow path.

Drawings

FIG. 1 is a schematic side view of an atomizing eye shield according to an embodiment;

FIG. 2 is a schematic view of the front end of the eye shield body in the atomizing eye shield according to one embodiment;

FIG. 3 is a schematic diagram of a basic structure of a rear end of an eye shield body in an atomizing eye shield according to an embodiment;

fig. 4 is a schematic diagram of a basic structure of the rear end of the mask body in the atomizing eye mask according to an embodiment.

Description of reference numerals: 100. an eye mask body; 110. an air inlet pipe; 111. an air inlet; 121. a first air vent; 122. a second air hole; 131. a first eye shield cup cavity; 132. a second eye cup cavity; 200. an atomizing cup; 210. a gas delivery pipe; 220. an air outlet pipe; 300. and (4) elastic bands.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying the present application are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of embodiments in many different forms than those described herein and that modifications may be made by one skilled in the art without departing from the spirit and scope of the application and it is therefore not intended to be limited to the specific embodiments disclosed below.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

A novel atomizing eye mask, as shown in fig. 1 and fig. 2 and fig. 3, comprises an eye mask body 100. The front cover surface of the eye-shade body 100 is provided with an air inlet pipe 110, and an air inlet 111 is arranged to be communicated with the air inlet pipe 110. The eye shade body 100 is provided with a cup cavity for accommodating eyes and forming an atomization cavity after being attached to the eyes, and the cup cavity is communicated with the air inlet pipe 110 through the air inlet 111. The eye mask body 100 is further provided with a first vent hole 121 communicated with the cup cavity. The air inlet pipe 110, the air inlet 111, the cup cavity and the first air vent 121 are communicated in sequence to form a flow path channel of atomized steam. So set up, the liquid medicine vapour that is atomized can enter into the cup chamber through intake pipe 110 and air inlet 111 to rotatory, flow in the cup chamber, when cup chamber is pressed close to user's eye, can contact with the liquid medicine aerosol in the cup chamber, and then play the effect of treatment eye disease, or the tired eye of releiving. After the liquid medicine atomized steam passes through the cup cavity, the liquid medicine atomized steam can flow out of the first air holes 121, and new liquid medicine atomized steam enters the cup cavity to be in contact with the eyes of a user, so that a stable liquid medicine atomized steam flow path is formed.

In one embodiment, as shown in fig. 3 or 4, the cup cavities include a first eye cup cavity 131 and a second eye cup cavity 132. The first eye cup chamber 131 and the second eye cup chamber 132 are respectively communicated with the air inlet pipe 110 through the air inlet 111. The first air vent 121 is communicated with the first eye cup cavity 131, and the air inlet pipe 110, the air inlet 111, the first eye cup cavity 131 and the first air vent 121 are sequentially communicated to form a flow path channel of atomized steam. The eye mask body 100 further has a second air hole 122 communicating with the second eye mask cavity 132. The air inlet pipe 110, the air inlet 111, the second eye cup cavity 132 and the second air vent 122 are communicated in sequence to form a flow passage of atomized steam. In this embodiment, the first eye cup cavity 131 and the second eye cup cavity 132 are configured to correspond to two eyes, so that each eye has a relatively independent liquid medicine atomization environment, and different eye problems can be effectively treated.

In one embodiment, as shown in fig. 3 or 4, the cup cavities include a first eye cup cavity 131 and a second eye cup cavity 132 for the left and right eyes of the person, respectively. The first eye cup chamber 131 and the second eye cup chamber 132 communicate with each other. In this embodiment, the first eye cup cavity 131 and the second eye cup cavity 132 are disposed to correspond to two eyes, and the first eye cup cavity 131 and the second eye cup cavity 132 are communicated with each other to facilitate even distribution of the atomized liquid medicine.

In one embodiment, as shown in fig. 3, the first vent 121 communicates with the first eye cup chamber 131. As shown in fig. 4, the eye mask body 100 further has a second vent hole 122 communicating with the second eye mask cavity 132. The air inlet pipe 110, the air inlet 111, the second eye cup cavity 132 and the second air vent 122 are communicated in sequence to form a flow passage of atomized steam. In this embodiment, the first vent hole 121 is communicated with the first eye cup cavity 131, and the second vent hole 122 is communicated with the second eye cup cavity 132, so that the liquid medicine atomized vapor passing through the first eye cup cavity 131 is discharged through the first vent hole 121, and the liquid medicine atomized vapor passing through the second eye cup cavity 132 is discharged through the second vent hole 122, thereby guiding the flow direction of the liquid medicine atomized vapor.

In one embodiment, as shown in FIG. 1, an atomizing cup 200 is also included. The atomizing cup 200 is provided with an air outlet pipe 220. The outlet pipe 220 communicates with the inlet pipe 110. The atomizing cup 200 is used for containing the liquid medicine and atomizing the liquid medicine. In this embodiment, the atomizing cup 200 is also in external communication with a source of high pressure air, typically oxygen.

In one embodiment, the outlet tube 220 is integrally formed with the inlet tube 110.

In one embodiment, as shown in FIG. 1, an air delivery conduit 210 is also included. The air pipe 210 is communicated with the atomizing cup 200 and is used for inputting high-pressure air to the atomizing cup 200 to cut the surface of the liquid medicine so as to atomize the liquid medicine.

In one embodiment, as shown in FIG. 1, the outlet tube 220 is removably connected to the inlet tube 110.

In one embodiment, as shown in fig. 1 or fig. 2 or fig. 3 or fig. 4, an elastic band 300 is further included. Both ends of the elastic band 300 are respectively and correspondingly connected to both ends of the eye mask body 100 so as to facilitate wearing of the eye mask body 100 and to be fixed on the head of the user.

In one embodiment, as shown in fig. 3 or 4, the lower-middle portion of the eye-shield body 100 is further provided with a nose pad, so that the nose bridge serves as one of the stress points for bearing the weight of the eye-shield body 100 when the eye-shield body is worn by a user, and the wearing is more stable.

In one embodiment, a soft rubber pad (not shown) is disposed at the edge of the cup cavity, so that the portion of the user contacting the human body when wearing the eye-mask body 100 is soft and can perform a sealing function.

In one embodiment, the eye shield body 100 is made of plastic.

In one embodiment, the eye shield body 100 is a PPC plastic material, which makes the product lighter and more durable, and at the same time, naturally degradable and more environmentally friendly.

In one of the embodiments, the intake pipe 110 is provided with a valve for adjusting the amount of intake air.

In one embodiment, a light source for phototherapy is also arranged in the cup cavity.

In one embodiment, a heating device is further arranged in the cup cavity and used for heating the liquid medicine atomized vapor so as to perform the hot compress effect on eyes.

In one embodiment, a refrigerating device is further arranged in the cup cavity and used for absorbing heat of the liquid medicine atomized vapor so as to perform a cold compress effect on eyes.

In one embodiment, a heating device is further disposed in the air inlet tube 110 for heating the atomized liquid medicine vapor to perform a hot compress effect on the eyes.

In one embodiment, a refrigerating device is further disposed in the air inlet tube 110 for absorbing heat of the atomized liquid medicine vapor to perform a cold compress effect on eyes.

Above-mentioned a novel atomizing eye-shade 100 that provides, set up intake pipe 110 through the preceding top facing at the eye-shade body, and set up air inlet 111 and intake pipe 110 intercommunication, and set up at the eye-shade body 100 and be used for holding the eye, and constitute the cup chamber of atomizing cavity behind the laminating with the eye, and the cup chamber passes through air inlet 111 and intake pipe 110 intercommunication, still set up the first bleeder vent 121 with the cup chamber intercommunication on the eye-shade body 100 in addition, and make intake pipe 110, air inlet 111, cup chamber and first bleeder vent 121 communicate the flow path passageway that constitutes the atomizing vapour in proper order. So set up, can enter into the cup chamber through intake pipe and air inlet by atomizing liquid medicine vapour to rotatory, flow in the cup chamber, when cup chamber is pressed close to user's eye, can contact with the liquid medicine atomizing vapour in the cup chamber, and then play the effect of treatment eye disease, or the tired eye of releiving. After the liquid medicine atomized steam passes through the cup cavity, the liquid medicine atomized steam can flow out of the first air holes, and new liquid medicine atomized steam enters the cup cavity to be in contact with the eyes of a user, so that a stable liquid medicine atomized steam flow path is formed.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A novel atomization eye mask is characterized by comprising an eye mask body;

the front cover surface of the eye shield body is provided with an air inlet pipe, and an air inlet is formed and communicated with the air inlet pipe;

the eye shield body is provided with a cup cavity which is used for accommodating the eyes and forms an atomization cavity after being attached to the eyes, and the cup cavity is communicated with the air inlet pipe through the air inlet;

the eye shield body is also provided with a first air hole communicated with the cup cavity;

the air inlet pipe, the air inlet, the cup cavity and the first air vent are sequentially communicated to form a flow path channel of atomized steam.

2. The novel atomizing eye shield of claim 1,

the cup cavity comprises a first eye shield cup cavity and a second eye shield cup cavity;

the first eye patch cup cavity and the second eye patch cup cavity are respectively communicated with the air inlet pipe through the air inlet;

the first air hole is communicated with the first eye cup cavity, and the air inlet pipe, the air inlet, the first eye cup cavity and the first air hole are sequentially communicated to form a flow path channel of atomized steam;

the eye cover body is also provided with a second air hole communicated with the second eye cover cavity;

the air inlet pipe, the air inlet, the second eye patch cup cavity and the second air vent are communicated in sequence to form a flow path channel of atomized steam.

3. The novel atomizing eye shield of claim 1,

the cup cavity comprises a first eyeshade cup cavity and a second eyeshade cup cavity which respectively correspond to the left eye and the right eye of a person;

the first eye patch cup cavity and the second eye patch cup cavity are communicated with each other.

4. The novel atomizing eye shield of claim 3,

the first air holes are communicated with the first eye cup cavities;

the eye cover body is also provided with a second air hole communicated with the second eye cover cavity;

the air inlet pipe, the air inlet, the second eye patch cup cavity and the second air vent are communicated in sequence to form a flow path channel of atomized steam.

5. The novel atomizing eye shield of claim 1,

also comprises an atomizing cup;

the atomizing cup is provided with an air outlet pipe;

the air outlet pipe is communicated with the air inlet pipe;

the atomizing cup is used for containing liquid medicine and atomizing the liquid medicine.

6. The novel atomizing eye shield of claim 5,

also comprises a gas transmission pipe;

the gas transmission pipe is communicated with the atomizing cup and is used for inputting high-pressure air to the atomizing cup to cut the surface of the liquid medicine so as to atomize the liquid medicine.

7. The novel atomizing eye shield of claim 5,

the outlet duct with the air inlet pipe is detachable to be connected.

8. The novel atomizing eye shield of claim 1,

also comprises an elastic band;

the two ends of the elastic band are respectively and correspondingly connected with the two ends of the eye shield body so as to be convenient for wearing the eye shield body and fixing the eye shield body on the head of a user.

9. The novel atomizing eye shield of claim 1,

the nose pad is further arranged at the middle lower part of the eye shield body, so that a user can conveniently wear the eye shield body more stably by taking the nose bridge as one of stress points for bearing the gravity of the eye shield body.

10. The novel atomizing eye shield of claim 1,

the edge of the cup cavity is provided with a soft rubber cushion, so that the part of a user contacting with a human body when wearing the eye shield body is soft, and the sealing effect can be achieved.

Images