CN111184956A - Mask capable of containing medicament and automatically blowing air - Google Patents

Abstract

The application provides a gauze mask that can built-in medicament, automatic air supply relates to protective articles technical field. This gauze mask includes gauze mask main part, admission valve and air supply unit, and the admission valve includes valve body and valve block, and the valve body sets up in the gauze mask main part, and the inside cavity that holds the medicament that has of valve body is provided with the air inlet connector with the cavity intercommunication on the valve body, and air supply unit is used for air-purifying and sends the air after purifying to the cavity through air inlet connector, and the valve block sets up in the valve port of valve body, and the inboard unidirectional flow of gas to the gauze mask main part in the valve block can be controlled to the cavity. The utility model provides a but gauze mask of built-in medicament, automatic air supply sets up the cavity through the valve body at the admission valve, after putting into the medicament, can make things convenient for the user to inhale the medicament of volatilizing to help the user to ingest the medicament at the in-process of normal breathing. Meanwhile, the air can be purified by the air supply device and then is supplied into the cavity, so that the medicine can be inhaled when clean air is inhaled, and the use of a user is facilitated.

Description

Mask capable of containing medicament and automatically blowing air

Technical Field

The application relates to the technical field of protective articles, in particular to a mask capable of containing a medicament and automatically supplying air.

Background

Along with the attention of people to breathing health, the gauze mask has become the material that people are in the house and have been equipped with gradually, and when the air of environment need purify, people can wear the gauze mask in order to avoid impurity in the air or pollutant to get into respiratory.

The existing mask can not provide better help for some users with treatment requirements.

Disclosure of Invention

An object of this application is to provide a can embed medicament, gauze mask of automatic air supply, it can improve the problem that current gauze mask can't provide better help for the user that has the treatment demand.

The embodiment of the application is realized as follows:

the embodiment of the application provides a but mask of built-in medicament, automatic air supply, includes: gauze mask main part, admission valve and air supply device, the admission valve includes valve body and valve block, the valve body set up in the gauze mask main part, the inside cavity that holds the medicament that has of valve body, be provided with on the valve body with the admission joint of cavity intercommunication, air supply device is used for air-purifying and passes through the air that the admission joint will purify is delivered to the cavity, the valve block set up in the valve port of valve body, the valve block can be controlled gas in the cavity to the inboard unidirectional flow of gauze mask main part.

The utility model provides a but gauze mask of built-in medicament, automatic air supply sets up the cavity through the valve body at the admission valve, after putting into the medicament, can make things convenient for the user to inhale the medicament of volatilizing to help the user to ingest the medicament at the in-process of normal breathing. Meanwhile, the air can be purified by the air supply device and then is supplied into the cavity, so that the medicine can be inhaled when clean air is inhaled, and the use of a user is facilitated.

In addition, the mask which can contain the medicine and automatically blow air provided by the embodiment of the application can also have the following additional technical characteristics:

in an alternative embodiment of the present application, an activation device is provided within the chamber for facilitating the evaporation of the medicament.

The activation device can cause the medicament to volatilize faster, and when the user needs to inhale more volatile medicament, the device can be started to meet the requirement.

In an optional embodiment of the present application, a drug storage bin for storing a drug is disposed in the chamber, the excitation device is a heating wire, and the heating wire is wound outside the drug storage bin.

By configuring the medicine storage bin, when the used medicament is liquid medicine, the medicine storage bin can be heated through the heating wire so as to volatilize the liquid medicine in the medicine storage bin; when the medicament is tablets, the tablets can also be supported by the medicine storage bin, and after the medicine storage bin is heated, the tablets can be accelerated to volatilize.

In the optional embodiment of this application, the storage medicine storehouse is equipped with the drill way, install the wooden plug on the drill way, medicament in the storage medicine storehouse passes through the wooden plug outwards volatilizees.

The wooden plug can prevent the liquid medicine in the medicine storage bin from leaking in the process of storing or using the mask capable of containing the medicine and automatically blowing air, and the use is prevented from being influenced by the liquid medicine loss caused by the pollution of the mask capable of containing the medicine and automatically blowing air. In addition, the wooden plug can allow volatilized medicaments to pass through the wooden plug from the medicament storage bin and volatilize into the cavity while being plugged, and the volatilized medicinal liquid is not influenced to be inhaled.

In the optional embodiment of this application, the valve body includes main casing body, interior end cover and outer end cover, interior end cover connect in the inner of main casing body and be hollow out construction, outer end cover connect in the outer end of main casing body, main casing body inside is equipped with ventilative baffle, ventilative baffle main casing body and outer end cover enclose into the cavity, the valve block sets up interior end cover with between the ventilative baffle, air inlet joint forms on the main casing body.

In an alternative embodiment of the present application, the air supply device is an anion ozone machine, and the anion ozone machine is connected with the air inlet joint through an air pipe.

In the optional embodiment of this application, but gauze mask of built-in medicament, automatic air supply still including hang the rope and by the ear-hang that flexible material made, hang the rope connect in the gauze mask main part, the ear-hang has the string rope groove, hang rope detachably and inlay and locate hang in the rope groove.

The ear-hang can relieve the pressure of the hanging rope on the ears, so that the user can wear the ear-hang more comfortably.

In the optional embodiment of this application, but built-in medicament, automatic air supply's gauze mask still includes the trachea, the inside of ear-hang has the trachea corridor, tracheal one end with air feeder's gas outlet is connected, tracheal other end is followed the trachea corridor pass the back with air inlet connector connects.

Through setting up the trachea corridor, can conveniently carry out certain restraint with the trachea, avoid the trachea to influence user's sight or disturb user's activity.

In the optional embodiment of this application, but gauze mask of built-in medicament, automatic air supply still includes the air outlet valve, the air outlet valve set up in the gauze mask main part, the air outlet valve is for can controlling gaseous follow the inboard of gauze mask main part is to outside one-way flow's check valve.

In an optional embodiment of the present application, the mask body at least includes an inner layer cloth and an outer layer cloth, and a heating device is disposed between the inner layer cloth and the outer layer cloth.

The mask main body provides a structural basis for the installation of other parts on the one hand, and can also play a certain warm-keeping role. When the mask is matched with a heating device, the mask can be conveniently used by users in cold regions in the weather, and the surface of the mask main body is prevented from being frozen.

Drawings

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

Fig. 1 is a schematic view of a mask with a built-in medicine and an automatic air supply function according to an embodiment of the present disclosure;

fig. 2 is a schematic view of the mask body of fig. 1;

FIG. 3 is a schematic view of an intake valve;

FIG. 4 is an exploded view of FIG. 3;

FIG. 5 is a cross-sectional view of FIG. 3;

FIG. 6 is an exploded view of the gas outlet valve from a first perspective;

FIG. 7 is an exploded view of the gas outlet valve from a second perspective;

FIG. 8 is a schematic view of an ear hook;

FIG. 9 is a cross-sectional view of FIG. 8;

fig. 10 is a schematic structural diagram of the anion ozone machine.

Icon: 10-mask body; 11-intake valve position; 12-air outlet valve position; 13-hanging a rope on the ear; 20-an air inlet valve; 211-a main housing; 212-inner end cap; 213-outer end cap; 214-an air inlet joint; 215-a gas permeable barrier; 23-valve plate; 25-an excitation device; 27-a medicine storage bin; 29-wooden stoppers; 30-an air supply device; 31-negative ion generator; 32-an air pump; 33-a battery; 34-a control panel; 35-a switch; 36-a charging interface; 37-packaging shell; 38-air supply pipe orifice; 40-an air outlet valve; 41-inner shell; 42-silica gel cushion; 43-a housing; 432-a locating post; 50-a heat-generating device; 60-ear hanging; 61-hanging rope grooves; 62-the tracheal gallery; 101-a chamber; 102-a tablet; 103-trachea.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present application, it should be noted that the terms "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the product conventionally places when used, and are only used for convenience of description and simplification of description, but do not indicate or imply that the device or element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the present application, it is also to be noted that, unless otherwise explicitly specified or limited, the terms "disposed" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Examples

Referring to fig. 1 to 10, an embodiment of the present application provides a mask with a built-in medicine and an automatic air supply function, including: the mask comprises a mask body 10, an air inlet valve 20 and an air supply device 30, wherein the air inlet valve 20 comprises a valve body and a valve sheet 23, the valve body is arranged on the mask body 10, a cavity 101 for containing medicine is arranged in the valve body, an air inlet connector 214 communicated with the cavity 101 is arranged on the valve body, the air supply device 30 is used for purifying air and supplying the purified air to the cavity 101 through the air inlet connector 214, the valve sheet 23 is arranged on a valve port of the valve body, and the valve sheet 23 can control the air in the cavity 101 to flow to the inner side of the mask body 10 in a one-.

The inner side of the mask body 10 refers to a side of the mask body 10 that contacts the face of the user when the user wears the mask that can contain a medicine and automatically supply air. The mask body 10 is located on the outer side.

Referring to fig. 3, 4 and 5, in detail, the valve body includes a main housing 211, an inner end cover 212 and an outer end cover 213, the inner end cover 212 is connected to the inner end of the main housing 211 and is a hollow structure, the outer end cover 213 is connected to the outer end of the main housing 211, a ventilation partition plate 215 is disposed inside the main housing 211, the ventilation partition plate 215, the main housing 211 and the outer end cover 213 enclose a chamber 101, the valve plate 23 is disposed between the inner end cover 212 and the ventilation partition plate 215, and the air inlet joint 214 is formed on the main housing 211. Valve plate 23 may be a soft pad made of silica gel, and valve plate 23 is close to one side of air-permeable partition plate 215 facing inner end cover 212 and has a certain distance with inner end cover 212. The valve plate 23 can be opened by the air flow during inhalation and can be pressed on the air-permeable partition 215 during exhalation, so as to prevent the exhaled air flow from flowing backwards into the chamber 101 from the air-permeable partition 215.

Specifically, the chamber 101 is provided with an excitation device 25 for promoting volatilization of the chemical. The activation device 25 allows for faster evaporation of the medicament and enables the device to be used when more medicament is to be inhaled by the user to meet the demand.

Further, a medicine storage bin 27 for storing medicine is arranged in the chamber 101, the excitation device 25 adopted in the embodiment is a heating wire, and the heating wire is wound outside the medicine storage bin 27. The power supply of the heating wire may be configured separately and placed on the mask body 10, or may be supplied by a battery 33 of a negative ion ozone machine, for example, a power supply line is disposed in the air tube 103, led from the negative ion ozone machine to the air inlet connector 214, and then connected into the chamber 101 to supply power to the heating wire. The specific power supply manner can be designed by those skilled in the art according to needs, and is only a simple example here, and is not described again.

Alternatively, rather than using a heating wire for heating activation, it is also contemplated to use a vibrating motor for oscillating the drug storage bin 27. The vibration motor is arranged in the cavity 101, so that the output end of the vibration motor is in transmission connection with the medicine storage bin 27, and the volatilization of the liquid medicine in the medicine storage bin 27 is accelerated by vibrating the medicine storage bin 27.

By arranging the medicine storage bin 27, when the used medicine is liquid medicine, the medicine storage bin 27 can be heated through the heating wire, so that the liquid medicine in the medicine storage bin 27 is volatilized, and the heating wire can also play a role in preventing the liquid medicine from being frozen; when the medicament used is a tablet 102, the tablet 102 may also be supported by the cartridge 27 and may also be accelerated when the cartridge 27 is heated.

In detail, the medicine storage bin 27 is provided with an orifice, a wooden plug 29 is installed on the orifice, and the medicine in the medicine storage bin 27 volatilizes outwards through the wooden plug 29. The wooden plug 29 can prevent the liquid medicine in the medicine storage bin 27 from leaking in the process of storing or using the mask which can be internally provided with the medicine and automatically supply air, and avoid polluting the mask which can be internally provided with the medicine and automatically supply air and also avoid the liquid medicine from losing to influence the use. In addition, the wooden plug 29 can allow the volatilized medicine to pass through the wooden plug 29 from the medicine storage bin 27 and be volatilized into the cavity 101 at the same time of blocking, and the volatilized medicine liquid is not influenced to be inhaled.

Alternatively, instead of using the wooden plug 29 used in the present embodiment, a heating rod may be inserted into the medicine storage 27, and the medicine liquid may be volatilized and volatilized from the heating rod into the chamber 101 by applying electric heat to the heating rod or by applying electric heat to the medicine storage 27. Wherein, the heating rod can refer to the heating rod on the mosquito incense liquid bottle matched with the common electric mosquito killer.

Further, where the medication used is tablet 102, cork 29 may provide a stop for tablet 102. As shown in fig. 4 and 5, tablet 102 is a flat structure with a hole in the center, and can be sleeved on the wooden plug 29 to reduce or eliminate the movement of tablet 102. In addition, the tablets 102 can be in close contact with the medicine storage bin 27, and the tablets 102 can be heated and volatilized more effectively when the heating wire works. Here, the tablet 102 is merely an example, and when a tablet having no center hole is used, the entire temperature in the chamber 101 is increased by the heat generation line, and therefore, the volatilization is promoted.

Optionally, in this embodiment, the outer end cap 213 is detachably connected to the main housing 211, and after removing the outer end cap 213, the wooden plug 29 can be taken away from the opening of the medicine storage bin 27, and then the medicine liquid is added into the medicine storage bin 27, so that after being purchased by a user, the medicine liquid can be repeatedly used in a medicine liquid filling manner, and the use cost is reduced. Of course, the outer end cap 213 may be removed after the tablet 102 is used up, and the tablet 102 may be mounted again.

Referring to fig. 6 and 7, in addition to the air inlet valve 20, the mask of the present invention capable of containing a medicine and automatically blowing air further includes an air outlet valve 40, the air outlet valve 40 is disposed on the mask body 10, and the air outlet valve 40 is a one-way valve capable of controlling the one-way flow of air from the inner side to the outer side of the mask body 10. In detail, the air outlet valve 40 includes an inner housing 41, a silicone cushion 42 and an outer housing 43, and when combined, the inner housing 41 and the outer housing 43 in fig. 6 or fig. 7 are fastened up and down, so that the silicone cushion 42 is positioned by a positioning column 432 (shown in fig. 6) in the center of the outer housing 43. The inner shell 41 and the outer shell 43 are respectively positioned at the inner side and the outer side of the mask body 10, the silica gel cushion 42 is attached to one side of the inner shell 41 facing the outer shell 43, but a movable space is reserved between the silica gel cushion 42 and the outer shell 43, so that when air is sucked, the silica gel cushion 42 can be pressed on the inner shell 41 by negative pressure, and external air is prevented from entering the inner side of the mask body 10 from the air outlet valve 40; when exhaling, because a space is left between the silica gel cushion 42 and the shell 43, the exhaled gas can lift the silica gel cushion 42, which is beneficial to more smooth exhalation and is not blocked by the mask body 10.

Referring to fig. 2, in the present embodiment, the inlet valve 20, the outlet valve 40 and the air supply device 30 are detachably connected to the mask body 10. The mask body 10 is provided with an air inlet valve position 11 and an air outlet valve position 12. For example, the main housing 211 and the inner end cap 212 may be mounted on the intake valve position 11 in a snap-fit manner, and the main housing 211 and the inner end cap 212 are separated when the main housing 211 and the inner end cap are to be detached; for example, the inner housing 41 and the outer housing 43 may be mounted on the air outlet valve 12 in a snap-fit manner, and the inner housing 41 and the outer housing 43 may be separated when the air outlet valve is to be removed. Thus, the mask body 10 can be cleaned independently or replaced by a new mask body 10, and the use cost of the user is reduced.

Alternatively, the inlet valve 20, the outlet valve 40, and the air supply device 30 may be integrated with the mask body 10. The air supply device 30 may be installed at a position where the heat generating device 50 shown in fig. 2 and described later is located, and then the heat generating device 50 may be removed, or may be installed at another portion of the mask body 10 as needed in the appearance, so as not to interfere with the heat generating device 50. These are designs that can be understood and put into practical use by those skilled in the art and will not be described in detail herein.

Specifically, the mask body 10 includes at least an inner layer cloth and an outer layer cloth, and the heating device 50 is disposed between the inner layer cloth and the outer layer cloth, but may be disposed on the outer layer cloth (only the heating device 50 is illustrated in fig. 1 and 2, and is not limited to being disposed on the outer layer cloth). In this embodiment, the mask further includes a middle layer cloth, which can be made of common mask materials such as melt-blown cloth. The mask body 10 provides a structural basis for mounting other components and also has a certain warm keeping effect. When the heating device 50 is used, the mask can be conveniently used by users in cold regions, and the surface of the mask body 10 is prevented from being frozen. The heating device 50 may be a built-in heating wire and powered by the battery 33 of the anion ozone machine in the following, or share a power supply with the heating wire in the air intake valve 20 in the above, or be configured separately.

The mask capable of containing the medicament and automatically blowing air of the embodiment further comprises a hanging rope and an ear hook 60 made of flexible materials, wherein the hanging rope is connected to the mask body 10, the ear hook 60 is provided with a hanging rope groove 61, and the hanging rope is detachably embedded in the hanging rope groove 61. The ear hook 60 can relieve the pressure of the hanging rope on the ears, so that the user can wear the ear hook more comfortably.

The three rope hanging grooves 61 are distributed on the outer contour of the ear hook 60, in this embodiment, the number of the rope hanging grooves 61 is three, and the three rope hanging grooves 61 are sequentially distributed at intervals along the outer contour of the ear hook 60. As shown in fig. 8 and 9, the shape of the ear hook 60 is similar to the contour of the portion of the ear connected to the head, i.e. the contour of the ear root, so that the foreign body sensation caused by the ear hook 60 can be reduced when wearing the ear hook, and the ear hook is stable after wearing and is not easy to fall off from the ear.

In this embodiment, an ear-hanging sling 13 is used, and it is understood that a head-wearing sling may be used as the sling. In addition, the user may freely select the ear hook 60 without wearing it when using it.

In this embodiment, the air supply device 30 is an anion ozone machine, and the anion ozone machine is connected with the air inlet joint 214 through the air pipe 103. Accordingly, the ear hook 60 of the present embodiment has a trachea corridor 62 therein, one end of the trachea 103 is connected to the air outlet of the air supply device 30, and the other end of the trachea 103 is connected to the air inlet connector 214 after passing through the trachea corridor 62. By arranging the air pipe gallery 62, the air pipe 103 can be restrained to a certain extent conveniently, and the influence of the air pipe 103 on the sight line of a user or the interference of the movement of the user is avoided.

Alternatively, the air tube 103 may be a part of a mask capable of containing a chemical and automatically blowing air, so that the mask capable of containing a chemical and automatically blowing air can be used without separately providing a duct for blowing air after being disposed together. In addition, except for the above hanging rope, the air tube 103 may be connected to the air inlet connector 214 after being wound into a shape of a hanging lug, and the air tube 103 is fixedly connected to the mask body 10 at a plurality of nodes, so that the wound air tube 103 can maintain the appearance of the hanging lug on two sides of the mask body 10, wherein the hanging lug is similar to the shape and structure of the above hanging rope 13, which are ways that can be understood and selected by those in the art, and are not described herein again.

Referring to fig. 10, in detail, in the present embodiment, the anion ozone machine includes an anion generator 31, an air pump 32, a battery 33, a control board 34, a switch 35, a charging interface 36, a packaging case 37, an air supply nozzle 38, and a buzzer. The hummer is not shown in the figure, and a common hummer may be referred to, which is not improved here and thus will not be described again. The negative ion generator 31 employs a voltage of 5kv, and generates 2000 ten thousand negative ions while generating a small amount of ozone after being energized. The buzzer buzzes when the power is low, and the charging is prompted. The delivery nozzle 38 is connected to the inlet connector 214 via the trachea 103 and, when the ear-hook 60 is in use, is adapted to pass through the trachea passage 62 and connect to the inlet connector 214. In addition, a filter screen can be arranged on the path before the air outlet of the air outlet pipe orifice 38, so as to further improve the air purification effect. Alternatively, a filter screen may be disposed in the chamber 101 to further filter the gas pumped from the inlet fitting 214.

Besides, in addition to the switch 35 for controlling the operation of the anion ozone generator itself, the corresponding switches can be configured for the excitation device 25 and the heat generating device 50, and the operation of the corresponding devices can be controlled separately by the control board 34 in combination with the circuit of the anion ozone generator. The selection can be made by those skilled in the art according to the design requirements, and will not be described in detail herein.

The functions and the principle of the anion ozone machine can refer to a common anion ozone machine, can be worn on the waist or hung on the neck, and is only described simply here for easy understanding and is not described again. Of course, a smaller size anion ozone generator can be selected and integrated into the mask body 10 and connected to the air inlet connector 214, so that the air tube 103 does not need to be inserted through the air tube gallery 62 of the ear-hook 60.

Alternatively, instead of using the anion ozone generator as the air supply device 30, other devices capable of pumping air may be used, for example, a miniature air pump is integrated on the mask body 10 as in the prior art, so as to facilitate air supply. Except that the air outlet of the micro air pump needs to be connected with the air inlet joint 214.

The principle of the embodiment is as follows:

in order to ensure that a user with treatment requirements can also obtain the help of medicines when breathing, the application provides the mask which can be internally provided with medicines and automatically supply air, and when the mask is used, the medicine liquid can be filled into the medicine storage bin 27 and then plugged into the wooden plug 29, and the outer end cover 213 is connected with the main shell body 211.

The hanging rope is inserted into the hanging rope groove 61 of the ear hook 60, the air pipe 103 passes through the air pipe gallery 62 of the ear hook 60, and the mask which can contain medicine and automatically supply air is worn. The anion ozone machine can be hung at the neck or at the waist.

After the switch 35 is turned on and the anion ozone machine is started, the pollutants in the air such as PM2.5, formaldehyde and the like can be removed by the anions, and a small amount of ozone can play a role in sterilization. The anion ozone machine can pump air into the chamber 101 through anion purification, and when the heating wire is electrified, the liquid medicine can be volatilized and volatilized into the chamber 101 through the wooden plug 29. When the user inhales, the valve plate 23 is lifted by the airflow, and the air in the chamber 101 and the volatilized medicine are inhaled by the user.

Since the air outlet valve 40 is a one-way valve, only air is sucked from the chamber 101 during air suction, so that unclean air can be prevented from being sucked. And because valve block 23 can control the gas in cavity 101 to the inboard one-way flow of gauze mask main part 10, when exhaling, also can avoid the foul smell of exhalation to flow backward and get into cavity 101, guaranteed that the user breathes clean reliable each time to can help the user to treat through volatile medicament.

It is understood that the medicament is used for treatment, so the temperature of the heating wire wound on the medicine storage 27 needs to be preset to a safe value to avoid the influence of high temperature on the curative effect of the medicament. The specific safety value may be determined based on the effective temperature of the drug which can generally be treated by volatilization.

Of course, besides the medicines used for treatment, the medicine can also be some medicines for improving the smell, so that the user can smell the favorite smell during breathing, and the requirements of some personal preferences are met. The odor of a small amount of ozone generated by the anion ozone machine can be covered to a certain degree, so that the use experience of a user is not influenced while the small amount of ozone plays a role in sterilization.

When the using environment is a cold environment, the heating device 50 can be started, so that the outer layer cloth of the mask main body 10 is not frozen, and the comfort of the user is improved.

To sum up, but the gauze mask of this application built-in medicament, automatic air supply through set up cavity 101 in the valve body at admission valve 20, after putting into the medicament, can make things convenient for the user to inhale the medicament of volatilizing to help the user to ingest the medicament at the in-process of normal breathing. Meanwhile, the air supply device 30 can be used for purifying air and then feeding the purified air into the chamber 101, so that the medicine can be inhaled when clean air is inhaled, and the use of a user is facilitated.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A mask capable of containing a medicament and automatically blowing air is characterized by comprising: gauze mask main part, admission valve and air supply device, the admission valve includes valve body and valve block, the valve body set up in the gauze mask main part, the inside cavity that holds the medicament that has of valve body, be provided with on the valve body with the admission joint of cavity intercommunication, air supply device is used for air-purifying and passes through the air that the admission joint will purify is delivered to the cavity, the valve block set up in the valve port of valve body, the valve block can be controlled gas in the cavity to the inboard unidirectional flow of gauze mask main part.

2. The mask with a drug therein and an automatic air supply according to claim 1, wherein an excitation device for promoting the volatilization of the drug is provided in the chamber.

3. The mask with a drug therein and an automatic air supply function according to claim 2, wherein a drug storage bin for storing the drug is provided in the chamber, the activating device is a heating wire, and the heating wire is wound outside the drug storage bin.

4. The mask with a drug therein and an automatic air supply function according to claim 3, wherein the drug storage chamber is provided with an opening, a wooden plug is mounted on the opening, and the drug in the drug storage chamber volatilizes outwards through the wooden plug.

5. The mask of claim 1, wherein the valve body comprises a main housing, an inner end cap and an outer end cap, the inner end cap is connected to the inner end of the main housing and has a hollow structure, the outer end cap is connected to the outer end of the main housing, a ventilation partition plate is arranged inside the main housing, the ventilation partition plate, the main housing and the outer end cap enclose the cavity, the valve plate is arranged between the inner end cap and the ventilation partition plate, and the air inlet joint is formed on the main housing.

6. The mask with a built-in medicine and an automatic air supply function according to claim 1, wherein the air supply device is an anion ozone machine, and the anion ozone machine is connected with the air inlet joint through an air pipe.

7. The mask with a drug inside and an automatic air supply function according to claim 1, further comprising a hanging rope and an ear hook made of a flexible material, wherein the hanging rope is connected to the mask body, the ear hook is provided with a hanging rope groove, and the hanging rope is detachably embedded in the hanging rope groove.

8. The mask with a drug inside and an automatic air supply function according to claim 7, further comprising an air tube, wherein the ear hook has an air tube gallery inside, one end of the air tube is connected to the air outlet of the air supply device, and the other end of the air tube is connected to the air inlet connector after passing through the air tube gallery.

9. The mask with a drug inside and an automatic air supply function according to claim 1, further comprising an air outlet valve disposed on the mask body, wherein the air outlet valve is a one-way valve capable of controlling the unidirectional flow of air from the inside to the outside of the mask body.

10. The mask with a drug therein and an automatic air supply according to claim 1, wherein the mask body comprises at least an inner layer cloth and an outer layer cloth, and a heating device is disposed between the inner layer cloth and the outer layer cloth.

Images