CN115088893B - Antibacterial breathable mask, mask assembly, mask processing technology and device - Google Patents

Abstract

The application discloses an antibacterial and breathable mask, a mask assembly, a processing technology and a device of the mask, wherein the antibacterial and breathable mask comprises a mask body and ear belts welded on two sides of the mask body, the mask body comprises a plurality of overlapped filter layers, the periphery of each filter layer is welded and fixed, and the plurality of overlapped filter layers specifically comprise an outer non-woven fabric layer, at least one melt-blown cloth layer and an inner non-woven fabric layer which are sequentially arranged; the device also comprises an air inlet pipe group and an air outlet pipe group. The application uses the filter layer of the mask to filter, and can realize active air supply by matching with the fan without additionally arranging a filter chip, thereby effectively preventing unsmooth breathing.

Description

Antibacterial breathable mask, mask assembly, mask processing technology and device

Technical Field

The application relates to the field of masks, in particular to an antibacterial breathable mask, a mask assembly, a processing technology of the mask and a device.

Background

The mask is a sanitary and epidemic prevention article, is worn on the mouth and nose part and is used for filtering air entering the mouth and nose so as to achieve the effect of blocking harmful gases, smell, spray, viruses and other substances, and is generally made of materials such as non-woven fabrics, melt blown cloth and the like.

The mask has a plurality of filter layers, and the multilayer structure leads to poor air permeability, and especially after wearing for a long time, the breathing of a wearer is easy to be unsmooth.

Disclosure of Invention

The application aims at the problems and provides an antibacterial breathable mask, a mask assembly, a processing technology of the mask and a device.

The technical scheme adopted by the application is as follows:

the utility model provides an antibacterial breathable mask, includes the gauze mask body and welds the ear area in gauze mask body both sides, the gauze mask body includes a plurality of filter layers of overlapping, and the week of each filter layer is along welded fastening, and a plurality of filter layers of overlapping specifically include outside non-woven fabrics layer, at least one layer of melt-blown cloth layer and inlayer non-woven fabrics layer that set gradually;

the antibacterial breathable mask further comprises an air inlet pipe group and an air outlet pipe group;

the air inlet pipe group comprises a first flexible sheet and a first pipeline, wherein the first end of the first pipeline is fixed on one side of the first flexible sheet, the end face of the first end of the first pipeline is closed, an air inlet is formed in the part, corresponding to the first flexible sheet, of the first pipeline, and the air inlet is positioned on one side, opposite to the first flexible sheet, of the first pipeline; the first flexible sheet is positioned between the innermost melt-blown cloth layer and the inner non-woven cloth layer and is positioned at the lower part of the mask body, the air inlet faces the melt-blown cloth layer, and the second end of the first pipeline extends downwards through the outlet mask body;

the air outlet pipe group comprises a second flexible sheet and a second pipeline, a first end of the second pipeline is fixed on one side of the second flexible sheet, the end face of the first end of the second pipeline is closed, and the second flexible sheet is provided with an air outlet communicated with the second pipeline; the second flexible sheet is located between the innermost melt-blown cloth layer and the inner non-woven cloth layer, and is located at the lower part of the mask body, the second flexible sheet and the first flexible sheet are located at the left side and the right side of the mask body respectively, the first end of the second pipeline faces the melt-blown cloth layer, the air outlet faces the inner non-woven cloth layer, and the second end of the second pipeline penetrates the outlet mask body to extend downwards.

The antibacterial and breathable mask is matched with a fan for use, the second end of the first pipeline is inserted into the air inlet end of the fan, the second end of the second pipeline is inserted into the air outlet end of the fan, automatic air supply can be realized, and the air path is as follows: the space outside the mask is filtered through the outside non-woven fabric layer and the melt-blown fabric layer and then enters the air inlet of the first pipeline, then enters the fan through the first pipeline, enters the mask body through the second pipeline after exiting from the fan, and finally is discharged to one side of the face of the human body through the air outlet of the second flexible sheet.

When the mask is used, the inner layer non-woven fabric layer is in contact with the face, and through the design of the first flexible sheet and the second flexible sheet, the air inlet pipe group and the air outlet pipe group are conveniently fixed in the mask body, the stress area can be increased, and the foreign body sensation of the first pipeline and the second pipeline is reduced.

The application uses the filter layer of the mask to filter, and can realize active air supply by matching with the fan without additionally arranging a filter chip, thereby effectively preventing unsmooth breathing.

The welding and fixing according to the present application is preferably performed by ultrasonic welding. The innermost meltblown layer refers to the meltblown layer adjacent to the inner nonwoven layer.

In one embodiment of the present application, the first and second piping are flat tubes.

In one embodiment of the present application, the ear band is welded to the outer nonwoven layer.

In one embodiment of the application, the mask further comprises a nose bridge strip arranged at the upper end inside the mask body, and the nose bridge strip is positioned between two adjacent filter layers.

In an embodiment of the application, the inner non-woven fabric layer has an opening corresponding to the air outlet.

The holes are arranged to further facilitate air outlet, so that the ventilation effect is improved.

In one embodiment of the present application, a side of the first flexible sheet facing the inner nonwoven layer is adhered and fixed to the inner nonwoven layer, and a side of the second flexible sheet facing the inner nonwoven layer is adhered and fixed to the inner nonwoven layer.

The application also discloses a mask assembly, which comprises:

the fan assembly is provided with an air inlet socket and an air outlet socket;

the neck hanging rope is arranged on the fan assembly;

a plurality of disposable antibacterial breathable masks, wherein the disposable antibacterial breathable masks are the antibacterial breathable masks according to any one of claims 1 to 6, the second end of the first pipeline of the disposable antibacterial breathable masks is used for being inserted into the air inlet socket of the fan assembly, and the second end of the second pipeline is used for being inserted into the air outlet socket of the fan assembly.

The application also discloses a processing technology of the mask, which comprises the following steps:

1) Sequentially conveying the outer non-woven fabric layer, the melt-blown cloth layer and the inner non-woven fabric layer at intervals from top to bottom;

2) Spraying glue to one side of the first flexible sheet, which is back to the first pipeline, and spraying glue to one side of the second flexible sheet, which is back to the second pipeline;

3) Attaching one side of the first flexible sheet with glue to the inner non-woven fabric layer, and attaching one side of the first flexible sheet with glue to the inner non-woven fabric layer;

4) Sending the outer non-woven fabric layer, the melt-blown cloth layer and the inner non-woven fabric layer into an ultrasonic welding machine for welding, and welding the two ends of the ear belt on the outer non-woven fabric layer;

5) Cutting after welding to obtain the antibacterial breathable mask.

In actual use, the glue can be sprayed by a glue spraying gun.

In one embodiment of the present application, the method further comprises the step of placing or bonding a nose bridge between the outer nonwoven layer and the meltblown layer prior to welding.

The application also discloses a processing device of the mask, which is used for implementing the step 3 of the processing technology of the mask, and comprises the following steps:

the pressure receiving plate is positioned between the melt-blown cloth layer and the inner non-woven cloth layer, and one side of the pressure receiving plate facing the inner non-woven cloth layer is provided with a first avoiding opening and a second avoiding opening;

the first mechanical arm is used for clamping the air inlet pipe group, moving a first flexible sheet of the air inlet pipe group between the pressure receiving plate and the inner non-woven fabric layer, and enabling the first pipeline to correspond to the first avoiding opening;

the second manipulator is used for clamping the air outlet pipe group, moving a second flexible sheet of the air outlet pipe group into a space between the melt-blown cloth layer and the inner non-woven cloth layer, and enabling a second pipeline to correspond to the second avoiding opening;

the pressing plate is positioned at one side of the inner non-woven fabric layer away from the pressure receiving plate and is aligned with the pressure receiving plate;

and the telescopic element is used for driving the pressing plate to move to one side of the inner non-woven fabric layer, so that the first flexible sheet and the second flexible sheet are adhered to the inner non-woven fabric layer.

The beneficial effects of the application are as follows: the application uses the filter layer of the mask to filter, and can realize active air supply by matching with the fan without additionally arranging a filter chip, thereby effectively preventing unsmooth breathing.

Drawings

FIG. 1 is a schematic view of an antibacterial breathable mask of example 1;

FIG. 2 is a schematic view of the bacteria-proof breathable mask of example 1 at another angle;

FIG. 3 is an exploded view of the antibacterial breathable mask of example 1;

FIG. 4 is a schematic illustration of an intake stack;

FIG. 5 is a schematic view of an outlet tube set;

FIG. 6 is a schematic diagram of a fan assembly of embodiment 2;

fig. 7 is a schematic view of a processing device for a mask according to example 3.

The reference numerals in the drawings are as follows:

1. a mask body; 2. ear bands; 3. an outer nonwoven layer; 4. a meltblown layer; 5. an inner nonwoven layer; 6. an air inlet pipe group; 7. a gas outlet pipe group; 8. a first flexible sheet; 9. a first pipeline; 9a, a first end of the first conduit; 9b, a second end of the first conduit; 10. an air inlet; 11. a second flexible sheet; 12. a second pipeline; 12a, a first end of a second conduit; 12b, a second end of the second conduit; 13. an air outlet; 14. a nose bridge strip; 15. opening holes; 16. a fan assembly; 17. an air inlet socket; 18. an air outlet jack; 19. a pressure receiving plate; 20. a first avoidance port; 21. a second avoidance port; 22. a pressing plate; 23. a telescoping member.

Detailed Description

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

In the description of the present application, it should be noted that, the azimuth or positional relationship indicated by the terms "inner", "outer", etc. are based on the azimuth or positional relationship shown in the drawings, or the azimuth or positional relationship that is commonly put in use of the product of this application, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the device or element to be referred to must have a specific azimuth, be configured and operated in a specific azimuth, and therefore should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In the description of the present application, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed", "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected or integrally connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art.

The present application will be described in detail with reference to the accompanying drawings.

Example 1

As shown in fig. 1, 2, 3, 4 and 5, the antibacterial breathable mask comprises a mask body 1 and ear belts 2 welded on two sides of the mask body 1, wherein the mask body 1 comprises a plurality of overlapped filter layers, the periphery of each filter layer is welded and fixed, and the plurality of overlapped filter layers specifically comprise an outer non-woven fabric layer 3, at least one melt-blown cloth layer 4 and an inner non-woven fabric layer 5 which are sequentially arranged;

the antibacterial breathable mask also comprises an air inlet pipe group 6 and an air outlet pipe group 7;

the air inlet pipe group 6 comprises a first flexible sheet 8 and a first pipeline 9, wherein a first end 9a of the first pipeline is fixed on one side of the first flexible sheet 8, the end face of the first end 9a of the first pipeline is closed, an air inlet 10 is formed in a part, corresponding to the first flexible sheet 8, of the first pipeline 9, and the air inlet 10 is positioned on one side, facing away from the first flexible sheet 8, of the first pipeline 9; the first flexible sheet 8 is positioned between the innermost melt-blown cloth layer 4 and the inner non-woven cloth layer 5 and is positioned at the lower part of the mask body 1, the air inlet 10 faces the melt-blown cloth layer 4, and the second end 9b of the first pipeline extends downwards through the outlet mask body 1;

the air outlet pipe group 7 comprises a second flexible sheet 11 and a second pipeline 12, wherein a first end 12a of the second pipeline is fixed on one side of the second flexible sheet 11, the end face of the first end 12a of the second pipeline is closed, and the second flexible sheet 11 is provided with an air outlet 13 communicated with the second pipeline 12; the second flexible sheet 11 is located between the innermost melt-blown cloth layer 4 and the inner non-woven cloth layer 5, and is located at the lower part of the mask body 1, the second flexible sheet 11 and the first flexible sheet 8 are respectively located at the left side and the right side of the mask body 1, the first end 12a of the second pipeline faces the melt-blown cloth layer 4, the air outlet 13 faces the inner non-woven cloth layer 5, and the second end 12b of the second pipeline extends downwards through the mask body 1.

The antibacterial and breathable mask is matched with a fan for use, the second end 9b of the first pipeline is inserted into the air inlet end of the fan, the second end 12b of the second pipeline is inserted into the air outlet end of the fan, automatic air supply can be realized, and the air path is as follows: the space outside the mask is filtered by the outside non-woven fabric layer 3 and the melt-blown fabric layer 4 and then enters the air inlet 10 of the first pipeline 9, then enters the fan through the first pipeline 9, enters the mask body 1 through the second pipeline 12 after exiting from the fan, and finally is discharged to one side of the face of the human body through the air outlet 13 of the second flexible sheet 11.

When the mask is used, the inner non-woven fabric layer 5 is in contact with the face, and through the design of the first flexible sheet 8 and the second flexible sheet 11, the mask is convenient for fixing the air inlet pipe group 6 and the air outlet pipe group 7 in the mask body 1, and can increase the stress area and reduce the foreign body sensation of the first pipeline 9 and the second pipeline 12.

The application uses the filter layer of the mask to filter, and can realize active air supply by matching with the fan without additionally arranging a filter chip, thereby effectively preventing unsmooth breathing.

The welding and fixing according to the present application is preferably performed by ultrasonic welding. The innermost meltblown layer 4 refers to the meltblown layer 4 adjacent to the inner nonwoven layer 5.

In the present embodiment, the first piping 9 and the second piping 12 are each flat tubes.

In this embodiment, the ear band 2 is welded to the outer nonwoven fabric layer 3.

As shown in fig. 3, in this embodiment, the mask further includes a nose bridge strip 14 disposed at an upper end of the mask body 1, and the nose bridge strip 14 is located between two adjacent filter layers.

As shown in fig. 2, in this embodiment, the inner nonwoven fabric layer 5 has openings 15 corresponding to the air outlets 13. The open holes 15 are arranged to further facilitate air outlet and improve the ventilation effect.

In this embodiment, the side of the first flexible sheet 8 facing the inner nonwoven layer 5 is bonded to the inner nonwoven layer 5, and the side of the second flexible sheet 11 facing the inner nonwoven layer 5 is bonded to the inner nonwoven layer 5.

The embodiment also discloses a processing technology of the mask, which comprises the following steps:

1) The outer non-woven fabric layer 3, the melt-blown cloth layer 4 and the inner non-woven fabric layer 5 are sequentially conveyed at intervals up and down;

2) Spraying glue to the side of the first flexible sheet 8 facing away from the first pipeline 9, and spraying glue to the side of the second flexible sheet 11 facing away from the second pipeline 12;

3) Attaching the side of the first flexible sheet 8 with glue to the inner non-woven fabric layer 5, and attaching the side of the first flexible sheet 8 with glue to the inner non-woven fabric layer 5;

4) Sending the outer non-woven fabric layer 3, the melt-blown cloth layer 4 and the inner non-woven fabric layer 5 into an ultrasonic welding machine for welding, and welding two ends of the ear belt 2 on the outer non-woven fabric layer 3;

5) Cutting after welding to obtain the antibacterial breathable mask.

In actual use, the glue can be sprayed by a glue spraying gun.

In this embodiment, the step of placing or bonding the nose bridge 14 between the outer nonwoven layer 3 and the meltblown layer 4 is also included before welding.

Example 2

As shown in fig. 6, this embodiment discloses a mask assembly, including:

a fan assembly 16 having an inlet port 17 and an outlet port 18;

a neck strap (not shown) mounted on the fan assembly 16;

the disposable antibacterial and breathable mask is the antibacterial and breathable mask described in embodiment 1, the second end 9b of the first pipeline of the disposable antibacterial and breathable mask is used for being inserted into the air inlet socket 17 of the fan assembly 16, and the second end 12b of the second pipeline is used for being inserted into the air outlet socket 18 of the fan assembly 16.

Example 3

As shown in fig. 7, this embodiment discloses a mask processing apparatus for performing step 3 of the mask processing process in embodiment 1, the mask processing apparatus comprising:

the pressure receiving plate 19 is positioned between the melt-blown cloth layer 4 and the inner non-woven cloth layer 5, and one side of the pressure receiving plate 19 facing the inner non-woven cloth layer 5 is provided with a first avoiding opening 20 and a second avoiding opening 21;

a first manipulator (not shown in the figure) for clamping the air inlet pipe group 6, moving the first flexible sheet 8 of the air inlet pipe group 6 between the pressure receiving plate 19 and the inner non-woven fabric layer 5, and making the first pipeline 9 correspond to the first avoiding port 20;

a second manipulator (not shown in the drawing) for clamping the air outlet pipe group 7, moving the second flexible sheet 11 of the air outlet pipe group 7 between the melt-blown cloth layer 4 and the inner nonwoven cloth layer 5, and making the second pipeline 12 correspond to the second avoiding port 21;

a pressing plate 22 which is positioned on one side of the inner non-woven fabric layer 5 away from the pressure receiving plate 19 and is aligned with the pressure receiving plate 19;

and a stretching member 23 for driving the pressing plate 22 to move toward the inner nonwoven fabric layer 5 side to adhere the first flexible sheet 8 and the second flexible sheet 11 to the inner nonwoven fabric layer 5.

The foregoing description is only of the preferred embodiments of the present application, and is not intended to limit the scope of the application, but rather is intended to cover all equivalent structures as modifications within the scope of the application, either directly or indirectly, as may be contemplated by the present application.

Claims (9)

1. The utility model provides an antibacterial breathable mask which is characterized in that the breathable mask comprises a mask body and ear belts welded on two sides of the mask body, wherein the mask body comprises a plurality of overlapped filter layers, the periphery of each filter layer is welded and fixed, and the plurality of overlapped filter layers specifically comprise an outer non-woven fabric layer, at least one melt-blown cloth layer and an inner non-woven fabric layer which are sequentially arranged;

the antibacterial breathable mask further comprises an air inlet pipe group and an air outlet pipe group;

the air inlet pipe group comprises a first flexible sheet and a first pipeline, wherein the first end of the first pipeline is fixed on one side of the first flexible sheet, the end face of the first end of the first pipeline is closed, an air inlet is formed in the part, corresponding to the first flexible sheet, of the first pipeline, and the air inlet is positioned on one side, opposite to the first flexible sheet, of the first pipeline; the first flexible sheet is positioned between the innermost melt-blown cloth layer and the inner non-woven cloth layer and is positioned at the lower part of the mask body, the air inlet faces the melt-blown cloth layer, and the second end of the first pipeline extends downwards through the outlet mask body;

the air outlet pipe group comprises a second flexible sheet and a second pipeline, a first end of the second pipeline is fixed on one side of the second flexible sheet, the end face of the first end of the second pipeline is closed, and the second flexible sheet is provided with an air outlet communicated with the second pipeline; the second flexible sheet is positioned between the innermost melt-blown cloth layer and the inner non-woven cloth layer and is positioned at the lower part of the mask body, the second flexible sheet and the first flexible sheet are respectively positioned at the left side and the right side of the mask body, the first end of the second pipeline faces the melt-blown cloth layer, the air outlet faces the inner non-woven cloth layer, and the second end of the second pipeline penetrates through the mask body to extend downwards;

the antibacterial breathable mask is matched with a fan to be used, the second end of the first pipeline is inserted into the air inlet end of the fan, the second end of the second pipeline is inserted into the air outlet end of the fan, automatic air supply can be realized, and the air path is as follows: the space outside the mask is filtered through the outside non-woven fabric layer and the melt-blown fabric layer and then enters the air inlet of the first pipeline, then enters the fan through the first pipeline, enters the mask body through the second pipeline after exiting from the fan, and finally is discharged to one side of the face of the human body through the air outlet of the second flexible sheet.

2. The anti-microbial breathable mask of claim 1, wherein the first conduit and the second conduit are each flat tubes.

3. The anti-bacterial breathable mask of claim 1 wherein said ear strap is welded to said outer nonwoven layer.

4. The bacteria-resistant breathable mask of claim 1, further comprising a nose bridge strip disposed at an upper end of the interior of the mask body, the nose bridge strip being positioned between adjacent two of the filter layers.

5. The anti-bacterial breathable mask according to claim 1, wherein said inner nonwoven layer has openings corresponding to said air outlets.

6. The anti-bacterial breathable mask according to claim 5, wherein a side of the first flexible sheet facing the inner nonwoven layer is adhesively secured to the inner nonwoven layer and a side of the second flexible sheet facing the inner nonwoven layer is adhesively secured to the inner nonwoven layer.

7. A mask assembly, comprising:

the fan assembly is provided with an air inlet socket and an air outlet socket;

the neck hanging rope is arranged on the fan assembly;

a plurality of disposable antibacterial breathable masks, the disposable antibacterial breathable masks are the antibacterial breathable masks according to any one of claims 1-6, the second end of the first pipeline of the disposable antibacterial breathable masks is used for being inserted into the air inlet socket of the fan assembly, and the second end of the second pipeline is used for being inserted into the air outlet socket of the fan assembly.

8. A process for processing the antibacterial and breathable mask of claim 6, comprising the following steps:

1) Sequentially conveying the outer non-woven fabric layer, the melt-blown cloth layer and the inner non-woven fabric layer at intervals from top to bottom;

2) Spraying glue to one side of the first flexible sheet, which is back to the first pipeline, and spraying glue to one side of the second flexible sheet, which is back to the second pipeline;

3) Attaching one side of the first flexible sheet with glue to the inner non-woven fabric layer, and attaching one side of the first flexible sheet with glue to the inner non-woven fabric layer;

4) Sending the outer non-woven fabric layer, the melt-blown cloth layer and the inner non-woven fabric layer into an ultrasonic welding machine for welding, and welding the two ends of the ear belt on the outer non-woven fabric layer;

5) Cutting after welding to obtain the antibacterial breathable mask.

9. The mask processing process of claim 8, further comprising the step of placing or bonding a nose bridge strip between the outer nonwoven layer and the meltblown layer prior to welding.