CN112656063A - Non-woven antibacterial mask and preparation method thereof - Google Patents

Abstract

The application relates to a non-woven fabric antibacterial mask and a preparation method thereof, which relate to the field of protective articles, and the preparation method of the non-woven fabric antibacterial mask comprises the following steps of preparing materials; welding; cutting; spot welding; blanking; the spot welding machine is provided with a plurality of spot welding machines, a shunting device is arranged between the sheet beating machine and the spot welding machines, the shunting device comprises a support, a first conveying belt and a distributing disc, the first conveying belt is in transmission arrangement with the support, the distributing disc is used for distributing materials, and the distributing disc is in rotary connection with the support; the spot welding machine comprises a rack and a second conveyor belt which is in transmission arrangement with the rack, and the conveying direction of the first conveyor belt is consistent with the conveying direction of the mask piece; the support is provided with a driving device for realizing the intermittent motion of the material distribution disc and the first conveyor belt. This application has the effect that promotes gauze mask production efficiency, ensures gauze mask finished product quality, guarantees the gauze mask antibacterial performance.

Description

Non-woven antibacterial mask and preparation method thereof

Technical Field

The application relates to the field of protective articles, in particular to a non-woven fabric antibacterial mask and a preparation method thereof.

Background

The non-woven fabric mask is made of directional or random fibers, has the performances of moisture resistance, ventilation, flexibility, no toxicity, no irritation and the like, and is widely popularized along with the common use of masks at present due to the antibacterial performance of the non-woven fabric mask.

The existing Chinese patent with the patent application number of CN202010795884.X provides a mask production process and a mask production line, wherein the mask production process comprises the following steps: cutting the nose bridge strips, respectively conveying the nose bridge strips to a material cutting mechanism by two nose bridge strip winding rollers, rotating the material cutting mechanism for one circle, and cutting the two nose bridge strips by a cutter arranged on the material cutting mechanism; pressing, namely conveying the five layers of cloth and the two nose bridge strips into a pressing mechanism to be pressed tightly, wherein the two nose bridge strips are arranged between the third layer of cloth and the fourth layer of cloth; welding spots, conveying the five layers of cloth after pressing to a welding mechanism, and welding the cloth by matching an ultrasonic generating device with a welding spot knife; and cutting, conveying the welded cloth to a discharging mechanism, and cutting the welded cloth by an outer frame knife in the discharging mechanism to form the mask piece.

In view of the above-mentioned related technologies, the inventor believes that the mask needs to be manually transported to the ear band welding process after the mask is cut, and the defect that the production efficiency of the mask is affected exists.

Disclosure of Invention

In order to improve the problem of the flow of mask production, the application provides a non-woven fabric antibacterial mask and a preparation method thereof.

The application provides a preparation method of antibiotic gauze mask of non-woven fabrics adopts following technical scheme:

a non-woven antibacterial mask and a preparation method thereof comprise the following steps of preparing materials, and installing a three-layer cloth roll and a nose bridge strip roll; welding, namely welding the three layers of cloth and the nose bridge strip by an ultrasonic welding device in a sheet making machine; cutting, namely cutting a roller cutter of a flaker into mask pieces in a rotating process; spot welding, namely welding the ear belt on the side edge of the mask sheet by a spot welding machine; blanking; the spot welding machine is provided with a plurality of spot welding machines, a shunting device is arranged between the sheet beating machine and the spot welding machines, the shunting device comprises a support, a first conveying belt and a distributing disc, the first conveying belt is in transmission arrangement with the support, the distributing disc is used for distributing materials, and the distributing disc is in rotary connection with the support; the spot welding machine comprises a rack and a second conveyor belt which is in transmission arrangement with the rack, and the conveying direction of the first conveyor belt is consistent with the conveying direction of the mask piece; the support is provided with a driving device for realizing the intermittent motion of the material distribution disc and the first conveyor belt.

Through adopting above-mentioned technical scheme, the slicer welds three-layer cloth and bridge of the nose strip together, and cut into the gauze mask piece through the slicer middle roll sword, the gauze mask piece drops on first conveyer belt, first conveyer belt carries the gauze mask piece to the branch charging tray on, drive arrangement effect divides the charging tray after, carry the gauze mask piece to the second conveyer belt of the spot welder that needs the pay-off, accomplish the automatic transport and the effect of automatic branch material to the gauze mask piece, promote gauze mask production quality and production efficiency greatly.

Optionally, the distribution disc runs through and is provided with a plurality of branch material mouths that correspond with the second conveyer belt, the distribution disc in the inner wall of branch material mouth rotates and is connected with a plurality of branch material rollers, divide the tangent horizontal plane of material roller cross-section circle with first conveyer belt and the second conveyer belt all is located same horizontal plane, the distribution disc is provided with and drives a plurality ofly simultaneously branch material roller pivoted power pack.

Through adopting above-mentioned technical scheme, when the gauze mask piece passes through the branch charging tray and moves to the second conveyer belt position, under power component's effect, a plurality of branch material rollers take place to rotate and carry the gauze mask piece to the second conveyer belt.

Optionally, the support is fixedly connected with a first motor, the support is rotatably connected with a driving roller and a driven roller, the output end of the first motor is fixedly connected with the driving roller, and the first conveying belt is sleeved outside the driving roller and the driven roller.

Through adopting above-mentioned technical scheme, first motor drive roll rotates, and under the frictional force effect of driven voller and first conveyer belt, first conveyer belt carries the gauze mask piece towards the branch charging tray direction, realizes the transport effect to the gauze mask piece.

Optionally, the driving device includes a driving disc and a transmission disc, the driving disc and the driving roller rotate synchronously, the driving disc is fixedly connected with a bump, the transmission disc is provided with a plurality of transmission grooves for the bump to slide in, the transmission disc is coaxially fixed with the material distribution disc, and an intermittent assembly for ensuring intermittent movement of the transmission disc is arranged between the driving disc and the material distribution disc.

Through adopting above-mentioned technical scheme, the lug slides in to the drive groove, and through the intermittent type subassembly, intermittent type motion is realized to driving-disc and drive disc, for the gauze mask piece carry to correspond the branch material roller on back from first conveyer belt promptly, this gauze mask piece is carried to corresponding on the second conveyer belt, accomplishes the clearance distribution effect to the gauze mask piece is carried.

Optionally, the intermittent type subassembly include with driving-disc fixed connection's circular arc slider and be located adjacent two transmission slider between the transmission groove, circular arc slider cross-section circle radius equals transmission slider cross-section circle radius, lug cross-section center is located on the circumference of circular arc slider place cross-section circle, transmission slider is the indent setting, circular arc slider is the evagination setting, transmission slider periphery wall with the laminating of circular arc slider internal perisporium slides.

By adopting the technical scheme, when the convex block slides out of the transmission groove, the arc sliding block and the transmission sliding block are mutually limited, and the arc sliding block realizes the limitation of the movement of the transmission disc due to inertia, so that the convex block is ensured to slide into the next transmission groove.

Optionally, the size from the center of the projection to the center of the transmission disc is larger than the distance from the center of the projection to the bottom of the transmission groove.

Through adopting above-mentioned technical scheme, can guarantee that the lug drives the transmission disc, ensure the lug simultaneously and follow the roll-off in the transmission groove.

Optionally, power component include with branch charging tray fixed connection's second motor, with second motor fixed connection's drive sprocket, with branch charging tray rotates driven sprocket and the chain of connecting, the chain with drive sprocket and driven sprocket meshes the connection, drive sprocket and a plurality of driven sprocket respectively with a plurality of divide the material roller coaxial fixation.

Through adopting above-mentioned technical scheme, guarantee that three branch material roller rotates the back simultaneously and carry the gauze mask.

Optionally, the material distribution disc is fixedly connected with a detection frame above the material distribution port, the detection frame is fixedly connected with a cylinder, the output end of the cylinder is fixedly connected with a detection rod, and the end face size of the detection rod is smaller than the size of a gap between two adjacent material distribution rollers.

Through adopting above-mentioned technical scheme, if detect out gauze mask when taking place the problem, the cylinder promotes the test rod, and the test rod is ejecting from the depiler roller with the gauze mask piece, accomplishes the detection achievement to the gauze mask.

Optionally, the support in divide material mouthful below fixedly connected with to smash the case, it is provided with the feed inlet to smash the case, it rotates to be connected with crushing roller to divide the case, smash a plurality of crushing leaves of roller circumference outer wall fixedly connected with, it drives to smash case fixedly connected with smash roller pivoted third motor.

Through adopting above-mentioned technical scheme, the gauze mask piece that has the quality problem drops to crushing incasement, and the roller is smashed in third motor control, and crushing leaf cuts the gauze mask fragmentation in the rotation process, completion to the gauze mask that has the quality problem, ensures the finished product quality of gauze mask.

The application provides an antibiotic gauze mask of non-woven fabrics adopts following technical scheme:

a non-woven fabric antibacterial mask is prepared by the preparation method of the non-woven fabric antibacterial mask.

By adopting the technical scheme, the production efficiency is high, the antibacterial effect is good, and the quality of the finished mask product is high.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the mask piece is cut into mask pieces through a roller cutter in the sheet beating machine, the mask pieces fall onto a first conveying belt, the mask pieces are conveyed to a material distribution disc through the first conveying belt, the mask pieces of the material distribution disc are conveyed to a second conveying belt of a spot welding machine needing feeding, the automatic conveying and automatic material distribution effects of the mask pieces are achieved, and the production quality and the production efficiency of the mask are greatly improved;

2. the cylinder drives the detection rod to move downwards, the mask sheet falls from the position between the adjacent distributing rollers and falls into the crushing box, the third motor drives the crushing roller to rotate, and the crushing blade crushes the mask into fragments.

Drawings

FIG. 1 is a schematic overall structure diagram of a first embodiment of the present application;

FIG. 2 is a schematic structural diagram of a distributing tray, a distributing roller and a driving device according to an embodiment of the present disclosure;

FIG. 3 is a schematic view of a pulverizing box, a pulverizing roller and pulverizing leaves in the first embodiment of the present application;

fig. 4 is an enlarged view at a in fig. 2.

Reference numerals: 1. a sheet making machine; 2. a spot welder; 3. a support; 4. a first conveyor belt; 5. a second conveyor belt; 6. a material distributing roller; 7. distributing disks; 8. a first motor; 9. a drive roll; 10. a driven roller; 11. a drive disc; 12. a drive plate; 13. a bump; 14. a transmission groove; 15. a circular arc slider; 16. a transmission slide block; 17. a second motor; 18. a drive sprocket; 19. a driven sprocket; 20. a chain; 21. a detection frame; 22. a cylinder; 23. a detection lever; 24. a crushing box; 25. a crushing roller; 26. crushing the leaves; 27. a first bevel gear; 28. a second bevel gear; 29. a third motor.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a preparation method of a non-woven fabric antibacterial mask.

Example one

Referring to fig. 1 and 2, a method for manufacturing a non-woven antibacterial mask includes the steps of,

s1, preparing materials, namely mounting a three-layer cloth roll and a nose bridge strip roll on a sheet making machine 1;

s2, welding, namely welding the three layers of cloth and the nose bridge strip through an ultrasonic welding device in the sheet making machine 1;

s3, cutting, wherein a roller knife of the flaker 1 cuts into the mask sheets in the rotating process;

s4, spot welding, wherein the ear belt is welded on the side edge of the mask sheet through a spot welding device;

s5, blanking;

in the step S3, mask pieces obtained by cutting through a sheet-forming machine 1 are conveyed to a spot-welding machine 2, in order to realize the simultaneous operation of a plurality of mask production lines, the spot-welding machine 2 is provided with three spot-welding machines, a flow dividing device is arranged between the sheet-forming machine 1 and the three spot-welding machines 2, the flow dividing device comprises a support 3, a first conveying belt 4 in transmission connection with the support 3 and a material dividing disc 7 for dividing materials, the material dividing disc 7 is in rotation connection with the support 3, the first conveying belt 4 is used for conveying the mask pieces cut by the sheet-forming machine 1, the support 3 is fixedly connected with a first motor 8, the support 3 is in rotation connection with a driving roller 9 and a driven roller 10, the first conveying belt 4 is sleeved outside the driving roller 9 and the driven roller 10, the output end of the first motor 8 is fixedly connected with the driving roller 9, under the action of friction between the driving roller, the first conveyor belt 4 and the driven roller 10 rotate, and the mask sheet is conveyed toward the distribution tray 7.

The spot welding machine 2 comprises a frame and a second conveying belt 5 which is in transmission with the frame, the transmission modes of the second conveying belt 5 and the first conveying belt 4 are the same, the second conveying belt 5 and the first conveying belt are driven by the friction force of the driving roller 9 and the driven roller 10, and the second conveying belt 5 is used for conveying the mask to the position where the ear belts are welded; the distributing plate 7 is provided with four distributing openings corresponding to the second conveying belt 5 in a penetrating mode, the distributing plate 7 is connected with three distributing rollers 6 in the inner wall of the distributing openings in a rotating mode, the horizontal plane tangent to the section circle of each distributing roller 6, the first conveying belt 4 and the second conveying belt 5 are located on the same horizontal plane, and the distributing rollers 6 are used for bearing the opening cover sheet.

Referring to fig. 1 and 2, the support 3 is provided with a driving device for realizing intermittent motion of the distributing disc 7 and the first conveyor belt 4, the driving device comprises a driving disc 11 and a transmission disc 12, the driving roller 9 is coaxially provided with a first bevel gear 27, the first bevel gear 27 is engaged with a second bevel gear 28, the central axis of the first bevel gear 27 is horizontally arranged, the central axis of the second bevel gear 28 is vertically arranged, a synchronous belt is sleeved between the second bevel gear 28 and the driving disc 11, and the synchronous belt is used for realizing simultaneous rotation of the driving disc 11 and the second bevel gear 28.

Drive-disc 11 and drive plate 12 all rotate with support 3 and are connected, drive plate 12 and branch charging tray 7 are coaxial fixed, drive plate fixedly connected with lug 13, drive plate 12 is provided with four transmission grooves 14 that are used for lug 13 to slide in, transmission groove 14 is the opening setting towards the one end of lug 13, when drive-disc 11 rotates and lug 13 rotates to transmission groove 14 opening part, lug 13 equals the distance of 14 tip openings of transmission groove to the center of drive plate 12 to the distance at transmission groove 12 center, lug 13 rotates to in the transmission groove 14.

An intermittent assembly for ensuring the intermittent motion of the transmission disc 12 is arranged between the driving disc 11 and the material distribution disc 7, the intermittent assembly comprises an arc slider 15 fixedly connected with the driving disc 11 and a transmission slider 16 positioned between two adjacent transmission grooves 14, the center of the bump 13 is positioned on a section circle where the arc of the section of the arc slider 15 is positioned, the radiuses of the sections of the arc slider 15 and the transmission slider 16 are the same, the arc of the section of the arc slider 15 is convex, the arc of the section of the transmission slider 16 is concave, and the side wall of the arc slider 15 is attached to and slides on the inner wall of the transmission slider 16.

When the convex block 13 slides into the transmission groove 14, the transmission disc 12 rotates, the convex block 13 rotates towards the bottom of the transmission groove 14 along with the continuous rotation of the convex block 13, the size from the center of the convex block 13 to the center of the transmission disc 12 is larger than the distance from the center of the convex block 13 to the bottom of the transmission groove 14, the convex block 13 gradually slides out of the transmission groove 14 after moving towards the inner wall of the transmission groove 14, when the convex block 13 slides out of the transmission groove 14, the arc slide block 15 moves to be attached to the side wall of the transmission slide block 16, the arc slide block 15 limits the transmission slide block 16 to rotate under the action of inertia, and the convex block 13 is ensured to enter the next transmission groove 14.

When drive roll 9 rotated the round, driving-disc 11 followed and rotated the round, driving disc 12 drives branch charging tray 7 and rotates the quarter round simultaneously, at this moment, the gauze mask piece is carried to branch material roller 6 under the transport effect of first conveyer belt 4 on, along with drive roll 9 continues to rotate, the gauze mask piece is carried to the position of second conveyer belt 5, and simultaneously, new gauze mask piece is carried to another branch material roller 6 on first conveyer belt 4 on, for the convenience of carrying the gauze mask piece to second conveyer belt 5 on, divide charging tray 7 to be provided with the three power component who divides material roller 6 pivoted of drive simultaneously.

Referring to fig. 2 and 4, the power assembly includes a second motor 17 fixedly connected to the distributing tray 7, a driving sprocket 18 fixedly connected to the second motor 17, a driven sprocket 19 rotatably connected to the distributing tray 7, and a chain 20, the chain 20 is engaged with the driving sprocket 18 and the driven sprocket 19, the driving sprocket 18 is coaxially fixed to one of the distributing rollers 6, the two driven sprockets 19 are coaxially fixed to the two distributing rollers 6, and when the driving sprocket 18 is driven by the second motor 17 to rotate, the effect of driving the three distributing rollers 6 to rotate simultaneously is achieved under the driving action of the driven sprockets 19 and the chain 20; under the action of the simultaneous rotation of the three material distributing rollers 6, the mask is conveyed to the second conveyor belt 5 from the material distributing rollers 6.

Divide charging tray 7 in dividing material mouthful top fixedly connected with test rack 21, test rack 21 fixedly connected with cylinder 22, cylinder 22 output end fixedly connected with test bar 23, the 23 terminal surface size of test bar is less than the clearance dimension between two adjacent branch material rollers 6, inspects the gauze mask piece on the branch material roller 6, cylinder 22 drive test bar 23 moves down, test bar 23 stabs the gauze mask piece from branch material roller 6, the gauze mask piece drops from branch material roller 6.

Referring to fig. 2 and 3, support 3 smashes case 24 in minute feed port below fixedly connected with, and smash case 24 and only set up to one, and be close to the terminal position who is in first conveyer belt 4, smash 24 upper ends of case and be provided with the feed inlet, divide the workbin inner wall to rotate and be connected with crushing roller 25, crushing roller 25 circumference outer wall fixedly connected with a plurality of crushing leaves 26, smash 24 fixedly connected with drive crushing roller 25 pivoted third motor 29 of case, the one end fixed connection who smashes case 24 is worn out with crushing roller 25 to the output of third motor 29, third motor 29 drive crushing roller 25 rotates, crushing leaf 26 carries out shredding effect to the gauze mask piece, promote the work efficiency that the gauze mask was collected greatly.

The implementation principle of the preparation method of the non-woven fabric antibacterial mask in the embodiment of the application is as follows: conveying the mask pieces cut by the sheet cutting machine 1 to the first conveying belt 4, driving the driving roller 9 to rotate by the first motor 8, and conveying the mask pieces towards the direction of the material distribution disc 7 under the action of friction force of the driven roller 10 and the first conveying belt 4; meanwhile, through the synchronous action of the first bevel gear 27, the second bevel gear 28 and the synchronous belt, the driving disc 11 synchronously rotates, the convex block 13 slides into the transmission groove 14, the convex block 13 drives the transmission disc 12 to rotate, when the driving roller 9 rotates for one circle, the distributing disc 7 rotates for one quarter of a circle, and the mask pieces are driven by the distributing disc 7 to be conveyed towards the three second conveying belts 5;

when any spot welder 2 needs mask conveying, if the distributing roller 6 carrying the mask sheet moves to the position of the corresponding second conveying belt 5, the second motor 17 drives the driving chain wheel 18 to rotate, and the mask sheet is conveyed to the second conveying belt 5 under the action of the chain 20 and the driven chain wheel 19, so that the directional conveying effect of the mask sheet is completed, and the utilization efficiency of the spot welder 2 is greatly improved;

if the gauze mask piece that first conveyer belt 4 carried has quality defect, cylinder 22 drive test rod 23 downstream, and the gauze mask piece drops between the adjacent depiler roller 6, and drops to smashing 24 in, and the roller 25 is smashed in the drive of third motor 29 rotates, smashes 26 with the gauze mask and smashes into the piece, is convenient for handle the gauze mask that does not conform to the quality.

Example two

A non-woven fabric antibacterial mask is prepared by the preparation method of the non-woven fabric antibacterial mask in the first embodiment, and has high production efficiency and good antibacterial effect.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A preparation method of a non-woven fabric antibacterial mask is characterized by comprising the following steps: comprises the following steps of (a) carrying out,

preparing materials, and installing a three-layer cloth roll and a nose bridge strip roll;

welding, namely welding the three layers of cloth and the nose bridge strip by an ultrasonic welding device in the sheet making machine (1);

cutting, namely cutting a roller cutter of the flaker (1) into mask pieces in a rotating process;

spot welding, wherein the ear belt is welded on the side edge of the mask sheet by a spot welding machine (2);

blanking;

the spot welding machine comprises a plurality of spot welding machines (2), a shunting device is arranged between the sheet beating machine (1) and the spot welding machines (2), the shunting device comprises a support (3), a first conveying belt (4) and a material distributing disc (7), the first conveying belt is in transmission arrangement with the support (3), the material distributing disc (7) is used for distributing materials, and the material distributing disc (7) is in rotary connection with the support (3); the spot welding machine (2) comprises a rack and a second conveyor belt (5) which is in transmission arrangement with the rack, and the conveying direction of the first conveyor belt (4) is consistent with the conveying direction of the mask piece; the support (3) is provided with a driving device for realizing the intermittent motion of the material distribution disc (7) and the first conveyor belt (4).

2. The method for manufacturing a non-woven antibacterial mask according to claim 1, wherein the method comprises the following steps: divide charging tray (7) to run through be provided with a plurality ofly with the branch material mouth that second conveyer belt (5) correspond, divide charging tray (7) in divide the material mouth inner wall to rotate and be connected with a plurality of branch material roller (6), divide material roller (6) cross-section circle tangent horizontal plane with first conveyer belt (4) and second conveyer belt (5) all are located same horizontal plane, divide charging tray (7) to be provided with and drive simultaneously a plurality ofly divide material roller (6) pivoted power component.

3. The method for manufacturing a non-woven antibacterial mask according to claim 1, wherein the method comprises the following steps: support (3) first motor (8) of fixedly connected with, support (3) rotate and are connected with drive roll (9) and driven voller (10), first motor (8) output with drive roll (9) fixed connection, first conveyer belt (4) cover is located outside drive roll (9) and driven voller (10).

4. The method for manufacturing a non-woven antibacterial mask according to claim 3, wherein the method comprises the following steps: the driving device comprises a driving disc (11) and a transmission disc (12), the driving disc (11) and the driving roller (9) synchronously rotate, the driving disc (11) is fixedly connected with a convex block (13), the transmission disc (12) is provided with a plurality of transmission grooves (14) used for the convex block (13) to slide in, the transmission disc (12) is coaxially fixed with the material distribution disc (7), and an intermittent assembly used for ensuring the intermittent motion of the transmission disc (12) is arranged between the driving disc (11) and the material distribution disc (7).

5. The method for manufacturing a non-woven antibacterial mask according to claim 4, wherein the method comprises the following steps: intermittent type subassembly include with driving-disc (11) fixed connection's circular arc slider (15) and be located adjacent two transmission slider (16) between transmission groove (14), circular arc slider (15) cross-section radius equals transmission slider (16) cross-section radius, lug (13) cross-section center is located on the circumference of circular arc slider (15) place cross-section circle, transmission slider (16) are the indent setting, circular arc slider (15) are the evagination setting, transmission slider (16) periphery wall with circular arc slider (15) internal perisporium laminating slides.

6. The method for manufacturing a non-woven antibacterial mask according to claim 5, wherein the method comprises the following steps: the size from the center of the lug (13) to the center of the transmission disc (12) is larger than the distance from the center of the lug (13) to the bottom of the transmission groove (14).

7. The method for manufacturing a non-woven antibacterial mask according to claim 2, wherein the method comprises the following steps: the power component comprises a second motor (17) fixedly connected with the material distribution disc (7), a driving chain wheel (18) fixedly connected with the second motor (17), a driven chain wheel (19) connected with the material distribution disc (7) in a rotating mode and a chain (20), the chain (20) is meshed with the driving chain wheel (18) and the driven chain wheel (19) in a connecting mode, the driving chain wheel (18) and the driven chain wheel (19) are in a plurality of meshed mode, and the material distribution roller (6) is coaxially fixed.

8. The method for manufacturing a non-woven antibacterial mask according to claim 7, wherein the method comprises the following steps: divide charging tray (7) in divide material mouthful top fixedly connected with test rack (21), test rack (21) fixedly connected with cylinder (22), cylinder (22) output end fixedly connected with test bar (23), test bar (23) terminal surface size is less than adjacent two divide the clearance dimension between material roller (6).

9. The method for manufacturing a non-woven antibacterial mask according to claim 8, wherein the method comprises the following steps: support (3) in divide material mouthful below fixedly connected with to smash case (24), it is provided with the feed inlet to smash case (24), it is connected with crushing roller (25) to divide the workbin rotation, a plurality of crushing leaves (26) of crushing roller (25) circumference outer wall fixedly connected with, smash case (24) fixedly connected with drive crushing roller (25) pivoted third motor (29).

10. The utility model provides an antibiotic gauze mask of non-woven fabrics which characterized in that: the antibacterial non-woven mask according to any one of claims 1 to 9, which is manufactured by the method.

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