CN214324246U - Full-automatic mask machine with mask seals - Google Patents

Abstract

The utility model discloses a full-automatic mask machine with mask sealing, which comprises a feeding part, a nose bridge part, an ear band part, a mask folding part and a welding part which are arranged in sequence; the utility model has the advantages that: this technical scheme has replaced traditional manual mode, has realized that alone can manage several equipment, and the manpower that has significantly reduced consumes to improve work efficiency, be favorable to the batch production of product, so can be with raise the efficiency, be favorable to making the product quality more stable again. Meanwhile, needles and threads and glue are not needed in the welding process, so that the energy conservation and the environmental protection are facilitated.

Description

Full-automatic mask machine with mask seals

Technical Field

The utility model relates to a gauze mask machine especially relates to a full-automatic gauze mask machine with gauze mask seals.

Background

The cup mask is designed for the health of people, and is used for filtering visible or invisible substances harmful to human bodies, so that unnecessary influence on the human bodies is avoided. The cup-shaped mask adopts polypropylene which is nontoxic, tasteless, allergy-free, non-irritant, free of any toxic and harmful substance and glass fiber as a main raw material, is humanized in design, is made of high-standard materials, and has the characteristics of efficient filtration, low toxicity prevention, peculiar smell removal, ventilation, comfort, sanitation, convenience, safety and attractiveness.

The general cup-shaped mask is manufactured by firstly manufacturing a mask body by using a plurality of layers of cloth; the ear belt is made of elastic woven belts with good air permeability or elastic belts without latex components, is suitable for various facial shapes, is provided with a breather valve, reduces heat accumulation, is suitable for being used in high-temperature, high-humidity and sultry environments for a long time, can adjust the nose clip, enables the airtightness of the mask and the face to be better, prevents dust from easily leaking in, and prints trademarks on mask templates in a transfer printing mode.

Among the prior art, cup type gauze mask is with many semi-automatic equipment modes preparation of gauze mask shaping heat fusion machine, bat printing machine, breather valve piercing press, breather valve welding machine, ear area welding machine, bridge of the nose line welding machine, and an operation personnel need supplementary corresponding equipment to accomplish, consumes the manpower to work efficiency is low, is unfavorable for the batch production of product, just designs out this novel automatic cup type gauze mask machine in order to deal with this phenomenon.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a full-automatic gauze mask machine that has the gauze mask and seals with low costs, efficient, solves one or more among the above-mentioned prior art problem.

In order to solve the technical problem, the utility model discloses a technical scheme be: the utility model provides a full-automatic gauze mask machine with gauze mask seals which innovation point lies in: comprises a feeding part, a nose bridge part, an ear band part, a mask folding part and a welding part which are arranged in sequence;

the nose bridge part comprises a nose bridge strip feeding structure, a nose bridge strip pushing structure, a nose bridge strip guiding structure, a nose bridge strip tool opening lifting head structure and a nose bridge strip ultrasonic sliding groove structure;

the nose bridge strip feeding structure is positioned above the nose bridge part, the nose bridge strip pushing structure is connected with the nose bridge strip feeding structure and positioned below the nose bridge strip feeding structure, the nose bridge strip guiding structure is in butt joint with the nose bridge strip pushing structure, the nose bridge strip cutter mouth raising structure is positioned below the nose bridge strip guiding structure, and the nose bridge strip ultrasonic sliding groove structure is positioned at the bottommost part of the nose bridge part;

the ear belt part comprises an ear belt shearing structure, an ear belt connecting rod structure, an ear belt welding structure, an ear belt welded junction cooling structure, an ear belt discharging structure and an ear belt ultrasonic maintenance structure;

the ear belt material placing structure is positioned at the top of the ear belt part, the ear belt welding structure is positioned in the middle of the ear belt part, the ear belt welding structure is installed at the bottom of the ear belt connecting rod structure, the bottom of the ear belt connecting rod structure is positioned at the top of the ear belt part and is positioned below the ear belt material placing structure, the ear belt welding opening cooling structure is positioned at one side of the ear belt welding structure, and the ear belt ultrasonic maintenance structure is installed at the bottom of the ear belt part;

the welding part comprises a mask sealing welding head and a mould adjusting structure; the die adjusting structure comprises a first adjusting plate group and a second adjusting plate group, the first adjusting plate group and the second adjusting plate group are arranged in a mirror image mode, the first adjusting plate group comprises a first rectangular plate and a first circular plate, the first circular plate is overlapped on the outer surface of the first rectangular plate, first adjusting waist-shaped holes which longitudinally extend are formed in four corners of the first rectangular plate, at least four first adjusting arc-shaped holes are formed in the edge of the first circular plate, a first adjusting column which can be embedded into the first adjusting arc-shaped holes is further arranged on the first rectangular plate, the centers of the first rectangular plate and the first circular plate are on the same straight line, and a die mounting block is further arranged on the inner side of the first rectangular plate; the second adjusting plate group comprises a second rectangular plate and a second circular plate, the second circular plate is superposed on the outer surface of the second rectangular plate, four corners of the second rectangular plate are respectively provided with a second adjusting waist-shaped hole extending longitudinally, the edge of the second circular plate is provided with at least four second adjusting arc-shaped holes, the second rectangular plate is further provided with a second adjusting column capable of being embedded into the second adjusting arc-shaped holes, the centers of the second rectangular plate and the second circular plate are on the same straight line, and the mask sealing welding head is arranged on the inner side of the second rectangular plate and can be butted with the die mounting block.

The utility model has the advantages that: this technical scheme has replaced traditional manual mode, has realized that alone can manage several equipment, and the manpower that has significantly reduced consumes to improve work efficiency, be favorable to the batch production of product, so can be with raise the efficiency, be favorable to making the product quality more stable again. Meanwhile, needles and threads and glue are not needed in the welding process, so that the energy conservation and the environmental protection are facilitated.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a schematic structural view of the fully automatic mask machine with a mask seal of the present invention.

Fig. 2 is a partial schematic view 1 of the fully automatic mask machine with a mask seal of the present invention.

Fig. 3 is a partial schematic view 2 of the fully automatic mask machine with a mask seal of the present invention.

Fig. 4 is a partial schematic view 3 of the fully automatic mask machine with a mask seal of the present invention.

Fig. 5 is a partial schematic view 4 of the fully automatic mask machine with a mask seal of the present invention.

Fig. 6 is a partial schematic view 5 of the fully automatic mask machine with a mask seal of the present invention.

Fig. 7 is a partial schematic view 6 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 8 is a partial schematic view 7 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 9 is a partial schematic view 8 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 10 is a partial schematic view of the fully automatic mask machine with a mask seal according to the present invention 9.

Fig. 11 is a partial schematic view 10 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 12 is a partial schematic view 11 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 13 is a partial schematic view 12 of the fully automatic mask machine with mask sealing according to the present invention.

Fig. 14 is a partial schematic view 13 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 15 is a partial schematic view 14 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 16 is a partial schematic view 15 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 17 is a partial schematic view 16 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 18 is a partial schematic view 17 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 19 is a partial schematic view 18 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 20 is a partial schematic view 19 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 21 is a partial schematic view 20 of the fully automatic mask machine with mask sealing according to the present invention.

Fig. 22 is a partial schematic view 21 of the fully automatic mask machine with mask sealing according to the present invention.

Fig. 23 is a partial schematic view 22 of the fully automatic mask machine with mask sealing according to the present invention.

Fig. 24 is a partial schematic view 23 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 25 is a partial schematic view 24 of the fully automatic mask machine with mask sealing according to the present invention.

Fig. 26 is a partial schematic view 25 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 27 is a partial schematic view 26 of the fully automatic mask machine with a mask seal according to the present invention.

Fig. 28 is a partial schematic view 27 of the fully automatic mask machine with mask sealing according to the present invention.

Fig. 29 is a partial schematic view 28 of the fully automatic mask machine with a mask seal according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

As shown in fig. 1, the embodiment of the present invention includes:

a full-automatic mask machine with a mask seal comprises a feeding part 1, a nose bridge part 2, an ear belt part 3, a mask folding part 4 and a welding part 5 which are arranged in sequence;

the nose bridge part 2 comprises a nose bridge strip feeding structure, a nose bridge strip pushing structure, a nose bridge strip guiding structure, a nose bridge strip nose lifting structure and a nose bridge strip ultrasonic sliding groove structure;

the nose bridge strip feeding structure is positioned above the nose bridge part 2, the nose bridge strip pushing structure is connected with the nose bridge strip feeding structure and positioned below the nose bridge strip feeding structure, the nose bridge strip guiding structure is in butt joint with the nose bridge strip pushing structure, the nose bridge strip mouth raising structure is positioned below the nose bridge strip guiding structure, and the nose bridge strip ultrasonic sliding groove structure is positioned at the bottommost part of the nose bridge part 2;

the ear band part 3 comprises an ear band shearing structure, an ear band connecting rod structure, an ear band welding structure, an ear band welded junction cooling structure, an ear band discharging structure and an ear band ultrasonic maintenance structure;

the ear belt discharging structure is located at the top of the ear belt part 3, the ear belt welding structure is located at the middle of the ear belt part 3, the ear belt welding structure is installed at the bottom of the ear belt connecting rod structure, the bottom of the ear belt connecting rod structure is located at the top of the ear belt part 3 and is located below the ear belt discharging structure, the ear belt welding opening cooling structure is located at one side of the ear belt welding structure, and the ear belt ultrasonic maintenance structure is installed at the bottom of the ear belt part 3.

As shown in fig. 2, the nose bridge bar attaching device 500 of the mask according to an embodiment of the present invention includes a bridge attaching table 510, a nose bridge bar guide 520, a fixing mechanism, and a pushing mechanism; wherein the nose bridge bar guide 520 is provided on the girder installation table 510. The nose bridge bar guide 520 has a guide channel for placing the nose bridge bar, the guide channel extending in a first direction. A fitting gap 511 is provided between one end of the nose bridge bar guide 520 and the bridge mounting table 510, and the fitting gap 511 is used for fitting the bridge mounting bar on the mask body 5000 into the nose bridge bar guide 520.

The fixing mechanism is provided on the girder installation table 510. The fixing mechanism comprises a pressing driver 531 and a cloth pressing piece 532 connected with the pressing driver 531, wherein the pressing driver 531 can drive the cloth pressing piece 532 to press the mask body placed on the beam mounting workbench 510.

The pushing mechanism is provided on the girder installation table 510. The pushing mechanism comprises a pushing driver 541 and a pushing piece 542 connected with the pushing driver 541, wherein the pushing piece 542 extends into the guide channel and can move along the guide channel under the driving of the pushing driver 541 so as to push the nose bridge strip 6000 placed in the guide channel.

When the mask nose bridge strip adding device 500 works, a beam placing sleeve on the mask main body 5000 is sleeved into one end of the nose bridge strip guiding piece 520, the pressing driver 531 drives the cloth pressing piece 532 to press the mask main body placed on the beam placing workbench 510, so that the position of the mask main body is fixed, and the pushing driver 541 drives the pushing piece 542 to move along the guiding channel so as to push the nose bridge strip 6000 in the guiding channel to enter the beam placing sleeve. The cloth pressing piece 532 rises and the mask is taken down. Compare artifical bridge of the nose strip of installing additional, reduced the operation degree of difficulty, improved production efficiency.

In one example, nose bridge strip guide 520 is a tube. The pushing member 542 is rod-shaped, and extends into one end opening of the nose bridge bar guide 520 to push the nose bridge bar out of the other end opening.

In the particular example illustrated, nose bridge bar guide 520 is a slot that is open on the upper side. Similarly, pusher 542 is rod-shaped, and extends into one end opening of nose bridge strip guide 520 to push nose bridge strip 6000 out of the other end opening. Furthermore, the opening at the upper side of the groove body is designed into a round angle, so that the beam sleeve is prevented from being scratched.

In the illustrated specific example, the push-down driver 531 is a telescopic cylinder, and the push driver 541 is a telescopic cylinder.

As shown in fig. 2, in one example, the bridge bar attachment 500 further includes a support member disposed on the bridge table 510 and supporting the bridge bar guide 520 to form a nesting gap 511.

In one example, the height of the nesting gap 511 is 1mm to 2 mm. In some specific examples, the height of nesting gap 511 is 1.2mm, 1.5mm, 1.7mm, 1.9 mm.

As shown in fig. 1, in one example, the mask bridge bar attaching device 500 further comprises a moving mechanism, the moving mechanism comprises a moving driver 551 and a moving member 552 connected with the moving driver 551, the moving driver 551 can drive the moving member 552 to move along a first direction, and the moving member 552 is connected with a pressing driver 531. So, operating personnel only need place the gauze mask main part in the design position of dress roof beam workstation 510, push down driver 531 drive compress piece 532 and push down the gauze mask main part of placing on dress roof beam workstation 510, removal driver 551 drives moving member 552 and makes the gauze mask main part move towards nose bridge strip guide 520 along the motion of first direction, thereby make and put the roof beam cover and embolia the tip of nose bridge strip guide 520, install after the nose bridge strip additional, remove driver 551 drive moving member 552 reverse motion and make the gauze mask main part keep away from nose bridge strip guide 520, compress piece 532 rises, take off the gauze mask can, need not the manual work and embolia, take off action such as, further improve degree of automation.

In the illustrated specific example, the moving driver 551 is disposed below the girder installation table 510, the moving member 552 is disposed above the girder installation table 510, the girder installation table 510 is provided with the abdicating hole 512, and the moving driver 551 is connected to the moving member 552 through the abdicating hole 512.

In the particular example illustrated, the moving actuator 551 is a telescopic cylinder.

As shown in FIG. 2, in one example, the moving mechanism further includes a backing plate 553, the backing plate 553 is connected to the moving member 552 to abut against the beaming table 510, and the cloth pressing member 532 is located between the nose bridge guide 520 and the backing plate 553.

As shown in fig. 3, the present invention further provides a mask production apparatus 10, which includes a mask body production device and any one of the above-mentioned mask nose bridge strip adding devices.

As shown in fig. 4, in one example, the main body producing apparatus includes a hemming table 110, a material roll stand 120, a hemming barrel 130, and a sewing mechanism 140.

Wherein, the edge covering workbench 110 is provided with a cloth passing area.

The material roll stand 120 is provided with a plurality of material roll shafts 150 and a plurality of tension shafts 160. The plurality of material reels 150 are used for placing the cloth tape rolls, and the plurality of tension shafts 160 are used for guiding the cloth tape rolls on the plurality of material reels 150 to the cloth passing area to form a stacked cloth tape.

The edge covering pull cylinder 130 is arranged on the edge covering workbench 110 and close to the cloth passing area, and the edge covering pull cylinder 130 is used for folding the binding strips and wrapping the side edges of the stacked cloth belts to form edge covering cloth belts. Fig. 5 shows a state where both sides of the superposed tape are bound with the binding tape to form a binding tape 4000.

The sewing mechanism 140 is arranged on the edge covering workbench 110, and the sewing mechanism 140 is used for sewing the side edges of the edge covering cloth belts, namely sewing the binding strips of the edge covering and the overlapped cloth belts to form sewing cloth belts. As shown in fig. 3, a sewing head of the sewing mechanism 140 is close to the hemming-attaching drums 130, and sewing is performed at the hemming-attaching drums 130.

As shown in fig. 4, in one example, there are two edge-covering pulling cylinders 130, and the two edge-covering pulling cylinders 130 are respectively disposed at opposite sides of the cloth passing region for folding the bundle strip and wrapping both side edges of the stacked cloth tapes. In this example, there are also two sewing mechanisms 140, and the two sewing mechanisms 140 are used for sewing both side edges of the wrapping tape, respectively.

In the illustrated specific example, the two hemming drums 130 are staggered in the direction in which the cloth tape moves in the cloth passing region, and accordingly, the two sewing mechanisms 140 are staggered in this direction.

As shown in fig. 5, in one example, the mask producing apparatus 10 further includes a selvedge detector 170, a blowing nozzle (not shown), and a controller (not shown). The selvedge detector 170 and the air blowing nozzle are disposed near the cloth pressing shaft 162. The selvage detector 170 and the air blowing nozzle are respectively electrically connected with the controller. The selvedge detector 170 is used for detecting whether the selvedge of the cloth belt exceeds the cloth passing area or not, and the air blowing nozzle is used for blowing air towards the inside of the cloth passing area. When the selvedge detector 170 detects that the selvedge with the cloth belt exceeds the cloth passing area, the controller controls the air blowing nozzle to blow air.

This example is directed at the great easy off normal problem that leads to of looped fabric shrink nature especially, sets up selvedge detector 170 and blowing mouth, when the looped fabric off normal, corrects it through blowing, avoids the product quality problem.

In one example, the selvedge detector 170 is a photosensor.

As shown in fig. 4, in one example, the tension shaft 160 includes a plurality of single shafts 161 and a plurality of cloth pressing shafts 162, each single shaft 161 is used for changing the running direction of one cloth tape, and the cloth pressing shafts 162 are arranged close to the top of the cloth passing area and are provided with cloth passing gaps therebetween, and the cloth passing gaps are used for collecting a plurality of cloth tapes on the top of the cloth passing area.

In one example, the material roller 150 includes a knitted fabric roller, a nonwoven fabric roller, and a woven fabric roller, and the nonwoven fabric roller is disposed between the knitted fabric roller and the woven fabric roller. Knitted fabric reels are used for placing knitted fabric rolls 1000, non-woven fabric reels are used for placing non-woven fabric rolls 2000, and woven fabric reels are used for placing woven fabric rolls 3000.

As shown in fig. 3, in one example, there are two nonwoven fabric reels and two woven fabric reels, two nonwoven fabric reels being arranged side by side and two woven fabric reels being arranged side by side.

In the illustrated specific example, two woven fabric reels are disposed side by side in the vertical direction, and the disposed height of the two woven fabric reels is substantially the same as the height of the cloth pressing shaft 162. Two non-woven fabric reels and one knitted fabric reel are located above the cloth pressing shaft 162 and are arranged side by side in the horizontal direction.

In one example, the mask producing apparatus 10 further includes a material roll detector (not shown) and an alarm (not shown), the material roll detector and the alarm are electrically connected to the controller, respectively, the material roll detector is used for detecting whether the remaining material of the cloth roll placed on the material roll 150 is too small, and when the material roll detector detects that the remaining material of the cloth roll is too small, the controller controls the alarm to give an alarm to remind an operator. The operating personnel can be with this material spool 150 on the strap roll surplus cloth in the same direction as opening and tearing out cloth tail one end, with the concatenation of the cloth head of the new strap roll on another material spool 150 with the double faced adhesive tape, the cloth of in the same direction as opening can supply the machine to continue the sewing, consequently can reduce the shut down number of times, improves production efficiency.

In one example, the mask producing apparatus 10 further includes a binding strip feeding mechanism (not shown) for feeding the binding strip to the wrapping cylinder 130.

The binding strip feeding mechanism is arranged on the binding workbench 110 and close to the binding pull cylinder 130. The binding strip feeding mechanism comprises a binding strip frame, a first cloth feeding wheel, a second cloth feeding wheel and a first rotary driver, the binding strip frame is used for arranging a binding strip material roll, the first cloth feeding wheel and the second cloth feeding wheel are oppositely arranged and are abutted to the wheel surface, and the first rotary driver is used for driving the first cloth feeding wheel and the second cloth feeding wheel to rotate oppositely. The first cloth feeding wheel and the second cloth feeding wheel rotate oppositely, so that the bundle strips between the abutted wheel surfaces are conveyed under the friction force.

In one example, the mask producing apparatus 10 further includes a conveying mechanism (not shown) disposed on the edge covering workbench 110, and the conveying mechanism is configured to drive the sewing cloth tape to pass through the cloth passing area. Through conveying mechanism's drive for the cloth tape roll on the material spool 150 rotates the output strap, need not to rely on the manpower to pull, can realize machine automatic operation.

In one example, the transport mechanism is a differential feed dog. The differential feed dog may be provided on the sewing mechanism 140, and the sewing mechanism 140 feeds the cloth while sewing.

In another example, the conveying mechanism comprises a third cloth feeding wheel, a fourth cloth feeding wheel and a second rotary driver, wherein the third cloth feeding wheel and the fourth cloth feeding wheel are arranged oppositely, wheel surfaces of the third cloth feeding wheel and the fourth cloth feeding wheel are abutted, and the second rotary driver is used for driving the third cloth feeding wheel and the fourth cloth feeding wheel to rotate oppositely. In this example, the tape cutting mechanism 400 is located downstream of the sewing mechanism 140 in the feeding direction of the sewing tape, and moves the tape by friction.

As shown in fig. 3, in one example, the mask producing apparatus 10 further includes a folding mechanism 200 and a press 300, the folding mechanism 200 being located downstream of the sewing mechanism 140 and the press 300 being located downstream of the folding mechanism 200 in the conveying direction of the sewing cloth tape. The sewing cloth tape is creased by a creased mechanism 200 and then shaped by a press 300.

As shown in fig. 3, in one example, the mask producing apparatus 10 further includes a tape cutting mechanism 400, the tape cutting mechanism 400 is provided on the hemming table 110, the tape cutting mechanism 400 is located downstream of the creasing mechanism 200 in the conveying direction of the sewing cloth tape, and the tape cutting mechanism 400 is used to cut the sewing cloth tape into pieces. The tape cutting mechanism 400 may cut the suture tape using a hot knife.

As shown in fig. 3 and 6, in one example, the mask producing apparatus 10 further includes a mask hemming-sewing ear hanging string device 600.

The mask hemming and ear hanging rope sewing device 600 comprises a rope sewing workbench 610, a position-by-position mechanism, a shoveling and folding assembly and a sewing mechanism 650.

Wherein, the sewing rope work table 610 is provided with a mask body placing groove 611. The mask body placement groove 611 is used for placing the mask body 7000 to be processed for edge wrapping and sewing the ear hanging rope 8000. When the mask body 7000 is placed in the mask body placement groove 611, opposite sides of the mask body 7000 in the second direction (i.e., opposite sides of the to-be-sealed opening and the hanger string) extend out of the groove, and the openings with a certain width are formed at the two sides, respectively.

The positioning mechanism is arranged on the sewing rope workbench 610. The positioning mechanism comprises a positioning driver and a positioning plate 621 connected with the positioning driver. The flush driver can drive the flush plate 621 to press into the mask body placement groove 611, thereby pressing the mask body placed in the mask body placement groove 611.

When the position board 621 is pressed into the mask body placement groove 611, the two opposite sides of the position board 621 in the second direction are close to the two opposite inner walls of the mask body placement groove 611 in the second direction, and the two side ends of the mask body are exposed. Shovel book subassembly includes that first shovel rolls over mechanism and second shovel and rolls over the mechanism, and first shovel rolls over mechanism and second shovel and rolls over the mechanism and set up on seam rope workstation 610 to be located gauze mask main part standing groove 611 in the relative both sides in the second direction. The first shoveling and folding mechanism includes a first shoveling and folding driver 631 and a first shoveling and folding plate 632 connected with the first shoveling and folding driver 631, and the first shoveling and folding driver 631 can drive the first shoveling and folding plate 632 to extend out toward the mask body placing groove 611 along the second direction. The first shovel flap 632 is provided with a first ear hanging rope fixing part 641, so that during work, two ends of the ear hanging rope 8000 are placed on the seam allowance at one side, the rest parts of the ear hanging rope 8000 are placed on the first shovel flap 632, and the ear hanging rope 8000 is fixed through the first ear hanging rope fixing part 641 on the first shovel flap 632. When the first scooping flap 632 extends toward the mask body placement groove 611 in the second direction, the first scooping flap 632 folds the exposed seam allowance and the end of the ear hanging string on the seam allowance onto the side plate 621.

The second shoveling and folding mechanism includes a second shoveling and folding driver 633 and a second shoveling and folding plate 634 connected with the second shoveling and folding driver 633, the second shoveling and folding driver 633 can drive the second shoveling and folding plate 634 to extend out towards the mask body placing groove 611 along a second direction, and a second hanger rope fixing member 642 is arranged on the second shoveling and folding plate 634. Similarly, when the second scooping flap 634 extends toward the mask body placement groove 611 in the second direction, the second scooping flap 634 folds the exposed seam allowance and the end of the ear wire on the seam allowance onto the side position plate 621.

After the rabbets on the two sides of the mask body are folded, the position board 621 is pulled out of the mask body, the rabbets can be sewn by a sewing device subsequently, and meanwhile, the ends of the ear hanging ropes are folded in the rabbets, so that the ear hanging ropes on the two sides can be sewn on the mask body while the rabbets are sewn.

The sewing mechanism is provided on the sewing thread table 610, and the sewing mechanism is used for sewing the seam allowance position. More specifically, the stitching mechanism is capable of stitching in a third direction. In the present invention, the second direction and the third direction are two directions perpendicular to each other on a horizontal plane.

In one example, first earring cord fastener 641 and/or second earring cord fastener 642 are spring clips.

In the particular example illustrated, the first and second lug cord fasteners 641, 642 are each spring clips. The first shovel flap 632 is provided with two first hanger rope fixing members 641 arranged in the third direction, and the second shovel flap 634 is provided with two second hanger rope fixing members 642 arranged in the third direction.

In the particular example illustrated, first shovel fold actuator 631 and second shovel fold actuator 633 are both telescopic cylinders.

It is understood that the shape and size of the mask body placing groove 611 may be designed according to the mask body to be processed. For example, the mask body to be processed has a rectangular shape, the mask body placement groove 611 also has a rectangular shape, the length of the mask body placement groove 611 is slightly shorter than the length of the mask body to be processed, and the width of the mask body placement groove 611 is the same as the width of the mask body to be processed.

In one example, the depth of the mask body placing groove 611 is 2mm to 2.5mm, and the following-side position plate 621 can be smoothly drawn out from the mask body. In some specific examples, the depth of the mask body placing groove 611 is 2.1mm, 2.2mm, 2.3mm, 2.4 mm.

As shown in fig. 7, in one example, the vicinity driver includes a third direction driving part 622 and a vertical driving part 623, the vertical driving part 623 is connected to the vicinity plate 621 for driving the vicinity plate 621 to move in the vertical direction, and the third direction driving part 622 is connected to the vertical driving part 623 for driving the vertical driving part 623 to move in the second direction.

As shown in fig. 7, in one example, the positioning mechanism further includes a sliding rail 624 and a guide 625, the sliding rail 624 extends along the third direction, the sliding rail 624 is in sliding fit with the guide 625, and two opposite sides of the guide 625 in the third direction are respectively connected to the third direction driving component 622 and the vertical driving component 623.

In the illustrated embodiment, the sliding rail 624 includes a first side rail and a second side rail arranged in parallel, the guide 625 is a vertical plate, and the guide 625 is arranged on the first side rail and the second side rail. In the second direction, the third direction drive component 622 and the vertical drive component 623 are both located between the first side rail and the second side rail.

In the particular example illustrated, the third direction drive component 622 and the vertical drive component 623 are both telescopic cylinders.

As shown in fig. 2, in one example, the mask producing apparatus 10 further includes a sealing mechanism 700, the sealing mechanism 700 is disposed between the nose bridge strip adding device 500 and the edge-covering and ear hanging rope sewing device 600, and the sealing mechanism 700 includes a bone vehicle for sealing the edge of the main body of the nose bridge strip.

In some embodiments, the ear belt link structure includes a driving motor 3111, a first segment 3112 and a second segment 3113, the driving motor 3111 is connected to one end of the first segment 3112, a connection unit 3114 is disposed outside the other end of the first segment 3112, one end of the second segment 3113 is fixedly connected to the connection unit 3114, and the other segment of the second segment 3113 is fixedly connected to the ear belt welding structure.

In some embodiments, the ultrasonic ear band maintaining structure includes a bracket 3211 for mounting the ultrasonic ear band, and a sliding assembly for moving the bracket 3211 back and forth, wherein the sliding assembly includes a sliding rail 3212 mounted at the bottom of the ear band part and a sliding block mounted on the bracket 3213, and the sliding block 3213 can slide along the sliding rail 3212.

In some embodiments, the weld includes a mask sealing horn and a mold adjustment structure; the die adjusting structure comprises a first adjusting plate group and a second adjusting plate group, the first adjusting plate group and the second adjusting plate group are arranged in a mirror image mode, the first adjusting plate group comprises a first rectangular plate 4111 and a first circular plate 4112, the first circular plate 4112 is overlapped on the outer surface of the first rectangular plate 4111, first adjusting waist-shaped holes which extend longitudinally are formed in four corners of the first rectangular plate 4111, at least four first adjusting arc-shaped holes are formed in the edge of the first circular plate 4112, a first adjusting column which can be embedded into the first adjusting arc-shaped holes is further arranged on the first rectangular plate, the centers of the first rectangular plate 4111 and the first circular plate 4112 are on the same straight line, and a die mounting block is further arranged on the inner side of the first rectangular plate 4111; the second adjusting plate group comprises a second rectangular plate 4211 and a second circular plate 4212, the second circular plate 4212 is superposed on the outer surface of the second rectangular plate 4211, four corners of the second rectangular plate 4211 are respectively provided with a second adjusting waist-shaped hole extending longitudinally, the edge of the second circular plate 4212 is provided with at least four second adjusting arc-shaped holes, the second rectangular plate 4211 is further provided with a second adjusting column capable of being embedded into the second adjusting arc-shaped holes, the centers of the second rectangular plate 4211 and the second circular plate 4212 are on the same straight line, and the mask welding head is sealed and arranged on the inner side of the second rectangular plate and can be butted with the mold mounting block.

As shown in fig. 8 to 25, the first pushing mechanism 8 includes a connecting shaft 500, an air cylinder 600, a guide rod 700, a linear bearing 800 and a connecting fixing plate 900, the air cylinder 600 and the guide rod 700 are respectively disposed at the bottom of the connecting fixing plate 900, the connecting shaft 500 and the linear bearing 800 are disposed on the connecting fixing plate 900, the connecting shaft 500 passes through the connecting fixing plate 900 and is connected to the air cylinder 600, the first pushing mechanism 8 is further provided with a closing clamp jig 300, the closing clamp jig 300 is disposed on the connecting fixing plate 900 through the linear bearing 800, the semi-finished product mask 202 is placed on the tray 200, the light sensor 203 senses the mask 202 and then makes the air cylinder 600 work upwards, the closing clamp jig 300 is pushed, the mask clamp 201 is pushed by the closing clamp jig 300 to close and fix the mask 202, and the air cylinder 600 and the closing clamp jig 300 return to do a circular motion.

The second pushing mechanism 18 comprises a connecting shaft 500, an air cylinder 600, a guide rod 700, a linear bearing 800 and a connecting fixing plate 900, the air cylinder 600 and the guide rod 700 are respectively arranged at the bottom of the connecting fixing plate 900, the connecting shaft 500 and the linear bearing 800 are arranged on the connecting fixing plate 900, the connecting shaft 500 penetrates through the connecting fixing plate 900 to be connected to the air cylinder 600, an opening clamp jig 400 is further arranged on the second pushing mechanism 18, the closing clamp jig 300 and the opening clamp jig 400 are respectively arranged on the connecting fixing plate 900 through the linear bearing 800, when the semi-finished mask 202 is conveyed to the position of the finished product grabbing device 14 by the conveying device 17, the air cylinder 600 is enabled to work upwards after the light sensor 203 senses and detects the mask 202, the opening clamp jig 400 is pushed, the mask clamp 201 is pushed by the opening clamp jig 400 to open and loosen the mask, and the air cylinder 600 and the opening clamp jig 400 return to do circulating action.

The welding valve ultrasonic mold mechanism 19 comprises an ultrasonic mold 191, a fixing plate 192, an ultrasonic movable fixing plate 193, a welding cylinder 195 and an ultrasonic transducer 196, wherein the ultrasonic mold 191 is arranged on and penetrates through the fixing plate 192 to be connected to the ultrasonic transducer 196, the ultrasonic transducer 196 is arranged on the ultrasonic movable fixing plate 193, a guide rod 194 is further arranged between the fixing plate 192 and the ultrasonic movable fixing plate 193, the welding cylinder 195 is arranged at the bottom of the ultrasonic movable fixing plate 193, and a fan 197 is further fixedly arranged on one side of the ultrasonic movable fixing plate 193. After the mask 202 body is conveyed to the upper part of the device, the welding cylinder 195 pushes the ultrasonic movable fixing plate 193 to slide on the guide rod 194, the ultrasonic mold 191 is connected with the ultrasonic movable fixing plate 193 and moves upwards together, the top surface of the ultrasonic mold 191 and the breathing valve grabbing and welding device 13 suck the back bottom surface of the breathing valve are pressed relatively, and the ultrasonic transducer 196 enables the ultrasonic mold 191 to generate wave vibration to weld the breathing valve on the mask 202 body. The fan 197 blows the ultrasonic waves to dissipate heat, and the service life is prolonged.

Nose line blowing device 1 includes mounting panel 1006, blowing motor 1001, blowing action wheel 1002, the blowing is from driving wheel 1003, blowing dish 1004, tension floating rod 1005 and fixed nose line tension sensor 1008 of locating on mounting panel 1006, blowing dish 1004 is located on mounting panel 1006 through blowing pole 1007, tension floating rod 1005 is fixed to be located on mounting panel 1006 and is located one side of blowing dish 1004, blowing motor 1001, blowing action wheel 1002 and blowing are located the bottom of mounting panel 1006 respectively from driving wheel 1003, blowing motor 1001 is connected in blowing action wheel 1002, mounting panel 1006 is passed to the one end of blowing pole 1007 is connected with blowing from driving wheel 1003, blowing action wheel 1002 is connected in blowing from driving wheel 1003 through the belt. The nose line coil is placed on the discharging tray 1004, the discharging motor 1001 drives the discharging tray 1004 to rotate for feeding, the nose line passes through the tension floating rod 1005, the tension floating rod 1005 passively leaves the nose line tension sensor 1008 when the nose line is tensioned, and the discharging motor 1001 is started to drive the discharging tray 1004 to feed when the nose line leaves the nose line tension sensor 1008; when the nose line is conveyed to a certain position, the nose line is loosened, the tension floating rod 1005 returns to the original position, and the feeding motor 1001 stops feeding after the nose line tension sensor 1008 detects the nose line, so that the circular operation is performed.

The nose line conveying and cutting device 2 comprises a nose line guide wheel 21, a nose line leveling wheel set 22, a waste collecting track 23, a waste collecting disc 24, a nose line active conveying wheel set 25, a nose line cutter combination 26, a nose line taking and placing air cylinder 27, a nose line upper and lower air cylinder 28, a nose line translation combination 29, a stepping motor 210 and an adjusting hand wheel 211, wherein the stepping motor 210 is connected to the nose line active conveying wheel set 25, one end of the waste collecting track 23 is arranged on one side of the nose line cutter combination 26, and the other end of the waste collecting track is connected to the waste collecting disc 24. The zigzag nose line enters a nose line leveling wheel set 22 through a nose line guide wheel 21 to be leveled and straightened. The nose line active conveying wheel set 25 conveys the leveled and pressed nose line forwards to the nose line cutter combination 26, the nose line cutter combination 26 cuts off and shapes the nose line conveyed in, and the waste residue of the nose line left after cutting off enters the waste collection disc 24 for storage through the waste collection track 23; the nose line is clamped and fixed by a nose line taking and placing cylinder 27 before being cut, the cut finished nose line is clamped by the nose line taking and placing cylinder 27, then the nose line is moved and conveyed to the nose line hot melting device 3 by a nose line translation combination 29, the nose line up-down cylinder 28 descends after reaching the position, the nose line taking and placing cylinder 27 loosens the nose line, the nose line drops onto the nose line hot melting device 3 for welding, and the nose line returns to the original position after welding, so that the operation is circulated.

Nose line hot melting device 3 is including fixed nose line conveying cylinder 31, heat-conducting plate 35 and the hot plate 36 of locating on hot melting mechanism mount pad 32 respectively, still on the hot melting mechanism mount pad 32 the heat-conducting plate 35 connect in hot plate 36, the hot plate 36 below is equipped with slider 33, heat-conducting plate 35 and hot plate 36 locate on the guide rail 34 through the slider 33 activity, nose line conveying cylinder 31 connect in slider 33. The heating plate continuously heats and conducts heat to the nose line to place the heat-conducting plate to enable the heat-conducting plate to generate heat, the nose line is conveyed to the heated nose line to place the heat-conducting plate, the nose line conveying cylinder pushes the nose line forwards to place the heat-conducting plate, the nose line is placed to be attached to the mask after the heat-conducting plate moves, the nose line is welded on the mask under the influence of temperature, and the nose line conveying cylinder returns to the original position to circularly move.

The nose line reinforcing device 4 comprises a reinforcing air cylinder 41, a reinforcing mounting seat 42 and a reinforcing plate 45, wherein the reinforcing mounting seat 42 is provided with a second guide rail 44, the bottom of the reinforcing plate 45 is provided with a second sliding block 43, the reinforcing plate 45 is movably arranged on the second guide rail 44 through the second sliding block 43, and the reinforcing air cylinder 41 is connected with the second sliding block 43.

The printing device 5 comprises a pad printing connecting rod 51, a pad printing air cylinder 52, a pad printing plug 53, a pad printing oil clock 54, an oil clock reciprocating air cylinder 55, a pad printing connecting rod track 56 and a pad printing connecting rod air cylinder 57, wherein one end of the pad printing connecting rod 51 is connected to the pad printing connecting rod air cylinder 57, the other end of the pad printing connecting rod is connected to the pad printing air cylinder 52, the pad printing connecting rod track 56 is respectively arranged on two sides of the pad printing connecting rod 51, and the pad printing oil clock 54 is connected to the oil clock reciprocating air cylinder 55.

The ear belt length adjusting and shearing device 6 comprises an ear belt pulling mechanism fixing plate 64, and an ear belt clamping mechanism 61, an ear belt pulling guide rail 62, an ear belt clamping cylinder 63, an ear belt pulling motor 65, an ear belt length detecting piece 66, an ear belt length sensor 67, a scissors combination 68, a scissors opening and closing cylinder 69 and a scissors advancing and retreating cylinder 610 which are respectively fixedly arranged on the ear belt pulling mechanism fixing plate 64.

Ear belt grabbing device 7 includes ear area lift cylinder 71, the rotatory sensor 72 that detects of ear area, ear area lift slide mechanism 73, ear area antiwind cylinder 75 and ear area antiwind guide shaft 76, ear area lift cylinder 71 connect in ear area lift slide mechanism 73, ear area antiwind cylinder 75 connect in ear area antiwind guide shaft 76, the both sides of ear area antiwind cylinder 75 are equipped with ear area rotating electrical machines 78 respectively, ear area rotating electrical machines 78 connect respectively in the ear area is got and is put switching cylinder 77, the ear area is got the one end of putting switching cylinder 77 and connects respectively in ear area is got and is put clamp 74.

The ear belt conveying device 9 comprises an ear belt conveying mounting plate 910 and an ear belt guide plate 92, an ear belt conveying motor 91 is fixedly arranged on one side plate of the ear belt conveying mounting plate 910, an ear belt floating driven wheel 93, an ear belt tension sensor 94, an ear belt conveying driving wheel 96, an ear belt guide wheel 97 and a guide pillar fixing plate 99 are arranged on the other side plate, the guide pillar fixing plate 99 is located below the ear belt conveying driving wheel 96, guide pillars 98 are arranged between the guide pillar fixing plates 99, and ear belt tension floating wheels 95 are arranged on the guide pillars 98.

The ear band welding device 10 comprises a transducer mounting plate 103, an ultrasonic lifting sliding mechanism 101, an ultrasonic transducer 102 and an ultrasonic lifting motor 105 which are respectively fixedly arranged on the transducer mounting plate 103, wherein the ultrasonic transducer 102 penetrates through the transducer mounting plate 103 and is connected to an ultrasonic welding head 104.

Punching device 11 is equipped with ultrasonic wave lift slide bar 111 and lift cylinder 114 including punching a hole mounting panel 116, second ultrasonic transducer 112 and guide bar 115 on the mounting panel 116 that punches a hole, the one end of second ultrasonic transducer 112 is passed the mounting panel 116 that punches a hole connect in lift cylinder 114, the other end is connected in ultrasonic welding mould 113.

The breather valve positioning device 12 comprises a breather valve mounting plate 128, a breather valve positioning cylinder 121 and a breather valve moving mechanism 123 which are fixedly arranged on the breather valve mounting plate 128, a breather valve material blocking cylinder 127 is arranged on the breather valve positioning cylinder 121, a breather valve rotating cylinder 124 is arranged on the breather valve moving mechanism 123, a breather valve material taking cylinder 122 is arranged on the breather valve rotating cylinder 124, a breather valve blocking cylinder 125 connected with the breather valve material taking cylinder 122 is arranged, and a breather valve correcting cylinder 126 is arranged above the breather valve blocking cylinder 125.

Breather valve snatchs and fusion splicing apparatus 13 includes breather valve buffering positioning mechanism 131, breather valve lifting slide mechanism 132, breather valve moving guide 135, breather valve snatchs and locates with splice plate 137, breather valve moving cylinder 136 and breather valve lift cylinder 138, breather valve moving cylinder 136 the breather valve snatchs and locates with one side of splice plate 137, breather valve lift cylinder 138 locates on the breather valve snatchs and the splice plate 137, the breather valve snatchs and still is equipped with on the splice plate 137, breather valve lifting slide mechanism 132 warp breather valve moving guide 135 locates the breather valve snatchs and the bottom of splice plate 137, is equipped with the breather valve welding on the breather valve lifting slide mechanism 132 and goes up to grind 134, the breather valve welding goes up to grind and is equipped with sucking disc combination 133 that floats on 134.

The finished product grabbing device 14 comprises an absorption mechanism vertical seat 141, a finished product absorption disc 142, a finished product upper and lower guide rail 143, a moving cylinder reinforcing seat 144, a left and right moving cylinder 145, a left and right sliding guide rail 146, a finished product upper and lower cylinder 147 and a finished product upper and lower slide rail mechanism 148, wherein the finished product upper and lower guide rail 143 is connected to the left and right sliding guide rail 146, the finished product absorption disc 142 is connected to the finished product upper and lower cylinder 147 through the finished product upper and lower slide rail mechanism 148, one end of the left and right moving cylinder 145 is connected to the left and right sliding guide rail 146, and the other end of the left and right moving cylinder 145 is connected to the moving cylinder reinforcing seat 144.

The finished product output device 15 comprises a conveying driving roller 154 and a conveying driven roller 156, conveying side plates 152 are respectively arranged on two sides of the conveying driving roller 154 and the conveying driven roller 156, conveying plane paving plates 155 are respectively arranged on the conveying side plates 152, a finished product baffle 151 is arranged at one end of the conveying driven roller 156, and a conveying driving motor 153 connected with the conveying driving roller 154 is arranged on the conveying side plates 152.

When the device is operated and used, the upper roller 103 is lifted upwards through the lifting rod 102 by the spherical hand wheel 108 on the first material pulling mechanism 2, so that the gap between the upper roller 103 and the lower roller 104 is enlarged, the active carbon material layer in three layers of cloth is arranged between the upper roller 103 and the lower roller 104, the upper roller 103 and the lower roller 104 are closed through the lifting rod 102 by the spherical hand wheel 108, then the active carbon material continuously enters between the cutter wheel 36 and the backing cutter wheel 37 of the insert sheet cutter mechanism 3, the moving plate 39 is pressed by the second adjusting hand wheel 31, so that the cutter wheel 36 is driven to cut towards the backing cutter wheel 37 to form the active carbon material, the active carbon material is cut and formed, gaps are remained to be connected with waste materials to keep continuously conveying forwards, the active carbon material is conveyed to the position of the insert sheet welding mechanism 4 to stop, the air cylinder 45 on the insert sheet welding device 4 is pressed downwards onto the active carbon material by the welding tooth block 46 at the bottom of the tooth block mounting plate 43 through the guide pillar linear bearing 44 to be connected with the active carbon cloth, and is welded on the bottom layer of the bottom layer cloth by the ultrasonic mold 47, and then the welded mask body piece is conveyed forwards to the next working device by the upper roller 103 and the lower roller 104 on the second material pulling mechanism 5, the waste material is conveyed to the third material pulling mechanism 8 by the three material guiding rollers 62 arranged on the supporting frame 61 of the recovery mechanism 6 in a transmission way, and then the welded mask body piece is sent out of the machine by the upper roller 103 and the lower roller 104 on the third material pulling mechanism 8.

A pressure spring 106 is arranged between the movable slider 105 and the fixed vertical plate 101, an adjusting screw 107 penetrates through the fixed vertical plate 101 to be connected to the pressure spring 106, and the tightness of the pressure spring 106 can be adjusted through the adjusting screw 107, so that the cloth can be pulled under moderate pressure. The adjusting hand wheel 49 is connected to the mounting plate 41 through the connecting hole 110 to adjust the position of the tab welding mechanism 4 on the machine table 1.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all of which utilize the equivalent structure or equivalent flow transformation made by the content of the specification of the present invention, or directly or indirectly applied to other related technical fields, all included in the same way in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a full-automatic gauze mask machine with gauze mask seals which characterized in that: comprises a feeding part, a nose bridge part, an ear band part, a mask folding part and a welding part which are arranged in sequence;

the nose bridge part comprises a nose bridge strip feeding structure, a nose bridge strip pushing structure, a nose bridge strip guiding structure, a nose bridge strip tool nose lifting structure and a nose bridge strip ultrasonic sliding groove structure;

the nose bridge strip feeding structure is positioned above the nose bridge part, the nose bridge strip pushing structure is connected with the nose bridge strip feeding structure and positioned below the nose bridge strip feeding structure, the nose bridge strip guiding structure is in butt joint with the nose bridge strip pushing structure, the nose bridge strip nose-cutting raising structure is positioned below the nose bridge strip guiding structure, and the nose bridge strip ultrasonic sliding groove structure is positioned at the bottommost part of the nose bridge part;

the ear belt part comprises an ear belt shearing structure, an ear belt connecting rod structure, an ear belt welding structure, an ear belt welded junction cooling structure, an ear belt discharging structure and an ear belt ultrasonic maintenance structure;

the ear belt ultrasonic maintenance structure is arranged at the bottom of the ear belt part;

the welding part comprises a mask sealing welding head and a mould adjusting structure; the die adjusting structure comprises a first adjusting plate group and a second adjusting plate group, the first adjusting plate group and the second adjusting plate group are arranged in a mirror image mode, the first adjusting plate group comprises a first rectangular plate and a first circular plate, the first circular plate is superposed on the outer surface of the first rectangular plate, first adjusting waist-shaped holes which extend longitudinally are formed in four corners of the first rectangular plate, at least four first adjusting arc-shaped holes are formed in the edge of the first circular plate, a first adjusting column which can be embedded into the first adjusting arc-shaped holes is further arranged on the first rectangular plate, the centers of the first rectangular plate and the first circular plate are on the same straight line, and a die mounting block is further arranged on the inner side of the first rectangular plate; the second adjusting plate group includes second rectangular plate and second circular plate, the circular plate stack of second is at the surface of second rectangular plate, four edges of second rectangular plate all are equipped with the second regulation waist shape hole of a vertical extension, the edge of second circular plate is equipped with four at least second regulation arc holes, still be equipped with on the second rectangular plate and can imbed the second and adjust the downthehole second regulation post of arc, the center of second rectangular plate and second circular plate is on same straight line, the gauze mask seals the bonding tool setting in the second rectangular plate inboard and can dock with the die holding piece.

2. The fully automatic mask machine with mask seal according to claim 1, characterized in that: the full-automatic mask machine with the mask seal further comprises a first pushing mechanism and a second pushing mechanism, wherein the first pushing mechanism and the second pushing mechanism respectively comprise a connecting shaft, an air cylinder, a guide rod, a linear bearing and a connecting fixing plate, the air cylinder and the guide rod are respectively arranged at the bottom of the connecting fixing plate, the connecting shaft and the linear bearing are arranged on the connecting fixing plate, the connecting shaft penetrates through the connecting fixing plate to be connected to the air cylinder, a closing clamp jig is further arranged on the first pushing mechanism, an opening clamp jig is further arranged on the second pushing mechanism, the closing clamp jig and the opening clamp jig are respectively arranged on the connecting fixing plate through the linear bearing, and the full-automatic mask machine with the mask seal further comprises a welding valve ultrasonic mold mechanism; weld valve ultrasonic wave mould mechanism and include ultrasonic wave mould, fixed plate, ultrasonic wave removal fixed plate, butt fusion cylinder and ultrasonic transducer, the ultrasonic wave mould is located and is passed the fixed plate connect in ultrasonic transducer, ultrasonic transducer locates on the ultrasonic wave removal fixed plate, the fixed plate with still be equipped with the guide arm between the ultrasonic wave removal fixed plate, the butt fusion cylinder is located the bottom of ultrasonic wave removal fixed plate, one side of ultrasonic wave removal fixed plate is still fixed and is equipped with the fan.

3. The fully automatic mask machine with mask seal according to claim 1, characterized in that: the nose bridge strip feeding structure comprises a mounting plate, a discharging motor, a discharging driving wheel, a discharging driven wheel, a discharging disc, a tension floating rod and a nose line tension sensor fixedly arranged on the mounting plate, wherein the discharging disc is arranged on the mounting plate through the discharging rod, the tension floating rod is fixedly arranged on the mounting plate and located on one side of the discharging disc, the discharging motor, the discharging driving wheel and the discharging driven wheel are respectively arranged at the bottom of the mounting plate, the discharging motor is connected with the discharging driving wheel, one end of the discharging rod penetrates through the mounting plate to be connected with the discharging driven wheel, and the discharging driving wheel is connected with the discharging driven wheel through a belt.

4. The fully automatic mask machine with mask seal according to claim 1, characterized in that: nose portion of full-automatic gauze mask machine with gauze mask seals still includes the defeated shearing mechanism that puts of nose line, the defeated shearing mechanism that puts of nose line includes that nose line leading wheel, nose line levelling wheelset, garbage collection track, garbage collection dish, nose line initiative transport wheelset, nose line cutter combination, nose line get and put cylinder, nose line about cylinder, nose line translation combination, step motor and adjusting handle, step motor connects in nose line initiative transport wheelset, one side of nose line cutter combination is located to orbital one end of garbage collection, and the other end is connected in the garbage collection dish.

5. The fully automatic mask machine with mask seal according to claim 1, characterized in that: nose bridge portion of full-automatic gauze mask machine with gauze mask seals still includes nose line hot melt device, nose line hot melt device carries cylinder, heat-conducting plate and hot plate including fixed nose line of locating on the hot melt mechanism mount pad respectively, still on the hot melt mechanism mount pad the guide rail the heat-conducting plate is connected in the hot plate, the hot plate below is equipped with the slider, heat-conducting plate and hot plate locate on the guide rail through the slider activity, nose line carries the cylinder to connect in the slider.

6. The fully automatic mask machine with mask seal according to claim 1, characterized in that: nose bridge portion of full-automatic gauze mask machine with gauze mask seals still includes nose line reinforcing apparatus, nose line reinforcing apparatus is including consolidating cylinder, reinforcement mount pad and reinforcement version, it is equipped with the second guide rail to consolidate the mount pad, the bottom of consolidating the version is equipped with the second slider, consolidate the version and locate through the second slider activity on the second guide rail, it connects in the second slider to consolidate the cylinder.

7. The fully automatic mask machine with mask seal according to claim 1, characterized in that: the nose bridge portion of the full-automatic mask machine with the mask seal further comprises a printing device, the printing device comprises a pad printing connecting rod, a pad printing cylinder, a pad printing plug, a pad printing oil clock, an oil clock reciprocating cylinder, a pad printing connecting rod track and a pad printing connecting rod cylinder, one end of the pad printing connecting rod is connected to the pad printing connecting rod cylinder, the other end of the pad printing connecting rod is connected to the pad printing cylinder, the pad printing connecting rod track is respectively arranged on two sides of the pad printing connecting rod, and the pad printing oil clock is connected to the oil clock reciprocating cylinder.

8. The fully automatic mask machine with mask seal according to claim 1, characterized in that: ear belt portion of full-automatic gauze mask machine with gauze mask seals still includes ear area length adjustment shearing mechanism, ear area length adjustment shearing mechanism is fixed respectively and is located the ear clamping belt mechanism on the ear clamping belt mechanism fixed plate, is drawn ear belt guide rail, presss from both sides ear belt cylinder, is drawn ear belt motor, ear belt length and detects piece, ear belt length sensor, scissors combination, scissors switching cylinder and scissors advance and retreat the cylinder including drawing ear belt mechanism fixed plate.

9. The fully automatic mask machine with mask seal according to claim 1, characterized in that: ear belt portion of full-automatic gauze mask machine with gauze mask seals still includes ear area grabbing device, ear area grabbing device includes ear area lift cylinder, the rotatory sensor of listening of ear area, ear area lift slide mechanism, ear area antiwind cylinder and ear area antiwind guide shaft, ear area lift cylinder connect in ear area lift slide mechanism, ear area antiwind cylinder connect in ear area antiwind guide shaft, the both sides of ear area antiwind cylinder are equipped with ear area rotating electrical machines respectively, ear area rotating electrical machines connect respectively in the ear area is got and is put the switching cylinder, the ear area get the one end of putting the switching cylinder connect respectively in the ear area is got and is put the clamp.

10. The fully automatic mask machine with mask seal according to claim 1, characterized in that: the ear belt part of the full-automatic mask machine with the mask opening comprises an ear belt conveying device, the ear belt conveying device comprises an ear belt conveying mounting plate and an ear belt guide plate, an ear belt conveying motor is fixedly arranged on one side plate of the ear belt conveying mounting plate, an ear belt floating driven wheel, an ear belt tension sensor, an ear belt conveying driving wheel, an ear belt guide wheel and a guide pillar fixing plate are arranged on the other side plate, the guide pillar fixing plate is positioned below the ear belt conveying driving wheel, a guide pillar is arranged between the guide pillar fixing plates, and the ear belt tension floating wheel is arranged on the guide pillar; the ear band part of the full-automatic mask machine with the mask opening comprises an ear band welding device, wherein the ear band welding device comprises a transducer mounting plate, an ultrasonic lifting sliding mechanism, an ultrasonic transducer and an ultrasonic lifting motor, wherein the ultrasonic lifting sliding mechanism, the ultrasonic transducer and the ultrasonic lifting motor are respectively and fixedly arranged on the transducer mounting plate; the full-automatic mask machine with the mask seal further comprises a punching device, the punching device comprises a punching mounting plate, a second ultrasonic transducer and a guide rod, an ultrasonic lifting slide rod and a lifting cylinder are arranged on the punching mounting plate, one end of the second ultrasonic transducer penetrates through the punching mounting plate to be connected to the lifting cylinder, and the other end of the second ultrasonic transducer is connected to an ultrasonic welding die; the full-automatic mask machine with the mask seal further comprises a breather valve positioning device, wherein the breather valve positioning device comprises a breather valve mounting plate, a breather valve positioning cylinder and a breather valve moving mechanism which are fixedly arranged on the breather valve mounting plate, a breather valve material blocking cylinder is arranged on the breather valve positioning cylinder, a breather valve rotating cylinder is arranged on the breather valve moving mechanism, a breather valve material taking cylinder is arranged on the breather valve rotating cylinder, a breather valve blocking cylinder connected with the breather valve material taking cylinder, and a breather valve correcting cylinder arranged above the breather valve blocking cylinder; full-automatic gauze mask machine with gauze mask seals still includes that the breather valve snatchs and the butt fusion device, the breather valve snatchs and includes breather valve buffering positioning mechanism, breather valve lift slide mechanism, breather valve moving guide, breather valve snatchs with butt fusion bottom plate, breather valve moving cylinder and breather valve lifting cylinder with the butt fusion device the breather valve moving cylinder is located the breather valve snatchs one side with the butt fusion bottom plate, breather valve lift cylinder is located the breather valve snatchs with the butt fusion bottom plate on, breather valve lift slide mechanism warp breather valve moving guide locates the breather valve snatchs the bottom with the butt fusion bottom plate, the last breather valve butt fusion that is equipped with of breather valve lift slide mechanism goes up the mill, the breather valve butt fusion is gone up and is equipped with the unsteady combination of sucking disc on the mill.

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