CN111165967B - Mask machine - Google Patents

Abstract

The invention discloses a mask machine which comprises a machine body provided with a mask body raw material feeding mechanism, wherein a mask body raw material edge folding mechanism, a nose bridge line feeding and cutting mechanism, a mask body ultrasonic welding mechanism, a cloth type ear band raw material feeding and cutting mechanism, an ear band raw material waste edge collecting mechanism, an ear band ultrasonic welding mechanism, an ear band waste piece collecting mechanism and a finished product mask cutting mechanism are sequentially arranged at the lower stream of the mask body raw material feeding mechanism of the machine body. By adopting the mask machine, all processes are synchronously completed on a linear production line, and linear flow line processing of the mask is realized; simultaneously, the ear belt on the gauze mask of producing is wide ear belt, can not cause the oppression to the ear and feel, has promoted greatly and has worn the travelling comfort, and wears the leakproofness good.

Description

Mask machine

Technical Field

The invention belongs to the technical field of mask production equipment, and particularly relates to a mask machine.

Background

At present, the current gauze mask machine is mostly the gauze mask machine of one dragging two formula (is F shape and arranges), processes single gauze mask body earlier, then transmits on to welding station and welds the both ends in ear area to the gauze mask body and go up the ear area, adopts the gauze mask machine of this kind of structure to have following defect:

1. the equipment has large volume and large occupied space;

2. the same equipment cannot meet the processing and production requirements of the child mask and the adult mask;

3. the process is complicated and the production efficiency is low.

The ear belt on the produced mask is thin, can cause oppression to ears, and is poor in wearing comfort.

Disclosure of Invention

In order to solve the problems, the embodiment of the invention provides a mask machine, which is used for realizing linear production of masks, and the produced masks are good in wearing comfort and achieve the effects of small occupied space and high production efficiency.

The technical scheme provided by the embodiment of the invention is as follows: the utility model provides a mask machine, includes the organism, the initiating terminal of organism is equipped with mask body raw materials feed mechanism, is located mask body raw materials feed mechanism low reaches be equipped with mask body raw materials hem mechanism on the organism, be located mask body raw materials hem mechanism low reaches be equipped with bridge of the nose line material feeding on the organism and cut the mechanism, be located bridge of the nose line material feeding cuts mechanism low reaches be equipped with mask body ultrasonic welding mechanism on the organism, be located mask body ultrasonic welding mechanism low reaches be equipped with distributing type ear area raw materials material feeding on the organism and cut mechanism and ear area raw materials slitter edge collection mechanism on the organism, be located ear area raw materials slitter edge collection mechanism low reaches be equipped with ear area ultrasonic welding mechanism on the organism, be located ear area ultrasonic welding mechanism low reaches be equipped with ear area slitter edge collection mechanism on the organism, be located ear area slitter edge collection mechanism low reaches be equipped with finished product mask cutting mechanism on the.

As an improvement, distributing type ear area raw materials material loading cuts mechanism including rotate install in ear area raw materials roller on the organism with install in first supporting seat on the organism, rotate on the first supporting seat and install two carry over pinch rolls, one of them be equipped with ear area shaping cutting die sword on the carry over pinch roll, ear area raw materials on the ear area raw materials roller passes two carry over pinch roll, duplex winding are through the top the carry over pinch roll is past ear area ultrasonic welding mechanism direction is carried.

As a further improvement, an ear belt feeding auxiliary material roller is arranged at the downstream of the ear belt raw material roller, and the winding route of the ear belt feeding auxiliary material roller and the ear belt raw material is consistent; and a transition material roller is arranged at the downstream of the first supporting seat, and the ear belt feeding auxiliary material and the ear belt raw material pass through the transition material roller and then pass through the two traction rollers.

As a further improvement, the ear belt raw material waste edge collecting mechanism comprises a first collecting roller which is positioned at the upstream of the traction roller and is rotatably installed on the machine body, and further comprises a second collecting roller which is positioned at the downstream of the ear belt feeding auxiliary material roller and is rotatably installed on the machine body, a material guide plate with a triangular structure is arranged on the machine body, which corresponds to the second collecting roller and is positioned at the upstream of the ear belt ultrasonic welding mechanism, and a waste material transition guide roller is rotatably installed on the machine body below the material guide plate; the ear belt raw materials are collected by the first collecting roller through one side waste materials formed after the cloth-type ear belt raw material feeding and cutting mechanism cuts, and the other side waste materials are collected by the second collecting roller through the guide plate and the waste material transition guide roller.

As a further improvement, the mask body ultrasonic welding mechanism and the ear band ultrasonic welding mechanism both comprise a second supporting seat, a supporting roller is rotatably mounted on the second supporting seat, sliding grooves are formed in two ends of the second supporting seat above the supporting roller, adjusting blocks are arranged in the sliding grooves in a sliding manner, an adjusting plate is arranged on each adjusting block, an adjusting seat is arranged on each adjusting plate, an ultrasonic welding assembly is arranged on each adjusting seat, and a welding head on each ultrasonic welding assembly penetrates through each adjusting plate and extends towards the direction of the supporting roller;

grooves used for coating the second supporting seat are formed in the two sides of the adjusting block, a connecting long hole is formed in the adjusting block at the position corresponding to the grooves, and a connecting hole is formed in the second supporting seat at the position corresponding to the connecting long hole; keep away from regulating plate one end regulating block both sides all are equipped with the guide part that the slope set up.

As a further improvement, the adjusting seat is provided with a transverse guide long hole, a guide pin is arranged in the guide long hole, the guide pin is arranged on the adjusting plate, and the adjusting seats at two ends of the guide long hole are respectively provided with a fixed connection long hole; the adjusting plate is provided with at least one limiting pin, and the limiting pin is arranged at one end of the adjusting seat.

As a further improvement, the ear belt waste piece collecting mechanism comprises at least two fixed guide shafts arranged on the second support seat, a position adjusting plate is inserted on each fixed guide shaft, an angle adjusting plate is rotatably and adjustably mounted on each position adjusting plate, a venturi tube is fixedly arranged on each angle adjusting plate, a beveled part is arranged at the suction end of each venturi tube, and the beveled part faces the ear belt raw material;

the two ends of the position adjusting plate are respectively provided with a first fastening hole, and the first fastening holes are communicated with guide holes inserted with the fixed guide shafts; the upper portion of the position adjusting plate is provided with a rotating shaft, the angle adjusting plate is fastened on the rotating shaft, a second fastening hole is formed in the top end of the position adjusting plate, and the second fastening hole is communicated with a hole in which the rotating shaft is inserted.

As a further improvement, the nose bridge line feeding and cutting mechanism comprises a nose bridge line roller rotatably mounted on the machine body and a third supporting seat mounted on the machine body, a mounting plate is arranged on the third supporting seat, a cutting and conveying base plate is arranged on the mounting plate, a pressure feeding wheel and a cutting and conveying wheel driven by a power device are rotatably mounted on the mounting plate at a position corresponding to the cutting and conveying base plate, a cutting knife is arranged on the cutting and conveying wheel, and the cutting and conveying wheel and the pressure feeding wheel are arranged in an up-and-down corresponding manner with the cutting and conveying base plate;

a restraint groove is formed in the cutting and conveying base plate at the position corresponding to the cutting and conveying wheel, a cushion block is arranged in the restraint groove, a connecting element is arranged between the cushion block and the cutting and conveying base plate, and the upper surface of the cushion block and the upper surface of the cutting and conveying base plate are arranged in a coplanar manner;

and a height adjusting base plate is arranged between the third supporting seat and the mounting plate.

As a further improvement, transitional traction composite mechanisms are respectively arranged between the mask body ultrasonic welding mechanism and the cloth type ear band raw material feeding and cutting mechanism, between the cloth type ear band raw material feeding and cutting mechanism and the ear band ultrasonic welding mechanism, and between the ear band waste piece collecting mechanism and the finished product mask cutting mechanism, the transitional traction composite mechanisms and the finished product mask cutting mechanism respectively comprise a fourth supporting seat, two roller bodies are rotatably mounted on the fourth supporting seat, and a cutter is arranged on one roller body of the finished product mask cutting mechanism;

cloth formula ear area raw materials material loading cuts mechanism and low reaches transition is pull and is equipped with the deflector roll between the combined mechanism, the deflector roll rotate install in on the organism.

As a further improvement, the machine body is provided with a slide rail, and the mask body raw material edge folding mechanism, the nose bridge line feeding and cutting mechanism, the mask body ultrasonic welding mechanism, the cloth-type ear band raw material feeding and cutting mechanism, the ear band ultrasonic welding mechanism, the finished mask cutting mechanism and the transition traction composite mechanism corresponding to the slide rail are all provided with slide seats.

By adopting the technical scheme, the mask machine provided by the embodiment of the invention has the following beneficial effects:

because the mask machine comprises a machine body, the initiating end of the machine body is provided with a mask body raw material feeding mechanism, the machine body positioned at the downstream of the mask body raw material feeding mechanism is provided with a mask body raw material edge folding mechanism, the machine body positioned at the downstream of the mask body raw material edge folding mechanism is provided with a nose bridge line feeding and cutting mechanism, the machine body positioned at the downstream of the nose bridge line feeding and cutting mechanism is provided with a mask body ultrasonic welding mechanism, the machine body positioned at the downstream of the mask body ultrasonic welding mechanism is provided with a cloth type ear band raw material feeding and cutting mechanism and an ear band raw material waste edge collecting mechanism, the machine body positioned at the downstream of the ear band raw material waste edge collecting mechanism is provided with an ear band ultrasonic welding mechanism, the machine body positioned at the downstream of the ear band ultrasonic welding mechanism is provided with an ear band waste edge, in the application of the mask machine, mask body raw materials (non-woven fabrics and melt-blown fabrics) are fed through a mask body raw material feeding mechanism and form a three-layer laminated structure, then the three-layer laminated structure is flanged through a mask body raw material flanging mechanism, then a nose bridge line is cut through a nose bridge line feeding and cutting mechanism and is coated in the mask body raw materials, then the mask body is welded through a mask body ultrasonic welding mechanism, the mask body is formed at the moment, but compared with the traditional method, a single body of the mask body is not cut, then ear band raw materials are fed through a distributed ear band raw material feeding and cutting mechanism and are cut in an ear band forming mode, the cut ear band raw materials can be converged with the mask body and form the laminated structure, and meanwhile, the cut waste materials are collected through an ear band raw material waste edge collecting mechanism, later, will cut fashioned ear area welding to the gauze mask body through ear area ultrasonic bonding mechanism on, later, collect the mechanism through ear area waste piece and collect the waste piece in shaping ear hole, later, cut through finished product gauze mask cutting mechanism, at this moment, just processing the completion one by one finished product gauze mask monomer.

In conclusion, by adopting the mask machine, all processes are synchronously completed on one linear production line, so that linear assembly line processing of the mask is realized, and compared with the traditional mask machine, the mask machine not only effectively reduces the equipment volume and greatly reduces the space occupancy rate of the equipment, but also simplifies the processes and greatly improves the production efficiency; simultaneously, the ear belt on the gauze mask of producing is wide ear area, can not cause the oppression to the ear and feel, has promoted greatly and has worn the travelling comfort, and in addition, the ear belt raw materials can form the laminating sealing strip with the welding department of gauze mask body when cutting, and when wearing the gauze mask, the laminating sealing strip can contact with face like this, has improved greatly and has worn the leakproofness.

Because distributing type ear area raw materials material loading cuts mechanism installs the ear area raw materials roller on the organism and installs the first supporting seat on the organism including rotating, rotate on the first supporting seat and install two carry over pinch rolls, be equipped with ear area shaping cutting die sword on one of them carry over pinch roll, the ear area raw materials on the ear area raw materials roller passes two carry over pinch rolls, the duplex winding is carried toward ear area ultrasonic welding mechanism direction through the carry over pinch roll of top, thereby in operation, come to carry out the roll compression formula to the ear area raw materials on the ear area raw materials roller through the cooperation of two carry over pinch rolls and pull the transport, and accomplish cutting in step, moreover, the steam generator is simple in structure, have good drawing and cutting effect to the ear area raw materials.

Because the ear belt feeding auxiliary material roller is arranged at the downstream of the ear belt raw material roller, the winding routes of the ear belt feeding auxiliary material on the ear belt feeding auxiliary material roller and the ear belt raw material are consistent; the transition material roller is arranged at the downstream of the first supporting seat, and the ear belt feeding auxiliary material and the ear belt raw material pass through the transition material roller and then pass through the two traction rollers, so that the ear belt raw material is subjected to auxiliary feeding through the attachment of the ear belt feeding auxiliary material and the ear belt raw material in work, the ear belt raw material feeding reliability is ensured, and the ear belt raw material is prevented from deforming in the feeding process; through the transition of the transition material roller, the ear belt raw material and the ear belt feeding auxiliary material before entering the two traction rollers are in good overlapped fit, and a good foundation is laid for the forming of a subsequent mask.

Because the ear band raw material waste edge collecting mechanism comprises a first collecting roller which is positioned at the upper stream of the traction roller and is rotatably installed on the machine body, and a second collecting roller which is positioned at the lower stream of the ear band feeding auxiliary material roller and is rotatably installed on the machine body, when the ear band raw material is cut by the distributed ear band raw material feeding cutting mechanism and two-side waste materials are collected, the waste material at one side is collected by the first collecting roller, the waste material at the other side, the ear band raw material and the ear band feeding auxiliary material can be converged with the mask body conveyed from the upper stream and are arranged in a laminated manner, then, in the conveying process, the ear band feeding auxiliary material and the waste material at the other side are collected by the second collecting roller, the effect of synchronously collecting the waste materials on line is achieved, the waste materials at two sides formed after the ear band raw material is cut are collected in a staggered manner, and the simultaneous collection of the waste materials at two side edges is avoided, the force can be applied to the middle of the mask body, and the cut ear band is extruded, so that the problem of deformation and the problem of the attaching tightness of the cut ear band and the mask body are influenced.

Because collect the roller with the second and correspond, and be located the stock guide that is equipped with the triangle-shaped structure on the organism of ear area ultrasonic bonding mechanism upper reaches, it installs waste material transition guide roll to rotate on the organism that is located the stock guide below, thereby stack gauze mask body and ear area raw materials together (cut the back) in the transport that lasts, carry out the bearing through the stock guide, simultaneously, the waste material of the opposite side of being convenient for through the stock guide draws the formula separation of dragging from the ear area raw materials at the in-process of bearing, and can not make the ear area after cutting the shaping take place to warp when drawing the formula separation of dragging.

Because the mask body ultrasonic welding mechanism and the ear belt ultrasonic welding mechanism both comprise a second supporting seat, a supporting and conveying roller is rotatably arranged on the second supporting seat, sliding grooves are formed in two ends of the second supporting seat above the supporting and conveying roller, regulating blocks are arranged in the sliding grooves in a sliding manner, regulating plates are arranged on the regulating blocks, regulating seats are arranged on the regulating plates, ultrasonic welding assemblies are arranged on the regulating seats, and welding heads on the ultrasonic welding assemblies penetrate through the regulating plates and extend towards the direction of the supporting and conveying roller; the both sides of regulating block all are equipped with the recess that is used for the cladding second supporting seat, correspond to be equipped with on the regulating block of position with the recess and connect the slot hole, correspond to be equipped with the connecting hole on the second supporting seat of position with connecting the slot hole to through the cooperation of regulating block and spout, realize the regulation of ultrasonic bonding assembly height, promptly: realize welding distance's regulation between bonding tool and the gauze mask body, through the cladding formula cooperation of recess and second supporting seat, the regulating block of being convenient for carries out vertical slidingtype action along the second supporting seat in the spout, can accomplish the installation of connecting piece and the fixed of regulating block on the second supporting seat through connecting hole and connection slot hole, and simple structure thinks about ingeniously, adjusts convenient, reliably, provides the guarantee for good adjustment welding distance.

Because the regulating block both sides of keeping away from regulating plate one end all are equipped with the guide part that the slope set up to in being convenient for the smooth spout that enters into of regulating block through the guide part, improved the convenience of regulating block and second supporting seat cooperation installation.

The adjusting seats are provided with transverse guide long holes, guide pins are arranged in the guide long holes and arranged on the adjusting plates, and the adjusting seats at the two ends of the guide long holes are provided with fixed connection long holes; the adjusting plate is provided with at least one limiting pin, the limiting pin is arranged at one end of the adjusting seat, so that the second supporting seat can move transversely conveniently through the cooperation of the guide long hole and the guide pin, deflection can not occur, the correspondence between the welding head and the welding position of the mask body is ensured, the position of the second supporting seat can be adjusted through the fixed connection long hole under the condition that the fixed connecting piece is not required to be detached, the structure is simple, and the convenience of transverse adjustment of the second supporting seat is improved.

Because the useless piece of ear area is collected the mechanism and is including setting up two piece at least fixed guiding axles on the second supporting seat, the cartridge has the position regulating plate on the fixed guiding axle, the last rotation regulation of position regulating plate installs angle regulating plate, venturi is fixed on the angle regulating plate, venturi's suction end is equipped with the beveling, the beveling is towards the ear area raw materials, thereby accomplish the useless piece of this ear area and collect the installation of mechanism on the second supporting seat through fixed guiding axle, through the regulation to position regulating plate and angle regulating plate, realize venturi and absorb the adjustment of useless piece angle, afterwards, ventilate toward the venturi, and realize the absorption to the useless piece. Adopt this ear area waste piece to collect mechanism to realize the purpose of collecting the waste piece in the production process of gauze mask in step, not only avoided the process that need get rid of the waste piece in the follow-up work, it is efficient to collect moreover, simultaneously, for the waste piece has obtained concentrated the collection, and in addition, this mechanism is small, and occupation space is little, and simple to operate can not influence the installation and the work of other mechanisms on the gauze mask machine.

The two ends of the position adjusting plate are provided with first fastening holes, and the first fastening holes are communicated with the guide holes inserted with the fixed guide shafts; the top of position control board is equipped with the pivot, the angle adjusting plate fastens in the pivot, the top of position control board is equipped with the second fastening hole, the second fastening hole communicates with the hole of cartridge pivot, thereby through at first fastening hole with have the downthehole installation fastener of second fastening, and support with fixed guiding axle and pivot respectively and lean on, alright realize the fixed of position control board on fixed guiding axle, and the fixed of pivot on the position control board, moreover, the steam generator is simple in structure, fixed effectual.

The nose bridge line feeding and cutting mechanism comprises a nose bridge line roller rotatably mounted on the machine body and a third supporting seat mounted on the machine body, a mounting plate is arranged on the third supporting seat, a cutting and conveying base plate is arranged on the mounting plate, a pressure feeding wheel and a cutting and conveying wheel driven by a power device are rotatably mounted on the mounting plate at the position corresponding to the cutting and conveying base plate, a cutter is arranged on the cutting and conveying wheel, and the cutting and conveying wheel and the pressure feeding wheel are arranged in a vertically corresponding manner with the cutting and conveying base plate; the restraint groove is formed in the cutting and conveying base plate at the position corresponding to the cutting and conveying wheel, the cushion block is arranged in the restraint groove, the connecting element is arranged between the cushion block and the cutting and conveying base plate, the upper surface of the cushion block and the upper surface of the cutting and conveying base plate are arranged in a coplanar mode, so that in work, the nose bridge line is pressed and conveyed through the pressing and conveying wheel, the nose bridge line is cut through a cutter on the cutting and conveying wheel, and in long-term work of the cutter, the cushion block located in the restraint groove serves as a supporting body for the cutter to cut, so that only the cushion block needs to be replaced after the cutter is damaged, and the nose bridge cutting device is simple in structure; meanwhile, the purpose of protecting the cutting backing plate is achieved, and the problem that the working efficiency is influenced due to the complex process of integrally replacing the cutting backing plate is solved.

Because be equipped with the altitude mixture control backing plate between third supporting seat and the mounting panel to when production children's gauze mask body or adult's gauze mask body, according to the height difference that gauze mask body ultrasonic welding mechanism upper bracket sent the position (hold in the palm the roller that send), realize linking up through the dismouting of altitude mixture control backing plate, provide the guarantee for the processing production demand that same platform equipment can satisfy children's gauze mask and adult's gauze mask.

Because the transitional traction composite mechanisms are arranged between the mask body ultrasonic welding mechanism and the cloth type ear band raw material feeding and cutting mechanism, between the cloth type ear band raw material feeding and cutting mechanism and the ear band ultrasonic welding mechanism, and between the ear band waste piece collecting mechanism and the finished product mask cutting mechanism, the transitional traction composite mechanisms can play a role in traction and conveying, and can play a role in increasing the bonding tightness of all materials which are arranged in a stacked manner; because transition traction combined mechanism and finished product gauze mask cut the mechanism and all include the fourth supporting seat, rotate on the fourth supporting seat and install two roll bodys, be equipped with the cut-off knife on one of them roll body that finished product gauze mask cut the mechanism to carry out roll-in formula through the roll body and carry, cut through the cut-off knife, simple structure, excellent in use effect.

The machine body is provided with the slide rails, and the mask body raw material edge folding mechanism, the nose bridge line feeding and cutting mechanism, the mask body ultrasonic welding mechanism, the cloth type ear band raw material feeding and cutting mechanism, the ear band ultrasonic welding mechanism, the finished product mask cutting mechanism and the transition traction composite mechanism which correspond to the slide rails are respectively provided with the slide seats, so that each mechanism is in a modular design with the slide seats, and the modular rapid assembly of each mechanism is realized through the sliding fit of the slide seats and the slide rails, the disassembly and the assembly are convenient, and the time and the labor are saved; simultaneously, demolish above-mentioned mechanism and install the relevant mechanism of circle sword cross cutting machine after, still can regard as the use of circle sword cross cutting machine, promptly: the multifunctional water dispenser has multiple purposes, wide application range and strong use flexibility.

Drawings

In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural view of the nose bridge line feeding and cutting mechanism and the mask body ultrasonic welding mechanism in fig. 1;

FIG. 3 is a schematic structural view of the nose bridge line feeding and cutting mechanism in FIG. 2;

FIG. 4 is an enlarged view of A in FIG. 3;

FIG. 5 is an enlarged view of B in FIG. 4;

FIG. 6 is a schematic structural view of the cloth-type ear band raw material feeding and cutting mechanism, the ear band raw material waste edge collecting mechanism, the ear band ultrasonic welding mechanism, the ear band waste piece collecting mechanism and the finished mask cutting mechanism in FIG. 1;

FIG. 7 is an enlarged view of C in FIG. 6;

FIG. 8 is a schematic structural view of the ultrasonic welding mechanism of the ear band of FIG. 6;

FIG. 9 is a schematic structural view of FIG. 8 with the second support seat removed;

FIG. 10 is a schematic view of the structure of FIG. 9 with the addition of a protective cover;

FIG. 11 is a schematic view of the earband scrap collection mechanism of FIG. 6;

fig. 12 is a schematic view of the structure of the finished mask;

FIG. 13 is a schematic view of the cut-out construction of the middle ear band material of FIG. 12;

in the figure, 1-body; 101-a slide rail; 102-a slide; 2-a mask body raw material feeding mechanism; 201-nonwoven roll; 202-melt-blown cloth roller; 203-nonwoven roll; 204-a guide roller; 205-non-woven fabrics; 206-melt-blown cloth; 207-non-woven fabrics; 3-a mask body raw material edge folding mechanism; 301-fifth support seat; 4-nose bridge line feeding and cutting mechanism; 400-nasal bridge line; 401-nose bridge line roller; 402-a third support seat; 403-mounting a plate; 404-height adjusting shim plates; 405-cutting and conveying the backing plate; 406-a nip wheel; 407-cutting and conveying wheel; 408-a cutter; 409-a confinement groove; 410-a connecting element; 411-cushion block; 5-ultrasonic welding mechanism for mask body; 6-a material feeding and cutting mechanism for the distributed ear bands; 601-ear tape stock roll; 602-a first support; 603-a pulling roll; 604-ear band material; 605-ear belt feeding auxiliary material roller; 606-auxiliary material loading for ear strips; 607-transition roll; 7-ear belt ultrasonic welding mechanism; 700-delivery roller; 701-a second supporting seat; 702-a chute; 703-an adjusting plate; 704-an adjusting seat; 705-ultrasonic welding assembly; 706-a welding head; 707-protective cover; 708-a heat-emitting end; 709-a heat dissipation fan; 710-heat dissipation holes; 711-a regulating block; 712-a groove; 713-connecting the long hole; 714-connecting hole; 715-a guide part; 716-a guide slot; 717-fixing the connection slot; 718-a spacing pin; 8-ear belt raw material waste edge collecting mechanism; 801-a first collection roller; 802-a second collection roller; 803-a material guide plate; 804-scrap transition guide rolls; 805-waste material; 806-waste material; 9-ear belt waste piece collecting mechanism; 901-fixing a guide shaft; 902-position adjustment plate; 903-angle adjusting plate; 904-venturi tube; 905-a chamfer; 906 — first fastening hole; 907-a guide hole; 908-a rotating shaft; 909-second fastening hole; 10-finished product mask cutting mechanism; 1001-fourth support seat; 1002-a roller body; 1003-guide rollers; 11-a transition traction compound mechanism; 12-mask body; 13-waste pieces; 14-ear band; 15-finished product mask; 16-applying a sealing strip.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are merely for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

For convenience of explanation, the two-dot chain lines shown in fig. 1 and 6 indicate materials, and the direction indicated by an arrow indicates a conveying direction of the materials.

As shown in fig. 1, a mask machine, including organism 1, the initiating terminal of this organism 1 is equipped with mask body raw materials feed mechanism 2, be equipped with mask body raw materials hem mechanism 3 on organism 1 that is located mask body raw materials feed mechanism 2 low reaches, be equipped with bridge of the nose line material feeding on organism 1 that is located 3 low reaches of mask body raw materials hem mechanism 4, be equipped with mask body ultrasonic welding mechanism 5 on organism 1 that is located 4 low reaches of bridge of the nose line material feeding and cutting mechanism, be equipped with distributing type ear area raw materials material feeding and cutting mechanism 6 and ear area raw materials slitter edge collection mechanism 8 on organism 1 that is located 5 low reaches of mask body ultrasonic welding mechanism, be equipped with ear area ultrasonic welding mechanism 7 on organism 1 that is located 8 low reaches of ear area raw materials slitter edge collection mechanism 7, be equipped with ear area slitter edge collection mechanism 9 on organism 1 that is located ear area slitter edge collection mechanism 9 low reaches, be equipped with finished product mask cutting mechanism 10 on.

As shown in fig. 1 and fig. 6, the cloth-type ear band material feeding and cutting mechanism 6 includes an ear band material roll 601 rotatably installed on the machine body 1 and a first supporting base 602 installed on the machine body 1, the ear band material roll 601 is driven by a motor, two pulling rolls 603 installed with a first driving device for driving are rotatably installed on the first supporting base 602, one of the pulling rolls 603 is provided with an ear band forming and cutting die cutter (not shown in the figure), the ear band forming and cutting die cutter is provided with a plurality of blades on the pulling roll 603 according to the shape of an ear band, and an ear band material 604 on the ear band material roll 601 passes through the two pulling rolls 603 and is conveyed to the ear band ultrasonic welding mechanism 7 around the pulling roll 603 above.

An ear belt feeding auxiliary material roller 605 is arranged at the downstream of the ear belt raw material roller 601, the winding route of an ear belt feeding auxiliary material 606 on the ear belt feeding auxiliary material roller 605 is consistent with that of an ear belt raw material 604, preferably, the ear belt raw material 604 is elastic cloth, and the auxiliary material 301 is a PE film, so that elastic deformation is provided for the formed ear belt through the elastic cloth, the wearing comfort is greatly increased, reliable overlapping type laminating is carried out on the elastic cloth through the viscosity of the PE film, the reliability of elastic cloth feeding is ensured, and the elastic cloth is effectively prevented from deforming in conveying; a transition material roller 607 is arranged on the machine body 1 at the downstream of the first supporting seat 602, and the ear belt feeding auxiliary material 606 and the ear belt raw material 604 pass through the transition material roller 607 and then pass through between the two drawing rollers 603.

As shown in fig. 1, fig. 6 and fig. 7, the ear belt raw material slitter edge collecting mechanism 8 comprises a first collecting roller 801 located at the upstream of the drawing roller 603 and rotatably mounted on the machine body 1, and further comprises a second collecting roller 802 located at the downstream of the ear belt feeding auxiliary material roller 605 and rotatably mounted on the machine body 1, the first collecting roller 801 and the second collecting roller 802 are respectively driven by a motor, a material guide plate 803 with a triangular structure is arranged on the machine body 1 corresponding to the second collecting roller 802 and located at the upstream of the ear belt ultrasonic welding mechanism 7, and a scrap transition guide roller 804 is rotatably mounted on the machine body 1 below the material guide plate 803; waste 805 on one side formed by cutting the ear belt raw material 604 by the distributed ear belt raw material feeding and cutting mechanism 6 is collected by a first collecting roller 801, and waste 806 on the other side is collected by a second collecting roller 802 after passing through a material guide plate 803 and a waste transition guide roller 804.

As shown in fig. 1, fig. 6, and fig. 8 to fig. 10, the mask body ultrasonic welding mechanism 5 and the ear belt ultrasonic welding mechanism 7 both include a second support base 701, a supporting roller 700 is rotatably mounted on the second support base 701, sliding grooves 702 are formed at both ends of the second support base 701 above the supporting roller 700, an adjusting block 711 is slid in the sliding groove 702, an adjusting plate 703 is disposed on the adjusting block 711, an adjusting seat 704 is disposed on the adjusting plate 703, an ultrasonic welding assembly 705 is disposed on the adjusting seat 704, and a welding head 706 on the ultrasonic welding assembly 705 passes through the adjusting plate 703 and extends toward the supporting roller 700; in this embodiment, a protective cover 707 is further disposed on the adjusting seat 704, the heat-generating end 708 on the ultrasonic welding assembly 705 is disposed in the protective cover 707, and a heat-dissipating fan 709 and a plurality of heat-dissipating holes 710 are disposed on the protective cover 707.

Grooves 712 for coating the second support seat 701 are formed in the two sides of the adjusting block 711, a connecting long hole 713 is formed in the adjusting block 711 at a position corresponding to the grooves 712, and a connecting hole 714 is formed in the second support seat 701 at a position corresponding to the connecting long hole 713; two sides of the adjusting block 711 far away from one end of the adjusting plate 703 are provided with guide parts 715 which are obliquely arranged; the adjusting base 704 is further provided with a guide long hole 716 arranged transversely, a guide pin (not shown in the figure) is arranged in the guide long hole 716 and is arranged on the adjusting plate 703, and the adjusting bases 704 at two ends of the guide long hole 716 are provided with fixing connection long holes 717; the adjusting plate 703 is provided with at least one limiting pin 718, and two limiting pins 718 are provided in the present embodiment and abut against one end of the adjusting seat 704.

As shown in fig. 1, fig. 6 and fig. 11, the ear belt waste piece collecting mechanism 9 comprises at least two fixed guide shafts 901 disposed on the second support base 701, in this embodiment, the end of the fixed guide shaft 801 is threaded and connected with the second support base 701, a position adjusting plate 902 is inserted on the fixed guide shaft 901, an angle adjusting plate 903 is rotatably and adjustably mounted on the position adjusting plate 902, a venturi tube 904 is fastened on the angle adjusting plate 903, a chamfer 905 is disposed at the suction end of the venturi tube 904, and the chamfer 905 faces the ear belt raw material 604; two ends of the position adjusting plate 902 are respectively provided with a first fastening hole 906, and the first fastening holes 906 are communicated with guide holes 907 inserted with fixed guide shafts 901; a rotating shaft 908 is arranged above the position adjusting plate 902, the angle adjusting plate 903 is fastened on the rotating shaft 908, a second fastening hole 909 is arranged at the top end of the position adjusting plate 902, and the second fastening hole 909 is communicated with a hole for inserting the rotating shaft 908.

As shown in fig. 1 to 5, the nose bridge line feeding and cutting mechanism 4 includes a nose bridge line roller 401 rotatably mounted on the machine body 1 and a third support base 402 mounted on the machine body 1, the third support base 402 is provided with a mounting plate 403, and a height adjusting pad 404 is disposed between the mounting plate 403 and the third support base 402; a cutting backing plate 405 is arranged on the mounting plate 403, a pressing and conveying wheel 406 and a cutting and conveying wheel 407 which are driven by a power device are rotatably arranged on the mounting plate 403 at the position corresponding to the cutting backing plate 405, a cutter 408 is arranged on the cutting and conveying wheel 407, and the cutting and conveying wheel 407 and the pressing and conveying wheel 406 are arranged corresponding to the cutting backing plate 405 up and down; a restraint groove 409 is formed in the cutting and conveying base plate 405 at a position corresponding to the cutting and conveying wheel 407, a cushion block 411 is arranged in the restraint groove 409, a connecting element 410 is arranged between the cushion block 411 and the cutting and conveying base plate 405, the connecting element 410 is an inner hexagonal connecting bolt, the upper surface of the cushion block 411 and the upper surface of the cutting and conveying base plate 405 are arranged in a coplanar mode, and the top end of the connecting element 410 is not higher than the upper surface of the cushion block 411; in this embodiment, the power unit is a motor-driven belt drive mechanism that drives a plurality of axles for mounting the pinch rollers 406 and the cutting rollers 407, all of which are driven by meshing gears, one of the axles being driven by the belt drive. Still be equipped with on this bridge of the nose line material loading cuts mechanism 4 and carry out turn-ups's flange structure to gauze mask body raw materials, this flange structure is the conventional structure on the current gauze mask machine, so do not add here and give unnecessary details.

As shown in fig. 1 and fig. 6, a transition traction composite mechanism 11 is disposed between the mask body ultrasonic welding mechanism 5 and the cloth-type ear band raw material feeding and cutting mechanism 6, between the cloth-type ear band raw material feeding and cutting mechanism 6 and the ear band ultrasonic welding mechanism 7, and between the ear band waste piece collecting mechanism 9 and the finished product mask cutting mechanism 10, the transition traction composite mechanism 11 and the finished product mask cutting mechanism 10 both include a fourth supporting seat 1001, two roller bodies 1002 driven by a second driving device are rotatably mounted on the fourth supporting seat 1001, and a linear cutter (not shown in the figure) is disposed on one of the roller bodies 1002 of the finished product mask cutting mechanism 10; a guide roller 1003 is arranged between the distributed ear belt raw material feeding and cutting mechanism 6 and the downstream transition traction composite mechanism 11, the guide roller 1003 is rotatably installed on the machine body 1, in the scheme, the upper surface of the guide roller 1003 and the upper surface of the upper traction roller 603 are arranged in a coplanar manner, and the guide roller 1003 is higher than the traction position between two roller bodies 1002 on the downstream transition traction composite mechanism 11; the first driving device and the second driving device both comprise driving gears driven by motors, the driving gears are arranged on the driving rollers, the driving rollers are rotatably arranged on the first supporting seat 602 or the fourth supporting seat 1001, and one of the two traction rollers 603 or the two roller bodies 1002 is provided with a driven gear meshed with the driving gears.

As shown in fig. 1, the mask body raw material feeding mechanism 2 includes three material rollers rotatably mounted on the machine body 1, a non-woven fabric roller 201, a melt-blown fabric roller 202 and a non-woven fabric roller 203, which are sequentially arranged from top to bottom, wherein the machine body 1 at the downstream of each material roller corresponds to a material guiding roller 204, and the material guiding roller 204 is rotatably mounted on the machine body 1.

As shown in fig. 1, the raw material edge folding mechanism 3 of the mask body comprises a pre-edge folding mechanism and an edge folding mechanism, the pre-edge folding mechanism and the edge folding mechanism both comprise a fifth supporting seat 301, an edge folding structure is arranged on the fifth supporting seat 301, and the edge folding mechanism is the structure on the conventional mask machine, so that the description is omitted.

As shown in fig. 1 to fig. 3, a slide rail 101 is provided on the machine body 1, and the mask body material folding mechanism 3, the nose bridge line feeding and cutting mechanism 4, the mask body ultrasonic welding mechanism 5, the distributed ear band material feeding and cutting mechanism 6, the ear band ultrasonic welding mechanism 7, the finished mask cutting mechanism 10 and the transition traction composite mechanism 11 corresponding to the slide rail 101 are respectively provided with a slide 102 (precisely, the slide 102 is provided on the fifth support base 301, the third support base 402, the second support base 701, the first support base 602 and the fourth support base 1001), and correspondingly, each slide 102 is provided with a connecting hole fixedly connected with the machine body 1, so that a connecting piece passing through the connecting hole fixes each mechanism on the machine body 1.

For easy understanding, the working principle of the mask machine is as follows:

the non-woven fabric 205 on the non-woven fabric roller 201, the melt-blown fabric 206 on the melt-blown fabric roller 202 and the non-woven fabric 207 on the non-woven fabric roller 203 are synchronously conveyed, and are overlapped together in a laminating manner before entering the mask body raw material folding mechanism 3, then are folded by the nose bridge line feeding and cutting mechanism 4, and are wrapped with the cut nose bridge line 400, and then are welded by the mask body ultrasonic welding mechanism 5 to form the mask body 12, all the mask bodies 12 formed in the process are not cut, in the continuous conveying of the mask body 12 after passing the transition and traction composite mechanism 11, the ear band feeding auxiliary material 606 and the ear band raw material 604 are synchronously conveyed (the ear band feeding auxiliary material 606-PE film is better adhered with the ear band raw material 604 by using viscosity to be conductive to the reliable and effective conveying of the ear band raw material 604), and enter between two traction rollers 603 after passing through a transition roller 607, in the process of traction, the ear band raw material 604 is cut by an ear band forming and cutting die cutter on a traction roller 603 (certainly, a PE film is also cut), meanwhile, the waste 805 on one side of the cut ear band raw material 604 is collected by a first collecting roller 801, in the process of conveying, the ear band raw material 604 and the PE film which are combined together are converged and overlapped with the mask body 12, then the mask body 12 and the ear band raw material 604 and the PE film which are overlapped below are conveyed to a transition traction and combination mechanism 11 by a guide roller 1003, then the mask body 12, the ear band raw material 604 and the ear band feeding auxiliary material 606 which are overlapped together are dragged and combined by the transition traction and combination mechanism 11, then the ear band feeding auxiliary material 606 and the waste 806 on the other side are separated from the cut ear band raw material 604 by the guide plate 803, then the waste passes through a waste transition guide roller 804 and is collected by a second collecting roller 802, ear zone raw materials 604 and gauze mask body 12 that both sides do not have the waste material pass through the welding of ear zone ultrasonic bonding mechanism 7 and are in the same place, then continue to carry toward the downstream, collect the waste sheet 13 of shaping earhole when mechanism 9 is collected to ear zone waste sheet (cut the waste material 805 that ear zone raw materials 604 formed, waste material 806 and waste sheet 13 can refer to fig. 13), at this moment, ear zone 14 just appears, and form the laminating sealed limit at the end of ear zone 14 (with gauze mask body 12's welding department), pull drawing of combined mechanism 11 through the transition afterwards and carry toward old article gauze mask cutting mechanism 10 direction, later cut through finished product gauze mask cutting mechanism 10 and cut, namely: a unitary finished mask 15 is formed (see fig. 12).

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims (8)

1. A mask machine comprises a machine body, wherein a mask body raw material feeding mechanism is arranged at the initiating end of the machine body, and is characterized in that a mask body raw material edge folding mechanism is arranged on the machine body at the downstream of the mask body raw material edge folding mechanism, a nose bridge line feeding and cutting mechanism is arranged on the machine body at the downstream of the mask body raw material edge folding mechanism, a mask body ultrasonic welding mechanism is arranged on the machine body at the downstream of the nose bridge line feeding and cutting mechanism, a cloth type ear band raw material feeding and cutting mechanism and an ear band raw material waste edge collecting mechanism are arranged on the machine body at the downstream of the mask body ultrasonic welding mechanism, an ear band ultrasonic welding mechanism is arranged on the machine body at the downstream of the ear band raw material waste edge collecting mechanism, an ear band waste piece collecting mechanism is arranged on the machine body at the downstream of the ear band, a finished mask cutting mechanism is arranged on the machine body at the downstream of the ear belt waste piece collecting mechanism;

the cloth type ear belt raw material feeding and cutting mechanism comprises an ear belt raw material roller rotatably mounted on the machine body and a first supporting seat mounted on the machine body, two traction rollers are rotatably mounted on the first supporting seat, an ear belt forming and cutting die cutter is arranged on one of the traction rollers, and ear belt raw materials on the ear belt raw material roller pass through the two traction rollers and are conveyed towards the ear belt ultrasonic welding mechanism around the upper traction roller;

an ear belt feeding auxiliary material roller is arranged at the downstream of the ear belt raw material roller, and the winding route of the ear belt feeding auxiliary material on the ear belt feeding auxiliary material roller is consistent with that of the ear belt raw material; and a transition material roller is arranged at the downstream of the first supporting seat, and the ear belt feeding auxiliary material and the ear belt raw material pass through the transition material roller and then pass through the two traction rollers.

2. The mask machine according to claim 1, wherein the ear band raw material slitter edge collecting mechanism comprises a first collecting roller which is positioned at the upstream of the traction roller and is rotatably installed on the machine body, and further comprises a second collecting roller which is positioned at the downstream of the ear band feeding auxiliary material roller and is rotatably installed on the machine body, a material guide plate with a triangular structure is arranged on the machine body which corresponds to the second collecting roller and is positioned at the upstream of the ear band ultrasonic welding mechanism, and a waste material transition guide roller is rotatably installed on the machine body which is positioned below the material guide plate; the ear belt raw materials are collected by the first collecting roller through one side waste materials formed after the cloth-type ear belt raw material feeding and cutting mechanism cuts, and the other side waste materials are collected by the second collecting roller through the guide plate and the waste material transition guide roller.

3. The mask machine according to claim 2, wherein the mask body ultrasonic welding mechanism and the ear band ultrasonic welding mechanism each comprise a second support seat, a supporting roller is rotatably mounted on the second support seat, sliding grooves are formed in two ends of the second support seat above the supporting roller, adjusting blocks are slidably mounted in the sliding grooves, an adjusting plate is arranged on each adjusting block, an adjusting seat is arranged on each adjusting plate, an ultrasonic welding assembly is arranged on each adjusting seat, and a welding head on each ultrasonic welding assembly penetrates through each adjusting plate and extends towards the supporting roller;

grooves used for coating the second supporting seat are formed in the two sides of the adjusting block, a connecting long hole is formed in the adjusting block at the position corresponding to the grooves, and a connecting hole is formed in the second supporting seat at the position corresponding to the connecting long hole; keep away from regulating plate one end regulating block both sides all are equipped with the guide part that the slope set up.

4. The mask machine according to claim 3, wherein the adjustment base is provided with a lateral guide long hole, a guide pin is provided in the guide long hole, the guide pin is provided on the adjustment plate, and the adjustment bases at both ends of the guide long hole are provided with fixing connection long holes; the adjusting plate is provided with at least one limiting pin, and the limiting pin is arranged at one end of the adjusting seat.

5. The mask machine according to claim 4, wherein the ear belt waste piece collecting mechanism comprises at least two fixed guide shafts arranged on the second support base, a position adjusting plate is inserted on the fixed guide shafts, an angle adjusting plate is rotatably and adjustably arranged on the position adjusting plate, a venturi tube is fixedly arranged on the angle adjusting plate, a suction end of the venturi tube is provided with a bevel cutting part, and the bevel cutting part faces the ear belt raw material;

the two ends of the position adjusting plate are respectively provided with a first fastening hole, and the first fastening holes are communicated with guide holes inserted with the fixed guide shafts; the upper portion of the position adjusting plate is provided with a rotating shaft, the angle adjusting plate is fastened on the rotating shaft, a second fastening hole is formed in the top end of the position adjusting plate, and the second fastening hole is communicated with a hole in which the rotating shaft is inserted.

6. The mask machine according to any one of claims 1 to 5, wherein the nose bridge wire feeding and cutting mechanism comprises a nose bridge wire roller rotatably mounted on the machine body and a third support base mounted on the machine body, a mounting plate is arranged on the third support base, a cutting and feeding backing plate is arranged on the mounting plate, a pressure feed wheel and a cutting and feeding wheel driven by a power device are rotatably mounted on the mounting plate at a position corresponding to the cutting and feeding backing plate, a cutting knife is arranged on the cutting and feeding wheel, and the cutting and feeding wheel and the pressure feed wheel are arranged corresponding to the cutting and feeding backing plate up and down;

a restraint groove is formed in the cutting and conveying base plate at the position corresponding to the cutting and conveying wheel, a cushion block is arranged in the restraint groove, a connecting element is arranged between the cushion block and the cutting and conveying base plate, and the upper surface of the cushion block and the upper surface of the cutting and conveying base plate are arranged in a coplanar manner;

and a height adjusting base plate is arranged between the third supporting seat and the mounting plate.

7. The mask machine according to claim 6, wherein transition traction composite mechanisms are respectively arranged between the mask body ultrasonic welding mechanism and the cloth type ear band raw material feeding and cutting mechanism, between the cloth type ear band raw material feeding and cutting mechanism and the ear band ultrasonic welding mechanism, and between the ear band waste collection mechanism and the finished mask cutting mechanism, the transition traction composite mechanisms and the finished mask cutting mechanism respectively comprise a fourth supporting seat, two roller bodies are rotatably mounted on the fourth supporting seat, and a cutter is arranged on one of the roller bodies of the finished mask cutting mechanism;

cloth formula ear area raw materials material loading cuts mechanism and low reaches transition is pull and is equipped with the deflector roll between the combined mechanism, the deflector roll rotate install in on the organism.

8. The mask machine according to claim 7, wherein a slide rail is provided on the machine body, and a slide seat is provided on the mask body material folding mechanism, the nose bridge line feeding and cutting mechanism, the mask body ultrasonic welding mechanism, the cloth type ear band material feeding and cutting mechanism, the ear band ultrasonic welding mechanism, the finished mask cutting mechanism and the transition traction composite mechanism corresponding to the slide rail.

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