CN114523680B

CN114523680B - Mask machine for efficient production and manufacturing method thereof

Info

Publication number: CN114523680B
Application number: CN202210026034.2A
Authority: CN
Inventors: 周俊杰; 周功兵; 彭万江
Original assignee: Hubei Gongbing Medical Equipment Co ltd
Current assignee: Hubei Gongbing Medical Equipment Co ltd
Priority date: 2022-01-11
Filing date: 2022-01-11
Publication date: 2024-04-12
Anticipated expiration: 2042-01-11
Also published as: CN114523680A

Abstract

The application discloses mask machine for high-efficient production, it includes blowing device, forming device, cutting device, conveyor and ear area welding set, cutting device with be provided with diverging device and pusher between the conveyor, conveyor is two, ear area welding set is two, every conveyor connects one ear area welding set; the pushing device is arranged on one side close to the cutting device, the mask cut by the cutting device is conveyed to the pushing device, and the pushing device pushes the mask to the two conveying devices. This application has the effect that improves gauze mask production efficiency.

Description

Mask machine for efficient production and manufacturing method thereof

Technical Field

The invention relates to the field of mask machines, in particular to a mask machine for efficient production.

Background

The mask machine, as the name implies, is a device specially used for producing masks, and mainly comprises a discharging device, a forming device, a cutting device, a conveying device and an ear belt welding device.

The inner layer non-woven fabrics coil stock, outer non-woven fabrics coil stock, melt-blown cloth coil stock and nose line coil stock are placed on the blowing machine, when the mask machine produces the gauze mask, inner layer non-woven fabrics, outer non-woven fabrics, melt-blown cloth and nose line carry to forming device simultaneously, forming device leads the nose line straight, cuts off to wear the nose line between outer non-woven fabrics and the melt-blown cloth, then forming device carries out vertical butt fusion, pre-folding, folding design, horizontal butt fusion, cutting with inner layer non-woven fabrics, outer non-woven fabrics, melt-blown cloth, the gauze mask of cutting the piece carries out the ear area installation through conveyor transportation to ear area welding device.

Although the mask machine can continuously produce masks, the working efficiency of the cutting device is often larger than that of the ear strap welding device, so that the ear strap welding device can influence the overall production efficiency of the equipment.

Disclosure of Invention

In order to improve the production efficiency of mask machine, this application provides a high-efficient production is with mask machine.

The mask machine for high-efficiency production adopts the following technical scheme:

the mask machine for efficient production comprises a discharging device, a forming device, a cutting device, a conveying device and an ear belt welding device, wherein a flow dividing device and a pushing device are arranged between the cutting device and the conveying device, the number of the conveying devices is two, the number of the ear belt welding devices is two, and each conveying device is connected with one ear belt welding device; the pushing device is arranged on one side close to the cutting device, the cutting device cuts off the mask and then conveys the mask to the pushing device, and the pushing device pushes the mask to the two conveying devices.

By adopting the technical scheme, the raw materials support the mask through the forming device and the cutting device, the mask is respectively transported to two different conveying devices under the action of the dividing device and the pushing device, and the conveying devices transport the mask to the ear belt welding device for welding; the mask machine can realize synchronous work of the two ear strap welding devices, thereby improving the production efficiency of the mask.

Optionally, the shunt device comprises a support plate, a swinging plate and a driving part;

the swing plate is horizontally arranged on the support plate, the mask cut off by the cutting device is transported to the swing plate, the driving part is arranged on the support plate and used for driving the swing plate to swing, the two conveying devices are positioned on two sides of the swing plate, two limit positions exist on the swing plate, the swing plate is in an inclined state when positioned at the limit positions, the swing plate is under the action of the driving part and reciprocates between the two limit positions, and when the swing plate is positioned at two different limit positions, the mask is conveyed to the two conveying devices respectively.

Through adopting above-mentioned technical scheme, drive unit drives the swing board motion, when the swing board is in different extreme positions, on the swing board was drained the gauze mask to different conveyor, through setting up diverging device for two ear area welding set production gauze masks simultaneously, thereby improved the production efficiency of gauze mask.

Optionally, the driving component comprises a supporting seat, a linear motor and a driving rod group;

the support seats are semicircular and four, the four support seats are arranged on the support plate and are symmetrically distributed along the swinging direction of the swinging plate, support shafts matched with the support seats are arranged on the swinging plate, the linear motor is arranged on the support plate, guide rails of the linear motor are distributed along the swinging direction of the swinging plate, and the driving rod group is connected between the linear motor and the swinging plate;

when the linear motor reciprocates and moves to the limit position, the swing plate is in the limit position, one of the support shafts on the swing plate is supported in the support seat, the other support shaft is separated from the support seat, the swing plate is in an inclined state, and the mask slides from the swing plate to the pushing device.

Through adopting above-mentioned technical scheme, start linear electric motor, drive the swing board and swing in linear electric motor motion, when the swing board is in the incline state, the gauze mask is from the landing on the swing board to pusher, and this in-process has realized the reposition of redundant personnel of gauze mask through utilizing swing board swing back and forth's characteristics, and linear electric motor response speed is fast can start fast, and the speed can be adjusted in order to adapt to the production speed of production line.

Optionally, the driving rod group includes slide bar and dwang, the dwang rotates to be installed on linear electric motor's active cell seat, the slide bar is installed on the swinging plate, the slide bar with sliding connection between the dwang.

Through adopting above-mentioned technical scheme, when linear electric motor moved, dwang and linear electric motor took place relative rotation, and take place relative slip between dwang and the slide bar, dwang drive swing board swing simultaneously to let the gauze mask landing to pusher on the swing board.

Optionally, pusher includes brace table, push rod and power component, the brace table is installed conveyor is close to one side of cutting device, the push rod is two, and slidable mounting is in on the brace table, be provided with two blanking platforms that are used for bearing gauze mask on the brace table, every blanking platform with every conveyor links to each other, power component installs on the brace table, and is used for the drive the push rod will fall in gauze mask on the blanking platform is pushed to conveyor.

Through adopting above-mentioned technical scheme, the gauze mask can slide to the blanking bench after diverging device, owing to one side of blanking bench is provided with the push rod, and the gauze mask is pushed to conveyor from the blanking bench under the push rod effect, and pusher has played the effect of buffering, owing to conveyor is in the rotation of not shutting down, when the gauze mask falls into conveyor, the gauze mask position can take place the skew to influence the processing of gauze mask, so the gauze mask falls to stationary blanking bench earlier, then is sent to conveyor by the push rod, and this process can make the difficult skew of gauze mask.

Optionally, the power part includes driving motor and four pole groups, driving motor installs on the brace table, four pole groups connect driving motor with between the push rod, under four pole groups effect, driving motor drive two the push rod makes the alternate slip.

Through adopting above-mentioned technical scheme, driving motor's power passes through four pole groups and transmits to two push rods, can realize the alternate motion of two push rods through adopting a driving motor to reduce driving motor's use, practiced thrift the space, reached the purpose of saving the cost.

Optionally, four pole group includes crank, connecting rod and rocker, the crank one end with driving motor output shaft links to each other, the other end with the one end of connecting rod is articulated, the connecting rod keep away from the crank one end with the rocker is articulated, the center rotation of rocker is connected on the brace table, two slot holes that set up along self length direction have been seted up on the rocker, two the slot hole is with rocker central symmetry, every be provided with the spliced pole on the push rod, spliced pole sliding connection is in the slot hole.

Through adopting above-mentioned technical scheme, can drive the connecting rod when the crank rotates, the connecting rod drives the rocker and takes place to rotate relative brace table, drives two push rods motion simultaneously when the rocker rotates to make two push rods take place the alternate motion.

Optionally, a needle roller is arranged on the contact surface of the swing plate and the mask.

Through adopting above-mentioned technical scheme, be provided with the kingpin on the swing board, when the swing board takes place to incline, the gauze mask slides to blanking bench from the swing board, and gauze mask landing in-process kingpin plays the effect that reduces friction for the gauze mask can slide to blanking bench fast.

Optionally, a baffle is disposed on the swing plate, and the baffle is disposed on a side far away from the cutting device, and is used for limiting the position of the mask.

Through adopting above-mentioned technical scheme, when the mask falls into the swinging plate from cutting device, the baffle plays limiting displacement to the mask to make in-process that falls be difficult for breaking away from the swinging plate.

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

1. the cut mask falls onto the swing plate, and at the moment, the swing plate swings under the action of the driving part, so that the mask slides onto the blanking table from the swing plate, and then the mask is sent onto the conveying device by the pushing device, so that the mask can be produced simultaneously by two production lines;

2. the swing plate is driven by the linear motor to incline, so that the mask directly slides onto the blanking table from the swing plate, and the mask can be quickly conveyed to the conveying device in the process;

3. through setting up four pole groups and driving two push rods and taking place alternate motion, not only realized the purpose of propelling movement gauze mask, thereby also reduced driving motor's use quantity and reduced the cost.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a schematic diagram of the structure of the shunt device.

Fig. 3 is a schematic structural view of the pushing device.

Reference numerals: 1. a discharging device; 2. a molding device; 3. a cutting device; 4. a conveying device; 5. ear strap welding device; 6. a shunt device; 61. a support plate; 62. a swinging plate; 621. needle roller; 622. a baffle; 63. a support base; 631. a groove; 64. a linear motor; 65. a slide bar; 651. a chute; 66. a rotating lever; 7. a pushing device; 71. a support table; 711. a long groove; 72. a push rod; 721. a connecting column; 73. a driving motor; 74. a crank; 75. a connecting rod; 76. a rocker; 761. a long hole; 8. a blanking table; 9. a support shaft; 91. a first support shaft; 92. and a second support shaft.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

The embodiment of the application discloses a mask machine for efficient production. Referring to fig. 1, the mask machine for high-efficiency production comprises a discharging device 1, a forming device 2, a cutting device 3, a dividing device 6, a pushing device 7, a conveying device 4 and an ear strap welding device 5; the discharging device 1 is mainly used for placing raw material coiled materials, and comprises an inner layer non-woven fabric coiled material, a melt-blown cloth coiled material, an outer layer non-woven fabric coiled material and a nose line coiled material, wherein the inner layer non-woven fabric, the melt-blown cloth, the outer layer non-woven fabric and the nose line are simultaneously pulled into the forming device 2, the forming device 2 carries out longitudinal welding, pre-folding, folding forming and transverse welding on raw materials, then the cutting device 3 cuts off and forms a single mask body, at the moment, the cut mask falls into the splitting device 6, one side of the splitting device 6 is simultaneously connected with the two conveying devices 4, the mask slides from the splitting device 6 and is conveyed onto the two conveying devices 4 under the action of the pushing device 7, and therefore the two ear strap welding devices 5 work simultaneously.

As shown in fig. 1 and 2, the shunt device 6 includes a support plate 61, a swinging plate 62 and a driving component, the driving component includes a support seat 63, a linear motor 64 and a driving rod group, the swinging plate 62 is rectangular plate-shaped, two ends of the swinging plate 62 along the length direction are respectively provided with a support shaft 9, the axis of the support shaft 9 is arranged along the width direction of the swinging plate 62, a needle 621 is arranged on the surface of the swinging plate 62 contacted with the mask, the needle 621 is beneficial to the mask to slide down from the swinging plate 62, thereby being beneficial to improving the production efficiency, a baffle 622 is integrally formed on the swinging plate 62, the baffle 622 is positioned at one end of the swinging plate 62 far away from the cutting device 3, and after the mask slides down from the cutting device 3, the baffle 622 can make the mask not slide down from the swinging plate 62 to the ground easily.

The number of the supporting seats 63 is four, the four supporting seats 63 are symmetrically arranged on the supporting plate 61 along the length direction of the swinging plate 62, semicircular grooves 631 are formed in the top surface of the supporting seat 63, the swinging plate 62 is arranged on the supporting seat 63, the supporting shaft 9 is correspondingly arranged in the grooves 631, and at the moment, the swinging plate 62 is in a horizontal state;

the driving rod group comprises a rotating rod 66 and a sliding rod 65, a guide rail of the linear motor 64 is horizontally arranged on the support plate 61, the rotating rod 66 is rotatably arranged on a rotor seat of the linear motor 64, the sliding rod 65 is vertically fixed at one end of the swinging plate 62 far away from the cutting device 3, a sliding groove 651 is formed in the rotating rod 66, the sliding rod 65 is slidably connected in the sliding groove 651, when the linear motor 64 reciprocates, the rotating rod 66 rotates relative to the linear motor 64, meanwhile, relative sliding occurs between the rotating rod 66 and the sliding rod 65, two support shafts 9 are divided into a first support shaft 91 and a second support shaft 92 for convenience of description, at the moment, the first support shaft 91 on the swinging plate 62 is positioned in the sliding groove 651, the second support shaft 92 is separated from the sliding groove 651, and the swinging plate 62 takes the first support shaft 91 as a rotation center and inclines; when the second support shaft 92 is located in the sliding groove 651, the first support shaft 91 is separated from the sliding groove 651, the swing plate 62 is inclined with the first support shaft 91 as a rotation center, and when the swing plate 62 is inclined, the mask is separated from the swing plate 62.

As shown in fig. 1 and 3, the pushing device 7 includes a supporting table 71, push rods 72 and a power component, the supporting table 71 is disposed on one side close to the cutting device 3, the push rods 72 are rectangular, the number of the push rods 72 is two, long grooves 711 for sliding the two push rods 72 are disposed on the supporting table 71, two rectangular blanking tables 8 are disposed on one side of the supporting table 71, the two blanking tables 8 are arranged along the swinging direction of the swinging plate 62, when the swinging plate 62 is located at two limit positions, the mask slides from the swinging plate 62 onto different blanking tables 8, when the push rods 72 slide in the long grooves 711, the mask on the blanking tables 8 is pushed to the conveying device 4, and at this time, the mask is conveyed to the ear strap welding device 5 by the conveying device 4 for ear strap installation. The pushing device 7 plays a role in buffering, because the conveying device 4 rotates without stopping, when the mask falls onto the conveying device 4, the mask can be subjected to horizontal force generated by the conveying device 4, and the mask position is deflected at the moment so as to influence the processing of the mask, so that the mask falls onto the stationary blanking table 8 firstly and then is conveyed to the conveying device 4 by the push rod 72, and the mask is not easy to deflect in the process.

The power component is used for driving the push rod 72 to move alternately, the power component comprises a driving motor 73 and a four-bar rod group, the four-bar rod group comprises a crank 74, a connecting rod 75 and a rocker 76, one end of the crank 74 is connected with an output shaft of the driving motor 73, the other end of the crank 74 is hinged with one end of the connecting rod 75, the other end of the connecting rod 75 is hinged with the rocker 76, the center of the rocker 76 is hinged on the supporting table 71, two long holes 761 distributed along the length direction of the rocker 76 are formed in the rocker 76, the two long holes 761 are symmetrically arranged with respect to the center of the rocker 76, a connecting column 721 is integrally formed on each push rod 72, the connecting column 721 is inserted into the long holes 761, a nut is connected onto the connecting column 721, and the connecting column 721 is not easy to separate from the long holes 761 under the action of the nut; when the driving motor 73 rotates, the driving motor 73 drives the crank 74 to rotate, the crank 74 drives the rocker 76 to rotate through the connecting rod 75, at this time, the connecting rod 721 slides in the long hole 761, and the rocker 76 drives the two push rods 72 to alternately move.

The embodiment discloses a processing method for processing a mask by using the mask machine, which comprises the following specific steps:

s1, placing an inner-layer non-woven fabric coil, an outer-layer non-woven fabric coil and a melt-blown fabric coil on a discharging device 1;

s2, penetrating a nose line between the outer layer non-woven fabric and the melt-blown fabric by the forming device 2, longitudinally welding the inner layer non-woven fabric, the outer layer non-woven fabric and the melt-blown fabric together, and then folding and transversely welding the mouth mask;

s3, cutting off the molded mask by a cutting-off device 3;

s4, the split device 6 conveys the cut mask to the pushing device 7, the pushing device 7 pushes the mask to the two conveying devices 4, and the two ear strap welding devices 5 simultaneously work to weld the ear strap on the mask.

The implementation principle of the mask machine for efficient production of the embodiment of the application is as follows: when the mask slides to the swinging plate 62, the baffle 622 positions the mask, at this time, the linear motor 64 horizontally moves and drives the swinging plate 62 to incline through the rotating rod 66 and the sliding rod 65, at this time, the mask slides from the swinging plate 62 to the blanking table 8, then the driving motor 73 rotates and drives the push rod 72 to move through the crank 74, the connecting rod 75 and the rocker 76, the push rod 72 pushes the mask to the conveying device 4, and at this time, the conveying device 4 conveys the mask to the ear strap welding device 5 for ear strap welding.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. The utility model provides a mask machine is used in high-efficient production, includes blowing device (1), forming device (2), cutting device (3), conveyor (4) and ear area welding set (5), its characterized in that: a shunt device (6) and a pushing device (7) are arranged between the cutting device (3) and the conveying device (4), two conveying devices (4) are arranged, two ear strap welding devices (5) are arranged, and each conveying device (4) is connected with one ear strap welding device (5); the pushing device (7) is arranged on one side close to the cutting device (3), the cutting device (3) cuts off the mask and then conveys the mask to the pushing device (7), and the pushing device (7) pushes the mask to the two conveying devices (4);

the flow dividing device (6) comprises a support plate (61), a swinging plate (62) and a driving part;

the swing plate (62) is horizontally arranged on the support plate (61), the mask cut by the cutting device (3) is transported to the swing plate (62), the driving component is arranged on the support plate (61) and is used for driving the swing plate (62) to swing, the two conveying devices (4) are positioned on two sides of the swing plate (62), the swing plate (62) has two limit positions, the swing plate (62) is in an inclined state when being positioned at the limit positions, the swing plate (62) reciprocates between the two limit positions under the action of the driving component, and the mask is respectively transported to the two conveying devices (4) when the swing plate (62) is positioned at the two different limit positions;

the driving part comprises a supporting seat (63), a linear motor (64) and a driving rod group;

the support seats (63) are semicircular and four, the four support seats (63) are arranged on the support plate (61), the four support seats (63) are symmetrically arranged along the swinging direction of the swinging plate (62), the swinging plate (62) is provided with a support shaft (9) matched with the support seats (63), the linear motor (64) is arranged on the support plate (61), the guide rail of the linear motor (64) is arranged along the swinging direction of the swinging plate (62), and the driving rod group is connected between the linear motor (64) and the swinging plate (62);

when the linear motor (64) reciprocates and moves to a limit position, the swing plate (62) is in the limit position, one of the support shafts (9) on the swing plate (62) is supported in the support seat (63), the other support shaft (9) is separated from the support seat (63), the swing plate (62) is in an inclined state, and the mask slides from the swing plate (62) to the pushing device (7);

push device (7) are including supporting bench (71), push rod (72) and power component, supporting bench (71) are installed conveyor (4) are close to one side of cutting device (3), push rod (72) are two, and slidable mounting is in on supporting bench (71), be provided with two blanking platforms (8) that are used for bearing gauze mask on supporting bench (71), every blanking platform (8) with every conveyor (4) link to each other, power component installs on supporting bench (71), and be used for the drive push rod (72) will fall gauze mask on blanking platform (8) is pushed to conveyor (4).

2. The mask machine for efficient production according to claim 1, wherein: the driving rod group comprises a sliding rod (65) and a rotating rod (66), the rotating rod (66) is rotatably arranged on a rotor seat of the linear motor (64), the sliding rod (65) is arranged on the swinging plate (62), and the sliding rod (65) is in sliding connection with the rotating rod (66).

3. The mask machine for efficient production according to claim 1, wherein: the power component comprises a driving motor (73) and four-bar groups, the driving motor (73) is installed on the supporting table (71), the four-bar groups are connected between the driving motor (73) and the push rods (72), and under the action of the four-bar groups, the driving motor (73) drives the two push rods (72) to alternately slide.

4. A high-efficiency production mask machine according to claim 3, wherein: the four-bar linkage comprises a crank (74), a connecting rod (75) and a rocker (76), one end of the crank (74) is connected with an output shaft of a driving motor (73), the other end of the crank is hinged with one end of the connecting rod (75), one end of the connecting rod (75) away from the crank (74) is hinged with the rocker (76), the center of the rocker (76) is rotationally connected onto a supporting table (71), two long holes (761) which are arranged along the length direction of the rocker (76) are formed in the rocker, the two long holes (761) are symmetrical with respect to the center of the rocker (76), a connecting column (721) is arranged on each push rod (72), and the connecting column (721) is slidably connected into the long holes (761).

5. The mask machine for efficient production according to claim 1, wherein: the surface of the swing plate (62) contacted with the mask is provided with a needle roller (621).

6. The mask machine for efficient production according to claim 5, wherein: the swing plate (62) is provided with a baffle plate (622), and the baffle plate (622) is arranged on one side far away from the cutting device (3) and used for limiting the position of the mask.

7. A method for manufacturing a mask using the mask for efficient production according to claim 1, characterized in that: the specific processing steps are as follows: s1, placing an inner layer non-woven fabric coil stock, an outer layer non-woven fabric coil stock, a melt-blown cloth coil stock and a nose line coil stock on a discharging device (1);

s2, penetrating a nose line between the outer layer non-woven fabric and the melt-blown fabric by the forming device (2), longitudinally welding the inner layer non-woven fabric, the outer layer non-woven fabric and the melt-blown fabric together, and then folding and transversely welding the mask;

s3, cutting off the molded mask by a cutting-off device (3);

s4, conveying the cut mask to a pushing device (7) by a dividing device (6), pushing the mask to two conveying devices (4) by the pushing device (7), and simultaneously working by two ear strap welding devices (5) to weld the ear strap on the mask.