CN212266730U - Improved multi-process mask processing device - Google Patents

Abstract

The utility model relates to the technical field of mask manufacturing, in particular to an improved multi-process mask processing device, which comprises a machine body and a vertical plate, wherein the machine body is sequentially and vertically provided with a first pressing component, a tensioning component, an ultrasonic welding edge sealing component, a second pressing component, a finished product cutting component, an output component and a vertical plate; the ultrasonic welding edge sealing assembly comprises an ultrasonic welding edge sealing mounting seat, a first welding edge sealing block and a second welding edge sealing block, and the ultrasonic welding edge sealing mounting seat is provided with a first air cylinder and a second air cylinder; the frame is equipped with screw rod, position adjustment piece and first motor, and ultrasonic bonding banding mount pad is equipped with the slider, and the frame is equipped with the slide rail. The utility model discloses realize full flow automatic production, need not artifical the transfer, raise the efficiency, through screw rod, position adjustment piece and first motor, realize the position adjustment of ultrasonic bonding banding subassembly, adapt to different production demands, make things convenient for the timing for the production progress.

Description

Improved multi-process mask processing device

Technical Field

The utility model belongs to the technical field of the technique of gauze mask manufacturing and specifically relates to indicate a modified multiple operation gauze mask processingequipment.

Background

Common masks such as KN95 masks need to involve processes such as welding banding, die-cut shaping and output when producing, and common mode is that the above-mentioned process is accomplished to each corresponding processing equipment with the gauze mask through the operation personnel in proper order, but such mode is inefficient, and during a plurality of process transfer periods, the process that the gauze mask surface fabric still need carry out a lot of to compress tightly, and common mode is that the manual work is flattened and is shifted again, and such mode is time-consuming and laborious. The position that current welding banding equipment was installed is fixed, can't adjust according to actual production demand, can't carry out the timing in process of production, influences the production progress.

Disclosure of Invention

The utility model discloses problem to prior art provides a modified multiple operation gauze mask processingequipment.

In order to solve the technical problem, the utility model discloses a following technical scheme: an improved multi-process mask processing device comprises a machine body, wherein a first pressing component, a tensioning component, an ultrasonic welding edge sealing component, a second pressing component, a finished product cutting component, an output component and a vertical plate are sequentially and vertically arranged on the machine body, and the vertical plate sequentially penetrates through the first pressing component, the tensioning component, the ultrasonic welding edge sealing component, the second pressing component, the finished product cutting component and the output component; the ultrasonic welding edge sealing assembly comprises an ultrasonic welding edge sealing mounting seat, a first welding edge sealing block and a second welding edge sealing block, wherein the ultrasonic welding edge sealing mounting seat is provided with a first air cylinder for driving the first welding edge sealing block to be in sliding connection and a second air cylinder for driving the second welding edge sealing block to be in sliding connection; the frame is equipped with the screw rod, is used for driving the position adjustment piece that ultrasonic welding banding mount pad removed and is used for driving screw rod pivoted first motor, and the position adjustment piece is fixed in one side of ultrasonic welding banding mount pad, and position adjustment piece and screw rod sliding connection, the bottom of the opposite side of ultrasonic welding banding mount pad is equipped with the slider, and the frame is equipped with the slide rail that is used for slider sliding connection.

Furthermore, the first compressing assembly is provided with a first compressing mounting seat, a first compression roller, a second compression roller, a first pre-compressing roller and a second pre-compressing roller, the first compression roller and the second compression roller are rotatably connected to the first compressing mounting seat, the first compression roller and the second compression roller are arranged at intervals, the first compressing mounting seat is provided with a first upper slide rail and a first lower slide rail, two ends of the first pre-compressing roller are respectively in sliding connection with the first upper slide rail and the first lower slide rail, and two ends of the second pre-compressing roller are respectively in sliding connection with the first upper slide rail and the first lower slide rail.

Furthermore, the second pressing assembly is provided with a second pressing mounting seat, a third pressing roller, a fourth pressing roller, a third pressing roller and a fourth pressing roller, the third pressing roller and the fourth pressing roller are rotatably connected to the second pressing mounting seat, the third pressing roller and the fourth pressing roller are arranged at intervals, the second pressing mounting seat is provided with a second upper sliding rail and a second lower sliding rail, two ends of the third pressing roller are respectively in sliding connection with the second upper sliding rail and the second lower sliding rail, and two ends of the fourth pressing roller are respectively in sliding connection with the second upper sliding rail and the second lower sliding rail.

Furthermore, taut subassembly includes taut mount pad, first left deflector roll, first right deflector roll, the right deflector roll of second, and first right deflector roll and the right deflector roll interval of second are installed in taut mount pad, and first left deflector roll sets up between the right deflector roll of first right deflector roll and second, and taut mount pad is equipped with first slide bar and second slide bar, the both sides of first left deflector roll all with first slide bar and second slide bar sliding connection.

Further, finished product cutting assembly includes cutting mount pad, first cutting gyro wheel, second cutting gyro wheel, left clamp plate and right clamp plate, is equipped with the clearance between first cutting gyro wheel and the second cutting gyro wheel, and left clamp plate and right clamp plate interval set up in one side in clearance.

Furthermore, the one end that the clearance was kept away from to left clamp plate extends and has left extension board, and the one end that the clearance was kept away from to right clamp plate extends and has right extension board.

Furthermore, one side of the output assembly is provided with a waste collecting assembly.

The utility model has the advantages that: the utility model discloses realize the full flow automatic production of welding banding process, finished product cutting process and output process, need not artifical the transfer, raise the efficiency, compress tightly the process through first compressing assembly before transferring to welding banding process, compress tightly the process through the second compressing assembly before transferring to finished product cutting process, guarantee the roughness of gauze mask surface fabric, avoid appearing the condition of card material; through screw rod, position adjustment piece and first motor, realize the position adjustment of ultrasonic bonding banding subassembly, adapt to different production demands, make things convenient for the timing for the production progress.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Figure 2 is the utility model discloses an ultrasonic bonding banding subassembly's schematic structure.

Fig. 3 is a schematic structural diagram of the first compressing assembly of the present invention.

Fig. 4 is a schematic structural diagram of the second pressing component of the present invention.

Fig. 5 is a schematic structural view of the tension assembly of the present invention.

Fig. 6 is a schematic structural view of the finished product cutting assembly of the present invention.

Reference numerals: 1. a body; 2. a first hold-down assembly; 3. a tension assembly; 4. ultrasonically welding the edge sealing component; 5. a second hold-down assembly; 6. a finished product cutting assembly; 7. an output component; 8. a vertical plate; 9. ultrasonically welding the edge sealing mounting seat; 10. a first welding edge sealing block; 11. a second welding edge sealing block; 12. a first cylinder; 13. a second cylinder; 14. a screw; 15. a position adjusting block; 16. a first motor; 17. a slider; 18. a slide rail; 19. a first compression mounting seat; 20. a first press roll; 21. a second press roll; 22. a first pre-press roll; 23. a second pre-press roll; 24. a first upper slide rail; 25. a first lower slide rail; 26. a second pressing mounting seat; 27. a third press roll; 28. a fourth press roll; 29. a third pre-press roll; 30. a fourth pre-press roll; 31. a second upper slide rail; 32. a second lower slide rail; 33. tensioning the mounting seat; 34. a first left guide roller; 35. a first right guide roller; 36. a second right guide roller; 37. a first slide bar; 38. a second slide bar; 39. cutting the mounting seat; 40. a first cutting roller; 41. a second cutting roller; 42. a left press plate; 43. a right pressure plate; 44. a left extension plate; 45. a right extension plate.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention. The present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 6, an improved multi-process mask processing device includes a machine body 1, the machine body 1 is sequentially and vertically provided with a first pressing component 2, a tensioning component 3, an ultrasonic welding edge sealing component 4, a second pressing component 5, a finished product cutting component 6, an output component 7 and a vertical plate 8, and the vertical plate 8 sequentially passes through the first pressing component 2, the tensioning component 3, the ultrasonic welding edge sealing component 4, the second pressing component 5, the finished product cutting component 6 and the output component 7;

the ultrasonic welding edge sealing assembly 4 comprises an ultrasonic welding edge sealing mounting seat 9, a first welding edge sealing block 10 and a second welding edge sealing block 11, wherein the ultrasonic welding edge sealing mounting seat 9 is provided with a first air cylinder 12 used for driving the first welding edge sealing block 10 to be in sliding connection and a second air cylinder 13 used for driving the second welding edge sealing block 11 to be in sliding connection;

the frame is equipped with screw rod 14, the position adjustment piece 15 that is used for driving ultrasonic bonding banding mount pad 9 to remove and is used for driving screw rod 14 pivoted first motor 16, and position adjustment piece 15 is fixed in one side of ultrasonic bonding banding mount pad 9, and position adjustment piece 15 and screw rod 14 sliding connection, the bottom of the opposite side of ultrasonic bonding banding mount pad 9 is equipped with slider 17, and the frame is equipped with the slide rail 18 that is used for slider 17 sliding connection.

The utility model discloses realize the full flow automatic production of welding banding process, finished product cutting process and output process, need not artifical the transfer, raise the efficiency, compress tightly the process through first compressing assembly 2 and second compressing assembly 5 before transferring to welding banding process and finished product cutting process, guarantee the roughness of gauze mask surface fabric, avoid appearing the condition of card material; through screw rod 14, position adjustment block 15 and first motor 16, realize the position control of ultrasonic bonding banding subassembly 4, adapt to different production demands, make things convenient for the timing for the production progress.

Through compressing tightly first subassembly 2, taut subassembly 3, ultrasonic bonding banding subassembly 4, second and compressing tightly subassembly 5, finished product cutting subassembly 6, output assembly 7 and erect the setting, realize carrying out the process of welding banding and cutting simultaneously to the both sides of gauze mask, improve machining efficiency, play the effect of supplementary gauze mask surface fabric conveying of standing through upright board 8. The vertical plate 8 penetrates through the ultrasonic welding edge sealing mounting seat 9, and the first welding edge sealing block 10 and the second welding edge sealing block 11 are respectively arranged on two sides of the vertical plate 8.

As shown in fig. 3, in this embodiment, the first pressing assembly 2 is provided with a first pressing mounting base 19, a first pressing roller 20, a second pressing roller 21, a first pre-pressing roller 22, and a second pre-pressing roller 23, the first pressing roller 20 and the second pressing roller 21 are rotatably connected to the first pressing mounting base 19, the first pressing roller 20 and the second pressing roller 21 are arranged at an interval, the first pressing mounting base 19 is provided with a first upper slide rail 24 and a first lower slide rail 25, two ends of the first pre-pressing roller 22 are respectively slidably connected to the first upper slide rail 24 and the first lower slide rail 25, and two ends of the second pre-pressing roller 23 are respectively slidably connected to the first upper slide rail 24 and the first lower slide rail 25. Specifically, the effect of once compressing tightly is played to the gauze mask face material through first compression roller 20 and second compression roller 21, guarantees the roughness of gauze mask, makes things convenient for follow-up processing. The first prepressing roller 22 and the second prepressing roller 23 play a prepressing role, and the relative angle between the first prepressing roller 22 and the second prepressing roller 23 can be correspondingly adjusted by arranging the first upper slide rail 24 and the first lower slide rail 25, so that the adjustment can be carried out according to the actual production requirement, and the debugging is convenient. Specifically, the standing plate 8 passes through between the first pressing roller 20 and the second pressing roller 21.

As shown in fig. 4, in this embodiment, the second pressing assembly 5 is provided with a second pressing mounting seat 26, a third pressing roller 27, a fourth pressing roller 28, a third pre-pressing roller 29, and a fourth pre-pressing roller 30, the third pressing roller 27 and the fourth pressing roller 28 are rotatably connected to the second pressing mounting seat 26, the third pressing roller 27 and the fourth pressing roller 28 are arranged at an interval, the second pressing mounting seat 26 is provided with a second upper slide rail 31 and a second lower slide rail 32, two ends of the third pre-pressing roller 29 are respectively slidably connected with the second upper slide rail 31 and the second lower slide rail 32, and two ends of the fourth pre-pressing roller 30 are respectively slidably connected with the second upper slide rail 31 and the second lower slide rail 32. Specifically, the effect of secondary compaction is played to the mask surface material through the third compression roller 27 and the fourth compression roller 28, the flatness of the mask after edge sealing is guaranteed, and subsequent processing is facilitated. The third prepressing roll 29 and the fourth prepressing roll 30 play a prepressing role, and the relative angle between the third prepressing roll 29 and the fourth prepressing roll 30 can be correspondingly adjusted by arranging the second upper slide rail 31 and the second lower slide rail 32, so that the adjustment can be performed according to actual production requirements, and the debugging is convenient. Specifically, the standing plate 8 passes between the third pressing roller 27 and the fourth pressing roller 28.

As shown in fig. 5, in the present embodiment, the tensioning assembly 3 includes a tensioning mounting base 33, a first left guide roller 34, a first right guide roller 35, and a second right guide roller 36, the first right guide roller 35 and the second right guide roller 36 are mounted at intervals on the tensioning mounting base 33, the first left guide roller 34 is disposed between the first right guide roller 35 and the second right guide roller 36, the tensioning mounting base 33 is provided with a first sliding rod 37 and a second sliding rod 38, and both sides of the first left guide roller 34 are slidably connected to the first sliding rod 37 and the second sliding rod 38. The tensioning component 3 is arranged to ensure the tensioning degree of the conveyed fabric, so that the fabric is prevented from wrinkling due to looseness. The first left guide roller 34 is position-adjusted by providing a first slide bar 37 and a second slide bar 38.

As shown in fig. 6, in the present embodiment, the finished product cutting assembly 6 includes a cutting mounting seat 39, a first cutting roller 40, a second cutting roller 41, a left pressing plate 42 and a right pressing plate 43, a gap is provided between the first cutting roller 40 and the second cutting roller 41, and the left pressing plate 42 and the right pressing plate 43 are disposed at one side of the gap at an interval. Set up like this and cut off-the-shelf effect through first cutting gyro wheel 40 and second cutting gyro wheel 41 to the gauze mask face material, first cutting gyro wheel 40 and second cutting gyro wheel 41 all are equipped with the cutting texture, set up left clamp plate 42 and right clamp plate 43 cooperation and place gauze mask surface fabric perk.

As shown in fig. 6, in the present embodiment, a left extending plate 44 extends from an end of the left pressing plate 42 away from the gap, and a right extending plate 45 extends from an end of the right pressing plate 43 away from the gap. The ear line used for drawing the mask in advance is arranged, and subsequent cutting is prevented from being influenced.

In this embodiment, a waste collection assembly is disposed on one side of the output assembly 7. The residual fabrics are collected, and the cleanness of the working environment is ensured.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention, and is not intended to limit the present invention in any way, and although the present invention is disclosed in the above embodiments, it is not intended to limit the present invention, and any person skilled in the art can make some changes or modifications to equivalent embodiments without departing from the scope of the present invention, but all those skilled in the art should understand that any simple modification, equivalent change and modification made to the above embodiments are within the scope of the present invention.

Claims (7)

1. The utility model provides a modified multiple operation gauze mask processingequipment which characterized in that: the ultrasonic welding machine comprises a machine body (1), wherein a first pressing component (2), a tensioning component (3), an ultrasonic welding edge sealing component (4), a second pressing component (5), a finished product cutting component (6), an output component (7) and a vertical plate (8) are sequentially vertically arranged on the machine body (1), and the vertical plate (8) sequentially penetrates through the first pressing component (2), the tensioning component (3), the ultrasonic welding edge sealing component (4), the second pressing component (5), the finished product cutting component (6) and the output component (7);

the ultrasonic welding edge sealing assembly (4) comprises an ultrasonic welding edge sealing mounting seat (9), a first welding edge sealing block (10) and a second welding edge sealing block (11), wherein the ultrasonic welding edge sealing mounting seat (9) is provided with a first air cylinder (12) used for driving the first welding edge sealing block (10) to be in sliding connection and a second air cylinder (13) used for driving the second welding edge sealing block (11) to be in sliding connection;

the frame is equipped with screw rod (14), be used for driving position adjustment piece (15) that ultrasonic welding banding mount pad (9) removed and be used for driving screw rod (14) pivoted first motor (16), one side of ultrasonic welding banding mount pad (9) is fixed in position adjustment piece (15), position adjustment piece (15) and screw rod (14) sliding connection, the bottom of the opposite side of ultrasonic welding banding mount pad (9) is equipped with slider (17), the frame is equipped with slide rail (18) that are used for slider (17) sliding connection.

2. The improved multi-process mask making apparatus according to claim 1, wherein: the first pressing assembly (2) is provided with a first pressing mounting seat (19), a first pressing roller (20), a second pressing roller (21), a first pre-pressing roller (22) and a second pre-pressing roller (23), the first pressing roller (20) and the second pressing roller (21) are rotatably connected to the first pressing mounting seat (19), the first pressing roller (20) and the second pressing roller (21) are arranged at intervals, the first pressing mounting seat (19) is provided with a first upper sliding rail (24) and a first lower sliding rail (25), two ends of the first pre-pressing roller (22) are respectively in sliding connection with the first upper sliding rail (24) and the first lower sliding rail (25), and two ends of the second pre-pressing roller (23) are respectively in sliding connection with the first upper sliding rail (24) and the first lower sliding rail (25).

3. The improved multi-process mask making apparatus according to claim 1, wherein: the second pressing assembly (5) is provided with a second pressing mounting seat (26), a third pressing roller (27), a fourth pressing roller (28), a third pressing roller (29) and a fourth pressing roller (30), the third pressing roller (27) and the fourth pressing roller (28) are rotatably connected to the second pressing mounting seat (26), the third pressing roller (27) and the fourth pressing roller (28) are arranged at intervals, the second pressing mounting seat (26) is provided with a second upper sliding rail (31) and a second lower sliding rail (32), two ends of the third pressing roller (29) are respectively in sliding connection with the second upper sliding rail (31) and the second lower sliding rail (32), and two ends of the fourth pressing roller (30) are respectively in sliding connection with the second upper sliding rail (31) and the second lower sliding rail (32).

4. The improved multi-process mask making apparatus according to claim 1, wherein: the tensioning assembly (3) comprises a tensioning mounting seat (33), a first left guide roller (34), a first right guide roller (35) and a second right guide roller (36), the first right guide roller (35) and the second right guide roller (36) are mounted on the tensioning mounting seat (33) at intervals, the first left guide roller (34) is arranged between the first right guide roller (35) and the second right guide roller (36), the tensioning mounting seat (33) is provided with a first sliding rod (37) and a second sliding rod (38), and two sides of the first left guide roller (34) are both in sliding connection with the first sliding rod (37) and the second sliding rod (38).

5. The improved multi-process mask making apparatus according to claim 1, wherein: finished product cutting assembly (6) are equipped with the clearance including cutting mount pad (39), first cutting gyro wheel (40), second cutting gyro wheel (41), left clamp plate (42) and right clamp plate (43) between first cutting gyro wheel (40) and second cutting gyro wheel (41), and left clamp plate (42) and right clamp plate (43) interval set up in one side in clearance.

6. The improved multi-process mask making apparatus according to claim 5, wherein said apparatus further comprises: the left end of the left pressing plate (42) far away from the gap is extended with a left extension plate (44), and the right end of the right pressing plate (43) far away from the gap is extended with a right extension plate (45).

7. The improved multi-process mask making apparatus according to claim 1, wherein: one side of the output component (7) is provided with a waste collecting component.

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