CN109924559B

CN109924559B - Disposable swimsuit production system

Info

Publication number: CN109924559B
Application number: CN201910316964.XA
Authority: CN
Inventors: 贺妙霖
Original assignee: Guangzhou Xingshi Machinery Manufacture Co Ltd
Current assignee: Guangzhou Xingshi Machinery Manufacture Co Ltd
Priority date: 2019-04-19
Filing date: 2019-04-19
Publication date: 2024-04-02
Anticipated expiration: 2039-04-19
Also published as: CN109924559A

Abstract

The invention provides a disposable swimsuit production system, which comprises a front chest forming device, a back forming device, two side sealing and pressing devices, a forming cutter device and a cutting device, wherein the front chest forming device is connected with the back forming device; the two side sealing and pressing devices are arranged at the rear parts of the front chest forming device and the back forming device, the forming cutter device is arranged at the rear part of the two side sealing and pressing devices, and the cutting device is arranged at the rear part of the forming cutter device; the front chest forming device forms the front chest part of the disposable swimsuit, the back forming device forms the back part of the disposable swimsuit, the front chest part and the back part are conveyed to the two-side sealing and pressing devices for sealing and pressing at two sides after being overlapped and compounded, then are conveyed to the forming cutter device for cutting, head space and the redundant space of the appearance of the shoulder are cut off, and finally are conveyed to the cutting device for cutting, so that a single finished product is formed. The disposable swimwear production system has the advantages of high production speed and low manufacturing cost.

Description

Disposable swimsuit production system

Technical Field

The invention relates to the technical field of swimming product production equipment, in particular to a disposable swimsuit production system.

Background

With the continuous development of the times, disposable articles are increasingly popular with consumers, such as disposable underpants, disposable underwear, disposable slippers, disposable baby diapers and pull-up pants for infants, disposable adult diapers for adults, adult pull-up pants, sanitary napkins and the like, and have been widely applied to play a remarkable role.

However, disposable swimwear is still relatively rare in the market, and current swimwear is traditional mode, and the cost of manufacture is higher, for the crowd that uses infrequently, like: one swimsuit is purchased for going to sea vacation or play, and after one use, there is no opportunity to be reused or a long time interval is required for reuse. In addition, the patterns and styles of swimwear are easy to discard due to time, so that the use cost is extremely high, and the low-cost consumption requirements of current consumers cannot be met.

Disclosure of Invention

The invention provides a disposable swimsuit production system which has high production speed and low manufacturing cost, and the produced product can meet the consumption requirement of a producer with low cost.

The invention adopts the technical scheme that: a disposable swimwear production system, comprising: a front chest forming device, a back forming device, a two-side sealing and pressing device, a forming cutter device and a cutting device; the two side sealing and pressing devices are arranged at the rear parts of the front chest forming device and the back forming device, the forming cutter device is arranged at the rear part of the two side sealing and pressing devices, and the cutting device is arranged at the rear part of the forming cutter device; the shaping device comprises a shaping cutter device, a front chest forming device, a back forming device, a back shaping device, a front chest forming device, a back shaping device and a single-piece finished product.

Further, the front chest forming device comprises a first outer lining non-woven fabric conveying roller, a first rubber band conveying roller, a first inner lining non-woven fabric conveying roller, a first glue gun, a first composite traction wheel, a first compaction roller and a first feeding traction wheel; the first outer lining non-woven fabric conveying roller is used for conveying the front chest outer lining non-woven fabric, the first inner lining non-woven fabric conveying roller is used for conveying the front chest inner lining non-woven fabric, and the first rubber band conveying roller is used for conveying rubber bands; the first rubber band conveying roller is arranged between the first outer lining non-woven fabric conveying roller and the first inner lining non-woven fabric conveying roller, and the first composite traction wheel is arranged behind the first outer lining non-woven fabric conveying roller, the first rubber band conveying roller and the first inner lining non-woven fabric conveying roller; the first glue gun is arranged between the first lining non-woven fabric conveying roller and the first composite traction wheel, and the first compaction roller is arranged between the first composite traction wheel and the first feeding traction wheel.

Further, the back forming device comprises a second outer lining non-woven fabric conveying roller, a second rubber band conveying roller, a second inner lining non-woven fabric conveying roller, a second glue gun, a second composite traction wheel, a second compaction roller and a second feeding traction wheel; the second outer lining non-woven fabric conveying roller is used for conveying the back outer lining non-woven fabric, the second inner lining non-woven fabric conveying roller is used for conveying the back inner lining non-woven fabric, and the second rubber band conveying roller is used for conveying the rubber band; the second rubber band conveying roller is arranged between the second outer lining non-woven fabric conveying roller and the second inner lining non-woven fabric conveying roller, the second composite traction wheel is arranged behind the second outer lining non-woven fabric conveying roller, the second rubber band conveying roller and the second inner lining non-woven fabric conveying roller, and the second rubber gun is arranged between the second inner lining non-woven fabric conveying roller and the second composite traction wheel; the second compaction roller is arranged between the second composite traction wheel and the second feeding traction wheel, and the second feeding traction wheel is arranged behind the first feeding traction wheel.

Further, the two-side sealing and pressing devices are arranged at the rear part of the second feeding traction wheel and comprise a mounting plate, an ultrasonic mechanism and a sealing and pressing mechanism; the ultrasonic mechanism and the sealing and pressing mechanism are both arranged on the mounting plate, and the sealing and pressing mechanism is positioned below the ultrasonic mechanism; the ultrasonic mechanism comprises a fixed plate, a driving motor and an ultrasonic welding head; the fixing plate is fixed on the mounting plate, the driving motor is mounted on the fixing plate, the ultrasonic welding head is connected with the driving motor, the driving motor drives the ultrasonic welding head to ascend or descend, and an upper sealing pressing strip is fixed on the ultrasonic welding head; the sealing mechanism comprises a support, a side sealing lower roller and a sealing upper roller; the support frame is arranged on the mounting plate and positioned below the ultrasonic welding head; the side seal pressing roller is arranged on the support frame, the side seal pressing roller is provided with a lower seal pressing bar, and the lower seal pressing bar is positioned below the upper seal pressing bar.

Further, the forming cutter device comprises a mounting frame, a forming cutter anvil roll and a forming cutter knife roll; the forming cutter knife roll and the forming cutter anvil roll are both arranged on the mounting frame, and the forming cutter knife roll is positioned above the forming cutter anvil roll; the forming cutter knife roller is provided with a head space region cutting part and shoulder two side region cutting parts, and two ends of the forming cutter knife roller are connected with adjusting screws.

Further, the cutting device comprises a cutter rest, a transmission unit and a cutter unit; the transmission unit and the cutter unit are both arranged on the cutter rest; the tool rest comprises a top plate, a bottom plate, and a first side plate and a second side plate which are connected with the top plate and the bottom plate; the cutter unit comprises a cutter upper roller and a cutter lower roller; the cutter upper roller and the cutter lower roller are both arranged in the space formed by surrounding the top plate, the bottom plate, the first side plate and the second side plate, the cutter upper roller and the two ends of the cutter lower roller are both respectively arranged on the first side plate and the second side plate, and the cutter upper roller is positioned above the cutter lower roller.

Further, the cutter upper roller is provided with a blade assembly, both sides of the cutter lower roller are provided with negative pressure plates, the transmission unit is provided with a first side plate, and the first side plate is also provided with a first negative pressure interface; the transmission unit is arranged on the outer side surface of the first side plate, and the first negative pressure interface is arranged on the inner side surface of the first side plate; the cutter upper roller and the cutter lower roller are mechanically connected with the transmission unit; one of the negative pressure plates is connected with the first negative pressure interface.

Further, a transfer drum device before cutting is arranged between the forming cutter device and the cutting device, and the transfer drum device before cutting comprises an installation bottom plate, a bearing seat, a rotating shaft and a transfer drum body; the bearing seat is arranged on the mounting bottom plate, the rotating shaft is arranged in the bearing seat, and the transfer drum body is arranged outside the bearing seat; and a negative pressure assembly is further arranged on one side of the transfer drum body, which is close to the mounting bottom plate, and is connected with a second negative pressure interface.

Further, a first transfer drum device is arranged between the forming cutter device and the transfer drum device before cutting, and comprises a drum frame and a first transfer drum body structure arranged on the drum frame; the first transfer drum body structure comprises a first drum body, a negative pressure bearing seat, a negative pressure cavity and a gear structure; the negative pressure bearing seat is arranged on the drum frame, the first drum body is sleeved on the negative pressure bearing seat, the negative pressure cavity is arranged in the first drum body, and the negative pressure cavity is connected with the negative pressure bearing seat; the gear structure comprises a pinion and a large gear, the large gear is sleeved on the negative pressure bearing seat and located at one end of the first drum body, the pinion is mounted on the drum frame, the pinion is meshed with the large gear, and the pinion is provided with a gear shaft in a penetrating mode.

Further, a second transfer drum device is provided behind the cutoff device, and the second transfer drum device has the same structure as the first transfer drum device.

Compared with the prior art, the disposable swimsuit production system provided by the invention is provided with the front chest forming device, the back forming device, the two side sealing and pressing devices, the forming cutter device and the cutting device to coordinate and operate with each other, so that the disposable swimsuit can be produced efficiently, the low-cost consumption requirement of a producer is met, the production speed is high, and the manufacturing cost is low.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate the invention and together with the description serve to explain the invention. In the drawings of which there are shown,

fig. 1: schematic diagram of the disposable swimwear production system of the present invention;

fig. 2: the invention discloses a three-dimensional combined diagram of sealing and pressing devices at two sides;

fig. 3: another three-dimensional combined diagram of the sealing and pressing device at two sides of the invention;

fig. 4: the invention discloses a three-dimensional exploded view of a two-side sealing and pressing device;

fig. 5: the invention relates to a schematic diagram of a forming cutter device;

fig. 6: the invention forms a schematic diagram of a cutter roller of a cutter;

fig. 7: a three-dimensional combined diagram of the cutting device;

fig. 8: front view of the cutting device of the invention;

fig. 9: a perspective exploded view of the cutting device of the present invention;

fig. 10: the invention cuts off the stereoscopic combined image of the transfer drum device before cutting off;

fig. 11: the invention cuts off the stereoscopic exploded view of the transfer drum device before cutting off;

fig. 12: a perspective combined view of the first transfer drum device of the invention;

fig. 13: side view of the first transfer drum apparatus of the present invention

Fig. 14: an exploded perspective view of the first transfer drum assembly of the present invention.

Detailed Description

The following describes specific embodiments of the present invention in detail with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the invention, are not intended to limit the invention.

As shown in fig. 1, the disposable swimsuit production system of the present invention includes a front chest forming device, a back forming device, a both side sealing and pressing device 15, a forming cutter device 16, and a cutting device 17; first, the front chest part (one complex) of the disposable swimsuit is molded by a front chest molding device, and the back part (the other complex) of the disposable swimsuit is molded by a back molding device; then, the two composites are conveyed to a two-side sealing device 15 for two-side sealing after being overlapped and compounded; then the waste material is conveyed to a forming cutter device 16 for cutting, and the head space and the redundant shoulder shape space are cut off; finally, the material is conveyed to a cutting device 17 for cutting to form a single finished product.

Specifically, the front chest forming device comprises a first outer lining non-woven fabric conveying roller 1, a first rubber band conveying roller 2, a first inner lining non-woven fabric conveying roller 3, a first glue gun 4, a first composite traction wheel 5, a first compaction roller 6 and a first feeding traction wheel 7; the first outer lining non-woven fabric conveying roller 1 is used for conveying the front chest outer lining non-woven fabric; the first lining non-woven fabric conveying roller 3 is used for conveying the front chest lining non-woven fabric; the first rubber band conveying roller 2 is used for conveying rubber bands. The first rubber band conveying roller 2 is arranged between the first outer lining non-woven fabric conveying roller 1 and the first inner lining non-woven fabric conveying roller 3; the first composite traction wheel 5 is arranged behind the first outer lining non-woven fabric conveying roller 1, the first rubber band conveying roller 2 and the first inner lining non-woven fabric conveying roller 3; the first glue gun 4 is arranged between the first lining non-woven fabric conveying roller 3 and the first composite traction wheel 5; the first compaction roller 6 is arranged between the first composite traction wheel 5 and the first feeding traction wheel 7.

The back forming device comprises a second outer lining non-woven fabric conveying roller 8, a second rubber band conveying roller 9, a second inner lining non-woven fabric conveying roller 10, a second glue gun 11, a second composite traction wheel 12, a second compaction roller 13 and a second feeding traction wheel 14; the second outer lining non-woven fabric conveying roller 8 is used for conveying the back outer lining non-woven fabric; the second lining nonwoven fabric conveying roller 10 is used for conveying the back lining nonwoven fabric; the second elastic conveying roller 9 is used for conveying the elastic. The second rubber band conveying roller 9 is arranged between the second outer lining non-woven fabric conveying roller 8 and the second inner lining non-woven fabric conveying roller 10; the second composite traction wheel 12 is arranged behind the second outer lining non-woven fabric conveying roller 8, the second rubber band conveying roller 9 and the second inner lining non-woven fabric conveying roller 10; the second glue gun 11 is arranged between the second lining non-woven fabric conveying roller 10 and the second composite traction wheel 12. The second compaction roller 13 is arranged between the second composite traction wheel 12 and the second feeding traction wheel 14, and the second feeding traction wheel 14 is arranged behind the first feeding traction wheel 7.

As shown in fig. 1 to 4, the two-side sealing devices 15 are disposed behind the second feeding traction wheel 14, and the two-side sealing devices 15 include a mounting plate 150, an ultrasonic mechanism, and a sealing mechanism; wherein, ultrasonic wave mechanism and seal and press the mechanism and all install in mounting panel 150, and seal and press the mechanism and be located ultrasonic wave mechanism's below. The ultrasonic mechanism includes a fixed plate 151, a driving motor 152, and an ultrasonic welding head 153; the fixing plate 151 is fixed to the mounting plate 150, and the driving motor 152 is mounted to the fixing plate 151; the ultrasonic welding head 153 is connected to a driving motor 152, the ultrasonic welding head 153 is driven to ascend or descend by the driving motor 152, and an upper seal bead 154 is fixed to the ultrasonic welding head 153.

The seal pressing mechanism comprises a support 155 and a side seal pressing roller 156; the support 155 is mounted to the mounting plate 150 below the ultrasonic welding head 153. The side seal pressing roller 156 is mounted on the supporting frame 155, two ends of the side seal pressing roller 156 respectively extend out of the supporting frame 155, and one end of the side seal pressing roller 156 is connected with a transmission shaft 157. The side seal press roller 156 is fitted with a lower seal bead 158, and the lower seal bead 158 is located below the upper seal bead 154. Further, center distance adjusting screws 159 are respectively installed on the fixing plate 151 and the supporting frame 155, and are respectively used for finely adjusting the center distances of the ultrasonic mechanism and the sealing and pressing mechanism.

As shown in fig. 1, 5 and 6, the forming cutter device 16 is disposed behind the two side sealing devices 15, and the forming cutter device 16 includes a mounting frame 160, a forming cutter anvil roll 161, and a forming cutter roll 162; wherein, the shaping cutter knife roller 162 and the shaping cutter anvil roller 161 are both installed on the installation frame 160, and the shaping cutter knife roller 162 is located above the shaping cutter anvil roller 161. Further, the molding cutter roll 162 is provided with a head space region cut-out portion 163 and shoulder side region cut-out portions 164, and when the semi-product passes between the molding cutter roll 162 and the molding cutter anvil roll 161, the head space region cut-out portion 163 and the shoulder side region cut-out portions 164 cut out and mold the excess regions of the head space and the shoulder, respectively.

Further, the forming cutter anvil roll 161 and the forming cutter roll 162 are connected with a driving shaft 165, and both ends of the forming cutter roll 162 are connected with adjusting screws 166. The position of the forming cutter knife roll 162 is fine tuned by two adjusting screws 166 to be either near or far from the forming cutter anvil roll 161.

As shown in fig. 1, 7 to 9, the cutting device 17 is disposed behind the forming cutter device 16, and the cutting device 17 includes a cutter frame 170, a transmission unit 171, and a cutter unit; the transmission unit 171 and the cutter unit are both mounted on the tool rest 170, and the transmission unit 171 is connected with the cutter unit, and drives the cutter unit to operate through the transmission unit 171.

Specifically, the tool holder 170 includes a top plate 1701, a bottom plate 1702, and first and second side plates 1703, 1704 connecting the top plate 1701 and the bottom plate 1702. The cutter unit comprises a cutter upper roller 172 and a cutter lower roller 173; the upper cutter roll 172 and the lower cutter roll 173 are mounted in the space defined by the top plate 1701, the bottom plate 1702, the first side plate 1703 and the second side plate 1704, the two ends of the upper cutter roll 172 and the lower cutter roll 173 are mounted on the first side plate 1703 and the second side plate 1704, and the upper cutter roll 172 is located above the lower cutter roll 173.

Further, cutter upper roller 172 mounts a blade assembly 174; negative pressure plates 175 are mounted on two sides of the cutter lower roller 173, and negative pressure is generated inside the cutter lower roller 173 through the two negative pressure plates 175, so that products are adsorbed on the cutter lower roller 173, and the cutter upper roller 172 is convenient to cut. The transmission unit 171 mounts the first side plate 1703, and the first side plate 1703 also mounts the first negative pressure interface 176. The transmission unit 171 is mounted on the outer side surface of the first side plate 1703, and the first negative pressure interface 176 is mounted on the inner side surface of the first side plate 1703; one of the negative pressure plates 175 is connected to a first negative pressure port 176. The cutter upper roller 172 and the cutter lower roller 173 are mechanically connected with the transmission unit 171, and the transmission unit 171 drives the cutter upper roller 172 and the cutter lower roller 173 to operate so as to cut off and separate the semi-finished product. In addition, a protective cover 177 is further installed on the first side plate 1703, and the protective cover 177 covers the transmission unit 171 to protect the transmission unit 171.

As shown in fig. 1, 10 and 11, a transfer drum device 18 before cutting is further provided between the forming cutter device 16 and the cutting device 17, so as to transfer the product from the forming cutter device 16 to the cutting device 17 for cutting and separating. The transfer drum device 18 before cutting includes a mounting base 180, a bearing block 181, a rotation shaft 182, and a transfer drum 183. Wherein, the bearing seat 181 is installed on the installation base plate 180, the rotating shaft 182 is installed in the bearing seat 181 through the bearing 184, the transfer drum 183 is installed outside the bearing seat 181, and the end of the rotating shaft 182 far away from the bearing seat 181 is installed with the bearing cover 185; the transfer drum 183 is rotated by the rotation shaft 182. In addition, the side of the transfer drum 183 close to the mounting bottom plate 180 is also provided with a negative pressure assembly 186, the negative pressure assembly 186 is connected with a second negative pressure interface 187, negative pressure is generated in the transfer drum 183 through the negative pressure assembly 186, and products are conveniently adsorbed on the transfer drum 183 for conveying.

As shown in fig. 1, 12 to 14, a first transfer drum device 19 is provided between the forming cutter device 16 and the transfer drum device 18 before cutting, a second transfer drum device 20 is provided behind the cutting device 17, and the first transfer drum device 19 has the same structure as the second transfer drum device 20. The transport of the products out is facilitated by the provision of the first transfer drum means 19 and the second transfer drum means 20.

The first transfer drum assembly 19 includes a drum stand 190 and a first transfer drum structure 191 mounted to the drum stand 190. The first transfer drum structure 191 includes a first drum 192, a negative pressure bearing housing 193, a negative pressure chamber 194, and a gear structure; wherein, the negative pressure bearing seat 193 is installed on the drum frame 190, the first drum 192 is sleeved on the negative pressure bearing seat 193, the negative pressure cavity 194 is installed in the first drum 192, and the negative pressure cavity 194 is connected with the negative pressure bearing seat 193. The negative pressure cavity 194 is used for generating negative pressure inside the first drum 192, so that the product is adsorbed on the first drum 192, and the product is convenient to transfer. The gear structure includes a pinion 195, and a bull 196; the large gear 196 is sleeved on the negative pressure bearing seat 193 and is positioned at one end of the first drum 192, the small gear 195 is mounted on the drum frame 190, and the small gear 195 is meshed with the large gear 196.

Further, a gear shaft 197 is arranged on the pinion 195 in a penetrating manner, and the pinion 195 is driven to rotate through the gear shaft 197, so that the large gear 196 is driven to rotate, and the first drum 192 is driven to rotate. In addition, a gear cover 198 is fitted over the outer circumferences of the pinion 195 and the large gear 196 to protect the pinion 195 and the large gear 196.

The working process of the disposable swimsuit production system is as follows:

firstly, compounding an S-shaped elastic rubber band and a lower hem rubber band between a front chest lining non-woven fabric and an outer lining non-woven fabric through a front chest forming device to form a compound;

then, a back lining non-woven fabric and an outer lining non-woven fabric are compounded with elastic rubber strings through a back part forming device to form another compound;

the two composite bodies are overlapped and compounded through a second feeding traction wheel 14 and then are conveyed to a two-side sealing and pressing device 15 for two-side sealing and pressing; then according to the set shape, the head space and the redundant area of the shoulder are cut off and formed by a forming cutter device 16, finally the product is cut off and separated by a device 17, and then transferred by a second transfer drum device 20.

In summary, the disposable swimwear production system of the invention can efficiently produce the disposable swimwear by arranging the front chest forming device, the back forming device, the two side sealing and pressing devices 15, the forming cutter device 16 and the cutting device 17 to coordinate and operate with each other, thereby meeting the low-cost consumption demands of producers, and having high production speed and low manufacturing cost.

Any combination of the various embodiments of the invention should be considered as being within the scope of the present disclosure, as long as the inventive concept is not violated; within the scope of the technical idea of the invention, any combination of various simple modifications and different embodiments of the technical proposal without departing from the inventive idea of the invention should be within the scope of the invention.

Claims

1. A disposable swimwear production system, comprising: a front chest forming device, a back forming device, a two-side sealing and pressing device (15), a forming cutter device (16) and a cutting device (17); the two-side sealing and pressing devices (15) are arranged at the rear parts of the front chest forming device and the back forming device, the forming cutter device (16) is arranged at the rear part of the two-side sealing and pressing devices (15), and the cutting device (17) is arranged at the rear part of the forming cutter device (16); the utility model discloses a disposable swimming suit of back shaping device, including shaping front chest part, back shaping device shaping disposable swimming suit's back part, front chest part with two complex of back part are carried after the stack is compound to both sides seal pressure device (15) are carried and are carried again after seal the pressure in both sides shaping cutters (16) are cut, cut head space and shoulder appearance unnecessary space, finally carry to cutting device (17) cuts off, form monolithic finished product.

2. A disposable swimwear production system of claim 1, wherein: the front chest forming device comprises a first outer lining non-woven fabric conveying roller (1), a first rubber band conveying roller (2), a first inner lining non-woven fabric conveying roller (3), a first glue gun (4), a first composite traction wheel (5), a first compacting roller (6) and a first feeding traction wheel (7); the first outer lining non-woven fabric conveying roller (1) is used for conveying the front chest outer lining non-woven fabric, the first inner lining non-woven fabric conveying roller (3) is used for conveying the front chest inner lining non-woven fabric, and the first rubber band conveying roller (2) is used for conveying rubber bands; the first rubber band conveying roller (2) is arranged between the first outer lining non-woven fabric conveying roller (1) and the first inner lining non-woven fabric conveying roller (3), and the first composite traction wheel (5) is arranged behind the first outer lining non-woven fabric conveying roller (1), the first rubber band conveying roller (2) and the first inner lining non-woven fabric conveying roller (3); the first glue gun (4) is arranged between the first lining non-woven fabric conveying roller (3) and the first composite traction wheel (5), and the first compaction roller (6) is arranged between the first composite traction wheel (5) and the first feeding traction wheel (7).

3. A disposable swimwear production system of claim 2, wherein: the back forming device comprises a second outer lining non-woven fabric conveying roller (8), a second rubber band conveying roller (9), a second inner lining non-woven fabric conveying roller (10), a second glue gun (11), a second composite traction wheel (12), a second compaction roller (13) and a second feeding traction wheel (14); the second outer lining non-woven fabric conveying roller (8) is used for conveying the back outer lining non-woven fabric, the second inner lining non-woven fabric conveying roller (10) is used for conveying the back inner lining non-woven fabric, and the second rubber band conveying roller (9) is used for conveying the rubber band; the second rubber band conveying roller (9) is arranged between the second outer lining non-woven fabric conveying roller (8) and the second inner lining non-woven fabric conveying roller (10), the second composite traction wheel (12) is arranged behind the second outer lining non-woven fabric conveying roller (8), the second rubber band conveying roller (9) and the second inner lining non-woven fabric conveying roller (10), and the second rubber gun (11) is arranged between the second inner lining non-woven fabric conveying roller (10) and the second composite traction wheel (12); the second compaction roller (13) is arranged between the second composite traction wheel (12) and the second feeding traction wheel (14), and the second feeding traction wheel (14) is arranged behind the first feeding traction wheel (7).

4. A disposable swimwear production system of claim 3, wherein: the two-side sealing and pressing devices (15) are arranged behind the second feeding traction wheel (14), and the two-side sealing and pressing devices (15) comprise a mounting plate (150), an ultrasonic mechanism and a sealing and pressing mechanism; the ultrasonic mechanism and the sealing and pressing mechanism are both arranged on the mounting plate (150), and the sealing and pressing mechanism is positioned below the ultrasonic mechanism; the ultrasonic mechanism comprises a fixed plate (151), a driving motor (152) and an ultrasonic welding head (153); the fixing plate (151) is fixed on the mounting plate (150), the driving motor (152) is mounted on the fixing plate (151), the ultrasonic welding head (153) is connected with the driving motor (152), the driving motor (152) drives the ultrasonic welding head (153) to ascend or descend, and an upper sealing pressing strip (154) is fixed on the ultrasonic welding head (153); the sealing and pressing mechanism comprises a supporting frame (155) and a side sealing and pressing roller (156); the supporting frame (155) is installed on the installation plate (150) and is positioned below the ultrasonic welding head (153); the side seal pressing roller (156) is mounted on the supporting frame (155), the side seal pressing roller (156) is provided with a lower seal pressing bar (158), and the lower seal pressing bar (158) is located below the upper seal pressing bar (154).

5. A disposable swimwear production system of claim 1, wherein: the forming cutter device (16) comprises a mounting frame (160), a forming cutter anvil roll (161) and a forming cutter knife roll (162); the forming cutter knife roller (162) and the forming cutter anvil roller (161) are both arranged on the mounting frame (160), and the forming cutter knife roller (162) is positioned above the forming cutter anvil roller (161); the forming cutter knife roller (162) is provided with a head space region cutting part (163) and shoulder two side region cutting parts (164), and two ends of the forming cutter knife roller (162) are connected with adjusting screws (166).

6. A disposable swimwear production system of claim 1, wherein: the cutting device (17) comprises a knife rest (170), a transmission unit (171) and a cutter unit; the transmission unit (171) and the cutter unit are both arranged on the cutter rest (170); the tool holder (170) includes a top plate (1701), a bottom plate (1702), and first and second side plates (1703, 1704) connecting the top plate (1701) and the bottom plate (1702); the cutter unit comprises a cutter upper roller (172) and a cutter lower roller (173); the cutter upper roller (172) and the cutter lower roller (173) are both arranged in a space surrounded by the top plate (1701), the bottom plate (1702) and the first side plate (1703) and the second side plate (1704), the two ends of the cutter upper roller (172) and the two ends of the cutter lower roller (173) are both respectively arranged on the first side plate (1703) and the second side plate (1704), and the cutter upper roller (172) is arranged above the cutter lower roller (173).

7. A disposable swimwear production system of claim 6, wherein: the cutter upper roller (172) is provided with a blade assembly (174), both sides of the cutter lower roller (173) are provided with negative pressure plates (175), the transmission unit (171) is provided with a first side plate (1703), and the first side plate (1703) is also provided with a first negative pressure interface (176); the transmission unit (171) is mounted on the outer side surface of the first side plate (1703), and the first negative pressure interface (176) is mounted on the inner side surface of the first side plate (1703); the cutter upper roller (172) and the cutter lower roller (173) are mechanically connected with the transmission unit (171); one of the negative pressure plates (175) is connected to the first negative pressure connection (176).

8. A disposable swimwear production system of claim 1, wherein: a transfer drum device (18) before cutting is further arranged between the forming cutter device (16) and the cutting device (17), and the transfer drum device (18) before cutting comprises an installation bottom plate (180), a bearing seat (181), a rotating shaft (182) and a transfer drum body (183); the bearing seat (181) is arranged on the mounting bottom plate (180), the rotating shaft (182) is arranged in the bearing seat (181), and the transfer drum body (183) is arranged outside the bearing seat (181); and a negative pressure assembly (186) is further arranged on one side of the transfer drum body (183) close to the mounting bottom plate (180), and the negative pressure assembly (186) is connected with a second negative pressure interface (187).

9. A disposable swimwear production system of claim 8, wherein: a first transfer drum device (19) is arranged between the forming cutter device (16) and the transfer drum device (18) before cutting, and the first transfer drum device (19) comprises a drum frame (190) and a first transfer drum body structure (191) arranged on the drum frame (190); the first transfer drum structure (191) comprises a first drum (192), a negative pressure bearing seat (193), a negative pressure cavity (194), and a gear structure; the negative pressure bearing seat (193) is arranged on the drum frame (190), the first drum body (192) is sleeved on the negative pressure bearing seat (193), the negative pressure cavity (194) is arranged in the first drum body (192), and the negative pressure cavity (194) is connected with the negative pressure bearing seat (193); the gear structure comprises a pinion (195) and a large gear (196), wherein the large gear (196) is sleeved on the negative pressure bearing seat (193) and is positioned at one end of the first drum body (192), the pinion (195) is installed on the drum frame (190), the pinion (195) is meshed with the large gear (196), and a gear shaft (197) is arranged on the pinion (195) in a penetrating mode.

10. A disposable swimwear production system as recited in claim 9, wherein: a second transfer drum device (20) is arranged behind the cutting device (17), and the structure of the second transfer drum device (20) is the same as that of the first transfer drum device (19).