CN210749847U - Device for manufacturing ultrathin water absorption body of baby pants - Google Patents

Abstract

The utility model discloses a device for manufacturing ultra-thin absorbent articles for babies and trousers, which comprises a machine body, an automatic material receiving and changing device is arranged, a wrapping dust-free paper roll A and a wrapping dust-free paper roll B are automatically unrolled and are drawn by a first driving and drawing device, the dust-free paper is automatically screened into a first conveying air box by a first full-automatic material deviation correcting device, a first group of macromolecules and the dust-free paper are mutually compounded, loose cloth falls into the first conveying air box to be compounded with the first group of macromolecules, a second group of macromolecules and interval rolling and breaking loose cloth are scattered, then loose cloth automatically lifted and vibrated by a third macromolecule and a fourth group of macromolecules is scattered and compounded by a small spiral glue sprayer, the wrapped dust-free paper flows through a wrapping wheel to be drawn by a second conveying air box, the dust-free paper is rolled and formed on the surface of a folding and forming mechanism, a formed dust-free cloth core body is transmitted to a hot pressing tank device, the finished product has good viscosity, the water body material has the advantages of consistent gram weight, difficult side leakage, reduced product cost and high production efficiency.

Description

Device for manufacturing ultrathin water absorption body of baby pants

Technical Field

The utility model relates to a baby trousers manufacture equipment technical field, concretely relates to baby trousers class ultra-thin body making devices that absorbs water.

Background

The baby of new-born now is almost all using panty-shape diapers or diaper, but panty-shape diapers and diaper drop easily or shift at the in-process that uses, often need use the ultra-thin body that absorbs water in current panty-shape diapers or the diaper production process, raw materials for production can not refute the material automatically in the panty-shape diapers production process, water material grammes per square metre inconsistent, easy edge leakage, product cost falls highly, production efficiency is low, along with the development of panty-shape diapers equipment, the ultra-thin body making devices that absorb water of panty-shape diapers of baby class has also obtained technical improvement, but prior art: the production raw materials of the baby trousers ultrathin absorbent can not be automatically refuted in the online production process, the viscosity of the produced finished product is poor, the gram weights of water materials are inconsistent, the side leakage is easy, the product cost is reduced, and the production efficiency is low.

Disclosure of Invention

Technical problem to be solved

In order to overcome the defects of the prior art, the device for manufacturing the baby pants ultrathin water-absorbing body is provided, the problems that the raw materials for manufacturing the baby pants ultrathin water-absorbing body in the online manufacturing process cannot be automatically refuted, the viscosity of a manufactured finished product is poor, the gram weights of water materials are inconsistent, the side leakage is easy to occur, the product cost is reduced, and the production efficiency is low are solved, the device can automatically refute the finished product, the viscosity of the manufactured finished product is good, the gram weights of the water materials are consistent, the side leakage is not easy to occur, the product cost is reduced, and the production efficiency is high are solved.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a baby trousers ultrathin absorbent manufacturing device, which comprises a machine body, a mounting seat, a wrapping dustless paper roll A, a wrapping dustless paper roll B, an automatic material receiving and changing device, a first tension storage controller, a first driving traction device, a first full-automatic material deviation rectifying device, a small spiral glue sprayer, a first conveying wind box, a first group of macromolecules, a distance width adjusting device, an axis heating anti-sticking roller, a servo driving speed reducer, a winding expanding cloth roll A, a winding expanding cloth roll B, a second automatic hot connecting and material changing device, a second tension storage controller, a second driving traction device, an expanding cloth interval rolling and breaking device, a second group of macromolecules, a vibration mechanism, a third group of macromolecules, a fourth group of macromolecules, a wrapping wheel, a second conveying wind box, a folding and forming mechanism, a hot groove pressing device and an electric cabinet, wherein the mounting seat is arranged at the top end of the machine body, the machine body is characterized in that a coated dust-free paper roll A is arranged at the bottom of the inner side of the machine body, a coated dust-free paper roll B is arranged on the right side of the coated dust-free paper roll A, the left side of the coated dust-free paper roll B is spliced with a first tension storage controller through an automatic material receiving and changing device, the left side of the first tension storage controller is rotationally connected with a first driving traction device, a first full-automatic material deviation correcting device is arranged at the top of the first driving traction device, the left side of the first full-automatic material deviation correcting device is spliced with a first conveying air box through a small spiral glue sprayer, a first group of macromolecules are arranged on the left side of the top end of the machine body, a distance width adjusting device is arranged at the bottom end of the first group of macromolecules, an axis heating anti-sticking roller is arranged at the bottom of the distance width adjusting device, the left side of the axis heating anti-sticking, the right side of the winding and expanding cloth A roll is provided with a winding and expanding cloth B roll, the top of the winding and expanding cloth B roll is spliced with a second automatic thermal connection material changing device, the left side of the second automatic thermal connection material changing device is provided with a second tension material storage controller, the left side of the second tension material storage controller is provided with a second driving traction device, the top of the second driving traction device is provided with a bulking cloth interval rolling and breaking device, the top of the machine body is provided with a second group of macromolecules, the bottom of the second group of macromolecules is provided with a vibrating mechanism, the middle of the top of the machine body is provided with a third group of macromolecules, the right side of the top of the machine body is provided with a fourth group of macromolecules, the middle of the right side of the inner side of the machine body is provided with a coating wheel, the bottom of the coating wheel is provided with a folding and forming mechanism, the middle of the, an electric cabinet is arranged on the left side of the front end of the machine body.

Further, a controller is arranged on the inner side of the electric cabinet, and a control key is arranged on the surface of the controller.

Further, the controller inboard is provided with the circuit board, and the circuit board left side is provided with the port and connects the material changing device, first tension storage controller, first drive draw gear, first full-automatic material deviation correcting device, little spiral glue sprayer, first transport wind box, distance width adjusting device, servo drive speed reducer, the automatic hot joining of plugging of second trades material changing device, second tension storage controller, second drive draw gear, fluffy cloth interval rolls off device, vibration mechanism, second transport wind box, folding forming mechanism and hot pressing groove device electricity respectively and connects.

Further, distance width adjusting device, the antiseized roller of axle center heating and servo drive speed reducer all are provided with 4, and distance width adjusting device, the antiseized roller of axle center heating and servo drive speed reducer set up respectively in first group's polymer, second group's polymer, third group's polymer and fourth group's polymer bottom inboard.

Furthermore, the first air conveying box and the second air conveying box are identical in size, and fixing frames are arranged on the periphery of the first air conveying box and the periphery of the second air conveying box.

Further, the folding and forming mechanism is arranged in a 45-degree oblique angle mode, and driving wheels are arranged on the left side and the right side of the bottom of the folding and forming mechanism.

Furthermore, the bottoms of the third group of high polymer and the fourth group of high polymer are provided with small spiral glue spraying devices, and the interval between the third group of high polymer and the fourth group of high polymer is 20 cm.

Further, the small spiral glue sprayer is a PEC-3240 small spiral glue sprayer.

Furthermore, the model of the servo drive speed reducer is GR17 servo drive speed reducer.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

1) in order to solve the problems that the production raw materials cannot be automatically refuted in the online production process of the baby pants ultrathin absorbent body, the viscosity of a finished product is poor, the gram weight of a water body material is inconsistent, the side leakage is easy, the product cost is high and the production efficiency is low, by arranging an automatic material receiving and changing device, a roll A coated with dust-free paper and a roll B coated with dust-free paper are automatically unwound, the dust-free paper is conveyed by the automatic material receiving and changing device, the dust-free paper is pulled by a first driving traction device, the dust-free paper is automatically screened into a first conveying air box by a first full-automatic material deviation correcting device, a first group of macromolecules are mutually compounded with the dust-free paper by a fixed-distance width adjusting device, a shaft center heating anti-sticking roller and a servo driving speed reducer, bulky cloth falls into the first conveying air box to be compounded with the first group of macromolecules, a second group of macromolecules are subjected to fixed-distance width adjustment, shaft heating anti-sticking roller, the second group of macromolecules enter the bottom layer of the coated dust-free paper through the vibration mechanism, then the third macromolecules and the fourth group of macromolecules are automatically lifted, the bulked cloth discharged by the distance width adjusting device, the axis heating anti-sticking roller and the servo drive speed reducer and vibrated is scattered and compounded by the small spiral glue sprayer, then the coated dust-free paper flows through the coating wheel and is pulled by the second conveying air box, so that the coated dust-free paper is rolled and molded on the surface of the folding and molding mechanism, the molded dust-free cloth core body is conveyed to the hot pressing tank device, the overlapped part of the dust-free paper coating is flattened, no convex position fall exists, the flow guide effect is achieved instead of being divided into the front side and the back side, the equipment achieves the beneficial effects of automatic material refuelling, good viscosity of the manufactured finished product, consistent water body material gram weight, difficulty in side leakage, low product cost and high production.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a rear view of the body of the present invention;

FIG. 3 is a schematic view of the front-end section structure of the machine body of the present invention;

fig. 4 is a schematic view of the rear-end section structure of the machine body of the present invention.

In the figure: a machine body-1, a mounting seat-2, a coated dust-free paper roll A-3, a coated dust-free paper roll B-4, an automatic material receiving and changing device-5, a first tension material storage controller-6, a first driving traction device-7, a first full-automatic material deviation correcting device-8, a small spiral glue sprayer-9, a first conveying wind box-10, a first group of macromolecules-11, a distance width adjusting device-12, an axis heating anti-sticking roller-13, a servo driving speed reducer-14, a winding expanding cloth roll A-15, a winding expanding cloth roll B-16, a second automatic heat connecting and material changing device-17, a second tension material storage controller-18, a second driving traction device-19, a expanding cloth interval rolling and cutting device-20, a second group of macromolecules-21, A vibration mechanism-22, a third group of macromolecules-23, a fourth group of macromolecules-24, a coating wheel-25, a second conveying wind box-26, a folding forming mechanism-27, a hot pressing groove device-28 and an electric cabinet-29.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, the present invention provides a device for making ultra-thin absorbent members of baby pants, comprising: comprises a machine body 1, a mounting seat 2, a coated dust-free paper A roll 3, a coated dust-free paper B roll 4, an automatic material receiving and changing device 5, a first tension storage controller 6, a first driving traction device 7, a first full-automatic material deviation correcting device 8, a small spiral glue sprayer 9, a first conveying wind box 10, a first group of macromolecules 11, a distance width adjusting device 12, an axis heating anti-sticking roller 13, a servo driving speed reducer 14, a winding expanding cloth A roll 15, a winding expanding cloth B roll 16, a second automatic thermal material receiving and changing device 17, a second tension storage controller 18, a second driving traction device 19, a expanding cloth interval rolling and cutting device 20, a second group of macromolecules 21, a vibration mechanism 22, a third group of macromolecules 23, a fourth group of macromolecules 24, a coating wheel 25, a second conveying wind box 26, a folding and forming mechanism 27, a hot pressing groove device 28 and an electric cabinet 39, wherein the mounting seat 2 is arranged at the top end of the machine body 1, the bottom of the inner side of a machine body 1 is provided with a coated dust-free paper roll A3, the right side of the coated dust-free paper roll A3 is provided with a coated dust-free paper roll B4, the left side of the coated dust-free paper roll B4 is spliced with a first tension storage controller 6 through an automatic material receiving and changing device 5, the left side of the first tension storage controller 6 is rotationally connected with a first driving traction device 7, the top of the first driving traction device 7 is provided with a first full-automatic material deviation correcting device 8, the left side of the first full-automatic material deviation correcting device 8 is spliced with a first conveying air box 10 through a small spiral glue sprayer 9, the left side of the top end of the machine body 1 is provided with a first group of macromolecules 11, the bottom end of the first group of macromolecules 11 is provided with a distance width adjusting device 12, the bottom of the distance width adjusting device 12 is provided with an axis heating anti-sticking roller 13, the left side of the axis heating anti-sticking, a winding bulking cloth roll B16 is arranged on the right side of a winding bulking cloth roll A15, the top of the winding bulking cloth roll B16 is spliced with a second automatic thermal connection material changing and receiving device 17, a second tension material storage controller 18 is arranged on the left side of the second automatic thermal connection material changing and receiving device 17, a second driving traction device 19 is arranged on the left side of the second tension material storage controller 18, a bulking cloth interval rolling and cutting device 20 is arranged on the top of the second driving traction device 19, a second group of macromolecules 21 is arranged on the top of the machine body 1, a vibrating mechanism 22 is arranged at the bottom of the second group of macromolecules 21, a third group of macromolecules 23 is arranged in the middle of the top of the machine body 1, a fourth group of macromolecules 24 is arranged on the right side of the top of the machine body 1, a wrapping wheel 25 is arranged in the middle of the right side of the inner side of the machine body 1, a folding forming mechanism 27 is arranged at the bottom, an electric cabinet 29 is arranged on the left side of the front end of the machine body 1.

Wherein, the inside of the electric cabinet 29 is provided with a controller, and the surface of the controller is provided with a control key, which is beneficial to the operation of the control equipment.

The inner side of the controller is provided with a circuit board, and the left side of the circuit board is provided with ports which are respectively electrically connected with an automatic material receiving and changing device 5, a first tension material storage controller 6, a first driving traction device 7, a first full-automatic material deviation correcting device 8, a small spiral glue sprayer 9, a first conveying air box 10, a distance width adjusting device 12, a servo driving speed reducer 14, a second automatic hot material receiving and changing device 17, a second tension material storage controller 18, a second driving traction device 19, a bulky cloth interval breaking device 20, a vibration mechanism 22, a second conveying air box 26, a folding forming mechanism 27 and a hot pressing groove device 28, so that each electrified element can be controlled conveniently.

Wherein, distance width adjusting device 12, the antiseized roller of axle center heating 13 and servo drive speed reducer 14 all are provided with 4, and distance width adjusting device 12, the antiseized roller of axle center heating 13 and servo drive speed reducer 14 set up respectively in first group's polymer 11, second group's polymer 21, third group's polymer 23 and the 24 bottom inboards of fourth group's polymer, are favorable to the processing of polymer raw materials.

The first conveying air box 10 and the second conveying air box 26 are identical in size, and fixing frames are arranged on the periphery of the first conveying air box 10 and the periphery of the second conveying air box 26, so that equipment can be mounted conveniently.

Wherein, the folding forming mechanism 27 is placed at an oblique angle of 45 degrees, and the left and right sides of the bottom of the folding forming mechanism 27 are provided with driving wheels, which is beneficial to the forming of the core body.

Wherein, the third group polymer 23 and the fourth group polymer 24 bottom is provided with little spiral and spouts gluey ware 9, and third group polymer 23 and fourth group polymer 24 interval are 20cm, are favorable to the level of raw materials to be added.

Wherein, the small spiral glue sprayer 9 is PEC-3240 small spiral glue sprayer with good adhesion effect.

The servo drive speed reducer 14 is a GR17 servo drive speed reducer, and is high in rotating speed and low in power consumption.

The coated dust-free paper A roll 3 and the coated dust-free paper B roll 4 are also called dry papermaking non-woven fabrics, and are one kind of dry non-woven fabrics. The dust-free paper has unique physical properties, is high in elasticity, soft, excellent in hand feeling and drapability, extremely high in water absorption and good in water retention performance, and is widely applied to the fields of health care products, special medical products, industrial wiping products and the like.

The working principle is as follows: firstly, the baby pants ultrathin absorbent is manufactured and moved to a proper position on line, an electric cabinet 29 is connected with an external power supply to provide sufficient kinetic energy for the operation of equipment, a coated dust-free paper A roll 3 and a coated dust-free paper B roll 4 are inserted into the inner side of the front end of a machine body and are connected with an automatic material receiving and changing device 5, a wound bulking cloth A roll 5 and a wound bulking cloth B roll 16 are inserted into the inner side of the rear end of the machine body, the equipment is started by pressing a control key on the inner side of an electric cabinet 30, the coated dust-free paper A roll 3 and the coated dust-free paper B roll 4 are automatically uncoiled, the dust-free paper is conveyed to a first tension material storage controller 6 through the automatic material receiving and changing device 5, the dust-free paper is pulled to a proper position by a first driving and pulling device 7, the dust-free paper is automatically screened by a first full-automatic material deviation correcting device 8, the screened dust-free paper is conveyed to a first conveying wind box 10 after being screened, the first group of macromolecules 11 and the dust-free paper are compounded through a mandrel heating anti-sticking roller 13 and a servo driving speed reducer 14, then a winding expansion cloth A roll 5 and a winding expansion cloth B roll 16 are automatically uncoiled, the expansion cloth is transmitted to a second tension storage controller 18 through a second automatic thermal connection material-changing device 17, the expansion cloth is pulled to a proper position through a second driving traction device, the expansion cloth is cut through a expansion cloth interval rolling-cutting device 20, the expansion cloth falls into a first conveying air box 10 to be compounded with the first group of macromolecules 11, then the second group of macromolecules 21 is subjected to position positioning through a distance width adjusting device 12, the second group of macromolecules 21 and the interval rolling-cutting expansion cloth are scattered through the mandrel heating anti-sticking roller 13 and the servo driving speed reducer 14, the second group of macromolecules 21 are scattered on the expansion cloth, the second group of macromolecules 21 enter a bottom layer of the dust-free paper through a vibration mechanism 22, forming polymer application, then automatically lifting the third polymer 23 and the fourth polymer 24, positioning the third polymer 23 and the fourth polymer 24 by a distance width adjusting device 12, heating the anti-sticking roller 13 by a shaft center and releasing the third polymer 23 and the fourth polymer 24 by a servo drive speed reducer 14 so that the third polymer 23 and the fourth polymer 24 are combined with the vibrated bulky cloth by a small spiral glue sprayer, then the coated dust-free paper flows through the coating wheel 25 and is drawn by the second air delivery box 26, so that the coated dust-free paper is rolled and molded on the surface of the folding and molding mechanism 27, the molded dust-free cloth core body is transmitted to the hot-pressing groove device 28, the overlapping part of the dust-free paper coating is pressed flat, no convex fall exists, the flow guide effect is achieved instead of separating the front side and the back side, the composite forming with the production line achieves the beneficial effects that the equipment realizes automatic material feeding, the viscosity of the manufactured finished product is good, the gram weight of the water body material is consistent, the side leakage is not easy to occur, the product cost is reduced, and the production efficiency is high.

The basic principle and the main characteristics of the utility model and the advantages of the utility model have been shown and described above, and the utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the record of the description with the drawing, and the concrete connection mode of each part all adopts conventional means such as ripe bolt rivet among the prior art, welding, and machinery, part and equipment all adopt prior art, conventional model, and conventional connection mode in the prior art is adopted in addition to circuit connection, and the details are not repeated here.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides an ultra-thin absorbent body making devices of baby's trousers class which the characterized in that includes: the device comprises a machine body (1), a mounting seat (2), a coated dust-free paper roll A (3), a coated dust-free paper roll B (4), an automatic material receiving and changing device (5), a first tension storage controller (6), a first driving traction device (7), a first full-automatic material deviation correcting device (8), a small spiral glue sprayer (9), a first conveying air box (10), a first group of macromolecules (11), a distance width adjusting device (12), an axle center heating anti-sticking roller (13), a servo driving speed reducer (14), a winding expanding cloth roll A (15), a winding expanding cloth roll B (16), a second automatic heat connecting and material changing device (17), a second tension storage controller (18), a second driving traction device (19), a bulking cloth interval rolling and cutting device (20), a second group of macromolecules (21), a vibrating mechanism (22), a third group of macromolecules (23), a fourth group of macromolecules (24), The device comprises a coating wheel (25), a second conveying air box (26), a folding forming mechanism (27), a hot pressing groove device (28) and an electric cabinet (29), wherein a mounting seat (2) is arranged at the top end of the machine body (1), a coating dust-free paper A roll (3) is arranged at the bottom of the inner side of the machine body (1), a coating dust-free paper B roll (4) is arranged on the right side of the coating dust-free paper A roll (3), the left side of the coating dust-free paper B roll (4) is connected with a first tension storage controller (6) in an inserting mode through an automatic material receiving and changing device (5), the left side of the first tension storage controller (6) is rotatably connected with a first driving traction device (7), a first full-automatic material deviation rectifying device (8) is arranged at the top of the first driving traction device (7), the left side of the first full-automatic material deviation rectifying device (8) is connected with the first conveying air box (10) through a small spiral glue sprayer (, the machine body is characterized in that a first group of macromolecules (11) are arranged on the left side of the top end of the machine body (1), a distance width adjusting device (12) is arranged at the bottom of the first group of macromolecules (11), an axis heating anti-sticking roller (13) is arranged at the bottom of the distance width adjusting device (12), the left side of the axis heating anti-sticking roller (13) is connected with a servo drive speed reducer (14) in an inserting mode, a winding expanding cloth A roll (15) is arranged at the bottom of the rear end of the machine body (1), a winding expanding cloth B roll (16) is arranged on the right side of the winding expanding cloth A roll (15), the top of the winding expanding cloth B roll (16) is connected with a second automatic thermal connection material conversion device (17) in an inserting mode, a second tension material storage controller (18) is arranged on the left side of the second automatic thermal connection material conversion device (17), and a second drive traction device (19) is, the utility model discloses a machine body, including second drive draw gear (19), organism (1), second group polymer (21), vibration mechanism (22) are provided with in second drive draw gear (19) top, organism (1) top middle part is provided with third group polymer (23), organism (1) top right side is provided with fourth group polymer (24), organism (1) inboard right side middle part is provided with cladding wheel (25), cladding wheel (25) bottom is provided with folding forming mechanism (27), folding forming mechanism (27) middle part is provided with second and carries wind box (26), organism (1) right-hand member inboard is provided with hot-pressing groove device (28), organism (1) front end left side is provided with electric cabinet (29).

2. The device for manufacturing the ultra-thin absorbent body of baby pants as claimed in claim 1, wherein: the inner side of the electric cabinet (29) is provided with a controller, and the surface of the controller is provided with a control key.

3. The device for manufacturing the ultra-thin absorbent body of baby pants as claimed in claim 2, wherein: the automatic material changing and receiving device is characterized in that a circuit board is arranged on the inner side of the controller, and ports are arranged on the left side of the circuit board and are respectively electrically connected with an automatic material changing device (5), a first tension storage controller (6), a first driving traction device (7), a first full-automatic material correcting device (8), a small spiral glue sprayer (9), a first conveying air box (10), a distance width adjusting device (12), a servo driving speed reducer (14), a second automatic thermal material changing and receiving device (17), a second tension storage controller (18), a second driving traction device (19), a bulky cloth interval breaking device (20), a vibration mechanism (22), a second conveying air box (26), a folding and forming mechanism (27) and a hot pressing groove device (28).

4. The device for manufacturing the ultra-thin absorbent body of baby pants as claimed in claim 1, wherein: distance width adjusting device (12), axle center heating anti-sticking roller (13) and servo drive speed reducer (14) all are provided with 4, and distance width adjusting device (12), axle center heating anti-sticking roller (13) and servo drive speed reducer (14) set up respectively in first group polymer (11), second group polymer (21), third group polymer (23) and fourth group polymer (24) bottom inboard.

5. The device for manufacturing the ultra-thin absorbent body of baby pants as claimed in claim 1, wherein: the first air conveying box (10) and the second air conveying box (26) are identical in size, and fixing frames are arranged on the periphery of the first air conveying box (10) and the periphery of the second air conveying box (26).

6. The device for manufacturing the ultra-thin absorbent body of baby pants as claimed in claim 1, wherein: the folding and forming mechanism (27) is placed in a 45-degree oblique angle mode, and driving wheels are arranged on the left side and the right side of the bottom of the folding and forming mechanism (27).

7. The device for manufacturing the ultra-thin absorbent body of baby pants as claimed in claim 1, wherein: the bottom of the third group of high polymer (23) and the fourth group of high polymer (24) is provided with a small spiral glue sprayer (9), and the interval between the third group of high polymer (23) and the fourth group of high polymer (24) is 20 cm.

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