CN219249240U - No trace underwear production line - Google Patents

Abstract

The application discloses no trace underwear production line includes: the conveying line is provided with a first feeding station, a glue brushing station, a second feeding station and a baking station along the conveying direction; the first feeding device is used for placing the fabric to a first feeding station; the glue brushing device is arranged at the glue brushing station and is used for brushing the glue on the fabric of the glue brushing station; the second feeding device is arranged at the second feeding station and is used for covering the other fabric on the fabric brushed with the glue; the oven is arranged at the baking station. Realize the automation of surface fabric and move and carry through the transfer chain, and follow the first loading attachment that the production direction set up, brush gluey device, second loading attachment, oven have realized the automatic feeding of surface fabric, brush gluey, laminate automatically and toast automatically to, realized the automatic laminating of two surface fabrics through the seamless underwear production line of this application, improved production efficiency, and reduced manual intervention, avoided the adverse condition that manual intervention leads to, improved the finished product quality.

Description

No trace underwear production line

Technical Field

The application relates to the technical field of clothes production equipment, in particular to a seamless underwear production line.

Background

In the prior art, two pieces of fabric are required to be sewn together through threads, and after the underwear is worn, the positions of the threads can cause discomfort of skin, so that the underwear is uncomfortable to wear. In the related art, a seamless underwear is disclosed, two pieces of fabrics are attached through glue, a process of manufacturing a suture is replaced, and the production of the suture on the underwear is reduced or completely avoided.

In the related art, in order to produce the seamless underwear, two fabrics are required to be attached through glue, specifically, a first fabric is placed on a glue brushing station of a glue brushing device through manpower, the glue is brushed on the first fabric through the glue brushing device, after the glue brushing is completed, a second fabric is manually aligned with the first fabric and attached to the first fabric, the attachment of the two fabrics is completed, then the attached two fabrics are placed in an oven, the glue is solidified, and the two fabrics are attached tightly.

However, the production process of the seamless underwear needs to be manually fed and the fabric is attached, so that the production efficiency is low, and the fabric is easily wrinkled due to the manual feeding and the manual attaching, so that the quality of a finished product is low.

Disclosure of Invention

The present application aims to solve at least one of the technical problems existing in the prior art. Therefore, the application provides a seamless underwear production line, can laminate two fabrics by automatic, improves production efficiency and finished product quality.

According to an embodiment of the present application, a seamless underwear production line includes: transfer chain, first loading attachment, brush gluey device, second loading attachment, oven.

The conveying line is provided with a first feeding station, a glue brushing station, a second feeding station and a baking station along the conveying direction;

the first feeding device is used for placing the fabric to a first feeding station;

the glue brushing device is arranged at the glue brushing station and is used for brushing the glue on the fabric of the glue brushing station;

the second feeding device is arranged at the second feeding station and is used for covering the other fabric on the fabric brushed with the glue;

the oven is arranged at the baking station.

The seamless underwear production line according to the embodiment of the first aspect of the application has at least the following beneficial effects: realize the automation of surface fabric and move and carry through the transfer chain, and follow the first loading attachment that the production direction set up, brush gluey device, second loading attachment, oven have realized the automatic feeding of surface fabric, brush gluey, laminate automatically and toast automatically to, realized the automatic laminating of two surface fabrics through the seamless underwear production line of this application, improved production efficiency, and reduced manual intervention, avoided the adverse condition that manual intervention leads to, improved the finished product quality.

According to some embodiments of the present application, the conveyor line comprises a conveyor belt, a conveyor drive mechanism, a vacuum adsorption mechanism; the conveying driving mechanism is in driving connection with the conveying belt and is used for enabling the conveying belt to rotate; the vacuum adsorption mechanism is connected with the conveying belt and used for adsorbing the fabric on the conveying belt.

According to some embodiments of the application, the vacuum adsorption mechanism comprises an air suction plate and a vacuum generator, wherein the air suction plate is positioned below the conveying belt, a plurality of first suction holes are formed in the air suction plate, a plurality of second suction holes are formed in the conveying belt, the first suction holes and the second suction holes can be communicated, and the vacuum generator is communicated with the first suction holes.

According to some embodiments of the present application, the fabric loading device further comprises a first material storage position, the first material storage position is arranged at the side of the first material loading station, the first material storage position is used for storing the fabric, the first material loading device comprises a first material rack and a first material taking mechanism, the first material rack is arranged above the first material storage position and the first material loading station, the first material taking mechanism is arranged on the first material rack in a sliding manner, and the first material taking mechanism is used for transferring the fabric at the first material storage position to the first material loading station.

According to some embodiments of the present application, the second material loading station comprises a second material loading position, the second material loading position set up in the side of second material loading station, the second material loading position is used for depositing the surface fabric, second loading attachment includes second work or material rest, second feeding mechanism, the second work or material rest set up in the second material loading position with the top of second material loading station, second feeding mechanism slidable set up in the second work or material rest, the second feeding mechanism be used for with the surface fabric of second material loading position department moves to the second material loading station.

According to some embodiments of the application, the glue brushing device comprises a first vertical moving mechanism, a second vertical moving mechanism, a third vertical moving mechanism, a horizontal moving mechanism, a silk screen module and a scraper module; the horizontal moving mechanism is arranged at the movable end of the first vertical moving mechanism, and the first vertical moving mechanism is used for driving the horizontal moving mechanism to move along the vertical direction; the second vertical moving mechanism and the third vertical moving mechanism are respectively arranged at the movable end of the horizontal moving mechanism, and the horizontal moving mechanism is used for driving the second vertical moving mechanism and the third vertical moving mechanism to move along the horizontal direction; the screen mesh module is arranged at the movable end of the second vertical moving mechanism, the second vertical moving mechanism is used for driving the screen mesh module to move along the vertical direction, the scraper module is arranged at the third vertical moving mechanism, and the third vertical moving mechanism drives the scraper module to move along the vertical direction; the scraper of the scraper module is positioned above the silk screen of the silk screen module.

According to some embodiments of the application, the laminating device is arranged between the second feeding station and the baking station and is used for laminating the two laminated fabrics.

According to some embodiments of the present application, the pressing device includes a pressing driving member, a pressing plate; the pressing plate is located above the conveying line, and the pressing driving piece is in driving connection with the pressing plate and used for enabling the pressing plate to move in the vertical direction.

Additional aspects and advantages of the application will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the application.

Drawings

The application is further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a perspective view of a seamless undergarment production line of an embodiment of the present application;

fig. 2 is a schematic structural diagram of the first feeding device in fig. 1;

FIG. 3 is a schematic structural view of the glue brushing apparatus in FIG. 1;

FIG. 4 is a schematic view of the pressing device in FIG. 1;

fig. 5 is a schematic structural view of the conveyor line in fig. 1.

Reference numerals:

a conveyor line 100; a conveyor belt 110, a second suction hole 111; a wind plate 120 and a first suction hole 121;

a first feeding device 200; a first rack 210; a first extracting mechanism 220, a first slide 221, a first vertical drive 222, a first horizontal drive 223, a first extracting plate 224;

a glue brushing device 300; a first vertical movement mechanism 310, a second vertical movement mechanism 320, a third vertical movement mechanism 330, a horizontal movement mechanism 340, a screen module 350, a doctor module 360;

a second feeding device 400, a second material rack 410 and a second material taking mechanism 420;

an oven 500;

a first storage level 600, a second storage level 700;

a pressing device 800, a pressing driving member 810, and a pressing plate 820;

fabric 900.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it should be understood that references to orientation descriptions, such as directions of up, down, front, back, left, right, etc., are based on the orientation or positional relationship shown in the drawings, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

In the description of the present application, the meaning of a number is one or more, the meaning of a number is two or more, and greater than, less than, exceeding, etc. are understood to exclude the present number, and the meaning of a number above, below, within, etc. are understood to include the present number. The description of the first and second is for the purpose of distinguishing between technical features only and should not be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present application, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present application can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical solution.

In the description of the present application, a description with reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Referring to fig. 1 to 5, a seamless underwear production line according to an embodiment of the present application includes: transfer chain 100, first loading attachment 200, brush gluey device 300, second loading attachment 400, oven 500.

The conveying line 100 is provided with a first feeding station, a glue brushing station, a second feeding station and a baking station along the conveying direction;

the first feeding device 200 is used for placing the fabric 900 to a first feeding station;

the glue brushing device 300 is arranged at the glue brushing station and is used for brushing the fabric 900 at the glue brushing station;

the second feeding device 400 is arranged at a second feeding station and is used for covering the other fabric 900 on the fabric 900 brushed with glue;

the toaster 500 is arranged at the toasting station.

It can be understood that the operation process of the seamless underwear production line of the application is as follows: the first feeding device 200 places the first piece of fabric 900 to a first feeding station; the conveying line 100 moves the fabric 900 at the first feeding station to a brushing station, and the brushing device 300 brushes the upper surface of the first fabric 900; after finishing brushing, the conveying line 100 conveys the fabric 900 to a second feeding station, the second feeding device 400 covers the second fabric 900 on the first fabric 900, and the two fabrics 900 are bonded through glue; after the two pieces of fabric 900 are attached, the conveyor line 100 transmits the attached fabric 900 to the oven 500, and the fabric 900 is baked by the oven 500, so that the glue is cured, and the two pieces of fabric 900 are attached completely. It should be noted that, the end of the conveying line 100 further has a blanking station for blanking the baked fabric 900, or the end of the conveying line 100 is connected to other production devices in the production process of the traceless underwear, such as a cutting device.

According to the seamless underwear production line disclosed by the embodiment of the application, the seamless underwear production line has at least the following beneficial effects: automatic transfer of fabric 900 is realized through transfer chain 100, and first loading attachment 200, brush gluey device 300, second loading attachment 400, the oven 500 that set up along the production direction have realized automatic material loading, automatic brush gluey, automatic laminating and the automatic baking of fabric 900, thereby, realized the automatic laminating of two fabrics 900 through the seamless underwear production line of this application, improved production efficiency, and reduced manual intervention, avoided the adverse condition that manual intervention leads to, improved the finished product quality.

Referring to fig. 5, a conveyor line 100 includes a conveyor belt 110, a conveyor drive mechanism (not shown), a vacuum adsorption mechanism, according to some embodiments of the present application; the conveying driving mechanism is in driving connection with the conveying belt 110 and is used for enabling the conveying belt 110 to rotate; the vacuum adsorption mechanism is connected with the conveyer belt 110 and is used for adsorbing the fabric 900 on the conveyer belt 110.

It can be appreciated that the conveying driving mechanism drives the conveying belt 110 to rotate, so that the conveying belt 110 can drive the cloth to move, and the vacuum adsorption mechanism is matched with the conveying line 100, so that the cloth is adsorbed on the conveying line 100 through the vacuum adsorption mechanism.

The setting mode of the vacuum adsorption mechanism is as follows:

in this embodiment, referring to fig. 5, the vacuum adsorption mechanism includes an air suction plate 120 and a vacuum generator (not shown in the figure), the air suction plate 120 is located below the conveyor belt 110, a plurality of first suction holes 121 are formed on the air suction plate 120, a plurality of second suction holes 111 are formed on the conveyor belt 110, the first suction holes 121 and the second suction holes 111 can be communicated, and the vacuum generator is communicated with the first suction holes 121.

It can be appreciated that the suction plate 120 helps to improve the supporting effect of the conveying belt 110 on the fabric 900, and the conveying belt 110 can absorb the fabric 900 on the conveying belt 110 through the second suction hole 111 by sequentially communicating the vacuum generator, the first suction hole 121 and the second suction hole 111, so as to improve the stability of the conveying belt 110 when transferring the fabric 900. In addition, it should be noted that, since the conveyor belt 110 rotates all the time, the position of the second suction hole 111 moves continuously, so that the distribution of the first suction holes 121 on the suction plate 120 is denser than the distribution of the second suction holes 111 on the conveyor belt 110 in order to maintain the suction effect on the fabric 900, so that it is ensured that a part of the first suction holes 121 can communicate with the second suction holes 111, or that the first suction holes 121 cannot communicate with the second suction holes 111 only for a short time when the conveyor belt 110 rotates.

In other embodiments, the vacuum adsorption mechanism may be disposed on the conveyor belt 110, where the vacuum adsorption mechanism moves along with the conveyor belt 110, and the first feeding device 200 and the second feeding device 400 directly place the fabric 900 on the vacuum adsorption mechanism.

Referring to fig. 1 and 2, according to some embodiments of the present application, the fabric loading device further includes a first storage level 600, the first storage level 600 is disposed beside the first loading station, the first storage level 600 is used for storing the fabric 900, the first loading device 200 includes a first material rack 210 and a first material taking mechanism 220, the first material rack 210 is erected above the first storage level 600 and the first loading station, the first material taking mechanism 220 is slidably disposed on the first material rack 210, and the first material taking mechanism 220 is used for transferring the fabric 900 at the first storage level 600 to the first loading station.

It will be appreciated that the first storage level 600 is stacked with fabric 900, the first take off mechanism 220 slides over the first storage level 600 via the first rack 210, the first take off mechanism 220 takes off a sheet of fabric 900 on the first storage level 600, and then the first take off mechanism 220 slides over the first loading station via the first rack 210 and places the fabric 900 onto the first loading station.

Specifically, the first material taking mechanism 220 includes a first sliding seat 221, a first vertical driving member 222, a first horizontal driving member 223, a first material taking plate 224, and a first adsorption driving member (not shown in the drawing), where the first sliding seat 221 is slidably disposed on the first material rack 210, the first horizontal driving member 223 is used for driving the first sliding seat 221 to horizontally slide along the first material rack 210, the first vertical driving member 222 is disposed on the first sliding seat 221, the first material taking plate 224 is disposed under the first sliding seat 221 through the first vertical driving member 222, the first vertical driving member 222 is used for driving the first material taking plate 224 to move along the vertical direction, the first adsorption driving member is used for making the first material taking plate 224 have an adsorption function, for example, the first material taking plate 224 has a through hole, the first adsorption driving member is used for making the through hole generate a suction force, or the first adsorption driving member is a vacuum chuck, so as to make the first material taking plate 224 capable of adsorbing 900.

Preferably, in order to avoid the material 900 at the first storage level 600 from being reduced, which causes the material taking by the first material taking mechanism 220 to be inconvenient, the first storage level 600 may further be provided with a lifting mechanism, on which the material 900 is stacked, and when the material 900 is reduced, the lifting mechanism may lift the stacked material 900, so that the material 900 is lifted at a position so as to be convenient for the material taking by the first material taking mechanism 220.

In other embodiments, the first feeding device 200 may be a manipulator or other feeding devices in the prior art, which is not limited herein.

Referring to fig. 1, according to some embodiments of the present application, the device further includes a second storage level 700, the second storage level 700 is disposed beside the second loading station, the second storage level 700 is used for storing the fabric 900, the second loading device 400 includes a second material rack 410 and a second material taking mechanism 420, the second material rack 410 is disposed above the second storage level 700 and the second loading station, the second material taking mechanism 420 is slidably disposed on the second material rack 410, and the second material taking mechanism 420 is used for transferring the fabric 900 at the second storage level 700 to the second loading station.

It will be appreciated that the second storage level 700 is stacked with fabric 900, the second take off mechanism 420 slides over the second storage level 700 via the second carriage 410, the second take off mechanism 420 takes off two sheets of fabric 900 on the second storage level 700, and then the second take off mechanism 420 slides over the second loading station via the second carriage 410 and places the fabric 900 onto the second loading station.

Specifically, the second material taking mechanism 420 includes a second slide, a second vertical driving member, a second horizontal driving member, a second material taking plate, and a second adsorption driving member, where the second slide is slidably disposed on the second material rack 410, the second horizontal driving member is used to drive the second slide to slide horizontally along the second material rack 410, the second vertical driving member is disposed on the second slide, the second material taking plate is disposed under the second slide through the second vertical driving member, the second vertical driving member is used to drive the second material taking plate to move along the vertical direction, and the second adsorption driving member is used to make the second material taking plate have an adsorption function, for example, the second material taking plate has a through hole, and the second adsorption driving member is used to make the through hole generate a suction force, or the second adsorption driving member is a vacuum chuck, so that the second material taking plate can adsorb the fabric 900.

In other embodiments, the second feeding device 400 may be a manipulator or other feeding devices in the prior art, which is not limited herein.

Referring to fig. 3, a brushing apparatus 300 includes a first vertical moving mechanism 310, a second vertical moving mechanism 320, a third vertical moving mechanism 330, a horizontal moving mechanism 340, a screen module 350, and a doctor module 360 according to some embodiments of the present application; the horizontal moving mechanism 340 is disposed at a movable end of the first vertical moving mechanism 310, and the first vertical moving mechanism 310 is used for driving the horizontal moving mechanism 340 to move along a vertical direction; the second vertical moving mechanism 320 and the third vertical moving mechanism 330 are respectively arranged at the movable end of the horizontal moving mechanism 340, and the horizontal moving mechanism 340 is used for driving the second vertical moving mechanism 320 and the third vertical moving mechanism 330 to move along the horizontal direction; the screen module 350 is disposed at a movable end of the second vertical moving mechanism 320, the second vertical moving mechanism 320 is used for driving the screen module 350 to move along a vertical direction, the scraper module 360 is disposed at the third vertical moving mechanism 330, and the third vertical moving mechanism 330 drives the scraper module 360 to move along the vertical direction; the blades of the blade module 360 are positioned over the screen of the screen module 350.

It can be appreciated that, since the second vertical moving mechanism 320 and the third vertical moving mechanism 330 are disposed on the horizontal moving mechanism 340, and the wire mesh module 350 is disposed on the second vertical moving mechanism 320, the doctor module 360 is disposed on the third vertical moving mechanism 330, so that the vertical moving mechanism drives the horizontal moving mechanism 340 to move along the vertical direction, so that the horizontal moving mechanism 340, the second vertical moving mechanism 320, the third vertical moving mechanism 330, the wire mesh module 350 and the doctor module 360 are integrally close to or far away from the conveying line 100, so as to adjust the distance between the doctor module and the conveying line 100.

When the fabric 900 needs to be glued, only the second vertical moving mechanism 320 is required to drive the screen module 350 to descend to be close to the fabric 900, the screen (not shown in the figure) of the screen module 350 covers the fabric 900, the third vertical moving mechanism 330 drives the scraper module 360 to descend to be close to the screen of the screen module 350, the scraper of the scraper module 360 abuts against the screen, the scraper module 360 horizontally scrapes the screen module 350 under the drive of the horizontal moving mechanism 340, and glue in the screen module 350 overflows to the fabric 900, so that glue brushing is completed. It should be appreciated that the driving force required to drive the screen module 350 and the doctor module 360 to move in the vertical direction is reduced and dispersed by the connection of the screen module 350 and the doctor module 360 by the second and third vertical moving mechanisms 320 and 330, respectively.

In addition, since the screen module 350 is disposed on the horizontal moving mechanism 340 through the second vertical moving mechanism 320, the position of the screen module 350 can be moved by the horizontal moving mechanism 340, so as to adapt to the position of the fabric 900 to be glued, more specifically, the second vertical moving mechanism 320 includes two, two second vertical moving mechanisms 320 are detachably connected to two ends of the screen module 350, so that the position of the second vertical moving mechanism 320 is moved by the horizontal moving mechanism 340, the interval between the second vertical moving mechanisms 320 can be adjusted, and thus the screen module 350 with different sizes can be replaced.

In order to make the laminating effect between two fabrics 900 better, referring to fig. 1 and 4, still include compression fittings 800, compression fittings 800 set up between second material loading station and toast the station for laminate two fabrics 900 after laminating.

It can be understood that after the two pieces of fabric 900 are laminated, the second feeding station moves to the lower side of the laminating device 800 through the conveying line 100, and the laminating device 800 presses the two pieces of laminated fabric 900, so that the two pieces of fabric 900 are laminated more tightly.

With reference to the specific structure of the pressing device 800, specifically referring to fig. 4, the pressing device 800 includes a pressing driving member 810 and a pressing plate 820; the pressing plate 820 is located above the conveying line 100, and the pressing driver 810 drives the pressing plate 820 to move the pressing plate 820 in a vertical direction.

It can be appreciated that after the attached fabric 900 moves below the pressing device 800, the pressing driving member 810 drives the pressing plate 820 to press down, and the pressing plate 820 cooperates with the conveying line 100 to press the two fabrics 900.

The embodiments of the present application have been described in detail above with reference to the accompanying drawings, but the present application is not limited to the above embodiments, and various changes can be made within the knowledge of one of ordinary skill in the art without departing from the spirit of the present application. Furthermore, embodiments of the present application and features of the embodiments may be combined with each other without conflict.

Claims (8)

1. No trace underwear production line, its characterized in that includes:

the conveying line is provided with a first feeding station, a glue brushing station, a second feeding station and a baking station along the conveying direction;

the first feeding device is used for placing the fabric to a first feeding station;

the glue brushing device is arranged at the glue brushing station and is used for brushing the glue on the fabric of the glue brushing station;

the second feeding device is arranged at the second feeding station and is used for covering the other fabric on the fabric brushed with the glue;

the oven is arranged at the baking station.

2. The seamless undergarment production line of claim 1 wherein the conveyor line comprises a conveyor belt, a conveyor drive mechanism, a vacuum adsorption mechanism; the conveying driving mechanism is in driving connection with the conveying belt and is used for enabling the conveying belt to rotate; the vacuum adsorption mechanism is connected with the conveying belt and used for adsorbing the fabric on the conveying belt.

3. The traceless undergarment production line of claim 2 wherein the vacuum suction mechanism comprises a suction plate and a vacuum generator, the suction plate is positioned below the conveyor belt, a plurality of first suction holes are formed in the suction plate, a plurality of second suction holes are formed in the conveyor belt, the first suction holes and the second suction holes can be communicated, and the vacuum generator is communicated with the first suction holes.

4. The traceless undergarment production line of claim 1, further comprising a first storage level disposed beside the first loading station, the first storage level being for storing a fabric, the first loading device comprising a first rack, a first take-off mechanism, the first rack being disposed above the first storage level and the first loading station, the first take-off mechanism being slidably disposed on the first rack, the first take-off mechanism being for transferring the fabric at the first storage level to the first loading station.

5. The traceless undergarment production line of claim 1, further comprising a second storage level disposed beside the second loading station, the second storage level being for storing a fabric, the second loading device comprising a second rack, a second take out mechanism, the second rack being disposed above the second storage level and the second loading station, the second take out mechanism being slidably disposed in the second rack, the second take out mechanism being for transferring the fabric at the second storage level to the second loading station.

6. The traceless undergarment production line of claim 1 wherein the brushing device comprises a first vertical movement mechanism, a second vertical movement mechanism, a third vertical movement mechanism, a horizontal movement mechanism, a screen module, a doctor module; the horizontal moving mechanism is arranged at the movable end of the first vertical moving mechanism, and the first vertical moving mechanism is used for driving the horizontal moving mechanism to move along the vertical direction; the second vertical moving mechanism and the third vertical moving mechanism are respectively arranged at the movable end of the horizontal moving mechanism, and the horizontal moving mechanism is used for driving the second vertical moving mechanism and the third vertical moving mechanism to move along the horizontal direction; the screen mesh module is arranged at the movable end of the second vertical moving mechanism, the second vertical moving mechanism is used for driving the screen mesh module to move along the vertical direction, the scraper module is arranged at the third vertical moving mechanism, and the third vertical moving mechanism drives the scraper module to move along the vertical direction; the scraper of the scraper module is positioned above the silk screen of the silk screen module.

7. The traceless undergarment production line of claim 1 further comprising a stitching device disposed between the second loading station and the baking station for stitching the two bonded panels.

8. The seamless undergarment production line of claim 7 wherein the compression device comprises a compression drive, a compression plate; the pressing plate is located above the conveying line, and the pressing driving piece is in driving connection with the pressing plate and used for enabling the pressing plate to move in the vertical direction.

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