CN214193676U - Full-automatic fat quilt sewing production line - Google Patents

Abstract

The utility model relates to a full-automatic quilt sewing production line, which comprises a cotton rack, wherein a rotatable cotton roll is arranged in the cotton rack; the cotton material transmission channel is arranged on one side of the cotton material rack; two cloth racks arranged in sequence are positioned below the cotton material conveying channel; the two cloth racks are provided with rotatable cloth rolls; the cloth transmission component is positioned on one side of the cloth frame; the labeling mechanism is arranged on one side of the cloth rack of the cotton rack; the transverse sewing mechanism is arranged on one side of the labeling mechanism, and the tail end of the cotton material conveying channel is arranged above the transverse sewing mechanism; the steering mechanism is arranged on one side of the transverse sewing mechanism; the longitudinal sewing mechanism is arranged on one side of the steering mechanism; the utility model discloses can transversely sew up cotton material and two cloths that have the label automatically to cotton material when the transversal joint adopts the mode of pressing the seam to make up, turns to the back through steering mechanism after then and conveys the surface fabric to vertically sewing up mechanism department and vertically sew up the back and accomplish processing.

Description

Full-automatic fat quilt sewing production line

Technical Field

The utility model relates to a processing equipment in textile field especially relates to a full-automatic fat quilt is made up production line.

Background

In daily life, a quilt is a common daily article, wherein the fat quilt is one of various quilts, the fat quilt is mainly formed by sewing four edges of a layer of cotton material and two layers of cloth, and meanwhile, a label is required to be sewn between the two layers of cloth.

At present, the processing mode to fat quilt adopts the manual work to control the equipment that corresponds respectively to carry out independent substep processing mostly, such processing mode not only the recruitment number is many, lead to recruitment with high costs, holistic production efficiency is also low moreover, simultaneously because the compliance of cotton material and the characteristic of thickness, the cotton material must adopt the pressure seam just can accomplish effectual processing, this also is the problem that must solve in actual production, but does not have such full-automatic fat quilt at present and makes up the production line and can satisfy above-mentioned demand.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art not enough and providing a can accomplish cotton material automatically and four sides of two-layer cloth are sewed up, make up the label between two-layer cloth simultaneously, full automation is accomplished to cotton material when the transversal joint adopts the mode of pressing the seam to make up, and convenient operation is swift, and the production line is made up to full-automatic fat quilt that machining efficiency is high.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a full-automatic fat quilt sewing production line comprises:

the cotton material rack is internally provided with a rotatable cotton material roll;

the cotton material conveying channel is arranged on one side of the cotton material rack;

the cotton cloth feeding device comprises two cloth racks which are arranged in sequence, wherein the two cloth racks are positioned below a cotton material conveying channel, the two cloth racks are arranged on one side of the cotton material rack in sequence, and rotatable cloth rolls are arranged on the two cloth racks;

the cloth conveying assembly is positioned on one side of the cloth frame;

the labeling mechanism is arranged on one side of the cotton material distribution frame far away from the cotton material frame, and is positioned below the cotton material transmission channel;

the transverse sewing mechanism is arranged on one side of the labeling mechanism, and the tail end of the cotton material conveying channel is arranged above the transverse sewing mechanism;

the steering mechanism is arranged on one side of the transverse sewing mechanism;

the longitudinal sewing mechanism is arranged on one side of the steering mechanism;

wherein, the cotton material in the cotton material roll is conveyed to the transverse sewing mechanism through the cotton material conveying channel;

the cloth in the two cloth rolls is synchronously conveyed up and down to the labeling mechanism through the two cloth conveying assemblies, the labeling mechanism forms a double-layer cloth with labels after the labels are attached between the two cloth, and the double-layer cloth is conveyed to the transverse sewing mechanism;

the cotton material and the double-layer cloth are sewn into three-layer fabric by the transverse sewing mechanism, and then are turned by the turning mechanism to be longitudinally transmitted and then are sent to the longitudinal sewing mechanism for longitudinal sewing.

Furthermore, a roller for driving the cotton roll and the cloth roll to rotate is arranged in the cotton rack and the cloth rack.

Further, the labeling mechanism includes:

the laminating machine frame is provided with a bearing space;

the label discharging mechanism is arranged in the bearing space and comprises a first label discharging machine and a second label discharging machine which are sequentially arranged;

the sliding guide rail is arranged at the longitudinal position of the mark discharging mechanism;

send mark mechanism, send mark mechanism slidable to locate on the sliding guide, send mark mechanism includes:

the sliding block is arranged on the sliding guide rail in a sliding manner;

the fixed plate is arranged on the sliding block, and a compression plate is arranged at the front end of the fixed plate;

the positioning block is arranged on the pressing plate;

the two label pressing transmission components are arranged at two ends of the positioning block in parallel; the label pressing transmission assembly comprises a label pressing cylinder arranged on the fixing plate; the front end of the marking pressing cylinder is rotatably connected with the first movable plate; the first movable plate is movably connected to the positioning block, and a label pressing strip used for pressing a label on the pressing plate is arranged at the bottom of the first movable plate;

the label clamping and conveying assembly is arranged at one end of the sliding guide rail in a transverse sliding mode and used for clamping and taking labels in the label pressing and conveying assembly.

Further, the clip transmission assembly comprises:

the label clamping bracket is arranged on the laminating rack;

the pushing cylinder is arranged on the label clamping bracket;

the label clamping sliding rail is arranged on the label clamping bracket;

the label clamping sliding block is driven by the pushing cylinder to be arranged on the label clamping sliding rail in a sliding mode;

the label clamping mechanical arm is arranged on the label clamping sliding block and used for clamping a label sent by the label pressing mechanism, the label clamping mechanical arm comprises a label clamping bottom plate, a label clamping cylinder is arranged on the label clamping bottom plate, and the front end of the label clamping cylinder is connected with a label clamping upper plate; the upper label clamping plate is rotatably arranged on the positioning block, and the positioning block is arranged on the label clamping bottom plate;

the label pressing transmission assembly is arranged on one side of the label clamping manipulator and comprises a cloth pressing cylinder; the front end of the cloth pressing cylinder is rotatably connected with the switching strip; one end of the switching strip is rotatably arranged on the base, and the other end of the switching strip is provided with a roller; one side of the roller is provided with a transmission roller.

Furthermore, the transverse sewing mechanism comprises two transverse sewing machines which are oppositely arranged, and a pressing wheel structure is arranged on one side of each transverse sewing machine; the pinch roller structure comprises a pinch roller bracket, two pinch roller assemblies which are oppositely arranged on the pinch roller bracket, wherein each pinch roller assembly comprises two first pinch rollers which are oppositely arranged, and two second pinch rollers are arranged below the first pinch rollers; the first pressing wheel and the second pressing wheel are connected through a synchronous belt; the synchronous belt is also provided with two oppositely arranged third pressing wheels, the third pressing wheels are arranged on the pressing wheel support, and the third pressing wheels are positioned between the two second pressing wheels.

Further, the steering mechanism includes:

the bogie is provided with an accommodating space;

the two rollers are arranged in the accommodating space and used for conveying the fabric;

the cloth cutting mechanism is arranged at the front end of the roller and used for cutting the fabric;

the label pressing transmission assembly is arranged at the rear end of the roller and comprises an upper pressing plate, the upper pressing plate is driven to press downwards by a plurality of pressing cylinders, and a lower pressing plate is arranged below the upper pressing plate;

the fabric grabbing component is arranged at the rear end of the pressing mark transmission component and is used for grabbing the fabric and then transmitting the fabric backwards;

the cloth feeding assembly is arranged between the roller and the cloth pressing plate and is used for feeding the fabric to the longitudinal sewing mechanism.

Further, the longitudinal sewing mechanism comprises two longitudinal sewing machines which are arranged oppositely.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

the utility model discloses the production line is made up to full-automatic fat quilt of scheme, the automatic transmission to cotton material and two cloths of accomplishing of during operation, then accomplish earlier the laminating to the label between two cloths, transversely sew up cotton material and the cloth that has the label again to cotton material when the transversal joint adopts the mode of pressing the seam to make up, turn to the back through steering mechanism and convey the surface fabric to vertically sewing up mechanism department and vertically sew up after then, thereby accomplish the processing to fat quilt automatically.

Drawings

The technical scheme of the utility model is further explained by combining the attached drawings as follows:

FIG. 1 is a front view of the present invention;

FIG. 2 is a perspective view of the present invention;

FIG. 3 is an enlarged view of section E of FIG. 2;

FIG. 4 is a schematic perspective view of the labeling mechanism;

FIG. 5 is a front view of the labeling mechanism;

FIG. 6 is an enlarged view of portion A of FIG. 5;

FIG. 7 is a schematic view of another perspective of the labeling mechanism;

FIG. 8 is an enlarged view of portion B of FIG. 7;

FIG. 9 is an enlarged view of portion C of FIG. 7;

FIG. 10 is a schematic view of another perspective of the labeling mechanism;

FIG. 11 is an enlarged view of portion D of FIG. 10;

FIG. 12 is a perspective view of the steering mechanism;

wherein: cotton rack 1, cotton material transmission channel 2, cloth rack 3, cloth transmission component 4, labeling mechanism 5, transverse sewing mechanism 6, steering mechanism 7, longitudinal sewing mechanism 8, attaching rack 50, first label discharging machine 51, second label discharging machine 52, sliding guide rail 53, label feeding mechanism 54, sliding block 540, fixing plate 541, positioning block 542, label pressing cylinder 543, first movable plate 544, label pressing strip 545, label clamping bracket 546, pushing cylinder 547, label clamping slide rail 548, label clamping slide 549, label clamping bottom plate 550, label clamping cylinder 551, label clamping upper plate 552, positioning block 553, cloth pressing cylinder 60, switching strip 61, base 62, roller 63, transmission roller 64, steering rack 70, roller 71, cloth cutting mechanism 72, label pressing transmission component 73, cloth clamping component 74, cloth feeding component 75, upper plate 730, lower pressing cylinder 731, lower pressing plate 732, press wheel bracket 80, first press wheel 81, second press wheel 82, A synchronous belt 83 and a third press wheel 84.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-12, the present invention provides a full-automatic quilt sewing line, which comprises a cotton frame 1, a cotton transmission channel 2, two cloth frames 3 sequentially arranged, a cloth transmission assembly 4 located on one side of the cloth frame 3, a labeling mechanism 5, a transverse sewing mechanism 6, a steering mechanism 7 and a longitudinal sewing mechanism 8.

The cotton material conveying device comprises a cotton material rack 1, a rotary drum 10, a cotton material roll, a cotton material conveying channel 2 and a cotton material conveying channel, wherein the rotary drum 10 is arranged in the cotton material rack 1, the rotary cotton material roll is arranged on the rotary drum, cotton materials are conveyed out of the cotton material roll 10, the cotton material conveying channel 2 is located on one side of the cotton material rack 1, the cotton material conveying channel 2 is composed of three synchronous conveying belts, and the cotton materials on the cotton material roll 10 are conveyed above the cotton material conveying channel 2.

Two cloth racks 3 are arranged below the cotton material transmission channel 2, the two cloth racks 3 are sequentially arranged on one side of the cotton material rack 1, cloth transmission assemblies 4 are arranged on one sides of the two cloth racks 3, cloth rolls 30 located on a roller are arranged in the cloth racks 3, cloth in the two cloth rolls 30 is synchronously conveyed up and down to the labeling mechanism 5 through the two corresponding cloth transmission assemblies 4, and a label is attached between the two cloth by the labeling mechanism 5 to form a double-layer cloth with the label.

Specifically, the labeling mechanism 5 comprises a laminating rack 50, a label discharging mechanism, a sliding guide rail 53, a label feeding mechanism 54 and a label clamping transmission assembly, wherein a bearing space is arranged in the laminating rack 50; the label outlet mechanism is arranged in the bearing space and comprises a first label outlet 51 and a second label outlet 52 which are sequentially arranged, and two labels are sequentially transmitted out from the first label outlet 51 and the second label outlet 52 during working.

The label sending mechanism 54 is slidably arranged on the sliding guide rail 53, the label sending mechanism 54 is longitudinally arranged on one side of the label outlet mechanism, and the label sending mechanism 54 is used for clamping labels transmitted from the first label outlet mechanism 51 and the second label outlet mechanism 52 and then sending the clamped labels to a subsequent label clamping transmission assembly; the label feeding mechanism 54 comprises a sliding block 540, a fixing plate 541, a positioning block 542 and two label pressing transmission components, wherein the sliding block 540 is slidably arranged on the sliding guide rail 53; the fixed plate 541 is arranged on the sliding block 540, and a pressing plate 551 is arranged at the front end of the fixed plate 541; the positioning block 542 is arranged on the pressing plate 551; the two stamping transmission assemblies are arranged at two ends of the positioning block 542 in parallel; the pressure mark transmission assembly comprises a pressure mark cylinder 543 arranged on the fixing plate 541; the front end of the marking cylinder 543 is rotatably connected to the first movable plate 544; the first movable plate 544 is movably connected to the positioning block 542, and a label pressing strip 545 for pressing the label onto the pressing plate 551 is disposed at the bottom of the first movable plate 544.

During specific work, the sliding guide rail 53 drives the sliding block 540 to move to the position of the first label discharging machine 51, the first label discharging machine 51 sends out a first label forwards, then the label pressing transmission assembly located on the left side operates, the piston rod of the label pressing cylinder 543 extends out, the first movable plate 544 rotates, so that the label pressing strip 545 located at the bottom of the first movable plate 544 is driven to press downwards, the label is clamped between the label pressing strip 545 and the pressing plate 551, and the label cutting mechanism inside the first label discharging machine 51 cuts off the first label.

The slider 540 then continues to move transversely to the second label dispenser 52, and the label transfer assembly on the right side then operates in the same manner as the first label transfer assembly, so that the second label is held in place and is cut off by the cutting mechanism in the second label dispenser 51, so that two labels are placed on the slider 540, the second label being located above the first label.

The label clamping and conveying assembly is transversely slidably arranged at one end of the sliding guide rail 53, and comprises a label clamping bracket 546, a pushing cylinder 547, a label clamping slide rail 548, a label clamping slide block 549 and a label clamping manipulator; the label clamping bracket 546 is arranged on the attaching rack 50; the pushing cylinder 547 is arranged on the label clamping bracket 546; the clip mark slide rail 548 is arranged on the clip mark bracket 546; the label clamping slide block 548 is driven by a pushing air cylinder 547 to be slidably arranged on a label clamping slide rail 549; the label clamping manipulator is arranged on the label clamping slide block and used for clamping labels sent by the label pressing mechanism, wherein the label clamping manipulator comprises a label clamping bottom plate 550, a label clamping air cylinder 551 is arranged on the label clamping bottom plate 550, and the front end of the label clamping air cylinder 551 is connected with a label clamping upper plate 552; the label clamping upper plate 552 is rotatably arranged on a positioning block 553, the positioning block 553 is arranged on the label clamping bottom plate 550, and when the piston rod of the label clamping cylinder 551 extends forwards, the label clamping upper plate 552 moves downwards to be close to the label clamping bottom plate 550.

When the sliding block 540 is driven to the position of the label clamping and conveying assembly through the sliding guide rail 53, the label clamping manipulator starts to work, the label clamping cylinder drives the label clamping upper plate to move downwards, so that the label is clamped on the label clamping upper plate and the label clamping bottom plate, then the pushing cylinder 547 works, the label clamping sliding block 549 on the label clamping sliding rail 548 is driven to transversely move left, and thus the label clamping manipulator conveys the label to the subsequent label clamping and conveying assembly.

The label pressing transmission assembly comprises a cloth pressing air cylinder 60; the front end of the cloth pressing cylinder 60 is rotatably connected with the switching strip 61; one end of the switching strip 61 is rotatably arranged on the base 62, and the other end is provided with a roller 63; a transmission roller 64 is arranged on one side of the roller 63; when the label clamping manipulator sends the label, the piston rod of the cloth pressing air cylinder 60 extends out, one end of the switching strip 61 rotates on the base 62, the roller 63 at the other end compresses the cloth, and then the label is attached to the double-layer cloth through the roller 63 and the transmission roller 64 and then synchronously enters the subsequent transverse sewing mechanism for processing.

Specifically, the transverse sewing mechanism 6 is arranged on one side of the labeling mechanism, the tail end of the cotton material conveying channel is arranged above the transverse sewing mechanism, the transverse sewing mechanism 6 is used for sequentially sewing the transverse edges of the upper layer of cotton material and the double-layer cloth with the label up and down, the transverse sewing mechanism 6 comprises two transverse sewing machines which are oppositely arranged, and one side of the transverse sewing machine 6 is provided with a pressing wheel structure; the pinch roller structure comprises a pinch roller bracket 80, two pinch roller assemblies which are oppositely arranged on the pinch roller bracket 80, wherein each pinch roller assembly comprises two first pinch rollers 81 which are oppositely arranged, and two second pinch rollers 82 are arranged below the first pinch rollers 81; the first pressure wheel 81 and the second pressure wheel 82 are connected through a synchronous belt 83; still be equipped with the third pinch roller 84 of two relative settings on the hold-in range 83, third pinch roller 84 sets up on pinch roller support 80, and two third pinch roller 84 is located two between the second pinch roller 82, when sewing up cotton material and two-layer cloth like this, utilize above-mentioned second pinch roller and third pinch roller to carry out the seam pressing with the cotton material, avoid the problem that the too soft and thickness of cotton material leads to position off tracking and machining efficiency low when making up the cotton material.

In addition, a buffer memory mechanism is arranged at the tail end of the transverse sewing mechanism and used for storing the transversely sewn three layers of cloth.

The steering mechanism 7 is arranged on one side of the transverse sewing mechanism and is used for changing the transverse transmission of the cloth into the longitudinal transmission of the cloth, so that the subsequent longitudinal sewing processing of three layers of cloth is facilitated, and the steering mechanism 7 comprises a steering frame 70, a roller 71, a cloth cutting mechanism 72, a label pressing transmission assembly 73, a cloth grabbing assembly 74 and a cloth feeding assembly 75.

Specifically, the bogie 70 is provided with an accommodating space, two rollers 71 arranged up and down are arranged in the accommodating space, one roller 71 is driven by a motor, and the two rollers are matched to transmit the fabric; a fabric cutting mechanism 72 is mounted at the front end of the roller, and the fabric is cut by the fabric cutting mechanism when the length of the fabric is determined.

The mark pressing transmission assembly 73 is arranged at the rear end of the roller 71, the mark pressing transmission assembly 73 comprises an upper pressing plate 730, the upper pressing plate 730 is driven to press downwards by a plurality of lower pressing air cylinders 731, and a lower pressing plate 732 is arranged below the upper pressing plate 730; the cloth grabbing component 74 is arranged at the rear end of the label pressing transmission component 73 and is used for grabbing the fabric and then transmitting the fabric backwards; the cloth feeding assembly is arranged between the roller and the cloth pressing plate and is used for feeding the fabric to the longitudinal sewing mechanism.

After grabbing the fabric and coming from between two gyro wheels when grabbing cloth subassembly 74 like this, the fabric is placed on the holding down plate, then push down cylinder 731 with the top board down, fabric one end compresses tightly between top board and holding down plate, two gyro wheels continue to transmit the fabric, the mid portion of fabric just piles up between gyro wheel and pressure mark transmission assembly like this, after the length of fabric is confirmed, fabric cutting mechanism 72 cuts off the cloth, top board and holding down plate loosen after that, the work feed subassembly carries out vertical transmission with the cloth.

The longitudinal sewing mechanism 8 is arranged on one side of the steering mechanism 7 and used for longitudinally sewing the three layers of fabric after steering, and is composed of two longitudinal sewing machines which are arranged oppositely, and finally, the processing of the full-automatic quilt filling sewing production line is completed.

The processing process of the full-automatic quilt sewing production line is as follows:

the method comprises the steps that firstly, cotton and two fabrics are synchronously conveyed, the cotton in a cotton roll is conveyed to a transverse sewing mechanism through a cotton conveying channel above the fabrics, meanwhile, the fabrics in the two fabrics are synchronously conveyed to a labeling mechanism through corresponding fabric conveying assemblies, a label is attached between the two fabrics by the labeling mechanism to form a double-layer fabric with the label, and then the double-layer fabric with the label is conveyed to the transverse sewing mechanism to be converged with the cotton.

And then, the cotton material and the double-layer cloth are sewn together by the transverse sewing mechanism to form three layers of fabrics, then the three layers of fabrics are clockwise turned by 90 degrees by the steering mechanism and then are longitudinally transmitted, and finally the three layers of fabrics are sent to the longitudinal sewing mechanism to be longitudinally sewn, so that the processing of the quilt by bus is completed.

The utility model discloses a production line is made up to full-automatic fat quilt, the automatic transmission to cotton material and two cloths of accomplishing of during operation, then accomplish the laminating to the label between two cloths earlier, transversely sew up cotton material and the cloth that has the label again, and the cotton material when the transversal joint adopts the mode of pressing the seam to make up, turn to the back through steering mechanism and convey the surface fabric to vertically sew up mechanism department and vertically sew up after then, thereby accomplish the processing to fat quilt automatically.

The above is only a specific application example of the present invention, and does not constitute any limitation to the protection scope of the present invention. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (7)

1. The utility model provides a full-automatic fat quilt sewing production line which characterized in that includes:

the cotton material rack is internally provided with a rotatable cotton material roll;

the cotton material conveying channel is arranged on one side of the cotton material rack;

the cotton cloth feeding device comprises two cloth racks which are arranged in sequence, wherein the two cloth racks are positioned below a cotton material conveying channel, the two cloth racks are arranged on one side of the cotton material rack in sequence, and rotatable cloth rolls are arranged on the two cloth racks;

the cloth conveying assembly is positioned on one side of the cloth frame;

the labeling mechanism is arranged on one side of the cotton material distribution frame far away from the cotton material frame, and is positioned below the cotton material transmission channel;

the transverse sewing mechanism is arranged on one side of the labeling mechanism, and the tail end of the cotton material conveying channel is arranged above the transverse sewing mechanism;

the steering mechanism is arranged on one side of the transverse sewing mechanism;

the longitudinal sewing mechanism is arranged on one side of the steering mechanism;

wherein, the cotton material in the cotton material roll is conveyed to the transverse sewing mechanism through the cotton material conveying channel;

the cloth in the two cloth rolls is synchronously conveyed up and down to the labeling mechanism through the two cloth conveying assemblies, the labeling mechanism forms a double-layer cloth with labels after the labels are attached between the two cloth, and the double-layer cloth is conveyed to the transverse sewing mechanism;

the cotton material and the double-layer cloth are sewn into three-layer fabric by the transverse sewing mechanism, and then are turned by the turning mechanism to be longitudinally transmitted and then are sent to the longitudinal sewing mechanism for longitudinal sewing.

2. The full-automatic quilt fatting sewing production line of claim 1, characterized in that: and a roller for driving the cotton roll and the cloth roll to rotate is arranged in the cotton rack and the cloth rack.

3. The full-automatic quilt fatting sewing production line of claim 1, wherein the labeling mechanism comprises:

the laminating machine frame is provided with a bearing space;

the label discharging mechanism is arranged in the bearing space and comprises a first label discharging machine and a second label discharging machine which are sequentially arranged;

the sliding guide rail is arranged at the longitudinal position of the mark discharging mechanism;

send mark mechanism, send mark mechanism slidable to locate on the sliding guide, send mark mechanism includes:

the sliding block is arranged on the sliding guide rail in a sliding manner;

the fixed plate is arranged on the sliding block, and a compression plate is arranged at the front end of the fixed plate;

the positioning block is arranged on the pressing plate;

the two label pressing transmission components are arranged at two ends of the positioning block in parallel; the label pressing transmission assembly comprises a label pressing cylinder arranged on the fixing plate; the front end of the marking pressing cylinder is rotatably connected with the first movable plate; the first movable plate is movably connected to the positioning block, and a label pressing strip used for pressing a label on the pressing plate is arranged at the bottom of the first movable plate;

the label clamping and conveying assembly is arranged at one end of the sliding guide rail in a transverse sliding mode and used for clamping and taking labels in the label pressing and conveying assembly.

4. The full-automatic quilt fatting sewing production line of claim 3, wherein the clipping and conveying assembly comprises:

the label clamping bracket is arranged on the laminating rack;

the pushing cylinder is arranged on the label clamping bracket;

the label clamping sliding rail is arranged on the label clamping bracket;

the label clamping sliding block is driven by the pushing cylinder to be arranged on the label clamping sliding rail in a sliding mode;

the label clamping mechanical arm is arranged on the label clamping sliding block and used for clamping a label sent by the label pressing mechanism, the label clamping mechanical arm comprises a label clamping bottom plate, a label clamping cylinder is arranged on the label clamping bottom plate, and the front end of the label clamping cylinder is connected with a label clamping upper plate; the upper label clamping plate is rotatably arranged on the positioning block, and the positioning block is arranged on the label clamping bottom plate;

the label pressing transmission assembly is arranged on one side of the label clamping manipulator and comprises a cloth pressing cylinder; the front end of the cloth pressing cylinder is rotatably connected with the switching strip; one end of the switching strip is rotatably arranged on the base, and the other end of the switching strip is provided with a roller; one side of the roller is provided with a transmission roller.

5. The full-automatic quilt fatting sewing production line of claim 1, characterized in that: the transverse sewing mechanism comprises two transverse sewing machines which are oppositely arranged, and a pressing wheel structure is arranged on one side of each transverse sewing machine; the pinch roller structure comprises a pinch roller bracket, two pinch roller assemblies which are oppositely arranged on the pinch roller bracket, wherein each pinch roller assembly comprises two first pinch rollers which are oppositely arranged, and two second pinch rollers are arranged below the first pinch rollers; the first pressing wheel and the second pressing wheel are connected through a synchronous belt; the synchronous belt is also provided with two oppositely arranged third pressing wheels, the third pressing wheels are arranged on the pressing wheel support, and the third pressing wheels are positioned between the two second pressing wheels.

6. The full-automatic quilt fatting sewing production line of claim 1, characterized in that: the steering mechanism includes:

the bogie is provided with an accommodating space;

the two rollers are arranged in the accommodating space and used for conveying the fabric;

the cloth cutting mechanism is arranged at the front end of the roller and used for cutting the fabric;

the label pressing transmission assembly is arranged at the rear end of the roller and comprises an upper pressing plate, the upper pressing plate is driven to press downwards by a plurality of pressing cylinders, and a lower pressing plate is arranged below the upper pressing plate;

the fabric grabbing component is arranged at the rear end of the pressing mark transmission component and is used for grabbing the fabric and then transmitting the fabric backwards;

the cloth feeding assembly is arranged between the roller and the cloth pressing plate and is used for feeding the fabric to the longitudinal sewing mechanism.

7. The full-automatic quilt fatting sewing production line of claim 1, characterized in that: the longitudinal sewing mechanism comprises two longitudinal sewing machines which are oppositely arranged.

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