CN210856575U - Collar-refuting equipment - Google Patents

Abstract

The utility model relates to a lapel equipment, the utility model discloses a controlling means with open bone actuating mechanism, folding actuating mechanism and sewing device electric connection go on in proper order with the following action of control: the pressing plate and the push plate integrally extend towards the overlap line sewing station along the transverse direction and press downwards so as to press the part of the cut piece positioned on one side of the overlap line sewing station; the sewing device sews the overlap line on the cut pieces on the overlap line sewing station; the push plate further extends out towards the overlap line sewing station to complete the bone opening action; resetting the pressure plate; the shovel plate longitudinally extends towards the overlap line sewing station, and then is lifted and further extends out, so that the cut pieces are longitudinally folded; resetting the push plate; the sewing device sews out a set line for cut pieces on a set line sewing station on a sewing platform; resetting the shovel plate; the utility model discloses a lapel equipment can reduce personnel's work load, improves production efficiency.

Description

Collar-refuting equipment

Technical Field

The utility model relates to a textile machinery equipment field especially relates to a refute and lead equipment.

Background

The lapel process in the procedure of making the circular collar sweater is divided into folding along the length direction of the cut pieces (as shown by a in fig. 1), sewing the lapel (as shown by b in fig. 1), opening the rib (as shown by c in fig. 1), folding along the width direction of the cut pieces (as shown by d in fig. 1) and sewing the line (as shown by e in fig. 1). The traditional lapel procedure is completely dependent on manual operation such as opening and folding on a pattern sewing machine, however, the manual operation wastes time and labor and has low production efficiency.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a lapel device to solve the problem that lapel process is carried out through traditional dependence manual work completely and leads to wasting time and energy, production efficiency is low.

A lapel device comprises a machine base, a sewing device, a bone opening device and a folding device;

the sewing device is arranged on the base, the base is provided with a lapel sewing station for placing the transverse folded cut pieces, and the sewing device is used for sewing the lapels on the transverse folded cut pieces to obtain the lapel cut pieces;

the bone opening device is arranged on the base and comprises a bone opening driving mechanism, a pressing plate and a pushing plate, wherein the pushing plate is movably arranged on the pressing plate, the bone opening driving mechanism is connected to the pressing plate and the pushing plate, the bone opening driving mechanism can drive the pressing plate to move so as to press one end of a cut piece to be processed or reset, the bone opening driving mechanism can also drive the pushing plate to move along the pressing plate so as to realize the bone opening of the cut piece of the binding line and obtain the cut piece of the bone opening, and the pushing plate is also used for folding and positioning the cut piece of the bone opening;

folding device sets up on the frame, folding device is used for with the pressure open on the bone cut-parts one side of push pedal is folding for the location line open the bone cut-parts, the push pedal resets in order to obtain vertical fifty percent discount cut-parts, the sewing device still is used for sewing the alignment on vertical fifty percent discount cut-parts.

In one embodiment, the bone opening driving mechanism comprises a pressing plate driving part, a pushing plate driving part and a lifting driving part, wherein the pressing plate driving part is connected to the pressing plate and used for driving the pressing plate to extend or retract, the pushing plate driving part is connected to the pushing plate and used for driving the pushing plate to extend or retract in a primary extending mode or a secondary retracting mode, and the lifting driving part is connected to the pressing plate driving part and the pushing plate driving part and used for driving the pressing plate driving part and the pushing plate driving part to ascend or descend.

In one embodiment, the upper side of the pressing plate is provided with a containing groove, and the push plate is movably arranged in the containing groove.

In one of them embodiment, folding device includes folding actuating mechanism and shovel board, folding actuating mechanism connect in the shovel board, folding actuating mechanism can drive the shovel board court refute line sewing station and stretch out, raise again and further stretch out to fold open bone cut-parts.

In one embodiment, the side surface of the shovel plate close to one side of the overlap line sewing station and the lower plate surface of the shovel plate are arranged at an acute angle.

In one embodiment, a part of the shovel plate, which is close to one side of the overlap stitching station and close to the bone opening device, protrudes outwards.

In one of them embodiment, refute and lead equipment still includes sewing auxiliary device, sewing auxiliary device sets up on the frame, sewing auxiliary device includes station board and station board actuating mechanism, the station board is equipped with refutes line sewing hole of stepping down, station board actuating mechanism connect in the station board is in order to be used for the drive the station board stretches out to refute line sewing station and push down or drive the station board resets.

In one embodiment, the station plate is arranged opposite to the shovel plate of the folding device.

In one embodiment, the lapel device further comprises a folding auxiliary device, the folding auxiliary device is arranged on the base and comprises an auxiliary plate and an auxiliary plate driving mechanism, the auxiliary plate driving mechanism is connected to the auxiliary plate and used for driving the auxiliary plate to be pressed downwards on one side of the lapel sewing station, the auxiliary plate is arranged opposite to a shovel plate of the folding device, and the auxiliary plate and a push plate of the bone opening device are located on two opposite sides of the lapel sewing station in a pressing-down state.

In one embodiment, a side of the auxiliary plate adjacent to the blade in the depressed position is aligned with a side of the push plate adjacent to the blade in the extended position.

In one embodiment, the overlap sewing station is provided with a needle falling hole.

Compared with the prior art, the lapel equipment has the following beneficial effects:

above-mentioned refute and lead equipment, refute the action such as open bone, folding in the process through setting up bone opening device and folding device, can reduce personnel's work load, improve production efficiency.

Drawings

Fig. 1 is a schematic view showing a lapel process flow, in which a represents a step of folding in half along a longitudinal direction of a cut piece, b represents a step of sewing a lapel line, c represents a step of opening a rib, d represents a step of folding in half along a width direction of the cut piece, and e represents a step of sewing a linel;

fig. 2 is a schematic structural view of a lapel apparatus according to an embodiment;

fig. 3 is a schematic structural view of the lapel apparatus shown in fig. 2 from another perspective;

fig. 4 is a schematic structural view of a bone opening device in the lapel apparatus shown in fig. 2;

fig. 5 is a schematic structural view of a folding device in the lapel apparatus shown in fig. 2;

fig. 6 is a schematic structural view of a folding assisting device in the lapel apparatus shown in fig. 2.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The terms "transverse" and "longitudinal" as used herein refer to two perpendicular directions, and "transverse" or "longitudinal" does not refer to a specific direction.

As shown in fig. 2 and 3, the lapel device 10 according to an embodiment of the present invention includes a frame (not shown), a stitching device (not shown), a bone opening device 200, and a folding device 300.

The machine base is provided with a sewing platform, the sewing platform is provided with a refuting sewing station 110 and a line-determining sewing station, which are respectively the position of a sewing refuting line of the sewing device and the position of a sewing-determining line of the sewing device.

The sewing device sets up on the frame, and the frame has the refute line sewing station that is used for supplying horizontal fifty percent discount cut-parts to place, and the sewing device is used for the sewing refute line in order to obtain refute line cut-parts on horizontal fifty percent discount cut-parts.

The bone opening device is arranged on the machine base. The bone opening device 200 comprises a bone opening driving mechanism 210, a pressure plate 220 and a push plate 230, wherein the push plate 230 is movably arranged on the pressure plate 220. Drive mechanism 210 opens bone connects in clamp plate 220 and push pedal 230, and drive mechanism 210 opens bone can drive the action of clamp plate 220 and perhaps reset in order to realize pushing down the one end of treating the cut-parts of processing, and drive mechanism 210 opens bone can also drive push pedal 230 along the motion of clamp plate in order to realize refuting the bone of line cut-parts and obtain opening the bone cut-parts, and push pedal 230 still is used for supplying to open the folding location of bone cut-parts.

Folding device 300 sets up on the frame, and folding device 300 is used for folding the cut-parts of opening the bone with the one side of pressing the push pedal 230 on the cut-parts of opening the bone as the location line, and the push pedal resets in order to obtain vertical fifty percent discount cut-parts, and the sewing device still is used for sewing the alignment on vertical fifty percent discount cut-parts.

In this example, the bone-opening driving mechanism 210 is connected to the pressing plate 220 and the pushing plate 230, the bone-opening driving mechanism 210 can drive the pressing plate 220 and the pushing plate 230 to integrally extend and press down towards the overlap stitching station 110 along the transverse direction, the bone-opening driving mechanism 210 can also drive the pushing plate 230 to further extend towards the overlap stitching station 110, and the bone-opening driving mechanism 210 can also drive the pressing plate 220 to reset and drive the pushing plate 230 to reset.

Folding device 300 includes folding actuating mechanism 310 and shovel board 320, and folding actuating mechanism 310 connects in shovel board 320, and folding actuating mechanism 310 can drive shovel board 320 along vertically stretching out, raising again and further stretching out towards refute line sewing station 110 to make the vertical fifty percent discount of cut-parts, folding actuating mechanism 310 can also drive shovel board 320 and reset.

In this example, the lapel device 1 further comprises a control device (not shown), the control device is electrically connected to the opening driving mechanism 210, the folding driving mechanism 310 and the sewing device to control the following actions to be performed in sequence (the actions of the panels can be referred to in fig. 1):

the pressing plate 220 and the pushing plate 230 transversely extend towards the overlap line sewing station 110 and press downwards so as to press the part of the cut piece on one side of the overlap line sewing station 110;

the sewing device sews the overlap line on the part of the cut piece on the overlap line sewing station 110;

the push plate 230 further extends towards the overlap stitching station 110 to complete the opening action;

the pressure plate 220 is reset;

the shovel board 320 extends towards the overlap line sewing station 110 along the longitudinal direction, and then is lifted and further extends out, so that the cut pieces are folded in half longitudinally;

the push plate 230 is reset;

a sewing device sews a layout line for the part of the cut piece on the layout line sewing station on the sewing platform;

blade 320 is reset.

Referring to fig. 4, in one example, an accommodating groove is formed on the upper side of the pressing plate 220, and the pushing plate 230 is movably disposed in the accommodating groove.

In this example, the push plate 230 is disposed on the upper side of the pressure plate 220 on a side away from the blade 320. It can be understood that after the pressing plate 220 and the pushing plate 230 integrally extend and press down, the whole longitudinal size (width) of the cut piece is pressed, and after the pushing plate 230 further extends towards the overlap line sewing station 110, the pushing plate 230 only presses one part of the longitudinal size (width) of the cut piece, so that the cut piece can be folded longitudinally.

In this example, the osteotomy driving mechanism 210 includes a platen driving member 212, a push plate driving member 214, and a lift driving member 216, the platen driving member 212 being coupled to the platen 220 for driving the platen 220 to extend or retract, the push plate driving member 214 being coupled to the push plate 230 for driving the push plate 230 to extend, extend or retract in a primary, secondary, and the lift driving member 216 being coupled to the platen driving member 212 and the push plate driving member 214 for driving the platen driving member 212 and the push plate driving member 214 to ascend or descend.

As shown in fig. 5, in one example, a side 322 of the shovel 320 of the folding device 300 on a side close to the overlap stitching station 110 is disposed at an acute angle with a lower plate of the shovel 320. Thus, the shovel 320 can extend into the lower portion of the cut segment more smoothly.

In the particular example illustrated, the shovel 320 of the folding device 300 protrudes outward on a side adjacent to the overlap stitching station 110 and adjacent to the osteotomy device 200, forming a protruding portion 324. When the cutting edge is longitudinally folded, the protruding part 324 extends to the upper part of the push plate 230 to cover the position of the upper side part of the push plate 230, meanwhile, the cutting piece is pressed above the push plate 230, the upper cutting piece is folded to the alignment sewing station, and after the push plate 230 is reset, the sewing device can sew the alignment at the alignment sewing station.

In one example, folding driving mechanism 310 includes a blade retracting member 312 and a blade lifting driving member 314, blade retracting member 312 is disposed on blade lifting driving member 314, and is driven by blade lifting driving member 314 to ascend or descend, blade retracting member 312 is connected to blade 320, and blade retracting member 312 can drive blade 320 to extend in one stage, extend in two stages, or retract in two stages.

As shown in fig. 2 and 3, in one example, the lane crossing apparatus further includes a sewing auxiliary device 400, and the sewing auxiliary device 400 is provided on the base. The sewing auxiliary device 400 comprises a station plate 410 and a station plate driving mechanism 420, wherein the station plate 410 is provided with a refute line sewing abdicating hole 412, and the station plate driving mechanism 420 is connected to the station plate 410 and used for driving the station plate 410 to extend out to the refute line sewing station 110 and to press down or drive the station plate 410 to reset.

In this example, the control device is electrically connected to the station board driving mechanism 420 to control the following actions:

after the pressing plate 220 and the push plate 230 integrally extend and press downwards towards the overlap line sewing station 110 along the transverse direction and before the overlap line is sewn by the sewing device, the station plate 410 extends to the overlap line sewing station 110 and presses downwards to press the part of the cut piece on the overlap line sewing station 110, and then the sewing needle head of the sewing device penetrates through the overlap line sewing abdicating hole 412 on the station plate 410 to sew the overlap line on the cut piece;

after the stitching device stitches a stitch line out, and before the shovel 320 is extended, the station board 410 is reset.

In this example, the station plate 410 of the sewing assist device 400 is disposed opposite the blade 320 of the folding device 300.

Through setting up sewing auxiliary device 400, cut-parts can be more stable when the sewing is refuted the line, can not take place to shift for the sewing is refuted the line and can go on smoothly. Before the shovel board 320 extends out, the station board 410 is reset, and the cut pieces are prevented from being longitudinally folded.

As shown in fig. 6, in one example, the lapel further comprises a folding auxiliary device 500, the folding auxiliary device 500 is disposed on the machine base, the folding auxiliary device 500 comprises an auxiliary plate 510 and an auxiliary plate driving mechanism 520, the auxiliary plate driving mechanism 520 is connected to the auxiliary plate 510 for driving the auxiliary plate 510 to press down on one side of the lapel stitching station 110, the auxiliary plate 510 is disposed opposite to the shovel plate 320 of the folding device 300, and the auxiliary plate 510 and the push plate 230 of the bone opening device 200 are disposed on opposite sides of the lapel stitching station 110 in a pressing down state;

in this example, the control device is electrically connected to the auxiliary plate driving mechanism 520 to control the following operations:

after the pressing plate 220 and the pushing plate 230 integrally extend and press down towards the overlap line sewing station 110 along the transverse direction, and before the shovel plate 320 extends, the auxiliary plate 510 presses down on the cut pieces on one side of the overlap line sewing station 110;

after blade 320 is reset, auxiliary plate 510 is reset.

Through setting up folding auxiliary device 500, can form limiting displacement to the cut-parts fifty percent discount, accessory plate 510 forms the broken line of cut-parts promptly towards one side of shovel board 320. In addition, cut-parts can be stabilized when accessory plate 510 pushes down, prevent that cut-parts from taking place the displacement.

In the particular example illustrated, the auxiliary plate drive mechanism 520 drives the flip-down or reset.

In one example, the side of auxiliary plate 510 adjacent to blade 320 in the depressed position is aligned with the side of push plate 230 of osteotomy device 200 adjacent to blade 320 in the extended position. So, can be convenient for carry out the fifty percent discount with cut-parts along the intermediate line.

In the illustrated specific example, the overlap stitching station 110 is provided with a needle drop hole 120. The sewing platform is provided with a stitch plate 600, the bone opening device 200, the folding device 300, the sewing auxiliary device 400 and the folding auxiliary device 500 are all arranged on the stitch plate 600, and the stitch plate 600 is provided with a needle falling hole 120. The lapel apparatus 10 further comprises a moving device (not shown) connected to the stitch board 600 for moving the stitch board 600 and the devices thereon integrally.

In this example, the osteotomy device 200, the folding device 300, the sewing aid 400, and the folding aid 500 are disposed about the lapel sewing station 110, enclosed therein at the sewing lapel sewing station. The sewing auxiliary device 400 and the folding auxiliary device 500 are located on the same side of the overlap sewing station 110 and are arranged side by side, the folding device 300 is arranged on the opposite side and is arranged opposite to the sewing auxiliary device 400 and the folding auxiliary device 500, and the bone opening device 200 is arranged on the other side and is closer to the sewing auxiliary device 400. When the pressing plate 220 and the pushing plate 230 of the bone opening device 200 integrally extend, the edges of the pressing plate 220 and the pushing plate 230 are close to the needle falling hole 120, and when the station plate 410 of the sewing auxiliary device 400 is pressed down on the stitch sewing station 110, the stitch sewing abdicating hole 412 on the station plate 410 corresponds to the needle falling hole 120.

In one example, the sewing device is movably arranged on the base, and the sewing device can move on the base to sew different parts of the cut pieces. In one particular example, the sewing device is a pattern sewing machine.

As shown in fig. 2 and 3, in one example, the lapel apparatus 10 further includes a positioning device 700, the positioning device 700 is disposed on the base, and the positioning device 700 and the bone opening device 200 are disposed on opposite sides of the lapel stitching station 110. The positioning device 700 is used to define the placement position of the cut segment for proper placement. In the illustrated embodiment, the positioning device 700 is two opposite vertical plates, and both vertical plates are parallel to the transverse direction.

Further, the utility model also provides a lapel method, use the lapel equipment 10 of any above-mentioned example, lapel method includes following step:

placing the cut pieces to be processed on the machine base;

the pressing plate 220 and the push plate 230 extend out towards the overlap line sewing station and press downwards to press one end of the cut piece to be processed;

transversely folding the cut pieces to be processed, so that the upper layers of the cut pieces cover the pressing plate 220 and the push plate 230, and the transversely folded cut pieces are obtained;

sewing a overlap line on the part of the transversely folded cut piece on the overlap line sewing station 110 by the sewing device to obtain an overlap line cut piece;

the push plate 230 further extends out towards the overlap line sewing station 110 to push the upper seam allowance of the overlap line cut piece open to obtain an open seam cut piece;

the pressure plate 220 is reset;

the folding device folds the open bone cut pieces by taking one side of the push plate 230 pressed on the open bone cut pieces as a positioning line, and the push plate 230 is reset to obtain longitudinal folded cut pieces;

the sewing device is used for sewing a line on the longitudinal folded cut piece.

The present invention will be further described below by taking as an example a flow of lapel by the lapel apparatus 10 shown in the drawings.

Referring to fig. 1 to 6, the procedure of docking in the docking apparatus 10 of the illustrated example is as follows:

the manual work is placed the cut-parts of bar on the sewing platform, the cut-parts are placed according to positioner 700, make the cut-parts cover refutes pinhole 120 that falls on line sewing station 110.

The start button is pressed, the device is started, the pressing plate 220 and the push plate 230 of the bone opening device 200 integrally extend towards the overlap line sewing station 110 along the transverse direction and are pressed downwards, and the cutting pieces are pressed at the position on one side of the overlap line sewing station 110.

As shown in fig. 1 a, the cut pieces are manually folded in half in the transverse direction so that the upper layer of the cut pieces covers the pressing plate 220 and the pushing plate 230. At this time, the pressing plate 220 and the pushing plate 230 are positioned between the upper and lower layers of the cut sheet.

Pressing the second progress button, the device continues to act. The station board 410 of the sewing assistance apparatus is extended and pressed down on the cut piece on the overlap sewing station 110, and the assistance board 510 of the folding assistance apparatus 500 is turned over and pressed down on the cut piece.

As shown in b in fig. 1, a sewing needle of the sewing device passes through the overlap stitching abdicating hole 412 on the station plate 410 to sew the overlap for the cut pieces, so as to sew the upper layer and the lower layer of the cut pieces together.

The station plate 410 retracts to reset, and the cut pieces are released from being pressed.

As shown in fig. 1 c, the push plate 230 further extends towards the overlap sewing station 110 to push the seam allowance of the upper layer of the cut piece away, the upper layer of the cut piece is turned up along the overlap to complete the opening action, and at this time, the push plate 230 presses the uppermost layer of the cut piece.

The pressing plate 220 retracts to reset, and the lower layer of the cutting piece is released from being pressed.

As shown in d of fig. 1, the shovel 320 of the folding device 300 extends longitudinally towards the lapel stitching station 110, shovels into the lower side of the cut piece, and then the shovel 320 is raised and extends further, so that the cut piece is folded longitudinally along the side edges of the auxiliary plate 510 and the push plate 230, and the shovel 320 presses on the uppermost layer of the cut piece.

The push plate 230 retracts to reset, and the cut piece is released from being pressed.

As shown in fig. 1 e, the sewing device moves to sew the cut pieces on the positioning sewing station on the sewing platform.

Blade 320 is retracted and reset.

The auxiliary plate 510 is turned over and reset, and the pressing of the cut pieces is released.

And taking down the lapel finished product, and then lapel of the next cut piece.

In the lapel apparatus 10, the opening device 200 and the folding device 300 are provided to perform the opening, folding, and other operations in the lapel process, so that the workload of the worker can be reduced, and the production efficiency can be improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A lapel device is characterized by comprising a machine base, a sewing device, a bone opening device and a folding device;

the sewing device is arranged on the base, the base is provided with a lapel sewing station for placing the transverse folded cut pieces, and the sewing device is used for sewing the lapels on the transverse folded cut pieces to obtain the lapel cut pieces;

the bone opening device is arranged on the base and comprises a bone opening driving mechanism, a pressing plate and a pushing plate, wherein the pushing plate is movably arranged on the pressing plate, the bone opening driving mechanism is connected to the pressing plate and the pushing plate, the bone opening driving mechanism can drive the pressing plate to move so as to press one end of a cut piece to be processed or reset, the bone opening driving mechanism can also drive the pushing plate to move along the pressing plate so as to realize the bone opening of the cut piece of the binding line and obtain the cut piece of the bone opening, and the pushing plate is also used for folding and positioning the cut piece of the bone opening;

folding device sets up on the frame, folding device is used for with the pressure open on the bone cut-parts one side of push pedal is folding for the location line open the bone cut-parts, the push pedal resets in order to obtain vertical fifty percent discount cut-parts, the sewing device still is used for sewing the alignment on vertical fifty percent discount cut-parts.

2. The lapel device of claim 1, wherein the open-bone drive mechanism comprises a pressure plate drive part, a push plate drive part and a lift drive part, the pressure plate drive part is connected to the pressure plate for driving the pressure plate to extend or retract, the push plate drive part is connected to the push plate for driving the push plate to extend, extend or retract in a first stage and in a second stage, and the lift drive part is connected to the pressure plate drive part and the push plate drive part for driving the pressure plate drive part and the push plate drive part to ascend or descend.

3. The lapel apparatus of claim 1 wherein a receiving slot is provided on an upper side of the pressure plate, and the push plate is movably disposed in the receiving slot.

4. The lapel apparatus of any one of claims 1 to 3 wherein the folding device comprises a folding driving mechanism and a shovel plate, the folding driving mechanism is connected to the shovel plate, and the folding driving mechanism can drive the shovel plate to extend out towards the lapel sewing station, raise up again and further extend out to fold the open cut pieces.

5. The lapel apparatus of claim 4 wherein a side of the blade adjacent to the lapel stitching station is disposed at an acute angle to a lower plate of the blade.

6. The lapel apparatus of claim 4 wherein a portion of the blade adjacent to one side of the lapel stitching station and adjacent to the bone opening device protrudes outward.

7. The lapel device of any one of claims 1-3, 5, 6 further comprising a stitching auxiliary device, wherein the stitching auxiliary device is disposed on the base, the stitching auxiliary device comprises a station plate and a station plate driving mechanism, the station plate is provided with a lapel stitching abdicating hole, the station plate driving mechanism is connected to the station plate for driving the station plate to extend to the lapel stitching station and press down or drive the station plate to reset.

8. The lapel apparatus of claim 7 wherein the station plate is disposed opposite a blade of the folding device.

9. The lapel apparatus of any one of claims 1-3, 5, 6, 8 further comprising a folding assist device disposed on the base, the folding assist device including an auxiliary plate and an auxiliary plate driving mechanism connected to the auxiliary plate for driving the auxiliary plate to be pressed down at one side of the lapel stitching station, the auxiliary plate being disposed opposite to a shovel of the folding device, the auxiliary plate being located at opposite sides of the lapel stitching station from a push plate of the opening device in a pressed-down state.

10. Lapel apparatus according to claim 9 wherein a side of the auxiliary plate adjacent the blade in the depressed state is aligned with a side of the push plate of the osteotomy device adjacent the blade in the extended state.

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