CN110528188B - Collar connection equipment and collar connection method - Google Patents

Abstract

The invention relates to collar equipment and a collar connection method, wherein the collar connection equipment is electrically connected with a bone opening driving mechanism, a folding driving mechanism and a sewing device through a control device so as to control the following actions to be sequentially carried out: the pressing plate and the pushing plate integrally extend out and press downwards along the transverse direction towards the lapel sewing station so as to press the part of the cutting piece positioned at one side of the lapel sewing station; the sewing device is used for sewing the cut pieces on the sewing station of the lapel to form lapel; the pushing plate further extends towards the suture station of the lapel to finish the bone opening action; resetting the pressing plate; the shovel plate extends out towards the sewing station of the lapel in the longitudinal direction, and then is lifted up and further extends out, so that the cutting piece is folded in half in the longitudinal direction; resetting the push plate; the sewing device is used for sewing and setting the cut pieces on a setting sewing station on the sewing platform; resetting the shovel plate; the collar connecting equipment and the collar connecting method can reduce the workload of personnel and improve the production efficiency.

Description

Collar connection equipment and collar connection method

Technical Field

The invention relates to the field of textile machinery equipment, in particular to collar equipment and a collar connection method.

Background

The lapel process flow in the knitted circular neck sweater manufacturing process is divided into folding in the length direction of the cut piece (shown as a in fig. 1), sewing lapel (shown as b in fig. 1), opening a bone (shown as c in fig. 1), folding in the width direction of the cut piece (shown as d in fig. 1) and sewing fixed line (shown as e in fig. 1). The traditional lapel procedure is to completely rely on the manual work to open bones, fold etc. on the pattern machine, however, the manual operation is time-consuming and laborious, and the production efficiency is low.

Disclosure of Invention

Based on the above, it is necessary to provide a collar connection device and a collar connection method, so as to solve the problems of time and labor waste and low production efficiency caused by the traditional collar connection procedure which is completely performed manually.

The lapel equipment comprises a stand, a sewing device, a bone opening device and a folding device;

the sewing device is arranged on the machine base, the machine base is provided with a line-connection sewing station for placing the transverse folded cut pieces, and the sewing device is used for sewing line connection on the transverse folded cut pieces to obtain the line-connection cut pieces;

the bone opening device is arranged on the machine base and comprises a bone opening driving mechanism, a pressing plate and a pushing plate, the pushing plate is movably arranged on the pressing plate, the bone opening driving mechanism is connected with the pressing plate and the pushing plate, the bone opening driving mechanism can drive the pressing plate to act 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 lapel cut piece and obtain a bone opening cut piece, and the pushing plate is also used for folding and positioning the bone opening cut piece;

the folding device is arranged on the machine base and is used for folding the open-bone cut-parts by taking one side of the push plate pressed on the open-bone cut-parts as a positioning line, the push plate resets to obtain longitudinal folded cut-parts, and the sewing device is also used for sewing and fixing lines on the longitudinal folded 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 with the pressing plate for driving the pressing plate to extend or retract, the pushing plate driving part is connected with the pushing plate for driving the pushing plate to extend in a first stage or extend in a second stage or retract, and the lifting driving part is connected with the pressing plate driving part and the pushing plate driving part 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 pushing plate is movably arranged in the containing groove.

In one embodiment, the folding device comprises a folding driving mechanism and a shovel plate, wherein the folding driving mechanism is connected to the shovel plate, and the folding driving mechanism can drive the shovel plate to extend towards the lapel sewing station, lift up again and further extend out so as to fold the open-bone cut piece.

In one embodiment, the side surface of the shovel plate, which is close to one side of the lapel sewing station, is arranged at an acute angle with the lower plate surface of the shovel plate.

In one embodiment, the shovel plate is adjacent to one side of the lapel sewing station and the portion adjacent to the bone opening device protrudes outwards.

In one embodiment, the collar device further comprises a sewing auxiliary device, the sewing auxiliary device is arranged on the base, the sewing auxiliary device comprises a station plate and a station plate driving mechanism, the station plate is provided with a line-connection sewing abdicating hole, and the station plate driving mechanism is connected to the station plate so as to drive the station plate to extend to the line-connection sewing station and press down or drive the station plate to reset.

In one embodiment, the station plate is disposed opposite the blade of the folding device.

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

In one embodiment, the side of the auxiliary plate adjacent to the blade in the depressed state is aligned with the side of the push plate of the bone opening device adjacent to the blade in the extended state.

In one embodiment, the lapel sewing station is provided with a needle dropping hole.

A collar method using the collar apparatus of any of the above embodiments, the collar method comprising the steps of:

placing a cut piece to be processed on the stand;

the pressing plate and the pushing plate extend towards the lapel sewing station and are pressed downwards so as to press one end of the to-be-processed cutting piece;

transversely folding the to-be-processed cut piece in half so that the upper layer of the cut piece covers the pressing plate and the pushing plate to obtain a transversely folded cut piece;

the sewing device is used for sewing the position of the transverse folded cut piece on the sewing station of the lapel to form lapel, so as to obtain the lapel cut piece;

the pushing plate further extends towards the lapel sewing station to push open the upper seam allowance of the lapel cut piece to obtain an open-bone cut piece;

resetting the pressing plate;

the folding device folds the open-bone cut-parts by taking one side of the push plate pressed on the open-bone cut-parts as a positioning line, and the push plate resets to obtain longitudinal folded cut-parts;

and the sewing device is used for sewing and fixing lines on the longitudinal folded cut pieces.

Compared with the prior art, the collar connecting device and the collar connecting method have the following beneficial effects:

according to the collar connecting equipment and the collar connecting method, the opening device and the folding device are arranged to perform the actions of opening bones, folding and the like in the collar connecting process, so that the workload of personnel can be reduced, and the production efficiency can be improved.

Drawings

Fig. 1 is a schematic diagram of a lapel process flow, wherein a represents a step of folding along the length direction of a cut piece, b represents a step of sewing lapel, c represents a step of opening a bone, d represents a step of folding along the width direction of the cut piece, and e represents a step of sewing and fixing the line;

FIG. 2 is a schematic structural view of a collar apparatus according to an embodiment;

FIG. 3 is a schematic view of the collar apparatus of FIG. 2 from another perspective;

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

FIG. 5 is a schematic view of a folding device in the lapel device of FIG. 2;

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

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This 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 herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein 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" do not refer specifically to a particular direction.

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

The machine seat is provided with a sewing platform, and the sewing platform is provided with a line connecting sewing station 110 and a line fixing sewing station which are respectively the position of a sewing device for sewing the line connecting line and the position of a sewing device for sewing the line.

The sewing device is arranged on the machine base, the machine base is provided with a line-connection sewing station for placing the transversely folded cut pieces, and the sewing device is used for sewing the line-connection on the transversely folded cut pieces to obtain the line-connection cut pieces.

The bone opening device is arranged on the stand. The bone opening device 200 comprises a bone opening driving mechanism 210, a pressing plate 220 and a pushing plate 230, wherein the pushing plate 230 is movably arranged on the pressing plate 220. 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 to act so as to press one end of a cut piece to be processed or reset, the bone opening driving mechanism 210 can also drive the pushing plate 230 to move along the pressing plate so as to open bones of a lapel cut piece and obtain the open bone cut piece, and the pushing plate 230 is also used for folding and positioning the open bone cut piece.

The folding device 300 is arranged on the machine base, the folding device 300 is used for folding the open-bone cut-parts by taking one side of the push plate 230 pressed on the open-bone cut-parts as a positioning line, the push plate is reset to obtain the longitudinal folded-over cut-parts, and the sewing device is also used for sewing and fixing lines on the longitudinal folded-over 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 extend and press down towards the lapel sewing station 110 in the transverse direction, the bone opening driving mechanism 210 can also drive the pushing plate 230 to extend further towards the lapel sewing 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 drive mechanism 310 and blade 320, folding drive mechanism 310 connects in blade 320, folding drive mechanism 310 can drive blade 320 along vertically towards the lapel sewing station 110 stretch out, raise again and further stretch out to make the vertical fifty percent discount of cut-parts, folding drive mechanism 310 can also drive blade 320 to reset.

In this example, the lapel device 1 further includes a control device (not shown) electrically connected to the bone opening driving mechanism 210, the folding driving mechanism 310, and the sewing device to control the following actions to be performed sequentially (the actions of the cut pieces may refer to fig. 1):

the pressing plate 220 and the pushing plate 230 extend and press downwards towards the lapel sewing station 110 along the transverse direction so as to press the part of the cut piece positioned at one side of the lapel sewing station 110;

the sewing device is used for sewing the position of the cut piece on the lapel sewing station 110 to form lapel;

the push plate 230 further extends toward the lapel sewing station 110 to complete the bone opening action;

resetting the pressing plate 220;

the blade 320 extends longitudinally toward the lapel sewing station 110, is raised again and extends further so that the cut-parts are folded in half longitudinally;

resetting the push plate 230;

the sewing device is used for sewing and setting the positions of the cut pieces on a setting sewing station on the sewing platform;

blade 320 is reset.

Referring further to fig. 4, in one example, a receiving groove is provided on the upper side of the pressing plate 220, and the pushing plate 230 is movably disposed in the receiving groove.

In this example, the push plate 230 is disposed on a side of the upper side of the platen 220 that is remote from the blade 320. It will be appreciated that after the pressing plate 220 and the pushing plate 230 integrally extend and press down, the whole of the longitudinal dimension (width) of the cut piece is pressed, and after the pushing plate 230 further extends toward the sewing station 110, the pushing plate 230 presses only a portion of the longitudinal dimension (width) of the cut piece, so that the cut piece can be folded in half longitudinally.

In this example, the bone opening drive mechanism 210 includes a platen drive member 212, a push plate drive member 214, and a lift drive member 216, the platen drive member 212 being coupled to the platen 220 for driving the platen 220 to extend or retract, the push plate drive member 214 being coupled to the push plate 230 for driving the push plate 230 to extend first, extend second, or retract, the lift drive member 216 being coupled to the platen drive member 212 and the push plate drive member 214 for driving the platen drive member 212 and the push plate drive member 214 to rise or fall.

In one example, as shown in fig. 5, a side 322 of the side of the blade 320 of the folding device 300 adjacent the lapel sewing station 110 is disposed at an acute angle to the lower panel surface of the blade 320. Thus, blade 320 may extend more smoothly below the cut-pieces.

In the particular example illustrated, the blade 320 of the folding device 300 projects outwardly adjacent one side of the lapel sewing station 110 and adjacent the bone opening device 200, forming a projection 324. When the push plate 230 is folded in half longitudinally, the protruding portion 324 extends to the upper portion of the push plate 230 to cover the upper portion of the push plate 230, and meanwhile, the cutting piece is pressed above the push plate 230, the upper cutting piece is folded to the line-fixing sewing station, and after the push plate 230 is reset, the sewing device can sew lines at the line-fixing sewing station.

In one example, folding driving mechanism 310 includes a blade extension member 312 and a blade lifting driving member 314, blade extension member 312 is disposed on blade lifting driving member 314, and is driven to rise or fall by blade lifting driving member 314, blade extension member 312 is connected to blade 320, and blade extension member 312 is capable of driving blade 320 to extend in one stage, extend in a second stage, or retract in a second stage.

As shown in fig. 2 and 3, in one example, the line plugging apparatus further includes a sewing auxiliary device 400, and the sewing auxiliary device 400 is disposed on the stand. 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 wire-connection sewing abdication hole 412, and the station plate driving mechanism 420 is connected to the station plate 410 for driving the station plate 410 to extend to the wire-connection sewing station 110 and pressing down or driving the station plate 410 to reset.

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

after the pressing plate 220 and the pushing plate 230 integrally extend and press down in the transverse direction toward the sewing station 110 of the lapel, and before the sewing device sews the lapel, the station plate 410 extends to the sewing station 110 of the lapel and presses down to press the part of the cut piece on the sewing station 110 of the lapel, and then the sewing needle head of the sewing device passes through the sewing abdication hole 412 of the lapel on the station plate 410 to sew out the lapel on the cut piece;

after the stitching device stitches the lapel out, and before blade 320 extends, station board 410 resets.

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

By arranging the sewing auxiliary device 400, the cut pieces can be more stable during sewing and line connection, and displacement can not occur, so that sewing and line connection can be smoothly carried out. Before blade 320 is extended, station board 410 is reset to avoid impeding the progress of the longitudinal folding of the cut pieces.

As shown in fig. 6, in one example, the collar further includes a folding auxiliary device 500, the folding auxiliary device 500 is disposed on the stand, the folding auxiliary device 500 includes 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 be pressed down on one side of the lapel sewing station 110, the auxiliary plate 510 is disposed opposite to the shovel plate 320 of the folding device 300, and the auxiliary plate 510 is located on opposite sides of the lapel sewing station 110 with the push plate 230 of the opening device 200 in the pressed down state;

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

after the pressing plate 220 and the pushing plate 230 integrally extend and press down in the lateral direction toward the lapel sewing station 110 and before the spade plate 320 extends, the auxiliary plate 510 presses down to press down on the cut piece on one side of the lapel sewing station 110;

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

By providing the folding auxiliary device 500, a limiting effect can be formed on the folding of the cut pieces, and the auxiliary plate 510 forms a folding line of the cut pieces toward one side of the shovel plate 320. In addition, the auxiliary plate 510 can stabilize the cut pieces when pressed down, preventing the cut pieces from being displaced.

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 state is aligned with the side of push plate 230 of bone opening device 200 adjacent to blade 320 in the extended state. Thus, the cut pieces can be folded in half along the middle line conveniently.

In the particular example illustrated, the lapel sewing 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 device 10 also includes a moving means (not shown) connected to the trace board 600 for carrying the trace board 600 and the various means thereon for integral movement.

In this example, the opening device 200, the folding device 300, the sewing auxiliary device 400, and the folding auxiliary device 500 are disposed around the lapel sewing station 110, where they are enclosed. The seam assist device 400 and the folding assist device 500 are located on the same side of the lapel seam station 110, are disposed side by side, the folding device 300 is disposed on the opposite side, are disposed opposite the seam assist device 400 and the folding assist device 500, and the bone opening device 200 is disposed on the other side and closer to the seam assist device 400. When the pressing plate 220 and the pushing plate 230 of the bone opening device 200 integrally extend, 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 sewing station 110, the sewing relief hole 412 on the station plate 410 corresponds to the needle falling hole 120.

In one example, the stitching device is movably disposed on the housing, and the stitching device is movable on the housing to stitch different portions of the cut-pieces. In one particular example, the stitching device is a pattern 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 stand, and the positioning device 700 and the bone opening device 200 are disposed on opposite sides of the lapel sewing station 110. The positioning device 700 is used for defining the placement position of the cut-parts so as to enable the cut-parts to be placed correctly. In the particular example illustrated, the positioning device 700 is two opposing risers, both of which are parallel to the lateral direction.

Further, the present invention also provides a collar method, using the collar apparatus 10 of any of the above examples, comprising the steps of:

placing a cut piece to be processed on a stand;

the pressing plate 220 and the pushing plate 230 extend towards the lapel sewing station and are pressed down to press one end of the cut piece to be processed;

transversely folding the cut piece to be processed, so that the upper layer of the cut piece is covered on the pressing plate 220 and the pushing plate 230 to obtain a transversely folded cut piece;

the sewing device carries out sewing on the part of the transversely folded cut piece on the sewing station 110 to obtain a sewing cut piece;

the pushing plate 230 further extends towards the lapel sewing station 110 to push open the upper seam allowance of the lapel cut piece to obtain a bone-opening cut piece;

resetting the pressing plate 220;

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

the sewing device is used for sewing and fixing lines on the longitudinal folding cut pieces.

The present invention will be further described below by taking the flow of collar making by way of the illustrated example collar device 10 as an example.

Referring to fig. 1 to 6, the flow of collar making in the collar making apparatus 10 of the illustrated example is as follows:

the strip-shaped cut pieces are manually placed on the sewing platform, and the cut pieces are placed according to the positioning device 700, so that the cut pieces cover the needle falling holes 120 on the lapel sewing station 110.

The start button is pressed, the device is started, and the pressing plate 220 and the pushing plate 230 of the bone opening device 200 integrally extend and press downwards towards the lapel sewing station 110 along the transverse direction and are pressed at the position of the cutting piece at one side of the lapel sewing station 110.

As shown in fig. 1 a, the cut-parts are manually folded in half transversely so that the upper layers of the cut-parts cover the pressing plate 220 and the pushing plate 230. At this time, the pressing plate 220 and the pushing plate 230 are located between the upper and lower layers of the cut pieces.

The second process button is pressed and the device continues to act. The station plate 410 of the sewing auxiliary device extends out and presses down on the cut piece on the lapel sewing station 110, and the auxiliary plate 510 of the folding auxiliary device 500 is turned over and presses down on the cut piece.

As shown in fig. 1 b, the sewing needle head of the sewing device passes through the lapel sewing abdication hole 412 on the station plate 410 to sew the cut piece out lapel, and the upper layer and the lower layer of the cut piece are sewn together.

The station plate 410 is retracted and reset to release the pressing of the cut pieces.

As shown in fig. 1 c, the pushing plate 230 further protrudes toward the lapel sewing station 110 to push open the upper seam allowance of the cut piece, and the upper layer of the cut piece is turned up along the lapel to complete the opening operation, at which time the pushing plate 230 presses the uppermost layer of the cut piece.

The pressing plate 220 is retracted and reset to release the pressing of the lower layer of the cut piece.

As shown in fig. 1 d, the blade 320 of the folding apparatus 300 is extended toward the lapel sewing station 110 in the longitudinal direction, shoveled under the cut pieces, and then the blade 320 is lifted and extended further so that the cut pieces are folded in half in the longitudinal direction along the side edges of the auxiliary plate 510 and the push plate 230, with the blade 320 being pressed against the uppermost layer of the cut pieces.

The push plate 230 is retracted and reset to release the pressing of the cut pieces.

As shown in fig. 1 e, the sewing device moves to stitch the cut pieces on the routing sewing station on the sewing platform out of the routing.

Blade 320 is retracted back to rest.

The auxiliary plate 510 is turned over and reset to release the pressing of the cut pieces.

And taking down the product with the collar turned off, and then carrying out the collar turning of the next cut-off piece.

In the collar folding device 10 and the collar folding method, the opening device 200 and the folding device 300 are provided to perform the operations such as opening and folding in the collar folding process, so that the workload of personnel can be reduced and the production efficiency can be improved.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (12)

1. The lapel equipment is characterized by comprising a stand, a sewing device, a bone opening device and a folding device;

the sewing device is arranged on the machine base, the machine base is provided with a line-connection sewing station for placing the transverse folded cut pieces, and the sewing device is used for sewing line connection on the transverse folded cut pieces to obtain the line-connection cut pieces;

the bone opening device is arranged on the machine base and comprises a bone opening driving mechanism, a pressing plate and a pushing plate, the pushing plate is movably arranged on the pressing plate, the bone opening driving mechanism is connected with the pressing plate and the pushing plate, the bone opening driving mechanism can drive the pressing plate to act 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 lapel cut piece and obtain a bone opening cut piece, and the pushing plate is also used for folding and positioning the bone opening cut piece;

the folding device is arranged on the machine base and is used for folding the open-bone cut-parts by taking one side of the push plate pressed on the open-bone cut-parts as a positioning line, the push plate resets to obtain longitudinal folded cut-parts, and the sewing device is also used for sewing and fixing lines on the longitudinal folded cut-parts.

2. The lapel apparatus as in claim 1, wherein the bone opening drive mechanism includes a platen drive member connected to the platen for driving the platen to extend or retract, a push plate drive member connected to the push plate for driving the push plate to extend first-stage, extend second-stage, or retract, and a lift drive member connected to the platen drive member and the push plate drive member for driving the platen drive member and the push plate drive member to rise or fall.

3. The lapel device of claim 1, wherein the upper side of the pressing plate is provided with a receiving groove, and the pushing plate is movably arranged in the receiving groove.

4. A lapel apparatus as claimed in any one of claims 1 to 3 wherein the folding means comprises a folding drive mechanism and a blade, the folding drive mechanism being connected to the blade, the folding drive mechanism being capable of driving the blade to extend, re-elevate and extend further towards the lapel sewing station to fold the open cut pieces.

5. The lapel apparatus of claim 4, wherein a side of the shovel plate proximate to a side of the lapel sewing station is disposed at an acute angle to a lower plate surface of the shovel plate.

6. The lapel apparatus of claim 4, wherein the spade plate projects outwardly adjacent a side of the lapel sewing station and adjacent the osseotomy means.

7. The lapel apparatus of any one of claims 1 to 3, 5, 6, further comprising a sewing aid disposed on the frame, the sewing aid including a station plate provided with a lapel sewing relief hole and a station plate drive mechanism connected to the station plate for driving the station plate to extend to the lapel sewing station and to press down or drive the station plate to reset.

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

9. A collar apparatus as claimed in any one of claims 1 to 3, 5, 6 and 8 further comprising a folding assist device provided on the base, the folding assist device comprising an assist plate and an assist plate drive mechanism connected to the assist plate for driving the assist plate to be depressed to one side of the sewing station, the assist plate being provided opposite to the spade plate of the folding device, the assist plate being located on opposite sides of the sewing station in a depressed state with the push plate of the opening device.

10. The lapel device of claim 9, wherein the side of the auxiliary plate adjacent to the blade in the depressed state is aligned with the side of the pusher plate adjacent to the blade in the extended state of the bone opening apparatus.

11. A lapel apparatus as claimed in any one of claims 1 to 3, 5, 6, 8, 10, wherein the lapel sewing station is provided with a needle drop hole.

12. A lapel method, characterized in that a lapel device according to any one of claims 1 to 11 is used, comprising the steps of:

placing a cut piece to be processed on the stand;

the pressing plate and the pushing plate extend towards the lapel sewing station and are pressed downwards so as to press one end of the to-be-processed cutting piece;

transversely folding the to-be-processed cut piece in half so that the upper layer of the cut piece covers the pressing plate and the pushing plate to obtain a transversely folded cut piece;

the sewing device is used for sewing the position of the transverse folded cut piece on the sewing station of the lapel to form lapel, so as to obtain the lapel cut piece;

the pushing plate further extends towards the lapel sewing station to push open the upper seam allowance of the lapel cut piece to obtain an open-bone cut piece;

resetting the pressing plate;

the folding device folds the open-bone cut-parts by taking one side of the push plate pressed on the open-bone cut-parts as a positioning line, and the push plate resets to obtain longitudinal folded cut-parts;

and the sewing device is used for sewing and fixing lines on the longitudinal folded cut pieces.