CN211036353U

CN211036353U - Clothes sewing device

Info

Publication number: CN211036353U
Application number: CN201921515119.7U
Authority: CN
Inventors: 叶冠平
Original assignee: Individual
Current assignee: Guangzhou Chenliyuan Automation Equipment Co ltd
Priority date: 2019-09-10
Filing date: 2019-09-10
Publication date: 2020-07-17
Anticipated expiration: 2029-09-10

Abstract

The utility model relates to the field of clothing, and discloses a clothing sewing device, which comprises a shaping component, a pressing component, a cloth pressing component, a shoveling and folding component, a clothing mold and a base, wherein the clothing mold is arranged on the base, the shoveling and folding component and the cloth pressing component are arranged on the base, and the clothing mold is movably acted on; the shaping assembly and the pressing assembly are separated, the shaping assembly comprises a shaping power mechanism and a shaping plate, the shaping power mechanism drives the shaping plate to extend into or withdraw from the clothes mold, the pressing assembly comprises a pressing power mechanism and a pressing plate, the pressing power mechanism drives the pressing plate to extend into or withdraw from the clothes mold, the shaping plate and the pressing plate are overlapped in the overlooking direction, and a gap exists between the shaping plate and the pressing plate and the shaping plate is positioned below the shaping plate. Through the shaping subassembly and compress tightly the pressure of subassembly shovel stack subassembly and hold, realize cutting out the automation shovel of cloth and fold, increase production efficiency, reduce the cost of labor.

Description

Clothes sewing device

Technical Field

The utility model relates to a clothing field, especially a clothing sewing device.

Background

In the field of collar manufacturing, different processes and equipment are needed due to the fact that different clothes and different parts are processed, for example, sleeve forks and sleeve sides are distinguished, the sleeve sides are divided into a large side and a thin side, when the large side is sewn, a garment manufacturing worker mainly uses a provided large side drawing to manually fold a large side cutting piece through own manual operation, then fixes the large side cutting piece into a good shape, and then performs sewing through a sewing machine to finish the manufacturing of the large side. Moreover, the problems of low production efficiency of manual manufacturing, low product percent of pass and the like influence the processing efficiency and quality of a large side and increase the labor cost.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to improve prior art's shortcoming, provide a clothing sewing device, realize the automatic shovel of cutting out the cloth and fold, increase production efficiency, reduce the cost of labor.

The technical scheme is as follows:

the clothes sewing device comprises a shaping assembly, a pressing assembly, a cloth pressing assembly, a folding shovel assembly, a clothes mold and a base, wherein the clothes mold is installed on the base, and the folding shovel assembly and the cloth pressing assembly are installed on the base and movably act on the clothes mold;

the shaping assembly and the pressing assembly are separated, the shaping assembly comprises a shaping power mechanism and a shaping plate, the shaping power mechanism drives the shaping plate to extend into or withdraw from the clothes mold, the pressing assembly comprises a pressing power mechanism and a pressing plate, the pressing power mechanism drives the pressing plate to extend into or withdraw from the clothes mold, the shaping plate and the pressing plate are overlapped in the overlooking direction, and a gap exists between the shaping plate and the pressing plate and the shaping plate is positioned below the shaping plate.

The shaping power mechanism comprises a shaping fixed plate, a shaping driving frame, a first shaping power cylinder and a second shaping power cylinder, the shaping fixed plate is fixedly arranged on the base, the shaping driving frame is movably arranged on the shaping fixed plate up and down, the first shaping power cylinder drives the shaping plate, and the second shaping power cylinder drives the shaping driving frame to move up and down;

the pressing power mechanism comprises a pressing fixing plate, a pressing driving frame, a first pressing power cylinder and a second pressing power cylinder, the pressing fixing plate is fixedly mounted on the base, the pressing driving frame is movably mounted on the pressing fixing plate up and down, the first pressing power cylinder drives the pressing plate, and the second pressing power cylinder drives the pressing driving frame to move up and down.

The shaping power mechanism further comprises a shaping connecting block, one end of the shaping connecting block is connected with the shaping driving frame, the other end of the shaping connecting block is connected with the second shaping power cylinder, and the other end of the second shaping power cylinder is connected with the shaping fixing plate or the base;

the compressing power mechanism further comprises a compressing connecting block, one end of the compressing connecting block is connected with the compressing driving frame, the other end of the compressing connecting block is connected with the second compressing power cylinder, and the other end of the second compressing power cylinder is connected with the compressing fixing plate or the base.

The shaping power mechanism further comprises two groups of first shaping guide rails and first shaping guide grooves, the first shaping guide rails are arranged on two sides of the shaping fixed plate, the first shaping guide grooves are arranged on two sides of the shaping driving frame, and the first shaping guide rails are in sliding fit with the first shaping guide grooves;

the compressing power mechanism further comprises two groups of first compressing guide rails and first compressing guide grooves, the first compressing guide rails are arranged on two sides of the compressing fixing plate, the first compressing guide grooves are arranged on two sides of the compressing driving frame, and the first compressing guide rails are in sliding fit with the first compressing guide grooves.

The shaping power mechanism further comprises a second shaping guide rail, a second shaping guide groove and a shaping connecting piece, the second shaping guide rail is connected to the shaping driving frame, the second shaping guide groove is in sliding fit with the second shaping guide rail, the second shaping guide groove is connected with the shaping plate through the shaping connecting piece, and the first shaping power cylinder is installed on the shaping driving frame and drives the shaping connecting piece;

the compressing power mechanism further comprises a second compressing guide rail, a second compressing guide groove and a compressing connecting piece, the second compressing guide rail is connected to the compressing driving frame, the second compressing guide groove is in sliding fit with the second compressing guide rail, the second compressing guide groove is connected with the compressing plate through the compressing connecting piece, and the first compressing power cylinder is installed on the compressing driving frame and drives the compressing connecting piece.

The pressing power mechanism further comprises a third pressing power cylinder, a third pressing guide rail, a third pressing guide groove and a pressing limiting block, the third pressing guide rail and the third pressing power cylinder are installed on the pressing driving frame, the third pressing guide groove is in sliding fit with the third pressing guide rail, and the pressing limiting block is connected to the third pressing guide rail and is in contact limiting with the pressing connecting piece.

The pressing driving frame is provided with a through transverse groove, the pressing limiting block is provided with a protrusion, the protrusion penetrates through the transverse groove and is in contact with the pressing connecting piece, and the protrusion is located on one side away from the first pressing power cylinder.

The shaping plate protrudes out of the shaping power mechanism, and the pressing plate protrudes out of the pressing power mechanism.

The cloth pressing component comprises a cloth pressing plate, the cloth pressing plate comprises a first cloth pressing plate, a second cloth pressing plate and a connecting seat, and the connecting seat is connected with the first cloth pressing plate and the second cloth pressing plate.

The shovel is folded the subassembly and is included multiunit shovel and fold cylinder, shovel folded sheet and regulation seat, shovel folded sheet with shovel is folded and is connected through adjusting the seat between the cylinder, it has the tip of two adjustable positions to adjust the seat, shovel folded sheet with adjust the seat and respectively connect at one of them tip.

It should be noted that:

the foregoing "first, second, and third … …" do not denote any particular quantity or order, but rather are used merely to distinguish one name from another.

The advantages or principles of the invention are explained below:

1. when the cloth cutting machine needs to be used for machining, the machine is started, the cut cloth is placed on a clothes die, the forming power mechanism drives the forming plate to press the cut cloth on the pressing component, then the pressing component starts to work, the cut cloth is pressed inside the clothes die, at the moment, the cut cloth is basically folded and formed, then the pressing power mechanism drives the pressing plate to stretch out, the folded cut cloth is pressed and held, the forming power mechanism drives the forming plate to withdraw from the clothes die, the pressing component presses and holds the folded cut cloth, the pressing component withdraws from the upper portion of the clothes die, at the moment, the forming is completed, then the sewing process is started, the process only needs to manually place the cut cloth above the clothes die, the folding is carried out through the device, the labor force is saved, the production efficiency is improved, and the automatic folding can enable the quality control of the cut cloth to be the same. The shaping component and the pressing component are separated, so that mutual interference cannot occur in respective work, and a gap exists between the shaping plate and the pressing plate which are respectively driven by the shaping component and the pressing plate, so that direct contact cannot occur, the service life is influenced, and even if the shaping component or the pressing component is damaged, the pressing component or the shaping component does not need to be detached and maintained during maintenance, so that the service life of the clothes sewing device is prolonged.

2. The shaping fixed plate is fixedly arranged on the base to realize fixation, the first power cylinder drives the shaping plate to extend into or withdraw from the clothes mould, then the shaping driving frame can move up and down under the action of the second power cylinder, and after the shaping plate extends into the clothes mould, the second power cylinder drives the shaping plate to move down to finish a pressing and holding action before fabric cutting and shaping. In a similar way, when the pressing plate is required to work, the first pressing power cylinder is utilized to drive the pressing plate to stretch into the clothes mold, and then the second pressing power cylinder drives the pressing plate to move downwards, so that the pressing effect after shaping is completed.

3. One end of the shaping connecting block is connected with the second shaping power cylinder, the other end of the shaping connecting block is connected with the shaping driving frame, when the second shaping power cylinder acts, power is transmitted to the shaping driving frame through the shaping connecting block, the shaping driving frame moves up and down, the shaping connecting block provides the second shaping power cylinder and the shaping driving frame with position adjustment, and the interference to the work of the first shaping power cylinder is avoided. And similarly, a compression connecting block is arranged on the compression assembly.

4. Utilize the cooperation of first design guide rail and first design guide slot, will fix a shape the driving rack and install on the design fixed plate, when second design power cylinder drive reciprocated, had the guide effect, place and take place to warp, influence the work precision, directly destroy the second design power cylinder even, lead to damaging. In a similar way, the pressing component uses a first pressing guide rail and a first pressing guide groove to install the pressing driving frame on the pressing fixing plate.

5. The second shaping guide rail and the second shaping guide groove which are included by the shaping power mechanism are matched, the shaping connecting piece is connected to the second shaping guide groove, the shaping plate is connected to the shaping connecting piece, when the first shaping power cylinder works, the shaping connecting piece acts on the shaping connecting piece, the shaping connecting piece slides on the second shaping guide groove along the second shaping guide rail, and therefore the shaping plate is driven to move. In a similar way, a second pressing guide rail and a second shaping guide groove which are arranged on the pressing power mechanism are matched, so that the moving precision of the pressing plate is ensured, and the first pressing power cylinder is protected.

6. The third that compresses tightly power unit and sets up compresses tightly power cylinder to the drive compresses tightly the stopper motion, and the third compresses tightly and cooperates between guide rail and the third and compresses tightly the guide slot, and wherein compress tightly the stopper and install on the third compresses tightly the guide slot, and it is strong to utilize the guide slot to cooperate stability, then utilizes to compress tightly the stopper and compress tightly the connecting piece contact spacing. In the actual processing, when sewing the large side, a sewing process of a transverse thread exists at the sleeve vent, but the pressing plate has a block, therefore, when the transverse thread needs to be sewn, in order to avoid the situation that the pressing plate and a sewing cutter are subjected to firing, therefore, the pressing plate needs to be avoided by a step of retreating, the third pressing power cylinder is contracted, the pressing connecting piece is retreated by the pressing limiting block to realize the retreating of the pressing plate, the driving force of the third pressing power cylinder is larger than that of the first pressing power cylinder, when the pressing plate needs to extend out, the third pressing power cylinder and the first pressing power cylinder act simultaneously, when the back-off avoidance is needed, the first compaction power cylinder does not act, the third compaction power cylinder backs off for a small section, at the moment, the first compaction power cylinder is forced to retreat by a small amount due to the large driving force of the third compaction power cylinder.

7. The bulge on the compression limiting block is utilized to support and tightly compress the connecting piece, so that a limiting effect is realized, the bulge is positioned on one side far away from the first compression power cylinder, and the third compression power cylinder can pull the compression connecting piece to move randomly when returning.

8. The setting plate protrudes out of the setting power mechanism, the pressing plate protrudes out of the pressing power mechanism, and the arrangement avoids collision between the setting plate or the pressing plate and the setting power mechanism or the pressing power mechanism when the setting plate or the pressing plate moves.

9. Because there is different specifications when making up different big sides, so the multiple specification of position adaptation sets the compress board into first compress board and second compress board, utilizes the effect of connecting seat for the dead slot between first compress board and the second compress board can be adjusted.

10. The shoveling and folding assembly drives the shoveling and folding plate by utilizing the shoveling and folding cylinder to fold the cut cloth, wherein the shoveling and folding cylinder is connected with the shoveling and folding plate through the adjusting seat, the adjusting seat is provided with two adjustable end parts, and the relative positions of the two end parts are adjusted, so that the position of the shoveling and folding plate can be adjusted, and the shoveling and folding plate is suitable for different large-side sewing.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a shaping assembly according to an embodiment of the present invention;

fig. 3 is a schematic perspective view of a pressing assembly according to an embodiment of the present invention;

FIG. 4 is a top view of the cloth pressing assembly, the stack shoveling assembly and the clothes mold according to the embodiment of the present invention;

fig. 5 is a schematic structural view of a clothes module according to an embodiment of the present invention.

Description of reference numerals:

10. a shaping component; 11. a shape-setting plate; 12. a shaping power mechanism; 121. shaping a fixed plate; 122. shaping a driving frame; 123. a first shaping power cylinder; 124. a second form setting power cylinder; 125. shaping a connecting block; 126. a first shaped rail; 127. a first shaping guide groove; 128. a second shaping rail; 129. a second shaping channel; 1201. shaping the connecting piece; 20. a compression assembly; 21. a compression plate; 22. a compaction power mechanism; 221. compressing the fixed plate; 222. the driving frame is pressed; 223. a first compression power cylinder; 224. a second compression power cylinder; 225. compressing the connecting block; 226. a first hold-down rail; 227. a first hold-down guide slot; 228. a second hold-down rail; 229. a second hold-down guide slot; 2201. compressing the connecting piece; 2202. a third compaction power cylinder; 2203. a third hold down rail; 2204. a third compacting guide slot; 2205. a pressing limiting block; 30. a cloth pressing component; 31. a first cloth pressing plate; 32. a second cloth pressing plate; 33. a connecting seat; 40. a stack shoveling assembly; 41. a shoveling and stacking cylinder; 42. shoveling and stacking the plates; 43. an adjusting seat; 50. a garment mold; 60. a base.

Detailed Description

The following describes embodiments of the present invention in detail.

As shown in fig. 1 to 3, the clothes sewing device comprises a shaping assembly 10, a pressing assembly 20, a cloth pressing assembly 30, a folding assembly 40, a clothes mold 50 and a base 60, wherein the clothes mold 50 is mounted on the base 60, the folding assembly 40 and the cloth pressing assembly 30 are mounted on the base 60, and the clothes mold 50 is movably acted on; the shaping assembly 10 is separated from the pressing assembly 20, the shaping assembly 10 comprises a shaping power mechanism 12 and a shaping plate 11, the shaping power mechanism 12 drives the shaping plate 11 to extend into or withdraw from the clothes mold 50, the pressing assembly 20 comprises a pressing power mechanism 22 and a pressing plate 21, the pressing power mechanism 22 drives the pressing plate 21 to extend into or withdraw from the clothes mold 50, the shaping plate 11 and the pressing plate 21 are overlapped in the overlooking direction, a gap exists between the shaping plate 11 and the pressing plate 21, and the shaping plate 11 is located below.

When processing is needed, the machine is started to place the cut fabric on the clothes mold 50, at this time, the shaping power mechanism 12 drives the shaping plate 11 to press the cut fabric on the pressing component 20, the stack shoveling assembly 40 is then operated to stack the fabric cut within the garment mold 50, at which point the fabric cut has been substantially folded, then the pressing power mechanism 22 drives the pressing plate 21 to extend out, the folded cut cloth is pressed and held, at this time, the shaping power mechanism 12 drives the shaping plate 11 to exit the clothes mold 50, the cloth pressing assembly 30 presses down and holds the folded cut cloth, the folding assembly 40 exits above the clothes mold 50, at this time, shaping is completed, then get into the sewing process, this process only needs the manual work to place the tailor cloth in clothing mould 50 top, then folds through the device, has saved the labour and has improved production efficiency, and automatic folding can be the same with the quality control of tailor cloth moreover. The shaping component 10 and the pressing component 20 are separated, so that mutual interference does not occur in respective work, and a gap exists between the shaping plate 11 and the pressing plate 21 which are respectively driven by the shaping component 10 and the pressing component 21, so that direct contact does not occur, the service life is not influenced, and even if the shaping component 10 or the pressing component 20 is damaged, the other pressing component 20 or the shaping component 10 does not need to be disassembled for maintenance in maintenance, so that the service life of the clothes sewing device is prolonged.

In addition, still be provided with the scale mark on base 60, this scale mark can carry out an adjustment to the position of placing of cutting fabric, does benefit to the control quality more. As shown in fig. 4 and 5, the clothes mold 50 can be replaced, and for sewing different large sides, only the clothes mold 50 needs to be replaced, so that the clothes mold can be suitable for manufacturing various large sides. For example, when the cuff is formed, the garment mold 50 is replaced by a cuff mold, the garment mold 50 can be replaced by a collar mold for forming a collar, and the garment mold 50 is a cuff mold in this embodiment.

As shown in fig. 1 to 3, the shaping power mechanism 12 includes a shaping fixing plate 121, a shaping driving frame 122, a first shaping power cylinder 123 and a second shaping power cylinder 124, the shaping fixing plate 121 is fixedly mounted on the base 60, the shaping driving frame 122 is movably mounted on the shaping fixing plate 121 up and down, the first shaping power cylinder 123 drives the shaping plate 11, and the second shaping power cylinder 124 drives the shaping driving frame 122 to move up and down; the pressing power mechanism 22 comprises a pressing fixing plate 221, a pressing driving frame 222, a first pressing power cylinder 223 and a second pressing power cylinder 224, the pressing fixing plate 221 is fixedly mounted on the base 60, the pressing driving frame 222 is vertically movably mounted on the pressing fixing plate 221, the first pressing power cylinder 223 drives the pressing plate 21, and the second pressing power cylinder 224 drives the pressing driving frame 222 to vertically move.

The shaping fixing plate 121 is fixedly installed on the base 60 to realize fixing, the first power cylinder drives the shaping plate 11 to extend into or withdraw from the clothes mold 50, then the shaping driving frame 122 can move up and down under the action of the second power cylinder, and after the shaping plate 11 extends into the clothes mold 50, the second power cylinder drives the shaping plate 11 to move down to finish a pressing and holding action before fabric cutting and shaping. Similarly, when the pressing plate 21 needs to work, the first pressing power cylinder 223 is used for driving the pressing plate 21 to extend into the clothes mold 50, and then the second pressing power cylinder 224 is used for driving the pressing plate 21 to move downwards, so that the pressing effect after shaping is completed.

As shown in fig. 2 and 3, the shaping power mechanism 12 further includes a shaping connecting block 125, one end of the shaping connecting block 125 is connected to the shaping driving frame 122, and the other end is connected to the second shaping power cylinder 124, and the other end of the second shaping power cylinder 124 is connected to the shaping fixing plate 121 or the base 60; the compressing power mechanism 22 further includes a compressing connecting block 225, one end of the compressing connecting block 225 is connected to the compressing driving frame 222, the other end is connected to the second compressing power cylinder 224, and the other end of the second compressing power cylinder 224 is connected to the compressing fixing plate 221 or the base 60.

One end of the shaping connecting block 125 is connected with the second shaping power cylinder 124, and the other end of the shaping connecting block 125 is connected with the shaping driving frame 122, wherein when the second shaping power cylinder 124 acts, power is transmitted to the shaping driving frame 122 through the shaping connecting block 125, so that the shaping driving frame 122 moves up and down, the shaping connecting block 125 provides the second shaping power cylinder 124 and the shaping driving frame 122 with position adjustment, and the interference to the work of the first shaping power cylinder is avoided. Similarly, a pressing connecting block 225 is arranged on the pressing component 20.

As shown in fig. 2 and fig. 3, the shaping power mechanism 12 further includes two sets of first shaping guide rails 126 and first shaping guide grooves 127, the first shaping guide rails 126 are installed on two sides of the shaping fixing plate 121, the first shaping guide grooves 127 are installed on two sides of the shaping driving frame 122, and the first shaping guide rails 126 are in sliding fit with the first shaping guide grooves 127; the compressing power mechanism 22 further includes two sets of first compressing guide rails 226 and first compressing guide grooves 227, the first compressing guide rails 226 are installed on two sides of the compressing fixing plate 221, the first compressing guide grooves 227 are installed on two sides of the compressing driving frame 222, and the first compressing guide rails 226 are in sliding fit with the first compressing guide grooves 227.

The shaping driving frame 122 is arranged on the shaping fixing plate 121 by matching the first shaping guide rail 126 and the first shaping guide groove 127, and has a guiding function when the second shaping power cylinder 124 drives to move up and down, so that the deformation is generated when the second shaping power cylinder 124 is placed, the working precision is influenced, and even the second shaping power cylinder 124 is directly damaged, and the damage is caused. Similarly, the pressing assembly 20 mounts the pressing driving bracket 222 on the pressing fixing plate 221 using the first pressing guide rail 226 and the first pressing guide groove 227.

As shown in fig. 2 and 3, the shaping power mechanism 12 further includes a second shaping guide rail 128, a second shaping guide groove 129 and a shaping connecting member 1201, the second shaping guide rail 128 is connected to the shaping driving frame 122, the second shaping guide groove 129 is in sliding fit with the second shaping guide rail 128, the second shaping guide groove 129 is connected to the shaping plate 11 through the shaping connecting member 1201, and the first shaping power cylinder 123 is mounted on the shaping driving frame 122 and drives the shaping connecting member 1201; the pressing power mechanism 22 further includes a second pressing guide rail 228, a second pressing guide groove 229 and a pressing connecting member 2201, the second pressing guide rail 228 is connected to the pressing driving frame 222, the second pressing guide groove 229 is in sliding fit with the second pressing guide rail 228, the second pressing guide groove 229 is connected to the pressing plate 21 through the pressing connecting member 2201, and the first pressing power cylinder 223 is mounted on the pressing driving frame 222 and drives the pressing connecting member 2201.

The second shaping guide rail 128 and the second shaping guide groove 129 of the shaping power mechanism 12 are matched, the shaping connecting piece 1201 is connected to the second shaping guide groove 129, the shaping plate 11 is connected to the shaping connecting piece 1201, when the first shaping power cylinder 123 works, the shaping connecting piece 1201 acts on the shaping connecting piece 1201, the shaping connecting piece 1201 slides along the second shaping guide rail 128 on the second shaping guide groove 129, and therefore the shaping plate 11 is driven to move, due to the fact that the second shaping guide rail 128 and the second shaping guide groove 129 are matched, the phenomenon that the left and right shaking is large in range during moving is avoided, high working accuracy can be guaranteed, and meanwhile the phenomenon that the service life and control accuracy of the first shaping power cylinder 123 are damaged due to the shaking is avoided. Similarly, the second pressing guide 228 of the pressing power mechanism 22 is matched with the second shaping guide groove 129, so as to ensure the moving precision of the pressing plate 21 and protect the first pressing power cylinder 223.

As shown in fig. 3, the pressing power mechanism 22 further includes a third pressing power cylinder 2202, a third pressing guide rail 2203, a third pressing guide groove 2204 and a pressing limit block 2205, the third pressing guide rail 2203 and the third pressing power cylinder 2202 are mounted on the pressing driving frame 222, the third pressing guide groove 2204 is in sliding fit with the third pressing guide rail 2203, and the pressing limit block 2205 is connected to the third pressing guide rail 2203 and is in contact with the pressing connection member 2201 for limiting. The third compressing power cylinder 2202 arranged in the compressing power mechanism 22 drives the compressing limit block 2205 to move, the third compressing guide rail 2203 is matched with the third compressing guide groove 2204, the compressing limit block 2205 is arranged on the third compressing guide groove 2204, the stability of matching by the guide groove is high, and then the compressing limit block 2205 is contacted with the compressing connecting piece 2201 for limiting. In the actual processing, when sewing a large side, a sewing process of a transverse line exists at the sleeve fork, but the pressing plate 21 is blocked, so when the transverse line needs to be sewn, in order to avoid the situation that the pressing plate 21 and a sewing tool have a needle collision, the pressing plate 21 needs to be provided with a backward step for avoiding, therefore, the arranged third pressing power cylinder 2202 contracts, the pressing connecting piece 2201 is retreated by using the pressing limiting block 2205 to realize the retreat of the pressing plate 21, the driving force of the third pressing power cylinder 2202 is larger than that of the first pressing power cylinder 223, when the pressing plate 21 needs to extend out, the third pressing power cylinder 2202 and the first pressing power cylinder 223 simultaneously act, when the retreating and avoiding are needed, the first pressing power cylinder 223 does not act, the third pressing power cylinder 2202 retreats by a small section, and at this time, because the driving force of the third pressing power cylinder 2202 is larger, the first compression power cylinder 223 is forced back a small amount.

Specifically, as shown in fig. 3, a through transverse groove is formed in the pressing driving frame 222, a protrusion is arranged on the pressing limiting block 2205, the protrusion passes through the transverse groove and contacts with the pressing connecting piece 2201, and the protrusion is located on one side far away from the first pressing power cylinder 223. The pressing limiting block 2205 is provided with a protrusion which abuts against the pressing connecting piece 2201 to achieve a limiting effect, the protrusion is located on one side far away from the first pressing power cylinder 223, and the third pressing power cylinder 2202 can pull the pressing connecting piece 2201 to move randomly when retreating.

As shown in fig. 1, the shape setting plate 11 protrudes from the shape setting power mechanism 12, and the pressing plate 21 protrudes from the pressing power mechanism 22. This arrangement prevents the setting plate 11 or the pressure plate 21 from colliding with the setting power mechanism 12 or the pressure power mechanism 22 during movement.

As shown in fig. 1 and 4, the cloth pressing assembly 30 includes a cloth pressing plate including a first cloth pressing plate 31, a second cloth pressing plate 32, and a connecting seat 33, and the connecting seat 33 connects the first cloth pressing plate 31 and the second cloth pressing plate 32. Because different specifications exist when different large sides are sewn, the positions of the cloth pressing plates are adapted to various specifications, the cloth pressing plates are set into the first cloth pressing plate 31 and the second cloth pressing plate 32, and the empty grooves between the first cloth pressing plate 31 and the second cloth pressing plate 32 can be adjusted by utilizing the effect of the connecting seat 33.

As shown in fig. 1 and 4, the stack assembly 40 includes a plurality of sets of stack cylinders 41, a stack plate 42 and an adjusting seat 43, the stack plate 42 is connected to the stack cylinders 41 through the adjusting seat 43, the adjusting seat 43 has two adjustable end portions, and the stack plate 42 and the adjusting seat 43 are connected to one end portion. The folding shovel assembly 40 drives the folding shovel plate 42 by the folding shovel cylinder 41 to fold the cut cloth, wherein the folding shovel cylinder 41 and the folding shovel plate 42 are connected through the adjusting seat 43, the adjusting seat 43 has two adjustable end parts, and the relative positions of the two end parts are adjusted, so that the folding shovel plate 42 can be controlled to adjust the position to adapt to sewing on different large sides.

In addition, the arc is set to one side that two shovel folded plates 42 that the symmetry set up are close to clothing mould 50 middle part, and the arc setting can be with cutting out the comparatively smooth folding of cloth, avoids taking place to block the phenomenon.

The above are only specific embodiments of the present invention, and the protection scope of the present invention is not limited thereby; any replacement and improvement made on the basis of not violating the conception of the utility model belong to the protection scope of the utility model.

Claims

1. The clothes sewing device is characterized by comprising a shaping assembly, a pressing assembly, a cloth pressing assembly, a shoveling and stacking assembly, a clothes mold and a base, wherein the clothes mold is installed on the base, and the shoveling and stacking assembly and the cloth pressing assembly are installed on the base and movably act on the clothes mold;

2. The garment sewing device of claim 1, wherein the shaping power mechanism comprises a shaping fixed plate, a shaping driving frame, a first shaping power cylinder and a second shaping power cylinder, the shaping fixed plate is fixedly mounted on the base, the shaping driving frame is movably mounted on the shaping fixed plate up and down, the first shaping power cylinder drives the shaping plate, and the second shaping power cylinder drives the shaping driving frame to move up and down;

3. The garment sewing device of claim 2, wherein the shape-setting power mechanism further comprises a shape-setting connecting block, one end of the shape-setting connecting block is connected to the shape-setting driving frame, and the other end of the shape-setting connecting block is connected to the second shape-setting power cylinder, and the other end of the second shape-setting power cylinder is connected to the shape-setting fixing plate or the base;

4. The garment sewing device of claim 2, wherein the shaping power mechanism further comprises two sets of first shaping rails and first shaping guide slots, the first shaping rails are mounted on two sides of the shaping fixed plate, the first shaping guide slots are mounted on two sides of the shaping driving frame, and the first shaping rails and the first shaping guide slots are in sliding fit;

5. The garment sewing device of claim 2, wherein the shaping power mechanism further comprises a second shaping guide rail, a second shaping guide slot and a shaping connecting member, the second shaping guide rail is connected to the shaping driving frame, the second shaping guide slot is in sliding fit with the second shaping guide rail, the second shaping guide slot is connected with the shaping plate through the shaping connecting member, and the first shaping power cylinder is mounted on the shaping driving frame and drives the shaping connecting member;

6. The garment sewing device of claim 5, wherein the compression power mechanism further comprises a third compression power cylinder, a third compression guide rail, a third compression guide groove and a compression limiting block, the third compression guide rail and the third compression power cylinder are mounted on the compression driving frame, the third compression guide groove is in sliding fit with the third compression guide rail, and the compression limiting block is connected to the third compression guide rail and is in contact with the compression connecting piece for limiting.

7. The garment sewing device of claim 6, wherein the compression driving frame is provided with a through transverse slot, the compression limiting block is provided with a protrusion, the protrusion passes through the transverse slot and contacts with the compression connecting piece, and the protrusion is positioned on one side far away from the first compression power cylinder.

8. A garment sewing device as claimed in any of claims 1 to 7, wherein the shape defining plate projects from the shape defining power means and the hold-down plate projects from the hold-down power means.

9. The garment sewing device of any of claims 1-7, wherein the cloth pressing assembly comprises a cloth pressing plate, the cloth pressing plate comprises a first cloth pressing plate, a second cloth pressing plate and a connecting seat, and the connecting seat connects the first cloth pressing plate and the second cloth pressing plate.

10. The garment sewing device of any of claims 1-7, wherein the folding assembly comprises a plurality of sets of folding cylinders, a folding plate and an adjustment base, the folding plate and the folding cylinders are connected by the adjustment base, the adjustment base has two adjustable position ends, and the folding plate and the adjustment base are each connected at one of the ends.