CN210002055U - System for processing sleeve pieces of knitted round-neck sweater - Google Patents

Abstract

The utility model discloses a knitting round collar shirt sleeve cut-parts system of processing includes the board, the automatic fifty percent discount device of knitting cut-parts, the automatic piece device of getting of knitting cut-parts, the sewing device, diversified motion material feeding unit and controlling means, the automatic fifty percent discount device of knitting cut-parts is established on the board and is used for carrying out the fifty percent discount to the knitting cut-parts on its fifty percent discount supporting baseplate in order to form the fifty percent discount cut-parts, the automatic piece device of getting of knitting cut-parts is established on the board and is used for getting the material and send to on the fifty percent discount supporting baseplate from preset position, the sewing device is used for sewing fifty percent discount cut-parts formation sewing cut-parts, diversified motion material feeding unit is established and is used for transporting the fifty percent discount cut-parts between the automatic fifty percent discount device of knitting cut-parts and sewing device on the board, controlling means electric connection knitting cut-parts is automatic to get the piece device, the automatic fifty percent discount device of knitting cut-parts.

Description

System for processing sleeve pieces of knitted round-neck sweater

Technical Field

The utility model relates to a textile sector especially relates to kinds of knitting round collar shirt sleeve cut-parts system of processing.

Background

In the textile field, the proportion of knitting lists in orders of garment factories is gradually increased in recent years, the knitting automation degree is not high compared with that of tatting, mechanical operation is more difficult to realize compared with tatting cloth due to the characteristics of the knitted cloth, and at present, the processing procedures of the knitted cloth such as a knitted round-neck sweater are mostly realized by manual operation. In the sewing process of the knitted round-neck sweater, particularly, the sleeve burying process is completed through manual operation, the quality problem caused by fatigue and the like is easy to occur due to large workload of a clothing factory and heavy burden of workers, and in addition, the production efficiency is low due to manual operation.

SUMMERY OF THE UTILITY MODEL

Based on this, there is a need to provide knitted circular collar sleeve panel processing systems that can reduce worker burden, reduce worker training time, improve production efficiency and quality stability, and improve process automation.

knitting round collar shirt sleeve cut-parts system of processing includes:

a machine platform;

the automatic knitted cut piece folding device is arranged on the machine table and used for folding the knitted cut pieces on the folding supporting bottom plate to form folded cut pieces;

the automatic knitted cut piece taking device is arranged on the machine table and used for taking materials from a preset position on the machine table and sending the materials to the folding support bottom plate;

the sewing device is arranged on the machine table and is used for sewing and folding the cut pieces to form sewing cut pieces;

the multidirectional moving feeding device is arranged on the machine table and used for transferring the folded cut pieces between the automatic knitted cut piece folding device and the sewing device; and

controlling means, controlling means electric connection the automatic piece device of getting of knitted cut-parts the automatic fifty percent discount device of knitted cut-parts sewing device and diversified material feeding unit that moves.

In wherein embodiments, knitting round collar shirt sleeve cut-parts system of processing still includes electric connection controlling means's material collecting device, diversified motion material feeding unit still is used for transporting sewing cut-parts extremely material collecting device department, material collecting device establishes on the board in order to be used for to sewing cut-parts receive the material.

In embodiments, the material receiving device further comprises an image acquisition mechanism electrically connected to the control device, the image acquisition mechanism is arranged on the machine table and used for acquiring the image of the sewn cut piece, and the control device is used for judging whether the sewn cut piece is a right sleeve cut piece or a left sleeve cut piece according to the image of the sewn cut piece;

material collecting device is including establishing receipts material reposition of redundant personnel mechanism, receiving agencies and second receiving agencies on the board, receive material reposition of redundant personnel mechanism and be used for receiving the sewing cut-parts that diversified motion material feeding unit sent, and right left side sleeve cut-parts with right side sleeve cut-parts are shunted, receiving agencies is used for collecting and comes from receive the left sleeve cut-parts on the material reposition of redundant personnel mechanism, second receiving agencies is used for collecting and comes from receive the right sleeve cut-parts on the material reposition of redundant personnel mechanism.

In embodiments, the material receiving and distributing mechanism comprises a material receiving and distributing plate, a material receiving clamp, a second material receiving clamp and a distributing plate driving part electrically connected with the control device, the material receiving clamp and the second material receiving clamp are arranged on the machine table, the material receiving and distributing plate is located between the material receiving clamp and the second material receiving clamp, the distributing plate driving part is connected with the material receiving and distributing plate, the distributing plate driving part is used for driving the material receiving and distributing plate to move, when the material receiving and distributing plate moves to the material receiving clamp, the material receiving clamp clamps the left sleeve piece, when the material receiving and distributing plate resets, the material receiving clamp releases the left sleeve piece to the material receiving mechanism, when the material receiving and distributing plate moves to the second material receiving clamp, the second material receiving clamp clamps clamp the left sleeve piece, and when the material receiving and distributing plate resets, the second material receiving clamp releases the left sleeve piece to the second material receiving mechanism.

In embodiments, the material collecting mechanism comprises a 0 material collecting plate and a 1 material collecting driving part electrically connected with the control device, wherein the 2 th material collecting driving part is mounted on the machine table and connected with the th material collecting plate, the material collecting driving part is used for driving the material collecting plate to ascend or descend, and after the material collecting plate receives left sleeve panels, the material collecting driving part drives the material collecting plate to descend by the distance equal to the thickness of the left sleeve panels.

In embodiments, the receiving mechanism further includes a 0 th receiving platform and a 1 th position detector electrically connected to the control device, the 2 th receiving driving component is mounted on the th receiving platform, the th position detector is mounted on the th receiving platform and located below the th receiving plate, and when the th receiving plate descends to contact the th position detector, the th receiving driving component stops driving the th receiving plate to descend.

In embodiments, the second material receiving mechanism comprises a second material receiving plate and a second material receiving driving part electrically connected with the control device, the second material receiving driving part is mounted on the machine and connected with the second material receiving plate, the second material receiving driving part is used for driving the second material receiving plate to ascend or descend, and after the second material receiving plate receives right sleeve cut pieces, the second material receiving driving part drives the second material receiving plate to descend by the distance of the thickness of right sleeve cut pieces.

In embodiments, the second material receiving mechanism further includes a second material receiving platform and a second position detector electrically connected to the control device, the second material receiving driving member is mounted on the second material receiving platform, the second position detector is mounted on the second material receiving platform and located below the second material receiving plate, and when the second material receiving plate descends to contact the second position detector, the second material receiving driving member stops driving the second material receiving plate to descend.

In embodiments, the automatic knitted cut-part taking device comprises a piece taking and adhering mechanism and a piece taking and clamping mechanism, the piece taking and adhering mechanism comprises a piece taking and adhering piece and an adhering driving part electrically connected with the control device, the adhering driving part is arranged on the machine table and connected with the piece taking and adhering piece and used for driving the piece taking and adhering piece to move to a preset position to adhere the knitted cut part, the piece taking and clamping mechanism comprises a piece taking clamp, a second piece taking clamp and a piece taking clamp driving part electrically connected with the control device, the piece taking clamp driving part is arranged on the machine table and connected with the piece taking clamp and the second piece taking clamp, and the piece taking clamp driving part is used for driving the piece taking clamp and the second piece taking clamp to respectively take two side positions of the knitted cut part and move to the preset position to release.

In embodiments, the automatic doubling device for the knitted cut pieces comprises a doubling support mechanism, a doubling pressing mechanism and a doubling pushing mechanism, the doubling support mechanism comprises a doubling support bottom plate used for placing the knitted cut pieces and arranged on a machine table, the doubling pressing mechanism comprises a doubling pressing plate and an electric connection doubling pressing driving part of a control device, the doubling pressing driving part is arranged on the machine table and connected with the doubling pressing plate to drive the doubling pressing plate to move, the doubling pressing plate is used for pressing the in-place side of the knitted cut pieces along the doubling central line of the knitted cut pieces on the doubling support bottom plate, the doubling pushing mechanism comprises a doubling pushing plate and an electric connection pushing driving part of the control device, the doubling pushing driving part is arranged on the machine table and connected with the doubling pushing plate to drive the doubling pushing plate to move along the doubling support bottom plate, and the doubling pushing plate is used for pushing the other side of the knitted cut pieces to cover on the doubling pressing plate to form the doubling pressing plate.

The processing system for the knitted round-neck sweater sleeve pieces can reduce the burden of workers, reduce the process difficulty, reduce the training time of the workers, improve the production efficiency and the quality stability and improve the automation degree of the process. Specifically, the utility model discloses a knitting round collar shirt sleeve cut-parts system of processing gets piece device, the automatic rigging of knitting cut-parts, sewing device and diversified motion material feeding unit and mutually supports through knitting cut-parts is automatic, has realized that knitting cut-parts's automation is got the purpose of material, automatic rigging and automatic sewing, promotes degree of automation, improves production efficiency, promotes the product quality simultaneously. The automatic knitted cut piece taking device is used for taking materials from a preset position and sending the materials to the folding support bottom plate; automatic rigging device of knitting cut-parts is used for right knitting cut-parts on the fifty percent discount supporting baseplate carry out the fifty percent discount, and diversified motion material feeding unit is used for shifting the automatic rigging device fifty percent discount cut-parts of knitting cut-parts to sewing device department, and the sewing device is used for sewing fifty percent discount cut-parts and forms the sewing cut-parts, and full automation is operated, need not artifical the participation, and festival power is saved during the festival, and production efficiency is high.

Above-mentioned knitting round collar shirt sleeve cut-parts system of processing still realizes the left sleeve cut-parts through setting up image acquisition mechanism, receive material reposition of redundant personnel mechanism, receiving agencies and second receiving agencies, the independent collection of right sleeve cut-parts, need not the follow-up classification to the cut-parts of two kinds again, it saves manpower and time to advance step, the required preparation time of subsequent handling has been practiced thrift, the left sleeve cut-parts and the right sleeve cut-parts after the classification can directly get into processes down, promote the continuity of front and back process.

Drawings

FIG. 1 is a schematic view of a knitted circular neck sweater sleeve panel processing system according to the embodiment;

FIG. 2 is another angle schematic view of the knitted circular neck sweater sleeve panel processing system shown in FIG. 1;

FIG. 3 is a schematic structural view of a film taking and sticking mechanism of an automatic film taking device for knitted cut pieces in the processing system for sleeve cut pieces of a knitted circular collar sweater shown in FIG. 1;

FIG. 4 is a schematic structural view of a film taking and clamping mechanism of an automatic film taking device of the knitted cut piece processing system of the knitted circular collar shirt sleeve shown in FIG. 1;

FIG. 5 is a schematic structural view of a piece taking and feeding mechanism of an automatic piece taking device for knitted cut pieces in the processing system for sleeve cut pieces of the knitted circular collar sweater shown in FIG. 1;

FIG. 6 is a schematic structural view of a half-folding support mechanism of an automatic half-folding device for knitted cut pieces in the processing system of knitted round neck sweater sleeve cut pieces shown in FIG. 1;

FIG. 7 is a schematic structural view of a folding and pressing mechanism of an automatic knitted cut piece folding device in the knitted circular collar shirt sleeve cut piece processing system shown in FIG. 1;

FIG. 8 is a schematic structural diagram of a folding and pushing mechanism of an automatic knitted cut piece folding device in the knitted circular collar shirt sleeve cut piece processing system shown in FIG. 1;

FIG. 9 is a schematic structural view of a half-folding anti-disengaging mechanism of an automatic half-folding device for knitted cut pieces in the processing system for knitted round neck sweater sleeve cut pieces shown in FIG. 1;

FIG. 10 is a schematic view of a portion of the knitted circular neck sweater sleeve panel processing system shown in FIG. 1;

FIG. 11 is a schematic view of a partial structure of the material receiving and distributing mechanism of the knitted circular collar sweater sleeve panel processing system shown in FIG. 10;

FIG. 12 is a schematic structural view of a material receiving mechanism of the knitted circular neck sweater sleeve panel processing system shown in FIG. 10;

fig. 13 is a schematic structural view of the second receiving mechanism of the knitted circular neck sweater sleeve panel processing system shown in fig. 10.

Description of the reference numerals

10: a knitted round-neck sweater sleeve cutting piece processing system;

100: a machine platform;

200: an automatic piece taking device for knitted cut pieces, 210: a piece taking and sticking mechanism, 211: a piece taking and sticking piece, 2111: a coil block, 2112: a sticking block, 2113: a coil material driving component, 2114: a sticking seat, 212: a sticking driving component, 213: a piece taking and sticking bracket, 214: a piece taking screw rod component, 220: a piece taking and clamping mechanism, 221: : a piece taking clamp, 2211: : a piece taking movable clamp plate, 2212: : a piece taking fixed clamp plate, 222: a second piece taking clamp, 2221: a second piece taking movable clamp plate, 2222: a second piece taking fixed clamp plate, 223: piece taking clamp driving element, 224: a second piece taking clamp driving element, 225: a piece taking and clamping bracket, 226: a piece taking and clamping component, 2261: a piece taking supporting plate, 2262: a supporting plate driving element, 230: a piece taking and feeding mechanism, 231: a piece taking and feeding plate, 232: 233: a piece taking and positioning component, 234: a plurality of piece taking and lifting and lowering the limiting rods 236;

300: the automatic knitted cut piece folding device; 310: folding the supporting mechanism; 311: folding the supporting bottom plate in half; 3111: folding the fixing hole; 320: folding and pressing mechanism; 321: folding the material pressing plate; 3211: a yielding groove; 322: folding a material pressing driving part; 323: folding the material pressing bracket; 324: folding the material pressing guide rail; 325: folding the movable driving part; 330: folding and pushing mechanism; 331: folding the material pushing plate in half; 332: folding and pushing a driving part; 340: a folding anti-falling mechanism; 341: folding the anti-drop pressing plate; 342: an anti-drop platen drive part; 343: an anti-drop layering; 344: folding the anti-drop bracket;

400: a sewing device;

500, a material receiving device, 510, a material receiving and distributing mechanism, 511, a material receiving and distributing plate, 512, , a material receiving clamp, 513, a second material receiving clamp, 514, a distributing plate driving part, 515, a distributing guide rail, 520, a material receiving mechanism, 521, a material receiving plate, 522, a material receiving driving part, 523, a material receiving table, 524, a position detector, 530, a second material receiving mechanism, 531, a second material receiving plate, 532, a second material receiving driving part, 533, a second material receiving table, 534, a second position detector and 540, an image acquiring mechanism;

600: a multi-directional movement feeding device;

700: a control box;

20: cutting pieces are knitted; 21: folding the cut pieces in half; 22: cutting a left sleeve; 23: cutting a right sleeve;

30: and (6) a rubber roll.

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 is noted that when an element is referred to as being "secured to" another elements, it may be directly secured to another elements or intervening elements may be present as well. 0 elements are referred to as being "coupled" to another elements, it may be directly coupled to another elements or intervening elements may be present at the same time. elements are referred to as being "mounted" to another elements, it may be directly mounted to another elements or intervening elements may be present at the same time. elements are referred to as being "disposed" to another elements, it may be directly disposed to another elements or intervening elements may be present at the same time.

The terminology used herein in the description of the present invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention, the terminology used herein "and/or" includes any and all combinations of or more of the associated listed items.

Referring to fig. 1, the embodiment of the utility model provides a kinds of knitted round collar shirt sleeve cutting piece processing system 10, which comprises a machine table 100, an automatic knitted cutting piece folding device 300, an automatic knitted cutting piece taking device 200, a sewing device 400, a multi-directional motion feeding device 600 and a control device.

Referring to fig. 1, an automatic knitted cut segment folding device 300 is provided on the machine 100 for folding the knitted cut segment 20 on the folding support bottom plate 311. The control device is electrically connected to the automatic doubling-up device 300 for the knitted cut pieces.

Referring to fig. 2, an automatic knitted cut-part taking device 200 is provided on the machine table 100 for taking a material from a predetermined position on the machine table 100 and feeding the material onto the folding support bottom plate 311. The control device is electrically connected with the automatic knitted cut-part taking device 200.

The sewing device 400 is provided on the machine 100 for sewing the half-cut pieces 21 to form sewn cut pieces. The control device is electrically connected to the sewing device 400.

The multi-directional motion feeding device 600 is arranged on the machine table 100 and used for transferring the half-folded cut pieces 21 between the automatic half-folding device 300 for knitted cut pieces and the sewing device 400. The control device is electrically connected to the multi-directional moving feeding device 600. The control device may be a PLC, a PID, or the like, and has a control box provided on the machine 100, not shown in fig. 1, and a control box 700 provided below the machine 100 in fig. 10.

Referring to fig. 10, in concrete examples, the knitted circular collar shirt sleeve cut piece processing system 10 further includes a material receiving device 500 electrically connected to the control device, the material receiving device 500 is disposed on the machine platform 100 for receiving the sewn cut piece, the multi-directional motion feeding device 600 is further used for transferring the sewn cut piece to the material receiving device 500, and the multi-directional motion feeding device 600 can be an industrial robot or a motion device with more than four axes.

Referring to fig. 10, , the material receiving device further includes an image capturing mechanism 540 electrically connected to the control device, the image capturing mechanism 540 is disposed on the machine 100 for capturing an image of the sewn panel, and the image capturing mechanism 540 may be a camera assembly, such as an industrial camera, a camera, etc.

The control device can determine that the sewn panel is the right sleeve panel 23 or the left sleeve panel 22 according to the image of the sewn panel.

Referring to fig. 10, the feeding step includes a receiving and distributing mechanism 510, a receiving mechanism 520 and a second receiving mechanism 530, which are disposed on the machine 100 and electrically connected to the control device, the receiving and distributing mechanism 510 is for receiving the sewing cut pieces fed from the multi-directional feeding device 600, the receiving mechanism 520 is for collecting the left sleeve cut pieces 22 from the receiving and distributing mechanism 510, and the second receiving mechanism 530 is for collecting the right sleeve cut pieces 23 from the receiving and distributing mechanism 510.

The knitted round-neck sweater sleeve cut piece processing system 10 realizes independent collection of the left sleeve cut piece 22 and the right sleeve cut piece 23 through the arrangement of the image acquisition mechanism 540, the material receiving and distributing mechanism 510, the -th material receiving mechanism 520 and the second material receiving mechanism 530, and does not need to classify two types of cut pieces subsequently, so that manpower and time are saved in steps, the preparation time required by subsequent processes is saved, the classified left sleeve cut piece 22 and the classified right sleeve cut piece 23 can directly enter the lower process, and the continuity of the front and rear processes is improved.

Referring to fig. 10 and 11, in specific examples, the material collecting and distributing mechanism 510 includes a material collecting and distributing plate 511, a material collecting clamp 512, a second material collecting clamp 513 and a distributing plate driving member 514 electrically connected to a control device.

The th material receiving clamp 512 and the second material receiving clamp 513 are both arranged on the machine 100, the th material receiving clamp 512 is located above the th material receiving mechanism 520, the second material receiving clamp 513 is located above the second material receiving mechanism 530, and the material receiving splitter plate 511 is located between the th material receiving clamp 512 and the second material receiving clamp 513.

Referring to FIG. 11, the diversion plate drive member 514 is connected to the material receiving diversion plate 511. the diversion plate drive member 514 is used for driving the material receiving diversion plate 511 to move. when the material receiving diversion plate 511 moves to the th material receiving fixture 512, the th material receiving fixture 512 clamps the left sleeve panels 22. when the material receiving diversion plate 511 is reset, the material receiving fixture releases the left sleeve panels 22 to the th material receiving mechanism 520. when the material receiving diversion plate 511 moves to the second material receiving fixture 513, the second material receiving fixture 513 clamps the left sleeve panels 22. when the material receiving diversion plate 511 is reset, the second material receiving fixture releases the left sleeve panels 22 to the second material receiving mechanism 530. referring to FIGS.

Referring to FIG. 11, the material receiving and distributing mechanism 510 preferably further includes a distributing rail 515 disposed on the machine 100. the distributing rail 515 extends from the th receiving clamp 512 to the second receiving clamp 513, i.e., the distributing rail 515 is close to the th receiving clamp 512 and the other is close to the second receiving clamp 513. the receiving and distributing plate 511 is in contact with the distributing rail 515, and the distributing plate driving member 514 is used for driving the receiving and distributing plate 511 to move along the distributing rail 515.

Referring to fig. 12, in the step, the material receiving mechanism 520 includes a 0 th material receiving plate 521 and a 1 th material receiving driving member 522 electrically connected to the control device, the 2 th material receiving driving member 522 is mounted on the machine platform 100 and connected to the th material receiving plate 521, and the th material receiving driving member 522 is used for driving the th material receiving plate 521 to ascend or descend, and when the th material receiving plate 521 receives left sleeve panels 22, the material receiving driving member drives the th material receiving plate 521 to descend by the distance equal to the thickness of the left sleeve panels 22.

Optionally, the material collecting mechanism 520 further includes a material collecting platform 523 and a 0 th position detector 524 electrically connected to the control device, the 1 th material collecting driving member 522 is mounted on the 2 th material collecting platform 523, the th position detector 524 is mounted on the th material collecting platform 523 and located below the th material collecting plate 521, when the th material collecting plate 521 descends to contact with the th position detector 524, the th material collecting driving member 522 stops driving the th material collecting plate 521 to descend, and the position detector 524 may be a contact switch.

Referring to fig. 13, in specific examples, the second material receiving mechanism 530 includes a second material receiving plate 531 and a second material receiving driving member 532 electrically connected to the control device, the second material receiving driving member 532 is mounted on the machine 100 and connected to the second material receiving plate 531, the second material receiving driving member 532 is used for driving the second material receiving plate 531 to ascend or descend, and when the second material receiving plate 531 receives right sleeve panels 23, the second material receiving driving member drives the second material receiving plate 531 to descend by a distance equal to the thickness of right sleeve panels 23.

Optionally, the second material receiving mechanism 530 further includes a second material receiving platform 533 and a second position detector 534 electrically connected to the control device. The second material receiving driving member 532 is mounted on the second material receiving table 533, and the second position detector 534 is mounted on the second material receiving table 533 and located below the second material receiving plate 531. When the second material receiving plate 531 descends to contact the second position detector 534, the second material receiving driving member 532 stops driving the second material receiving plate 531 to descend. The second position detector 534 may be a contact switch.

The utility model discloses a material collecting device 500 can realize receiving the material to th position also namely receiving agencies 520 department with the left sleeve cut-part 22 in the sewing cut-part, will right sleeve cut-part 23 in the sewing cut-part receives the material to the second position also namely second receiving agencies 530 department, realizes receiving the material automation mechanized operation, need not artifical the participation, and is laborsaving, and production efficiency is high, specifically, above-mentioned material collecting device 500 realizes the independent collection to left sleeve cut-part 22, right cut-part 23 through setting up image acquisition mechanism 540, receiving agencies 510, receiving agencies 520 and second receiving agencies 530, need not follow-up the classification to two types of cut-parts again, advances step and saves manpower and time, has practiced thrift the required preparation time of follow-up process, and left sleeve cut-part 22 and right sleeve cut-part 23 after categorised can directly get into processes down, promote the continuity of process around.

Referring to fig. 3, 4 and 5, in specific examples, the automatic knitted cut piece taking device 200 includes a piece taking and adhering mechanism 210 and a piece taking and clamping mechanism 220, and the control device is electrically connected to the piece taking and adhering mechanism 210 and the piece taking and clamping mechanism 220.

Referring to fig. 3, specifically, the film taking and adhering mechanism 210 includes a film taking and adhering member 211 and an adhering driving member 212 electrically connected to the control device, the adhering driving member 212 is disposed on the machine 100 and connected to the film taking and adhering member 211, the adhering driving member 212 is configured to drive the film taking and adhering member 211 to move to a predetermined position to adhere the knitted cut sheet 20, the film taking and clamping mechanism 220 includes an th film taking clamp 221, a second film taking clamp 222 and a film taking clamp driving member electrically connected to the control device, the film taking clamp driving member is disposed on the machine 100 and connected to the th film taking clamp 221 and the second film taking clamp 222, the film taking clamp driving member is configured to drive the th film taking clamp 221 and the second film taking clamp 222 to move to respectively clamp two side positions of the knitted cut sheet 20 and move to a predetermined position, that is, to the half-over support bottom plate 311, to release.

Above-mentioned automatic piece device 200 of getting of knitted cut-parts can be applicable to knitting round collar shirt sleeve cut-parts system of processing 10 and can alleviate workman's burden, reduces the process degree of difficulty, improves production efficiency and quality stability, above-mentioned automatic piece device 200 of getting of knitted cut-parts is when using, gets piece through gluing drive component 212 drive and glues and get piece and glue piece 211 and move to preset position and glue and get knitted cut-parts 20, and rethread gets piece anchor clamps drive component drive and gets piece anchor clamps 221 and second and get piece anchor clamps 222 action in order to press from both sides the both sides position of getting knitted cut-parts 20 respectively, and move to preset position also be the fifty percent discount support baseplate 311 and release, the utility model discloses a cooperation of getting piece and gluing mechanism 210 and getting piece clamping mechanism 220 can realize knitted cut-parts 20 accurately shift position, realizes lightening workman's burden, reduces the process degree of difficulty and improves.

Referring to fig. 3, in step , the tab attaching and detaching device 211 includes a material roll block 2111, a material detaching block 2112, a material roll driving component 2113 and a detaching seat 2114, the control device is electrically connected to the material roll driving component 2113, the material roll block 2111 is rotatably connected to the detaching seat 2114, the detaching block 2112 is connected to the detaching seat 2114 and protrudes from the bottom surface of the detaching seat 2114, the material roll driving component 2113 is mounted on the detaching seat 2114 and connected to the material roll block 2111, and the material roll driving component 2113 is used for driving the material roll block 2111 to rotate.

Preferably, the gluing seat 2114 is flat and plate-shaped, the gluing seat 2114 is installed on the machine table 100 in a vertical direction, the gluing seat 2114 is further provided with an installation position of the glue reel 30 for installing the glue reel 30, the installation position of the glue reel 30, the gluing block 2112 and the coil block 2111 are all located on the same side surface of the gluing seat 2114, and the gluing driving component 212 is connected with the gluing seat 2114 for driving the gluing seat 2114 to move.

Above-mentioned automatic piece device 200 of getting of knitted cut-parts glues gets mechanism 210 through the piece of getting that the setting is become by coil stock piece 2111, glue get piece 2112, coil stock drive component 2113 and glue seat 2114 and constitute, realizes gluing to knitted cut-parts 20 and gets, because the filoplume of knitted cut-parts 20 is many, and conventional material method of getting is if induced draft get the material and have the phenomenon of getting the material difficulty, the utility model discloses in set up and get piece and glue and get mechanism 210, come to gluing of knitted cut-parts 20 through the adhesive tape of adhesive tape reel 30 and get, glue and get efficiently, the accuracy is high. After the viscosity of the adhesive tape is reduced, the roll material driving component 2113 can drive the roll material block 2111 to rotate so as to realize the reeling of the adhesive tape, the reeling of the part with reduced viscosity on the adhesive tape is completed, and the new adhesive tape on the adhesive tape reel 30 is pulled out to the position of the sticking block 2112, so that the automation degree of the material taking is high.

Referring to fig. 3, in step , the pick-up adhering mechanism 210 further includes a pick-up adhering bracket 213 for mounting on the machine 100, and the pick-up adhering member 211 and the adhering driving member 212 are disposed on the pick-up adhering bracket 213.

Optionally, the number of the sheet taking and adhering pieces 211 and the number of the adhering and driving parts 212 are both multiple, the multiple sheet taking and adhering pieces 211 correspond to the multiple adhering and driving parts 212 , and a space is arranged between every two adjacent sheet taking and adhering pieces 211.

Referring to fig. 3, the number of the sheet sticking pieces 211 and the sticking driving parts 212 is two. It will be understood that the number of the pick-up adhering pieces 211 and the adhering and driving part 212 may be other numbers, such as three, four, etc.

Further , the position of each pick holder 211 on the pick holder 213 is adjustable, so that the distance between two adjacent pick holders 211 is adjustable.

Referring to fig. 3, in steps, each two sheet taking and adhering pieces 211 form groups, and the two sheet taking and adhering pieces 211 in each group are connected through sheet taking screw rod assemblies 214. the sheet taking screw rod assemblies 214 are used for adjusting the distance between two adjacent sheet taking and adhering pieces 211.

Referring to fig. 4, in specific examples, the sheet taking clamp driving component includes a sheet taking clamp driving element 223 and a second sheet taking clamp driving element 224, and the control device is electrically connected to the sheet taking clamp driving element 223 and the second sheet taking clamp driving element 224, the sheet taking clamp driving element 223 is correspondingly connected to the sheet taking clamp 221, and the second sheet taking clamp driving element 224 is correspondingly connected to the second sheet taking clamp 222.

In specific examples, the clip mechanism 220 further comprises a clip support 225, wherein the clip holder 221, the second clip holder 222, the clip holder drive element 223 and the second clip holder drive element 224 are all mounted on the clip support 225, and a space is provided between the clip holder 221 and the second clip holder 222.

Referring to fig. 4, in , the slice taking clamp 221 includes a slice taking movable clamp plate 2211 and a slice taking fixed clamp plate 2212, the slice taking fixed clamp plate 2212 is fixed on the slice taking and clamping bracket 225, the slice taking movable clamp plate 2211 is movably connected to the slice taking and clamping bracket 225, the slice taking clamp driving element 223 is connected to the slice taking movable clamp plate 2211, and the slice taking clamp driving element 223 is used for the slice taking movable clamp plate 2211.

And/or the second sheet taking clamp 222 comprises a second sheet taking movable clamping plate 2221 and a second sheet taking fixed clamping plate 2222. The second film taking fixed clamping plate 2222 is fixed on the film taking and clamping bracket 225, the second film taking movable clamping plate 2221 is movably connected to the film taking and clamping bracket 225, the second film taking clamp driving element 224 is connected to the second film taking movable clamping plate 2221, and the second film taking clamp driving element 224 is used for driving the second film taking movable clamping plate 2221 to move.

, the film taking and clamping mechanism 220 further comprises a film taking and supporting component 226, the film taking and supporting component 226 comprises a film taking supporting plate 2261 and a supporting plate driving element 2262, the control device is electrically connected with the supporting plate driving element 2262, the supporting plate driving element 2262 is installed on the film taking and clamping bracket 225, the film taking supporting plate 2261 is located between the th film taking clamp 221 and the second film taking clamp 222, the supporting plate driving element 2262 is connected with the film taking supporting plate 2261 and used for driving the film taking supporting plate 2261 to move, the supporting plate driving element 2262 is used for driving the film taking supporting plate 2261 to move so as to support the knitted cutting piece 20 clamped by the th film taking clamp 221 and the second film taking clamp 222, and the phenomenon that the middle position of the knitted cutting piece 20 is prevented from sagging after being clamped.

Referring to fig. 5, in specific examples, the automatic knitted cut piece taking device 200 further includes a piece taking and feeding mechanism 230, the piece taking and feeding mechanism 230 includes a piece taking and feeding plate 231 and a piece taking and feeding positioning component 232, the control device is electrically connected with the piece taking and feeding positioning component 232, the piece taking and feeding plate 231 is provided with a piece taking and feeding plane for placing the knitted cut pieces 20, and the piece taking and feeding plane is provided with a plurality of piece taking and feeding positioning components 232.

The automatic piece device 200 of getting of above-mentioned knitted cut-parts has realized the purpose that improves material loading efficiency through setting up and has got piece feed mechanism 230. specifically, get piece feed mechanism 230 including getting piece material loading board 231 and getting piece material loading locating part 232, get and be equipped with on the piece material loading board 231 and be used for supplying the piece material loading plane of getting that knitted cut-parts 20 placed, get and be equipped with a plurality of piece material loading locating parts 232 of getting on the piece material loading plane, get piece material loading locating part 232 and be used for supplying to fold knitted cut-parts 20 location, position to knitted cut-parts 20 is injectd before getting the piece, in order to improve subsequent piece of getting and glue and get the accuracy of getting and piece clamp material of getting mechanism 210 and getting piece clamp material mechanism 220, improve the product quality.

, the piece taking and feeding mechanism 230 further comprises a piece taking and feeding table 233, the piece taking and feeding plate 231 is arranged on the piece taking and feeding table 233, and the piece taking and feeding plate 231 can be detached from the piece taking and feeding table 233. the automatic piece taking device 200 can detach the piece taking and feeding plate 231 from the piece taking and feeding table 233 by arranging the piece taking and feeding table 233 and directly detach the piece taking and feeding plate 231 from the piece taking and feeding table 233 when the stacked knitted cut pieces 20 on the piece taking and feeding plates 231 are taken out, and replace the new piece taking and feeding plate 231 placed with the stacked knitted cut pieces 20.

Referring to fig. 5, the tablet taking and feeding table 233 is optionally provided with a plurality of engaging members 234 for positioning the tablet taking and feeding plate 231. The automatic piece taking device 200 for knitted cut pieces can realize the positioning of the piece taking feeding plate 231 by arranging the plurality of clamping pieces 234, and the deviation of the piece taking feeding plate 231 is avoided.

Preferably, the position of each of the take-up feeding positioning members 232 on the take-up feeding plate 231 is adjustable to be suitable for different sizes of knitted panels 20.

, the piece taking and feeding mechanism 230 further includes a piece taking lifting driving member 235 and a plurality of piece taking limiting rods 236, the control device is electrically connected to the piece taking lifting driving member 235, the end of each piece taking limiting rod 236 is connected to the piece taking feeding table 233, the end of each piece taking limiting rod 236 penetrates through the piece taking feeding plate 231, the piece taking limiting rods 236 are arranged in parallel and in the vertical direction, the piece taking lifting driving member 235 is mounted on the piece taking feeding table 233, the piece taking lifting driving member 235 is connected to the piece taking feeding plate 231 for driving the piece taking feeding plate 231 to ascend or descend, and after the piece taking clamping mechanism 220 is matched with the piece taking adhering mechanism 210 to take knitted cut pieces 20 from the piece taking feeding plate 231, the control device controls the piece taking lifting driving member 235 to drive the piece taking feeding plate 231 to ascend by the distance of knitted cut pieces 20.

Referring to fig. 6, 7 and 8, the automatic knitted cut piece folding device 300 includes a folding support mechanism 310, a folding pressing mechanism 320 and a folding pushing mechanism 330 electrically connected to the control device.

Referring to fig. 6, specifically, the folding support mechanism 310 includes a folding support bottom plate 311 for placing the cut knitted piece 20 and disposed on the machine platform 100, the folding press mechanism 320 includes a folding press plate 321 and a folding press driving component 322 electrically connected to the control device, the folding press driving component 322 is disposed on the machine platform 100 and connected to the folding press plate 321 for driving the folding press plate 321 to move, the folding press plate 321 is used for pressing the side of the cut knitted piece 20 along the folding centerline of the cut knitted piece 20 on the folding support bottom plate 311, the folding press mechanism 330 includes a folding push plate 331 and a folding press driving component 332 electrically connected to the control device, the folding push driving component 332 is disposed on the machine platform 100 and connected to the folding push plate 331 for driving the folding push plate 331 to move along the folding support bottom plate 311, and the folding push plate 331 is used for pushing the other side of the cut knitted piece 20 to cover the folding press plate 321.

The utility model discloses an automatic rigging device 300 of knitted cut-parts can be applicable to knitting round collar shirt sleeve cut-parts system of processing and can alleviate workman's burden, reduce the process degree of difficulty, improve production efficiency and quality stability, the utility model discloses an automatic rigging device 300 of knitted cut-parts realizes the support and the location to knitted cut-parts 20 through fifty percent discount supporting mechanism 310, realize through fifty percent discount swager 320 that fifty percent discount pressure flitch 321 is used for pushing down the wherein side of knitted cut-parts 20 along the fifty percent discount central line of knitted cut-parts 20 on fifty percent discount supporting baseplate 311, through fifty percent discount pushing mechanism 330 drive fifty percent discount scraping wings 331 along fifty percent discount supporting baseplate 311 remove so that another side of knitted cut-parts 20 is promoted to cover on pressing the flitch 321, the fifty percent discount of knitted cut-parts 20 has been accomplished, when the fifty percent discount pressure flitch 321 resets, fifty percent discount pressure flitch 321 takes out from between the fifty percent discount 21, can obtain.

, the foldable support base 311 includes a sub-foldable support base and a second sub-foldable support base, which are disposed adjacent to each other, the height of the second sub-foldable support base is lower than that of the sub-foldable support base, a foldable positioning line is formed at the edge of the sub-foldable support base connected to the second sub-foldable support base, a foldable pressing driving member 322 is used to drive the foldable pressing plate 321 to press on the second sub-foldable support base, the foldable pushing plate 331 is used to push the other side of the knitted cut piece 20 from the sub-foldable support base to be folded on the foldable pressing plate 321, and the sub-foldable support base and the second sub-foldable support base are not shown in fig. 1-13.

According to the automatic doubling-up device 300 for the knitted cut piece, the doubling-up supporting bottom plate and the doubling-up supporting bottom plate are arranged, the height of the doubling-up supporting bottom plate is lower than that of the doubling-up supporting bottom plate, so that the doubling-up pushing plate 331 pushes the other side of the knitted cut piece 20 to cover the doubling-up pressing plate 321 quickly and freely, the phenomenon that the knitted cut piece 20 is wrinkled when the doubling-up pushing plate 331 pushes the material is avoided, and the pushing smoothness is high.

Preferably, the height of the second sub-folio support bottom plate is lower than that of the sub-folio support bottom plate, and the height difference between the height of the sub-folio support bottom plate and the height of the second sub-folio support bottom plate is not less than the sum of the thickness of the folio pressure plate 321 and the thickness of the knitted cut piece.

Preferably, the second folio support bottom plate has a plurality of folio fixing holes 3111, as shown in fig. 6, since the th folio support bottom plate and the second folio support bottom plate are not shown in any of fig. 1-13, only the folio fixing holes 3111 are shown on the folio support bottom plate 311 in fig. 6, the folio support bottom plate 311 may be penetrated by external fasteners through the folio fixing holes 3111 to fix the folio support bottom plate 311 to the machine table.

Referring to fig. 7, , the folding and pressing mechanism 320 further includes a folding and pressing support 323, a folding and pressing guide rail 324, and a folding and moving driving member 325, the control device is electrically connected to the folding and pressing moving driving member 325, the folding and pressing guide rail 324 is mounted on the folding and pressing support 323, the folding and pressing driving member 322 is slidably connected to the folding and pressing guide rail 324, and the folding and moving driving member 325 is used for driving the folding and pressing driving member 322 to move.

Referring to fig. 9, in specific examples, the automatic knitted cut piece folding device 300 further includes a folding retaining mechanism 340, the folding retaining mechanism 340 includes a folding retaining plate 341 and a retaining plate driving member 342, the control device is electrically connected to the retaining plate driving member 342, the retaining plate driving member 342 is connected to the folding retaining plate 341 for driving the folding retaining plate 341 to move, the folding retaining plate 341 presses on the folded cut piece 21 for limiting the folded cut piece 21 when the folding retaining plate 321 is reset, the automatic knitted cut piece folding device 300 realizes the retaining of the folded cut piece 21 by providing the folding retaining mechanism 340, that is, prevents the folded knitted cut piece 20 from shifting when the folding retaining plate 321 is pulled out from between the folded cut pieces 21.

Referring to fig. 7, in specific examples, the folded presser plate 321 has an avoiding groove 3211 at the edge aligned with the folded center line of the knitted cut segment 20, referring to fig. 9, the fold-preventing mechanism 340 further includes a retaining bar 343, the dimension of the retaining bar 343 matches the dimension of the avoiding groove 3211, when the folded retaining bar 341 is pressed against the folded cut segment 21, the retaining bar 343 can be engaged with the avoiding groove 3211, when the folded presser plate 321 is reset, the retaining bar 343 presses the folded cut segment 21 against the folded support base plate 311.

Above-mentioned automatic rigging device 300 of knitted cut segment sets up the groove of stepping down 3211 and connects anti-disengaging layering 343 on fifty percent discount release-preventing pressing plate 341 through the edge that is used for aligning with the fifty percent discount central line of knitted cut segment 20 at fifty percent discount pressure strip 321 and realizes spacing to fifty percent discount cut segment 21, when fifty percent discount release-preventing pressing plate 341 presses on fifty percent discount cut segment 21, anti-disengaging layering 343 can cooperate with groove of stepping down 3211, anti-disengaging layering 343 can press fifty percent discount cut segment 21 on fifty percent discount supporting baseplate 311 after fifty percent discount pressure strip 321 resets, realize spacing to fifty percent discount cut segment 21, avoid the aversion of fifty percent discount cut segment 21, prepare for sewing process down.

Referring to fig. 9, in specific examples, the number of the retaining beads 343 is plural, the plurality of retaining beads 343 are sequentially distributed on the half-folded retaining beads 341, and the edge of the half-folded pressure plate 321 for aligning with the half-folded midline of the knitted cut segment 20 has a plurality of relief grooves 3211.

, the folding anti-dropping press plate 341 and the folding support bottom plate 311 are both horizontally arranged, and the anti-dropping press bar 343 is connected to the bottom surface of the folding anti-dropping press plate 341.

As shown in FIG. 9, , fold-over preventing mechanism 340 further includes a fold-over preventing bracket 344, and a fold-over preventing pressing plate driving member 342 is mounted on fold-over preventing bracket 344.

The utility model discloses a knitting round collar shirt sleeve cut-parts system of processing 10 when using, has related to kinds of knitting round collar shirt sleeve cut-parts processing method, this knitting round collar shirt sleeve cut-parts processing method specifically includes the following step:

referring to fig. 5, the knitted cut segment 20 is placed on the machine table 100 at a predetermined position, i.e., the pick-up and delivery plate 231.

The automatic knitted cut piece taking device 200 takes the knitted cut piece 20 from the predetermined position and feeds the knitted cut piece 20 to the folding support bottom plate 311 of the automatic knitted cut piece folding device 300 on the machine table 100.

The control device controls the matching of the folding pressing mechanism 320 and the folding pushing mechanism 330 of the automatic knitted cut piece folding device 300, and the folding pressing mechanism is folded along the folding central line of the knitted cut piece 20 to form a folding cut piece 21.

The control device controls the multidirectional moving feeding device 600 to convey the folded cut pieces 21 formed by folding the automatic knitted cut piece folding device 300 to the sewing device 400.

Referring to fig. 10, the control device controls the sewing device 400 to sew the half-cut sheet 21 to form a sewn cut sheet.

The control device controls the material receiving device 500 to receive sewn cut pieces, and when the control device controls the material receiving device 500 to receive sewn cut pieces, the control device specifically comprises the following steps of acquiring images of the sewn cut pieces through the image acquiring mechanism 540, judging the sewn cut pieces to be right sleeve cut pieces 23 or left sleeve cut pieces 22 through the control device according to the images of the sewn cut pieces, shunting the right sleeve cut pieces 23 or the left sleeve cut pieces 22 through the material receiving shunting mechanism 510 of the material receiving device 500, sending the left sleeve cut pieces 22 to the -th material receiving mechanism 520, and sending the right sleeve cut pieces 23 to the second material receiving mechanism 530.

Referring to fig. 10, when the material collecting and distributing mechanism 510 of the control device controlling the material collecting device 500 distributes the right sleeve panels 23 or the left sleeve panels 22, the method specifically includes the following steps:

referring to fig. 10 and 12, when the control device determines that the sewn panel is a left sleeve panel 22, the material receiving distribution plate 511 moves to the th material receiving fixture 512 of the material receiving distribution mechanism 510, the th material receiving fixture 512 clamps the left sleeve panel 22, the material receiving distribution plate 511 resets, the th material receiving fixture 512 releases the left sleeve panel 22 to the th material receiving mechanism 520, as shown in fig. 10 and 13, when the control device determines that the sewn panel is a right sleeve panel 23, the material receiving distribution plate 511 moves to the second material receiving fixture 513 of the material receiving distribution mechanism 510, the second material receiving fixture 513 clamps the left sleeve panel 22, the material receiving distribution plate 511 resets, and the second material receiving fixture 513 releases the right sleeve panel 23 to the second material receiving mechanism 530.

Referring to FIG. 12, in the step, when the th material receiving plate 521 of the material receiving mechanism 520 receives left sleeve panels 22, the th material receiving driving portion of the material receiving mechanism 520 drives the th material receiving plate 521 to descend by a distance equal to the thickness of left sleeve panels 22. when the second material receiving plate 531 of the second material receiving mechanism 530 receives right sleeve panels 23, the control device controls the second material receiving driving portion of the second material receiving mechanism 530 to drive the second material receiving plate 531 to descend by a distance equal to the thickness of right sleeve panels 23.

When the th material receiving plate 521 descends to contact the th position detector 524, the control device controls the second material receiving driving member 532 to stop driving the second material receiving plate 531 to descend when the th material receiving driving member 522 stops driving the th material receiving plate 521 to descend and when the second material receiving plate 531 descends to contact the second position detector 534.

When the control device controls the automatic knitted cut-part taking device 200 to take materials from the preset position, namely the material taking plate 231 and send the knitted cut-parts 20 to the folding support bottom plate 311 on the machine table 100, the method specifically comprises the following steps:

the control device controls the sticking driving component 212 of the automatic knitted cut piece taking device 200 to drive the piece taking sticking part 211 to move to a preset position, namely, the piece taking feeding plate 231 sticks the knitted cut piece 20 and lifts the knitted cut piece 20, the control device controls the piece taking clamp driving component of the piece taking and clamping mechanism 220 to drive the th piece taking clamp 221 and the second piece taking clamp 222 to act so as to respectively clamp two side positions of the knitted cut piece 20 and move to the folding supporting bottom plate 311, and the control device controls the piece taking clamp driving component to drive the th piece taking clamp 221 and the second piece taking clamp 222 to reset so as to release the knitted cut piece 20.

When the control device controls the automatic knitted cut piece folding device 300 to fold the knitted cut piece 20 on the folding support bottom plate 311 along the folding center line thereof, the control device specifically comprises the following steps:

the control device controls the half-folding pressing driving component 322 of the half-folding pressing mechanism 320 to drive the half-folding pressing plate 321 to move, the half-folding pressing plate 321 presses sides of the cut knitted pieces 20 along half-folding center lines of the cut knitted pieces 20 on the half-folding supporting base plate, specifically, the half-folding pressing plate 321 presses sides of the cut knitted pieces 20 on the second sub-half-folding supporting base plate, the control device controls the half-folding pressing driving component 332 of the half-folding pressing mechanism 330 to drive the half-folding pressing plate 331 to move towards the second sub-half-folding supporting base plate along the surface of the sub-half-folding supporting base plate, the half-folding pressing plate 331 pushes the other sides of the cut knitted pieces 20 to cover the half-folding pressing plate 321, and accordingly, the half-folding of the cut.

The knitted round-neck sweater sleeve cutting piece processing system 10 can improve the automation degree of the sleeve burying process, reduce the training time of workers, improve the production quality and speed and reduce the burden of the workers.

The knitted round collar shirt sleeve cutting piece processing system in fig. 1 can be used for a material feeding mode of an assembled cutting piece, and can automatically realize the processes of taking, folding, sewing and receiving materials. The utility model discloses a knitting round collar shirt sleeve cut-parts system of processing 10 can alleviate workman's burden, reduce the process degree of difficulty, reduce workman training time, improve production efficiency and quality stability and can improve process degree of automation. Specifically, the utility model discloses a knitting round collar shirt sleeve cut-parts system of processing 10 mutually supports through knitting cut-parts automatic get piece device 200, the automatic rigging device 300 of knitting cut-parts, sewing device 400 and diversified motion material feeding unit 600, has realized that knitting cut-parts 20's automation is got the purpose of material, automatic fifty percent discount and automatic sewing, promotes degree of automation, improves production efficiency, promotes the product quality simultaneously. The automatic knitted cut piece taking device 200 is used for taking materials from a preset position and sending the materials to the folding support bottom plate 311; automatic rigging device 300 of knitted cut-parts is used for carrying out the fifty percent discount to knitted cut-parts 20 on fifty percent discount supporting baseplate 311, and diversified motion material feeding unit 600 is used for shifting automatic rigging device 300 fifty percent discount cut-parts 21 of knitted cut-parts to sewing device 400 department, and sewing device 400 is used for sewing fifty percent discount cut-parts 21 to form the sewing cut-parts, and full automation is operated, need not artifical the participation, festival labour saving during the festival, and production efficiency is high.

In another embodiment, the structure shown in fig. 10 can be used alone, that is, the machine 100, the sewing device 400, the material receiving device 500, the multi-directional movement feeding device 600, and the control device can jointly form a semi-automatic sleeve cut piece processing system, the semi-automatic sleeve cut piece processing system can be used for the feeding manner of single cut pieces, the doubling of the knitted cut pieces fed from the single cut pieces needs to be manually completed, the doubled up cut pieces after being doubled up are placed at the sewing station of the sewing device for sewing, the material receiving of the sewn cut pieces is completed after sewing, and the semi-automatic sleeve cut piece processing system shown in fig. 10 belongs to semi-automatic equipment when being used alone, wherein the installation manner of the sewing device 400, the material receiving device 500, the multi-directional movement feeding device 600, and the control device on the machine 100 is consistent with the related structure in the circular sweater sleeve cut piece processing system.

The utility model discloses a semi-automatic sleeve cut-parts system of processing can alleviate workman's burden, reduce the process degree of difficulty, reduce workman training time, improve production efficiency and quality stability and improve process degree of automation, specifically, the utility model discloses a semi-automatic sleeve cut-parts system of processing passes through sewing device, diversified motion material feeding unit and material collecting device's mutually supporting, has realized the automatic sewing of knitting cut-parts and the automatic categorised purpose of receiving the material of receiving, promotes degree of automation, improves production efficiency sewing device sewing the fifty percent discount cut-parts forms the sewing cut-parts, will through diversified motion material feeding unit the sewing cut-parts are carried to material collecting device department, material collecting device will left sleeve cut-parts in the sewing cut-parts receive material to position department, will receive right sleeve cut-parts in the sewing cut-parts to second position department, realize receiving material automation mechanized operation, need not artifical the participation, festival labour saving, production efficiency is high.

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, kinds of knitting round collar shirt sleeve cut-parts system of processing, its characterized in that includes:

a machine platform;

the automatic knitted cut piece folding device is arranged on the machine table and used for folding the knitted cut pieces on the folding supporting bottom plate to form folded cut pieces;

the automatic knitted cut piece taking device is arranged on the machine table and used for taking materials from a preset position on the machine table and sending the materials to the folding support bottom plate;

the sewing device is arranged on the machine table and is used for sewing the folded cut pieces to form sewing cut pieces;

the multidirectional moving feeding device is arranged on the machine table and used for transferring the folded cut pieces between the automatic knitted cut piece folding device and the sewing device; and

controlling means, electric connection the automatic piece device of getting of knitting cut-parts the automatic fifty percent discount device of knitting cut-parts sewing device and diversified motion material feeding unit.

2. The knitted round-neck sweater sleeve cutting piece processing system according to claim 1, further comprising a material receiving device electrically connected with the control device, wherein the multi-direction moving feeding device is further used for transferring the sewing cutting pieces to the material receiving device, and the material receiving device is arranged on the machine table and used for receiving the sewing cutting pieces.

3. The knitted round-neck sweater sleeve cutting piece processing system according to claim 2, wherein the material receiving device further comprises an image acquisition mechanism electrically connected with the control device, the image acquisition mechanism is arranged on the machine table and used for acquiring the image of the sewing cutting piece, and the control device is used for judging whether the sewing cutting piece is a right sleeve cutting piece or a left sleeve cutting piece according to the image of the sewing cutting piece;

material collecting device is including establishing receipts material reposition of redundant personnel mechanism, receiving agencies and second receiving agencies on the board, receive material reposition of redundant personnel mechanism and be used for receiving diversified motion material feeding unit sends the sewing cut-parts, and right left side sleeve cut-parts with right side sleeve cut-parts are shunted, receiving agencies is used for collecting and comes from receive material reposition of redundant personnel mechanism last left side sleeve cut-parts, second receiving agencies is used for collecting and comes from receive material reposition of redundant personnel mechanism last right side sleeve cut-parts.

4. The knitted circular collar sweater sleeve cutting piece processing system according to claim 3, wherein the material receiving and distributing mechanism comprises a material receiving and distributing plate, an -th material receiving clamp, a second material receiving clamp and a distributing plate driving component which is electrically connected with the control device;

receive the material anchor clamps with the second is received the material anchor clamps and is all established on the board, receive the material flow distribution plate and be located receive the material anchor clamps with between the material anchor clamps are received to the second, flow distribution plate drive unit connect in receive the material flow distribution plate in order to be used for the drive receive the material flow distribution plate removal.

5. The knitted circular collar sweater sleeve cutting piece processing system according to claim 4, wherein the material receiving mechanism comprises a material receiving plate and a material receiving driving part electrically connected with the control device, the material receiving driving part is installed on the machine table and connected with the material receiving plate, and the material receiving driving part is used for driving the material receiving plate to ascend or descend.

6. The knitted circular collar shirt sleeve cutting processing system according to claim 5, wherein the material receiving mechanism further comprises a material receiving platform and a position detector electrically connected to the control device, the material receiving driving component is mounted on the material receiving platform, and the position detector is mounted on the material receiving platform and located below the material receiving plate.

7. The knitted circular collar sweater sleeve cutting piece processing system according to claim 4, wherein the second material receiving mechanism comprises a second material receiving plate and a second material receiving driving part electrically connected with the control device; the second material receiving driving part is installed on the machine table and connected with the second material receiving plate, and the second material receiving driving part is used for driving the second material receiving plate to ascend or descend.

8. The knitted circular collar sweater sleeve cutting piece processing system according to claim 7, wherein the second material receiving mechanism further comprises a second material receiving table and a second position detector electrically connected with the control device, the second material receiving driving component is mounted on the second material receiving table, and the second position detector is mounted on the second material receiving table and located below the second material receiving plate.

9. The knitted circular collar shirt sleeve cutting processing system according to any of claims 1-8, wherein the knitted cut piece automatic taking device comprises a piece taking and sticking mechanism and a piece taking and clamping mechanism, the piece taking and sticking mechanism comprises a piece taking and sticking piece and a sticking driving part electrically connected with the control device, the sticking driving part is arranged on the machine table and connected with the piece taking and sticking piece, the sticking driving part is used for driving the piece taking and sticking piece to move to a preset position to stick a knitted cut piece, the piece taking and clamping mechanism comprises a piece taking clamp, a second piece taking clamp and a piece taking clamp driving part electrically connected with the control device, the piece taking clamp driving part is arranged on the machine table and connected with the piece taking clamp and the second piece taking clamp, and the piece taking clamp driving part is used for driving the piece taking clamp and the second piece taking clamp to move to a preset position and move to a preset position to release the two side positions of the knitted cut piece.

10. The system for processing the knitted round collar sweater sleeve cutting piece according to any of claims 1-8, wherein the automatic knitted cutting piece folding device comprises a folding support mechanism, a folding pressing mechanism and a folding and pushing mechanism, the folding support mechanism comprises a folding support base plate used for placing the knitted cutting piece and arranged on the machine, the folding pressing mechanism comprises a folding pressing plate and a folding pressing driving component electrically connected with the control device, the folding pressing driving component is arranged on the machine and connected with the folding pressing plate to drive the folding pressing plate to move, the folding pressing plate is used for pressing the side of the knitted cutting piece along the folding central line of the knitted cutting piece on the folding support base plate, the folding and pushing mechanism comprises a folding pushing plate and a folding and pushing driving component electrically connected with the control device, the folding driving component is arranged on the machine and connected with the folding pushing plate to drive the folding pushing plate to move along the folding support base plate, and the folding pushing plate is used for pushing the other side of the knitted cutting piece to the folding pressing plate to form the folding and pushing plate.

Images