CN113026224A - Collar turn-up equipment under full-automatic shirt - Google Patents

Abstract

The invention discloses full-automatic shirt collar-lowering hemming equipment which comprises a feeding part, a sewing part, a material receiving part and a control system, wherein the feeding part comprises a support, a material storage box, a rotary cylinder, a linear cylinder, a rotary motor and a first linear motor, the sewing part comprises a workbench, a sewing machine head and a hemming tooling plate, the material receiving part comprises a material receiving frame, a material receiving brush and a second linear motor, and the operation of the rotary cylinder, the linear cylinder, the rotary motor, the first linear motor, a vacuum chuck, the sewing machine head and the second linear motor is controlled by the control system. The full-automatic operation of the shirt collar lower-collar curling can be realized, a worker only needs to put a stack of collar lower-collar semi-finished products into the storage box, the equipment can continuously and efficiently automatically complete the grabbing, placing, sewing and collar lower-collar finished product collecting work of the collar lower-collar semi-finished products, manpower is greatly saved, the processing efficiency of the curling process is improved, the quality of the collar lower-collar finished products after processing is uniform, and the consistency of products can be effectively guaranteed.

Description

Collar turn-up equipment under full-automatic shirt

Technical Field

The invention relates to auxiliary equipment for clothing production, in particular to full-automatic lower collar hemming equipment for shirts.

Background

The collar of the shirt comprises an upper collar and a lower collar. In the manufacturing process of the lower collar of the shirt, a process of curling is provided. This procedure requires the worker to wrap and sew the lining with the cloth on the lower collar side. At present, the collar-off processing of shirts is that workers manually turn edges, and sew along the outline of the lining by a sewing machine. The method needs a large amount of manpower, has certain requirements on the operation technology of workers, has the problem of low hemming operation efficiency, and causes inconsistent tightness of hemming cloth wrapped by different workers, thus causing non-uniform product quality.

Disclosure of Invention

The invention aims to solve the technical problem that aiming at the defects of the prior art, the invention provides the full-automatic shirt lower collar hemming equipment which can continuously and efficiently finish the grabbing, placing and sewing of lower collar semi-finished products and the collecting work of lower collar finished products, greatly saves labor, improves the processing efficiency of a hemming procedure, has uniform quality of the processed lower collar finished products and can effectively ensure the consistency of products.

The technical scheme adopted by the invention for solving the technical problems is as follows: a full-automatic shirt collar-lowering curling device comprises a feeding part, a sewing part, a material receiving part and a control system, wherein the feeding part comprises a support, a storage box, a rotary cylinder, a linear cylinder, a rotary motor and a first linear motor, the storage box is arranged on the support and used for containing stacked collar-lowering semi-finished products to be curled, the upper end of the storage box is open, the first linear motor is vertically arranged at the bottom end of the storage box, a first push plate is arranged at the output end of the first linear motor and located in the storage box, a rotating arm is arranged at the output end of the rotary cylinder, a mounting plate is fixed on the rotating arm, a vacuum chuck is arranged at the bottom of the mounting plate, the linear cylinder is inversely arranged on the support, and the rotary motor is transversely arranged at the output end of the linear cylinder, the output end of the rotating motor is provided with a roller; the sewing part comprises a workbench, a sewing machine head and a hemming tooling plate, wherein the sewing machine head and the hemming tooling plate are arranged on the workbench; the material receiving part comprises a material receiving frame, a material receiving brush and a second linear motor, the second linear motor is transversely installed on the workbench and is far away from one side of the support, the material receiving brush is installed on the output end of the second linear motor, the material receiving frame is installed at the front end of the workbench, the material receiving frame is used for collecting the finished products of the lower collar processed by the turned edge, and the rotary cylinder, the linear cylinder, the rotary motor, the first linear motor, the vacuum sucker, the sewing machine head and the second linear motor are controlled by the control system.

The working principle of the full-automatic shirt lower collar hemming device comprises the following steps: the method comprises the steps of placing stacked lower collar semi-finished products to be curled in a storage box, supporting the stacked lower collar semi-finished products by a first push plate, pushing the stacked lower collar semi-finished products to move upwards to a specified position by the first push plate under the driving of a first linear motor, rotating a rotary cylinder to drive a rotary arm to rotate so as to enable a vacuum chuck to rotate to the upper side of the storage box, grabbing an uppermost lower collar semi-finished product in the storage box by the vacuum chuck, rotating the rotary cylinder to enable the vacuum chuck to rotate to the upper side of a curling tooling plate, putting down the lower collar semi-finished products by the vacuum chuck, enabling the lower collar semi-finished products to be tiled and placed on the curling tooling plate, enabling the linear cylinder to drive the rotary motor to move downwards, enabling the rotary motor to work when the rollers press the lower collar semi-finished products downwards, driving the rollers to rotate, pushing the lower collar semi-finished products to move to the curling mechanism, enabling cloth on one side of the lower collar semi-finished products to be curled by the curling mechanism and, and (3) finishing the wiring of the sewing machine head, namely sewing to obtain a turned-edge finished lower collar product, driving the material collecting brush by the second linear motor, pushing the finished lower collar product into the material collecting frame by the material collecting brush, and collecting the finished lower collar product by the material collecting frame in a centralized manner.

The full-automatic shirt lower collar hemming device has high automation degree, can realize full-automatic operation of shirt lower collar hemming, can continuously and efficiently finish grabbing, placing, sewing and collecting of lower collar finished products by a worker only by placing a stack of lower collar semi-finished products into the storage box, greatly saves manpower, improves the processing efficiency of a hemming procedure, has uniform quality of the processed lower collar finished products, and can effectively ensure the consistency of products.

Preferably, a plurality of upright first guide rods are fixed at the bottom of the first push plate, a plurality of first guide cylinders are installed at the bottom of the material storage box, and each first guide rod penetrates through one first guide cylinder. A plurality of first guide bars cooperate a plurality of first guide cylinders, play the guide effect to the rectilinear movement of first push pedal, are favorable to improve equipment's reliability and machining precision.

Preferably, the bottom end of the material receiving frame is vertically provided with a third linear motor, the operation of the third linear motor is controlled by the control system, the output end of the third linear motor is provided with a second push plate, and the second push plate is positioned in the material receiving frame. Along with the continuous increase of the finished product of leading down in the material receiving frame, third linear electric motor can drive the second push pedal and constantly move down, and the product after the processing can pile up neatly automatically, does not need artifical arrangement.

Preferably, a plurality of upright second guide rods are fixed at the bottom of the second push plate, a plurality of second guide cylinders are installed at the bottom of the material receiving frame, and each second guide rod penetrates through one second guide cylinder. The second guide rods are matched with the second guide cylinders to guide the linear movement of the second push plate.

Preferably, a first photoelectric switch is installed at one end of the material storage box, a second photoelectric switch is installed at one end of the material receiving frame, a third photoelectric switch is installed on the workbench and is close to the curling mechanism, and the first photoelectric switch and the second photoelectric switch are respectively and electrically connected with the control system. In the processing process, along with the continuous reduction of the lower collar semi-finished product in the storage box, the first linear motor continuously pushes the first push plate to ascend, and the first photoelectric switch continuously sends a position signal to the control system, so that the upper-most lower collar semi-finished product in the storage box can be ensured to be at the same height all the time. Similarly, after the second photoelectric switch is arranged, when the number of the lower collar finished products collected in the material receiving frame is small, the third linear motor can push the second push plate to move upwards, and when the lower collar finished products collected in the material receiving frame reach a higher height, the third linear motor can drive the second push plate to move downwards, so that the upper collar finished products on the uppermost layer in the material receiving frame are always at the same height, the fact that the lower collar finished products pushed by the material receiving brush at each time can be neatly and automatically stacked at the uppermost end in the material receiving frame is guaranteed, and the automation degree of the crimping equipment is further improved. In the processing process, when the third photoelectric switch detects that the lower collar semi-finished product with the flanging moves out of the flanging mechanism, a signal is sent to the control system, and the control system controls the sewing machine head to finish corresponding sewing work.

Preferably, the hemming tool plate is obliquely arranged, the head of the hemming tool plate is low, the tail of the hemming tool plate is high, and further, the hemming tool plate is a stainless steel plate with a narrow head and a wide tail, so that the lower collar semi-finished product can move on the hemming tool plate conveniently, and the lower collar semi-finished product can move to the hemming mechanism smoothly.

Compared with the prior art, the invention has the following advantages: the full-automatic shirt lower collar hemming device has high automation degree, can realize full-automatic operation of shirt lower collar hemming, can continuously and efficiently finish grabbing, placing, sewing and collecting of lower collar finished products by a worker only by placing a stack of lower collar semi-finished products into the storage box, greatly saves manpower, improves the processing efficiency of a hemming procedure, has uniform quality of the processed lower collar finished products, and can effectively ensure the consistency of products.

Drawings

FIG. 1 is a diagram of the working state of the full-automatic shirt lower collar hemming device in the embodiment (the lower collar in the storage box and the material receiving frame are not shown);

FIG. 2 is a front view of a loading part in the embodiment;

FIG. 3 is a top view of the loading part in the embodiment.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

The full-automatic shirt collar hemming device of embodiment 1, as shown in the figure, comprises a feeding part, a sewing part, a receiving part and a control system (not shown in the figure), wherein the feeding part comprises a support 1, a storage box 11 mounted on the support 1, a rotary cylinder 12, a linear cylinder 13, a rotary motor 14 and a first linear motor 15, the storage box 11 is used for accommodating stacked collar semi-finished products 51 to be hemmed, the upper end of the storage box 11 is open, the first linear motor 15 is vertically mounted at the bottom end of the storage box 11, a first push plate 16 is mounted at the output end of the first linear motor 15, the first push plate 16 is positioned in the storage box 11, a rotating arm 17 is mounted at the output end of the rotary cylinder 12, a mounting plate 6 is fixed on the rotating arm 17, a vacuum suction cup (not shown in the figure) is mounted at the bottom of the mounting plate 6, the linear cylinder 13 is mounted on the support 1 in an inverted, the output end of the rotating motor 14 is provided with a roller 18; the sewing part comprises a workbench 2, a sewing machine head 21 and a hemming tooling plate 22 which are arranged on the workbench 2, wherein the hemming tooling plate 22 is obliquely arranged, the head part of the hemming tooling plate 22 is low, and the tail part of the hemming tooling plate 22 is high; the material receiving part comprises a material receiving frame 31, a material receiving brush 32 and a second linear motor 33, the second linear motor 33 is transversely installed on one side, far away from the support 1, of the workbench 2, the material receiving brush 32 is installed at the output end of the second linear motor 33, the material receiving frame 31 is installed at the front end of the workbench 2, the material receiving frame 31 is used for collecting a lower collar finished product 52 processed by hemming, a third linear motor 34 is vertically installed at the bottom end of the material receiving frame 31, a second push plate 35 is installed at the output end of the third linear motor 34, the second push plate 35 is located in the material receiving frame 31, the rotary cylinder 12, the linear cylinder 13, the rotary motor 14, the first linear motor 15, the vacuum chuck, the sewing machine head 21, and the operation of the second linear motor 33 and the third linear motor 34 is controlled by a control system.

In embodiment 1, a first photoelectric switch 41 is installed at one end of the storage box 11, a second photoelectric switch 42 is installed at one end of the material receiving frame 31, a third photoelectric switch 43 is installed on the workbench 2, the third photoelectric switch 43 is close to the curling mechanism 23, and the first photoelectric switch 41 and the second photoelectric switch 42 are respectively electrically connected with the control system.

The full-automatic shirt lower collar hemming device of embodiment 2 is different from embodiment 1 in that, in embodiment 2, two upright first guide rods 19 are fixed at the bottom of a first push plate 16, two first guide cylinders 10 are installed at the bottom of a storage box 11, and each first guide rod 19 penetrates through one first guide cylinder 10; two upright second guide rods 36 are fixed at the bottom of the second push plate 35, two second guide cylinders (not shown in the figure) are installed at the bottom of the material receiving frame 31, and each second guide rod 36 penetrates through one second guide cylinder.

In the above embodiments, the control system, the vacuum chuck, the curling mechanism 23, and the like all adopt the prior art.

The working principle of the full-automatic shirt lower collar crimping equipment is as follows: the stacked lower collar semi-finished product 51 to be curled is put in the storage box 11, the stacked lower collar semi-finished product 51 is supported by the first push plate 16, under the driving of the first linear motor 15, the first push plate 16 pushes the stacked lower collar semi-finished product 51 to move upwards to a designated position, the rotary cylinder 12 rotates to drive the rotary arm 17 to rotate, so that the vacuum chuck rotates to the upper part of the storage box 11, after the vacuum chuck grabs a piece of lower collar semi-finished product 51 positioned at the uppermost layer in the storage box 11, the rotary cylinder 12 rotates to enable the vacuum chuck to rotate to the upper part of the curling tooling plate 22, at the moment, the vacuum chuck puts down the lower collar semi-finished product 51, so that the lower collar semi-finished product 51 is flatly laid on the curling tooling plate 22, the linear cylinder 13 drives the rotary motor 14 to move downwards, when the roller 18 presses down the lower collar semi-finished product 51, the rotary motor 14 works to drive the roller 18 to rotate, the roller 18 pushes the lower collar semi-finished product 51, when the lower collar semi-finished product 51 moves, the cloth on one side is flanged by the flanging mechanism 23, when the third photoelectric switch 43 detects that the flanged lower collar semi-finished product 51 moves out of the flanging mechanism 23, a signal is sent to the control system, the control system controls the sewing machine head 21 to complete sewing of the flanging part and the lining, the sewing machine head 21 finishes routing, namely the lower collar finished product 52 processed by flanging is obtained, finally, the second linear motor 33 drives the material receiving brush 32, the material receiving brush 32 pushes the lower collar finished product 52 into the material receiving frame 31, and the material receiving frame 31 collects the lower collar finished product 52 in a centralized manner.

In the processing process, as the lower collar semi-finished product 51 in the storage box 11 is continuously reduced, the first linear motor 15 continuously pushes the first push plate 16 to ascend, and the first photoelectric switch 41 continuously sends a position signal to the control system, so that the upper collar semi-finished product 51 in the storage box 11 is always at the same height. Similarly, after the second photoelectric switch 42 is provided, when the number of the lower collar finished products 52 collected in the material receiving frame 31 is small, the third linear motor 34 can push the second pushing plate 35 to move upwards, and when the lower collar finished products 52 collected in the material receiving frame 31 reach a higher height, the third linear motor 34 can drive the second pushing plate 35 to move downwards, so that the uppermost lower collar finished products 52 in the material receiving frame 31 are always at the same height, the lower collar finished products 52 pushed by the material receiving brush 32 every time can be automatically and neatly stacked at the uppermost end in the material receiving frame 31, and the automation degree of the hemming device is further improved.

The full-automatic shirt lower collar crimping equipment is high in automation degree, full-automatic operation of shirt lower collar crimping can be achieved, a worker only needs to place a stack of lower collar semi-finished products 51 into the storage box 11, the equipment can continuously and efficiently automatically complete grabbing, placing and sewing of the lower collar semi-finished products 51 and collecting and stacking of the lower collar finished products 52, manpower is greatly saved, machining efficiency of a crimping process is improved, quality of the processed lower collar finished products 52 is uniform, and product consistency can be effectively guaranteed.

Claims (7)

1. The utility model provides a collar turn-ups equipment under full-automatic shirt, its characterized in that includes material loading part, sewing part, receipts material part and control system, material loading part include the support and install storage case, revolving cylinder, sharp cylinder, rotating electrical machines and the first linear electric machine on the support, the storage case be used for holding the lower collar semi-manufactured goods that the turn-ups was processed of piling up, the upper end opening of storage case, the first linear electric machine install upright the bottom of storage case, the output of first linear electric machine install first push pedal, first push pedal be located the storage case, revolving cylinder's output install the swinging boom, the swinging boom on be fixed with the mounting panel, the bottom of mounting panel install vacuum chuck, sharp cylinder install on the support, the revolving electrical machines transversely install the output of sharp cylinder handstand, the output end of the rotating motor is provided with a roller; the sewing part comprises a workbench, a sewing machine head and a hemming tooling plate, wherein the sewing machine head and the hemming tooling plate are arranged on the workbench; the material receiving part comprises a material receiving frame, a material receiving brush and a second linear motor, the second linear motor is transversely installed on the workbench and is far away from one side of the support, the material receiving brush is installed on the output end of the second linear motor, the material receiving frame is installed at the front end of the workbench, the material receiving frame is used for collecting the finished products of the lower collar processed by the turned edge, and the rotary cylinder, the linear cylinder, the rotary motor, the first linear motor, the vacuum sucker, the sewing machine head and the second linear motor are controlled by the control system.

2. The full-automatic lower collar hemming device for shirts according to claim 1 wherein a plurality of upright first guide rods are fixed at the bottom of the first push plate, a plurality of first guide cylinders are installed at the bottom of the storage box, and each first guide rod is arranged in one first guide cylinder in a penetrating manner.

3. The full-automatic shirt collar hemming device according to claim 1 or 2, wherein a third linear motor is vertically installed at the bottom end of the material receiving frame, the operation of the third linear motor is controlled by the control system, a second push plate is installed at the output end of the third linear motor, and the second push plate is located in the material receiving frame.

4. The full-automatic lower collar hemming device for shirts according to claim 3 wherein a plurality of upright second guide rods are fixed at the bottom of the second pushing plate, a plurality of second guide cylinders are installed at the bottom of the material receiving frame, and each second guide rod is arranged in one second guide cylinder in a penetrating manner.

5. The full-automatic collar hemming device for shirts according to claim 3 wherein a first photoelectric switch is installed at one end of the material storage box, a second photoelectric switch is installed at one end of the material receiving frame, a third photoelectric switch is installed on the workbench, the third photoelectric switch is close to the hemming mechanism, and the first photoelectric switch and the second photoelectric switch are electrically connected with the control system respectively.

6. The full-automatic collar hemming device for shirts according to claim 1 wherein the hemming plate is disposed obliquely and has a low head and a high tail.

7. The full-automatic collar hemming device for shirts according to claim 6 wherein the hemming tooling plate is a stainless steel plate with a narrow head and a wide tail.

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