CN113789615A

CN113789615A - A placket pretreatment hemming device and using method thereof

Info

Publication number: CN113789615A
Application number: CN202111171363.8A
Authority: CN
Inventors: 梅顺齐; 杨黎业; 王金印; 祁迪; 徐巧; 郑权; 陈振; 周石
Original assignee: Wuhan Textile University
Current assignee: Wuhan Textile University
Priority date: 2021-10-08
Filing date: 2021-10-08
Publication date: 2021-12-14
Anticipated expiration: 2041-10-08
Also published as: CN113789615B

Abstract

A placket pretreatment hemming device, comprising a scraping and vertical shell plate, a flattening shell plate, and a pressing and vertical shell plate which are sequentially connected in a stepped structure, wherein the scraping and vertical shell plate is connected to the near-scraping vertical shell plate and the flattening shell plate. There is a scraping groove at the part of the scraper, the top edge of the scraping groove is connected with the top edge of the scraper, the bottom edge of the scraper is set higher than the top surface of the flattened shell plate, and the bottom edge of the scraper is arranged between the bottom edge of the scraper and the flattened shell plate. It is sandwiched into a scraping gap. At the same time, the top surface of the flattened shell plate is provided with a shelf through groove, the left side of the shelf through groove is provided with a horizontal outlet, and a bottom pressure plate is embedded in the shelf through groove. The middle of the top surface is provided with a cloth pressing sink, a top pressure plate is embedded in the cloth pressure sink, and the bottom surface of the bottom pressure plate is connected with one end of the lateral reciprocating drive structure, and the other end of the lateral reciprocating drive structure is embedded. Extends to just below the pressing device. The design can not only preprocess the outer flaps and have a better folding effect, but also fully automatic and high efficiency.

Description

Front fly pretreatment edge folding device and using method thereof

Technical Field

The invention relates to a manufacturing process of shirt sleeve vent, belongs to the field of sleeve vent sewing, and particularly relates to a front fly pretreatment folding device and a using method thereof.

Background

Currently, the sewing of shirts includes front pieces, collars, sleeves and sleeve cuts, and the sewing modes of different parts are different. Wherein, the sleeve cuff is used for loosely loosening or tightening up the cuff, and existing practicality has aesthetic property again, nevertheless because the sleeve cuff is not a regular cloth on the whole, has a precious arrow point, need reserve the position of making up for the corner position of sleeve cuff cloth in addition, therefore, need the manual work to fold the various limits of sleeve cuff cloth, just can better make up, this not only reduces makes up efficiency, is difficult to unify moreover and makes up the standard, the efficiency on the loss assembly line.

The invention discloses an automatic sewing system and method for sleeve cuts, which is disclosed by the invention patent application with the application publication number of CN104862881A and the application publication date of 2015, 8.26.A main cloth folding device arranged on the sewing panel, an auxiliary cloth folding device arranged on the main beam, a sewing head arranged on the main beam, a sewing shuttle arranged on the sewing shuttle supporting beam, a sewing shuttle and a sewing head corresponding to the sewing region, a cloth feeding device and a power supply cabinet are also arranged. Although this design can be folded, compressed tightly and sew cuff clothing piece, has reduced artifical intensity of labour, still has following defect:

this design can only realize folding, and can not carry out reasonable arrangement to the order of folding, leads to folding effect relatively poor, is difficult to carry out better cooperation with subsequent making, reduces to make up the quality, especially lacks the outer fin in the cloth piece and carries out the preliminary treatment, directly reduces subsequent folding effect.

The information disclosed in this background section is only for enhancement of understanding of the general background of the patent application and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The invention aims to overcome the defects and problems that the outer wing piece cannot be pretreated and the folding effect is poor in the prior art, and provides a front fly pretreatment flanging device which can pretreat the outer wing piece and has a good folding effect and a using method thereof.

In order to achieve the above purpose, the technical solution of the invention is as follows: a front fly pretreatment edge folding device comprises a vertical scraping shell plate, a flattening shell plate and a vertical pressing shell plate, wherein the bottom edge of the vertical scraping shell plate is vertically connected with the inner side edge of the flattening shell plate, the outer side edge of the flattening shell plate is vertically connected with the top edge of the flattening shell plate, a scraping groove is formed in the position, close to the joint of the vertical scraping shell plate and the flattening shell plate, of the vertical scraping shell plate, the top edge of the scraping groove is connected with the top edge of a scraping plate, the bottom edge of the scraping plate extends downwards, the bottom edge of the scraping plate is higher than the top surface of the flattening shell plate, and a scraping gap is formed between the bottom edge of the scraping plate and the flattening shell plate;

the top surface that flattens the shell plate has been seted up the shelf and has been led to the groove, and horizontal export has been seted up in the left side that this shelf led to the groove, and the inside embedding that the shelf led to the groove has a bottom board, and the heavy groove of compress has been seted up at the middle part of the top surface of this bottom board, and the one-way opening that makes progress in the heavy groove of this compress, and the heavy inslot embedding of compress has one to carry out down press fit's roof pressure board rather than, the bottom surface of bottom board is connected with the one end of horizontal reciprocal drive structure, and the other end of horizontal reciprocal drive structure extends to and covers the device under.

The cloth pressing sinking groove is of an L-shaped structure and comprises an arrow-shaped groove and a rectangular groove which are communicated with each other, and the area of the rectangular groove is larger than that of the arrow-shaped groove;

the outer end in arrow type groove extends to the direction of keeping away from rectangular groove, and the inner in arrow type groove is linked together with the one end in rectangular groove, and the other end in rectangular groove extends to the direction of keeping away from arrow type groove, the outside limit in arrow type groove is parallel and level mutually with the outside limit in rectangular groove, and presss from both sides between arrow type groove, rectangular groove and becomes the portion of turning between the groove.

The other end of the rectangular groove extends to be communicated with the external environment, and the other end of the rectangular groove is flush with the side edge of the bottom pressing plate on the same side.

The transverse reciprocating driving structure comprises a rack and a gear, the top plane of the rack is connected with the bottom surface of the bottom pressing plate, the bottom tooth surface of the rack is meshed with the side wall of the gear below the rack, the middle part of the gear is connected with the output end of the driving motor, and the gear and the driving motor are both lower than the bottom pressing plate.

The middle part of the bottom surface of the bottom pressing plate is connected with the top plane of the rack, the positions on the two sides of the rack on the bottom surface of the bottom pressing plate are respectively connected with the top of a sliding block, the bottom of the sliding block is in contact with the sliding rail, and the sliding block is in sliding fit with the corresponding sliding rail;

the outer end of the sliding rail is positioned below the through groove of the shelf, and the inner end of the sliding rail extends to the position right below the pressing device.

The bottom of the inner end of the sliding rail is connected with the top surface of the middle part of the arch-shaped plate, the first plate foot and the second plate foot at the two ends of the arch-shaped plate extend downwards, and the first plate foot, the middle part of the arch-shaped plate and the second plate foot are clamped into a hollow arch-shaped cavity.

The pressing device comprises a pressing cylinder and a pressing plate, the output end of the pressing cylinder is connected with the top surface of the pressing plate located right below the pressing cylinder, and a pressing area is located right below the pressing plate.

The middle part of the cylinder seat in the press-covering cylinder is externally sleeved with a fixed plate which is parallel to the press-covering plate positioned right below the fixed plate, four corners of the fixed plate are respectively provided with a rod through hole, a supporting rod penetrates through the rod through hole, the bottom end of the supporting rod is correspondingly connected with the top surfaces of the four corners of the press-covering plate, and the middle part of the top surface of the press-covering plate is connected with the output end of the press-covering cylinder.

The top edge of the vertical scraping shell plate is vertically connected with one side edge of the top flat shell plate, the other side edge of the top flat shell plate is vertically connected with the top edge of the outer vertical shell plate, the bottom edge of the outer vertical shell plate extends downwards, and the height of the outer vertical shell plate is greater than or equal to the sum of the lengths of the vertical scraping shell plate and the vertical pressing shell plate;

the outer vertical shell plate, the top flat shell plate and the scraping vertical shell plate enclose a pressing cavity, and a pressing device is arranged in the pressing cavity; the flattening shell plate and the pressing vertical shell plate are clamped into a cloth pressing cavity 0, the cloth pressing cavity 0 is communicated with the shelf through groove, and two ends of the transverse reciprocating driving structure are respectively located in the pressing cavity and the cloth pressing cavity 0.

A use method of the front fly pretreatment flanging device comprises the following steps: firstly, flatly placing an initial cloth piece of the front opening sleeve garment into a cloth pressing sinking groove on a bottom pressing plate, after the cloth piece is placed, only the outer side part of an outer wing piece on the initial cloth piece of the front opening sleeve garment extends out of the cloth pressing sinking groove, pressing a top pressing plate at the middle part of the initial cloth piece of the front opening sleeve garment until the top pressing plate is embedded into the cloth pressing sinking groove, so that the initial cloth piece of the front opening sleeve garment is fixed in the cloth pressing sinking groove, the outer side part is extruded outside the cloth pressing sinking groove, then driving the bottom pressing plate to horizontally move leftwards by a transverse reciprocating driving structure, when the outer side part passes through a scraping gap, reversely pushing the outer side part by a scraping plate, so that the outer wing piece reversely falls to the top surface of the top pressing plate, then, when the initial cloth piece of the bottom pressing plate and the initial cloth piece of the front opening garment moves to be right below a pressing device, stopping the horizontal movement, then driving the pressing device to move downwards, and pressing and ironing the initial cloth piece of the front opening sleeve garment, so that the outside portion is attached on the top surface of roof pressure board, then will press and cover the device and rise to reset, order about end clamp plate level by horizontal reciprocal drive structure and move right again, when the outside portion is through scraping the material space, the scraper blade is contactless with outside portion, when moving to the shelf and leading to the groove, the level moves right and stops, take away the attached gesture of roof pressure board in order to remain outside portion again, at this moment, can obtain door front of a garment sleeve vent preliminary treatment cloth piece, then take away door front of a garment sleeve vent preliminary treatment cloth piece away, with the repetitive operation who treats next.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention relates to a front fly preprocessing flanging device and a using method thereof, which comprises a vertical scraping shell plate, a flat pressing shell plate, a vertical pressing shell plate, a bottom pressing plate, a top pressing plate, a transverse reciprocating driving structure and a pressing device, wherein the vertical scraping shell plate, the flat pressing shell plate and the vertical pressing shell plate are sequentially connected into a step-shaped structure from top to bottom, a scraping groove is formed in the vertical scraping shell plate, a scraping plate is embedded and connected in the scraping groove, a scraping gap is formed between the bottom edge of the scraping plate and the flat pressing shell plate, meanwhile, a shelf through groove is formed in the top surface of the flat pressing shell plate, a transverse outlet is formed in the left side of the shelf through groove, a cloth pressing sinking groove is formed in the middle of the top surface of the bottom pressing plate embedded in the shelf through groove, the top pressing plate which is in downward pressing fit with the cloth pressing sinking groove is embedded, the bottom surface of the bottom pressing plate is connected with one end of the transverse reciprocating driving structure, the other end of the transverse reciprocating driving structure extends to the right below the pressing device, when the application is carried out, when the initial cloth piece of the front opening sleeve vent to be processed is horizontally placed in the cloth pressing sinking groove, the outer side part of the outer wing piece extends out of the cloth pressing sinking groove, then the top pressing plate is pressed down in the middle of the initial cloth piece of the front opening sleeve vent so as to fix the initial cloth piece of the front opening sleeve vent in the cloth pressing sinking groove, the outer side part of the outer wing piece is exposed out of the cloth pressing sinking groove, then the bottom pressing plate is driven to horizontally move leftwards, during the movement, the outer side part of the outer wing piece is reversely pushed by the scraping plate so as to be pushed to the top pressing plate, then the outer side part of the outer wing piece is fixed by pressing and ironing through the pressing device, so that when the bottom pressing plate horizontally moves rightwards, the scraping plate does not interfere with the outer side part of the outer wing piece, and then the bottom pressing plate is taken away after the bottom pressing plate is reset, thereby obtaining the pre-processed cloth piece of the front opening sleeve vent, at the moment, compared with the pre-processed cloth piece before the pre-processing, the outer side of the outer wing is folded inwards, so that the subsequent folding of the rest side edges is not interfered, and the final sewing is facilitated. Therefore, the invention not only can pretreat the outer wing piece and has better folding effect, but also can be carried out fully automatically and has higher efficiency.

2. In the placket preprocessing and flanging device and the using method thereof, the cloth pressing sinking groove is of an L-shaped structure and comprises an arrow-shaped groove and a rectangular groove which are communicated with each other, the area of the rectangular groove is larger than that of the arrow-shaped groove, the arrow-shaped groove and the rectangular groove oppositely extend outwards, the outer side edge of the arrow-shaped groove is flush with the outer side edge of the rectangular groove, a turning part between the grooves is formed between the arrow-shaped groove and the rectangular groove, and the side edges of the turning parts between the arrow-shaped groove and the rectangular groove, which are close to the grooves, are opposite to the scraping gap. Therefore, the invention has unique structural design and strong correspondence, and is beneficial to mutual cooperation between parts and front-back connection of processing steps.

3. The invention relates to a front fly preprocessing flanging device and a using method thereof, wherein a transverse reciprocating driving structure comprises a rack and a gear, the top plane of the rack is connected with the bottom surface of a bottom pressing plate, the bottom tooth surface of the rack is meshed with the side wall of the gear positioned below the rack, the middle part of the bottom surface of the bottom pressing plate is connected with the top plane of the rack, the positions on the two sides of the rack on the bottom surface of the bottom pressing plate are respectively connected with the top of a sliding block, the bottom of the sliding block is contacted with a sliding rail, the sliding block is in sliding fit with the corresponding sliding rail, the outer end of the sliding rail is positioned below a through groove of a shelf, the inner end of the sliding rail extends to the right below a pressing device, when in use, a motor drives the gear to rotate so as to enable the rack and the gear to be meshed with each other, thereby driving the rack to do linear reciprocating motion along the transverse direction and driving the sliding block to do linear reciprocating motion along the sliding rail, and the meshing between the rack and the gear can provide high precision, the initial cloth piece of the front opening cuff is ensured to move to a preset position, and the sliding blocks and the sliding rails on the two sides are matched to ensure the stability in the movement process, so that the phenomenon that the front opening cuff is inclined to cause blocking is avoided. Therefore, the invention not only has higher movement precision, but also has stronger stability.

4. In the front fly pretreatment edge folding device and the using method thereof, the other end of the rectangular groove extends to be communicated with the external environment, the other end of the rectangular groove is flush with the side edge of the bottom pressing plate at the same side of the rectangular groove, and at the moment, the rectangular groove is communicated with the external environment, so that the top pressing plate is conveniently drawn away from the front fly sleeve vent initial cloth piece after the bottom pressing plate is reset, and the front fly sleeve vent pretreatment cloth piece is obtained. Therefore, the invention is beneficial to the connection between the steps and has higher working efficiency.

Drawings

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

Fig. 2 is a schematic view of the structure of the bottom press plate of fig. 1.

Fig. 3 is a schematic perspective view of fig. 1 viewed from the right.

Fig. 4 is a schematic illustration of the relative positions of the platens and the scraping gap of fig. 3.

FIG. 5 is a schematic structural view of the press covering device of the present invention.

Fig. 6 is a bottom view of the present invention.

FIG. 7 is a schematic diagram of the slider and the mating of the slider according to the present invention.

FIG. 8 is a schematic view of the step of changing the slit initial sheet into a slit pre-treated sheet in the present invention.

In the figure: the cloth pressing device comprises a vertical pressing shell plate 1, a flat pressing shell plate 2, a shelf through groove 21, a transverse outlet 22, a bottom pressing plate 23, a cloth pressing sinking groove 24, an arrow-shaped groove 241, a rectangular groove 242, an inter-groove corner 243, a top pressing plate 25, a vertical scraping shell plate 3, a scraping groove 31, a scraping plate 32, a scraping gap 33, a transverse reciprocating driving structure 4, a rack 41, a top plane 411, a bottom tooth surface 412, a gear 42, a driving motor 43, a sliding block 44, a sliding rail 45, a pressing device 5, a pressing air cylinder 51, an air cylinder seat 511, a pressing plate 52, a pressing area 53, a fixing plate 54, a rod through hole 55, a supporting rod 56, an arch plate 6, a first plate foot 61, a second plate foot 62, an arch-shaped cavity 63, a top flat shell plate 7, an outer vertical shell plate 8, a pressing cavity 9, a cloth pressing cavity 10, an initial cloth piece X, an outer wing piece 1, an outer wing piece X11, an arrow-shaped piece X2, a rectangular piece X3 and a Y-shaped pre-treated cloth.

Detailed Description

The present invention will be described in further detail with reference to the following description and embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 8, a device for preprocessing and folding a front fly comprises a vertical scraping shell plate 3, a flat pressing shell plate 2 and a vertical pressing shell plate 1, wherein the bottom edge of the vertical scraping shell plate 3 is vertically connected with the inner side edge of the flat pressing shell plate 2, the outer side edge of the flat pressing shell plate 2 is vertically connected with the top edge of the flat pressing shell plate 1, a scraping groove 31 is formed in a position, close to the joint of the vertical scraping shell plate 3 and the flat pressing shell plate 2, on the vertical scraping shell plate 3, the top edge of the scraping groove 31 is connected with the top edge of a scraping plate 32, the bottom edge of the scraping plate 32 extends downwards, the bottom edge of the scraping plate 32 is higher than the top surface of the flat pressing shell plate 2, and a scraping gap 33 is formed between the bottom edge of the scraping plate 32 and the flat pressing shell plate 2;

the top surface of the shell plate 2 that flattens has been seted up shelf through groove 21, and horizontal export 22 has been seted up in the left side that this shelf led through groove 21, and the inside embedding that shelf led through groove 21 has a bottom clamp plate 23, and the heavy groove 24 of compress has been seted up at the middle part of the top surface of this bottom clamp plate 23, and the heavy groove 24 one-way opening that makes progress of this compress, and the heavy inslot of compress imbeds and has one and carry out down press fit's roof pressure board 25 with it, the bottom surface of bottom clamp plate 23 is connected with the one end of horizontal reciprocal drive structure 4, and the other end of horizontal reciprocal drive structure 4 extends to and covers under 5 the device.

The cloth pressing sinking groove 24 is of an L-shaped structure and comprises an arrow-shaped groove 241 and a rectangular groove 242 which are communicated with each other, and the area of the rectangular groove 242 is larger than that of the arrow-shaped groove 241;

the outer end of the arrow-shaped groove 241 extends in the direction away from the rectangular groove 242, the inner end of the arrow-shaped groove 241 is communicated with one end of the rectangular groove 242, the other end of the rectangular groove 242 extends in the direction away from the arrow-shaped groove 241, the outer side of the arrow-shaped groove 241 is flush with the outer side of the rectangular groove 242, and a groove turning portion 243 is formed between the arrow-shaped groove 241 and the rectangular groove 242.

The other end of the rectangular groove 242 extends to communicate with the external environment, and the other end of the rectangular groove 242 is flush with the side edge of the bottom pressing plate 23 on the same side.

The transverse reciprocating driving structure 4 comprises a rack 41 and a gear 42, a top plane 411 of the rack 41 is connected with the bottom surface of the bottom pressing plate 23, a bottom tooth surface 412 of the rack 41 is meshed with the side wall of the gear 42 positioned below the rack, the middle part of the gear 42 is connected with the output end of the driving motor 43, and the gear 42 and the driving motor 43 are both arranged lower than the bottom pressing plate 23.

The middle part of the bottom surface of the bottom pressing plate 23 is connected with the top plane 411 of the rack 41, the positions on the two sides of the rack 41 on the bottom surface of the bottom pressing plate 23 are respectively connected with the top of a sliding block 44, the bottom of the sliding block 44 is contacted with a sliding rail 45, and the sliding block 44 is in sliding fit with the corresponding sliding rail 45;

the outer end of the slide rail 45 is positioned below the shelf through groove 21, and the inner end of the slide rail 45 extends to the position right below the pressing device 5.

The bottom of the inner end of the slide rail 45 is connected with the top surface of the middle part of the arch-shaped plate 6, the first plate foot 61 and the second plate foot 62 at the two ends of the arch-shaped plate 6 extend downwards, and the first plate foot 61, the middle part of the arch-shaped plate 6 and the second plate foot 62 are clamped together to form a hollow arch-shaped cavity 63.

The pressing device 5 comprises a pressing cylinder 51 and a pressing plate 52, the output end of the pressing cylinder 51 is connected with the top surface of the pressing plate 52 located right below the pressing cylinder, and a pressing area 53 is located right below the pressing plate 52.

A fixing plate 54 is sleeved outside the middle part of the cylinder seat 511 in the pressing cylinder 51, the fixing plate 54 is parallel to the pressing plate 52 positioned right below the fixing plate, four corners of the fixing plate 54 are respectively provided with a rod through hole 55, a supporting rod 56 passes through the rod through hole 55, the bottom end of the supporting rod 56 is correspondingly connected with the top surfaces of the four corners of the pressing plate 52, and the middle part of the top surface of the pressing plate 52 is connected with the output end of the pressing cylinder 51.

The top edge of the vertical scraping shell plate 3 is vertically connected with one side edge of the top flat shell plate 7, the other side edge of the top flat shell plate 7 is vertically connected with the top edge of the outer vertical shell plate 8, the bottom edge of the outer vertical shell plate 8 extends downwards, and the height of the outer vertical shell plate 8 is greater than or equal to the sum of the lengths of the vertical scraping shell plate 3 and the vertical pressing shell plate 1;

the outer vertical shell plate 8, the top flat shell plate 7 and the scraping vertical shell plate 3 enclose a pressing cavity 9, and a pressing device 5 is arranged in the pressing cavity 9; the flattening shell plate 2 and the pressing vertical shell plate 1 are clamped together to form a cloth pressing cavity 10, the cloth pressing cavity 10 is communicated with the shelf through groove 21, and two ends of the transverse reciprocating driving structure 4 are respectively located in the pressing covering cavity 9 and the cloth pressing cavity 10.

The application method of the device for preprocessing and folding the front fly comprises the following steps: firstly, a front opening sleeve opening initial cloth piece X is flatly placed into a cloth pressing sinking groove 24 on a bottom pressing plate 23, after the front opening sleeve opening initial cloth piece X is placed, only an outer side part X11 of an outer wing piece X1 on the front opening sleeve opening initial cloth piece X extends out of the cloth pressing sinking groove 24, a top pressing plate 25 is pressed downwards in the middle of the front opening sleeve opening initial cloth piece X until the top pressing plate 25 is embedded into the cloth pressing sinking groove 24, so that the front opening sleeve opening initial cloth piece X is fixed in the cloth pressing sinking groove 24, the outer side part X11 is squeezed out of the cloth pressing sinking groove 24, then the bottom pressing plate 23 is driven to horizontally move leftwards by a transverse reciprocating driving structure 4, when the outer side part X11 passes through a scraping gap 33, a scraping plate 32 pushes the outer side part X11 reversely, so that the outer wing piece X1 is reversely bent to incline towards the top surface of the top pressing plate 25, and then, when the front opening sleeve opening initial cloth piece X runs to the right below a pressing device 5, the horizontal driving device is stopped to run downwards, and the initial fabric piece X of the front opening sleeve vent is pressed down and ironed to enable the X11 of the outer side part to be attached to the top surface of the top pressing plate 25, then the pressing device 5 is lifted to reset, then the transverse reciprocating driving structure 4 drives the bottom pressing plate 23 to horizontally move rightwards, when the X11 of the outer side part passes through the material scraping gap 33, the scraping plate 32 is not in contact with the X11 of the outer side part, when the fabric piece moves to the shelf through groove 21, the horizontal rightwards movement is stopped, the top pressing plate 25 is drawn away to keep the attachment posture of the X11 of the outer side part, at the moment, the front opening sleeve vent pretreatment fabric piece Y can be obtained, and then the front opening sleeve vent pretreatment fabric piece Y is taken away to wait for the next repeated operation.

The principle of the invention is illustrated as follows:

the front fly of the invention is mainly used for manufacturing the sleeve vent of the shirt.

In the present invention, the top pressing plate 25 and the bottom pressing plate 23 are preferably identical in shape, but different in size.

In the present invention, it is preferable that the bottom edge of the squeegee 32 is inclined backward with respect to the bottom edge of the squeegee 31, and the angle of the backward inclination is an acute angle, and on this basis, it is further preferable that the top edge of the squeegee 32 and the top edge of the squeegee 31 are hinged to each other.

In the present invention, the outer side edges of the arrow-shaped groove 241 and the rectangular groove 242, which are flush with each other, are preferably perpendicular to the driving direction of the transverse reciprocating driving structure 4.

Example 1:

referring to fig. 1 to 8, a device for preprocessing and folding a front fly comprises a vertical scraping shell plate 3, a flat pressing shell plate 2 and a vertical pressing shell plate 1, wherein the bottom edge of the vertical scraping shell plate 3 is vertically connected with the inner side edge of the flat pressing shell plate 2, the outer side edge of the flat pressing shell plate 2 is vertically connected with the top edge of the flat pressing shell plate 1, a scraping groove 31 is formed in a position, close to the joint of the vertical scraping shell plate 3 and the flat pressing shell plate 2, on the vertical scraping shell plate 3, the top edge of the scraping groove 31 is connected with the top edge of a scraping plate 32, the bottom edge of the scraping plate 32 extends downwards, the bottom edge of the scraping plate 32 is higher than the top surface of the flat pressing shell plate 2, and a scraping gap 33 is formed between the bottom edge of the scraping plate 32 and the flat pressing shell plate 2; the top surface of the shell plate 2 that flattens has been seted up shelf through groove 21, and horizontal export 22 has been seted up in the left side that this shelf led through groove 21, and the inside embedding that shelf led through groove 21 has a bottom clamp plate 23, and the heavy groove 24 of compress has been seted up at the middle part of the top surface of this bottom clamp plate 23, and the heavy groove 24 one-way opening that makes progress of this compress, and the heavy inslot of compress imbeds and has one and carry out down press fit's roof pressure board 25 with it, the bottom surface of bottom clamp plate 23 is connected with the one end of horizontal reciprocal drive structure 4, and the other end of horizontal reciprocal drive structure 4 extends to and covers under 5 the device.

Example 2:

the basic contents are the same as example 1, except that:

the cloth pressing sinking groove 24 is of an L-shaped structure and comprises an arrow-shaped groove 241 and a rectangular groove 242 which are communicated with each other, and the area of the rectangular groove 242 is larger than that of the arrow-shaped groove 241; the outer end of the arrow-shaped groove 241 extends in the direction away from the rectangular groove 242, the inner end of the arrow-shaped groove 241 is communicated with one end of the rectangular groove 242, the other end of the rectangular groove 242 extends in the direction away from the arrow-shaped groove 241, the outer side of the arrow-shaped groove 241 is flush with the outer side of the rectangular groove 242, and a groove turning portion 243 is formed between the arrow-shaped groove 241 and the rectangular groove 242. The other end of the rectangular groove 242 extends to communicate with the external environment, and the other end of the rectangular groove 242 is flush with the side edge of the bottom pressing plate 23 on the same side.

The above-mentioned further drawing away of the top press plate 25 to maintain the attaching posture of the outer side portion X11 means: the top press plate 25 is drawn away from the end of the rectangular slot 242 that is in communication with the external environment.

Example 3:

the basic contents are the same as example 1, except that:

the transverse reciprocating driving structure 4 comprises a rack 41 and a gear 42, a top plane 411 of the rack 41 is connected with the bottom surface of the bottom pressing plate 23, a bottom tooth surface 412 of the rack 41 is meshed with the side wall of the gear 42 positioned below the rack, the middle part of the gear 42 is connected with the output end of the driving motor 43, and the gear 42 and the driving motor 43 are both arranged lower than the bottom pressing plate 23. The middle part of the bottom surface of the bottom pressing plate 23 is connected with the top plane 411 of the rack 41, the positions on the two sides of the rack 41 on the bottom surface of the bottom pressing plate 23 are respectively connected with the top of a sliding block 44, the bottom of the sliding block 44 is contacted with a sliding rail 45, and the sliding block 44 is in sliding fit with the corresponding sliding rail 45; the outer end of the slide rail 45 is positioned below the shelf through groove 21, and the inner end of the slide rail 45 extends to the position right below the pressing device 5.

Example 4:

the basic contents are the same as example 1, except that:

the pressing device 5 comprises a pressing cylinder 51 and a pressing plate 52, the output end of the pressing cylinder 51 is connected with the top surface of the pressing plate 52 located right below the pressing cylinder, and a pressing area 53 is located right below the pressing plate 52. A fixing plate 54 is sleeved outside the middle part of the cylinder seat 511 in the pressing cylinder 51, the fixing plate 54 is parallel to the pressing plate 52 positioned right below the fixing plate, four corners of the fixing plate 54 are respectively provided with a rod through hole 55, a supporting rod 56 passes through the rod through hole 55, the bottom end of the supporting rod 56 is correspondingly connected with the top surfaces of the four corners of the pressing plate 52, and the middle part of the top surface of the pressing plate 52 is connected with the output end of the pressing cylinder 51.

The above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above embodiment, but equivalent modifications or changes made by those skilled in the art according to the present disclosure should be included in the scope of the present invention as set forth in the appended claims.

Claims

1. A placket pretreatment hemming device, characterized in that: the placket pretreatment hemming device comprises a scraping and vertical shell plate (3), a flattening shell plate (2) and a pressing and vertical shell plate (1), The bottom edge of the scraping and vertical shell plate (3) is vertically connected with the inner side of the flattened shell plate (2), and the outer edge of the flattened shell plate (2) is perpendicular to the top edge of the flattened shell plate (1). Connection, the scraping and vertical shell plate (3) is provided with a scraping groove (11) at the junction of the scraping and vertical shell plate (3) and the flattening shell plate (2). The top edge of the scraping groove (11) is connected to the The top edges of the scraper (32) are connected, the bottom edge of the scraper (32) extends downward, the bottom edge of the scraper (32) is set higher than the top surface of the flattened shell plate (2), and the scraper (32) A scraping gap (33) is sandwiched between the bottom edge of the plate and the flattened shell plate (2);

The top surface of the flattened shell plate (2) is provided with a shelf through groove (21), the left side of the shelf through groove (21) is provided with a transverse outlet (22), and the interior of the shelf through groove (21) A bottom pressing plate (23) is embedded, the middle of the top surface of the bottom pressing plate (23) is provided with a cloth pressing sinking groove (24), the cloth pressing sinking groove (24) is unidirectionally opened upward, and the cloth pressing sinking groove (24) There is a top pressing plate (25) which is press-fitted therewith, the bottom surface of the bottom pressing plate (23) is connected with one end of the lateral reciprocating drive structure (4), and the other end of the lateral reciprocating drive structure (4) extends to Just below the pressing device (5).

2. A placket pretreatment hemming device according to claim 1, characterized in that: the cloth pressing and sinking groove (24) is an L-shaped structure, including arrow-shaped grooves (241) and rectangular-shaped grooves (241) that communicate with each other. groove (242), and the area of the rectangular groove (242) is larger than that of the arrow-shaped groove (241);

The outer end of the arrow-shaped groove (241) extends away from the rectangular groove (242), and the inner end of the arrow-shaped groove (241) is communicated with one end of the rectangular groove (242), and the rectangular groove (242) The other end extends away from the arrow-shaped groove (241), the outer side of the arrow-shaped groove (241) is flush with the outer side of the rectangular groove (242), and is in the arrow-shaped groove (241) and an inter-slot turning portion (243) is sandwiched between the rectangular grooves (242).

3. The placket pretreatment hemming device according to claim 2, characterized in that: the other end of the rectangular groove (242) extends to communicate with the external environment, and the other end of the rectangular groove (242) is extended to communicate with the external environment. One end is flush with the side edge of the bottom pressure plate (23) on the same side.

4. A placket pretreatment hemming device according to claim 1, 2 or 3, characterized in that: the transverse reciprocating driving structure (4) comprises a rack (41) and a gear (42), and the The top surface (411) of the rack (41) is connected with the bottom surface of the bottom pressure plate (23), and the bottom tooth surface (412) of the rack (41) meshes with the side wall of the gear (42) located below it. The middle part of (42) is connected with the output end of the drive motor (43), and the gears (42) and the drive motor (43) are all arranged below the bottom pressure plate (23).

5. A placket pretreatment hemming device according to claim 4, characterized in that: the middle part of the bottom surface of the bottom pressing plate (23) is connected with the top plane (411) of the rack (41), and the bottom The positions on the bottom surface of the pressure plate (23) on both sides of the rack (41) are respectively connected with the top of a slider (44), the bottom of the slider (44) is in contact with the slide rail (45), and the slider (44) ) is slidingly matched with its corresponding slide rail (45);

The outer end of the sliding rail (45) is located below the shelf through groove (21), and the inner end of the sliding rail (45) extends to just below the pressing device (5).

6. A placket pretreatment hemming device according to claim 5, characterized in that: the bottom of the inner end of the slide rail (45) is connected with the top surface of the middle part of the arched plate (6), and the arched The No. 1 board feet (61) and No. 2 board feet (62) at both ends of the board (6) extend downward, and the No. 1 board feet (61), the middle of the arched board (6), and the No. 2 board feet (62) A hollow arch-shaped cavity (63) is clamped together.

7. A placket pretreatment hemming device according to claim 1, 2 or 3, characterized in that: the pressing device (5) comprises a pressing cylinder (51) and a pressing plate (52), The output end of the cladding cylinder (51) is connected to the top surface of the cladding plate (52) directly below it, and the cladding area (53) is directly below the cladding plate (52).

8 . The placket pretreatment hemming device according to claim 7 , characterized in that: a fixing plate ( 54 ) is attached to the middle of the cylinder seat ( 511 ) in the pressing cylinder ( 51 ). The fixing plate (54) is parallel to the pressing plate (52) located directly below it, and four corners of the fixing plate (54) are respectively provided with a rod through hole (55), and the rod through hole (55) passes through the rod through hole (55). And there is a support rod (56), the bottom end of the support rod (56) is correspondingly connected with the top surface of the four corners of the pressing plate (52), and the middle part of the top surface of the pressing plate (52) is connected with the pressing cylinder (51) is connected to the output.

9. A placket pretreatment hemming device according to claim 1, 2 or 3, characterized in that: the top edge of the scraping and vertical shell plate (3) and one side of the top flat shell plate (7) The sides are vertically connected, the other side of the top flat shell plate (7) is vertically connected with the top edge of the outer vertical shell plate (8), the bottom edge of the outer vertical shell plate (8) extends downward, and the outer vertical shell plate (8) is vertically connected. ) is greater than or equal to the sum of the lengths of the scraping vertical shell plate (3) and the pressing vertical shell plate (1);

The outer vertical shell plate (8), the top flat shell plate (7), and the scraping vertical shell plate (3) together form a pressing cavity (9), and a pressing device (9) is arranged in the pressing cavity (9). 5); the flattening shell plate (2) and the vertical pressing shell plate (1) are clamped together to form a cloth pressing cavity (10), and the cloth pressing cavity (10) communicates with the shelf through groove (21), and is horizontally arranged. The two ends of the reciprocating driving structure (4) are respectively located in the pressing cavity (9) and the cloth pressing cavity (10).

10. The use method of the placket pretreatment hemming device according to claim 1, wherein the use method comprises the following steps:

First, place the initial fabric piece (X) of the placket and sleeve slit into the pressing groove (24) on the bottom platen (23). The outer part (X11) of X1) extends to the outside of the cloth pressing groove (24), and then press down the top pressing plate (25) in the middle of the initial cloth piece (X) of the placket and sleeve until the top pressing plate (25) is embedded in the pressing cloth In the sinking groove (24), to fix the initial fabric piece (X) of the placket and sleeve slit in the sinking slot (24), and squeeze the outer part (X11) out of the sinking slot (24), and then press The lateral reciprocating drive structure (4) drives the bottom pressing plate (23) to move horizontally to the left. When the outer part (X11) passes through the scraping gap (33), the scraper (32) will push the outer part (X11) in reverse, so that The outer flaps (X1) are reversed to fall to the top surface of the top pressing plate (25), and then, when the bottom pressing plate (23) and the initial cloth piece (X) of the placket and sleeve slits together run to the pressing device (5) Stop the horizontal movement, then drive the pressing device (5) to run down, press down and iron the initial fabric (X) of the placket and sleeve slits, so that the outer part (X11) is attached to the top On the top surface of the pressing plate (25), then the pressing device (5) is raised and reset, and the horizontal reciprocating driving structure (4) drives the bottom pressing plate (23) to move horizontally to the right. When the outer part (X11) passes through the scraping gap (33), the scraper (32) is not in contact with the outer part (X11), when it runs to the shelf through slot (21), the horizontal movement to the right stops, and then the top plate (25) is pulled away to keep the outer part (21). X11), at this time, you can obtain the pre-treated fabric piece (Y) of the placket and sleeve slits, and then take the pre-treated fabric piece (Y) of the placket and sleeve slits for the next repeated operation.