CN107354609B - Cut piece zipper splicing mold, cut piece zipper splicing mechanism and splicing method - Google Patents

Abstract

The invention discloses a cut piece zipper splicing and sewing mold, a cut piece zipper splicing and sewing mechanism and a splicing and sewing method. The cut-part zipper seam splicing die comprises a bottom plate, a positioning plate, a first air suction seat, a second air suction seat and a cover plate; the upper surface of the bottom plate is provided with a first strip-shaped containing groove and a second containing groove positioned at one end of the first containing groove, and the bottom surface of the first containing groove is provided with a plurality of first air suction holes; the two air suction seats are connected to the bottom surface of the first accommodating groove, the upper surfaces of the two air suction seats form a V-shaped groove, and a first seam channel is formed between the two air suction seats and the inner wall of the first accommodating groove; the upper surfaces of the two air suction seats are respectively provided with a plurality of air suction holes extending to the bottom surface of the bottom plate; one side edge of the positioning plate is connected with the joint of the two air suction seats; the cover plate is provided with two abdicating channels. The cut-part zipper seam splicing die is high in production efficiency and capable of improving production quality.

Description

Cut piece zipper splicing mold, cut piece zipper splicing mechanism and splicing method

Technical Field

The invention relates to the field of clothing production, in particular to a cut piece zipper splicing and sewing mold, a cut piece zipper splicing and sewing mechanism and a splicing and sewing method.

Background

When the shuttle loom is used for sewing the zipper, the sewing of the zipper is finished manually at present, the specific process is to sew the zipper by hidden thread and then to line the zipper lips, the production efficiency is low at present, the manual operation is complex, and the quality is unstable, and the quality problems comprise (1) the zipper lips used for blocking the zipper teeth on the left side and the right side are small, so that the middle zipper teeth are exposed and are not attractive; (2) The left and right zipper lips are asymmetrical, with one side being larger and the other side being smaller.

Disclosure of Invention

Therefore, the cut piece zipper splicing and sewing mold, the cut piece zipper splicing and sewing mechanism and the splicing and sewing method which are high in production efficiency and capable of improving production quality are needed.

A cut-part zipper splicing and sewing die comprises a bottom plate, a positioning plate, a first air suction seat, a second air suction seat and a cover plate; the upper surface of the bottom plate is provided with a first strip-shaped accommodating groove for accommodating a zipper strip of a zipper, and a second accommodating groove which is positioned at one end of the first accommodating groove and used for accommodating a zipper head of the zipper;

the first air suction seat and the second air suction seat are connected to the bottom surface of the first containing groove, the splicing seam of the first air suction seat and the second air suction seat is located on the major axis of the first containing groove, the upper surface of the first air suction seat and the upper surface of the second air suction seat form a V-shaped groove, and a gap is formed between the first air suction seat and the inner wall of the first containing groove and between the first air suction seat and the second air suction seat and the inner wall of the first containing groove respectively, and a first vehicle seam channel is formed at the gap; the upper surface of the first air suction seat and the upper surface of the second air suction seat are provided with a plurality of air suction holes extending to the bottom surface of the bottom plate;

one side edge of the positioning plate is connected to the joint between the first air suction seat and the second air suction seat;

the cover plate is provided with two yielding channels, and when the cover plate covers the upper surface of the bottom plate, the two yielding channels respectively correspond to the two first slot channels.

In one embodiment, the positioning plate is perpendicular to a bottom surface of the first receiving groove.

In one embodiment, the upper surface of the bottom plate is further provided with two second seam channels, and the two second seam channels are distributed at two sides of the second accommodating groove and are respectively communicated with the two first seam channels; the abdication channel is matched to the first slot channel and the second slot channel.

In one embodiment, the two second slot lanes gradually get away from the second accommodating groove from one end close to the first slot lane to the opposite other end.

In one embodiment, the top of the positioning plate is lower than the upper surface of the bottom plate.

In one embodiment, the positioning plate is in a long strip shape, one longer side edge of the positioning plate is connected to the connection position of the first air suction seat and the second air suction seat, and two ends of the positioning plate are respectively aligned with two ends of the first air suction seat and the second air suction seat.

A cut-part zipper splicing and sewing mechanism comprises a machine table, a sewing device and a material moving device, and further comprises a cut-part zipper splicing and sewing die; the sewing device and it all establishes to move the material device on the board, cut-parts zip fastener piece mould's bottom plate is connected move on the material device, it is used for driving to move the material device the bottom plate removes according to predetermineeing the orbit, the sewing device is used for the sewing cut-parts and zip fastener on the bottom plate.

A method for splicing cut piece zippers comprises the following steps:

after the two cut pieces are upwards folded into the seam allowance according to the preset size, respectively aligning the folded edges with the positioning plate, and sucking air through the air suction hole to adsorb and fix the folded parts of the two cut pieces;

placing zipper tapes of the zippers on the folding parts of the two cut pieces, aligning the middle parts of the zipper tapes to the positioning plate, and positioning zipper heads of the zippers in the second accommodating grooves;

covering a cover panel over the zipper and the two flaps;

the material moving device drives the bottom plate to move according to a preset track; the sewing device sews two of the cutting pieces on the bottom plate and the zipper.

The split joint die for the zipper of the cut piece is provided with the first air suction seat and the second air suction seat, two upper surfaces of the first air suction seat and the second air suction seat form a V-shaped groove, after the opening of the cut piece is folded, the upper surfaces of the first air suction seat and the second air suction seat are inclined towards the lower side of the positioning plate, so that the folding part behind the opening of the cut piece is distributed along the surface of the positioning plate, relative to the horizontal plane, the length of an inclined plane is extended from the opening part of the folded piece of the cut piece, more of the opening part of the cut piece can enter the inner side of the first sewing channel compared with the horizontal position, after sewing, the opening part of the folded piece can shield zipper teeth of the zipper, and the phenomenon that the zipper leaks outwards is avoided. In addition, because the locating plate is located the axis of the first containing groove, the zip fastener can not squint, the condition of big or small limit can not appear. Foretell cut-parts zip fastener piece mould utilizes the mould to adorn the zip fastener, and production efficiency is high, can improve sewing quality and stable in quality, improves production efficiency.

Drawings

FIG. 1 is a schematic view of a splicing and sewing mechanism of a slide fastener according to an embodiment;

fig. 2 is a schematic view of a cut piece zipper splicing and sewing mold of the cut piece zipper splicing and sewing mechanism shown in fig. 1.

Description of the reference numerals

10. A cut piece zipper splicing mechanism; 100. a machine platform; 200. a sewing device; 300. a material moving device; 400. a split piece zipper splicing mould; 410. a base plate; 411. a first accommodating groove; 412. a second accommodating groove; 413. a first slot lane; 414. a second seam channel; 420. positioning a plate; 430a, a first air suction seat; 430b and a second air suction seat; 431. an air suction hole.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 and 2, the present embodiment relates to a cut-piece zipper splicing and sewing mechanism 10. The cut-part zipper splicing and sewing mechanism 10 comprises a machine table 100, a sewing device 200 and a material moving device 300. This cut-parts zip fastener piece mechanism 10 still includes cut-parts zip fastener piece mould 400.

The cut-part zipper seam splicing mould 400 comprises a bottom plate 410, a positioning plate 420, a first air suction seat 430a, a second air suction seat 430b and a cover plate. In the drawings of the present embodiment, the cover plate is not shown.

As shown in fig. 1 and 2, the upper surface of the bottom plate 410 has a first receiving groove 411 having a long bar shape and used for receiving a zipper tape of a zipper, and a second receiving groove 412 located at one end of the first receiving groove 411 and used for receiving a slider of the zipper, and the bottom surface of the first receiving groove 411 has a plurality of first air suction holes.

As shown in fig. 1 and 2, the first air suction base 430a and the second air suction base 430b are both connected to the bottom surface of the first receiving groove 411, the splicing seam of the first air suction base 430a and the second air suction base 430b is located on the major axis of the first receiving groove 411, the upper surface of the first air suction base 430a and the upper surface of the second air suction base 430b form a V-shaped groove, and the first air suction base 430a, the second air suction base 430b and the inner wall of the first receiving groove 411 have a gap therebetween, and the gap forms a first gap channel 413. The upper surface of the first air suction base 430a and the upper surface of the second air suction base 430b are provided with a plurality of air suction holes 431 extending to the bottom surface of the base plate 410.

One side edge of the positioning plate 420 is connected to a connection portion between the first suction base 430a and the second suction base 430 b.

The cover plate has two abdicating channels, which correspond to the two first slot channels 413, respectively, when the cover plate is covered on the upper surface of the bottom plate 410.

Further, in one embodiment, the positioning plate 420 is perpendicular to the bottom surface of the first receiving groove 411.

Further, in an embodiment, the upper surface of the bottom plate 410 further has two second slot channels 414, and the two second slot channels 414 are distributed at two sides of the second receiving groove 412 and respectively communicate with the two first slot channels 413; the relief lane matches the first slot lane 413 and the second slot lane 414.

Further, in one embodiment, the two second slot passages 414 are gradually far from the second receiving groove 412 from one end close to the first slot passage 413 to the opposite end.

Further, in one embodiment, the top of the positioning plate 420 is lower than the upper surface of the bottom plate 410.

Further, in one embodiment, the positioning plate 420 has a long bar shape, one longer side edge of the positioning plate 420 is connected to the connection between the first suction base 430a and the second suction base 430b, and two ends of the positioning plate 420 are aligned with two ends of the first suction base 430a, respectively.

The sewing device 200 and the material transferring device 300 are both disposed on the machine 100. Bottom plate 410 of cut-part zip fastener piece mould 400 is connected on moving material device 300, moves material device 300 and is used for driving bottom plate 410 and removes according to predetermineeing the orbit, and sewing device 200 is used for cut-part and the zip fastener on sewing bottom plate 410.

The cut piece zipper seam splicing mechanism 10 related to the embodiment relates to a cut piece zipper seam splicing method when used for splicing a cut piece and a zipper.

A splicing method of a cut piece zipper specifically comprises the following steps:

after the two cut-parts are folded upwards into the seam allowance according to the preset size, the folded edges are respectively aligned with the positioning plate 420, and the first air suction hole sucks air and enables the air suction hole 431 to suck air so as to fix the folded parts of the two cut-parts in an adsorption manner.

The zipper strips of the zipper are arranged on the folding parts of the two cut pieces, the middle parts of the zipper strips are aligned to the positioning plate 420, and the zipper heads of the zipper are positioned in the second accommodating groove 412.

The cover panel is covered over the zipper and the two flaps.

The material moving device 300 drives the bottom plate 410 to move according to a preset track.

The sewing device 200 sews the two panels and the zipper on the bottom panel 410.

The split sheet zipper splicing and sewing die 400 is provided with the first air suction seat 430a and the second air suction seat 430b which form the V-shaped grooves, after the opening of the split sheet is folded, the first air suction seat 430a and the second air suction seat 430b are aligned with the positioning plate 420, the upper surface of the first air suction seat 430a and the upper surface of the second air suction seat 430b are inclined towards the lower part of the positioning plate 420, so that the folding parts after the opening of the split sheet are distributed along the surface of the positioning plate 420, and relative to the horizontal plane, the opening part of the split sheet extends for the length of an inclined plane, more of the opening part of the split sheet can enter the inner side of the first sewing channel 413 than the horizontal position, and after sewing, the opening part of the split sheet can shield zipper teeth of the zipper, and avoid the phenomenon that the zipper leaks outwards. In addition, since the positioning plate 420 is located on the central axis of the first receiving groove 411, the zipper will not be deviated, and the situation of large and small sides will not occur. Foretell cut-parts zip fastener piece mould 400 utilizes the mould to adorn the zip fastener, and production efficiency is high, can improve sewing quality and stable in quality, improves production efficiency.

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 express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (7)

1. A cut-part zipper splicing and sewing die is characterized by comprising a bottom plate, a positioning plate, a first air suction seat, a second air suction seat and a cover plate; the upper surface of the bottom plate is provided with a first strip-shaped accommodating groove for accommodating a zipper strip of a zipper and a second accommodating groove which is positioned at one end of the first accommodating groove and used for accommodating a zipper head of the zipper, and the bottom surface of the first accommodating groove is provided with a plurality of first air suction holes;

the first air suction seat and the second air suction seat are connected to the bottom surface of the first accommodating groove, the splicing seam of the first air suction seat and the second air suction seat is located on the major axis of the first accommodating groove, the upper surface of the first air suction seat and the upper surface of the second air suction seat form a V-shaped groove, and intervals are formed between the first air suction seat and the second air suction seat and the inner wall of the first accommodating groove respectively and form a first seam channel; the upper surface of the first air suction seat and the upper surface of the second air suction seat are provided with a plurality of air suction holes extending to the bottom surface of the bottom plate;

one side edge of the positioning plate is connected to the joint between the first air suction seat and the second air suction seat;

the cover plate is provided with two abdicating channels, when the cover plate covers the upper surface of the bottom plate, the two abdicating channels respectively correspond to the two first seam channels, the upper surface of the bottom plate is also provided with two second seam channels, and the two second seam channels are distributed on two sides of the second accommodating groove and are respectively communicated with the two first seam channels; the abdication channel is matched to the first slot channel and the second slot channel.

2. The cut piece zipper splicing and sewing mold according to claim 1, wherein the positioning plate is perpendicular to the bottom surface of the first accommodating groove.

3. The cut piece zipper seam splicing mold according to claim 1, wherein two of the second seam channels are gradually away from the second accommodating groove from one end close to the first seam channel to the opposite other end.

4. The cut piece zipper seam splicing mold according to claim 1 or 2, wherein the top of the positioning plate is lower than the upper surface of the bottom plate.

5. The cut piece zipper splicing and sewing die for the zipper according to claim 1 or 2, wherein the positioning plate is in a long strip shape, the longer edge of the positioning plate is connected with the joint of the first air suction seat and the second air suction seat, and the two ends of the positioning plate are respectively aligned with the two ends of the first air suction seat and the second air suction seat.

6. A cut-part zipper seam splicing mechanism comprises a machine table, a sewing device and a material moving device, and is characterized by further comprising a cut-part zipper seam splicing mould according to any one of claims 1-5; the sewing device and it all establishes to move the material device on the board, cut-parts zip fastener piece joint mould's bottom plate is connected move on the material device, it is used for driving to move the material device the bottom plate removes according to predetermineeing the orbit, the sewing device is used for the sewing cut-parts and zip fastener on the bottom plate.

7. A cut piece zipper splicing method, which is realized by using the cut piece zipper splicing mechanism of claim 6, and comprises the following steps:

after the two cut pieces are upwards folded into the sub-openings according to the preset size, respectively aligning the folded edges with the positioning plate, and sucking air through the air suction holes to adsorb and fix the folded parts of the two cut pieces;

placing zipper tapes of the zippers on the folding parts of the two cut pieces, aligning the middle parts of the zipper tapes to the positioning plate, and positioning zipper heads of the zippers in the second accommodating grooves;

covering a cover panel over the zipper and the two flaps;

the material moving device drives the bottom plate to move according to a preset track; the sewing device sews two of the cutting pieces on the bottom plate and the zipper.

Images