CN211112566U - Automatic sewing device for material folding mechanism and sleeve side cut pieces - Google Patents

Abstract

The utility model discloses a roll over material mechanism. This roll over material mechanism is including rolling over material base, holding plate, first shovel board, second shovel board, third shovel board, fourth shovel board, locating plate and establishing press material drive unit, shovel board drive unit, location drive unit on rolling over the material base, be provided with the mandrel that is used for placing the mandrel on rolling over the material base and place the position, press material drive unit and be used for driving the holding plate motion in order to push down the sleeve side cut-parts on the mandrel, shovel board drive unit is used for driving first shovel board, second shovel board, third shovel board and the fourth shovel board motion in order to realize the folding cut-parts of formation of sleeve side cut-parts, location drive unit is used for driving the locating plate motion is in order to push down folding cut-parts. The automatic sewing device for the sleeve side cut pieces comprises a machine table, a material folding mechanism, a feeding mechanism and a sewing mechanism. This automatic sewing device of sleeve side cut-parts can improve product quality uniformity, production efficiency height and reduce workman intensity of labour.

Description

Automatic sewing device for material folding mechanism and sleeve side cut pieces

Technical Field

The utility model relates to a textile sector especially relates to a roll over material mechanism and automatic sewing device of sleeve side cut-parts.

Background

At present, in the traditional clothing making process, the sleeve side sewing procedure is that workers sew required cut pieces according to the shape of a sleeve side paper pattern matched with a clothing sewing machine, and the processing mode has the defects that the uniformity of the manufactured quality cannot be ensured, the efficiency is too low, the technical requirement on the workers is high, and the labor intensity of the workers is increased.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a material folding mechanism and an automatic sleeve side panel sewing device which can improve the consistency of product quality, have high production efficiency and reduce the labor intensity of workers.

The utility model provides a roll over material mechanism, includes roll over material base, holding plate, first shovel board, second shovel board, third shovel board, fourth shovel board, locating plate and establishes roll over material drive unit, shovel board drive unit, the location drive unit on the material base, roll over and be provided with the mandrel that is used for placing the mandrel on the material base and place the position, it is used for driving to press the holding plate motion is in order to push down the sleeve side cut-parts on the mandrel to press the material drive unit, shovel board drive unit is used for driving first shovel board second shovel board third shovel board and fourth shovel board motion is in order to realize the folding cut-parts that form of sleeve side cut-parts, location drive unit is used for driving the locating plate motion is in order to push down folding cut-parts.

In one embodiment, the first blade and the second blade are disposed opposite to each other, and the third blade and the fourth blade are both located at one end of the first blade.

In one embodiment, the blade driving component includes a first blade driving element, a second blade driving element, a third blade driving element, and a fourth blade driving element, which are disposed on the material folding base, the first blade driving element is connected to the first blade, the second blade driving element is connected to the second blade, the third blade driving element is connected to the third blade, and the fourth blade driving element is connected to the fourth blade.

In one embodiment, the material folding mechanism further comprises a positioning arm and a positioning seat mounted on the material folding base, the positioning arm is rotatably connected to the positioning seat, the positioning plate and the positioning driving part are respectively connected to two sides of the positioning arm, and the positioning driving part is used for driving the positioning arm to rotate so as to drive the positioning plate to move.

An automatic sewing device for sleeve side cut pieces comprises a machine table, a feeding mechanism, a sewing mechanism and the material folding mechanism, wherein a working table surface is arranged on the machine table; the material folding mechanism is used for folding the sleeve side cut pieces to form folded cut pieces; the feeding mechanism is arranged on the machine table and connected to the material folding base, and the feeding mechanism is used for driving the material folding base to move relative to the working table; the sewing mechanism is arranged on the machine platform and used for sewing the folding cut pieces.

In one embodiment, the work table top and the material folding base are both provided with air suction holes, and the air suction holes in the work table top correspond to the air suction holes in the material folding base.

In one embodiment, the automatic sleeve side panel sewing device further comprises a suction fan, the suction fan is arranged on the machine table, and the suction fan is communicated with the suction hole in the workbench surface through a suction pipe.

In one embodiment, the feeding mechanism comprises a feeding driving component, and the feeding driving component is used for driving the material folding base to move relative to the working table.

In one embodiment, the feeding mechanism further comprises a feeding base, the feeding base is slidably connected to the working table, the material folding base is connected to the feeding base, and the feeding driving component is connected to the feeding base to drive the feeding base to move.

In one embodiment, the feeding mechanism further comprises a feeding guide rail, the feeding guide rail is arranged on the working table, and the feeding base is connected to the feeding guide rail in a sliding manner.

In one embodiment, the bottom of the machine platform is connected with a plurality of casters.

The utility model discloses an automatic sewing device of sleeve side cut-parts can improve product quality uniformity, production efficiency height and reduce workman intensity of labour. The utility model discloses an automatic sewing device of sleeve side cut-parts is when being used for sewing sleeve side process, the workman that needs among the traditional approach cooperates sewing cut-parts according to sleeve side paper pattern appearance, only need the workman will treat that the sewing cut-parts is put the preset position on the mandrel, the sewing cut-parts is treated to rethread folding mechanism and shovels the book, the folding cut-parts of new city predetermined shape, rethread feeding mechanism will fold the cut-parts and send sewing mechanism department to, the folding cut-parts of sewing mechanism sewing, obtain the sleeve side cut-parts after the sewing, the quality uniformity of the sleeve side cut-parts that obtains, machining efficiency, low to workman's technical requirement, reduce workman's intensity of labour.

The utility model discloses an automatic sewing device of sleeve side cut-parts realizes pressing the material and the location of the folding cut-parts after the locating plate to folding through setting up positioning arm and positioning seat to reset is taken out from folding cut-parts in first shovel board, second shovel board, third shovel board, fourth shovel board, and the shape of folding cut-parts is not influenced.

The utility model discloses an automatic sewing device of sleeve side cut-parts realizes fixed the absorption of the cut-parts on the mandrel through setting up on the table surface and roll over the hole of induced drafting on the material base, improves the stability of cut-parts.

The utility model discloses an automatic sewing device of sleeve side cut-parts has improved cut-parts lateral shifting's stability through setting up the pay-off guide rail, and the pay-off guide rail sets up on table surface, and pay-off base sliding connection is in the pay-off guide rail, rolls over the material base and slides along the pay-off guide rail, and moving line is single, and the cut-parts can directly get into sewing mechanism department with the state after folding.

Drawings

Fig. 1 is a schematic view of an automatic sleeve side panel sewing device according to an embodiment of the present invention;

FIG. 2 is a schematic view of a portion of the automatic sleeve side panel stitching apparatus shown in FIG. 1;

fig. 3 is a schematic view of a material folding mechanism of the automatic sleeve side panel sewing device shown in fig. 1.

Description of the reference numerals

10: an automatic sewing device for sleeve side cut pieces; 100: a machine platform; 110: a work table; 111: an air suction hole; 200: a material folding mechanism; 210: a material folding base; 220: a material pressing plate; 231: a first blade; 232: a second blade; 233: a third blade; 234: a fourth blade; 240: positioning a plate; 250: a swaging drive component; 261: a first blade drive element; 262: a second blade drive element; 263: a third blade drive element; 264: a fourth blade drive element; 270: positioning a drive member; 280: a positioning arm; 290: positioning seats; 300: a feeding mechanism; 310: a feeding base; 320: a feeding guide rail; 400: a sewing mechanism; 500: a control mechanism; 600: a suction fan; 700: and a display mechanism.

Detailed Description

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

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

Referring to fig. 1, an embodiment of the present invention provides an automatic sleeve side panel sewing device 10, which includes a machine table 100, a material folding mechanism 200, a feeding mechanism 300, a sewing mechanism 400 and a control mechanism 500.

The machine 100 is provided with a working table 110.

The material folding mechanism 200 includes a material folding base 210, a material pressing plate 220, a first blade 231, a second blade 232, a third blade 233, a fourth blade 234, a positioning plate 240, and a material pressing driving part 250, a blade driving part, and a positioning driving part 270 provided on the material folding base 210. The material folding base 210 is provided with a core mold placing position for placing a core mold. The core mold placing position on the material folding base 210 is provided with a through groove, and the through groove is used for clamping the core mold.

The material-pressing driving member 250 serves to drive the material-pressing plate 220 to move to press the sleeve-side panels on the core mold. The number of the nip plates 220 is at least two. The nip plate 220 may be a steel sheet.

The blade driving member is used for driving the first blade 231, the second blade 232, the third blade 233 and the fourth blade 234 to move so as to fold the sleeve side panels to form folded panels, and the positioning driving member 270 is used for driving the positioning plate 240 to move so as to press the folded panels. The control mechanism 500 is electrically connected to the pressing drive unit 250, the blade drive unit, and the positioning drive unit 270. First blade 231, second blade 232, third blade 233, and fourth blade 234 may each be a steel sheet.

The feeding mechanism 300 is disposed on the machine 100, and the feeding mechanism 300 is connected to the material folding base 210. The feeding mechanism 300 is used for driving the material folding base 210 to move relative to the work table 110. The sewing mechanism 400 is provided on the machine 100 for sewing the folded cut pieces.

In a specific example, first blade 231 is disposed opposite to second blade 231, and third blade 233 and fourth blade 234 are both disposed at one end of first blade 231.

Further, the blade driving part includes a first blade driving element 261, a second blade driving element 262, a third blade driving element 263, and a fourth blade driving element 264 provided on the folder base 210. First blade drive element 261 is coupled to first blade 231, second blade drive element 262 is coupled to second blade 232, third blade drive element 263 is coupled to third blade 233, and fourth blade drive element 264 is coupled to fourth blade 234. First blade drive element 261, second blade drive element 262, third blade drive element 263, and fourth blade drive element 264 are all electrically connected to control mechanism 500.

In one particular example, the folder mechanism 200 further includes a locator arm 280 and a locator seat 290 mounted on the folder base 210. The positioning arm 280 is rotatably connected to the positioning seat 290, the positioning plate 240 and the positioning driving member 270 are respectively connected to two sides of the positioning arm 280, and the positioning driving member 270 is used for driving the positioning arm 280 to rotate so as to drive the positioning plate 240 to move. The utility model discloses an automatic sewing device 10 of sleeve side cut-parts realizes pressing the material and the location of the folding cut-parts after the locating plate 240 to fold through setting up location arm 280 and positioning seat 290 to reset is taken out from folding cut-parts in first shovel 231, second shovel 232, third shovel 233, fourth shovel 234, and folding cut-parts's shape is not influenced.

Furthermore, air suction holes 111 are formed in the working table 110 and the material folding base 210, and the air suction holes 111 in the working table 110 correspond to the air suction holes 111 in the material folding base 210. The number of the air suction holes 111 on the working table 110 is multiple. The utility model discloses an automatic sewing device 10 of sleeve side cut-parts realizes fixed the absorption of the cut-parts on the mandrel through setting up on table surface 110 and roll over the hole 111 that induced drafts on the material base 210, improves the stability of cut-parts.

In a specific example, the automatic sleeve side panel sewing device 10 further includes a suction fan 600. The suction fan 600 is disposed on the machine platform 100, and the suction fan 600 is communicated with the suction hole 111 on the working platform 110 through a suction pipe. The suction fan 600 is electrically connected to the control mechanism 500.

Further, the feeding mechanism 300 includes a feeding driving component for driving the material folding base 210 to move relative to the work table 110.

Further, the feeding mechanism 300 further includes a feeding base 310. The feeding base 310 is slidably connected to the working table 110, the material folding base 210 is connected to the feeding base 310, and the feeding driving component is connected to the feeding base 310 for driving the feeding base 310 to move. The feeding base 310 has a flat plate shape.

In a particular example, the feed mechanism 300 further includes a feed rail 320. The feeding guide rail 320 is arranged on the working platform 110, and the feeding base 310 is connected to the feeding guide rail 320 in a sliding manner. The number of the feeding rails 320 is at least two, and fig. 2 shows two feeding rails 320, the two feeding rails 320 are arranged in a flat manner, and the two feeding rails 320 extend to the feeding mechanism 300. The utility model discloses an automatic sewing device 10 in sleeve side cut-parts has improved cut-parts lateral shifting's stability through setting up pay-off guide rail 320, and pay-off guide rail 320 sets up on table surface 110, and pay-off base 310 sliding connection is in pay-off guide rail 320, rolls over material base 210 and slides along pay-off guide rail 320, and it is single to remove the circuit, and the cut-parts can directly get into sewing mechanism 400 department with the state after folding.

Preferably, a plurality of casters are connected to the bottom of the machine platform 100, and fig. 1 and 2 show four casters, which are respectively distributed around the bottom of the machine platform 100. The caster wheels are arranged to move the machine 100, so that the position of the machine 100 can be changed conveniently. Preferably, the caster is a self-locking caster.

Further, referring to fig. 1 and 2, the automatic sewing device for sleeve side panels 10 further includes a display mechanism 700, the display mechanism 700 is mounted on the sewing mechanism 400, and the display mechanism 700 is electrically connected to the control mechanism 500.

When the automatic sewing device 10 for sleeve side cut pieces is used for processing the sleeve side cut pieces, the automatic sewing device comprises the following steps:

the worker places the cut pieces to be sewn on the core mold at predetermined positions.

The control mechanism 500 controls the material pressing driving member 250 to drive the material pressing plate 220 to move so as to press the cut pieces on the core mold.

Control mechanism 500 controls first shovel board drive element 261 to drive first shovel board 231 to shovel one of them edge of cutting piece and realize folding, control mechanism 500 controls second shovel board drive element 262 to drive second shovel board 232 to shovel the second edge of cutting piece and realize folding, control mechanism 500 controls third shovel board drive element 263 to drive third shovel board 233 to shovel the third edge of cutting piece and realize folding, control mechanism 500 controls fourth shovel board drive element 264 to drive fourth shovel board 234 to shovel the fourth edge of cutting piece and realize folding, the folding cutting piece that forms of cutting piece is accomplished so.

The control mechanism 500 controls the positioning driving member 270 to drive the positioning arm 280 to rotate so as to drive the positioning plate 240 to move, and the positioning plate 240 presses the folded cut pieces.

The control mechanism 500 controls the feeding driving component to drive the material folding base 210 to move relative to the working table 110, and the material folding base 210 carries the folded cut pieces to move to the sewing mechanism 400.

The control mechanism 500 controls the sewing mechanism 400 to sew the folded cut pieces to obtain the sewn sleeve side cut pieces. The utility model discloses an automatic sewing device of sleeve side cut-parts 10 can improve product quality uniformity, production efficiency height and reduce workman intensity of labour. The utility model discloses an automatic sewing device 10 of sleeve side cut-parts is when being used for sewing sleeve side process, the workman that needs among the traditional approach cooperates sewing cut-parts according to sleeve side paper pattern appearance, only need the workman will treat that the sewing cut-parts is put the preset position on the mandrel, the rethread is rolled over material mechanism 200 and is treated the sewing cut-parts and shovels and roll over, the folding cut-parts of new city predetermined shape, rethread feeding mechanism 300 will fold the cut-parts and send sewing mechanism 400 department to, the folding cut-parts of sewing mechanism 400 sewing, obtain the sleeve side cut-parts after the sewing, the quality uniformity of the sleeve side cut-parts that obtain, machining efficiency, low to workman's technical requirement, reduce workman's intensity of labour.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (11)

1. A material folding mechanism is characterized by comprising: roll over material base, pressure flitch, first shovel board, second shovel board, third shovel board, fourth shovel board, locating plate and establish press material drive unit, shovel board drive unit, location drive unit on rolling over the material base, it places the position to be provided with the mandrel that is used for placing the mandrel on the material base to roll over, press material drive unit and be used for the drive press the flitch motion in order to push down the sleeve side cut-parts on the mandrel, shovel board drive unit is used for the drive first shovel board second shovel board third shovel board and fourth shovel board motion is in order to realize the folding piece-parts that form of sleeve side cut-parts, location drive unit is used for the drive the locating plate motion is in order to push down folding cut-parts.

2. The material folding mechanism according to claim 1, wherein the first blade and the second blade are disposed opposite to each other, and the third blade and the fourth blade are both located at one end of the first blade.

3. The material folding mechanism according to claim 1, wherein the blade driving part includes a first blade driving element, a second blade driving element, a third blade driving element and a fourth blade driving element provided on the material folding base, the first blade driving element is connected to the first blade, the second blade driving element is connected to the second blade, the third blade driving element is connected to the third blade, and the fourth blade driving element is connected to the fourth blade.

4. The material folding mechanism according to any one of claims 1 to 3, further comprising a positioning arm and a positioning seat mounted on the material folding base, wherein the positioning arm is rotatably connected to the positioning seat, the positioning plate and the positioning driving part are respectively connected to two sides of the positioning arm, and the positioning driving part is configured to drive the positioning arm to rotate so as to drive the positioning plate to move.

5. An automatic sewing device for sleeve side cut pieces is characterized by comprising a machine table, a feeding mechanism, a sewing mechanism and the material folding mechanism of any one of claims 1 to 4, wherein a working table surface is arranged on the machine table; the material folding mechanism is used for folding the sleeve side cut pieces to form folded cut pieces; the feeding mechanism is arranged on the machine table and connected to the material folding base, and the feeding mechanism is used for driving the material folding base to move relative to the working table; the sewing mechanism is arranged on the machine platform and used for sewing the folding cut pieces.

6. The automatic sleeve side panel sewing device according to claim 5, wherein the table top and the material folding base are provided with air suction holes, and the air suction holes on the table top correspond to the air suction holes on the material folding base.

7. The automatic sleeve side cut-parts sewing device according to claim 6, wherein the automatic sleeve side cut-parts sewing device further comprises a suction fan, the suction fan is arranged on the machine table, and the suction fan is communicated with a suction hole in the workbench surface through a suction pipe.

8. The automatic sleeve side panel sewing device according to any one of claims 5 to 7, wherein the feeding mechanism includes a feeding driving member for driving the material folding base to move relative to the table top.

9. The automatic sleeve side panel sewing device of claim 8, wherein the feeding mechanism further comprises a feeding base, the feeding base is slidably connected to the worktable, the material folding base is connected to the feeding base, and the feeding driving member is connected to the feeding base for driving the feeding base to move.

10. The automatic sleeve side panel sewing device of claim 9, wherein the feeding mechanism further comprises a feeding guide rail, the feeding guide rail is disposed on the table top, and the feeding base is slidably connected to the feeding guide rail.

11. The automatic sleeve side panel sewing device according to any one of claims 5 to 7, wherein a plurality of casters are connected to the bottom of the machine base.

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