CN113005655B - Continuous processing device and method for folded conjoined pocket - Google Patents

Abstract

The invention relates to the technical field of processing of folded conjoined pockets, in particular to a continuous processing device and a continuous processing method of the folded conjoined pockets, wherein the continuous processing device comprises a rack, and a material pressing mechanism, a first folding mechanism and a second folding mechanism which are respectively arranged on the rack; the rack is provided with a material containing platform; the swaging mechanism comprises a first cylinder, a first movable frame, a second cylinder and a swaging plate. The continuous processing device and the continuous processing method for the hem connected pocket provided by the invention cancel the traditional mode of manually drawing a sewing route and sewing a hem, eliminate the processing error caused by manual operation, only need to repeat one or more steps when the hem type of the pocket is changed, and do not need to repeatedly draw the route and sewing operation.

Description

Continuous processing device and method for folded conjoined pocket

Technical Field

The invention relates to the technical field of processing of folded conjoined pockets, in particular to a continuous processing device and a continuous processing method for the folded conjoined pockets.

Background

When processing hem disjunctor pocket, the tradition practice is drawn the sewing route on the cloth of waiting to sew through the manual work first, then sews according to the sewing route, ensures accurate sewing. The mode often appears the manual operation error, leads to the problem that the sewing route is inaccurate, need rework, changes in the hem form especially, still needs many times to operate repeatedly when needing many parallel sewing routes, not only takes time and labor, the operation degree of difficulty is big to drawing level to the operator has higher requirement.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: provides a continuous processing device and a continuous processing method for the folded conjoined pocket with high processing precision.

In order to solve the technical problems, the invention adopts the technical scheme that: a continuous processing device for a folded conjoined pocket comprises a rack, and a material pressing mechanism, a first folding mechanism and a second folding mechanism which are respectively arranged on the rack;

the frame is provided with a material containing table, the material pressing mechanism, the first edge folding mechanism and the second edge folding mechanism are all located above the material containing table, and the first edge folding mechanism and the second edge folding mechanism are located on two opposite sides of the material pressing mechanism respectively;

the material pressing mechanism comprises a first air cylinder, a first moving frame, a second air cylinder and a material pressing plate, the first air cylinder is horizontally arranged on the rack and is connected with the first moving frame, the second air cylinder is vertically arranged on the first moving frame and is connected with the material pressing plate, and the material pressing plate faces the material containing table;

the first flanging mechanism comprises a third cylinder, a second moving frame, a fourth cylinder, a material extruding plate, a fifth cylinder and a first flanging plate, the third cylinder is horizontally arranged on the rack, the third cylinder is connected with the second moving frame, the fourth cylinder is vertically arranged on the second moving frame, the fourth cylinder is connected with the material extruding plate, the fifth cylinder is obliquely arranged on the second moving frame, the fifth cylinder is connected with the first flanging plate, and the first flanging plate faces to one side of the material pressing mechanism;

the second flanging mechanism comprises a sixth cylinder and a second flanging plate, the sixth cylinder is horizontally arranged on the first movable frame, the sixth cylinder is connected with the second flanging plate, and the second flanging plate faces one side where the material pressing mechanism is located.

The present invention also provides: a continuous processing method of a folded conjoined pocket specifically comprises the following steps:

s1, placing the polyester cloth on a material containing table, driving a first moving frame to move to a position vertically above the polyester cloth by using a first cylinder, and driving a pressure plate to tightly press the polyester cloth on the material containing table by using a second cylinder;

s2, driving the extruding plate to abut against the surface of the polyester fabric by using a fourth cylinder, driving the second moving frame to move to one side where the material pressing plate is located by using a third cylinder, driving the extruding plate to extrude the polyester fabric out of the first edge to be folded, driving the first edge folding plate to fold the first edge to be folded to one side where the material pressing plate is located by using a fifth cylinder, driving the first moving frame to move to one side far away from the extruding plate by using the first cylinder, driving the first moving frame to move to one side where the material extruding plate is located by using the first cylinder after the material pressing plate is driven to be lifted by using the second cylinder, and driving the material pressing plate to tightly press the first edge to be folded to the material containing table by using the second cylinder;

s3, driving the second moving frame to move to one side far away from the material pressing plate by the third cylinder, driving the second moving frame to move to one side where the material pressing plate is located by the third cylinder, driving the material extruding plate to extrude the polyester fabric into a second part to be flanged, and driving the second flanging plate to fold the second part to be flanged to one side where the material extruding plate is located by the sixth cylinder.

The invention has the beneficial effects that: when the continuous processing device is used, a polyester fabric is placed on a material containing table of the rack, a first air cylinder is used for driving a first moving frame to move to a position above the polyester fabric, and a second air cylinder is used for driving a material pressing plate to tightly press the polyester fabric on the material containing table; then, a fourth cylinder is used for driving the extruding plate to abut against the surface of the polyester fabric, a third cylinder is used for driving a second moving frame to move towards one side where the pressing plate is located, the extruding plate is driven to extrude the polyester fabric out of a first edge portion to be folded, a fifth cylinder is used for driving a first edge folding plate to fold the first edge portion to be folded towards one side where the pressing plate is located, a first cylinder is used for driving the first moving frame to move towards one side away from the extruding plate, after the pressing plate is driven to lift by the second cylinder, the first cylinder is used for driving the first moving frame to move towards one side where the extruding plate is located, and a second cylinder is used for driving the pressing plate to press the first edge portion to be folded onto the material containing table; and finally, driving the second moving frame to move towards one side far away from the material pressing plate by using a third cylinder, driving the second moving frame to move towards one side where the material pressing plate is located by using the third cylinder, driving the material extruding plate to extrude the polyester fabric into a second to-be-folded edge part, and driving the second to-be-folded edge part to be folded towards one side where the material extruding plate is located by using a sixth cylinder to drive the second to-be-folded edge part, so that the folded edges on two sides of the pocket are finished. The continuous processing device and the continuous processing method for the hem connected pocket provided by the invention cancel the traditional mode of manually drawing a sewing route and sewing a hem, eliminate the processing error caused by manual operation, only need to repeat one or more steps when the hem type of the pocket is changed, and do not need to repeatedly draw the route and sewing operation.

Drawings

FIG. 1 is a schematic structural view of a continuous processing device for hemmed conjoined pockets according to an embodiment of the present invention;

FIG. 2 is another schematic structural diagram of the continuous processing device for the hemmed conjoined pocket according to the embodiment of the invention;

FIG. 3 is a front view of a continuous processing device for hemmed conjoined pockets according to an embodiment of the present invention;

FIG. 4 is a side view of a continuous processing apparatus for hemmed connected pockets according to an embodiment of the present invention;

FIG. 5 is another side view of the apparatus for continuously processing hemmed connected pockets in accordance with the embodiment of the present invention;

FIG. 6 is a top view of the continuous processing device for hemmed conjoined pockets according to the embodiment of the present invention;

description of reference numerals:

1. a frame; 11. a material holding table;

2. a material pressing mechanism; 21. a first cylinder; 22. a first movable frame; 23. a second cylinder; 24. a material pressing plate;

3. a first edge folding mechanism; 31. a third cylinder; 32. a second movable frame; 33. a fourth cylinder; 34. extruding a material plate; 35. a fifth cylinder; 36. a first hem plate;

4. a second flanging mechanism; 41. a sixth cylinder; 42. a second flange plate;

5. a blank pressing mechanism; 51. a seventh cylinder; 52. a third movable frame; 53. an eighth cylinder; 54. pressing an edge plate;

6. a rolling mechanism; 61. a compression roller set;

7. a first cutting mechanism; 71. a first cutting machine;

8. a second cutting mechanism; 81. a ninth cylinder; 82. a second cutter.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 6, a continuous processing device for a hem-connected pocket comprises a frame, and a pressing mechanism, a first hem mechanism and a second hem mechanism which are respectively arranged on the frame;

the frame is provided with a material containing table, the material pressing mechanism, the first edge folding mechanism and the second edge folding mechanism are all located above the material containing table, and the first edge folding mechanism and the second edge folding mechanism are located on two opposite sides of the material pressing mechanism respectively;

the material pressing mechanism comprises a first air cylinder, a first moving frame, a second air cylinder and a material pressing plate, the first air cylinder is horizontally arranged on the rack and is connected with the first moving frame, the second air cylinder is vertically arranged on the first moving frame and is connected with the material pressing plate, and the material pressing plate faces the material containing table;

the first flanging mechanism comprises a third cylinder, a second moving frame, a fourth cylinder, a material extruding plate, a fifth cylinder and a first flanging plate, the third cylinder is horizontally arranged on the rack, the third cylinder is connected with the second moving frame, the fourth cylinder is vertically arranged on the second moving frame, the fourth cylinder is connected with the material extruding plate, the fifth cylinder is obliquely arranged on the second moving frame, the fifth cylinder is connected with the first flanging plate, and the first flanging plate faces to one side of the material pressing mechanism;

the second flanging mechanism comprises a sixth cylinder and a second flanging plate, the sixth cylinder is horizontally arranged on the first movable frame, the sixth cylinder is connected with the second flanging plate, and the second flanging plate faces one side where the material pressing mechanism is located.

From the above description, the beneficial effects of the present invention are: when the continuous processing device is used, a polyester fabric is placed on a material containing table of the rack, a first air cylinder is used for driving a first moving frame to move to a position above the polyester fabric, and a second air cylinder is used for driving a material pressing plate to tightly press the polyester fabric on the material containing table; then, a fourth cylinder is used for driving the extruding plate to abut against the surface of the polyester fabric, a third cylinder is used for driving a second moving frame to move towards one side where the pressing plate is located, the extruding plate is driven to extrude the polyester fabric out of a first edge portion to be folded, a fifth cylinder is used for driving a first edge folding plate to fold the first edge portion to be folded towards one side where the pressing plate is located, a first cylinder is used for driving the first moving frame to move towards one side away from the extruding plate, after the pressing plate is driven to lift by the second cylinder, the first cylinder is used for driving the first moving frame to move towards one side where the extruding plate is located, and a second cylinder is used for driving the pressing plate to press the first edge portion to be folded onto the material containing table; and finally, driving the second moving frame to move towards one side far away from the material pressing plate by using a third cylinder, driving the second moving frame to move towards one side where the material pressing plate is located by using the third cylinder, driving the material extruding plate to extrude the polyester fabric into a second to-be-folded edge part, and driving the second to-be-folded edge part to be folded towards one side where the material extruding plate is located by using a sixth cylinder to drive the second to-be-folded edge part, so that the folded edges on two sides of the pocket are finished. The continuous processing device and the continuous processing method for the hem connected pocket provided by the invention cancel the traditional mode of manually drawing a sewing route and sewing a hem, eliminate the processing error caused by manual operation, only need to repeat one or more steps when the hem type of the pocket is changed, and do not need to repeatedly draw the route and sewing operation.

Further, the pressure plate is a hot pressing plate.

According to the description, the dacron cloth is not prone to deformation after hot pressing, the edge folding shape of the connected pocket is kept, and when other materials are adopted, the hot pressing temperature and time can be adjusted adaptively, so that the edge folding effect is improved.

Further, an included angle between the material extruding plate and the horizontal plane and an included angle between the fifth cylinder and the horizontal plane are both greater than or equal to 5 degrees.

According to the above description, the material extruding plate and the fifth cylinder are arranged obliquely, when the inclination angle of the material extruding plate is too large, the cloth is easily damaged, but the angle of the material extruding plate is too small, the material extruding plate is easy to slip, the edge folding effect is reduced, the inclination angle of the first edge folding plate is too small, the edge folding part cannot be pushed to one side and shaped, and the subsequent edge pressing operation is not facilitated.

The device comprises a rack, a material containing platform, a third moving frame, a seventh cylinder, a third moving frame, an eighth cylinder and a blank pressing plate, wherein the blank pressing mechanism comprises the seventh cylinder, the third moving frame, the eighth cylinder and the blank pressing plate, the seventh cylinder is horizontally arranged on the rack, the seventh cylinder is connected with the third moving frame, the eighth cylinder is vertically arranged on the third moving frame, the eighth cylinder is connected with the blank pressing plate, and the blank pressing plate faces the material containing platform.

According to the above description, the seventh cylinder is used for driving the third movable frame to move along with the cloth, the eighth cylinder is used for driving the edge pressing plate to press and cover the cloth, and the effect of shaping and protecting the cloth after edge folding is achieved.

Furthermore, the first edge folding mechanism, the pressing mechanism and the second edge folding mechanism are sequentially arranged on the rack along a first horizontal direction, the two groups of edge folding mechanisms are respectively arranged on two opposite sides of the pressing mechanism along a second horizontal direction, and the second horizontal direction is perpendicular to the first horizontal direction.

From the above description, the two sets of edge pressing mechanisms are respectively used for fixing the edges of the two sides of the cloth, and the middle of the edge pressing mechanisms can be flexibly arranged according to the row number of the edge-folding conjoined pockets.

Further, the material pressing mechanism comprises a pressing roller set, the pressing roller set is arranged on the rack in a rotating mode along the axis of the material containing table, and the pressing roller set is located on one side, far away from the pressing mechanism, of the second flanging mechanism.

According to the description, the compression roller sets are arranged along the axis of the material containing table, and when the rows of the edge folding connected pockets are two, the compression roller sets perform secondary compression and fixation on the bottoms of the edge folding connected pockets on two sides at the axis.

Further, the compression roller group comprises more than two hot pressing rollers arranged along the axis of the material containing table in a staggered mode.

According to the above description, the hot-pressing rollers are arranged in a staggered manner, when the hot-pressing roller on one side of the axis carries out hot pressing on the staggered flanging connected pocket on the other side, the hot-pressing roller on the other side of the axis carries out hot pressing on the staggered flanging connected pocket on the other side, and therefore the continuity and consistency of the processing operation of the multi-row and multi-column flanging connected pocket are improved.

Further, still include first cutting mechanism, first cutting mechanism includes first cutting machine, first cutting machine sets up in the frame, first cutting machine is located the hem mechanism of second is kept away from press mechanism's one side, first cutting machine the cutting direction with the axis coplane of material holding platform.

From the above description, the cutting direction of the first cutting machine is coplanar with the axis of the material holding table, so as to cut the hemmed cloth into rows.

Further, still include the second and cut the mechanism, the second cuts the mechanism and includes ninth cylinder and second cutting machine, ninth cylinder level sets up in the frame, the ninth cylinder with the second cutting machine is connected, the cutting direction perpendicular to of second cutting machine the material holds the axis of platform.

As can be seen from the above description, the cutting direction of the second cutting machine is perpendicular to the axis of the material holding table, so as to cut the hemmed cloth into rows.

A continuous processing method of a folded conjoined pocket specifically comprises the following steps:

s1, placing the polyester cloth on a material containing table, driving a first moving frame to move to a position vertically above the polyester cloth by using a first cylinder, and driving a pressure plate to tightly press the polyester cloth on the material containing table by using a second cylinder;

s2, driving the extruding plate to abut against the surface of the polyester fabric by using a fourth cylinder, driving the second moving frame to move to one side where the material pressing plate is located by using a third cylinder, driving the extruding plate to extrude the polyester fabric out of the first edge to be folded, driving the first edge folding plate to fold the first edge to be folded to one side where the material pressing plate is located by using a fifth cylinder, driving the first moving frame to move to one side far away from the extruding plate by using the first cylinder, driving the first moving frame to move to one side where the material extruding plate is located by using the first cylinder after the material pressing plate is driven to be lifted by using the second cylinder, and driving the material pressing plate to tightly press the first edge to be folded to the material containing table by using the second cylinder;

s3, driving the second moving frame to move to one side far away from the material pressing plate by the third cylinder, driving the second moving frame to move to one side where the material pressing plate is located by the third cylinder, driving the material extruding plate to extrude the polyester fabric into a second part to be flanged, and driving the second flanging plate to fold the second part to be flanged to one side where the material extruding plate is located by the sixth cylinder.

From the above description, the beneficial effects of the present invention are: the continuous processing method of the hem conjoined pocket provided by the invention cancels the traditional mode of manually drawing a sewing route and sewing and wrapping edges, eliminates the processing error caused by manual operation, only needs to repeat one or more steps when the hem type of the pocket is changed, and does not need to repeatedly draw the route and sewing operation.

Referring to fig. 1 to 6, a first embodiment of the present invention is: a continuous processing device for a folded conjoined pocket comprises a frame 1, and a pressing mechanism 2, a first folding mechanism 3 and a second folding mechanism 4 which are respectively arranged on the frame 1;

the frame 1 is provided with a material containing table 11, the material pressing mechanism 2, the first edge folding mechanism 3 and the second edge folding mechanism 4 are all located vertically above the material containing table 11, and the first edge folding mechanism 3 and the second edge folding mechanism 4 are located on two opposite sides of the material pressing mechanism 2 respectively;

the material pressing mechanism 2 comprises a first cylinder 21, a first moving frame 22, a second cylinder 23 and a material pressing plate 24, a first material pressing plane is arranged at the bottom of the material pressing plate 24, the first cylinder 21 is horizontally arranged on the rack 1, the first cylinder 21 is connected with the first moving frame 22, the second cylinder 23 is vertically arranged on the first moving frame 22, the second cylinder 23 is connected with the material pressing plate 24, and the material pressing plate 24 faces the material containing platform 11;

the first flanging mechanism 3 comprises a third cylinder 31, a second moving frame 32, a fourth cylinder 33, a material extruding plate 34, a fifth cylinder 35 and a first flanging plate 36, the third cylinder 31 is horizontally arranged on the frame 1, the third cylinder 31 is connected with the second moving frame 32, the fourth cylinder 33 is vertically arranged on the second moving frame 32, the fourth cylinder 33 is connected with the material extruding plate 34, an anti-skid protective layer is arranged on the side edge of the material extruding plate 34 close to the material pressing plate 24, the fifth cylinder 35 is obliquely arranged on the second moving frame 32, the fifth cylinder 35 is connected with the first flanging plate 36, and the end surface of the first flanging plate 36 close to the side where the material pressing mechanism 2 is located is an oblique surface which inclines towards the material pressing mechanism 2;

the second flanging mechanism 4 comprises a sixth cylinder 41 and a second flanging plate 42, the sixth cylinder 41 is horizontally arranged on the first movable frame 22, the sixth cylinder 41 is connected with the second flanging plate 42, and the end face of the second flanging plate 42 close to one side of the swaging mechanism 2 is an inclined plane inclined to the swaging mechanism 2.

Referring to fig. 1 to 6, a second embodiment of the present invention is: the pressure plate 24 is a hot press plate. The included angle between the extruding plate 34 and the horizontal plane and the included angle between the fifth cylinder 35 and the horizontal plane are both greater than or equal to 5 degrees. Still include blank pressing mechanism 5, blank pressing mechanism 5 includes that seventh cylinder 51, third remove frame 52, eighth cylinder 53 and blank pressing plate 54, seventh cylinder 51 level sets up in frame 1, seventh cylinder 51 with third removes frame 52 and connects, eighth cylinder 53 is vertical to be set up on the third removes frame 52, eighth cylinder 53 with blank pressing plate 54 connects, blank pressing plate 54 orientation the material holds platform 11, and blank pressing plate 54's bottom is equipped with the second and presses the material plane. The first flanging mechanism 3, the pressing mechanism 2 and the second flanging mechanism 4 are sequentially arranged on the frame 1 in a first horizontal direction, the two groups of flanging mechanisms 5 are respectively arranged on two opposite sides of the pressing mechanism 2 in a second horizontal direction, and the second horizontal direction is perpendicular to the first horizontal direction. Still include the roll-in mechanism 6, the roll-in mechanism 6 includes compression roller group 61, compression roller group 61 is followed the axis rotation of material holding platform 11 sets up in frame 1, compression roller group 61 is located second flanging mechanism 4 keeps away from one side of swager mechanism 2. The press roller group 61 comprises more than two hot press rollers which are arranged along the axis of the material containing platform 11 in a left-right staggered manner. Still include first cutting mechanism 7, first cutting mechanism 7 includes first cutting machine 71, first cutting machine 71 sets up in the frame 1, first cutting machine 71 is located the hem mechanism 4 of second is kept away from one side of swager mechanism 2, the cutting direction of first cutting machine 71 with the axis coplane of material holding platform 11. Still include the second and cut mechanism 8, the second cuts mechanism 8 and includes ninth cylinder 81 and second cutting machine 82, ninth cylinder 81 level sets up in frame 1, ninth cylinder 81 with second cutting machine 82 connects, second cutting machine 82's cutting direction perpendicular to the axis of material holding platform 11.

Referring to fig. 1 to 6, a third embodiment of the present invention is: a continuous processing method of a folded conjoined pocket specifically comprises the following steps:

firstly, placing a polyester fabric on the material containing table 11, driving a first moving frame 22 to move to a position vertically above the polyester fabric by using a first air cylinder 21, and driving a material pressing plate 24 to tightly press the polyester fabric on the material containing table 11 by using a second air cylinder 23;

secondly, driving the material extruding plate 34 to abut against the surface of the polyester fabric by using the fourth cylinder 33, driving the second moving frame 32 to move towards one side where the material pressing plate 24 is located by using the third cylinder 31, driving the material extruding plate 34 to extrude the polyester fabric out of a first edge portion to be folded, driving the first edge portion to be folded to one side where the material pressing plate 24 is located by using the fifth cylinder 35, driving the first moving frame 22 to move towards one side far away from the material extruding plate 34 by using the first cylinder 21, driving the material pressing plate 24 to lift by using the second cylinder 23, driving the first moving frame 22 to move towards one side where the material extruding plate 34 is located by using the first cylinder 21, and driving the material pressing plate 24 to press the first edge portion to be folded to the material containing table 11 by using the second cylinder 23;

finally, after the third cylinder 31 is used for driving the second moving frame 32 to move towards the side far away from the material pressing plate 24, the third cylinder 31 is used for driving the second moving frame 32 to move towards the side where the material pressing plate 24 is located, the material extruding plate 34 is driven to extrude the dacron cloth out of the second part to be folded, and the sixth cylinder 41 is used for driving the second folding plate 42 to fold the second part to be folded towards the side where the material extruding plate 34 is located.

In conclusion, the invention provides a continuous processing device for hem conjoined pockets, which comprises a rack, and a material pressing mechanism, a first hemming mechanism and a second hemming mechanism which are respectively arranged on the rack, wherein when the device is used, a polyester cloth is placed on a material containing table of the rack, a first air cylinder is used for driving a first moving frame to move to a position vertically above the polyester cloth, and a second air cylinder is used for driving a material pressing plate to press the polyester cloth on the material containing table; then, a fourth cylinder is used for driving the extruding plate to abut against the surface of the polyester fabric, a third cylinder is used for driving a second moving frame to move towards one side where the pressing plate is located, the extruding plate is driven to extrude the polyester fabric out of a first edge portion to be folded, a fifth cylinder is used for driving a first edge folding plate to fold the first edge portion to be folded towards one side where the pressing plate is located, a first cylinder is used for driving the first moving frame to move towards one side away from the extruding plate, after the pressing plate is driven to lift by the second cylinder, the first cylinder is used for driving the first moving frame to move towards one side where the extruding plate is located, and a second cylinder is used for driving the pressing plate to press the first edge portion to be folded onto the material containing table; and finally, driving the second moving frame to move towards one side far away from the material pressing plate by using a third cylinder, driving the second moving frame to move towards one side where the material pressing plate is located by using the third cylinder, driving the material extruding plate to extrude the polyester fabric into a second to-be-folded edge part, and driving the second to-be-folded edge part to be folded towards one side where the material extruding plate is located by using a sixth cylinder to drive the second to-be-folded edge part, so that the folded edges on two sides of the pocket are finished. The continuous processing device and the continuous processing method for the hem connected pocket provided by the invention cancel the traditional mode of manually drawing a sewing route and sewing a hem, eliminate the processing error caused by manual operation, only need to repeat one or more steps when the hem type of the pocket is changed, and do not need to repeatedly draw the route and sewing operation. The dacron cloth is difficult to deform after hot pressing, is favorable for keeping the edge folding shape of the conjoined pocket, and can adaptively adjust the hot pressing temperature and time when other materials are adopted so as to improve the edge folding effect. Will extrude flitch and fifth cylinder slope setting, too big when crowded flitch inclination, cause the cloth to damage easily, nevertheless crowded material angle undersize takes place to skid again easily, reduces the hem effect, and first hem board inclination undersize can't push hem portion to one side and stereotype, is unfavorable for follow-up blank pressing operation. Utilize seventh cylinder drive third to remove the frame and follow the cloth motion to utilize eighth cylinder drive pressboard to press and cover the cloth, play the effect of design and protection to the cloth behind the hem. The two groups of edge pressing mechanisms are respectively used for fixing the edges of the two sides of the cloth in an edge pressing mode, and the middle of the edge pressing mechanisms can be flexibly arranged according to the row number of the edge-folding conjoined pockets. The compression roller set is arranged along the axis of the material containing table, and when the rows of the edge folding connected pockets are two rows, the compression roller set compresses and fixes the bottoms of the edge folding connected pockets on two sides at the axis for the second time. The hot-pressing roller adopts the dislocation set, when the hot-pressing roller on one side of the axis carries out hot pressing on the staggered folding edge connected pocket on one side, the hot-pressing roller on the other side of the axis carries out hot pressing on the staggered folding edge connected pocket on the other side, thus being beneficial to improving the continuity and consistency of the processing operation of the multi-row and multi-column folding edge connected pockets. The cutting direction of the first cutting machine is coplanar with the axis of the material containing table, and the first cutting machine is used for cutting the cloth after edge folding into rows. The cutting direction of the second cutting machine is perpendicular to the axis of the material containing table and used for cutting the cloth after edge folding into rows.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims (9)

1. A continuous processing device for a folded conjoined pocket is characterized by comprising a rack, and a pressing mechanism, a first folding mechanism and a second folding mechanism which are respectively arranged on the rack;

the frame is provided with a material containing table, the material pressing mechanism, the first edge folding mechanism and the second edge folding mechanism are all located above the material containing table, and the first edge folding mechanism and the second edge folding mechanism are located on two opposite sides of the material pressing mechanism respectively;

the material pressing mechanism comprises a first air cylinder, a first moving frame, a second air cylinder and a material pressing plate, the first air cylinder is horizontally arranged on the rack and is connected with the first moving frame, the second air cylinder is vertically arranged on the first moving frame and is connected with the material pressing plate, and the material pressing plate faces the material containing table;

the first flanging mechanism comprises a third cylinder, a second moving frame, a fourth cylinder, a material extruding plate, a fifth cylinder and a first flanging plate, the third cylinder is horizontally arranged on the rack, the third cylinder is connected with the second moving frame, the fourth cylinder is vertically arranged on the second moving frame, the fourth cylinder is connected with the material extruding plate, the fifth cylinder is obliquely arranged on the second moving frame, the fifth cylinder is connected with the first flanging plate, and the first flanging plate faces to one side of the material pressing mechanism;

the second flanging mechanism comprises a sixth cylinder and a second flanging plate, the sixth cylinder is horizontally arranged on the first moving frame, the sixth cylinder is connected with the second flanging plate, and the second flanging plate faces to one side where the material pressing mechanism is located;

still include first cutting mechanism, first cutting mechanism includes first cutting machine, first cutting machine sets up in the frame, first cutting machine is located the second is turned over the limit mechanism and is kept away from one side of swager structure, first cutting machine the cutting direction with the axis coplane of platform is held to the material.

2. The continuous processing device for the hemmed connected pocket according to claim 1, wherein the material pressing plate is a hot pressing plate.

3. The continuous processing device for the hemmed conjoined pockets according to claim 1, wherein an included angle between the material extruding plate and the horizontal plane and an included angle between the fifth cylinder and the horizontal plane are both greater than or equal to 5 °.

4. The continuous processing device for the hemmed conjoined pocket according to claim 1, further comprising a beading mechanism, wherein the beading mechanism comprises a seventh cylinder, a third moving frame, an eighth cylinder and a beading plate, the seventh cylinder is horizontally arranged on the frame, the seventh cylinder is connected with the third moving frame, the eighth cylinder is vertically arranged on the third moving frame, the eighth cylinder is connected with the beading plate, and the beading plate faces the material holding table.

5. A continuous processing device for a hemmed conjoined pocket according to claim 4, wherein the first hemming mechanism, the swaging mechanism and the second hemming mechanism are sequentially arranged on the frame along a first horizontal direction, and two sets of hemming mechanisms are respectively arranged at two opposite sides of the swaging mechanism along a second horizontal direction perpendicular to the first horizontal direction.

6. The continuous processing device for the hemmed conjoined pocket according to claim 1, further comprising a rolling mechanism, wherein the rolling mechanism comprises a roller group, the roller group is rotatably arranged on the frame along the axis of the material containing table, and the roller group is positioned on one side of the second flanging mechanism far away from the material pressing mechanism.

7. The continuous processing device for the hemmed conjoined pockets according to claim 6, wherein the press roller group comprises more than two hot press rollers arranged along the axis of the material containing table in a staggered manner.

8. The continuous processing device for the hemmed conjoined pocket according to claim 1, further comprising a second cutting mechanism, wherein the second cutting mechanism comprises a ninth cylinder and a second cutting machine, the ninth cylinder is horizontally arranged on the frame, the ninth cylinder is connected with the second cutting machine, and the cutting direction of the second cutting machine is perpendicular to the axis of the material containing table.

9. A continuous processing method of a continuous processing device of a folded conjoined pocket according to any one of claims 1 to 8, which is characterized by comprising the following steps:

s1, placing the polyester cloth on a material containing table, driving a first moving frame to move to a position vertically above the polyester cloth by using a first cylinder, and driving a pressure plate to tightly press the polyester cloth on the material containing table by using a second cylinder;

s2, driving the extruding plate to abut against the surface of the polyester fabric by using a fourth cylinder, driving the second moving frame to move to one side where the material pressing plate is located by using a third cylinder, driving the extruding plate to extrude the polyester fabric out of the first edge to be folded, driving the first edge folding plate to fold the first edge to be folded to one side where the material pressing plate is located by using a fifth cylinder, driving the first moving frame to move to one side far away from the extruding plate by using the first cylinder, driving the first moving frame to move to one side where the material extruding plate is located by using the first cylinder after the material pressing plate is driven to be lifted by using the second cylinder, and driving the material pressing plate to tightly press the first edge to be folded to the material containing table by using the second cylinder;

s3, driving the second moving frame to move to one side far away from the material pressing plate by the third cylinder, driving the second moving frame to move to one side where the material pressing plate is located by the third cylinder, driving the material extruding plate to extrude the polyester fabric into a second part to be flanged, and driving the second flanging plate to fold the second part to be flanged to one side where the material extruding plate is located by the sixth cylinder.

Images