阅读说明：本技术 一种高自动化布料压边设备 (High-automation cloth edge pressing equipment ) 是由 丁敬堂 蔡凯云 许沛联 蔡开展 于 2020-12-21 设计创作，主要内容包括：本发明提出一种高自动化布料压边设备,包括第一供布装置,将第一布料裁切成多条布料单体的第一裁布装置,对布料单体上表面进行施胶的第一喷胶装置,供应第二布料的第二供布机构,以及将布料单体和第二布料按预定形状连接在一起形成布料连接体的第一成型装置；所述第一裁布装置包括对第一布料进行水平输送的第一布料输送机构,和将第一布料裁切成多条布料单体的第一裁切装置；所述第一布料输送机构具有第一布料输入的第一布料输入端,和裁切成布料单体后输出的第一布料输出端。本发明在首次压边处理时通过人工引导第一布料和第二布料进行加工处理,后续靠设备的自动化生产形成连续生产布料连接体的生产线,提高生产效率和保证压边的精度。(The invention provides high-automation cloth edge pressing equipment which comprises a first cloth supplying device, a first cloth cutting device for cutting a first cloth into a plurality of cloth monomers, a first glue spraying device for gluing the upper surfaces of the cloth monomers, a second cloth supplying mechanism for supplying a second cloth, and a first forming device for connecting the cloth monomers and the second cloth together according to a preset shape to form a cloth connecting body, wherein the first cloth supplying device is arranged on the first cloth cutting device; the first fabric cutting device comprises a first fabric conveying mechanism for horizontally conveying a first fabric and a first cutting device for cutting the first fabric into a plurality of fabric monomers; the first cloth conveying mechanism is provided with a first cloth input end for inputting a first cloth and a first cloth output end for outputting the first cloth after the first cloth is cut into single cloth. According to the invention, the first cloth and the second cloth are guided to be processed through manpower during the first edge pressing treatment, and a production line for continuously producing the cloth connector is formed by the subsequent automatic production of equipment, so that the production efficiency is improved and the edge pressing precision is ensured.)

1. The utility model provides a high automatic cloth blank pressing equipment which characterized in that: the first edge pressing mechanism comprises a first cloth supplying device for supplying a first cloth, a first cloth cutting device for cutting the first cloth into a plurality of cloth monomers, a first glue spraying device for applying glue to the upper surfaces of the cloth monomers, a second cloth supplying mechanism for supplying a second cloth, and a first forming device for connecting the cloth monomers and the second cloth according to a preset shape to form a cloth connector; the first fabric cutting device comprises a first fabric conveying mechanism for horizontally conveying a first fabric and a first cutting device for cutting the first fabric into a plurality of fabric monomers; the first cloth conveying mechanism is provided with a first cloth input end for inputting a first cloth and a first cloth output end for outputting the first cloth after the first cloth is cut into single cloth.

2. The high automation cloth beading apparatus of claim 1 wherein: the first cutting device includes a first cutting portion that cuts a first fabric.

3. The high automation cloth beading apparatus of claim 2 wherein: the first cutting portion includes a plurality of first cutting blades for cutting the first fabric.

4. The high automation cloth beading apparatus of claim 3 wherein: the first cutting knife is provided with a first cutting end and a second cutting end, and the first cutting knife is gradually inclined downwards from the first cutting end to the second cutting end.

5. The high automation cloth beading apparatus of claim 4 wherein: the first cutting portion further comprises a first fixing portion for fixing the first cutting knife.

6. The high automation cloth beading apparatus of claim 5 wherein: the first cutting knives are arranged on the first fixing part at equal intervals.

7. The high automation cloth beading apparatus of claim 6 wherein: the first cloth conveying mechanism comprises a plurality of first cloth conveying devices for conveying first cloth.

8. The high automation cloth beading apparatus of claim 7 wherein: the first cloth conveying device comprises a first cloth conveying belt and a first power driving device for driving the first cloth conveying belt to rotate.

9. The high automation cloth beading apparatus of claim 8, wherein: a plurality of first cloth conveyer belt parallel arrangement, the clearance that each first sword that cuts passed is formed between the adjacent first cloth conveyer belt.

10. The high automation cloth beading apparatus of claim 9 wherein: the first cutting part is arranged above the first cloth conveying device.

Technical Field

The invention relates to the technical field of cloth edge pressing, in particular to high-automation cloth edge pressing equipment.

Background

The umbrella is a tool for shading sun or rain and snow.

The umbrella comprises an umbrella cover, when the umbrella cover of the umbrella is processed, edge pressing processing is usually required to be carried out on the edge position of the cloth for manufacturing the umbrella cover, after the umbrella cover is made of the cloth, the edge of the umbrella cover has the edge pressing effect, the edge position is smoother, the umbrella cover is attractive, meanwhile, the toughness of the umbrella cover is enhanced, and the service life of the umbrella cover is prolonged.

In the prior art, the edge pressing treatment usually depends on manual work to sew the cloth after edge rolling, the automation degree is not high, the edge pressing precision is difficult to guarantee by the manual edge pressing treatment of the cloth, and the attractiveness of the cloth after edge pressing is affected.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

Disclosure of Invention

The invention aims to provide high-automation cloth edge pressing equipment to solve the problems that the automation degree of edge pressing treatment in the background technology is low, edge pressing precision is difficult to guarantee by manually performing edge pressing treatment on cloth, and the attractiveness of the cloth after edge pressing is affected.

In order to achieve the purpose, the invention adopts the following technical scheme:

a high-automation cloth edge pressing device comprises a first edge pressing mechanism, wherein the first edge pressing mechanism comprises a first cloth supplying device for supplying a first cloth, a first cloth cutting device for cutting the first cloth into a plurality of cloth monomers, a first glue spraying device for applying glue to the upper surfaces of the cloth monomers, a second cloth supplying mechanism for supplying a second cloth, and a first forming device for connecting the cloth monomers and the second cloth according to a preset shape to form a cloth connecting body; the first fabric cutting device comprises a first fabric conveying mechanism for horizontally conveying a first fabric and a first cutting device for cutting the first fabric into a plurality of fabric monomers; the first cloth conveying mechanism is provided with a first cloth input end for inputting a first cloth and a first cloth output end for outputting the first cloth after the first cloth is cut into single cloth.

Further, the first cutting device includes a first cutting portion that cuts the first fabric.

Further, the first cutting portion includes a plurality of first cutting blades that cut the first fabric.

Further, the first cutting knife is provided with a first cutting end and a second cutting end, and the first cutting knife is gradually inclined downwards from the first cutting end to the second cutting end.

Further, the first cutting portion further includes a first fixing portion that fixes the first cutting blade.

Furthermore, a plurality of first cutting knives are arranged on the first fixing part at equal intervals.

Further, the first cloth conveying mechanism comprises a plurality of first cloth conveying devices for conveying the first cloth.

Further, the first cloth conveying device comprises a first cloth conveying belt and a first power driving device for driving the first cloth conveying belt to rotate.

Further, a plurality of the first cloth conveyer belts are arranged in parallel, and a gap through which each first cutting knife passes is formed between the adjacent first cloth conveyer belts.

Further, the first cutting part is arranged above the first cloth conveying device.

Further, the first fabric cutting device further comprises a first supporting mechanism for supporting the plurality of first fabric conveying belts.

Further, the first support mechanism comprises a first support device which passes through the plurality of first cloth conveyor belts to support the first cloth conveyor belts.

Further, the first supporting device comprises a first supporting part and a second supporting part which are used for supporting the inner wall of the upper end of the first cloth conveying belt.

Further, the first supporting part comprises a plurality of first supporting rollers contacted with the inner wall at the upper end of the first cloth conveying belt; and the first support rollers are in rolling connection with the first cloth conveying belt.

Further, the second support part comprises a plurality of second support rollers contacted with the inner wall of the upper end of the first cloth conveying belt; and the second supporting rollers are in rolling connection with the first cloth conveying belt.

Further, the rolling direction of the first support rollers and the second support rollers is the same as the conveying direction of the first cloth conveying belt.

Further, the first and second support portions are at both sides of the first cutting blade.

Further, first supporting part and second supporting part all set first support body.

Further, the first fabric cutting device further comprises a first fabric pressing device for pressing the first fabric on the first fabric conveying mechanism.

Further, the first cloth pressing device comprises a first cloth pressing roller which is contacted with the upper surface of the first cloth; the first cloth pressing roller is arranged above the first cloth input end and is in rolling connection with the first cloth.

Further, the first glue spraying device comprises a first glue spraying part for spraying glue on the upper surface of the first cloth.

Further, the first glue spraying part comprises a plurality of first glue spraying heads which correspond to the cloth monomers one by one; the first glue spraying heads are arranged above the single cloth.

Further, the lower surface of the first glue spraying head forms a first glue output part arranged towards the upper surface of the cloth monomer.

Further, the first glue output part comprises a first glue applying part formed on one side of the lower surface of the first glue spraying head and a second glue applying part formed on the other side of the lower surface of the first glue spraying head.

Further, the first glue applying part comprises a plurality of first glue applying nozzles arranged at equal intervals; the second glue applying part comprises a plurality of second glue applying nozzles arranged at equal intervals.

Further, the second cloth supplying mechanism comprises a plurality of second cloth supplying devices which correspond to the cloth monomers one by one.

Further, the second cloth supplying device comprises a first bearing roller for bearing the second cloth roll blank.

Further, the second cloth supply device also comprises a first limiting support rod and a second limiting support rod for limiting the second cloth; the second cloth is arranged between the first limit supporting rod and the second limit supporting rod, one end of the first bearing roller is rotatably connected with the first limit supporting rod, and the other end of the first bearing roller is rotatably connected with the second limit supporting rod.

Further, the second cloth supplying mechanism further comprises a plurality of second cloth conveying mechanisms which correspond to the second cloth supplying devices one by one and vertically convey the second cloth along the conveying direction of the first cloth.

Further, the second cloth conveying mechanism comprises a first conveying device which is in contact with one side face of the second cloth, and a second conveying device which is in contact with the other side face of the second cloth.

Further, the first conveying device comprises a first conveying belt and a second power driving device for driving the first conveying belt to rotate; the second conveying device comprises a second conveying belt and a third power driving device for driving the second conveying belt to rotate.

Further, the first forming device comprises a plurality of first bending devices which correspond to the cloth monomers one by one and bend the cloth monomers into a preset shape.

Further, the first bending device comprises a first gathering part which gradually gathers the cloth monomer upwards and inwards.

Furthermore, two side edges of the single cloth body and a first opening through which the second cloth passes are formed at the upper end of the first gathering part, and the first gathering part is provided with a first forming cavity in a preset shape after the single cloth body passes through; the first opening is communicated with the first molding cavity.

Further, the first forming cavity is gradually inclined upwards and inwards along the conveying direction of the single cloth.

Further, the first gathering part is provided with a first input port for the cloth monomer and the second cloth to enter and a first output port for the cloth monomer and the second cloth to output; the width dimension of the first input port is larger than that of the cloth monomer.

Further, the first gathering part is arranged on one side of the first cloth output end.

Further, the first forming device also comprises a plurality of first extrusion laminating devices which correspond to the first gathering parts one by one and bond the two side edges of the single cloth and the second cloth together; the first extrusion laminating device is arranged at one end of a first output port of the first gathering part.

Further, the first extrusion laminating device comprises a first extrusion part for extruding one side surface of the single cloth and the second cloth and a second extrusion part for extruding the other side surface of the single cloth and the second cloth.

Further, the first pressing section includes a plurality of first pressing rollers; the first extrusion roller is connected with the single cloth body and one side face of the second cloth in a rolling mode, and the axis of the first extrusion roller is arranged vertically. The second pressing section includes a plurality of second pressing rollers; the second extrusion roller is connected with the cloth monomer and the other side surface of the second cloth in a rolling mode, and the axis of the second extrusion roller is arranged vertically.

Further, the axis of each first squeezing roller is arranged in parallel and level with the corresponding second squeezing roller.

Further, the cloth connecting body winding device comprises a first winding device for winding the cloth connecting body.

Further, the first winding device comprises a plurality of first winding parts which correspond to the first extrusion laminating devices one by one.

Further, the first winding part comprises a first winding roller for winding the cloth connecting body, a first limiting disc for limiting one side of the cloth connecting body, a second limiting disc for limiting the other side of the cloth connecting body, a first supporting rod for supporting the first limiting disc and a second supporting rod for supporting the second limiting disc; one end of the first winding roller is connected with the first limiting disc, the other end of the first winding roller is connected with the second limiting disc, the first limiting disc is rotatably connected with the first supporting rod, and the second limiting disc is rotatably connected with the second supporting rod.

Further, the first winding device further comprises a first rotation driving device for driving the plurality of first winding parts to rotate synchronously.

Further, the first rotation driving device comprises a first auxiliary rotating roller and a first rotating motor for driving the first auxiliary rotating roller to rotate; the outer circumferential surface of the first auxiliary rotating roller is in rolling connection with the outer circumferential surfaces of the first limiting disc and the second limiting disc, and the output end of the first rotating motor is connected with the first auxiliary rotating roller.

Further, the first rotary drive device is also provided with a second support frame body which supports the first auxiliary rotary roller.

Further, the first cloth supply device comprises a first bearing roller for bearing the first cloth roll blank, and a first limiting support column and a second limiting support column for limiting the whole bundle of the first cloth; the upper surface of first spacing support column forms the first storage tank, the upper surface of the spacing support column of second forms the second storage tank, the one end of first bearing roller is rotated and is connected in first storage tank, the other end of first bearing roller is rotated and is connected in the second storage tank.

Further, the first cloth supplying device also comprises a first auxiliary conveying roller and a first abutting driving device for driving the first auxiliary conveying roller to abut against the outer circumferential surface of the first cloth roll blank; the outer circumferential surface of the first auxiliary conveying roller is in rolling connection with the outer circumferential surface of the first cloth roll blank on the first bearing roller, and the output end of the first abutting driving device is connected with the first auxiliary conveying roller.

Further, the first cloth supplying device further comprises a third support frame body for supporting the first auxiliary conveying roller.

And the second edge pressing mechanism is used for pressing the other edge of the second cloth again.

Further, the second edge pressing mechanism comprises a third cloth supplying device for supplying a third cloth, a second cloth cutting device for cutting the third cloth into a plurality of cloth monomers, a second glue spraying device for gluing the upper surfaces of the cloth monomers, a fourth cloth supplying mechanism for supplying a cloth connector, and a second forming device for connecting the cloth monomers on the cloth connector to form an edge pressing formed cloth; the third cloth supplying device, the second cloth cutting device, the second glue spraying device, the fourth cloth supplying mechanism and the second forming device are sequentially arranged along the cloth conveying direction.

Further, the second fabric cutting device comprises a third fabric conveying mechanism for horizontally conveying a third fabric, and a second cutting device for cutting the third fabric into a plurality of fabric monomers; the third cloth conveying mechanism is provided with a third cloth input end for inputting a third cloth and a third cloth output end for outputting after cutting into single cloth.

Further, the second cutting device includes a second cutting portion that cuts the third fabric.

Further, the second cutting portion includes a plurality of second cutting blades that cut the third fabric.

Further, the second cuts the sword and has third crop end and fourth crop end, the second cuts the sword and sets up from the third crop end to the slope of fourth crop end gradually down.

Further, the second cutting portion further includes a second fixing portion that fixes the second cutting blade.

Furthermore, a plurality of second cutting knives are arranged on the second fixing part at equal intervals.

Further, the third cloth conveying mechanism includes a plurality of third cloth conveying devices for conveying a third cloth.

Furthermore, the third cloth conveying device comprises a third cloth conveying belt and a fourth power driving device for driving the third cloth conveying belt to rotate.

Furthermore, a plurality of third cloth conveyer belts are arranged in parallel, and gaps through which the second cutting knives pass are formed between adjacent third cloth conveyer belts.

Further, the second cutting part is arranged above the third cloth conveying device.

Further, the second fabric cutting device further comprises a second supporting mechanism for supporting the plurality of third fabric conveying belts.

Further, the second support mechanism comprises a second support device which passes through the plurality of third cloth conveyor belts to support the third cloth conveyor belts.

Further, the second supporting device comprises a third supporting part and a fourth supporting part which are used for supporting the inner wall of the upper end of the third cloth conveying belt.

Further, the third support part comprises a plurality of third support rollers contacted with the inner wall of the upper end of the third cloth conveying belt; and the third supporting rollers are in rolling connection with the third cloth conveying belt.

Further, the fourth supporting part comprises a plurality of fourth supporting rollers contacted with the inner wall of the upper end of the third cloth conveying belt; and the fourth supporting rollers are in rolling connection with the third cloth conveying belt.

Further, the rolling direction of the third supporting rollers and the rolling direction of the fourth supporting rollers are the same as the conveying direction of the third cloth conveying belt.

Further, the third and fourth support portions are at both sides of the second cutting blade.

Further, third supporting part and fourth supporting part all set fourth support frame body.

Further, the second fabric cutting device further comprises a second fabric pressing device for pressing a third fabric on the third fabric conveying mechanism.

Further, the second cloth pressing device comprises a second cloth pressing roller which is contacted with the upper surface of the third cloth; the second cloth pressing roller is arranged above the input end of the third cloth and is in rolling connection with the third cloth.

Further, the second glue spraying device comprises a second glue spraying part for spraying glue on the upper surface of the third cloth.

Further, the second glue spraying part comprises a plurality of second glue spraying heads which correspond to the cloth monomers one by one; and the plurality of second glue spraying heads are arranged above the single cloth.

Further, a second glue output part arranged towards the upper surface of the cloth monomer is formed on the lower surface of the second glue spraying head.

Further, the second glue output part comprises a third glue applying part formed on one side of the lower surface of the second glue spraying head and a fourth glue applying part formed on the other side of the lower surface of the second glue spraying head.

Further, the third glue applying part comprises a plurality of third glue applying nozzles arranged at equal intervals; the fourth glue applying part comprises a plurality of fourth glue applying nozzles arranged at equal intervals.

Further, the fourth cloth supplying mechanism comprises a plurality of fourth cloth supplying devices which correspond to the cloth monomers one by one.

Further, the fourth cloth supply device comprises a second bearing roller bearing a cloth connector.

Further, the fourth cloth supply device also comprises a third limiting support rod and a fourth limiting support rod for limiting the cloth connector; the cloth connector is arranged between the third limit supporting rod and the fourth limit supporting rod, one end of the second bearing roller is rotatably connected with the third limit supporting rod, and the other end of the second bearing roller is rotatably connected with the fourth limit supporting rod.

Further, the fourth cloth supply mechanism further comprises a plurality of cloth connector conveying mechanisms which correspond to the fourth cloth supply devices one by one and vertically convey the cloth connectors along the conveying direction of the third cloth.

Further, the cloth connector conveying mechanism comprises a third conveying device which is contacted with one side surface of the cloth connector and a fourth conveying device which is contacted with the other side surface of the cloth connector.

Further, the third conveying device comprises a third conveying belt and a fifth power driving device for driving the third conveying belt to rotate; the fourth conveying device comprises a fourth conveying belt and a sixth power driving device for driving the fourth conveying belt to rotate.

Further, the second forming device comprises a plurality of second bending devices which correspond to the cloth monomers one to one and bend the cloth monomers into a preset shape.

Furthermore, the second bending device comprises a second gathering part which gradually gathers the cloth monomer upwards and inwards.

Furthermore, two side edges of the cloth monomer and a second opening through which the cloth connector passes are formed at the upper end of the second gathering part, and the second gathering part is provided with a second forming cavity in a preset shape after the cloth monomer passes through; the second opening is communicated with the second molding cavity.

Further, the second forming cavity is gradually inclined upwards and inwards along the conveying direction of the single cloth.

Further, the second gathering part is provided with a second input port for the cloth monomer and the cloth connector to enter and a second output port for the cloth monomer and the cloth connector to output; the width dimension of the second input port is larger than that of the cloth monomer.

Further, the second gathering part is arranged on one side of the output end of the third cloth.

Further, the second forming device also comprises a plurality of second extrusion laminating devices which correspond to the second gathering parts one by one and bond the two side edges of the cloth monomer and the cloth connecting body together; the second extrusion laminating device is arranged at one end of a second output port of the second gathering part.

Further, the second extrusion laminating device comprises a third extrusion part for extruding one side surface of the cloth monomer and the cloth connector and a fourth extrusion part for extruding the other side surface of the cloth monomer and the cloth connector.

Further, the third pressing section includes a plurality of third pressing rollers; the third extrusion roller is in rolling connection with one side surface of the cloth single body and the cloth connecting body, and the axis of the third extrusion roller is vertically arranged; the fourth pressing section includes a plurality of fourth pressing rollers; the fourth squeezing roller is in rolling connection with the cloth monomer and the other side face of the cloth connector, and the axis of the fourth squeezing roller is arranged vertically.

Further, the axis of each third squeezing roller is arranged in parallel with the corresponding fourth squeezing roller.

Further comprises a second furling device for furling the edge pressing forming cloth.

Further, the second furling device comprises a plurality of second furling parts which correspond to the second extrusion laminating devices one by one.

Further, the second furling part comprises a second furling roller for furling the blank-pressing forming cloth, a third limiting disc for limiting one side of the blank-pressing forming cloth, a fourth limiting disc for limiting the other side of the blank-pressing forming cloth, a third supporting rod for supporting the third limiting disc and a fourth supporting rod for supporting the fourth limiting disc; one end of the second winding roller is connected with the third limiting disc, the other end of the second winding roller is connected with the fourth limiting disc, the third limiting disc is rotatably connected with the third supporting rod, and the fourth limiting disc is rotatably connected with the fourth supporting rod.

Further, the second furling device further comprises a second rotation driving device which drives the plurality of second furling parts to synchronously rotate.

Further, the second rotation driving device includes a second auxiliary rotating roller, and a second rotating motor that drives the second auxiliary rotating roller to rotate; the outer circumferential surface of the second auxiliary rotating roller is in rolling connection with the outer circumferential surfaces of the third limiting disc and the fourth limiting disc, and the output end of the second rotating motor is connected with the second auxiliary rotating roller.

Further, the second rotary drive device is also provided with a fifth support frame body for supporting the second auxiliary rotary roller.

Further, the third cloth supply device comprises a second carrier roller for supporting a third cloth roll blank, and a third limiting support column and a fourth limiting support column for limiting the whole bundle of third cloth; the upper surface of the third limiting support column forms a third accommodating groove, the upper surface of the fourth limiting support column forms a fourth accommodating groove, one end of the second bearing roller is rotatably connected in the third accommodating groove, and the other end of the second bearing roller is rotatably connected in the fourth accommodating groove.

Further, the third cloth supply device also comprises a second auxiliary conveying roller and a second abutting driving device for driving the second auxiliary conveying roller to abut against the outer circumferential surface of the third cloth roll blank; the outer circumferential surface of the second auxiliary conveying roller is in rolling connection with the outer circumferential surface of a third cloth roll blank on the second bearing roller, and the output end of the second abutting driving device is connected with the second auxiliary conveying roller.

Further, the third cloth feeding device further comprises a sixth support frame body for supporting the second auxiliary conveying roller.

After adopting the structure, the high-automation cloth edge pressing equipment has at least the following beneficial effects:

continuously supplying a first cloth through a first cloth supplying device, cutting the first cloth into a plurality of cloth monomers through the first cloth cutting device, gradually spraying glue on the upper surfaces of the cloth monomers along the length direction through a first glue spraying device, outputting a second cloth corresponding to each cloth monomer through a second cloth supplying mechanism, bending the cloth monomers into a shape with two upward side edges through a first forming device, enabling the second cloth to be between the two side edges of the cloth monomers, and respectively bonding the two side edges of the cloth monomers with the two side surfaces of the second cloth through a first extrusion bonding device to finish the edge pressing process of the second cloth; when the first edge pressing mechanism starts to operate, manually cutting the first cloth into cloth monomers, manually driving the cloth monomers and the second cloth to pass through the first forming device to form a cloth connector, and then automatically performing edge pressing treatment by the first edge pressing mechanism to form a production line for continuously producing the cloth connector; then performing edge pressing treatment on the other side edges of the third cloth and the second cloth to ensure that the two side edges of the second cloth are respectively connected with the first cloth and the second cloth to form edge pressing forming cloth; according to the invention, during the first edge pressing treatment, the first cloth and the second cloth are guided to be processed by manpower to form a cloth connector, a production line for continuously producing the cloth connector is formed by the subsequent automatic production of equipment, and then the third cloth and the second cloth of the cloth connector are guided to be processed by manpower to form edge pressing forming cloth, so that the production efficiency is improved, the edge pressing precision is ensured, the edge pressing forming cloth is connected to the edge of the umbrella cover, the edge pressing treatment is not required to be carried out on the umbrella cover, the edge pressing precision and smoothness at the edge position of the umbrella cover are improved, and the appearance is more attractive; and meanwhile, the umbrella fabric has different colors or different three-dimensional effects, so that the umbrella fabric has rich diversity.

Drawings

FIG. 1 is a schematic perspective view of a first edge pressing mechanism of a highly automated cloth edge pressing apparatus according to the present invention;

FIG. 2 is a schematic diagram of a front view of a first edge pressing mechanism of a highly automated cloth edge pressing apparatus according to the present invention;

FIG. 3 is a schematic structural view of a first cutting device of the highly automated cloth edge pressing apparatus according to the present invention;

FIG. 4 is a schematic structural view of a first support part of the highly automated cloth edge pressing apparatus according to the present invention;

FIG. 5 is a schematic structural view of a first gathering portion of a highly automated cloth edge pressing apparatus according to the present invention;

FIG. 6 is a schematic view of a first press section of a highly automated cloth edge press apparatus according to the present invention;

FIG. 7 is a schematic perspective view of a first and second hold-down mechanism according to the present invention;

fig. 8 is a schematic view of a connection structure of a single cloth of a first cloth, a single cloth of a third cloth, and a second cloth according to the present invention.

In the figure: 1-a first cloth supply device, 2-a first cloth cutting device, 3-a first glue spraying device, 4-a second cloth supply mechanism, 5-a first forming device, 21-a first cloth conveying mechanism, 22-a first cutting device, 221-a first cutting portion, 2211-a first cutting end, 2212-a second cutting end, 222-a first fixing portion, 211-a first cloth conveying device, 2111-a first cloth conveying belt, 23-a first supporting mechanism, 231-a first supporting device, 232-a first supporting portion, 233-a second supporting portion, 2321-a first supporting roller, 234-a first supporting frame, 24-a first cloth pressing device, 241-a first cloth pressing roller, 31-a first glue spraying portion, 311-a first glue spraying head, 312-a first glue output portion, 41-a second cloth supplying device, 411-a first bearing roller, 412-a first limiting support rod, 42-a second cloth conveying mechanism, 421-a first conveying device, 422-a second conveying device, 51-a first bending device, 511-a first gathering part, 5111-a first opening, 5112-a first molding cavity, 52-a first extrusion laminating device, 521-a first extrusion part, 522-a second extrusion part, 5211-a first extrusion roller, 5221-a second extrusion roller, 6-a first coiling device, 61-a first coiling part, 611-a first coiling roller, 612-a first limiting circular disk, 613-a first support rod, 62-a first rotation driving device, 621-a first auxiliary rotation roller, 622-a first rotation motor, 623-a second support frame body, 11-a first bearing roller, 12-a first limit supporting column, 13-a second limit supporting column, 14-a first auxiliary conveying roller, 15-a first abutting driving device, 16-a third supporting frame body, 7-a second edge pressing mechanism, 8-edge pressing forming cloth, 71-a third cloth supplying device, 72-a second cloth cutting device, 73-a second glue spraying device, 74-a fourth cloth supplying mechanism, 75-a second forming device, 76-a second furling device, 81-a cloth monomer and 82-second cloth.

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is given by way of specific examples.

As shown in fig. 1 to 8, the highly automated cloth edge pressing apparatus of the present invention includes a first edge pressing mechanism, the first edge pressing mechanism includes a first cloth supplying device 1 for supplying a first cloth, a first cloth cutting device 2 for cutting the first cloth into a plurality of single cloth pieces, a first glue spraying device 3 for applying glue to the upper surfaces of the single cloth pieces, a second cloth supplying device 4 for supplying a second cloth, and a first forming device 5 for connecting the single cloth pieces and the second cloth pieces together according to a predetermined shape to form a cloth connector; the first fabric cutting device 2 comprises a first fabric conveying mechanism 21 for horizontally conveying a first fabric, and a first cutting device 22 for cutting the first fabric into a plurality of fabric monomers; the first cloth conveying mechanism 21 has a first cloth input end to which the first cloth is input, and a first cloth output end to which the single cloth is output after being cut.

Thus, a first cloth is continuously supplied by the first cloth supplying device 1, after the first cloth is cut into a plurality of cloth monomers by the first cloth cutting device 2, glue is gradually sprayed on the upper surfaces of the cloth monomers along the length direction by the first glue spraying device 3, a second cloth corresponding to each cloth monomer is output by the second cloth supplying mechanism 4, the cloth monomers are firstly bent into a shape with two upward side edges by the first forming device 5, the second cloth is arranged between the two side edges of the cloth monomers, and the two side edges of the cloth monomers are respectively bonded with the two side surfaces of the second cloth by the first extruding and bonding device 52, so that the second cloth edge pressing process is completed; when the first edge pressing mechanism starts to operate, manually cutting the first cloth into cloth monomers, manually driving the cloth monomers and the second cloth to pass through the first forming device 5 to form a cloth connector, subsequently automatically performing edge pressing treatment by the first edge pressing mechanism to form a production line for continuously producing the cloth connector, and then performing edge pressing treatment on the other side of the third cloth and the second cloth to respectively connect two side edges of the second cloth with the first cloth and the second cloth to form an edge-pressing formed cloth; according to the invention, during the first edge pressing treatment, the first cloth and the second cloth are guided to be processed by manpower to form a cloth connector, a production line for continuously producing the cloth connector is formed by the subsequent automatic production of equipment, and then the third cloth and the second cloth of the cloth connector are guided to be processed by manpower to form edge pressing forming cloth, so that the production efficiency is improved, the edge pressing precision is ensured, the edge pressing forming cloth is connected to the edge of the umbrella cover, the edge pressing treatment is not required to be carried out on the umbrella cover, the edge pressing precision and smoothness at the edge position of the umbrella cover are improved, and the appearance is more attractive; and meanwhile, the umbrella fabric has different colors or different three-dimensional effects, so that the umbrella fabric has rich diversity.

Preferably, in order to improve the processing of the first fabric into a plurality of equally divided single fabrics, the first cutting device 22 includes a first cutting portion 221 for cutting the first fabric.

Preferably, in order to improve processing of the first fabric into a plurality of equally divided fabric single bodies, the first cutting portion 221 includes a plurality of first cutting blades for cutting the first fabric.

Preferably, the first cutting blade has a first cut end 2211 and a second cut end 2212, and the first cutting blade is inclined downward gradually from the first cut end 2211 to the second cut end 2212. The first cutting end 2211 and the second cutting end 2212 are obliquely arranged, so that the cutting tip end of the first cutting knife can cut the first fabric more easily.

Preferably, in order to improve stability of cutting the first fabric, the first cutting portion 221 further includes a first fixing portion 222 that fixes the first cutting blade; specifically, the both ends of first fixed part 222 are connected with the gliding first slip support body of confession first fixed part 222 and the gliding second slip support body respectively, first slip support body and the gliding both sides of first cloth conveying mechanism 21 of second branch of support body department, first fixed part 222 is sliding connection on first slip support body and the second slip support body, make first fixed part 222 slide the first cloth output end department of first cloth output mechanism when the initial start processing, the staff of being convenient for carries out the first time to cut first cloth.

Preferably, in order to improve the stability of cutting the first fabric, the plurality of first cutting blades are disposed on the first fixing portion 222 at equal intervals.

Preferably, in order to facilitate processing the first fabric into a plurality of fabric single bodies, the first fabric conveying mechanism 21 includes a plurality of first fabric conveying devices 211 for conveying the first fabric.

Preferably, in order to make the conveyance of the first cloth more stable, the first cloth conveying device 211 includes a first cloth conveying belt 2111, and a first power driving device that drives the first cloth conveying belt 2111 to rotate; specifically, the first power driving device comprises a driving wheel, a driven wheel and a driving motor; the first cloth conveying belt 2111 is wound around the driving wheel and the driven wheel, and the output end of the driving motor is connected with the driving wheel.

Preferably, in order to improve the processing efficiency and prevent the first cutting blade from interfering with the first cloth conveying belt 2111, the plurality of first cloth conveying belts 2111 are arranged in parallel, and a gap through which each first cutting blade passes is formed between adjacent first cloth conveying belts 2111.

Preferably, the first cutting portion 221 is disposed above the first cloth feeding device 211 to avoid interference during processing.

Preferably, in order to stabilize the structure of the first fabric conveying belt 2111, the first fabric cutting device 2 further includes a first support mechanism 23 for supporting the plurality of first fabric conveying belts 2111.

Preferably, the first supporting mechanism 23 includes a first supporting device 231 for supporting the first distribution conveyor 2111 through the plurality of first distribution conveyor 2111. In the process of cutting the first cloth, the first cutting knife generates a downward force on the first cloth conveying belt 2111 to move the first cloth conveying belt 2111 downward, the first cloth conveying belt 2111 is supported by the first supporting device 231, the pressure and the supporting force on the first cloth conveying belt 2111 are offset, and the first cloth conveying belt 2111 is ensured to be stably and reliably transported.

Preferably, in order to make the first supporting device 231 support the first cloth conveying belt 2111 more effectively, the first supporting device 231 includes a first supporting portion 232 and a second supporting portion 233 which support an inner wall of an upper end of the first cloth conveying belt 2111.

Preferably, the first supporting part 232 includes a plurality of first supporting rollers 2321 contacting an inner wall of the upper end of the first cloth conveying belt 2111; the plurality of first support rollers 2321 are roll-connected to the first cloth conveying belt 2111. The plurality of first support rollers 2321 support the first fabric transfer belt 2111 and move synchronously with the first fabric transfer belt 2111, thereby preventing interference with the rotation of the first fabric transfer belt 2111.

Preferably, the second supporting portion 233 includes a plurality of second supporting rollers contacting an inner wall of an upper end of the first cloth conveying belt 2111; the plurality of second support rollers are roll-connected to the first cloth conveying belt 2111. The plurality of second support rollers support the first cloth conveying belt 2111 and move synchronously with the first cloth conveying belt 2111, thereby preventing interference with the rotation of the first cloth conveying belt 2111.

Preferably, in order to make the apparatus operate more smoothly, the rolling direction of the plurality of first supporting rollers 2321 and the plurality of second supporting rollers is the same as the conveying direction of the first cloth conveying belt 2111.

Preferably, in order to make the supporting effect of the first and second supporting parts 232 and 233 better, the first and second supporting parts 232 and 233 are located at both sides of the first cutting knife.

Preferably, in order to improve the stability of the first and second support portions 232 and 233, the first support frame 234 is provided to each of the first and second support portions 232 and 233.

Preferably, in order to make the first fabric conveyed on the first fabric conveying mechanism 21 more stable, the first fabric cutting device 2 further includes a first fabric pressing device 24 for pressing the first fabric on the first fabric conveying mechanism 21.

Preferably, the first cloth pressing device 24 includes a first cloth pressing roller 241 contacting the upper surface of the first cloth; the first cloth pressing roller 241 is arranged above the first cloth input end, and the first cloth pressing roller 241 is in rolling connection with the first cloth. The first cloth pressing roller 241 is matched with the first cloth conveying belt 2111, so that the plane of the first cloth is flush, and subsequent processing is facilitated.

Preferably, the first glue spraying device 3 includes a first glue spraying portion 31 for spraying glue on the upper surface of the first fabric. In order to adhere the single cloth to the second cloth, glue is sprayed on two sides of the upper surface of the single cloth, specifically, the first glue spraying portion 31 sprays glue along two sides of the single cloth in the length direction, so that the two sides of the upper surface of the single cloth are adhered to two sides of the second cloth through the first forming device 5.

Preferably, in order to improve the glue spraying efficiency, the first glue spraying part 31 includes a plurality of first glue spraying heads 311 corresponding to the cloth monomers one to one; the plurality of first glue spraying heads 311 are disposed above the single cloth.

Preferably, in order to improve the glue spraying efficiency, the lower surface of the first glue spraying head 311 forms a first glue output part 312 arranged towards the upper surface of the cloth monomer.

Preferably, in order to enable the first glue spraying head 311 to evenly glue both sides of the upper surface of the single cloth, the first glue output part 312 includes a first glue applying part formed on one side of the lower surface of the first glue spraying head 311, and a second glue applying part formed on the other side of the lower surface of the first glue spraying head 311.

Preferably, in order to enable the first glue spraying head 311 to evenly glue two side edges of the upper surface of the single cloth, the first glue applying part comprises a plurality of first glue applying nozzles arranged at equal intervals; the second glue applying portion comprises a plurality of second glue applying nozzles which are arranged at equal intervals.

Preferably, the second cloth supplying mechanism 4 includes a plurality of second cloth supplying devices 41 corresponding to the respective cloth units one by one. And continuously outputting a second cloth through a second cloth supply device 41, and finishing edge pressing after the second cloth is connected with the cloth monomer.

Preferably, in order to make the supply of the second cloth more stable, the second cloth supplying device 41 includes a first carrying roller 411 carrying the second cloth roll blank.

Preferably, in order to make the supply of the second cloth more stable, the second cloth supply device 41 further includes a first limit support bar 412 and a second limit support bar for limiting the second cloth; the second cloth is arranged between the first limit supporting rod 412 and the second limit supporting rod, one end of the first bearing roller 411 is rotatably connected with the first limit supporting rod 412, and the other end of the first bearing roller 411 is rotatably connected with the second limit supporting rod; specifically, the first limit support bar 412 and the second limit support bar are both provided with a replacement opening for taking out and putting in the first bearing roller 411, so that the second cloth can be replaced conveniently after being used up.

Preferably, in order to improve the conveying stability of the second fabric, the second fabric supplying mechanism 4 further includes a plurality of second fabric conveying mechanisms 42 which correspond to the second fabric supplying devices 41 one by one and convey the second fabric in the conveying direction of the first fabric.

Preferably, the second cloth conveying mechanism 42 includes a first conveying device 421 contacting one side surface of the second cloth, and a second conveying device 422 contacting the other side surface of the second cloth. The second cloth is positioned between the first conveying device 421 and the second conveying device 422, and the second cloth is stably conveyed by the first conveying device 421 and the second conveying device 422.

Preferably, in order to make the conveying of the second cloth more stable, the first conveying device 421 includes a first conveying belt, and a second power driving device for driving the first conveying belt to rotate; the second conveying device 422 includes a second conveying belt, and a third power driving device for driving the second conveying belt to rotate. The second power driving device comprises a driving wheel, a driven wheel and a driving motor; first conveyer belt winding action wheel with follow driving wheel setting, driving motor's output links together with the action wheel.

Preferably, the first forming device 5 includes a plurality of first bending devices 51 corresponding to the respective cloth monomers one by one and bending the cloth monomers into a predetermined shape. The single cloth is bent into a shape with two sides gathered upwards by the first bending device 51, the second cloth is positioned between the two sides, and the bent single cloth is adhered to the second cloth.

Preferably, the first bending device 51 includes a first gathering portion 511 that gathers the single cloth gradually upward and inward. The two sides of the single cloth are gradually gathered upwards and inwards by the first gathering part 511.

Preferably, two side edges of the single cloth and a first opening 5111 through which the second cloth passes are formed at the upper end of the first gathering part 511, and the first gathering part 511 is provided with a first forming cavity 5112 in a predetermined shape after the single cloth passes through; the first opening 5111 communicates with the first molding cavity 5112. The cloth monomer forms the shape of gathering together upwards behind first one-tenth die cavity 5112, and the second cloth passes and is in the centre on cloth monomer both sides limit behind first opening 5111, and first extrusion laminating device 52 passes through glue with the upper surface and the lower surface of second cloth respectively with cloth monomer both sides limit and bonds together.

Preferably, the first molding cavity 5112 is gradually inclined upward and inward in the conveying direction of the cloth unit. The single cloth is formed in an upwardly gathered shape by the first molding cavity 5112.

Preferably, in order to make the single cloth more smoothly form an upward gathered shape through the first gathering portion 511, the first gathering portion 511 has a first input port through which the single cloth and the second cloth enter, and a first output port through which the single cloth and the second cloth output; the width dimension of the first input port is larger than that of the cloth monomer.

Preferably, the first gathering portion 511 is provided at one side of the first cloth output end in order to improve processing efficiency.

Preferably, the first forming device 5 further includes a plurality of first extruding and bonding devices 52 corresponding to the first gathering portions 511 one by one and bonding the two sides of the single cloth and the second cloth together; the first squeeze bonding device 52 is provided at one end of the first delivery outlet of the first gathering portion 511. The two sides of the single cloth are pressed toward the second cloth by the first pressing and attaching device 52, so that the single cloth is completely attached to the second cloth.

Preferably, the first pressing and attaching device 52 includes a first pressing portion 521 for pressing one side surfaces of the single cloth and the second cloth, and a second pressing portion 522 for pressing the other side surfaces of the single cloth and the second cloth. Through the cooperation of the first squeezing part 521 and the second squeezing part 522, the two side edges of the single cloth are squeezed towards the second cloth, so that the single cloth is completely attached to the second cloth.

Preferably, in order to make the pressing attachment more effective, the first pressing part 521 includes a plurality of first pressing rollers 5211; the first squeeze roller 5211 is in rolling connection with one side of the cloth unit and the second cloth, and the axis of the first squeeze roller 5211 is vertically arranged. The second pressing section 522 includes a plurality of second pressing rollers 5221; the second squeeze roller 5221 is roll-connected to the cloth unit and the other side of the second cloth, and the axis of the second squeeze roller 5221 is vertically arranged.

Preferably, in order to improve the pressing and attaching effects, the axis of each first pressing roller 5211 is arranged flush with the corresponding second pressing roller 5221.

Preferably, a first winding device 6 for winding up the cloth connecting body is further included for facilitating the subsequent transportation and use of the cloth connecting body.

Preferably, the first winding device 6 includes a plurality of first winding parts 61 corresponding to the first pressing and bonding devices 52 one by one. The corresponding cloth coupled body is wound up by the first winding part 61.

Preferably, the first winding part 61 includes a first winding roller 611 for winding the cloth connecting body, a first limiting disc 612 for limiting one side of the cloth connecting body, a second limiting disc for limiting the other side of the cloth connecting body, a first supporting rod 613 for supporting the first limiting disc 612, and a second supporting rod for supporting the second limiting disc; one end of the first winding roller 611 is connected to the first limiting disc 612, the other end of the first winding roller 611 is connected to the second limiting disc, the first limiting disc 612 is rotatably connected to the first support rod 613, and the second limiting disc is rotatably connected to the second support rod. The cloth connector is always furled in the space between the first limiting disc 612 and the second limiting disc through the first limiting disc 612 and the second limiting disc.

Preferably, in order to improve the winding efficiency, the first winding device 6 further includes a first rotation driving device 62 that drives the plurality of first winding parts 61 to rotate synchronously.

Preferably, the first rotation driving means 62 includes a first auxiliary rotating roller 621, and a first rotating motor 622 that drives the first auxiliary rotating roller 621 to rotate; the outer circumferential surface of the first auxiliary rotating roller 621 is roll-coupled to the outer circumferential surfaces of the first and second limiting disks 612 and 622, and the output end of the first rotating motor 622 is coupled to the first auxiliary rotating roller 621. The first auxiliary rotating roller 621 is driven to rotate by the first rotating motor 622, and the first auxiliary rotating roller 621 is in contact with the outer circumferential surfaces of the first limiting disk 612 and the second limiting disk, so that the first auxiliary rotating roller 621 drives the first limiting disk 612 and the second limiting disk to rotate, and the cloth connecting body is collected.

Preferably, in order to improve the stability of the first auxiliary rotating roller 621, the first rotation driving device 62 is further provided with a second support frame body 623 that supports the first auxiliary rotating roller 621.

Preferably, the first cloth supplying device 1 comprises a first supporting roller 11 for supporting a first cloth roll blank, and a first limiting supporting column 12 and a second limiting supporting column 13 for limiting the whole bundle of first cloth; the upper surface of the first limiting support column 12 forms a first accommodating groove, the upper surface of the second limiting support column 13 forms a second accommodating groove, one end of the first bearing roller 11 is rotatably connected in the first accommodating groove, and the other end of the first bearing roller 11 is rotatably connected in the second accommodating groove. After the first cloth roll blank is placed on the first bearing roller 11, one end of the first bearing roller 11 is placed in the first accommodating groove of the first limiting support column 12, and the other end of the first bearing roller 11 is placed in the second accommodating groove of the second limiting support column 13.

Preferably, the first cloth supplying device 1 further comprises a first auxiliary conveying roller 14 and a first abutting driving device 15 for driving the first auxiliary conveying roller 14 to abut against the outer circumferential surface of the first cloth roll blank; the outer circumferential surface of the first auxiliary conveyor roller 14 is in rolling connection with the outer circumferential surface of the first cloth roll blank on the first carrier roller 11, and the output end of the first abutting driving device 15 is connected with the first auxiliary conveyor roller 14. The first auxiliary conveying rollers 14 are driven by the first abutting driving device 15 to always abut against the outer peripheral surface of the first cloth roll blank, so that the output stability of the first cloth roll blank is improved; specifically, the first abutting driving means 15 is cylinder driven.

Preferably, in order to improve the structural stability of the first auxiliary conveyor roller 14, the first cloth feeding device 1 further includes a third support frame 16 for supporting the first auxiliary conveyor roller 14.

Preferably, a second edge pressing mechanism 7 is further included for re-pressing the other edge of the second fabric 82. The third fabric is connected to the other side of the second fabric 82 in the fabric connecting body by the second edge pressing mechanism 7.

Preferably, the second edge pressing mechanism 7 includes a third cloth supplying device 71 for supplying a third cloth, a second cloth cutting device 72 for cutting the third cloth into a plurality of single cloth units 81, a second glue spraying device 73 for applying glue to the upper surfaces of the single cloth units 81, a fourth cloth supplying mechanism 74 for supplying a cloth connecting body, and a second forming device 75 for connecting the single cloth units 81 to the cloth connecting body to form the edge pressing formed cloth 8; the third fabric feeding device 71, the second fabric cutting device 72, the second glue spraying device 73, the fourth fabric feeding mechanism 74 and the second forming device 75 are sequentially arranged along the fabric conveying direction. After the third cloth supplying device 71 continuously supplies a third cloth, the second cloth cutting device 72 cuts the third cloth into a plurality of equally divided cloth single bodies 81, the second glue spraying device 73 gradually sprays glue on the upper surfaces of the cloth single bodies 81 along the length direction, the reeled cloth connecting bodies are placed on the fourth cloth supplying mechanism 74, the fourth cloth supplying mechanism 74 outputs cloth connecting bodies corresponding to the cloth single bodies 81, the cloth single bodies 81 are firstly bent into shapes with two upward sides by the second forming device 75, the other side of the second cloth 82 in the cloth connecting bodies is conveyed between the two side edges of the cloth single bodies 81, the two side edges of the cloth single bodies 81 are respectively bonded with the upper surface and the lower surface of the other side of the second cloth 82 by the second extrusion bonding device, the edge pressing process of the two side edges of the second cloth 82 is completed, when the second edge pressing mechanism 7 starts to operate, the third cloth is cut into single cloth 81 by manual operation, the single cloth 81 and the cloth connector are manually driven to pass through the second forming device 75, so that both side edges of the second cloth 82 are subjected to edge pressing treatment to form an edge-pressing formed cloth 8, and then the edge pressing treatment is automatically performed by the second edge pressing mechanism 7, so that a production line for continuously producing the edge-pressing formed cloth 8 is formed.

Preferably, the second fabric cutting device 72 includes a third fabric conveying mechanism for horizontally conveying the third fabric, and a second cutting device for cutting the third fabric into a plurality of fabric single bodies 81; the third cloth conveying mechanism has a third cloth input end to which the third cloth is input, and a third cloth output end to which the single cloth 81 is output after being cut. And conveying the third cloth towards the second cutting device through a third cloth conveying mechanism, and cutting the third cloth into a plurality of equally-divided cloth single bodies 81 through the second cutting device.

Preferably, in order to improve the processing of the third fabric into the plurality of equally divided fabric single bodies 81, the second cutting device includes a second cutting portion that cuts the third fabric.

Preferably, in order to improve the processing of the third fabric into the plurality of equally divided fabric single bodies 81, the second cutting portion includes a plurality of second cutting blades for cutting the third fabric.

Preferably, the second cutting blade has a third cutting end and a fourth cutting end, and the second cutting blade is inclined downward gradually from the third cutting end to the fourth cutting end. Through the slope setting of third crop end and fourth crop end, make the second cut the most advanced third cloth of cutting of sword and cut open more easily.

Preferably, in order to improve the stability of cutting the third fabric, the second cutting portion further includes a second fixing portion for fixing the second cutting blade; specifically, the both ends of second fixed part are connected with the gliding third of confession second fixed part and slides the support body with the fourth respectively, and third slides the support body with the fourth and slides support body branch department third cloth conveying mechanism's both sides, and the second fixed part slides on third slides the support body with the fourth and slides the support body, makes the second fixed part slide the third cloth output of third cloth output mechanism when the initial start is processed, and the staff of being convenient for carries out the first time to cut the third cloth.

Preferably, in order to improve stability of cutting the third fabric, the plurality of second cutting blades are disposed on the second fixing portion at equal intervals.

Preferably, in order to improve the processing of the third fabric into the plurality of equally divided fabric single bodies 81, the third fabric conveying mechanism includes a plurality of third fabric conveying devices for conveying the third fabric.

Preferably, in order to make the conveying of the third cloth more stable, the third cloth conveying device comprises a third cloth conveying belt and a fourth power driving device for driving the third cloth conveying belt to rotate. Specifically, the fourth power driving device comprises a driving wheel, a driven wheel and a driving motor; the third cloth conveyer belt winding action wheel sets up with following the driving wheel, and driving motor's output links together with the action wheel.

Preferably, in order to improve the processing efficiency and simultaneously avoid the interference between the second cutting knife and the third cloth conveyer belts, the plurality of third cloth conveyer belts are arranged in parallel, and a gap through which each second cutting knife passes is formed between adjacent third cloth conveyer belts.

Preferably, the second cutting portion is provided above the third cloth conveying device in order to avoid interference in processing.

Preferably, in order to make the structure of the third fabric conveyer belt more stable, the second fabric cutting device 72 further includes a second supporting mechanism for supporting the plurality of third fabric conveyer belts.

Preferably, the second support mechanism comprises second support means for supporting the third cloth conveyor belt across a plurality of third cloth conveyor belts. The second cuts the in-process that the sword cut the third cloth, can produce a decurrent power to third cloth conveyer belt, makes third cloth conveyer belt downstream, supports third cloth conveyer belt through second strutting arrangement, makes pressure and holding power that third cloth conveyer belt received offset each other, guarantees that third cloth conveyer belt transportation is reliable and stable.

Preferably, in order to make the second supporting device support the third cloth conveying belt better, the second supporting device includes a third supporting portion and a fourth supporting portion for supporting an inner wall of an upper end of the third cloth conveying belt.

Preferably, the third support part includes a plurality of third support rollers contacting an inner wall of an upper end of the third cloth conveying belt; and the third supporting rollers are in rolling connection with the third cloth conveying belt. And the third supporting rollers synchronously move with the third cloth conveying belt while supporting the third cloth conveying belt, so that interference on rotation of the third cloth conveying belt is avoided.

Preferably, the fourth support part includes a plurality of fourth support rollers contacting an inner wall of an upper end of the third cloth conveying belt; and the fourth supporting rollers are in rolling connection with the third cloth conveying belt. And the fourth supporting rollers synchronously move with the third cloth conveying belt while supporting the third cloth conveying belt, so that interference on rotation of the third cloth conveying belt is avoided.

Preferably, in order to make the apparatus operate more smoothly, the rolling direction of the plurality of third supporting rollers and the plurality of fourth supporting rollers is the same as the conveying direction of the third cloth conveying belt.

Preferably, the third and fourth support portions are positioned at both sides of the second cutting blade in order to make the supporting effect of the third and fourth support portions better.

Preferably, in order to improve the stability of the third supporting portion and the fourth supporting portion, the third supporting portion and the fourth supporting portion are both provided with a fourth supporting frame body.

Preferably, in order to make the third fabric conveyed on the third fabric conveying mechanism more stable, the second fabric cutting device 72 further includes a second fabric pressing device for pressing the third fabric on the third fabric conveying mechanism.

Preferably, the second cloth pressing device comprises a second cloth pressing roller which is contacted with the upper surface of the third cloth; the second cloth pressing roller is arranged above the input end of the third cloth and is in rolling connection with the third cloth. The second cloth pressing roller is matched with the third cloth conveying belt, so that the plane of the third cloth is parallel and level, and subsequent processing is facilitated.

Preferably, the second glue spraying device 73 includes a second glue spraying portion for spraying glue on the upper surface of the third fabric. In order to adhere the single cloth 81 to the second cloth 82, glue is sprayed on both sides of the upper surface of the single cloth 81, specifically, glue is sprayed on both sides of the second glue spraying portion along the length direction of the single cloth 81, so that both sides of the upper surface of the single cloth 81 are adhered to both sides of the second cloth 82 by the second forming device 75.

Preferably, in order to improve the glue spraying efficiency, the second glue spraying part comprises a plurality of second glue spraying heads corresponding to the cloth monomers 81 one by one; the plurality of second glue spraying heads are arranged above the cloth single body 81.

Preferably, in order to improve the glue spraying efficiency, the lower surface of the second glue spraying head forms a second glue output part arranged towards the upper surface of the cloth single body 81.

Preferably, in order to enable the second glue spraying head to evenly glue both sides of the upper surface of the cloth single body 81, the second glue output part comprises a third glue applying part formed on one side of the lower surface of the second glue spraying head and a fourth glue applying part formed on the other side of the lower surface of the second glue spraying head.

Preferably, in order to enable the second glue spraying head to evenly glue two side edges of the upper surface of the cloth single body 81, the third glue applying part comprises a plurality of third glue applying nozzles which are arranged at equal intervals; the fourth glue applying portion comprises a plurality of fourth glue applying nozzles which are arranged at equal intervals.

Preferably, the fourth cloth supplying mechanism 74 includes a plurality of fourth cloth supplying devices corresponding to the respective cloth units 81 one by one. And continuously outputting the cloth connecting body through a fourth cloth supplying device, and finishing edge pressing treatment after connecting with the cloth single body 81.

Preferably, in order to make the supply of the cloth connection more stable, the fourth cloth supply device comprises a second carrier roller carrying the cloth connection.

Preferably, in order to make the supply of the cloth connecting body more stable, the fourth cloth supplying device further comprises a third limiting support rod and a fourth limiting support rod for limiting the cloth connecting body; the cloth connecting body is arranged between the third limiting support rod and the fourth limiting support rod, one end of the second bearing roller is rotatably connected with the third limiting support rod, and the other end of the second bearing roller is rotatably connected with the fourth limiting support rod; particularly, the third limit supporting rod and the fourth limit supporting rod are respectively provided with a replacing opening for taking out and putting in the second bearing roller, so that the cloth connecting body can be conveniently replaced after being used.

Preferably, in order to improve the conveying stability of the cloth connecting body, the fourth cloth supplying mechanism 74 further includes a plurality of cloth connecting body conveying mechanisms which correspond to the fourth cloth supplying devices one by one and vertically convey the cloth connecting body along the conveying direction of the third cloth.

Preferably, the cloth connector conveying mechanism comprises a third conveying device which is contacted with one side surface of the cloth connector and a fourth conveying device which is contacted with the other side surface of the cloth connector. The cloth connecting body is positioned between the third conveying device and the fourth conveying device, and the cloth connecting body is stably conveyed through the third conveying device and the fourth conveying device.

Preferably, in order to make the conveying of the cloth connecting body more stable, the third conveying device comprises a third conveying belt and a fifth power driving device for driving the third conveying belt to rotate; the fourth conveying device comprises a fourth conveying belt and a sixth power driving device for driving the fourth conveying belt to rotate. Specifically, the fifth power driving device comprises a driving wheel, a driven wheel and a driving motor; the third conveying belt is wound around the driving wheel and the driven wheel, and the output end of the driving motor is connected with the driving wheel; the sixth power driving device comprises a driving wheel, a driven wheel and a driving motor; the fourth conveyer belt winding action wheel sets up with following the driving wheel, and driving motor's output links together with the action wheel.

Preferably, the second forming device 75 includes a plurality of second bending devices corresponding to the respective cloth monomers 81 one by one and bending the cloth monomers 81 into a predetermined shape. The single cloth 81 is bent into a shape with two sides gathered upwards by the second bending device, the second cloth 82 of the cloth connector is positioned between the two sides, and the bent single cloth 81 is adhered to the second cloth 82 of the cloth connector.

Preferably, the second bending means includes a second gathering portion that gradually gathers the cloth unit 81 upward and inward. The two side edges of the cloth single body 81 are gradually gathered together upwards and inwards through the second gathering part.

Preferably, two side edges of the cloth monomer 81 and a second opening through which the cloth connecting body passes are formed at the upper end of the second gathering part, and the second gathering part is provided with a second forming cavity of a preset shape after the cloth monomer 81 passes through; the second opening is communicated with the second molding cavity. The cloth monomer 81 passes through the second forming cavity to form an upwards gathered shape, the second cloth 82 of the cloth connector passes through the second opening and then is positioned in the middle of two side edges of the cloth monomer 81, and the two side edges of the cloth monomer 81 are respectively adhered to the upper surface and the lower surface of the second cloth 82 through glue by the second extrusion laminating device.

Preferably, the second molding cavity is inclined gradually upward and inward in the conveying direction of the cloth unit 81. The cloth units 81 are formed into an upwardly gathered shape by the second forming cavity.

Preferably, in order to make the cloth single body 81 more smoothly form an upwardly gathered shape through the second gathering portion, the second gathering portion has a second input port into which the cloth single body 81 and the cloth connecting body enter, and a second output port from which the cloth single body 81 and the cloth connecting body output; the width dimension of the second inlet is larger than the width dimension of the cloth unit 81.

Preferably, in order to improve the processing efficiency, the second gathering part is arranged on one side of the output end of the third cloth.

Preferably, the second forming device 75 further includes a plurality of second extruding and attaching devices which correspond to the second gathering portions one to one and bond the two side edges of the cloth single body 81 and the cloth connecting body together; the second extrusion laminating device is arranged at one end of a second output port of the second gathering part. By the second extrusion attaching device, the two side edges of the cloth single body 81 are extruded toward the second cloth 82, so that the cloth single body 81 is completely attached to the second cloth 82.

Preferably, the second pressing and attaching device includes a third pressing portion for pressing one side surface of the cloth single body 81 and the cloth connecting body, and a fourth pressing portion for pressing the other side surface of the cloth single body 81 and the cloth connecting body. Through the cooperation of the third pressing portion and the fourth pressing portion, the two side edges of the single cloth 81 are pressed toward the second cloth 82, so that the single cloth 81 is completely attached to the second cloth 82.

Preferably, in order to make the pressing fit more effective, the third pressing section includes a plurality of third pressing rollers; the third extrusion roller is connected with the cloth monomer 81 and one side surface of the cloth connector in a rolling manner, and the axis of the third extrusion roller is vertically arranged; the fourth pressing section includes a plurality of fourth pressing rollers; the fourth squeeze roller is connected with the cloth monomer 81 and the other side surface of the cloth connector in a rolling manner, and the axis of the fourth squeeze roller is vertically arranged.

Preferably, in order to make the pressing and attaching effect better, the axis of each third pressing roller is arranged flush with the corresponding fourth pressing roller.

Preferably, a second take-up device 76 is included to take up the binder forming fabric 8 for subsequent use and transport of the binder forming fabric 8.

Preferably, the second furling device 76 comprises a plurality of second furling parts corresponding to the second extrusion coating devices one by one. The corresponding blank-pressing molding cloth 8 is rolled up by the second rolling-up part.

Preferably, the second furling part comprises a second furling roller for furling the blank-pressing forming cloth 8, a third limiting disc for limiting one side of the blank-pressing forming cloth 8, a fourth limiting disc for limiting the other side of the blank-pressing forming cloth 8, a third supporting rod for supporting the third limiting disc, and a fourth supporting rod for supporting the fourth limiting disc; one end of the second winding roller is connected with the third limiting disc, the other end of the second winding roller is connected with the fourth limiting disc, the third limiting disc is rotatably connected with the third supporting rod, and the fourth limiting disc is rotatably connected with the fourth supporting rod. Through the third limiting disc and the fourth limiting disc, the blank pressing forming cloth 8 is always rolled in the space between the third limiting disc and the fourth limiting disc.

Preferably, in order to improve the furling efficiency, the second furling device 76 further comprises a second rotation driving device for driving the plurality of second furling parts to rotate synchronously.

Preferably, the second rotation driving means includes a second auxiliary rotating roller, and a second rotating motor that drives the second auxiliary rotating roller to rotate; the outer circumferential surface of the second auxiliary rotating roller is in rolling connection with the outer circumferential surfaces of the third limiting disc and the fourth limiting disc, and the output end of the second rotating motor is connected with the second auxiliary rotating roller. The second auxiliary rotating roller is driven by the second rotating motor to rotate, and the second auxiliary rotating roller is contacted with the outer circumferential surfaces of the third limiting disc and the fourth limiting disc, so that the second auxiliary rotating roller drives the third limiting disc and the fourth limiting disc to rotate, and the blank pressing forming cloth 8 is collected.

Preferably, in order to improve the stability of the second auxiliary rotating roller, the second rotary driving device is further provided with a fifth support frame body supporting the second auxiliary rotating roller.

Preferably, the third cloth supply device comprises a second carrier roller for supporting a third cloth roll blank, and a third limiting support column and a fourth limiting support column for limiting the whole bundle of third cloth; the upper surface of the third limiting support column forms a third accommodating groove, the upper surface of the fourth limiting support column forms a fourth accommodating groove, one end of the second bearing roller is rotatably connected in the third accommodating groove, and the other end of the second bearing roller is rotatably connected in the fourth accommodating groove. And after the third cloth roll blank is placed on the second bearing roller, one end of the second bearing roller is placed in the third accommodating groove of the third limiting support column, and the other end of the second bearing roller is placed in the fourth accommodating groove of the fourth limiting support column.

Preferably, the third cloth supplying device further comprises a second auxiliary conveying roller and a second abutting driving device for driving the second auxiliary conveying roller to abut against the outer circumferential surface of the third cloth rolling blank; the outer circumferential surface of the second auxiliary conveying roller is connected with the outer circumferential surface of the third cloth roll blank on the second bearing roller in a rolling mode, and the output end of the second abutting driving device is connected with the second auxiliary conveying roller. The second auxiliary conveying roller is driven by the second abutting driving device to always abut against the outer peripheral surface of the third cloth roll blank, so that the output stability of the third cloth roll blank is improved; specifically, the second abutting driving device is driven by a cylinder.

Preferably, in order to improve the structural stability of the second auxiliary conveyor roller, the third cloth feeding device further includes a sixth support frame body supporting the second auxiliary conveyor roller.

The product form of the present invention is not limited to the embodiments and examples shown in the present application, and any suitable changes or modifications of the similar ideas should be made without departing from the patent scope of the present invention.