CN113290947B - Manufacturing system and method for fan sector of folding fan - Google Patents

Abstract

The invention discloses a manufacturing system of a folding fan sector, which relates to the field of folding fan processing and manufacturing, and comprises a front processing module, a processing module and a rear processing module; the front processing module is used for cutting out processed paper; the middle processing module is used for forming composite paper; the final processing module comprises an upper die body and a lower die body, wherein an upper pressing part is arranged at the bottom of the upper die body, and a lower pressing part is arranged at the top of the lower die body; the upper pressing part comprises an upper indentation bulge, the lower pressing part comprises a lower indentation bulge, a paper folding cavity is formed between the upper pressing part and the lower pressing part, and the upper indentation bulge and the lower indentation bulge are arranged in a staggered manner; the finishing module further comprises a capping assembly, a plurality of driving assemblies and a plurality of clamping bars. A method for manufacturing the fan sector of the folding fan is also disclosed. The invention has the advantages of high automation degree, high processing efficiency and good processing effect.

Description

Manufacturing system and method for fan sector of folding fan

Technical Field

The invention relates to the technical field of folding fan processing and manufacturing, in particular to a system and a method for manufacturing a folding fan sector.

Background

The folding fan is also called as a folding fan, namely a scattering fan, a paper fan, a cymene fan, a pinching fan, a folding fan, a head gathering fan, a bone gathering fan, a sub-fan, a cyclone fan and a tight head fan, and is a folding fan with bamboo or ivory as fan ribs, tough paper or silk as fan surfaces; when in use, the powder needs to be spread into a semi-regular shape, and the powder is gathered to be scattered to the tail. The Chinese folding fan is very popular in many countries, the effect of the folding fan in inducing wind and cooling is far less straightforward than that of a fanning, the folding fan is separated from the intent of the fanning, one side of the folding fan is painted, the other side of the folding fan is possibly blank, the folding fan is an improvement on the practical basis, the folding fan is a loading point for life beautification, is a luxury article hung between the waist of the times, and becomes a certain kind of complete emotional or cultural thing. The existing folding fan is complex in production process and low in processing and manufacturing efficiency, the manufactured fan surface needs to be manually drawn out of the holes and reserved fan rib holes are formed, so that the folding fan rib can penetrate, but deformation is easily generated at the crease of the fan surface during manual operation, the whole fan surface is inconvenient for subsequent artistic creation, and meanwhile, the ink wetting property of the whole fan-shaped paper of the folding fan is also high in requirement.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a system and a method for manufacturing a fan sector of a folding fan.

A manufacturing system of a folding fan sector comprises a front processing module, a processing module and a rear processing module; the front processing module is used for cutting out fan-shaped processed paper on preset paper; the middle processing module is used for integrally overlapping and bonding a plurality of pieces of processing paper by using a preset adhesive to form composite paper; the final processing module comprises an upper die body and a lower die body which can be lifted, wherein an upper pressing part is arranged at the bottom of the upper die body, and a lower pressing part is arranged at the top of the lower die body; the upper pressing part comprises a plurality of upper indentation protrusions which are sequentially arranged, the lower pressing part comprises a plurality of lower indentation protrusions which are sequentially arranged, after the upper die body and the lower die body move to a preset distance in opposite directions, a paper folding cavity is formed between the upper pressing part and the lower pressing part, the upper indentation protrusions and the lower indentation protrusions are arranged in a staggered manner, and the upper indentation protrusions and the lower indentation protrusions are used for pressing the composite paper out of a plurality of folds in the paper folding cavity by utilizing the tops of the upper indentation protrusions and the tops of the lower indentation protrusions; the last processing module further comprises a pressing top assembly, a plurality of driving assemblies and a plurality of clamping strips, wherein the pressing top assembly is used for fixing the composite paper in the paper folding cavity, the clamping strips are used for being clamped into the composite paper from the end parts of the composite paper, and the driving assemblies are used for driving the clamping strips to move along the inner surface of the composite paper so that the clamping strips dig out fan skeleton tracks in the composite paper. The preset paper material can be selected from raw rice, cooked rice and semi-cooked rice; the composite paper formed by overlapping and bonding the processed paper of different preset paper materials has different ink wetting properties, corresponding different selections are carried out by finally creating artistic categories on the surface of the folio, and meanwhile, the used preset adhesive can be freely selected according to the needs, and quick-drying adhesive is generally adopted; the preset distance is freely selected according to the thickness of the paper and is generally larger than 0.5-1.5 mm of the thickness of the composite paper; the size of the clamping strip is set according to the thickness of the paper, and the end part of the clamping strip is smooth and provided with a round angle.

Specifically, the clamping strip is made of ferromagnetic materials, and the driving assembly comprises an upper magnetic driving structure arranged in the upper die body and a lower magnetic driving structure arranged in the lower die body; after the upper die body and the lower die body move to a preset distance in opposite directions, the upper magnetic driving structure and the lower magnetic driving structure are opposite to each other and used for driving the clamping strips between the upper die body and the lower die body to move. The clamping strip is made of ferromagnetic materials, so that the lower magnetic driving structure and the upper magnetic driving structure can be utilized to simultaneously pull the ferromagnetic materials, the clamping strip can move more stably, and the fan rib holes can be formed in the clamping strip more reliably.

Specifically, the upper magnetic drive structure includes: an upper slideway arranged in the upper die body; the upper screw rod is arranged in the upper slideway; an upper magnet penetrating the upper screw rod; the upper screw rod is connected with a power source, the bottom surface of the upper slide way is parallel to the side surface of the upper indentation bulge, the extending direction of the upper screw rod is consistent with the extending direction of the side surface of the upper indentation bulge, and the upper magnet is used for attracting the clamping strip. The power source moves to drive the upper screw rod to rotate, and the upper magnet moves along the center line of the upper screw rod after the upper screw rod rotates, so that the traction clamping strip moves along the center line of the upper screw rod together.

Specifically, the lower magnetic drive structure includes: a lower slideway arranged in the lower die body; the lower screw rod is arranged in the lower slideway; a lower magnet penetrating the lower screw rod; the lower screw rod is connected with a power source, the bottom surface of the lower slide way is parallel to the side surface of the lower indentation bulge, the extending direction of the lower screw rod is consistent with the extending direction of the side surface of the lower indentation bulge, and the lower magnet is used for attracting the clamping strip. Similarly, the power source moves to drive the lower screw rod to rotate, and the lower magnet moves along the center line of the lower screw rod after the lower screw rod rotates, so that the traction clamping strip moves along the center line of the lower screw rod together.

Specifically, the front processing module comprises a first cutting device, a second cutting device and a third cutting device; the first cutting device is used for cutting out fan-shaped first processed paper on raw rice paper; the second cutting device is used for cutting out second processed paper in a fan shape on the semi-cooked rice paper; the third cutting device is used for cutting out a third processed paper in a fan shape on the cooked rice paper; the middle processing module is used for integrally overlapping and bonding the first processing paper, the second processing paper and the third processing paper by using a preset adhesive to form the composite paper. The first cutting device, the second cutting device and the third cutting device are used for cutting raw Xuan paper, semi-cooked Xuan paper and cooked Xuan paper respectively, so that the composite paper has the performances of raw Xuan paper, semi-cooked Xuan paper and cooked Xuan paper simultaneously.

Specifically, a third processed sheet is located between the first processed sheet and the second processed sheet. When the cooked rice paper is positioned in the middle, the ink wetting property can be improved, and the traditional Chinese painting and the deliberate wind and water can be conveniently created on the folding fan in the follow-up process.

Specifically, the upper pressing part is provided with a fan-shaped upper processing area, a plurality of upper indentation bulges are sequentially arranged inside the upper processing area, the lower pressing part is provided with a fan-shaped lower processing area, and a plurality of lower indentation bulges are sequentially arranged inside the lower processing area. The processing area is fan-shaped, can be through the contrast cover, place the compound paper on the processing position fast to the phase change improves machining efficiency.

Also provided is a method for manufacturing the fan sector of the folding fan, comprising the following steps: s1, cutting out a plurality of fan-shaped processing paper sheets, selecting a plurality of processing paper sheets, overlapping and bonding the processing paper sheets into a whole by using a preset adhesive to form composite paper sheets, and heating and drying for 10-15 min; s2, placing the dried composite paper on a pressing part of a lower die body, then enabling the upper die body and the lower die body to move in opposite directions, and extruding the composite paper by interlacing upper indentation bulges and lower indentation bulges so that the composite paper is extruded with a plurality of folds; s3, stretching and bonding a plurality of pieces of integrated processing paper from the inner side surface of the composite paper to form an inlet, slowly clamping the heads of the clamping strips into the composite paper from the inlet until the clamping strips are completely immersed into the composite paper, wherein the number of the inlets is 5-10, and the clamping strips are respectively clamped into the inlets; s4, starting power sources of the driving assemblies, wherein the upper magnet and the lower magnet start to move and jointly attract the clamping strips to move along, so that a plurality of fan skeleton channels are formed; s5, respectively inserting the fan frameworks into the fan framework channels and bonding the fan frameworks into a whole to form the folding fan.

Specifically, S1 includes: s11, cutting out first processing paper in a fan shape on raw Xuan paper, cutting out second processing paper in a fan shape on semi-cooked Xuan paper, and cutting out third processing paper in a fan shape on cooked Xuan paper; s12, overlapping the first processing paper, the third processing paper and the second processing paper by taking the third processing paper as the center, adhering the first processing paper, the third processing paper and the second processing paper into a whole by using glutinous rice paste to form composite paper, and finally heating and drying for 10-15 min.

Specifically, S3 further includes: and starting the capping assembly to compact the periphery of the composite paper so as to fix the composite paper.

The beneficial effects of the invention are as follows:

in the invention, the folding fan processing and manufacturing are completed through the front processing module, the processing module and the last processing module, the processing and manufacturing efficiency is effectively improved, specifically, firstly, fan-shaped processing paper is cut out on a preset paper through the front processing module, then a plurality of processing papers are overlapped and bonded into a whole through the middle processing module, so as to form composite paper, then the composite paper is moved between an upper die body and a lower die body through a device or manually, in particular, the composite paper is required to face an upper pressing part and a lower pressing part, then the upper die body and the lower die body are moved to a preset distance in a opposite direction, the upper indentation bulge and the lower indentation bulge are staggered, so that the composite paper is extruded by the top of the upper indentation bulge and the top of the lower indentation bulge to form a crease, further, after the crease of the composite paper is formed, the upper die body is controlled to move upwards, then the top pressing assembly presses the periphery of the composite paper, so that the composite paper is fixed in a crease cavity, then a clamping strip is clamped into the composite paper from the end part, and finally, the clamping strip is driven by a driving structure to form a fan-shaped channel in the composite paper; to sum up, form the folding fan crease fast through last pressure portion and pressure portion down, further improve processing manufacturing efficiency, simultaneously in the further course of working of folding fan, drive the fan bone hole that the card strip motion formed through driving structure, replaced the manual work and drawn out the fan bone hole, not only make the fan bone hole that processes out straighter, can also effectively avoid the hole slope that manual operation caused and the emergence of the condition such as sector perforation, moreover through the spacing effect of pressure top subassembly, pressure portion and pressure portion down, prevent that the card strip from drawing the fan bone hole in-process, whole compound paper takes place to warp, thereby the phase change improves the sector roughness.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a schematic diagram of the composition of a manufacturing system of the present invention;

FIG. 2 is a rear view of the upper and lower mold bodies of the present invention after they are assembled;

FIG. 3 is a front view of the upper and lower mold bodies of the present invention after they are assembled;

FIG. 4 is a cross-sectional view of the structure of FIG. 3 taken along the direction A-A in accordance with the present invention;

FIG. 5 is a top view of the lower mold body of the present invention;

FIG. 6 is a cross-sectional view of the structure of the present invention in the direction B-B in FIG. 5;

FIG. 7 is a schematic view of the structure of the card strip of the present invention with the paper being pulled away from the side of the composite paper and inserted;

FIG. 8 is a flow chart of the steps of the manufacturing method of the present invention.

Reference numerals:

1-front processing module, 11-first cutting device, 12-second cutting device, 13-third cutting device, 2-middle processing module, 3-last processing module, 31-capping subassembly, 32-driving subassembly, 321-upper magnetic driving structure, 3211-upper slide, 3212-upper lead screw, 3213-upper magnet, 322-lower magnetic driving structure, 3221-lower slide, 3222-lower lead screw, 3223-lower magnet, 33-clamping strip, 4-upper die body, 41-upper pressing part, 411-upper indentation bulge, 5-lower die body, 51-lower pressing part, 511-lower indentation bulge, 6-paper folding cavity, 7-first processing paper, 8-second processing paper and 9-third processing paper.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In describing embodiments of the present invention, it should be noted that the directions or positional relationships indicated by the terms "inner", "outer", "upper", etc. are directions or positional relationships based on those shown in the drawings, or those that are conventionally put in place when the inventive product is used, are merely for convenience of description and simplification of description, and are not indicative or implying that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

As shown in fig. 1 to 8, a manufacturing system of a fan sector includes a front processing module 1, a processing module 2 and an end processing module 3; the front processing module 1 is used for cutting out fan-shaped processed paper on preset paper; the middle processing module 2 is used for overlapping and bonding a plurality of pieces of processing paper into a whole by using a preset adhesive to form composite paper; the final processing module 3 comprises an upper die body 4 and a lower die body 5 which can be lifted, wherein an upper pressing part 41 is arranged at the bottom of the upper die body 4, and a lower pressing part 51 is arranged at the top of the lower die body 5; the upper pressing part 41 comprises a plurality of upper indentation protrusions 411 which are sequentially arranged, the lower pressing part 51 comprises a plurality of lower indentation protrusions 511 which are sequentially arranged, when the upper die body 4 and the lower die body 5 move towards each other to a preset distance, a paper folding cavity 6 is formed between the upper pressing part 41 and the lower pressing part 51, the upper indentation protrusions 411 and the lower indentation protrusions 511 are arranged in a staggered manner, and the top of the upper indentation protrusions 411 and the top of the lower indentation protrusions 511 are used for pressing the composite paper into a plurality of folds in the paper folding cavity 6, so that the composite paper with the folds can be folded and folded along the folds; the finishing module 3 further comprises a capping assembly 31, a plurality of driving assemblies 32 and a plurality of clamping bars 33, wherein the capping assembly 31 is used for fixing the composite paper in the paper folding cavity 6, the clamping bars 33 are used for clamping the composite paper from the end part into the inner part, and the driving assemblies 32 are used for driving the clamping bars 33 to move along the inner surface of the composite paper so as to enable the clamping bars 33 to dig out fanning tracks in the composite paper.

In the embodiment, the whole manufacturing system completes the processing and manufacturing of the folding fan through the front processing module 1, the processing module 2 and the final processing module 3, has higher automation degree, effectively improves the processing and manufacturing efficiency, specifically, firstly cuts out fan-shaped processed paper on preset paper through the front processing module 1, the preset paper can select raw rice, cooked rice and half cooked rice, and then the processing module 2 is used for overlapping and bonding a plurality of pieces of processed paper into a whole, thereby forming composite paper, wherein the composite paper formed by overlapping and bonding the processed paper of different preset paper has different ink wettability, corresponding different selections are carried out through the artistic creation type of the surface of the final folding fan, meanwhile, the preset adhesive used can be freely selected according to the requirement, and quick-drying adhesive is generally adopted, the composite paper is then moved between the upper die body 4 and the lower die body by a device or manually, in particular, the composite paper needs to be opposite to the upper pressing part 41 and the lower pressing part 51, then the upper die body 4 and the lower die body are moved towards each other to a preset distance, wherein the preset distance is freely selected according to the thickness of the paper and is generally greater than 0.5-1.5 mm, the upper indentation protrusion 411 and the lower indentation protrusion 511 are staggered, the composite paper is extruded by the top of the upper indentation protrusion 411 and the top of the lower indentation protrusion 511 to form a crease, further, after the crease of the composite paper is formed, the upper die body 4 is controlled to move upwards by 1-3 mm, then the pressing assembly 31 is pressed around the composite paper to be fixed in the paper folding cavity 6, then the clamping strip 33 is clamped into the composite paper from the end of the composite paper, wherein the clamping strip 33 is set according to the thickness of the paper, the end of the clamping strip 33 is smooth and provided with a round corner, finally the clamping strip 33 is driven by a driving structure, forming a fan rib channel in the composite paper; in conclusion, form the folding fan crease fast through last pressure portion 41 and push down portion 51, further improve processing manufacturing efficiency, simultaneously in the further course of working to the folding fan, drive the fan bone hole that card strip 33 motion formed through driving structure, replaced the manual work and draw out the fan bone hole, not only make the fan bone hole of working straighter, can also effectively avoid the hole slope that manual operation caused and the emergence of the circumstances such as fan perforation, moreover through the spacing effect of pressure head subassembly 31, last pressure portion 41 and push down portion 51, prevent card strip 33 in drawing the fan bone hole in-process, whole compound paper takes place to warp, thereby the phase change improves the fan flatness.

Specifically, the clamping strip 33 is made of ferromagnetic material, and the driving assembly 32 comprises an upper magnetic driving structure 321 arranged inside the upper die body 4 and a lower magnetic driving structure 322 arranged inside the lower die body; after the upper mold body 4 and the lower mold body 5 move to a predetermined distance, the upper magnetic driving structure 321 and the lower magnetic driving structure 322 are opposite to each other, so as to drive the clamping bar 33 therebetween to move.

In this embodiment, the clip 33 is made of ferromagnetic material, so that the lower magnetic driving structure 322 and the upper magnetic driving structure 321 can be utilized to simultaneously pull the ferromagnetic material, so that the movement of the clip 33 is more stable, and the clip 33 is more reliably drawn out of the fan-shaped hole.

Specifically, the upper magnetic drive structure 321 includes: an upper slide 3211 provided inside the upper die body 4; an upper screw rod 3212 provided inside the upper slide 3211; an upper magnet 3213 penetrating the upper screw rod 3212; wherein, the upper screw rod 3212 is connected with a power source, the bottom surface of the upper slide way 3211 is parallel to the side surface of the upper indentation protrusion 411, the extending direction of the upper screw rod 3212 is consistent with the extending direction of the side surface of the upper indentation protrusion 411, and the upper magnet 3213 is used for attracting the clamping strip 33.

In this embodiment, the power source moves to drive the upper screw rod 3212 to rotate, and the upper magnet 3213 moves along the center line of the upper screw rod 3212 after the upper screw rod 3212 rotates, so that the traction clip 33 moves along the center line of the upper screw rod 3212.

Specifically, the lower magnetic drive structure 322 includes: a glidepath 3221 arranged inside the lower die body; a lower screw 3222 provided inside the lower slide 3221; a lower magnet 3223 penetrating the lower screw rod 3222; wherein, lower lead screw 3222 is connected with the power supply, and glide slope 3221 bottom surface is parallel with lower indentation arch 511 side, and lower lead screw 3222 extending direction is unanimous with lower indentation arch 511 side extending direction, and lower magnet 3223 is used for attracting card strip 33.

In this embodiment, similarly, the power source moves to drive the lower screw rod 3222 to rotate, and the lower magnet 3223 moves along the center line of the lower screw rod 3222 after the lower screw rod 3222 rotates, so that the traction clamping bar 33 moves along the center line of the lower screw rod 3222 together.

Specifically, the pre-processing module 1 includes a first clipping device 11, a second clipping device 12, and a third clipping device 13; the first cutting device 11 is used for cutting out a first processed paper 7 in a fan shape on raw rice paper; the second cutting device 12 is used for cutting out a second processed paper 8 in a fan shape on the semi-cooked rice paper material; the third cutting device 13 is used for cutting out a third processed paper 9 in a fan shape on the cooked rice paper; the middle processing module 2 is used for overlapping and bonding the first processing paper 7, the second processing paper 8 and the third processing paper 9 into a whole by using a preset adhesive to form composite paper.

In the present embodiment, the first cutting device 11, the second cutting device 12, and the third cutting device 13 cut the raw rice paper material, the semi-cooked rice paper material, and the cooked rice paper material, respectively, so that the composite paper has the properties of the raw rice paper material, the semi-cooked rice paper material, and the cooked rice paper material.

Specifically, the third processed sheet 9 is located between the first processed sheet 7 and the second processed sheet 8.

In this embodiment, when the cooked rice paper is located in the middle, the ink-wetting property can be improved, and the traditional Chinese painting and the deliberate wind and water can be conveniently created on the folding fan later.

Specifically, the upper pressing part 41 is provided with an upper processing region in a fan shape, the plurality of upper indentation protrusions 411 are sequentially arranged inside the upper processing region, the lower pressing part 51 is provided with a lower processing region in a fan shape, and the plurality of lower indentation protrusions 511 are sequentially arranged inside the lower processing region.

In the present embodiment, the processing area is in a fan shape, and the composite paper can be quickly placed at the processing position by contrast coverage, so that the processing efficiency is improved by phase change.

Also provided is a method for manufacturing the fan sector of the folding fan, comprising the following steps:

s1, cutting out a plurality of fan-shaped processing paper sheets, selecting a plurality of processing paper sheets, overlapping and bonding the processing paper sheets into a whole by using a preset adhesive to form composite paper sheets, and heating and drying for 10-15 min;

s2, placing the dried composite paper on a pressing part 51 of a lower die body 5, and then enabling the upper die body 4 and the lower die body 5 to move in opposite directions, and extruding the composite paper by interlacing an upper indentation protrusion 411 and a lower indentation protrusion 511 to enable the composite paper to be extruded with a plurality of folds;

s3, stretching and bonding a plurality of pieces of integrated processing paper from the inner side surface of the composite paper to form an inlet, slowly clamping the heads of the clamping strips 33 from the inlet into the composite paper until all the clamping strips are immersed into the composite paper, wherein the number of the inlet is 5-10, and the clamping strips 33 are respectively clamped into the inlets;

s4, starting the power sources of the plurality of driving assemblies 32, wherein the upper magnet 3213 and the lower magnet 3223 start to move and jointly attract the clamping strips 33 to move along, so that a plurality of fan skeleton paths are formed;

s5, respectively inserting the fan frameworks into the fan framework channels and bonding the fan frameworks into a whole to form the folding fan.

Specifically, S1 includes:

s11, cutting out a first processing paper 7 in a fan shape on raw Xuan paper, cutting out a second processing paper 8 in a fan shape on semi-cooked Xuan paper, and cutting out a third processing paper 9 in a fan shape on cooked Xuan paper;

s12, taking the third processing paper 9 as a center, overlapping the first processing paper 7, the third processing paper 9 and the second processing paper 8, adhering the first processing paper, the third processing paper 9 and the second processing paper into a whole by using glutinous rice paste, forming composite paper, and finally heating and drying for 10-15 min.

Specifically, S3 further includes: the capping assembly 31 is activated to compact the circumference of the composite sheet so that the composite sheet is held in place.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention, and are intended to be included within the scope of the appended claims and description.

Claims (9)

1. The processing and manufacturing system of the folding fan is characterized by comprising a front processing module, a processing module and a rear processing module; wherein,,

the front processing module is used for cutting out fan-shaped processed paper on preset paper;

the middle processing module is used for integrally overlapping and bonding a plurality of pieces of processing paper by using a preset adhesive to form composite paper;

the final processing module comprises an upper die body and a lower die body which can be lifted, wherein an upper pressing part is arranged at the bottom of the upper die body, and a lower pressing part is arranged at the top of the lower die body;

the upper pressing part comprises a plurality of upper indentation protrusions which are sequentially arranged, the lower pressing part comprises a plurality of lower indentation protrusions which are sequentially arranged, after the upper die body and the lower die body move to a preset distance in opposite directions, a paper folding cavity is formed between the upper pressing part and the lower pressing part, the upper indentation protrusions and the lower indentation protrusions are arranged in a staggered manner, and the upper indentation protrusions and the lower indentation protrusions are used for pressing the composite paper out of a plurality of folds in the paper folding cavity by utilizing the tops of the upper indentation protrusions and the tops of the lower indentation protrusions;

the final processing module further comprises a pressing top assembly, a plurality of driving assemblies and a plurality of clamping strips, wherein the pressing top assembly is used for fixing the composite paper in the paper folding cavity, the clamping strips are used for being clamped into the composite paper from the end parts of the composite paper, and the driving assemblies are used for driving the clamping strips to move along the inner surface of the composite paper so as to enable the clamping strips to dig out fan skeleton channels in the composite paper;

the clamping strip is made of ferromagnetic materials, and the driving assembly comprises an upper magnetic driving structure arranged in the upper die body and a lower magnetic driving structure arranged in the lower die body; after the upper die body and the lower die body move to a preset distance in opposite directions, the upper magnetic driving structure and the lower magnetic driving structure are opposite to each other and used for driving the clamping strips between the upper die body and the lower die body to move.

2. The manufacturing system of a folding fan according to claim 1, wherein the upper magnetic driving structure comprises:

an upper slideway arranged in the upper die body;

the upper screw rod is arranged in the upper slideway; and

an upper magnet penetrating the upper screw rod; wherein,,

the upper screw rod is connected with a power source, the bottom surface of the upper slide way is parallel to the side surface of the upper indentation bulge, the extending direction of the upper screw rod is consistent with the extending direction of the side surface of the upper indentation bulge, and the upper magnet is used for attracting the clamping strip.

3. The manufacturing system of a folding fan according to claim 1, wherein the lower magnetic driving structure comprises:

a lower slideway arranged in the lower die body;

the lower screw rod is arranged in the lower slideway; and

a lower magnet penetrating the lower screw rod; wherein,,

the lower screw rod is connected with a power source, the bottom surface of the lower slide way is parallel to the side surface of the lower indentation bulge, the extending direction of the lower screw rod is consistent with the extending direction of the side surface of the lower indentation bulge, and the lower magnet is used for attracting the clamping strip.

4. The manufacturing system of the folding fan according to claim 1, wherein the front processing module includes a first cutting device, a second cutting device, and a third cutting device; wherein,,

the first cutting device is used for cutting out fan-shaped first processed paper on raw rice paper;

the second cutting device is used for cutting out second processed paper in a fan shape on the semi-cooked rice paper;

the third cutting device is used for cutting out a third processed paper in a fan shape on the cooked rice paper;

the middle processing module is used for integrally overlapping and bonding the first processing paper, the second processing paper and the third processing paper by using a preset adhesive to form the composite paper.

5. The manufacturing system of the folding fan according to claim 4, wherein the third processed sheet is located between the first processed sheet and the second processed sheet.

6. The manufacturing system of a folding fan according to any one of claims 1 to 5, wherein the upper pressing portion is provided with an upper processing area having a fan shape, a plurality of the upper indentation protrusions are sequentially arranged inside the upper processing area, the lower pressing portion is provided with a lower processing area having a fan shape, and a plurality of the lower indentation protrusions are sequentially arranged inside the lower processing area.

7. A method for manufacturing a folding fan, characterized in that the manufacturing system for manufacturing a folding fan according to any one of claims 1 to 6 is used, comprising the steps of:

s1, cutting out a plurality of fan-shaped processing paper sheets, selecting a plurality of processing paper sheets, overlapping and bonding the processing paper sheets into a whole by using a preset adhesive to form composite paper sheets, and heating and drying for 10-15 min;

s2, placing the dried composite paper on a pressing part of a lower die body, then enabling the upper die body and the lower die body to move in opposite directions, and extruding the composite paper by interlacing upper indentation bulges and lower indentation bulges so that the composite paper is extruded with a plurality of folds;

s3, stretching and bonding a plurality of pieces of integrated processing paper from the inner side surface of the composite paper to form an inlet, slowly clamping the heads of the clamping strips into the composite paper from the inlet until the clamping strips are completely immersed into the composite paper, wherein the number of the inlets is 5-10, and the clamping strips are respectively clamped into the inlets;

s4, starting power sources of the driving assemblies, wherein the upper magnet and the lower magnet start to move and jointly attract the clamping strips to move along, so that a plurality of fan skeleton channels are formed;

s5, respectively inserting the fan frameworks into the fan framework channels and bonding the fan frameworks into a whole to form the folding fan.

8. The method of manufacturing a folding fan according to claim 7, wherein S1 includes:

s11, cutting out first processing paper in a fan shape on raw Xuan paper, cutting out second processing paper in a fan shape on semi-cooked Xuan paper, and cutting out third processing paper in a fan shape on cooked Xuan paper;

s12, overlapping the first processing paper, the third processing paper and the second processing paper by taking the third processing paper as the center, adhering the first processing paper, the third processing paper and the second processing paper into a whole by using glutinous rice paste to form composite paper, and finally heating and drying for 10-15 min.

9. The method of manufacturing a folding fan according to claim 7, wherein S3 further comprises: and starting the capping assembly to compact the periphery of the composite paper so as to fix the composite paper.