CN119858354B - Woven bag cutting integrated processing device - Google Patents

Abstract

The invention belongs to the technical field of woven bag processing, and discloses a woven bag cutting integrated processing device which comprises cutting equipment and a base. According to the invention, through the cooperation of the two turnover assemblies and the first turnover assembly, the infusion shaft of the motor drives the two gears to rotate, one gear rotates the outer ring through the spring clamp spring, the first support is pulled by the metal rod, the second support drives the limiting shaft to clamp the stacked woven fabrics, the supporting cylinder drives the spring telescopic rod to turn over, one end of the woven fabrics is turned over, the limiting shaft is turned over preferentially, one end of the woven fabrics is pressed on the top of the woven fabrics again after being turned over, the labor force for manual folding is reduced, the damage to a human body caused by work is reduced, and after the woven fabrics are stacked, the two limiting shafts are matched with the one end of the woven fabrics to clamp the woven fabrics, further, the woven fabrics are prevented from sliding off when being turned over, and meanwhile, the working stability of the device is improved.

Description

Woven bag cutting integrated processing device

Technical Field

The invention belongs to the technical field of woven bag processing, and particularly relates to a woven bag cutting integrated processing device.

Background

The woven bag is widely used in the fields of cement packaging, grain transportation, chemical industry corrosion prevention and the like, if special functions are needed, aluminum plating, yarn weaving and other processes can be selected, the woven bag is usually made of special materials such as polypropylene, polyethylene, reworked materials and the like, PP/PE particles are generally melted and extruded into a film, the film is cooled, cut into strips, heated and stretched into flat yarns, the flat yarns are woven into cloth through a circular loom or a flat loom, and the cloth is sewn or heat-sealed into a bag, so that the woven bag has stronger tensile property and is quite common in the market;

In the prior art, after flat silk is woven into cloth, the flat silk is cut into cloth pieces with uniform size by a cutting machine so as to facilitate subsequent sewing and heat sealing, and after being cut into pieces, the flat silk is stacked on a workbench, and after being accumulated to a certain number, the flat silk is manually folded, is placed in a working area and waits for subsequent work, but the working step requires manual continuous bending, so that the flat silk is folded more regularly, correspondingly, the cost of manual labor is huge, the long-term bending also can cause irreversible injury to human body, and therefore, the integrated processing device for cutting the woven bags is provided

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides an integrated processing device for cutting the woven bag, which solves the problems that the woven bag is folded manually and is required to be bent continuously, so that the woven bag is folded regularly, the labor cost is correspondingly high, and the woven bag is bent for a long time and can cause injury to a human body.

In order to achieve the aim, the invention provides the technical scheme that the woven bag cutting integrated processing device comprises cutting equipment, a base and a woven bag cutting device;

A drive assembly mounted on top of the base;

the arrangement assembly is arranged on the driving assembly;

the bearing plate is arranged at the top of the driving assembly, and the woven cloth is arranged at the top of the bearing plate;

the support component is arranged at the top of the base;

The support assembly comprises a second bracket fixedly arranged at the top of the base, and the arrangement assembly positioned on the long side is provided with two symmetrical limiting shafts IV;

the second turnover assembly is arranged at the top of the base;

the second turnover assembly comprises two meshed gears and a motor fixedly arranged at the top of the second bracket, and one gear is connected to an output shaft of the motor in a transmission way;

The top of the second bracket is rotatably provided with a supporting cylinder, the inside of the supporting cylinder is rotatably provided with an outer ring, the inner wall of the outer ring is elastically connected with a gear which is not in transmission connection with the motor output shaft through a spring clamp spring, the periphery of the supporting cylinder is elastically connected with a limiting cylinder through a spring telescopic rod, the inside of the limiting cylinder is movably penetrated with a metal rod, the upper end and the lower end of the metal rod are respectively connected with a limiting shaft III through a first bracket, the outer sides of the first brackets are elastically connected through a second spring piece, and the side surface of the metal rod is connected with the outer ring through a steel cable;

the first turnover assembly is arranged at the top of the base;

The output shaft of the motor drives the first turnover component to turn over the first turnover woven cloth, and the first turnover speed of the first turnover component is smaller than the rotation speed of the output shaft of the motor.

Preferably, the spring telescopic rod is hinged with the limiting cylinder, the limiting cylinder is limited by the spring telescopic rod in the second folding component waiting for folding the woven cloth to be folded only downwards, and the second folding component further comprises a third spring piece elastically connected to the bottom of the spring telescopic rod and the bottom of the limiting cylinder.

Preferably, the metal rod is hinged with the two first brackets, and each third limiting shaft is rotatably installed on the first bracket respectively.

Preferably, the first turnover assembly comprises a first limit shaft rotatably mounted at the top of a second support, the first limit shaft is in transmission connection with an output shaft of the motor through a belt, a support frame is connected to the periphery of the first limit shaft in transmission mode, the upper end and the lower end of the side face of the support frame are respectively rotatably provided with a second limit shaft, and stacked woven fabrics can be placed in a gap between the two limit shafts.

Preferably, the edge of the bearing plate is made of rubber, the lower end of the limiting shaft is located at the bottom of the bearing plate, the supporting assembly further comprises a limiting sleeve installed at the top of the second support frame, and the limiting sleeve is located outside the advancing route of the second limiting shaft after the second support frame rotates.

Preferably, the first folding component further comprises a support hinged to the top of the support frame, and the middle of the support is elastically connected with the support frame through a first spring piece.

Preferably, the driving assembly comprises a double-shaft motor fixedly arranged at the top of the base, the top of an output shaft of the double-shaft motor is connected to the bottom of the bearing plate through a reciprocating threaded shaft II in a threaded manner, and the top of the double-shaft motor is movably connected to the bottom of the bearing plate through a telescopic rod.

Preferably, the drive assembly further comprises a bearing ring arranged at the bottom of the output shaft of the double-shaft motor in a transmission manner, the arrangement assembly comprises a limiting rod arranged at the periphery of the bearing ring, a limiting plate is hinged to the top of the limiting rod through a guide rod, and the limiting plate is movably clamped to the top of the second bracket.

Compared with the prior art, the invention has the following beneficial effects:

According to the invention, through the cooperation of the two turnover assemblies and the first turnover assembly, the infusion shaft of the motor drives the two gears to rotate, one gear rotates the outer ring through the spring clamp spring, the first support is pulled by the metal rod, the second support drives the limiting shaft to clamp the stacked woven fabrics, the supporting cylinder drives the spring telescopic rod to turn over, one end of the woven fabrics is turned over, the limiting shaft is turned over preferentially, one end of the woven fabrics is pressed on the top of the woven fabrics again after being turned over, the labor force for manual folding is reduced, the damage to a human body caused by work is reduced, and after the woven fabrics are stacked, the two limiting shafts are matched with the one end of the woven fabrics to clamp the woven fabrics, further, the woven fabrics are prevented from sliding off when being turned over, and meanwhile, the working stability of the device is improved.

According to the invention, through the cooperation of the structures such as the driving assembly and the finishing assembly, the double-shaft motor drives the bearing plate to reciprocate up and down through the reciprocating threaded shaft II, the double-shaft motor forces the bearing ring to reciprocate up and down through the reciprocating threaded shaft I, the bearing ring pulls the lower end of the guide rod to descend through the limiting rod, the top of the bearing ring pulls the limiting plate to move, the thread pitch on the reciprocating threaded shaft I is the same as that on the reciprocating threaded shaft II, but the thread length on the reciprocating threaded shaft I is greater than that on the reciprocating threaded shaft II, the frequency of the up-down movement of the bearing plate is greater than that of the limiting plate, and gaps are reserved between the weaving fabrics while the bearing plate moves up and down, so that the limiting plate can push the edges of the stacked weaving fabrics, and when the four limiting plates push for a long time at the same time, the edges of the stacked weaving fabrics are gradually flush, so that subsequent manual taking and clamping during folding are more convenient.

Drawings

FIG. 1 is a schematic view of the appearance structure of the present invention;

FIG. 2 is a schematic view of the top structure of the base of the present invention;

FIG. 3 is a schematic view of a second structure of a second folding assembly on the top of the second bracket of the present invention;

FIG. 4 is a schematic view of a structure of the folding assembly of the present invention;

FIG. 5 is a schematic view of the internal structure of the limiting cylinder of the present invention;

FIG. 6 is a schematic view of a second working state of the first and second folding assemblies of the present invention;

FIG. 7 is a cross-sectional view of a second operational state of the first and second hinge assemblies of the present invention;

FIG. 8 is a schematic diagram of the driving assembly and the carrier structure of the present invention.

The device comprises a base, a driving component, a double-shaft motor, a reciprocating screw shaft I, a reciprocating screw shaft 23, a reciprocating screw shaft II, a 24, a bearing ring, a 25, a telescopic rod, a 3, a sorting component, a 31, a limiting rod, a 32, a guide rod, a 33, a limiting plate, a 4, a turnover component I, a 41, a limiting shaft I, a 42, a belt, a 43, a supporting frame, a 44, a limiting shaft II, a 45, a spring piece I, a 46, a bracket, a 5, a turnover component II, a 51, a motor, a 52, a gear, a 53, a spring clip, a 54, an outer ring, a 55, a supporting cylinder, a 56, a steel cable, a 57, a spring telescopic rod, a 58, a limiting cylinder, a 59, a metal rod, a 50, a bracket I, a spring piece II, a 502, a limiting shaft III, a 503, a 6, a supporting component, a 61, a bracket II, a 62, a limiting sleeve, a 63, a limiting shaft IV, a 7, a bearing plate, a 8, a cutting equipment, a 9 and a woven cloth.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

As shown in fig. 1 to 8, the invention provides a woven bag cutting integrated processing device, which comprises a cutting device 8, a base 1 and a woven bag cutting device;

A driving assembly 2 mounted on top of the base 1;

a finishing assembly 3 provided on the driving assembly 2;

the bearing plate 7 is arranged at the top of the driving assembly 2, and the woven cloth 9 is arranged at the top of the bearing plate 7;

A support assembly 6 disposed on top of the base 1;

the support component 6 comprises a second bracket 61 fixedly arranged on the top of the base 1, and the arrangement component 3 positioned on the long side is provided with two symmetrical limiting shafts IV 63;

The second turnover assembly 5 is arranged at the top of the base 1;

The second turnover assembly 5 comprises two meshed gears 52 and a motor 51 fixedly arranged at the top of the second bracket 61, and one gear 52 is connected to an output shaft of the motor 51 in a transmission manner;

The top of the second bracket 61 is rotatably provided with a supporting cylinder 55, the inside of the supporting cylinder 55 is rotatably provided with an outer ring 54, the inner wall of the outer ring 54 is elastically connected with a gear 52 which is not in transmission connection with the output shaft of the motor 51 through a spring clamp spring 53, the periphery of the supporting cylinder 55 is elastically connected with a limiting cylinder 58 through a spring telescopic rod 57, the inside of the limiting cylinder 58 is movably penetrated with a metal rod 59, the upper end and the lower end of the metal rod 59 are respectively connected with a limiting shaft III 502 through a first bracket 50, the outer sides of the first brackets 50 are elastically connected through a second spring piece 501, and the side surface of the metal rod 59 is connected with the outer ring 54 through a steel cable 56;

the first turnover assembly 4 is arranged at the top of the base 1;

The output shaft of the motor 51 drives the turnover assembly I4 to turn over the woven cloth 9, and the turnover speed of the turnover assembly I4 is smaller than the rotation speed of the output shaft of the motor 51;

the metal rod 59 is hinged with the first two brackets 50, and each third limiting shaft 502 is rotatably mounted on the first bracket 50.

After the woven cloth 9 is pulled out by a specified distance by the cutting equipment 8, the woven cloth 9 is cut by a cutting mechanism at the outlet of the cutting equipment, then the woven cloth 9 falls on the top of the bearing plate 7, and when the number is enough, the folding work can be carried out;

The infusion shaft of the motor 51 drives the two gears 52 to rotate, the gears 52 which are not connected with the output shaft of the motor 51 rotate the outer ring 54 through the spring clamp springs 53, the steel ropes 56 are wound on the outer periphery of the outer ring, the first metal rods 59 synchronously pull the first brackets 50, the first brackets 50 synchronously fold and compress the second spring plates 501 due to the limit of the edges of the limiting cylinders 58, and the three limiting shafts 502 are driven by the two first brackets 50 to clamp the stacked woven fabrics 9;

In order to prevent the knitted fabric 9 from separating from the third limit shaft 502 due to the toughness of the knitted fabric 9 and the smoothness of the surface thereof in the folding process, the gear 52 is still in a rotating state after the completion of the working process, but at the moment, the steel cable 56 cannot be pulled, but the spring telescopic rod 57 is driven to be folded by the supporting cylinder 55, further, the fourth limit shaft 63 is positioned at the top of the knitted fabric 9, so that one end of the knitted fabric 9 is folded, meanwhile, the third limit shaft 502 can preferentially complete the folding work due to the fact that the folding speed of the first limit shaft 4 is smaller than the rotating speed of the output shaft of the motor 51, and after the one end of the knitted fabric 9 is folded, the output shaft of the motor 51 continuously drives the first limit shaft 4 until the knitted fabric 9 is completely folded, and when the gear 52 is driven to rotate by the output shaft of the motor 51, the spring 53 is wound, so that the two gears 52 are prevented from forcibly rotating, and teeth are damaged;

This step will reduce the manual folding labour to reduce the injury that the work caused the human body, and weave cloth 9 and pile up the back, its one end is turned over the in-process of rolling over, and two spacing axle triplex 502 cooperation press from both sides tightly, and further, prevent that several weave cloth 9 when being turned over, one of them weave cloth 9 to appear the landing, improved the stability of device work simultaneously.

As shown in fig. 1-7, the spring telescopic rod 57 is hinged with the limiting cylinder 58, the limiting cylinder 58 is limited to be folded downwards by the spring telescopic rod 57 in the second folding assembly 5 waiting for folding the woven cloth 9, and the second folding assembly 5 further comprises a third spring piece 503 elastically connected to the bottom of the spring telescopic rod 57 and the bottom of the limiting cylinder 58.

By adopting the scheme, as shown in the second folding component 5 in fig. 6, after the folding work is completed, the third spring piece 503 will be located above the spring telescopic rod 57, and the limiting cylinder 58 is pulled, so that the two limiting shafts three 502 can not clamp the woven cloth 9 any more, at this time, one end of the woven cloth 9 which is clamped previously is pressed to be located below the limiting shaft three 502, and in the state that the woven cloth 9 is folded as shown in fig. 7, as the limiting sleeve 62 does not penetrate the folded woven cloth 9, and the woven cloth 9 has toughness, the folded woven cloth 9 can be directly pulled from the left side, the cost of manual labor is further reduced, and meanwhile, the complexity of the operation of the device is also reduced.

As shown in fig. 1-6, the first folding component 4 comprises a first limiting shaft 41 rotatably mounted on the top of a second bracket 61, the first limiting shaft 41 is in transmission connection with an output shaft of a motor 51 through a belt 42, a supporting frame 43 is in transmission connection with the periphery of the first limiting shaft 41, a second limiting shaft 44 is rotatably mounted at the upper end and the lower end of the side surface of the supporting frame 43 respectively, and stacked woven fabrics 9 can be placed in a gap between the two limiting shafts 44.

By adopting the scheme, the output shaft of the motor 51 drives the first limiting shaft 41 to rotate through the belt 42, the first limiting shaft 41 can fold one end of the woven cloth 9 through the support frame 43 and the second limiting shaft 44, the motor 51 drives the spring telescopic rod 57 to fold through the two gears 52, the rotating direction of the first limiting shaft 41 is opposite to the rotating direction of the gear 52 which is not connected with the output shaft of the motor 51 in a transmission mode, the diameter value of the transmission part of the first limiting shaft 41 is larger than the diameter value of the output shaft of the motor 51, the speed of folding the woven cloth 9 of the folding assembly second 5 is larger than the rotating speed of the first limiting shaft 41, further, the folded process of the woven cloth 9 is smoother, and the phenomenon of blocking does not occur.

As shown in fig. 1-6, the edge of the bearing plate 7 is made of rubber, the second limiting shaft 44 at the lower end is located at the bottom of the bearing plate 7, the support assembly 6 further comprises a limiting sleeve 62 installed at the top of the second support 61, and the limiting sleeve 62 is located outside the travel route of the second limiting shaft 44 after the rotation of the support 43.

By adopting the scheme, the cutting mechanism of the cutting equipment 8 is positioned at the outlet of the cutting equipment, so that after cutting, the woven cloth 9 directly falls on the top of the bearing plate 7 and is positioned between the two limiting shafts II 44, further, when the supporting frame 43 is folded, the edge of the bearing plate 7 is pressed to bend and lift one end of the woven cloth 9 to fold, and the limiting shaft III 502 clamps the other end of the woven cloth 9 at the moment, so that the woven cloth 9 is prevented from sliding off.

As shown in fig. 4, the first folding assembly 4 further includes a support 46 hinged to the top of the support 43, and the middle portion of the support 46 is elastically connected to the support 43 through a first spring leaf 45.

By adopting the scheme, when the cutting equipment 8 is positioned in a factory, the cutting equipment is usually placed in a whole row in a pipeline form, after the support frame 43 is folded, the support 46 can strike the top of the second support 61, so that sounds are generated, the folding work of peripheral staff is improved, the woven cloth 9 needs to be placed in the next working area as soon as possible, and meanwhile, the working efficiency of the device is improved.

As shown in fig. 1-8, the driving assembly 2 comprises a double-shaft motor 21 fixedly mounted on the top of the base 1, the top of the output shaft of the double-shaft motor 21 is connected to the bottom of the bearing plate 7 through a second reciprocating threaded shaft 23 in a threaded manner, and the top of the double-shaft motor 21 is movably connected to the bottom of the bearing plate 7 through a telescopic rod 25.

The driving assembly 2 further comprises a bearing ring 24 which is arranged at the bottom of the output shaft of the double-shaft motor 21 in a transmission manner, the arranging assembly 3 comprises a limiting rod 31 which is arranged at the periphery of the bearing ring 24, the top of the limiting rod 31 is hinged with a limiting plate 33 through a guide rod 32, and the limiting plate 33 is movably clamped at the top of the second bracket 61.

By adopting the scheme, when the telescopic rod 25 limits the bearing plate 7 to move up and down only, the reciprocating threaded shaft II 23 is driven by the double-shaft motor 21 to rotate, the bearing plate 7 can move up and down in a reciprocating manner, meanwhile, the limiting plate 33 horizontally slides on the top of the bracket II 61, so that the frequency of the upward and downward movement of the bearing plate 7 is higher than that of the upward and downward movement of the limiting plate, when the output shaft of the double-shaft motor 21 drives the reciprocating threaded shaft I22 to rotate, the bearing ring 24 can move up and down in a reciprocating manner, and because the limiting plate 33 can only move in the horizontal direction, the lower end of the guiding rod 32 is pulled by the bearing ring 24 through the limiting plate 31, the top of the limiting plate 33 is pulled to move, and further, the thread length of the reciprocating threaded shaft I22 is equal to that of the reciprocating threaded shaft II 23, so that the frequency of the upward and downward movement of the bearing plate 7 is higher than that of the limiting plate 7, and gaps are reserved between the weaving fabrics 9, so that the limiting plate 33 can push the edges of the stacked weaving fabrics 9, and the four weaving fabrics 9 can be clamped and clamped for a long time when the four fabrics are stacked and clamped and folded.

The working principle and the using flow of the invention are as follows:

after the woven cloth 9 is pulled out by a specified distance, the cutting device 8 cuts the woven cloth 9 through a cutting mechanism at the outlet of the cutting device, then the woven cloth 9 falls on the top of the bearing plate 7, and when the number is enough, the folding work can be carried out;

The double-shaft motor 21 drives the bearing plate 7 to reciprocate up and down through the reciprocating threaded shaft II 23, the double-shaft motor 21 forces the bearing ring 24 to reciprocate up and down through the reciprocating threaded shaft I22, the bearing ring 24 pulls the lower end of the guide rod 32 to descend through the limit rod 31, the top of the bearing ring pulls the limit plate 33 to move, the thread pitch on the reciprocating threaded shaft I22 is the same as that on the reciprocating threaded shaft II 23, but the thread length on the reciprocating threaded shaft I22 is longer than that on the reciprocating threaded shaft II 23, the frequency of the up-and-down movement of the bearing plate 7 is longer than that of the limit plate 33, gaps are reserved between the weaving cloth 9 while the bearing plate 7 moves up and down, so that the limit plate 33 can push the edges of the stacked weaving cloth 9, and when the four limit plates 33 push for a long time simultaneously, the edges of the stacked weaving cloth 9 are gradually flush;

The infusion shaft of the motor 51 drives the two gears 52 to rotate, the gears 52 which are not connected with the output shaft of the motor 51 rotate the outer ring 54 through the spring clamp springs 53, the steel ropes 56 are wound on the outer periphery of the outer ring, the first metal rods 59 synchronously pull the first brackets 50, the first brackets 50 synchronously fold and compress the second spring plates 501 due to the limit of the edges of the limiting cylinders 58, and the three limiting shafts 502 are driven by the two first brackets 50 to clamp the stacked woven fabrics 9;

The gear 52 still rotates, but at this time, the wire rope 56 can not be pulled, but the supporting cylinder 55 drives the spring telescopic rod 57 to fold, the limiting shaft IV 63 is positioned at the top of the woven cloth 9, which causes one end of the woven cloth 9 to be folded, the output shaft of the motor 51 drives the limiting shaft I41 to rotate through the belt 42, the limiting shaft I41 folds one end of the woven cloth 9 through the supporting frame 43 and the limiting shaft II 44, the motor 51 drives the spring telescopic rod 57 to fold through the two gears 52, which causes the rotating direction of the limiting shaft I41 to be opposite to the rotating direction of the gear 52 which is not connected with the output shaft of the motor 51, the diameter value of the transmission part of the limiting shaft I41 is larger than the diameter value of the output shaft of the motor 51, which causes the speed of the folding component II 5 to fold the woven cloth 9 to be larger than the rotating speed of the limiting shaft I41,

The third limiting shaft 502 preferably completes the folding work, and after one end of the woven cloth 9 is folded, the woven cloth 9 is pressed on the top of the woven cloth 9 again, in order to ensure that the first folding component 4 completes the folding work, the output shaft of the motor 51 continuously drives the first folding component 4 until the woven cloth 9 is completely folded, and when the gear 52 is driven by the output shaft of the motor 51 to rotate, the gear 52 winds the spring clamp spring 53.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a braided bag cutting integration processingequipment, includes cutting equipment (8) and base (1), its characterized in that still includes:

A driving component (2) arranged on the top of the base (1);

A finishing assembly (3) arranged on the driving assembly (2);

the bearing plate (7) is arranged at the top of the driving assembly (2), and the woven cloth (9) is arranged at the top of the bearing plate (7);

The support component (6) is arranged at the top of the base (1);

The support assembly (6) comprises a second bracket (61) fixedly arranged at the top of the base (1), and the arrangement assembly (3) positioned on the long side is provided with two symmetrical limiting shafts (63);

the second turnover assembly (5) is arranged at the top of the base (1);

the second turnover assembly (5) comprises two meshed gears (52) and a motor (51) fixedly arranged at the top of the second bracket (61), and one gear (52) is connected to an output shaft of the motor (51) in a transmission way;

the top of the second support (61) is rotatably provided with a support cylinder (55), the inside of the support cylinder (55) is rotatably provided with an outer ring (54), the inner wall of the outer ring (54) is elastically connected with a gear (52) which is not connected with the output shaft of the motor (51) in a transmission way through a spring clamp spring (53), the periphery of the support cylinder (55) is elastically connected with a limit cylinder (58) through a spring telescopic rod (57), the inside of the limit cylinder (58) is movably penetrated with a metal rod (59), the upper end and the lower end of the metal rod (59) are respectively connected with a limit shaft three (502) through a first support (50), the outer sides of the first supports (50) are elastically connected with the outer ring (54) through a second spring piece (501), and the side surface of the metal rod (59) is connected with the outer ring (54) through a steel cable (56);

The first turnover assembly (4) is arranged at the top of the base (1);

An output shaft of the motor (51) drives a first turnover assembly (4) to turn over the woven cloth (9), and the turnover speed of the first turnover assembly (4) is smaller than the rotation speed of the output shaft of the motor (51);

The spring telescopic rod (57) is hinged with the limiting cylinder (58), the limiting cylinder (58) is limited by the spring telescopic rod (57) in the second folding component (5) waiting for folding the woven cloth (9) to be folded downwards, and the second folding component (5) further comprises a third spring piece (503) which is elastically connected with the bottom of the spring telescopic rod (57) and the bottom of the limiting cylinder (58);

the metal rod (59) is hinged with the two first brackets (50), and each third limiting shaft (502) is rotatably installed on the first bracket (50) respectively;

the first turnover assembly (4) comprises a first limiting shaft (41) rotatably mounted at the top of a second bracket (61), the first limiting shaft (41) is in transmission connection with an output shaft of a motor (51) through a belt (42), a supporting frame (43) is connected to the periphery of the first limiting shaft (41) in transmission mode, a second limiting shaft (44) is rotatably mounted at the upper end and the lower end of the side face of the supporting frame (43) respectively, and stacked woven fabrics (9) can be placed in a gap between the two limiting shafts (44).

2. The woven bag cutting integrated processing device according to claim 1, wherein the edge of the bearing plate (7) is made of rubber, the second limiting shaft (44) at the lower end is located at the bottom of the bearing plate (7), the supporting component (6) further comprises a limiting sleeve (62) mounted at the top of the second bracket (61), and the limiting sleeve (62) is located outside a travelling route of the second limiting shaft (44) after the supporting frame (43) rotates.

3. The integrated processing device for cutting woven bags according to claim 2, wherein the first folding assembly (4) further comprises a support (46) hinged to the top of the support frame (43), and the middle part of the support (46) is elastically connected with the support frame (43) through a first spring piece (45).

4. The woven bag cutting integrated processing device according to claim 3, wherein the driving assembly (2) comprises a double-shaft motor (21) fixedly arranged at the top of the base (1), the top of an output shaft of the double-shaft motor (21) is connected to the bottom of the bearing plate (7) through a reciprocating threaded shaft II (23) in a threaded manner, and the top of the double-shaft motor (21) is movably connected to the bottom of the bearing plate (7) through a telescopic rod (25).

5. The woven bag cutting integrated processing device according to claim 4, wherein the driving assembly (2) further comprises a bearing ring (24) arranged at the bottom of an output shaft of the double-shaft motor (21) in a transmission mode, the arranging assembly (3) comprises a limiting rod (31) arranged at the periphery of the bearing ring (24), a limiting plate (33) is hinged to the top of the limiting rod (31) through a guide rod (32), and the limiting plate (33) is movably clamped to the top of the second bracket (61).