CN113602881A

CN113602881A - Automatic collecting and arranging device adaptable to plastic woven bags of different sizes

Info

Publication number: CN113602881A
Application number: CN202110954198.7A
Authority: CN
Inventors: 吴飞; 林晓琛; 农皓业; 王思远; 王梦辉; 吴傲男; 栾天宇; 全在行; 李纶
Original assignee: Wuhan University of Technology WUT
Current assignee: Wuhan University of Technology WUT
Priority date: 2021-08-19
Filing date: 2021-08-19
Publication date: 2021-11-05

Abstract

The invention relates to an automatic collecting and arranging device suitable for plastic woven bags with different sizes, which comprises a feeding component and a collecting component, wherein the feeding component is arranged on the feeding component; the feeding assembly comprises a fixed plate, a movable plate, two conveying pieces and an adjusting piece, the fixed plate and the movable plate are arranged in parallel, the two conveying pieces are respectively arranged on one side, opposite to the fixed plate and the movable plate, each conveying piece comprises two conveying ends, a clamping conveying gap is formed between the two conveying ends, the two clamping conveying gaps are respectively used for clamping two sides of a woven bag and conveying the woven bag along the length direction of the fixed plate, the adjusting piece is fixedly arranged on the fixed plate, and the output end of the adjusting piece is connected with the movable plate; the collecting assembly comprises a rotating end and a plurality of clamping plates, the rotating end is positioned at the conveying tail end of the conveying piece, the clamping plates are uniformly arranged along the circumferential direction of the rotating end, and a collecting gap is formed between every two adjacent clamping plates; the problem of to the braided bag of equidimension not, be difficult to the looks adaptation between discharging device and the collection device, be difficult to play the effect of good arrangement and collection is solved.

Description

Automatic collecting and arranging device adaptable to plastic woven bags of different sizes

Technical Field

The invention relates to the technical field of packaging machinery, in particular to an automatic collecting and arranging device suitable for plastic woven bags of different sizes.

Background

In order to match with the automatic bagging process of the plastic woven bag packaged product, the plastic woven bags need to be stacked and packaged according to a certain quantity when being made. The collection of plastic woven sack production line rear end, arrangement process rely on the manual work to accomplish at present, rely on the workman to take up according to a certain quantity and arrange in order the finished product braided bag that will produce promptly, just can accomplish subsequent vanning and packing process. The workers on a single station can only complete the packaging work of 60-70 plastic woven bags per minute at most, and if the production efficiency is guaranteed and the production rhythm is coordinated, the production speed of a woven bag production line can be matched only by adopting a machine automatic collection and arrangement mode.

At present, the related technology of the plastic woven bag heat-sealing production line tends to be mature, the theoretical bag-making speed generally reaches more than 100/min and is limited by the efficiency limitation of manual collection and arrangement, most production lines can only adopt the bag-making speed of 60-80/min for production, the speed advantage of the production line cannot be exerted, and the production efficiency is reduced.

For example, application number is CN202022442644. X's utility model provides a finished product braided bag ejection of compact collection device, wherein, place the collecting box on the base, and utilize two restraint framves to press from both sides tight restraint to it, wherein, distance between two restraint framves can be adjusted according to the actual dimension of finished product braided bag and the size of the collecting box that corresponds thereof, when the finished product braided bag is carrying out ejection of compact during operation, the finished product braided bag can be fallen down and is piled up on the receiver plate, when the finished product braided bag is piled up a take the altitude, at this moment, put through external power supply, the motor of machine incasement portion is under the bevel gear's of transmission section of thick bamboo inside effect, drive the bull stick and rotate, make the receiver plate slope, at this moment, under the effect of gravity, accumulational finished product braided bag is along pulley lapse, fall into to collect incasement portion and collect the arrangement.

However, at the above-mentioned in-process of transmitting the braided bag to the dash receiver, because the size of braided bag is different, can't guarantee that the braided bag homoenergetic of different sizes sends the reservation position on the dash receiver to in the collecting box is emptyd to the accuracy.

Therefore, the following problem exists in the automatic collection finishing device of current braided bag, to the braided bag of not unidimensional, is difficult to the looks adaptation between discharging device and the collection device, is difficult to play the effect of good arrangement and collection.

Disclosure of Invention

In view of this, it is necessary to provide an automatic collecting and arranging device adaptable to plastic woven bags with different sizes, so as to solve the problems that the discharging device and the collecting device are difficult to adapt to woven bags with different sizes, and good arranging and collecting effects are difficult to achieve.

The invention provides an automatic collecting and arranging device suitable for plastic woven bags with different sizes, which comprises a feeding assembly and a collecting assembly, wherein the feeding assembly is arranged on the feeding assembly; the feeding assembly comprises a fixed plate, a movable plate, two conveying pieces and an adjusting piece, the fixed plate and the movable plate are arranged in parallel, the two conveying pieces are respectively arranged on one side, opposite to the fixed plate and the movable plate, each conveying piece comprises two conveying ends, a clamping conveying gap is formed between the two conveying ends, the two clamping conveying gaps are respectively used for clamping two sides of a woven bag and conveying the woven bag along the length direction of the fixed plate, the adjusting piece is fixedly arranged on the fixed plate, and the output end of the adjusting piece is connected with the movable plate and used for adjusting the distance between the two clamping conveying gaps so as to adapt to woven bags with different sizes; the collecting assembly comprises a rotating end and a plurality of clamping plates, the rotating end is located at the tail end of the conveying piece, the clamping plates are evenly arranged along the circumferential direction of the rotating end, a collecting gap is formed between every two adjacent clamping plates, and the collecting gap is used for circularly carrying a plurality of woven bags which are sequentially sent out from the tail end of the conveying piece.

Further, two carry the piece and all include first conveyer belt and second conveyer belt, first conveyer belt with the second conveyer belt is located same vertical plane, first conveyer belt with second conveyer belt's rotation direction is opposite, first conveyer belt with form between the second conveyer belt centre gripping conveying gap, centre gripping conveying gap's thickness is less than the thickness of braided bag.

Furthermore, the adjusting part comprises a motor, a screw rod and a connecting block, the motor is fixedly installed on the fixed plate, an output shaft of the motor is connected with one end of the screw rod, the other end of the screw rod is in threaded connection with a threaded hole formed in the connecting block, the connecting block is fixedly connected with the movable plate, and the screw rod is perpendicular to the movable plate and used for adjusting the relative position between the fixed plate and the movable plate.

Further, the conveying end of the conveying piece is provided with a blanking area, and the motion paths of the collecting gaps are the same and are arranged through the blanking area.

Further, the rotation end is including collecting the band pulley and collecting the belt, it locates to collect the belt collect on the band pulley, it is a plurality of splint are followed collect the even setting of belt's circumference.

Further, the quantity of collecting the belt is a plurality of, and is a plurality of it is along two to collect the belt centre gripping conveying clearance's line direction equidistance sets up in proper order, every collect and all be provided with a plurality ofly on the belt splint, a plurality of collection clearance one-to-one on two adjacent collection belts, it is a plurality of to correspond collect the clearance and be used for collecting same braided bag.

Further, the device also comprises a material transferring device, wherein the material transferring device is provided with a material transferring end for transferring the woven bags in the collecting gap at one side and the lowest position of the material transferring end.

Further, it is a plurality of to change the material device including changeing material band pulley and a plurality of material belt of changeing, a plurality of change the parallel and equidistant locating of material belt change on the material band pulley, adjacent two change and form a material clearance of changeing between the material belt, the motion path downwardly extending of splint extremely in the material clearance of changeing, so that the braided bag in the collection clearance falls extremely change on the material belt.

Further, the device also comprises a steering assembly, wherein the steering assembly is connected with the output end of the material transferring assembly and used for adjusting the conveying direction of the collected woven bags.

Furthermore, turn to the subassembly and include arc inner panel, arc planking and corner conveyer belt, the arc inner panel with the arc planking with the material end of changeing the material device all is located the coplanar, the arc inner panel with the arc planking sets up with one heart, the corner conveyer belt respectively in the arc inner panel with the arc planking is connected, the feed end of corner conveyer belt with the output of changeing the material subassembly is connected for via the direction of delivery is adjusted in the transport of corner conveyer belt.

Compared with the prior art, through setting up a centre gripping conveying clearance of formation between two conveying ends, two centre gripping conveying clearances are used for the both sides of centre gripping braided bag respectively, and carry the braided bag along the length direction of deciding the board, can make the braided bag accurate carry to optional position department, output and movable plate through setting up the regulating part are connected, a distance for adjusting between two centre gripping conveying clearances, thereby but the not unidimensional braided bag of adaptation, application scope is wider, be used for circulating to accept a plurality of braided bags that send out in proper order of the transport end of carrying the piece through setting up a plurality of collection clearances, the pay-off subassembly cooperatees with the collection subassembly, accurate carry a plurality of braided bags to a plurality of collection clearances in, the braided bag that is arranged in collecting the clearance deposits neatly, in order.

Drawings

FIG. 1 is a schematic overall structural diagram of an automatic collecting and arranging device applicable to plastic woven bags of different sizes according to the present invention;

FIG. 2 is a schematic structural diagram of a feeding assembly in the embodiment of the automatic collecting and sorting device for plastic woven bags with different sizes, provided by the invention;

FIG. 3 is a schematic structural diagram of an adjusting member in this embodiment of the automatic collecting and sorting device for plastic woven bags with different sizes according to the present invention;

FIG. 4 is a schematic structural diagram of a collecting assembly in the embodiment of the automatic collecting and sorting device for plastic woven bags with different sizes according to the invention;

FIG. 5 is a schematic structural diagram of a material transferring assembly in this embodiment of the automatic collecting and sorting device for plastic woven bags with different sizes according to the present invention;

fig. 6 is a schematic structural diagram of a material transferring assembly in the embodiment of the automatic collecting and arranging device for plastic woven bags with different sizes, provided by the invention.

Detailed Description

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate preferred embodiments of the invention and together with the description, serve to explain the principles of the invention and not to limit the scope of the invention.

As shown in fig. 1, the automatic collecting and arranging device for plastic woven bags with different sizes in the embodiment includes a feeding assembly 100 and a collecting assembly 200, wherein the feeding assembly 100 is configured to stably transport the plastic woven bags to the collecting assembly 200, and the feeding assembly 100 performs an arranging function and can transport the plastic woven bags to a preset position of the collecting assembly 200 after being arranged, which will be explained and explained in more detail below.

As shown in fig. 2, the feeding assembly 100 in this embodiment includes a fixed plate 110, a movable plate 120, two conveying members 130 and an adjusting member 140, the fixed plate 110 and the movable plate 120 are arranged in parallel, the two conveying members 130 are respectively disposed on one side of the fixed plate 110 opposite to the movable plate 120, each of the two conveying members 130 includes two conveying ends, a clamping conveying gap is formed between the two conveying ends, the two clamping conveying gaps are respectively used for clamping two sides of a woven bag and conveying the woven bag along the length direction of the fixed plate 110, the adjusting member 140 is fixedly mounted on the fixed plate 110, and an output end of the adjusting member 140 is connected with the movable plate 120 and is used for adjusting the distance between the two clamping conveying gaps to adapt to woven bags with different sizes.

Wherein, be fixed in two on fixed plate 110 and the movable plate 120 and carry a 130, two of unilateral carry a 130 and adopt tight mode, make one side of braided bag embedded in the clearance between two conveying ends to drive the braided bag motion through extrusion frictional force, at the in-process of carrying the braided bag, the motion route that can effectual injeciton the braided bag makes the braided bag remove according to predetermined orbit.

Wherein, the interval between fixed plate 110 and the movable plate 120 is adjustable, and to the braided bag of unidimensional not, can adjust the interval between fixed plate 110 and the movable plate 120 to the size that suits with the width of braided bag to can press from both sides the braided bag of tight different widths, application scope is wider.

The collection assembly 200 in this embodiment includes the rotation end that is located the transport end of carrying piece 130 and a plurality of splint 230, and a plurality of splint 230 evenly set up along the circumference of rotating the end, form a collection clearance between two adjacent splint 230, and a plurality of collection clearances are used for the circulation to accept a plurality of braided bags that carry the transport end of carrying piece 130 and send out in proper order.

The conveying end of the conveying member 130 refers to one side of the conveying member 130 at the discharging end, and the plurality of clamping plates 230 on the rotating end alternately penetrate through the conveying end of the conveying member 130, so that the plurality of woven bags conveyed from the conveying member 130 sequentially fall into the collecting gap, and the woven bag collecting function is completed.

The two conveying members 130 in this embodiment each include a first conveying belt 131 and a second conveying belt 132, the first conveying belt 131 and the second conveying belt 132 are located in the same vertical plane, the rotation directions of the first conveying belt 131 and the second conveying belt 132 are opposite, a clamping conveying gap is formed between the first conveying belt 131 and the second conveying belt 132, and the thickness of the clamping conveying gap is smaller than that of the woven bag.

The conveying distances of the first conveying belt 131 and the second conveying belt 132 are equal and opposite to each other, the distance between the first conveying belt 131 and the second conveying belt 132 is equal along the conveying direction, the moving directions of the first conveying belt 131 and the second conveying belt 132, which are attached to one side of the woven bag, are the same, and the cement bag processed by the heat sealing machine is clamped and conveyed forwards after entering the clamping conveying gap through friction force.

It should be noted that the first transfer belt 131 and the second transfer belt 132 are disposed along the extending direction of the fixed plate 110 and/or the movable plate 120 to form a transfer line.

In another embodiment, the conveying line is long, so the conveying line is split into two sections with the same length, the two sections have the same structure, the two fixed plates 110 are connected, and the two movable plates 120 are connected to realize fixation.

As shown in fig. 3, in order to facilitate adjusting the relative position between the fixed plate 110 and the movable plate 120, the adjusting member 140 in this embodiment includes a motor 141, a lead screw 142, and a connecting block 143, the motor 141 is fixedly mounted on the fixed plate 110, an output shaft of the motor 141 is connected to one end of the lead screw 142, the other end of the lead screw 142 is in threaded connection with a threaded hole formed on the connecting block 143, the connecting block 143 is fixedly connected to the movable plate 120, and the lead screw 142 is disposed perpendicular to the movable plate 120 for adjusting the relative position between the fixed plate 110 and the movable plate 120.

Since the length of the fixed plate 110 and the movable plate 120 is long, the single adjusting member 140 has a poor effect of adjusting between the fixed plate 110 and the movable plate 120, and for this reason, the adjusting member 140 in this embodiment may be provided in plurality, and the plurality of adjusting members 140 are sequentially provided in the length direction of the fixed plate 110.

It is understood that the adjusting member 140 may be replaced by other structures, as long as the distance between the fixed plate 110 and the movable plate 120 can be adjusted, such as an air cylinder, an electric push rod, etc., so as to adjust stability and accuracy.

The conveying member 130 in this embodiment has a blanking region at the conveying end, and the moving paths of the collecting gaps are the same and are arranged through the blanking region.

It should be noted that the blanking area is an area where the woven bags fall from the conveying member 130, when the collecting gap is located in the blanking area, the woven bags directly fall into the collecting gap, meanwhile, the height of the collecting gap is determined by the distance between two adjacent clamping plates 230, the larger the distance between two adjacent clamping plates 230 is, the larger the height of the collecting gap is, the larger the number of woven bags which can be collected at a single time is, the smaller the distance between two adjacent clamping plates 230 is, the smaller the height of the collecting gap is, and the smaller the number of woven bags which can be collected at a single time is, which is determined according to specific situations.

As shown in fig. 4, the rotating end in this embodiment includes a collecting pulley 210 and a collecting belt 220, the collecting belt 220 is disposed on the collecting pulley 210, a plurality of clamping plates 230 are uniformly arranged along the circumferential direction of the collecting belt 220, and the plurality of clamping plates 230 are driven to rotate by the movement of the collecting belt 220, so that a plurality of collecting gaps circulate through the blanking area.

In order to adapt to the braided bag of different width, the quantity of collecting belt 220 in this embodiment is a plurality of, and a plurality of collecting belts 220 all set up equidistantly along two centre gripping conveying clearance's line direction in proper order on every collecting belt 220, all are provided with a plurality of splint 230, a plurality of collection clearances one-to-one on two adjacent collecting belts 220, and a plurality of collection clearances that correspond are used for collecting same braided bag.

Wherein, a plurality of splint 230 are connected with collection band pulley 210 via the chain, and splint 230 is the panel beating framework, adopts chain and panel beating framework to form panel beating landing chain mechanism.

Specifically, collect band pulley 210 and adopt AC servo motor 141, speed reducer and braking system integrated control, collect belt 220 and be formed through connecting rod through-connection by the bearing of three rows of circulating belt via upper and lower both sides working face department, three are collected belt 220 and can be realized synchronous rotation, the intermediate position is collected belt 220 both sides equidistance equipartition panel beating landing chain mechanism, the both sides hold-in range only belt unilateral equidistance equipartition panel beating landing chain mechanism, receive the adjustable belt intermediate layer transfer chain of width and carry the braided bag of coming.

In order to facilitate taking away the woven bags collected in the collecting gap, the device in the embodiment further comprises a material transferring device, wherein the material transferring device is provided with a material transferring end for transferring the woven bags in the collecting gap at one side of the material transferring end and at the lowest position.

As shown in fig. 5, the material transferring device includes a material transferring belt wheel 310 and a plurality of material transferring belts 320, the plurality of material transferring belts 320 are disposed on the material transferring belt wheel 310 in parallel and at equal intervals, a material transferring gap is formed between two adjacent material transferring belts 320, and the moving path of the clamping plate 230 extends downwards to the material transferring gap, so that woven bags in the collecting gap fall onto the material transferring belts 320.

Specifically, the main body of the material transferring belt wheel 310 is a rectangular framework formed by two square metal sections, two ends of the framework are fixed by long cylindrical pulleys, stepping motors 141 are installed outside the two pulleys, and a plurality of material transferring belts 320 are fixed on the pulleys and form belt transmission with the pulleys on two sides. The material transferring belt 320 can receive a specified number of woven bags collected by the falling-layer chain of the circulating chain synchronous belt.

In order to enable the woven bags collected integrally in the material transferring device to be conveyed to any position, the device in the embodiment further comprises a steering assembly 400, and the steering assembly 400 is connected with the output end of the material transferring assembly 300 and used for adjusting the conveying direction of the collected woven bags.

As shown in fig. 6, the steering assembly 400 includes an inner arc plate 410, an outer arc plate 420, and a corner conveyor belt 430, the inner arc plate 410 and the outer arc plate 420 are located in the same plane as the material transferring end of the material transferring device, the inner arc plate 410 and the outer arc plate 420 are concentrically disposed, the corner conveyor belt 430 is connected to the inner arc plate 410 and the outer arc plate 420, and the feeding end of the corner conveyor belt 430 is connected to the output end of the material transferring assembly 300, so as to adjust the conveying direction through the conveying of the corner conveyor belt 430.

Specifically, the steering assembly 400 is a 90 ° fan-shaped conveyor line structure, and is formed by an inner body cover (i.e., the curved inner plate 410) and an outer body cover (i.e., the curved outer plate 420). The conical driving roller and the conical driven roller at two ends of the conveying line drive the fan-shaped belt to form a circulating belt transmission mechanism (namely a transfer conveying belt).

Furthermore, a fan-shaped supporting plate is padded below the belt to support the belt, so that the belt is prevented from sinking after weight is accumulated, and the transmission of the belt is prevented from losing efficacy. The conical roller deviates a certain angle when fixed, so that the fan-shaped belt is in a horizontal position under normal working conditions.

The working process is as follows: the woven bags are placed in the feeding assembly 100, the two sides of the woven bags are respectively clamped and embedded in the clamping and conveying gaps of the two sides, the woven bags are driven to be conveyed along a certain direction along with the friction movement of the first conveying belt 131 and the second conveying belt 132, if the sizes of the woven bags are changed, the motor 141 can be started to drive the screw rod 142 to rotate, so that the relative position between the fixed plate 110 and the movable plate 120 is adjusted under the threaded connection action of the connecting block 143 and the screw rod 142, the woven bags with different sizes are adapted, when the woven bags are conveyed to a blanking area, the woven bags fall into a collecting gap formed between two clamping plates 230 positioned in the blanking area to be collected, and when the woven bags clamped in the collecting gap reach a preset number, the clamping plates 230 on one side close to the feeding assembly 100 are driven to move downwards under the rotation of the collecting belt wheel 210, until the collection gap above moves to the blanking area, collection is carried out again, meanwhile, a plurality of woven bags in the collection gap at the lowest position fall onto the material transferring belt 320, the material transferring belt 320 is driven to move under the action of the material transferring belt wheel 310, and therefore the collected woven bags are conveyed away and can be conveyed to any position under the action of the corner conveying belt 430.

Compared with the prior art: form a centre gripping conveying clearance through setting up between two conveying ends, two centre gripping conveying clearances are used for the both sides of centre gripping braided bag respectively, and carry the braided bag along the length direction of deciding board 110, can make the braided bag accurately carry arbitrary position department, output through setting up regulating part 140 is connected with movable plate 120, a distance for adjusting between two centre gripping conveying clearances, thereby but adaptation unidimensional braided bag, application scope is wider, be used for the circulation to accept a plurality of braided bags that send out in proper order of the transport end of carrying part 130 through setting up a plurality of collection clearances, pay-off component 100 cooperatees with collection subassembly 200, accurate carry a plurality of braided bags to a plurality of collection clearances, the braided bag that is arranged in collecting the clearance is deposited neatly, in order.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention.

Claims

1. An automatic collecting and arranging device suitable for plastic woven bags with different sizes is characterized by comprising a feeding assembly and a collecting assembly;

the feeding assembly comprises a fixed plate, a movable plate, two conveying pieces and an adjusting piece, the fixed plate and the movable plate are arranged in parallel, the two conveying pieces are respectively arranged on one side, opposite to the fixed plate and the movable plate, each conveying piece comprises two conveying ends, a clamping conveying gap is formed between the two conveying ends, the two clamping conveying gaps are respectively used for clamping two sides of a woven bag and conveying the woven bag along the length direction of the fixed plate, the adjusting piece is fixedly arranged on the fixed plate, and the output end of the adjusting piece is connected with the movable plate and used for adjusting the distance between the two clamping conveying gaps so as to adapt to woven bags with different sizes;

the collecting assembly comprises a rotating end and a plurality of clamping plates, the rotating end is located at the tail end of the conveying piece, the clamping plates are evenly arranged along the circumferential direction of the rotating end, a collecting gap is formed between every two adjacent clamping plates, and the collecting gap is used for circularly carrying a plurality of woven bags which are sequentially sent out from the tail end of the conveying piece.

2. The automatic collecting and arranging device for plastic woven bags adaptable to different sizes as claimed in claim 1, wherein both of the conveying members comprise a first conveying belt and a second conveying belt, the first conveying belt and the second conveying belt are located in the same vertical plane, the rotation directions of the first conveying belt and the second conveying belt are opposite, the first conveying belt and the second conveying belt form the clamping conveying gap therebetween, and the thickness of the clamping conveying gap is smaller than that of the woven bags.

3. The automatic collecting and arranging device for the plastic woven bags with different sizes as claimed in claim 1, wherein the adjusting member comprises a motor, a lead screw and a connecting block, the motor is fixedly mounted on the fixed plate, an output shaft of the motor is connected with one end of the lead screw, the other end of the lead screw is in threaded connection with a threaded hole formed in the connecting block, the connecting block is fixedly connected with the movable plate, and the lead screw is arranged perpendicular to the movable plate for adjusting the relative position between the fixed plate and the movable plate.

4. The automatic collecting and arranging device for plastic woven bags adaptable to different sizes as claimed in claim 1, wherein the conveying member has a blanking area at a conveying end thereof, and a plurality of collecting gaps have the same moving path and are arranged through the blanking area.

5. The automatic collecting and arranging device for the plastic woven bags capable of adapting to the different sizes of the plastic woven bags according to claim 1, wherein the rotating end comprises a collecting belt wheel and a collecting belt, the collecting belt is arranged on the collecting belt wheel, and the clamping plates are uniformly arranged along the circumferential direction of the collecting belt.

6. The automatic collecting and arranging device for plastic woven bags adaptable to different sizes as claimed in claim 5, wherein the number of the collecting belts is plural, the plural collecting belts are sequentially arranged at equal intervals along a connecting line direction of the two clamping conveying gaps, each collecting belt is provided with the plural clamping plates, the plural collecting gaps on two adjacent collecting belts are in one-to-one correspondence, and the corresponding plural collecting gaps are used for collecting the same woven bag.

7. The automatic collecting and arranging device for plastic woven bags adaptable to different sizes as claimed in claim 1, further comprising a transferring device having a transferring end for transferring the woven bags in the collecting gap at one side and the lowest side of the transferring end.

8. The automatic collecting and arranging device for plastic woven bags adaptable to different sizes as claimed in claim 7, wherein the material transferring device comprises a material transferring belt wheel and a plurality of material transferring belts, the plurality of material transferring belts are arranged on the material transferring belt wheel in parallel and at equal intervals, a material transferring gap is formed between two adjacent material transferring belts, and the moving path of the clamping plate extends downwards into the material transferring gap so that the plastic woven bags in the collecting gap fall onto the material transferring belt.

9. The automatic collecting and arranging device for plastic woven bags adaptable to different sizes as claimed in claim 7, further comprising a turning assembly connected to an output end of the material turning assembly for adjusting a conveying direction of the collected plastic woven bags.

10. The automatic collecting and arranging device for plastic woven bags adaptable to different sizes as claimed in claim 9, wherein the steering assembly comprises an inner curved plate, an outer curved plate and a corner conveyor belt, the inner curved plate and the outer curved plate are located in the same plane as a material transferring end of the material transferring device, the inner curved plate and the outer curved plate are concentrically arranged, the corner conveyor belt is connected to the inner curved plate and the outer curved plate, respectively, and a feeding end of the corner conveyor belt is connected to an output end of the material transferring assembly for adjusting a conveying direction through conveying of the corner conveyor belt.