CN112897183A

CN112897183A - Duplex position plastic woven sack automatic collection finishing device

Info

Publication number: CN112897183A
Application number: CN202110082556.XA
Authority: CN
Inventors: 吴飞; 农皓业; 蒋罗彬; 金圣洁; 李亦能
Original assignee: Wuhan University of Technology WUT
Current assignee: Wuhan University of Technology WUT
Priority date: 2021-01-21
Filing date: 2021-01-21
Publication date: 2021-06-04

Abstract

The invention relates to an automatic double-station collecting and arranging device for plastic woven bags, which comprises a fixed rack; the automatic direction changing mechanism is arranged on the fixed rack, is positioned between the belt transmission mechanism and the transition transmission mechanism, and is used for reversing and transmitting the plastic woven bags transmitted from the belt transmission mechanism to the first funnel type arrangement mechanism or the transition transmission mechanism; the first funnel-shaped sorting mechanism and the second funnel-shaped sorting mechanism are used for receiving and sorting the plastic woven bags; and the first drawer type storage mechanism and the second drawer type storage mechanism are used for receiving and outputting the plastic woven bags. The automatic collecting and arranging device realizes the flexible switching of double stations, and realizes the automatic bag folding of the plastic woven bags through three processes of automatic collection, arrangement and popping.

Description

Duplex position plastic woven sack automatic collection finishing device

Technical Field

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

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 plastic woven sack has the quality light, receives the effect of air current easily at the in-process of transmission and leads to the characteristics of warping, and collection, the arrangement process of plastic woven sack production line rear end mainly rely on the manual work to accomplish at present, rely on the workman to take up and arrange the finished product braided sack that will produce according to a certain quantity promptly, just can accomplish subsequent vanning and packing process.

The existing 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 only be matched by adopting a double-station alternative processing mode. Because the existing woven bag production line has larger inertia and hysteresis, the quick reaction of starting and suspending can not be realized, only continuous production can be realized, and the quick switching of double stations is difficult to realize. 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 single-station 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.

Disclosure of Invention

In view of the above, a need exists for a double-station automatic collecting and arranging device for plastic woven bags, which is used for solving the problems of low production efficiency and waste of bag making mechanical performance caused by manual bag arrangement and single-station collecting and arranging in the traditional plastic woven bag production line.

The invention provides a double-station automatic collecting and arranging device for plastic woven bags, which comprises

Fixing the frame;

the belt transmission mechanism is arranged at the first end of the fixed rack;

the transition transmission mechanism is arranged at the second end of the fixed rack, which is spaced from the belt transmission mechanism by a certain distance;

the automatic direction changing mechanism is arranged on the fixed rack and is positioned between the belt transmission mechanism and the transition transmission mechanism, the automatic direction changing mechanism has a first working state and a second working state, when the automatic direction changing mechanism is in the first working state, the automatic direction changing mechanism transmits the plastic woven bags transmitted from the belt transmission mechanism to the first funnel type arrangement mechanism, and when the automatic direction changing mechanism is in the second working state, the automatic direction changing mechanism transmits the plastic woven bags transmitted from the belt transmission mechanism to the transition transmission mechanism;

the first funnel type arranging mechanism is positioned below the transition transmission mechanism and used for receiving and arranging the plastic woven bags output from the automatic direction changing mechanism;

the second funnel type arranging mechanism is positioned at the output end of the transition transmission mechanism and is used for receiving and arranging the plastic woven bags output by the transition transmission mechanism;

the first drawer type storage mechanism is positioned below the first funnel type sorting mechanism and used for receiving and outputting the plastic woven bags sorted by the first funnel type sorting mechanism;

and the second drawer type storage mechanism is positioned below the second funnel type sorting mechanism and is used for receiving and outputting the plastic woven bags sorted by the second funnel type sorting mechanism.

Further, automatic diversion mechanism includes a reposition of redundant personnel cover and drive the reposition of redundant personnel cover is in the driver part that first state and second state switched, be formed with the confession in the reposition of redundant personnel cover the passageway that plastic woven sack passed through, work as when the reposition of redundant personnel cover is in the first state, the input of passageway with belt transmission device connects, the output with transition transmission device connects, works as when the reposition of redundant personnel cover is in the second state, the input of passageway with belt transmission device connects, the output with first funnel type arrangement mechanism connects.

Further, the both ends opening of reposition of redundant personnel cover, both ends form between the opening the passageway, driver part is piston cylinder, reposition of redundant personnel cover is close to belt transmission mechanism's one end with articulated connection between the fixed frame, the other end of reposition of redundant personnel cover with piston cylinder's top is articulated to form and is removed the hinge, piston cylinder's bottom with articulated fixed hinged-support that forms between the fixed frame.

Further, the longitudinal section of passageway is right trapezoid, the reposition of redundant personnel cover is close to belt transmission mechanism's open-ended cross-sectional area is greater than and is close to transition transmission mechanism's open-ended cross-sectional area, a plurality of gas vent has been seted up on the lateral wall of reposition of redundant personnel cover.

Further, first funnel type arrangement mechanism and second funnel type arrangement mechanism all include the rectangular frame base and install the funnel type at rectangular frame base top encloses the fender, the funnel type encloses to keep off link up from top to bottom, and include four respectively with the panel beating of the top fixed connection of rectangular frame base, every the panel beating all leans out, four the panel beating constitutes a width down narrow horn shape.

Furthermore, the inner sides of the four metal plates are all attached with a velvet energy-absorbing material.

Further, the rectangular frame base adopts metal section to make, rectangular frame includes that four are located four angles and the landing leg of vertical installation respectively and connect adjacent two the horizontal rail at landing leg top, horizontal rail includes the horizontal section bar of two parallels and connects two many equidistant interval between the horizontal section bar set up vertical section bar.

Furthermore, the heights of the two opposite horizontal fences are the same, the two horizontal fences located right above the first storage mechanism or the second storage mechanism are short-edge fences, the other two fences are long-edge fences, and the heights of the short-edge fences are smaller than those of the long-edge fences.

Further, first receiving mechanism include first electronic platform and with the first I shape receiving container of the belt fixed connection of first electronic platform, second receiving mechanism include the electronic platform of second and with the second I shape receiving container of the belt fixed connection of the electronic platform of second, the electronic platform of first electronic platform and second all adopt servo motor driven belt module.

Further, first drawer type receiving container and second drawer type receiving container all include horizontal base and connect perpendicularly enclose the shelves at both ends around the horizontal base, horizontal base includes the horizontal section bar that many level equidistant intervals set up, many the both ends of horizontal section bar respectively with both ends enclose shelves fixed connection, the height of enclosing the height of shelves and minor face rail with be equal to basically the height of long limit rail.

Advantageous effects

The invention provides an automatic collecting and arranging device for plastic woven bags, which drives a metal plate shunt cover to guide finished plastic woven bags produced continuously to change directions quickly through a pneumatic connecting rod mechanism, realizes flexible double-station switching, realizes automatic bag folding of the plastic woven bags through three processes of automatic collecting, arranging and popping, and is also convenient for realizing automation of a rear-end packaging process of a production line. The invention can give full play to the theoretical capacity (100-120/min) of a bag making machine, improves the production speed by more than 40% compared with the traditional manual packaging mode, reduces the labor cost while improving the production efficiency, and improves the automation degree of a production line.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of an automatic double-station collecting and arranging device for plastic woven bags provided by the invention;

FIG. 2 is a schematic diagram of an embodiment of the automatic direction changing device of FIG. 1;

FIG. 3 is a side view of the automatic direction changing device of FIG. 1;

FIG. 4 is a schematic structural view of an embodiment of a shunt shield;

FIG. 5 is a schematic structural view of an embodiment of an automated collection and collating device and a drawer-type storage mechanism located below the automated collection and collating device;

FIG. 6 is a schematic structural diagram of one embodiment of a rectangular frame base;

FIG. 7 is a schematic structural view of an embodiment of a funnel-type enclosure;

fig. 8 is a schematic structural view of an embodiment of a drawer type storage mechanism;

fig. 9 is a schematic structural view of an embodiment of a drawer type receiving container;

in the drawings

1-a fixed frame, 2-a belt transmission mechanism, 3-an automatic direction changing mechanism, 4-a transition transmission mechanism, 5-a first funnel type arrangement mechanism, 6-a second funnel type arrangement mechanism, 7-a first drawer type receiving mechanism, 8-a second drawer type receiving mechanism, 31-a shunt cover, 32-a piston cylinder, 310-a long strip-shaped exhaust port, 61-a square frame type base, 62-a funnel type enclosure, 621-a metal plate, 622-a threaded hole, 611-a supporting leg, 612-a horizontal enclosure, 6121-a short edge enclosure, 6122-a long edge enclosure, 71-an electric sliding table, 72-an I-shaped receiving container, 721-a horizontal base, 722-an enclosure and 73-a hoof foot.

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, an embodiment of the invention provides a double-station automatic collecting and sorting device for plastic woven bags, which includes a fixed frame 1, a belt transmission mechanism 2, a transition transmission mechanism 4, an automatic direction changing mechanism 3, a first funnel-shaped sorting mechanism 5, a second funnel-shaped sorting mechanism 6, a first drawer-shaped receiving mechanism 7, and a second drawer-shaped receiving mechanism 8. The belt transmission mechanism 2 is installed at the first end of the fixed frame 1. The transition transmission mechanism 4 is arranged at the second end of the fixed rack 1, which is spaced from the belt transmission mechanism 2 by a certain distance. Automatic deviator 3 is installed on fixed frame 1, and is located between belt transmission mechanism 2 and the transition transmission device 4, be used for following the plastic woven sack that conveys on belt transmission mechanism 2 commutates and transmits for first funnel type arrangement mechanism 5 or transition transmission device 4, automatic deviator has first operating condition and second operating condition, works as when automatic deviator 3 is in first operating condition, automatic deviator 3 will follow the plastic woven sack that conveys on belt transmission mechanism 1 and come transmits for first funnel type arrangement mechanism 5, works as when automatic deviator 3 is in second operating condition, automatic deviator 3 will follow the plastic woven sack that conveys on belt transmission mechanism 1 transmits and comes transmits for transition transmission device 4. The first funnel type arranging mechanism 5 is located below the transition transmission mechanism 4 and used for receiving and arranging the plastic woven bags output from the automatic direction changing mechanism 3. The second funnel type arranging mechanism 6 is positioned at the output end of the transition transmission mechanism 4 and is used for receiving and arranging the plastic woven bags output from the transition transmission mechanism 4; the first drawer type storage mechanism 7 is located below the first funnel type sorting mechanism 5 and used for receiving and outputting the plastic woven bags sorted by the first funnel type sorting mechanism 5. And the second drawer type receiving mechanism 8 is positioned below the second funnel type sorting mechanism 6 and is used for receiving and outputting the plastic woven bags sorted by the second funnel type sorting mechanism 6.

When the first drawer type storage mechanism 7 is required to receive stacked plastic woven bags, the plastic woven bags are conveyed to the automatic direction changing mechanism 3 through the belt conveying mechanism 2 and enter the automatic direction changing mechanism 3 under the action of inertia force, the automatic direction changing mechanism 3 outputs the plastic woven bags to the transition conveying mechanism 4 and outputs the plastic woven bags to the second funnel type sorting mechanism 6, the plastic woven bags are shaped by the second funnel type sorting mechanism 6 and then fall into the second drawer type storage mechanism 6, after the second drawer type storage mechanism 6 receives a preset number of plastic woven bags, the automatic direction changing mechanism 3 changes directions, the plastic woven bags output from the belt conveying mechanism 2 are output to the first funnel type sorting mechanism 5 after passing through the automatic direction changing mechanism 3 and are output to the first drawer type storage mechanism 7 after being sorted by the first funnel type sorting mechanism 5, after the first drawer type receiving mechanism 7 receives the plastic woven bags with the preset number, the automatic direction changing mechanism 3 reverses again, and the process is repeated.

According to the invention, the automatic reversing mechanism 3 is adopted for reversing, so that the change of the conveying direction of the continuously produced plastic woven bags on the conveying line is rapidly completed, and the sensitive switching of double stations is realized. Each station is provided with a funnel-shaped arrangement structure, so that the plastic woven bags are automatically orderly in the process of falling into the structure and then fall to the bottom of the movable containing container to be stacked orderly. First drawer type receiving mechanism 7 and second drawer type receiving mechanism 8 can follow the bottom and can pop out automatically, send out the braided bag of a certain amount so that accomplish subsequent vanning, packing process, realize collecting the arrangement, improve production efficiency.

It should be noted that the transition transmission mechanism 4 may adopt belt transmission or gear transmission, wherein the belt transmission is preferably adopted to reduce the cost.

As shown in fig. 2 to 4, the automatic direction changing mechanism 3 includes a shunt cover 31 and a piston cylinder 32, two ends of the shunt cover 31 are open, one end of the shunt cover 31 close to the belt transmission mechanism 2 is hinged to the fixed frame 1, the other end of the shunt cover 31 is hinged to the top of the piston cylinder 32 to form a movable hinge, and the bottom of the piston cylinder 32 is hinged to the fixed frame 1 to form a fixed hinge support. Preferably, two hinge points are arranged at the bottom of the shunting cover 31 close to one end of the belt transmission mechanism 2, and the shunting cover 31 is hinged with the fixed rack 1 through the two hinge points.

When needs will plastic woven sack is followed when second drawer type receiving mechanism 8 collects, piston cylinder 32's piston stretches out, makes reposition of redundant personnel cover 31 level, both ends the opening respectively with belt transmission mechanism 2 aligns with transition transmission mechanism 4, plastic woven sack warp 2 output back, finished product plastic woven sack takes certain initial velocity along initial direction of delivery and gets into automatic steering mechanism 3, and the process automatic steering mechanism 3 transmit extremely second funnel type arrangement mechanism 6, the warp fall into after the arrangement of second funnel type arrangement mechanism 6 in the second drawer type holds mechanism 8.

When needs will the plastic woven sack is followed 7 mechanisms are accomodate to first drawer type when collecting, piston cylinder 32's piston shrink, during the piston rod shrink, reposition of redundant personnel cover 31 downward sloping certain angle, then follow-up plastic woven sack is guided under inertial action and is got into first funnel type arrangement mechanism 5 and fall into after arranging in first drawer type holds in the mechanism 7.

According to the invention, through the cooperation of the piston cylinder 32 and the shunting cover 31, the double-station sensitive switching can be realized, so that the efficiency of sorting and packaging the plastic woven bags is improved.

In order to facilitate the plastic woven bag to smoothly enter the diversion cover 31 for reversing, and simultaneously to prevent the plastic woven bag from warping and deforming during output, the side surface of the diversion cover 31 is in a right trapezoid shape, and the size of the opening of the diversion cover 31 close to the belt transmission mechanism 2 is larger than the size of the opening close to the transition transmission mechanism 4. In order to further prevent that plastic woven sack from taking place warpage, deformation in shunting the cover, shunting cover 31 adopts the sheet metal welding to form, each the rectangular shape gas vent 310 has all been seted up on the sheet metal, and the fretwork exhaust hole 310 on shunting cover 31 can be at the air exhaust when plastic woven sack gets into, keeps atmospheric pressure balanced.

In order to reduce the warpage and deformation of the plastic woven bag during the shunting process as much as possible, the width of the opening of the shunting cover 31 is preferably 5mm to 10mm larger than the width of the plastic woven bag.

As shown in fig. 5 to 7, the first funnel type arrangement mechanism 5 and the second funnel type arrangement mechanism 6 both include a rectangular frame base 61 and a funnel type enclosure 62 installed at the top of the rectangular frame base 61, the funnel type enclosure 62 is through from top to bottom, and includes four metal plates 621 respectively connected to the top of the rectangular frame base 61, each metal plate 621 inclines outward, and the four metal plates 621 form a horn shape with a wide top and a narrow bottom.

The rectangular frame base 61 is made of metal sectional materials, the rectangular frame base 61 comprises four supporting legs 611 which are respectively positioned at four corners and are vertically installed and a horizontal fence 612 which is connected with the tops of the two adjacent supporting legs 611, and the horizontal fence 612 comprises two parallel horizontal sectional materials and a plurality of vertical sectional materials which are connected between the two horizontal sectional materials and are arranged at equal intervals. The four legs 611 contact the ground and maintain the entire enclosure structure horizontally, which is a distance above the ground. This rectangular frame base 61 link up from top to bottom, and the four sides are separated as the railing by the metal section bar of a certain amount and are formed the fretwork, wholly are the rail structure, and the inside aspect ratio plastic woven sack of this rail structure's corresponding size is long 5mm

The two opposite horizontal fences 612 have the same height, the two horizontal fences 612 located right above the first drawer-type storage mechanism 7 or the second drawer-type storage mechanism 8 are short-edge fences 6121, the other two fences are long-edge fences 6122, the height of each short-edge fence 6121 is smaller than that of each long-edge fence 6122, a certain space is reserved below the two short edges than the long edges, and the space is used for enabling the first drawer-type storage mechanism 7 and the second drawer-type storage mechanism 8 to walk at the bottom and receive plastic woven bags sorted by the first funnel-type shaping mechanism 5 and the second funnel-type shaping mechanism 6.

The fretwork between the rail can keep atmospheric pressure balance in the air of below discharge when the plastic woven sack falls, prevents that the plastic woven sack from taking place warpage, deformation in the midair.

The size of the lower opening of the funnel-shaped enclosure 62 is consistent with the internal size of the fence structure, and threaded holes 622 are formed on the periphery of the enclosure and are connected and fastened with the fence structure, so that the whole container is in a funnel shape with a wide upper part and a narrow lower part.

In order to reduce the warping or deformation of the plastic woven belts caused by the impact of sheet metal materials when the plastic woven belts enter the funnel-shaped sorting mechanism, the inner sides of the four sheet metals 621 are all attached with wool energy-absorbing materials, so that the plastic woven belts have certain deformation capacity and can absorb part of kinetic energy of objects colliding with the sheet metals. Under the spacing of horn type panel beating 621 and metal rail, the orderly whereabouts of plastic woven sack, in neatly falling into drawer type containing container, accomplish automatic collection arrangement process.

As shown in fig. 8 to 9, the first drawer-type receiving mechanism 7 includes a first electric platform 71 and a first drawer-type receiving container 72 fixedly connected to a belt of the first electric platform 71, the second drawer-type receiving mechanism includes a second electric platform and a second drawer-type receiving container fixedly connected to a belt of the second electric platform, and the first electric platform 71 and the second electric platform both employ a belt module driven by a servo motor. The belt module is in contact with the ground through a metal profile frame and a shoe 73. The first drawer type storage mechanism 7 and the second drawer type storage mechanism 8 have the same structure.

Further, the first i-shaped receiving container 72 and the second i-shaped receiving container each include a horizontal base 721 and surrounding rails 722 vertically connected to the front and rear ends of the horizontal base 721, the horizontal base 721 and the enclosing blocks at the two ends form an I-shaped hollow structure, the horizontal base 721 comprises a plurality of horizontal sectional materials arranged at equal intervals horizontally, two ends of the plurality of horizontal sectional materials are respectively and fixedly connected with the enclosure 722 at the two ends, the height of the rail 722 is substantially equal to the sum of the height of the short-side rail 6121 and the height of the long-side rail 6122, therefore, when the I-shaped receiving container moves to the position below the funnel-shaped sorting mechanism under the action of the electric platform, the drawer-type collection base is inserted into the opening below the whole rail structure through the extra space below the short-side rail 6121. the enclosure 722 cooperates with the short-side rail 6121 and the long-side rails 6122 at both sides to form a container with a closed bottom.

The working process of the double-station automatic collecting and arranging device for the plastic woven bags is as follows:

when the piston cylinder 32 extends, the diversion cover 31 is kept horizontal, the finished plastic woven bags enter the automatic direction changing mechanism 3 at a certain initial speed along the initial conveying direction, the hollowed-out vent holes on the diversion cover 31 can exhaust air when the plastic woven bags enter, air pressure balance is kept, the plastic woven bags are prevented from warping and deforming in the diversion cover 31, the diversion cover 31 is kept horizontal, the plastic woven bags are guided to enter the transition conveying line 4 under the inertia effect, and then enter the second funnel-shaped sorting structure 6, when the plastic woven bags are collected and sorted, the second I-shaped storage container 8 is driven by the electric sliding table to move to the position below the second funnel-shaped sorting mechanism 6 to prepare bag receiving, the finished plastic woven bags fly to the position above the second funnel-shaped sorting mechanism 6 at a certain initial speed along the conveying direction and impact the inner side of the horn-shaped sheet metal enclosure 621, the surface of the plastic woven bag is attached with a velvet energy-absorbing material which absorbs part of the kinetic energy of the plastic woven bag, so that the woven bag does not rebound transversely and falls into the fence along the falling direction of the woven bag. The fretwork between the rail can keep atmospheric pressure balance in the air of below discharge when the plastic woven sack whereabouts, prevents that the plastic woven sack from taking place warpage, deformation in the midair. Under horn type panel beating 621 and metal rail 612's is spacing, the orderly whereabouts of plastic woven sack, neatly fall into second I shape containing container, accomplish automatic collection arrangement process, the plastic woven sack when falling into in the container reaches predetermined quantity, I shape containing container pops out under the drive of electronic slip table, will collect, the plastic woven sack that finishes in order sends into next station, wait for being snatched, after the plastic woven sack was snatched and leaves drawer type containing container, I shape containing container resets under the drive of electronic slip table, prepare to carry out the collection next time, the arrangement process.

When the second funnel type arranging mechanism 6 receives the plastic woven bags with the preset number, the piston cylinder 32 contracts quickly, the flow dividing cover 31 inclines downwards, the subsequent plastic woven bags are guided to enter the first funnel type arranging mechanism 5 under the inertia effect, the plastic woven bags are arranged by the first funnel type arranging mechanism 5 and then output to the first drawer type accommodating mechanism 7, when the first drawer type accommodating mechanism 7 receives the plastic woven bags with the preset number, the piston cylinder 32 extends quickly, and 4-6 processes are repeated circularly.

The invention provides an automatic collecting and arranging device for plastic woven bags, which solves the problems of low production efficiency and waste of bag making mechanical performance caused by manual bag arranging and single-station collecting and arranging in the traditional plastic woven bag production line. The piston through telescopic cylinder drives the sheet metal shunt cover to guide the finished plastic woven bags produced continuously to change directions quickly, so that the double stations are switched flexibly, the automatic bag folding of the plastic woven bags is realized through three processes of automatic collection, arrangement and popping, and the automation of the rear-end packaging process of a production line is also convenient to realize. The invention can give full play to the theoretical capacity (100-120/min) of a bag making machine, improves the production speed by more than 40% compared with the traditional manual packaging mode, reduces the labor cost while improving the production efficiency, and improves the automation degree of a production line.

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. Double-station automatic collecting and arranging device for plastic woven bags, which is characterized by comprising

Fixing the frame;

the belt transmission mechanism is arranged at the first end of the fixed rack;

2. The automatic double-station collecting and arranging device for the plastic woven bags according to claim 1, wherein the automatic direction changing mechanism comprises a flow dividing cover and a driving part for driving the flow dividing cover to switch between the first state and the second state, a channel for the plastic woven bags to pass through is formed in the flow dividing cover, when the flow dividing cover is in the first state, the input end of the channel is connected with the belt transmission mechanism, the output end of the channel is connected with the first funnel-shaped arranging mechanism, when the flow dividing cover is in the second state, the input end of the channel is connected with the belt transmission mechanism, and the output end of the channel is connected with the transition transmission mechanism.

3. The automatic double-station collecting and arranging device for the plastic woven bags according to claim 2, wherein the two ends of the diversion cover are open, the channel is formed between the openings at the two ends, the driving part is a piston cylinder, one end of the diversion cover close to the belt transmission mechanism is hinged to the fixed frame, the other end of the diversion cover is hinged to the top of the piston cylinder to form a movable hinge, and the bottom of the piston cylinder is hinged to the fixed frame to form a fixed hinged support.

4. The automatic double-station collecting and arranging device for the plastic woven bags according to claim 1, wherein the longitudinal section of the channel is a right trapezoid, the cross-sectional area of the opening of the flow dividing cover close to the belt transmission mechanism is larger than that of the opening of the flow dividing cover close to the transition transmission mechanism, and a plurality of exhaust ports are formed in the side wall of the flow dividing cover.

5. The automatic double-station collecting and arranging device for the plastic woven bags according to claim 1, wherein the first funnel type arranging mechanism comprises a rectangular frame base and a funnel type enclosing baffle arranged at the top of the rectangular frame base, the funnel type enclosing baffle is communicated up and down and comprises four metal plates which are fixedly connected with the top of the rectangular frame base, each metal plate inclines outwards, and the four metal plates form a horn shape which is wide at the top and narrow at the bottom.

6. The automatic double-station collecting and arranging device for the plastic woven bags according to claim 5, wherein the insides of the four metal plates are respectively attached with a velvet energy-absorbing material.

7. The automatic collection and arrangement device for the double-station plastic woven bags according to claim 5, wherein the rectangular frame base is made of metal profiles, the rectangular frame comprises four vertically-arranged support legs which are respectively located at four corners, and horizontal fences which connect tops of two adjacent support legs, and each horizontal fence comprises two parallel horizontal profiles and a plurality of vertical profiles which are connected between the two horizontal profiles and are arranged at equal intervals.

8. The automatic double-station collecting and arranging device for the plastic woven bags according to claim 7, wherein the heights of the two opposite horizontal fences are the same, the two horizontal fences directly above the first receiving mechanism or the second receiving mechanism are short-side fences, the other two fences are long-side fences, and the heights of the short-side fences are smaller than the heights of the long-side fences.

9. The automatic double-station collecting and arranging device for the plastic woven bags according to claim 8, wherein the first drawer-type receiving mechanism comprises a first electric platform and a first I-shaped receiving container fixedly connected with a belt of the first electric platform, the second drawer-type receiving mechanism comprises a second electric platform and a second I-shaped receiving container fixedly connected with a belt of the second electric platform, and the first electric platform and the second electric platform both adopt belt modules driven by servo motors.

10. The automatic double-station collecting and arranging device for the plastic woven bags according to claim 9, wherein each of the first and second I-shaped receiving containers comprises a horizontal base and surrounding bars vertically connected to the front end and the rear end of the horizontal base, the horizontal base comprises a plurality of horizontal sectional materials horizontally arranged at equal intervals, the two ends of the plurality of horizontal sectional materials are fixedly connected to the surrounding bars at the two ends, and the height of the surrounding bars and the height of the short-side rails are substantially equal to the height of the long-side rails.