CN112693089A

CN112693089A - Environment-friendly woven bag production equipment and use method thereof

Info

Publication number: CN112693089A
Application number: CN202011590096.3A
Authority: CN
Inventors: 袁程会
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-29
Filing date: 2020-12-29
Publication date: 2021-04-23

Abstract

The utility model provides an braided bag production facility of environmental protection and application method thereof, the on-line screen storage device comprises a base, the conveyer belt, change rod and motor, base upper end right side fixedly connected with first collection frame, first collection frame upper end is equipped with changes the rod bayonet socket, it is connected with the sixth rod that changes to rotate in the rod bayonet socket, woven cloth drives forward through the fifth rod that changes and gets into the conveyer belt, the printing machine of conveyer belt upper end begins the printing through flexible motor, the rapid-curing cuter fan of second collection frame left end air-dries to the printing face, second collection frame lower extreme is equipped with shears the sword and cuts woven cloth, woven cloth that the cutting was accomplished sees off through the transmission band after the sewing machine suture of right-hand member.

Description

Environment-friendly woven bag production equipment and use method thereof

Technical Field

The invention relates to the technical field of woven bag production, in particular to environment-friendly woven bag production equipment.

Background

A woven bag, also called a snakeskin bag, is one of plastic bags and is used for packaging, and the principle of the woven bag is that various chemical plastic raw materials such as polyethylene, polypropylene and the like are generally used. Among the prior art, the production of braided bag still can not be automatic comprehensively, and the centre still needs the manual work to operate, and wire drawing, establishment, shearing and the suture from the braided bag all need the manual work to remove the semi-manufactured goods to accomplish in the apparatus of difference, great increase workman's labour, the mode that the production adopted the assembly line of present braided bag carries out wherein many equipment volumes are great has caused a lot of puzzlements to miniature processing factory.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides environment-friendly woven bag production equipment which can automatically perform wire drawing and cooling only by putting raw materials into a hot melting furnace and then conveying the raw materials to each station through a conveying belt, so that automatic production is gradually realized.

The invention adopts the technical scheme for solving the technical problems that: the environment-friendly woven bag production equipment comprises a base, a conveying belt, a rotating rod and a motor, wherein a grinder is arranged on the right side of the base and comprises an inlet, grinding teeth, a transmission shaft, a rotating shaft motor, a storage chamber and an outlet, the upper end of the grinder is fixedly connected with the inlet, the lower end of the inlet is fixedly connected with the storage chamber, a cavity is arranged inside the storage chamber, the grinding teeth are rotatably connected inside the cavity through the transmission shaft and are fixedly connected with the transmission shaft, the upper end of the transmission shaft is fixedly provided with the rotating shaft motor, the rotating shaft motor is fixedly connected to the upper end of the storage chamber, the lower end of the storage chamber is provided with the outlet, the lower end of the outlet is fixedly connected with a hot melting machine, an interlayer, a heating pipe, a heating chamber, a baffle, an extruding chamber and an extruding machine are arranged inside the hot melting machine, the lower end of the heating chamber is provided with a baffle plate, the baffle plate is rotationally connected with the heating chamber through a rotating shaft, the lower end of the baffle plate is fixedly connected with an extrusion chamber, the interior of the extrusion chamber is rotationally connected with an extruder, the lower end of the extrusion chamber is provided with a stepping motor, the stepping motor is fixedly connected with the lower end of the extrusion chamber, the left end of the hot melting machine is provided with a cooling pool, rotating rods are arranged on the left side and the right side of the upper end of the cooling pool, a pit is arranged in the cooling pool, the lower end of the middle part of the inner side of the cooling pool is rotationally connected with a limiting rod, the left end of the cooling pool is provided with a circular weaving machine, the left end of the circular weaving machine is provided with a first collecting frame, the first collecting frame is fixedly connected with the upper end of a base, a rotating rod bayonet is arranged on the upper end of the first collecting, the collecting pipe is rotatably connected inside the second bayonet, the front end of the collecting pipe is fixedly connected with a belt wheel, the belt wheel is connected with a motor through a flat belt, the left end of the first collecting frame is provided with a second collecting frame fixedly connected above the base, the upper end of the second collecting frame is provided with a conveying belt, the conveying belt is rotatably connected with the second collecting frame through a second rotating roller, the upper end of the second collecting frame is fixedly connected with a printing machine, the front end and the rear end of the printing machine are fixedly connected with sliding blocks, guide rails are arranged outside the sliding blocks, the sliding blocks are slidably connected in the guide rails, the guide rails are fixedly connected at the upper end of the second collecting frame, the upper end of the guide rails is fixedly connected with a telescopic motor, a telescopic shaft of the telescopic motor is fixedly connected with the printing machine, the left end of the second collecting frame is provided with a rotating roller frame fixedly connected above the base, and the, the left end of the rotary rod frame is provided with a quick drying fan, the lower side of the left end of the second collecting frame is provided with a shearing knife, the shearing knife is fixedly connected with a telescopic motor at the upper end of the second collecting frame, the left end of the shearing knife is provided with two fourth rotating rods which are arranged up and down, the fourth rotating roller is rotationally connected with the second collecting frame, the front end of the fourth rotating roller is provided with gears which are meshed with each other, a gear motor is rotationally connected in front of the fourth rotary roller gear and is fixedly connected with the second collecting frame, the right end of the shearing knife is provided with a transmission belt which rolls to the front and back direction, the transmission belt is rotationally connected with the second collecting rack through a rolling shaft, the right end of the transmission belt is provided with a sewing machine, the upper end of the sewing machine is connected with a track groove in a sliding way, the track groove is fixedly connected with the lower end of the second collecting frame, the track groove rear end fixedly connected with second flexible motor, the flexible motor spindle of second and sewing machine rear end fixed connection.

In order to further improve the structure, a recovery frame is arranged on the upper side of the circular weaving machine, and a fifth rotating roller is rotatably connected to the inner side of the recovery frame.

Further perfect, the baffle divide into left baffle and right baffle, left side baffle includes pivot and torsional spring, left side baffle rotates through pivot and hot melting machine to be connected, pivot outside cover has the torsional spring, left side baffle sets up with right baffle symmetry, and the torsional spring that is equipped with in the pivot outside of controlling baffle and hot melting machine junction can keep the baffle closed, and the baffle is automatic to be opened when gravity is greater than the torsion of torsional spring.

Further perfection, the extruder is spiral in shape, and the spiral shape can extrude the material more stably and uniformly.

Further perfect, the printing machine includes shell, printing plate, slide rail groove, slider and spring, the inside cavity department that is equipped with of shell, both ends are equipped with the guide rail groove around the cavity department, the printing plate passes through slider and cavity department sliding connection, printing plate upper end fixedly connected with spring, the spring that is equipped with between printing plate and the shell cushions when can making the printing plate push down.

Further perfecting, rapid-curing cutback fan lower extreme fixedly connected with support, two fans around the rapid-curing cutback fan is inside to be equipped with, the fan passes through mount fixed connection inside the rapid-curing cutback fan, fan pivot left end fixedly connected with drive gear, the drive gear lower extreme is equipped with fan motor, fan motor fixed connection is inside the rapid-curing cutback fan, fan motor main shaft left end fixedly connected with gear, gear and drive gear meshing transmission.

Further perfection, the cooling pond lower extreme is equipped with universal gyro wheel, can make things convenient for the removal of cooling pond.

Further perfect, the cooling pond bottom is equipped with the mouth of leaking water, the mouth of leaking water runs through the cooling pond bottom, mouth of leaking water lower extreme fixedly connected with drain pipe, drain pipe front end fixedly connected with tap, the drain pipe that is equipped with can discharge the change to the cooling water in the cooling pond.

An application method of environment-friendly woven bag production equipment comprises the following steps:

a1, pouring raw materials into a storage chamber through an inlet of a pulverizer, rotating pulverizing teeth in the storage chamber under the drive of a rotating shaft motor to pulverize the raw materials, then feeding the raw materials into a hot melting machine through an outlet, arranging an interlayer in the hot melting machine, heating a heating pipe arranged in the interlayer to melt the raw materials, opening a baffle below the hot melting machine to feed the raw materials into an extrusion chamber when the weight in the hot melting chamber reaches a certain value, extruding the raw materials into filaments by an extruder in the extrusion chamber through rotary pressurization, and cooling the extruded raw materials into a circular weaving machine through a cooling pool to weave the raw materials into woven cloth;

a2: the woven cloth is coiled and collected by a recovery frame at the upper end of a circular weaving machine, or the woven cloth is transmitted by a fifth rotating roller at the left side of the upper end of the recovery frame and a sixth rotating roller in a roller clamping opening at the upper end of a first collection frame, so that the woven cloth enters a conveying belt at the upper end of a second collection frame, a printer arranged at the upper end of the conveying belt is driven by a telescopic motor to print the woven cloth passing through the conveying belt, the printed woven cloth is transmitted to the left end by the conveying belt, a quick drying fan at the left end air-dries the printed surface, the woven cloth enters the lower end of the second collection frame by a fourth rotating roller, a shearing knife at the left side of the lower end of the second collection frame is connected with the telescopic motor to shear the woven cloth, a sewing machine is arranged at the right end of the shearing knife, and the sewing machine is driven by, after the woven cloth is sewed, the woven bag is conveyed out through the lower conveying belt, and then the woven bag can be manufactured.

The invention has the beneficial effects that: the invention uses the grinder to grind the raw material to melt the raw material in the hot melting chamber, the melted raw material is extruded by the extruder to finish the wire drawing, the wire drawing forming raw material enters the cooling tank through the rotating roller, the wire drawing is woven into the woven cloth through the circular weaving machine, the woven cloth after weaving is collected by the collecting pipe driven by the motor, the collected woven cloth is put into the rotating roller bayonet, the woven cloth can move through the conveying belt, the printing machine prints through the driving of the telescopic motor, the quick drying fan at the left end dries the printed woven cloth, the rotating roller drives the woven cloth to enter the second collecting lower end, the shearing knife is connected with the telescopic motor to finish the shearing of the woven cloth, the machine is sewed in the track groove through the sliding connection of the right end of the shearing knife, and the sewed woven bag is delivered through the conveying belt.

Drawings

FIG. 1 is a schematic structural view of a first collecting rack, a second collecting rack and a roll rack;

FIG. 2 is a perspective view of the shredder and the fuser;

FIG. 3 is a cross-sectional view of the shredder and fuser;

FIG. 4 is a perspective view of the cooling bath;

fig. 5 is a perspective view of the knitting machine;

FIG. 6 is a cross-sectional view of a second collection rack;

FIG. 7 is a rear view of a second collection rack;

FIG. 8 is a cross-sectional view of the printing press;

FIG. 9 is a view showing a structure of a transmission of the quick drying fan;

FIG. 10 is a cross-sectional view of a quick drying blower;

FIG. 11 is a schematic structural view of the present invention.

Description of reference numerals: 1 base, 2 crushers, 3 inlets, 4 crushing teeth, 5 transmission shafts, 6 rotating shaft motors, 7 storage chambers, 8 outlets, 10 hot melting machines, 11 interlayers, 12 heating pipes, 13 heating chambers, 14 baffles, 15 extrusion chambers, 16 extruders, 17 rotating shafts, 18 cooling tanks, 19 rotating sticks, 20 pits, 21 circular weaving machines, 23 first collection racks, 24 second collection racks, 25 rotating stick racks, 26 rotating stick bayonets, 27 second bayonets, 28 collection pipes, 29 belt wheels, 30 motors, 31 conveying belts, 32 printing machines, 33 sliding blocks, 34 guide rails, 35 quick drying fans, 36 telescopic motors, 37 recovery racks, 38 shells, 39 printing plates, 40 sliding rail grooves, 42 springs, 43 hollows, 44 fans, 45 fixing racks, 46 transmission gears, 47 fan motors, 48 gears, 49 left baffles, 50 right baffles, 52 torsion springs, 53 universal rollers, 54 water leakage ports, 55 drainage pipes, 56 shearing knives, 57 conveyor belts, 58 rollers, 59 sewing machines, 60 track grooves, 61 second telescopic motors, 62 stepping motors, 63 third rotating rods, 64 fourth rotating rods, 65 limiting rods, 66 second rotating rods, 67 gear motors, 68 fifth rotating rods, 69 sixth rotating rods and 70 small holes.

Detailed Description

The invention will be further described with reference to the accompanying drawings in which:

referring to FIGS. 1-11 of the drawings: in this embodiment, an environmental protection braided bag production facility, including base 1, conveyer belt 31, change rod 19 and motor 30, base 1 right side is equipped with rubbing crusher 2, rubbing crusher 2 includes import 3, crushing tooth 4, transmission shaft 5, pivot motor 6, apotheca 7 and export 8, rubbing crusher 2 upper end fixedly connected with import 3, import 3 lower extreme fixedly connected with apotheca 7, the inside cavity that is equipped with of apotheca 7, crushing tooth 4 rotates through transmission shaft 5 to be connected inside the cavity, crushing tooth 4 and transmission shaft 5 fixed connection, transmission shaft 5 upper end is fixed with pivot motor 6, pivot motor 6 fixed connection is in apotheca 7 upper end, and apotheca 7 lower extreme is equipped with export 8, export 8 lower extreme fixedly connected with hot melt machine 10, the inside interlayer 11, heating pipe 12 that are equipped with of hot melt machine 10, Heating chamber 13, baffle 14, extrusion chamber 15 and extruder 16, the heating chamber 13 outside is equipped with interlayer 11, the inside fixedly connected with heating pipe 12 of interlayer 11, heating chamber 12 lower extreme is equipped with baffle 14, baffle 14 rotates with heating chamber 13 through pivot 17 to be connected, baffle 14 lower extreme fixedly connected with extrusion chamber 15, extrusion chamber 15 inside rotates to be connected with extruder 16, extrusion chamber 15 lower extreme is equipped with a plurality of aperture 70, extruder 16 lower extreme is equipped with step motor 62, step motor 62 fixed connection is at extrusion chamber 15 lower extreme, hot melt machine 10 left end is equipped with cooling tank 18, cooling tank 18 upper end left and right sides is equipped with commentaries on classics rod 19, cooling tank 18 inside is equipped with pit 20, cooling tank 18 inboard middle part lower extreme rotates and is connected with spacing rod 65, cooling tank 18 left end is equipped with circular loom 21, circular loom 21 left end is equipped with first collection frame 23, the first collecting frame 23 is fixedly connected to the upper end of the base 1, the upper end of the first collecting frame 23 is provided with a rotating roller bayonet 26, a sixth rotating roller 69 is rotatably connected to the interior of the rotating roller bayonet 26, the lower end of the first collecting frame 23 is provided with an inclined second bayonet 27, the interior of the second bayonet 27 is rotatably connected with a collecting pipe 28, the front end of the collecting pipe 28 is fixedly connected with a belt wheel 29, the belt wheel 29 is connected with a motor 30 through a flat belt, the left end of the first collecting frame 23 is provided with a second collecting frame 24 fixedly connected to the upper side of the base 1, the upper end of the second collecting frame 24 is provided with a conveying belt 31, the conveying belt 31 is rotatably connected with the second collecting frame 24 through a second rotating roller 66, the upper end of the second collecting frame 24 is fixedly connected with a printing machine 32, the front end and the rear end of the printing machine 32 are fixedly connected with sliding blocks 33, the outer side, the guide rail 34 is fixedly connected to the upper end of the second collecting frame 24, the upper end of the guide rail 34 is fixedly connected with a telescopic motor 36, a telescopic shaft of the telescopic motor 36 is fixedly connected with the printing machine 32, the left end of the second collecting frame 24 is provided with a rotary rod frame 25, the rotary rod frame 25 is fixedly connected to the upper side of the base 1, the middle of the inner side of the rotary rod frame 25 is rotatably connected with a third rotary rod 63 with the upper end of the inner side, the left end of the rotary rod frame is provided with a quick drying fan 35, the lower side of the left end of the second collecting frame 24 is provided with a shearing knife 56, the shearing knife 56 is fixedly connected with the telescopic motor 36 on the upper end of the second collecting frame 24, the left end of the shearing knife 56 is provided with two fourth rotary rods 64 which are vertically arranged, the fourth rotary rods 64 are rotatably connected with the second collecting frame 24, the front ends of the fourth rotary rods 64 are provided with gears which are meshed with each, frame 24 fixed connection is collected with the second to gear motor 67, it is equipped with to the rolling transmission band 57 of fore-and-aft direction to cut sword 56 right-hand member, the transmission band 57 is collected frame 24 through roller bearing 58 and second and is rotated and be connected, transmission band 57 right-hand member is equipped with sewing machine 59, sewing machine 59 upper end sliding connection has track groove 60, track groove 60 fixed connection is at the second and collects frame 24 lower extreme, track groove 60 rear end fixedly connected with second motor 61 that stretches out and draws back, the flexible motor 61 main shaft of second and sewing machine 59 rear end fixed connection.

The upper side of the circular weaving machine 21 is provided with a recovery frame 37, and the inner side of the recovery frame 37 is rotatably connected with a fifth rotating stick 68.

Baffle 14 divide into left baffle 49 and right baffle 50, left side baffle 49 includes pivot 17 and torsional spring 52, left side baffle 49 rotates with hot melt machine 10 through pivot 17 to be connected, the pivot 17 outside cover has torsional spring 52, left side baffle 49 sets up with right baffle 50 symmetry. The extruder 16 is spiral in shape.

Printing machine 32 includes shell 38, printing plate 39, slide rail groove 40 and spring 42, shell 38 is inside to be equipped with cavity 43, both ends fixedly connected with slider 33 around printing plate 39, both ends are equipped with guide rail groove 40 around cavity 43, printing plate 39 passes through slider 33 and cavity 43 sliding connection, printing plate 39 upper end fixedly connected with spring 42.

Quick-drying fan 35 lower extreme fixedly connected with support 43, two fans 44 around quick-drying fan 35 is inside to be equipped with, fan 44 passes through mount 45 fixed connection inside quick-drying fan 35, fan 44 pivot left end fixedly connected with drive gear 46, drive gear 46 lower extreme is equipped with fan motor 47, fan motor 47 fixed connection is inside quick-drying fan 35, fan motor 47 main shaft left end fixedly connected with gear 48, gear 48 and drive gear 46 meshing transmission.

The universal idler wheel 53 is arranged at the lower end of the cooling pool 18, the water leaking port 54 is arranged at the bottom of the cooling pool 18, the water leaking port 54 penetrates through the bottom end of the cooling pool 18, the lower end of the water leaking port 54 is fixedly connected with the water discharging pipe 55, and the water faucet is fixedly connected to the front end of the water discharging pipe 55.

a1, pouring raw materials into a storage chamber 7 through an inlet 3 of a pulverizer 2, rotating crushing teeth 4 in the storage chamber 7 under the drive of a rotating shaft motor 6 to crush the raw materials, then feeding the raw materials into a hot melting machine 10 through an outlet 8, arranging an interlayer 11 in the hot melting machine 10, heating a heating pipe 12 arranged in the interlayer 11 to melt the raw materials, opening a baffle 14 below the hot melting machine 11 to feed the raw materials into an extrusion chamber 15 when the weight in the hot melting chamber reaches a certain value, extruding the raw materials into filaments by an extruder 16 in the extrusion chamber 15 through rotary pressurization, and cooling the extruded raw materials through a cooling pool 18 to feed into a circular weaving machine 21 to be woven cloth;

a2: the woven cloth is wound and collected by a recovery frame 37 at the upper end of a circular weaving machine 21, or the woven cloth is conveyed by a fifth rotating roller 68 at the left side of the upper end of the recovery frame 37 and a sixth rotating roller 69 in a roller clamping opening 26 at the upper end of a first collection frame 23, so that the woven cloth enters a conveying belt 31 at the upper end of a second collection frame 24, a printer 32 arranged at the upper end of the conveying belt 31 is driven by a telescopic motor 36 to print the woven cloth passing through the conveying belt 31, the printed woven cloth is conveyed to the left end by the conveying belt 31, a quick drying fan 35 at the left end air-dries a printed surface, the woven cloth enters the lower end of the second collection frame 24 by a fourth rotating roller 64, a shearing knife 56 at the left side of the lower end of the second collection frame 24 is connected with the telescopic motor 36 to shear the woven cloth, a stitching machine 59 is arranged at the right end of the shearing knife 56, the stitching machine 59 is driven by a second telescopic motor, after the woven cloth is sewed, the woven bag is conveyed out through the lower conveying belt 57, and then the woven bag can be manufactured.

Pouring raw materials into an inlet 3 at the upper end of a pulverizer 2, driving pulverizing teeth 4 in a storage chamber 7 at the lower end of the inlet 3 to rotate through a stepping motor 62, rotating the pulverizing teeth 4 to pulverize the raw materials, feeding the pulverized raw materials into a hot melting machine 10 through an outlet 8 at the lower end of the storage chamber 7, heating a heating pipe 12 in an interlayer 11 in the hot melting machine 10 to melt the raw materials, opening a baffle plate 14 at the lower part when the weight of the raw materials in a heating chamber 13 reaches a certain amount, feeding the melted raw materials into an extrusion chamber 15, driving an extruder 16 in the extrusion chamber 15 to rotate through the motor to draw the raw materials to extrude the raw materials into wires from small holes 70, feeding the drawn raw materials into a cooling tank 18 through a rotating rod 19 at the left end of the weaving tank 18 to be cooled, feeding the woven cloth into a circular weaving machine 21 through a fifth rotating rod 68 at the left end of the upper side of the circular weaving machine 21 to be fed into a first collecting frame 23, the collecting pipe 28 is rotatably connected inside the inclined second bayonet 27 at the lower end of the first collecting frame 23, the belt wheel 29 is fixedly connected at the front end of the collecting pipe 28 and is connected with the motor 30 through the flat belt, woven cloth is collected through the collecting pipe 28, the collected woven cloth is taken out and put into the rotary rod bayonet 26, the woven cloth is transported through the conveying belt 31, the printing machine 32 at the upper end of the second collecting frame 24 can automatically print, the printed woven cloth moves through the rotary rod 19, the quick drying fan 35 at the left end of the second collecting frame 24 starts to work and air-dries the printed surface, when the woven cloth enters the lower part of the shearing knife 56 at the lower end of the second collecting frame 24, the shearing knife 56 is connected with the telescopic motor 36 to cut downwards, the sewing machine 59 at the right end of the shearing knife 56 finishes sealing the woven bag after cutting, and the finished woven bag is conveyed out through the conveying belt 57.

While the invention has been shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

Claims

1. The utility model provides a braided bag production facility of environmental protection, includes base (1), conveyer belt (31), changes rod (19) and motor (30), characterized by: base (1) right side is equipped with rubbing crusher (2), rubbing crusher (2) are including import (3), crushing tooth (4), transmission axle (5), pivot motor (6), apotheca (7) and export (8), rubbing crusher (2) upper end fixedly connected with import (3), import (3) lower extreme fixedly connected with apotheca (7), apotheca (7) inside is equipped with the cavity, crushing tooth (4) rotate through transmission axle (5) and connect inside the cavity, crushing tooth (4) and transmission axle (5) fixed connection, transmission axle (5) upper end is fixed with pivot motor (6), pivot motor (6) fixed connection is in apotheca (7) upper end, and apotheca (7) lower extreme is equipped with export (8), export (8) lower extreme fixedly connected with hot melt machine (10), hot melt machine (10) inside is equipped with interlayer (11), Heating pipe (12), heating chamber (13), baffle (14), extrusion chamber (15) and extruder (16), heating chamber (13) outside is equipped with interlayer (11), interlayer (11) inside fixedly connected with heating pipe (12), heating chamber (12) lower extreme is equipped with baffle (14), baffle (14) rotate with heating chamber (13) through pivot (17) and are connected, baffle (14) lower extreme fixedly connected with extrusion chamber (15), extrusion chamber (15) inside rotates and is connected with extruder (16), extrusion chamber (15) lower extreme is equipped with a plurality of aperture (70), extruder (16) lower extreme is equipped with step motor (62), step motor (62) fixed connection is in extrusion chamber (15) lower extreme, hot melt machine (10) left end is equipped with cooling bath (18), cooling bath (18) upper end left and right sides is equipped with changes rod (19), the utility model discloses a weaving machine, including cooling tank (18), first collection frame (23) fixed connection is in base (1) upper end, cooling tank (18) left end is equipped with circular loom (21), circular loom (21) left end is equipped with first collection frame (23), first collection frame (23) upper end is equipped with commentaries on classics rod bayonet socket (26), commentaries on classics rod bayonet socket (26) internal rotation is connected with sixth commentaries on classics rod (69) first collection frame (23) lower extreme is equipped with second bayonet socket (27) of slope, second bayonet socket (27) internal rotation is connected with collecting pipe (28), collecting pipe (28) front end fixed connection has band pulley (29), band pulley (29) are connected through the flat belt with motor (30), first collection frame (23) left end is equipped with second collection frame (24) of fixed connection in base (1) top, the utility model discloses a roller collecting device, including frame (24), conveyer belt (31), printing machine (32), guide rail (34), telescopic motor (36), second collecting rack (24), roller (66) and second collecting rack (24) are collected to the second, conveyer belt (31) are collected through the second and are rotated rod (66) and rotate to be connected, frame (24) upper end fixedly connected with printing machine (32) are collected to the second, both ends fixedly connected with slider (33) around printing machine (32), the slider (33) outside is equipped with guide rail (34), slider (33) sliding connection is in guide rail (34), guide rail (34) fixed connection is collected frame (24) upper end at the second, guide rail (34) upper end fixedly connected with telescopic motor (36), telescopic shaft and printing machine (32) fixed connection of telescopic motor (36), second collecting rack (24) left end is equipped with changes rod frame (25), it is connected above base (1) to change rod frame (25) inboard middle part and inboard upper end and rotate and be connected with third and change, the utility model discloses a quick-drying machine, including a rotary rod frame, a rack, a transmission belt, a roller shaft, a quick-drying fan (35), a shearing knife (56), a second collecting frame (24), a telescopic motor (36), a fourth rotary rod (64), a gear motor (67), a gear motor (59), a transmission belt stitching machine (59), wherein the quick-drying fan (35) is arranged at the left end of the rotary rod frame, the shearing knife (56) and the second collecting frame (24) are fixedly connected, the telescopic motor (36) is fixedly connected at the upper end of the second collecting frame (24), the fourth rotary rod (56) is arranged at the left end of the second collecting frame (24), the gear motor (67) is rotatably connected with the second collecting frame (24) at the front end of the fourth rotary rod (64), the transmission belt (57) is arranged, sewing machine (59) upper end sliding connection has track groove (60), frame (24) lower extreme is collected at the second to track groove (60) fixed connection, track groove (60) rear end fixedly connected with second motor (61) that stretches out and draws back, the flexible motor of second (61) main shaft and sewing machine (59) rear end fixed connection.

2. The environment-friendly woven bag production equipment as claimed in claim 1, wherein: the upper side of the circular weaving machine (21) is provided with a recovery frame (37), and the inner side of the recovery frame (37) is rotatably connected with a fifth rotating rod (68).

3. The environment-friendly woven bag production equipment as claimed in claim 1, wherein: baffle (14) divide into left baffle (49) and right baffle (50), left side baffle (49) are including pivot (17) and torsional spring (52), left side baffle (49) are connected with hot melt machine (10) rotation through pivot (17), pivot (17) outside cover has torsional spring (52), left side baffle (49) and right baffle (50) symmetry set up.

4. The environment-friendly woven bag production equipment as claimed in claim 1, wherein: the extruder (16) is spiral in shape.

5. The environment-friendly woven bag production equipment as claimed in claim 1, wherein: printing machine (32) are including shell (38), printing plate (39), slide rail groove (40), slider (33) and spring (42), shell (38) inside is equipped with cavity (43), both ends are equipped with guide rail groove (40) around cavity (43), printing plate (39) are through slider (33) and cavity (43) sliding connection, printing plate (39) upper end fixedly connected with spring (42).

6. The environment-friendly woven bag production equipment as claimed in claim 1, wherein: quick-drying fan (35) lower extreme fixedly connected with support (43), two fans (44) around quick-drying fan (35) inside is equipped with, fan (44) are inside at quick-drying fan (35) through mount (45) fixed connection, fan (44) pivot left end fixedly connected with drive gear (46), drive gear (46) lower extreme is equipped with fan motor (47), fan motor (47) fixed connection is inside quick-drying fan (35), fan motor (47) main shaft right-hand member fixedly connected with gear (48), gear (48) and drive gear (46) meshing transmission.

7. The environment-friendly woven bag production equipment as claimed in claim 1, wherein: the lower end of the cooling pool (18) is provided with a universal roller (53).

8. The environmentally friendly woven bag production equipment as claimed in claim 7, wherein: the water leakage device is characterized in that a water leakage port (54) is formed in the bottom of the cooling pool (18), the water leakage port (54) penetrates through the bottom end of the cooling pool (18), a water drainage pipe (55) is fixedly connected to the lower end of the water leakage port (54), and a water faucet is fixedly connected to the front end of the water drainage pipe (55).

9. The use method of the environment-friendly woven bag production equipment according to claim 8, comprising the following steps:

a1, pouring raw materials into a storage chamber (7) through an inlet (3) of a pulverizer (2), driving pulverizing teeth (4) in the storage chamber (7) to rotate under the drive of a rotating shaft motor (6) to crush the raw materials, enabling the raw materials to enter a hot melting machine (10) through an outlet (8), arranging an interlayer (11) in the hot melting machine (10), starting heating a heating pipe (12) arranged in the interlayer (11) to melt the raw materials, opening a baffle (14) below the hot melting machine (11) to enable the raw materials to enter an extrusion chamber (15) when the weight in the hot melting chamber reaches a certain weight, enabling an extruder (16) in the extrusion chamber (15) to extrude the raw materials in a filamentous form through rotating and pressurizing, and enabling the extruded raw materials to enter a circular weaving machine (21) through cooling of a cooling pool (18) to form woven cloth;

a2: woven cloth is wound and collected through a recovery frame (37) at the upper end of a circular weaving machine (21), or the woven cloth enters a conveying belt (31) at the upper end of a second collection frame (24) through a fifth rotating roller (68) at the left side of the upper end of the recovery frame (37) and a sixth rotating roller (69) in a rotating roller bayonet (26) at the upper end of a first collection frame (23) to be transmitted, a printer (32) arranged at the upper end of the conveying belt (31) is driven by a telescopic motor (36) to print the woven cloth passing through the conveying belt (31), the printed woven cloth is transmitted to the left end through the conveying belt (31), a quick drying fan (35) at the left end is used for air drying a printed surface, the woven cloth enters the lower end of the second collection frame (24) through a fourth rotating roller (64), a shearing knife (56) at the left side of the lower end of the second collection frame (24) is connected with the telescopic motor (36) to shear the woven cloth, the right end of the shearing knife (56) is provided with a stitching machine (59), the stitching machine (59) moves in the track groove (60) under the driving of the second telescopic motor (61) to complete the stitching of woven cloth, and after the stitching of the woven cloth is completed, the woven bag is sent out through the lower conveying belt (57) to complete the manufacturing of the woven bag.