CN111570138B - Braided bag intelligence printing system - Google Patents

Abstract

The invention relates to an intelligent printing system for woven bags, which comprises a conveying mechanism, a rotary clamping mechanism, a rolling and leveling mechanism and an air drying mechanism. The invention can solve the following problems in the processing process of the woven bag; in the traditional spraying operation in-process of an, a spraying mechanism corresponds an anchor clamps, if realize carrying out the spraying to the braided bag of different specifications, will change anchor clamps, technology is comparatively loaded down with trivial details, and b current spraying equipment can not catch up with the tie to the braided bag that has the centre gripping, leads to the braided bag to have the fold phenomenon, influences follow-up spraying, and current equipment does not handle the braided bag after the spraying, causes coating to take place to bond between the braided bag, influences the spraying effect.

Description

Braided bag intelligence printing system

Technical Field

The invention relates to the field of woven bag processing, in particular to an intelligent printing system for woven bags.

Background

The woven bag is a necessary product in human production and life, people can put needed articles in the woven bag in the production and life, and people need to spray and process the surface of the woven bag, so that people can conveniently identify and publicize the product.

At present, the following problems exist in the spraying operation process of woven bags: in the traditional spraying operation in-process of an, a spraying mechanism corresponds an anchor clamps, if realize carrying out the spraying to the braided bag of different specifications, will change anchor clamps, technology is comparatively loaded down with trivial details, and b current spraying equipment can not catch up with the tie to the braided bag that has the centre gripping, leads to the braided bag to have the fold phenomenon, influences follow-up spraying, and current equipment does not handle the braided bag after the spraying, causes coating to take place to bond between the braided bag, influences the spraying effect.

Disclosure of Invention

Technical problem to be solved

1. The invention provides an intelligent printing system for woven bags, which can solve the following problems in the spraying operation of the woven bags: in the traditional spraying operation in-process of an, a spraying mechanism corresponds an anchor clamps, if realize carrying out the spraying to the braided bag of different specifications, will change anchor clamps, technology is comparatively loaded down with trivial details, and b current spraying equipment can not catch up with the tie to the braided bag that has the centre gripping, leads to the braided bag to have the fold phenomenon, influences follow-up spraying, and current equipment does not handle the braided bag after the spraying, causes coating to take place to bond between the braided bag, influences the spraying effect.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme that the woven bag intelligent printing system comprises a conveying mechanism, a rotary clamping mechanism, a rolling and leveling mechanism and an air drying mechanism, wherein the rotary clamping mechanism, the rolling and leveling mechanism and the air drying mechanism are sequentially arranged on the inner wall of the conveying mechanism from left to right; wherein:

conveying mechanism include outside frame, sprayer, a rotating electrical machines, square post, a live-rollers and conveyer belt, wherein outside frame lower extreme inner wall on the bilateral symmetry install square post, two live-rollers pass through the bearing and set up side by side on square post, link to each other through the conveyer belt between two live-rollers, a rotating electrical machines passes through the motor cabinet and installs on outside frame lower extreme inner wall, and a rotating electrical machines output shaft is connected with a live-rollers in left side through the axle sleeve, the sprayer is installed to outside frame upper end inner wall intermediate position.

The rotary clamping mechanism comprises a third rotary motor, a rotary frame, a third driving cylinder, a fourth driving cylinder, a horizontal direction adjusting frame, a vertical direction adjusting frame, an adsorption locking branched chain and a fixed branched chain, wherein the third rotary motor is arranged on the inner wall of the conveying mechanism through a motor base, the third rotary motor is horizontally positioned in the middle of the air drying mechanism and the rolling leveling mechanism and is positioned below the sprayer, the third rotary motor is rotatably connected with the rotary frame through a shaft sleeve, the rotary frame is circumferentially arranged on the rotary frame, the rotary frame at the highest position is positioned under the sprayer, two sliding grooves are formed in the left lower end face and the right lower end face of the inner part of the rotary frame, the horizontal direction adjusting frame is arranged in the two sliding grooves in a sliding fit mode, the third sliding groove is formed in the side face of the upper end of the horizontal direction adjusting frame, the vertical direction adjusting frame is arranged in the left sliding fit mode and the right sliding fit mode, the terminal surface intermediate position is installed through the cylinder block under the rotating frame inside and is driven actuating cylinder and drive actuating cylinder four times, wherein three numbers drive actuating cylinder and horizontal direction alignment jig and connect, four numbers drive actuating cylinder and vertical direction alignment jig and connect, horizontal direction alignment jig and vertical direction alignment jig up end are installed and are adsorbed the locking branch chain, No. four spouts have been seted up on the vertical direction alignment jig outside end face, fixed branch chain passes through the sliding fit mode and installs in No. four spouts, use through the cooperation of horizontal direction alignment jig and vertical direction alignment jig, can adsorb the braided bag of different specifications.

The air drying mechanism comprises a second driving air cylinder, an air drying rack, an air drying frame, a rotating rack, a second telescopic spring rod, a supporting long plate, a second rotating motor, a rotating shaft, a cam, fan blades and a blowing branch chain, wherein the air drying rack is arranged on the inner wall of the conveying mechanism and is positioned on the same horizontal line with the rolling and leveling mechanism, a first sliding groove is formed in the inner wall of the lower end of the air drying rack, the air drying frame is in sliding fit with the air drying rack through the first sliding groove, the second driving air cylinder is arranged on the inner wall of the lower end of the air drying rack, a driving shaft of the second driving air cylinder is connected with the right end face of the air drying frame, the rotating rack is arranged on the right end face inside the air drying frame, the second rotating motor is arranged on the left side of the rotating rack, the rotating shaft is arranged on an output shaft of the second rotating motor through a shaft sleeve, the fan blades are circumferentially arranged on the rotating shaft, and the cams are symmetrically arranged at two ends of the rotating shaft, the left side of the cam is provided with a supporting long plate, the supporting long plate is connected with the rotating rack through a second telescopic spring rod, the left side of the supporting long plate is provided with a blowing branch chain, and the blowing branch chains are symmetrically arranged on the inner wall of the air drying frame up and down.

The rolling and flattening mechanism comprises a flattening frame, a first driving cylinder, a rolling platform, rolling branched chains, elastic branched chains and a spring, wherein the flattening frame is arranged on the inner wall of the conveying mechanism, one end of the first driving cylinder is arranged on the inner wall of the flattening frame through a cylinder seat, the rolling platform is arranged at the other end of the first driving cylinder, the rolling branched chains are circumferentially arranged on the right end face of the rolling platform through pin shafts and are connected with the alignment rolling branched chains through the spring, and the elastic branched chains are symmetrically arranged in the middle of the rolling platform and are positioned in the middle of the circumferential rolling branched chains.

Preferably, the adsorption locking branched chain comprises an air pump, a third telescopic spring rod, a sucker, a square block, a fixed short plate, a fourth telescopic spring rod and a fixed long rod, vertical direction alignment jig on No. three spouts the upper end seted up the cavity, the round hole has evenly been seted up to vertical direction alignment jig up end, round hole internally mounted has No. three flexible spring arms, the sucking disc is installed to No. three flexible spring arm upper ends, the inside cavity structure that is of No. three flexible spring arms, the air pump is installed at a cavity intermediate position, No. three flexible spring arm lower extreme is connected with the air pump through the rubber tube, connect with fixed long pole between No. three flexible spring arms, fixed long pole both ends symmetry is installed square, square side is seted up flutedly, fixed short slab is installed at a cavity both ends, install No. four flexible spring arms on the fixed short slab, wherein No. four flexible spring arms and recess sliding fit.

Preferably, the adsorption locking branched chain of the vertical direction adjusting frame is identical in structure to the adsorption locking branched chain of the horizontal direction adjusting frame.

Preferably, fixed branch including remove frame, No. four rotating electrical machines, dead lever and arc, wherein the removal frame install in the vertical direction alignment jig outside through sliding fit's mode, No. four rotating electrical machines are installed in removing the frame, No. four rotating electrical machines output shafts pass through the axle sleeve and are connected with the dead lever, evenly seted up the quad slit on dead lever and the arc, and seted up logical groove on the arc terminal surface, the dead lever passes logical groove and is connected with the arc through the round pin axle.

Preferably, the rolling branch chain comprises a second rotating roller and a rolling long plate, wherein one end of the rolling long plate is provided with a first through groove, the second rotating roller is installed inside the first through groove through a bearing, and the other end of the rolling long plate is installed on the end face of the right side of the rolling table through a pin shaft.

Preferably, the elastic branched chain comprises a third rotating roller, a first telescopic spring rod and a rotating frame, wherein one end of the first telescopic spring rod is installed on the end face of the right side of the rolling table, the other end of the first telescopic spring rod is provided with the rotating frame, and the third rotating roller is installed in the rotating frame through a bearing.

Preferably, the air blowing branch chain comprises an air blowing box, a rotary long shaft and an air blowing plate, wherein the air blowing box is installed on the inner wall of the air drying frame, the air blowing plate is installed on the inner wall of the air drying frame, and the air blowing box is connected with the air blowing plate through a rubber pipe. The rotary long shaft is arranged on the inner wall of the air drying frame through a pin shaft, one end of the rotary long shaft is abutted against the blast box, and the other end of the rotary long shaft is abutted against the supporting long plate.

(III) advantageous effects

1. The invention can solve the following problems in the spraying operation of the woven bag: in the traditional spraying operation in-process of an, a spraying mechanism corresponds an anchor clamps, if realize carrying out the spraying to the braided bag of different specifications, will change anchor clamps, technology is comparatively loaded down with trivial details, and b current spraying equipment can not catch up with the tie to the braided bag that has the centre gripping, leads to the braided bag to have the fold phenomenon, influences follow-up spraying, and current equipment does not handle the braided bag after the spraying, causes coating to take place to bond between the braided bag, influences the spraying effect.

2. The rotary clamping mechanism designed by the invention can adjust woven bags with different specifications by adjusting the horizontal direction adjusting frame and the vertical direction adjusting frame in operation and matching with the adsorption locking branched chain and the fixed branched chain, and improves the efficiency in the operation process by a three-dimensional surrounding structure.

3. The rolling leveling mechanism designed by the invention can level up and level the surface of the woven bag in a way of matching the rolling branched chain and the elastic branched chain, so that the influence of the surface wrinkles of the woven bag on the spraying operation can be prevented.

4. The air drying mechanism designed by the invention enables the coating on the woven bag to be quickly dried in a mode of matching the air blowing branched chain with the fan blade, so that the air drying efficiency is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a cross-sectional view of the airing mechanism of the present invention;

FIG. 3 is a top view of the rolling and leveling mechanism of the present invention;

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

FIG. 5 is a top view of the rotary clamping mechanism of the present invention;

FIG. 6 is a schematic view of a fixed branched chain structure according to the present invention

Fig. 7 is a cross-sectional view of the rotary clamping mechanism of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 7, a braided bag intelligence printing system, includes conveying mechanism 1, rotary clamping mechanism 2, rolling levelling mechanism 3 and air-dry mechanism 4, wherein rotary clamping mechanism 2, rolling levelling mechanism 3 and air-dry mechanism 4 are installed in proper order from left to right to conveying mechanism 1 inner wall.

The conveying mechanism 1 comprises an external frame 11, a sprayer 12, a first rotating motor 13, a square column 14, two first rotating rollers 15 and a conveying belt 16, wherein the square column 14 is symmetrically installed on the inner wall of the lower end of the external frame 11 in a bilateral mode, the two first rotating rollers 15 are arranged on the square column 14 side by side through bearings, the two first rotating rollers 15 are connected through the conveying belt 16, the first rotating motor 13 is installed on the inner wall of the lower end of the external frame 11 through a motor base, an output shaft of the first rotating motor 13 is connected with the first rotating roller 15 on the left side through a shaft sleeve, the sprayer 12 is installed in the middle position of the inner wall of the upper end of the external frame 11, the first rotating motor 13 works to drive the first rotating rollers 15 to rotate, the first rotating rollers 15 rotate to drive the conveying belt 16 to move from left to right, a woven bag is conveyed to the lowest position of the rotary clamping mechanism 2 through the conveying belt 16, and carrying out next treatment.

The rotary clamping mechanism 2 comprises a third rotary motor 21, a rotary frame 22, a rotary frame 23, a third driving cylinder 24, a fourth driving cylinder 25, a horizontal direction adjusting frame 26, a vertical direction adjusting frame 27, an adsorption locking branched chain 28 and a fixed branched chain 29, wherein the third rotary motor 21 is arranged on the inner wall of the conveying mechanism 1 through a motor base, the third rotary motor 21 is positioned in the middle of the air drying mechanism 4 and the rolling leveling mechanism 3 and is positioned below the sprayer 12, the third rotary motor 21 is rotatably connected with the rotary frame 22 through a shaft sleeve, the rotary frame 23 is circumferentially arranged on the rotary frame 22, the rotary frame 23 at the highest position is positioned under the sprayer 12, a second sliding groove is formed in the left end surface and the right end surface of the inner part of the rotary frame 23, the horizontal direction adjusting frame 26 is arranged in the second sliding groove in a sliding fit mode, and the third sliding groove is formed in the side surface of the upper end of the horizontal direction adjusting frame 26, install vertical direction alignment jig 27 through sliding fit mode about No. three spouts, the inside lower terminal surface intermediate position of revolving frame 23 is installed through the cylinder block and is driven actuating cylinder 24 No. three and drive actuating cylinder 25 No. four, wherein drive actuating cylinder 24 and horizontal direction alignment jig 26 connection No. three, drive actuating cylinder 25 and vertical direction alignment jig 27 connection No. four, horizontal direction alignment jig 26 and vertical direction alignment jig 27 up end are installed and are adsorbed locking branched chain 28, No. four spouts have been seted up on vertical direction alignment jig 27 outside terminal surface, fixed branched chain 29 is installed in No. four spouts through sliding fit mode.

2 concrete during operation of rotatory fixture, according to the specification of braided bag, No. three drive actuating cylinder 24 work and drive horizontal direction alignment jig 26 and remove, No. four drive actuating cylinder 25 work and drive vertical direction alignment jig 27 and slide in No. three spouts, when horizontal direction alignment jig 26 and vertical direction alignment jig 27 remove operating position, adsorb rotatory frame 23 inside with the braided bag from conveyer belt 16 through adsorbing locking branch chain 28, rethread fixed branch chain 29 locks the braided bag, No. three rotating electrical machines 21 work and drive swivel mount 22 and rotate, the operating position is transported to the braided bag through the inside absorption locking branch chain 28 of rotatory frame 23 and fixed branch chain 29.

The adsorption locking branched chain 28 comprises an air pump 281, a third telescopic spring rod 282, a sucking disc 283, a square block 284, a fixed short plate 285, a fourth telescopic spring rod 286 and a fixed long rod 287, wherein the vertical direction adjusting frame 27 is provided with a cavity at the upper end of a third sliding chute, round holes are uniformly arranged on the upper end surface of the vertical direction adjusting frame 27, the third telescopic spring rod 282 is arranged in the round holes, the sucking disc 283 is arranged at the upper end of the third telescopic spring rod 282, the interior of the third telescopic spring rod 282 is of a cavity structure, the air pump 281 is arranged at the middle position of the cavity, the lower end of the third telescopic spring rod 282 is connected with the air pump 281 through a rubber tube, the third telescopic spring rods 282 are connected through the fixed long rod 287, the square blocks 284 are symmetrically arranged at the two ends of the fixed long rod 287, grooves are arranged at the side edges of the square blocks 284, the fixed short plate 285 is arranged at the two ends of the first cavity, the fourth telescopic spring rod 286 is arranged on the fixed short plate 285, with the four telescoping spring rods 286 slidably engaging the grooves.

When the adsorption and locking branched chain 28 works specifically, the air pump 281 adsorbs the woven bag of the conveying belt 16 through the suction cup 283, the suction cup 283 extrudes and compresses the third telescopic spring rod 282 inwards through extrusion, the fixed long rod 287 inwards moves under the compression of the third telescopic spring rod 282, the square blocks 284 on two sides of the fixed long rod 287 simultaneously downwards move, the square blocks 284 downwards move in the process, the side grooves of the square blocks 284 are matched with the four telescopic spring rods 286, so that the suction cup 283 is flush with the surface of the horizontal adjusting frame 26 and the surface of the vertical adjusting frame 27.

The absorption locking branch 28 of the vertical direction adjusting bracket 27 is the same in structure as the absorption locking branch 28 of the horizontal direction adjusting bracket 26, and the specific working mode is also the same.

The fixed branched chain 29 comprises a movable rack 291, a fourth rotating motor 292, a fixed rod 293 and an arc-shaped plate 294, wherein the movable rack 291 is installed on the outer side of the vertical direction adjusting rack 27 in a sliding fit manner, the fourth rotating motor 292 is installed on the movable rack 291, an output shaft of the fourth rotating motor 292 is connected with the fixed rod 293 through a shaft sleeve, square holes are uniformly formed in the fixed rod 293 and the arc-shaped plate 294, a through groove is formed in the end face of the arc-shaped plate 294, the fixed rod 293 penetrates through the through groove and is connected with the arc-shaped plate 294 through a pin shaft, when the fixed rack works, the horizontal direction adjusting rack 26 and the vertical direction adjusting rack 27 move to working positions, the movable rack 291 moves to the working positions at the same time, the fourth rotating motor 292 works to drive the fixed rod 293 to rotate in the through groove in the arc-shaped plate 294, when a disc on the fixed rod 293 abuts against a woven bag, the fourth rotating motor 292 stops working, the fixing rod 293 and the arc plate 294 are fixed and locked by a pin.

The air drying mechanism 4 comprises a second driving air cylinder 41, an air drying rack 42, an air drying frame 43, a rotating rack 44, a second telescopic spring rod 45, a supporting long plate 46, a second rotating motor 47, a rotating shaft 48, a cam 49, a fan blade 410 and an air blowing branched chain 411, wherein the air drying rack 42 is installed on the inner wall of the conveying mechanism 1 and is positioned on the same horizontal line with the rolling and flattening mechanism 3, a first sliding groove is formed in the inner wall of the lower end of the air drying rack 42, the air drying frame 43 is in sliding fit with the air drying rack 42 through the first sliding groove, the second driving air cylinder 41 is installed on the inner wall of the lower end of the air drying rack 42, a driving shaft of the second driving air cylinder 41 is connected with the right end face of the air drying rack 43, the rotating rack 44 is installed on the right end face inside the air drying frame 43, the second rotating motor 47 is installed on the left side of the rotating rack 44, the rotating shaft 48 is installed on the output shaft of the second rotating motor 47 through a shaft sleeve, the fan blades 410 are circumferentially installed on the rotating shaft 48, the cams 49 are symmetrically installed at two ends of the rotating shaft 48, the supporting long plate 46 is arranged on the left side of each cam 49, the supporting long plate 46 is connected with the rotating rack 44 through a second telescopic spring rod 45, the air blowing branched chains 411 are arranged on the left side of the supporting long plate 46, and the air blowing branched chains 411 are vertically and symmetrically installed on the inner wall of the air drying frame 43.

Air-dry 4 concrete during operation of mechanism, air-dry the inside No. two drive actuating cylinder 41 work of frame 42 and drive and air-dry frame 43 and remove the operating position, No. two rotating electrical machines 47 work drive axis of rotation 48 and rotate, fan piece 410 rotates through axis of rotation 48 and bloies outward, axis of rotation 48 pivoted in-process, cam 49 rotates in step, cam 49 rotates and drives support long slab 46 through No. two telescopic spring pole 45 and carries out reciprocating motion, support long slab 46 reciprocating motion in-process and drive the external air blast of air blast branch chain 411, use through fan piece 410 and the cooperation of air blast branch chain 411, increase the wind-force on braided bag surface, improve the air-dry efficiency of braided bag after the spraying.

The air blowing branch 411 comprises an air blowing box 4111, a rotary long shaft 4112 and an air blowing plate 4113, wherein the air blowing box 4111 is installed on the inner wall of the air drying frame 43, the air blowing plate 4113 is installed on the inner wall of the air drying frame 43, and the air blowing box 4111 is connected with the air blowing plate 4113 through a rubber pipe. Rotatory major axis 4112 installs on air-drying frame 43 inner wall through the round pin axle, rotatory major axis 4112 one end supports and leans on blast box 4111, rotatory major axis 4112 other end supports and leans on supporting long board 46, concrete during operation, support long board 46 reciprocating motion under the drive of cam 49, rotatory major axis 4112 supports long board 46 and drives down reciprocal extrusion to blast box 4111, blast box 4111 blasts the air blast to the braided bag after the spraying through blast plate 4113, make the braided bag after the spraying air-dry rapidly.

The rolling and flattening mechanism 3 comprises a flattening frame 31, a first driving cylinder 32, a rolling platform 33, a rolling branch chain 34, an elastic branch chain 35 and a first spring 36, wherein the flattening frame 31 is installed on the inner wall of the conveying mechanism 1, one end of the first driving cylinder 32 is installed on the inner wall of the flattening frame 31 through a cylinder seat, the rolling platform 33 is installed at the other end of the first driving cylinder, the rolling branch chain 34 is circumferentially installed on the end face of the right side of the rolling platform 33 through a pin shaft, the aligned rolling branch chains 34 are connected through the first spring 36, and the elastic branch chains 35 are symmetrically installed in the middle of the rolling platform 33 and are located in the middle of the circumferential rolling branch chain 34.

3 concrete during operation of roll extrusion levelling mechanism, drive cylinder 32 work and drive roll extrusion platform 33 and remove operating position one number, when roll extrusion branch chain 34 and braided bag surface contact, drive cylinder 32 and continue to remove and drive roll extrusion branch chain 34 through a spring 36 and remove one number, drive cylinder one number (32 drive roll extrusion branch chain 34 through roll extrusion platform 33 and catch up with the tie to the reciprocal roll extrusion in braided bag surface all around, simultaneously, elasticity branch chain 35 props up tightly the braided bag, prevents that the braided bag surface from producing the fold, influence the spraying on one step of braided bag and handle.

The rolling branched chain 34 comprises a second rotating roller 341 and a rolling long plate 342, wherein one end of the rolling long plate 342 is provided with a first through groove, the second rotating roller 341 is installed inside the first through groove through a bearing, and the other end of the rolling long plate 342 is installed on the right side end face of the rolling table 33 through a pin shaft.

The tightening and loosening branched chain 35 comprises a third rotating roller 351, a first telescopic spring rod 352 and a rotating frame 353, wherein one end of the first telescopic spring rod 352 is installed on the end face of the right side of the rolling platform 33, the rotating frame 353 is installed at the other end of the first telescopic spring rod 352, and the third rotating roller 351 is installed in the rotating frame 353 through a bearing.

The invention comprises the following steps:

the first step is as follows: the woven bag is placed on the conveying belt 16 and conveyed to the lowest position of the rotary clamping mechanism 2 through the conveying belt 16, and the rotary clamping mechanism 2 fixes the woven bag in the rotary frame 23 through the adsorption locking branched chain 28 and the fixing branched chain 29.

A second step; the woven bag fixed in the first step is conveyed to the side edge of the rolling and leveling mechanism through the third rotating motor 21, and the first driving cylinder 3 drives the rolling branched chain 34 and the elastic branched chain 35 to move through reciprocating pushing, so that the woven bag surface wrinkles are leveled.

The third step: the flattened woven bag is transported to the lower end of the sprayer 12 through the rotating frame 22 for spraying.

The fourth step: the woven bag after being sprayed is conveyed to the side edge of the air drying mechanism 4 through the rotating frame 22, and the fan piece 410 and the air blowing branched chain 411 are matched for use, so that the woven bag after being sprayed is air-dried, and the spraying effect is improved.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a braided bag intelligence printing system, includes conveying mechanism (1), rotary clamping mechanism (2), roll and level mechanism (3) and air-dry mechanism (4), its characterized in that: wherein the inner wall of the conveying mechanism (1) is sequentially provided with a rotary clamping mechanism (2), a rolling leveling mechanism (3) and an air drying mechanism (4) from left to right; wherein:

the conveying mechanism (1) comprises an external rack (11), a sprayer (12), a first rotating motor (13), a square column (14), two first rotating rollers (15) and a conveying belt (16), wherein the square column (14) is symmetrically arranged on the inner wall of the lower end of the external rack (11) in the left-right direction, the two first rotating rollers (15) are arranged on the square column (14) side by side through bearings, the two first rotating rollers (15) are connected through the conveying belt (16), the first rotating motor (13) is arranged on the inner wall of the lower end of the external rack (11) through a motor base, an output shaft of the first rotating motor (13) is connected with the first rotating roller (15) on the left side through a shaft sleeve, and the sprayer (12) is arranged in the middle position of the inner wall of the upper end of the external rack (11);

the rotary clamping mechanism (2) comprises a third rotary motor (21), a rotary frame (22), a rotary frame (23), a third driving cylinder (24), a fourth driving cylinder (25), a horizontal direction adjusting frame (26), a vertical direction adjusting frame (27), an adsorption locking branched chain (28) and a fixed branched chain (29), wherein the third rotary motor (21) is installed on the inner wall of the conveying mechanism (1) through a motor base, the third rotary motor (21) is horizontally positioned in the middle of the air drying mechanism (4) and the rolling leveling mechanism (3) and is positioned below the sprayer (12), the third rotary motor (21) is rotatably connected with the rotary frame (22) through a shaft sleeve, the rotary frame (23) is circumferentially installed on the rotary frame (22), the rotary frame (23) at the highest position is positioned under the sprayer (12), a second sliding groove is formed in the rotary frame (23) at the left and right sides of the lower end face inside, the horizontal direction adjusting frame (26) is installed in the second sliding groove in a sliding fit mode, the side face of the upper end of the horizontal direction adjusting frame (26) is provided with a third sliding groove, the left side and the right side of the third sliding groove are provided with vertical direction adjusting frames (27) in a sliding fit mode, the middle position of the lower end face in the rotating frame (23) is provided with a third driving cylinder (24) and a fourth driving cylinder (25) through cylinder seats, the third driving cylinder (24) is connected with the horizontal direction adjusting frames (26), the fourth driving cylinder (25) is connected with the vertical direction adjusting frames (27), the upper end faces of the horizontal direction adjusting frames (26) and the vertical direction adjusting frames (27) are provided with adsorption locking branched chains (28), the outer end face of the vertical direction adjusting frames (27) is provided with the fourth sliding groove, and the fixed branched chains (29) are installed in the fourth sliding groove in a sliding fit mode;

the air drying mechanism (4) comprises a second driving cylinder (41), an air drying rack (42), an air drying frame (43), a rotating rack (44), a second telescopic spring rod (45), a supporting long plate (46), a second rotating motor (47), a rotating shaft (48), a cam (49), a fan blade (410) and an air blowing branched chain (411), wherein the air drying rack (42) is arranged on the inner wall of the conveying mechanism (1), is positioned on the same horizontal line with the rolling and flattening mechanism (3), a first sliding groove is formed in the inner wall of the lower end of the air drying rack (42), the air drying frame (43) is in sliding fit with the air drying rack (42) through the first sliding groove, the second driving cylinder (41) is arranged on the inner wall of the lower end of the air drying rack (42), a driving shaft of the second driving cylinder (41) is connected with the right end face of the air drying frame (43), the rotating rack (44) is arranged on the right end face inside the air drying frame, a second rotating motor (47) is installed on the left side of the rotating rack (44), a rotating shaft (48) is installed on an output shaft of the second rotating motor (47) through a shaft sleeve, fan blades (410) are installed on the rotating shaft (48) in the circumferential direction, cams (49) are symmetrically installed at two ends of the rotating shaft (48), a supporting long plate (46) is arranged on the left side of each cam (49), the supporting long plate (46) is connected with the rotating rack (44) through a second telescopic spring rod (45), air blowing branched chains (411) are arranged on the left side of the supporting long plate (46), and the air blowing branched chains (411) are installed on the inner wall of the air drying frame (43) in an up-and-down symmetrical mode;

the rolling flattening mechanism (3) comprises a flattening frame (31), a first driving cylinder (32), a rolling platform (33), rolling branched chains (34), elastic branched chains (35) and a first spring (36), wherein the flattening frame (31) is installed on the inner wall of the conveying mechanism (1), one end of the first driving cylinder (32) is installed on the inner wall of the flattening frame (31) through a cylinder seat, the rolling platform (33) is installed at the other end of the first driving cylinder, the rolling branched chains (34) are installed on the right end face of the rolling platform (33) in the circumferential direction through pin shafts, the alignment rolling branched chains (34) are connected through the first spring (36), and the elastic branched chains (35) are symmetrically installed in the middle of the rolling platform (33) and located in the middle of the circumferential rolling branched chains (34).

2. The intelligent printing system for woven bags according to claim 1, wherein: the adsorption and locking branched chain (28) comprises an air pump (281), a third telescopic spring rod (282), a sucker (283), a square block (284), a fixed short plate (285), a fourth telescopic spring rod (286) and a fixed long rod (287), wherein the vertical direction adjusting frame (27) is provided with a cavity at the upper end of a third sliding chute, round holes are uniformly formed in the upper end surface of the vertical direction adjusting frame (27), the third telescopic spring rod (282) is installed inside the round holes, the sucker (283) is installed at the upper end of the third telescopic spring rod (282), the third telescopic spring rod (282) is of a cavity structure inside, the air pump (281) is installed in the middle position of the cavity, the lower end of the third telescopic spring rod (282) is connected with the air pump (281) through a rubber pipe, the third telescopic spring rod (282) is connected with the fixed long rod (287), the square block (284) is symmetrically installed at the two ends of the fixed long rod (287), the side of the square block (284) is provided with a groove, the two ends of the first cavity are provided with fixed short plates (285), the fixed short plates (285) are provided with four telescopic spring rods (286), and the four telescopic spring rods (286) are in sliding fit with the groove.

3. The intelligent printing system for woven bags according to claim 1, wherein: the adsorption locking branched chain (28) of the vertical direction adjusting frame (27) is identical to the adsorption locking branched chain (28) of the horizontal direction adjusting frame (26) in structure.

4. The intelligent printing system for woven bags according to claim 1, wherein: fixed branch chain (29) including removing frame (291), No. four rotating electrical machines (292), dead lever (293) and arc (294), wherein remove frame (291) install in vertical direction alignment jig (27) outside through sliding fit's mode, No. four rotating electrical machines (292) are installed on removing frame (291), No. four rotating electrical machines (292) output shaft passes through the axle sleeve and is connected with dead lever (293), the quad slit has evenly been seted up on dead lever (293) and arc (294), and logical groove has been seted up on arc (294) terminal surface, dead lever (293) pass logical groove and pass through the round pin axle and be connected with arc (294).

5. The intelligent printing system for woven bags according to claim 1, wherein: the rolling branched chain (34) comprises a second rotating roller (341) and a rolling long plate (342), wherein one end of the rolling long plate (342) is provided with a first through groove, the second rotating roller (341) is installed inside the first through groove through a bearing, and the other end of the rolling long plate (342) is installed on the right end face of the rolling table (33) through a pin shaft.

6. The intelligent printing system for woven bags according to claim 1, wherein: the elastic branched chain (35) comprises a third rotating roller (351), a first telescopic spring rod (352) and a rotating frame (353), wherein one end of the first telescopic spring rod (352) is installed on the end face of the right side of the rolling platform (33), the rotating frame (353) is installed at the other end of the first telescopic spring rod (352), and the third rotating roller (351) is installed in the rotating frame (353) through a bearing.

7. The intelligent printing system for woven bags according to claim 1, wherein: blast air branch chain (411) including blast box (4111), rotatory major axis (4112) and blast plate (4113), wherein blast box (4111) install on air-drying frame (43) inner wall, blast plate (4113) are installed on air-drying frame (43) inner wall, connect through the rubber tube between blast box (4111) and blast plate (4113), rotatory major axis (4112) are installed on air-drying frame (43) inner wall through the round pin axle, rotatory major axis (4112) one end is supported and is leaned on blast box (4111), rotatory major axis (4112) other end is supported and is leaned on supporting long board (46).

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