CN109263147B - Braided bag continuous type production line - Google Patents

Abstract

The invention provides a woven bag continuous production line which comprises a woven bag forming mechanism, a woven bag conveying mechanism, a woven bag adsorption and feeding mechanism and a woven bag conveying and flattening mechanism, wherein the woven bag adsorption and feeding mechanism comprises a feeding driving assembly, a woven bag adsorption assembly and a discontinuous air control assembly; the woven bag conveying and flattening mechanism comprises rotary assemblies, clamping assemblies, flattening assemblies and a woven bag containing platform, a woven bag conveying and flattening area is formed between the rotary assemblies, and the woven bag adsorption assemblies are discontinuously acted on the woven bag conveying and flattening area and the woven bag adsorption feeding mechanism; carry out the transport of braided bag in adsorbing feeding mechanism to braided bag transportation exhibition flat mechanism by the braided bag to realize the centre gripping subassembly to the centre gripping of braided bag at the in-process of carrying, cooperate rotary motion's gyration subassembly to realize the exhibition flat in the braided bag transportation downwards simultaneously, solved prior art in the braided bag easily appear the fold, the braided bag can't realize sign indicating number neat technical problem.

Description

Braided bag continuous type production line

Technical Field

The invention relates to the technical field of packaging of woven bags, in particular to a woven bag continuous production line.

Background

After the woven bag is processed by various procedures, the finally produced finished product needs to be packaged and transported after being qualified in production and inspection.

In prior art, generally all pack the processing through artifical packing's mode, but artifical packing's strength is less, and the pressure of packing the braided bag is not enough to so that the braided bag is very fluffy after the packing is accomplished, both extravagant manpower time of mode through artifical packing simultaneously, still have the problem that work efficiency is low, some places adopt simple and easy clamp plate compression, not only the compression effect is poor, and material loading and unloading are inconvenient moreover.

Chinese patent CN201710675476.9 describes a novel plastic woven bag packing machine, which comprises a base and a top plate, wherein two symmetrical supporting columns are fixedly connected between the base and the top plate, the upper end of the base is fixedly connected with a bottom plate, the inner wall of the upper end of the bottom plate is provided with a plurality of elongated grooves, clamping plates are symmetrically arranged on two sides above the bottom plate, one side of the outer wall of each clamping plate is fixedly connected with an L-shaped supporting rod, a connecting shaft is connected between the two L-shaped supporting rods in a threaded manner, the middle part of the outer wall of the connecting shaft is sleeved with a first driving wheel, the first driving wheel is connected with a second driving wheel in a belt driving manner, the middle part of the top plate is inserted with a hydraulic rod, the hydraulic rod is connected with a hydraulic work station through an oil pipe, the hydraulic work station is fixed on one side of the upper end of the top, the plastic woven bags are pressed tightly, and the phenomenon of looseness in the transportation process is avoided.

Above-mentioned mechanism exists many not enoughly, if set up the clamp plate in bottom plate both sides, relies on the clamp plate to carry out lay the packing downwards with the braided bag to the clamp of braided bag and the hydraulic stem that cooperates downstream, nevertheless the tight in-process braided bag that moves downwards of clamp plate to the clamp of braided bag is easy to appear the fold, and the braided bag can't be realized the sign indicating number neat.

Disclosure of Invention

The invention provides a woven bag continuous production line aiming at the defects of the prior art, a woven bag conveying and flattening mechanism is arranged on one side of the output end of a woven bag conveying mechanism, the woven bags are conveyed into the woven bag conveying and flattening mechanism through a woven bag adsorption and feeding mechanism, the woven bags are clamped by a clamping assembly in the conveying process, the woven bags are conveyed downwards by matching with a rotary assembly in rotary motion, the woven bags are flattened by the flattening assembly in the downward conveying process, and then the stacked woven bags are orderly stacked by a woven bag aligning mechanism, so that the technical problems that the woven bags are prone to wrinkling and the woven bags cannot be orderly stacked in the prior art are solved.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a braided bag continuous production line, include braided bag forming mechanism and set up in the braided bag conveying mechanism of braided bag forming mechanism shaping output one side still includes:

the woven bag adsorption feeding mechanism is arranged above one side of the output end of the woven bag conveying mechanism and comprises a feeding driving assembly, a woven bag adsorption assembly arranged at the driving end of the feeding driving assembly and a discontinuous air control assembly arranged on the woven bag adsorption assembly; and

braided bag transportation exhibition flat mechanism, braided bag transportation exhibition flat mechanism set up in braided bag conveying mechanism both sides and this braided bag transportation exhibition flat mechanism are located the braided bag adsorbs feeding mechanism both sides, this braided bag transportation exhibition flat mechanism including set up in the braided bag adsorbs the gyration subassembly of feeding mechanism both sides, set up in centre gripping subassembly on the gyration subassembly, set up in the exhibition flat subassembly of gyration subassembly middle part position and set up in the braided bag of braided bag transportation exhibition flat subassembly below holds the platform, it transports exhibition flat region to form the braided bag between the gyration subassembly, braided bag adsorption component is interrupted to act on braided bag transportation exhibition flat region and braided bag adsorb feeding mechanism are last.

As an improvement, the woven bag adsorption assembly comprises:

the adsorption frame is arranged on the driving end of the feeding driving component, and an air source channel is arranged in the adsorption frame;

the vacuum suction cups are four groups in number, the four groups of vacuum suction cups are arranged on four corners of the adsorption frame, and the vacuum suction cups are communicated with the air source channels.

As an improvement, the intermittent air control assembly comprises:

the valve seat is fixedly arranged on the adsorption frame, one end of the valve seat is communicated with the air source channel, and the other end of the valve seat is communicated with an external vacuum pump;

the control circular hole is formed in the middle of the valve seat, and two ends of the control circular hole are respectively communicated with the air source channel and the external vacuum pump;

the control cylindrical valve is rotatably arranged in the control circular hole, a rotating gear is arranged at one end of the control cylindrical valve, and the control cylindrical valve is discontinuously communicated between the vacuum chuck and an external vacuum pump;

and the control rack is fixedly arranged at one end of the rotary assembly and is in discontinuous meshing with the rotating gear.

As the improvement, gyration subassembly quantity is two sets of and follows braided bag conveying mechanism width direction symmetry sets up, and this gyration subassembly includes:

a rotating support;

the first rotating roller is rotatably arranged on the upper end of the rotating bracket;

the second rotating roller is rotatably arranged at the lower end of the rotating support and is positioned below the first rotating roller, and the tangent edge of the second rotating roller, which is far away from the woven bag transportation and flattening area, and the tangent edge of the first rotating roller, which is far away from the woven bag transportation and flattening area, are positioned in the same vertical plane;

the transmission band, the transmission band cover is located on first live-rollers and the second live-rollers.

As a refinement, the relationship between the diameter D of the first rotating roller and the diameter D of the second rotating roller is satisfied, D > D.

As an improvement, the number of the clamping assemblies is a plurality of groups and is uniformly distributed on the conveying belt, and the clamping assemblies comprise:

the number of the limiting plates is a plurality of, the limiting plates are uniformly distributed in the middle of the width direction of the conveying belt, and a woven bag clamping space is formed between every two adjacent limiting plates;

the guide posts are fixedly arranged at two ends of the limiting plate in the length direction;

the clamping plate is arranged on the guide column in a sliding mode and is positioned in the woven bag clamping space;

one end of the clamping screw is rotatably arranged in the middle of the limiting plate, the clamping plate is positioned on the clamping screw, and the clamping plate is in threaded fit with the clamping screw;

the clamping ratchet wheel is fixedly arranged at the other end of the clamping screw rod;

the driving pawl strips are fixedly arranged at the two ends of the adsorption frame and are in discontinuous fit with the clamping ratchet wheel.

As a refinement, the drive pawl strip includes:

the clamping pawl strip is arranged in a positive fit manner with the clamping ratchet wheel and drives the clamping ratchet wheel to clamp positively;

the reset pawl strip is arranged in reverse matching with the clamping ratchet wheel and drives the clamping ratchet wheel to reset reversely.

As an improvement, the flattening assembly comprises:

the guide roll, guide roll quantity is four groups and in proper order the symmetry set up in on the both ends of flat regional length direction of braided bag transportation and width direction, and this guide roll is located on limiting plate length direction's the both ends, this guide roll with the setting of transmission band area face contact.

As an improvement, the method further comprises the following steps:

braided bag sign indicating number is neat mechanism, the braided bag sign indicating number neat mechanism set up in the braided bag holds on platform width direction's both ends, this braided bag sign indicating number neat mechanism including set up in a plurality of drive blocks on the transmission band and rotate set up in the braided bag holds the neat subassembly of sign indicating number at platform width direction's both ends, the neat subassembly of sign indicating number and the braided bag of piling up the completion are interrupted the contact setting, and should form the braided bag between the neat subassembly of sign indicating number and pile up the region, the drive block is semicircle arcuation setting with the neat subassembly contact jaw of sign indicating number, the neat subassembly of sign indicating:

the stacking and aligning block is rotatably arranged on the woven bag containing platform, the contact end of the stacking and aligning block and the driving block is arranged in a semicircular arc shape, and the other end of the stacking and aligning block is discontinuously contacted with the stacking area of the woven bag;

and the torsional spring is arranged on the rotating end of the stacking block.

As an improvement, braided bag forming mechanism includes:

a bag cutting component;

the bag sewing component is arranged at one end of the bag cutting component in the output direction;

the printing assembly is arranged at one end of the output direction of the bag sewing assembly, and the output end of the printing assembly is arranged at the input end of the woven bag conveying mechanism.

The invention has the beneficial effects that:

(1) compared with the traditional woven bag production stacking equipment, the woven bag is formed and processed through the woven bag forming mechanism, the processed woven bag is output outwards to the woven bag conveying mechanism through the output end of the woven bag forming mechanism, the woven bag conveying mechanism realizes the continuous conveying of the woven bag into the woven bag conveying and flattening mechanism, meanwhile, when the woven bag conveying mechanism conveys the woven bag to the tail end of the woven bag conveying mechanism, the woven bag is adsorbed and conveyed into the woven bag conveying and flattening mechanism along a conveying track on the woven bag conveying mechanism by the woven bag adsorption and feeding mechanism, meanwhile, two ends of the woven bag are clamped by the clamping assembly and conveyed to the flattening assembly under the driving of downward rotary motion of the rotary assembly, the conveying belt realizes the clamping and moving of the woven bag to two sides under the guiding action of the flattening assembly, so that the woven bag is flattened to two sides, the woven bags are stacked one by one under the driving of the rotating assembly, so that the stacking and packaging efficiency of the woven bags is improved;

(2) compared with the traditional woven bag production stacking equipment, the guide roller is arranged on the limiting plate on the transmission belt, and the guide roller realizes diameter change during rotary motion of the transmission belt in the process of contacting with the transmission belt, so that the woven bags are flattened in the stacking process;

(3) compared with the traditional woven bag production stacking equipment, the plurality of clamping assemblies are arranged on the rotary sorting assembly, each clamping assembly corresponds to one woven bag, when the plurality of clamping assemblies transport the corresponding woven bags to the woven bag containing platform, the woven bags are automatically stacked, and the working efficiency is improved;

(4) compared with the traditional woven bag production stacking equipment, the clamping pawl strips and the reset pawl strips are respectively arranged on the adsorption frame, when the adsorption frame conveys the adsorbed woven bags into the woven bag transportation and flattening area, the adjacent clamping plates are respectively driven to realize clamping and returning, the returned clamping plates realize clamping in the next adsorption frame feeding process, and the whole working efficiency of the device is improved;

(5) compared with the traditional woven bag production stacking equipment, the woven bag stacking mechanism is arranged, when the rotating member rotates, the stacking blocks are driven to continuously flap, the woven bags stacked on the woven bag containing platform are stacked in a two-side flap mode, and the woven bags are arranged in order.

In a word, the automatic packaging machine has the advantages of simple structure, high automation degree, high production efficiency and the like, and is particularly suitable for the technical field of packaging woven bags.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings described below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a front view of the present invention;

FIG. 3 is a schematic structural view of a woven bag adsorption feeding mechanism in the invention;

FIG. 4 is a front view of the woven bag adsorption feeding mechanism of the present invention;

FIG. 5 is a cross-sectional view of the woven bag adsorption assembly of the present invention;

FIG. 6 is a schematic view showing the operation state of the woven bag adsorption assembly according to the present invention;

FIG. 7 is a schematic structural view of a woven bag transportation and flattening mechanism in the invention;

FIG. 8 is a front view of the woven bag transporting and flattening mechanism of the present invention;

FIG. 9 is a sectional view of the woven bag transporting and flattening mechanism of the present invention;

FIG. 10 is an enlarged view of a portion of FIG. 9 at A;

FIG. 11 is an enlarged view of a portion of FIG. 9 at B;

FIG. 12 is a schematic view of a clamping assembly according to the present invention;

FIG. 13 is an enlarged partial view of the flattening assembly of the present invention;

FIG. 14 is a view showing the operation of the clamping pawl strip in the present invention;

FIG. 15 is a view of the operating condition of the reset pawl bar of the present invention;

FIG. 16 is a schematic structural view of a woven bag stacking mechanism in the present invention;

FIG. 17 is a schematic view showing the operation state of the woven bag stacking mechanism of the present invention.

Detailed Description

The technical scheme in the embodiment of the invention is clearly and completely explained by combining the attached drawings.

Example one

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

As shown in fig. 1-17, a braided bag continuous type production line includes braided bag forming mechanism 1 and set up in braided bag conveying mechanism 2 of 1 shaping output end one side of braided bag forming mechanism, its characterized in that still includes:

the woven bag adsorption feeding mechanism 3 is arranged above one side of the output end of the woven bag conveying mechanism 2, and the woven bag adsorption feeding mechanism 3 comprises a feeding driving component 31, a woven bag adsorption component 32 arranged at the driving end of the feeding driving component 31 and an intermittent air control component 33 arranged on the woven bag adsorption component 32; and

braided bag transportation flattening mechanism 4, braided bag transportation flattening mechanism 4 set up in 2 both sides of braided bag conveying mechanism and this braided bag transportation flattening mechanism 4 are located the braided bag adsorbs feeding mechanism 3 both sides, this braided bag transportation flattening mechanism 4 including set up in the braided bag adsorbs the gyration subassembly 41 of 3 both sides of feeding mechanism, set up in centre gripping subassembly 42 on the gyration subassembly 41, set up in the exhibition subassembly 43 of gyration subassembly 41 middle part position and set up in the braided bag of braided bag transportation flattening subassembly 43 below holds platform 44, it transports exhibition flat regional 410 to form the braided bag between 41 to revolve, braided bag adsorption component 32 is interrupted to act on braided bag transportation exhibition is flat regional 410 and the braided bag adsorbs feeding mechanism 3 is last.

It should be noted that, the woven bag forming mechanism 1 carries out the forming processing of the woven bag, the woven bag after the processing is output to the woven bag conveying mechanism 2 through the output end of the woven bag forming mechanism 1, the woven bag conveying mechanism 2 realizes the continuous conveying of the woven bag to the woven bag conveying and flattening mechanism 4, simultaneously, when the woven bag conveying mechanism 2 conveys to the tail end of the woven bag conveying mechanism 2, the woven bag is adsorbed and conveyed to the woven bag conveying and flattening mechanism 4 along the conveying track on the woven bag conveying mechanism 2 by the woven bag adsorption and feeding mechanism 3, simultaneously, the two ends of the woven bag are clamped by the clamping component 42, and under the driving of the downward rotary motion of the rotary component 41, the woven bag is conveyed to the flattening component 43, and the conveying belt realizes the clamping and the movement to both sides under the guiding effect of the flattening component 43, so that the woven bag can be flattened, the woven bags are stacked one by one under the driving of the rotating assembly 41, and the woven bag stacking and packaging efficiency is improved.

Further, the woven bag adsorption assembly 32 includes:

the adsorption frame 321 is arranged on the driving end of the feeding driving component 31, and an air source channel 3211 is arranged in the adsorption frame 321;

the number of the vacuum suction cups 322 is four, four sets of the vacuum suction cups 322 are arranged at four corners of the suction frame 321, and the vacuum suction cups 322 are communicated with the air source passage 3211.

Further, the intermittent air control assembly 33 includes:

a valve seat 331, wherein the valve seat 331 is fixedly arranged on the adsorption rack 321, one end of the valve seat 331 is communicated with the gas source channel 3211, and the other end of the valve seat 331 is communicated with an external vacuum pump;

the control circular hole 332 is formed in the middle of the valve seat 331, and two ends of the control circular hole 332 are respectively communicated with the gas source channel 3211 and an external vacuum pump;

the control cylindrical valve 333 is rotatably arranged in the control circular hole 332, one end of the control cylindrical valve 333 is provided with a rotating gear 334, and the control cylindrical valve 333 is intermittently communicated between the vacuum chuck 322 and an external vacuum pump;

and a control rack 335, wherein the control rack 335 is fixedly arranged at one end of the rotating assembly 41, and the control rack 335 is intermittently meshed with the rotating gear 334.

It should be explained that, when braided bag conveying mechanism 2 transports the braided bag to the braided bag when transporting one side of flat mechanism 4 input of exhibition, belt and braided bag on the braided bag conveying mechanism 2 lose the contact, at this moment, braided bag adsorption component 32 on the braided bag adsorption feeding mechanism 3 adsorbs the braided bag and carries to the top of flat region 410 of braided bag transportation exhibition, when carrying to the flat region 410 top of braided bag transportation exhibition, it breaks off vacuum chuck 322 vacuum pressure to be interrupted accuse gas subassembly 33, vacuum chuck 322 loses the contact with the braided bag, the braided bag is driven by gyration subassembly 41 and is realized removing downwards.

It should be further noted that when the woven bag adsorption assembly 32 moves above the woven bag transportation and flattening area 410 after adsorbing the woven bag, and when the woven bag adsorption assembly moves above the woven bag arranging space 330, the control rack 335 fixedly arranged above the woven bag transportation and flattening area 410 is meshed with the rotating gear 334 on the control cylindrical valve 333, so that the control cylindrical valve 333 rotates, the control cylindrical valve 333 and the external vacuum pump are closed in the rotating process, when the woven bag adsorption assembly 32 moves forward to adsorb the woven bag again, the control rack 335 and the rotating gear 334 are meshed again, the control cylindrical valve 333 rotates reversely, and the vacuum chuck 322 and the external vacuum pump are communicated again.

Further, gyration subassembly 41 quantity is two sets of and follows braided bag conveying mechanism 2 width direction symmetry sets up, and this gyration subassembly 41 includes:

a swivel bracket 411;

a first rotating roller 412, wherein the first rotating roller 412 is rotatably arranged on the upper end of the rotating bracket 411;

a second rotating roller 413, wherein the second rotating roller 413 is rotatably arranged at the lower end of the rotating bracket 411, the second rotating roller 413 is positioned below the first rotating roller 412, and the tangent edge of the second rotating roller 413 far away from the woven bag transportation and flattening area 410 and the tangent edge of the first rotating roller 412 far away from the woven bag transportation and flattening area 410 are positioned in the same vertical plane;

a conveying belt 414, wherein the conveying belt 414 is sleeved on the first rotating roller 412 and the second rotating roller 413.

Further, the relationship between the diameter D of the first rotating roller 412 and the diameter D of the second rotating roller 413 satisfies, D > D.

It should be noted that, the limiting plate 421 on the conveying belt 414 is provided with the guide roller 431, and the guide roller 431 changes diameter when the conveying belt 414 rotates in the process of contacting with the conveying belt 414, so that the clamping assembly 42 generates pulling force to two sides on the woven bags, and the woven bags are flattened in the stacking process.

It should be further noted that the diameter of the first rotating roller 412 is larger than that of the second rotating roller 413, so that diameter change can be realized when the woven bag passes through the guide roller 431 in the downward movement process of the woven bag, the surface smoothness of the woven bag is ensured, and the stacking quality of the woven bag is improved.

Further, the number of the clamping assemblies 42 is several and is uniformly distributed on the conveying belt 414, and the clamping assemblies 42 include:

the number of the limiting plates 421 is several, and the limiting plates 421 are uniformly distributed in the middle of the width direction of the conveying belt 414, and a woven bag clamping space 4210 is formed between two adjacent groups of the limiting plates 421;

the guide posts 422 are fixedly arranged at two ends of the limiting plate 421 in the length direction;

the clamping plate 423 is slidably arranged on the guide column 422, and the clamping plate 423 is located in the woven bag clamping space 4210;

one end of the clamping screw 424 is rotatably arranged in the middle of the limiting plate 421, the clamping plate 423 is arranged on the clamping screw 424, and the clamping plate 423 is in threaded fit with the clamping screw 424;

a clamping ratchet 425, the clamping ratchet 425 being fixedly disposed on the other end of the clamping screw 424;

and the driving pawl strips 426, the driving pawl strips 426 are fixedly arranged at the two ends of the adsorption frame 321, and the driving pawl strips 426 are arranged in an intermittent matching way with the clamping ratchet 425.

Further, the driving pawl bar 426 includes:

a clamping pawl bar 4261, the clamping pawl bar 4261 is arranged in positive fit with the clamping ratchet 425, and the clamping pawl bar 4261 drives the clamping ratchet 425 to clamp positively;

a reset pawl bar 4262, the reset pawl bar 4262 being disposed in counter-engagement with the clamping ratchet 425, the reset pawl bar 4262 driving a counter-reset of the clamping ratchet 425.

It should be noted that, by respectively arranging the clamping pawl strip 4261 and the reset pawl strip 4262 on the adsorption frame 321, when the adsorption frame 321 conveys the adsorbed woven bag into the woven bag conveying and flattening area 410, the adjacent clamping plates 423 are respectively driven to clamp and restore, the clamping plates 423 after restoring realize clamping in the next feeding process of the adsorption frame 321, so that the overall working efficiency of the device is improved, what is worth mentioning is that when the adsorption frame 321 conveys the woven bag into the woven bag conveying and flattening area 410, the clamping pawl strip 4261 on the adsorption frame 321 drives the clamping ratchet wheel 425 to rotate forwards, so that the clamping block 423 moves downwards to clamp the woven bag, and meanwhile, in the restoring process, the reset pawl strip 4262 and another clamping ratchet wheel 425 above the clamping ratchet wheel 425 driven by the clamping pawl strip 4261 to rotate forwards realize reverse rotation of the clamping ratchet wheel 425, and realizing reset.

Further, the flattening assembly 43 includes:

guide roll 431, guide roll 431 is four groups and in proper order the symmetry set up in the braided bag transportation is flattened on regional 410 length direction and width direction's both ends, and this guide roll 431 is located on limiting plate 421 length direction's both ends, this guide roll 431 with the setting of transmission band 414 area face contact.

Example two

FIGS. 16 and 17 are schematic structural views of a second embodiment of a continuous production line for woven bags according to the present invention; as shown in fig. 16 and 17, in which the same or corresponding components as those of the first embodiment are denoted by the same reference numerals as those of the first embodiment, only the differences from the first embodiment will be described below for the sake of convenience. The second embodiment is different from the first embodiment shown in fig. 1 in that:

further, still include:

braided bag sign indicating number is neat mechanism 5, braided bag sign indicating number neat mechanism 5 set up in the braided bag holds on the both ends of platform 44 width direction, this braided bag sign indicating number neat mechanism 5 including set up in a plurality of drive block 51 on transmission band 414 and rotate set up in the braided bag holds the neat subassembly 52 of sign indicating number at the both ends of platform 44 width direction, the neat subassembly 52 of sign indicating number and the braided bag that piles up the completion are interrupted the contact setting, and this sign indicating number forms the braided bag between neat subassembly 52 and pile up regional 520, drive block 51 and the neat subassembly 52 contact jaw of sign indicating number are the semicircle arcuation setting, the neat subassembly 52 of sign indicating number includes:

the stacking and aligning block 521 is rotatably arranged on the woven bag containing platform 44, the contact end of the stacking and aligning block 521 and the driving block 51 is arranged in a semicircular arc shape, and the other end of the stacking and aligning block 521 is arranged in intermittent contact with the woven bag stacking area 520;

and the torsion spring 522 is arranged on the rotating end of the aligning block 521.

It should be noted that, through setting up braided bag sign indicating number neat mechanism 5, when gyration subassembly 41 revolved, drive and sign indicating number neat piece 521 and constantly pat, carry out the patting sign indicating number on both sides neat to the braided bag of piling up on braided bag holds platform 44, realize the neatly arranged of braided bag.

Example two

FIG. 2 is a schematic structural diagram of a second embodiment of the continuous production line for woven bags according to the present invention; as shown in fig. 2, in which the same or corresponding components as those of the first embodiment are denoted by the same reference numerals as those of the first embodiment, only the points different from the first embodiment will be described below for the sake of convenience. The second embodiment is different from the first embodiment shown in fig. 1 in that:

further, the woven bag forming mechanism 1 includes:

a bag cutting assembly 11;

the bag sewing component 12, the bag sewing component 12 is arranged at one end of the bag cutting component 11 in the output direction;

and the printing component 13 is arranged at one end of the output direction of the bag sewing component 12, and the output end of the printing component 13 is arranged at the input end of the woven bag conveying mechanism 2.

The working process is as follows:

as shown in fig. 1, a woven bag forming mechanism 1 forms a woven bag, the formed woven bag is conveyed to a woven bag conveying and flattening mechanism 4 by a woven bag conveying mechanism 2, the woven bag is adsorbed on a vacuum chuck 322 by a woven bag adsorption component 32 on a woven bag adsorption and feeding mechanism 3, meanwhile, the woven bag is driven by a feeding driving component 31 to move into a woven bag conveying and flattening area 410, when the woven bag is moved to the upper part of the woven bag conveying and flattening area 410, an adsorption frame 321 realizes the disconnection of the vacuum chuck 322 and an external vacuum pump under the control of a discontinuous gas control component 33, the woven bag is driven by a rotary component 41 to move downwards to a woven bag containing platform 44, when the woven bag is adsorbed into the woven bag conveying and flattening area 410 by the woven bag adsorption component 32, adjacent clamping plates 423 are respectively driven to clamp and restore, the clamping plate 423 after the completion of the recovery realizes clamping in the feeding process of the next adsorption frame 321, and the whole working efficiency of the device is improved, and it is worth mentioning here that when the adsorption frame 321 conveys woven bags into the woven bag conveying flattening area 410, the clamping pawl strip 4261 on the adsorption frame 321 drives the clamping ratchet wheel 425 to rotate forward, so that the clamping block 423 moves downwards to clamp the woven bags, meanwhile, in the recovery process, the reset pawl strip 4262 and the other clamping ratchet wheel 425 positioned above the clamping ratchet wheel 425 driven by the clamping pawl strip 4261 to rotate forward realize reverse rotation of the clamping ratchet wheel 425, so that the reset is realized, meanwhile, in the continuous downward movement process of the rotation assembly 41, the woven bags stop on the woven bag containing platform 44 due to the upward supporting force of the woven bag containing platform 44, and the code aligning block 521 is driven to continuously perform double-sided beating code aligning on the woven bags stacked on the woven bag containing platform 44, the woven bags are arranged orderly.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The above description of the disclosed embodiments is provided to enable those skilled in the art to make various changes, substitutions of equivalents and modifications to the features and embodiments without departing from the spirit and scope of the present invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. The utility model provides a braided bag continuous production line, includes braided bag forming mechanism (1) and set up in braided bag conveying mechanism (2) of braided bag forming mechanism (1) shaping output one side, its characterized in that still includes:

the woven bag adsorption feeding mechanism (3), the woven bag adsorption feeding mechanism (3) is arranged above one side of the output end of the woven bag conveying mechanism (2), and the woven bag adsorption feeding mechanism (3) comprises a feeding driving assembly (31), a woven bag adsorption assembly (32) arranged at the driving end of the feeding driving assembly (31) and an intermittent air control assembly (33) arranged on the woven bag adsorption assembly (32); and

the woven bag conveying and flattening mechanism (4), the woven bag conveying and flattening mechanism (4) is arranged on two sides of the woven bag conveying mechanism (2), the woven bag conveying and flattening mechanism (4) is positioned on two sides of the woven bag adsorption feeding mechanism (3), the woven bag conveying and flattening mechanism (4) comprises rotary assemblies (41) arranged at two sides of the woven bag adsorption and feeding mechanism (3), clamping assemblies (42) arranged on the rotary assemblies (41), flattening assemblies (43) arranged at the middle positions of the rotary assemblies (41) and woven bag containing platforms (44) arranged below the flattening assemblies (43), a woven bag transportation flattening area (410) is formed between the rotary assemblies (41), woven bag absorption assembly (32) is interrupted to be acted on woven bag transportation flattening area (410) and woven bag absorption feeding mechanism (3).

2. The woven bag continuous production line of claim 1, wherein the woven bag adsorption assembly (32) comprises:

the adsorption frame (321) is arranged on the driving end of the feeding driving assembly (31), and an air source channel (3211) is arranged in the adsorption frame (321);

the vacuum suction cups (322) are four in number, the four vacuum suction cups (322) are arranged at four corners of the adsorption frame (321), and the vacuum suction cups (322) are communicated with the air source channel (3211).

3. The continuous production line for woven bags according to claim 2, characterized in that said discontinuous gas control assembly (33) comprises:

the valve seat (331) is fixedly arranged on the adsorption frame (321), one end of the valve seat (331) is communicated with the gas source channel (3211), and the other end of the valve seat (331) is communicated with an external vacuum pump;

the control circular hole (332), the control circular hole (332) is opened in the middle of the valve seat (331), and two ends of the control circular hole (332) are respectively communicated with the air source channel (3211) and an external vacuum pump;

the control cylindrical valve (333), the said control cylindrical valve (333) is set up in the said control round hole (332) rotatably, there are rotating gears (334) on one end of the control cylindrical valve (333), the control cylindrical valve (333) is communicated between said vacuum chuck (322) and external vacuum pump discontinuously;

and the control rack (335) is fixedly arranged at one end of the rotary component (41), and the control rack (335) is in intermittent meshing with the rotating gear (334).

4. The woven bag continuous production line of claim 2, wherein the number of the rotating assemblies (41) is two and the rotating assemblies (41) are symmetrically arranged along the width direction of the woven bag conveying mechanism (2), and the rotating assemblies (41) comprise:

a swivel support (411);

a first rotating roller (412), wherein the first rotating roller (412) is rotatably arranged on the upper end of the rotating bracket (411);

the second rotating roller (413) is rotatably arranged at the lower end of the rotating support (411), the second rotating roller (413) is positioned below the first rotating roller (412), and the tangent edge of the second rotating roller (413) far away from the woven bag transportation and flattening area (410) and the tangent edge of the first rotating roller (412) far away from the woven bag transportation and flattening area (410) are positioned in the same vertical plane;

a conveying belt (414), wherein the conveying belt (414) is sleeved on the first rotating roller (412) and the second rotating roller (413).

5. The continuous production line for woven bags according to claim 4, wherein the relationship between the diameter D of the first rotating roller (412) and the diameter D of the second rotating roller (413) is satisfied, D > D.

6. The continuous production line of woven bags according to claim 4, characterized in that said gripping elements (42) are in groups and are uniformly distributed on said conveyor belt (414), said gripping elements (42) comprising:

the number of the limiting plates (421) is a plurality, the limiting plates (421) are uniformly distributed in the middle of the conveying belt (414) in the width direction, and a woven bag clamping space (4210) is formed between every two adjacent groups of the limiting plates (421);

the guide posts (422) are fixedly arranged at the two ends of the limiting plate (421) in the length direction;

the clamping plate (423) is arranged on the guide column (422) in a sliding mode, and the clamping plate (423) is located in the woven bag clamping space (4210);

one end of the clamping screw rod (424) is rotatably arranged in the middle of the limiting plate (421), the clamping plate (423) is positioned on the clamping screw rod (424), and the clamping plate (423) is in threaded fit with the clamping screw rod (424);

a clamping ratchet (425), the clamping ratchet (425) being fixedly disposed on the other end of the clamping screw (424);

the driving pawl strip (426), the driving pawl strip (426) is fixedly arranged on the two ends of the adsorption rack (321), and the driving pawl strip (426) is in discontinuous fit with the clamping ratchet wheel (425).

7. The continuous production line of woven bags according to claim 6, wherein said driving pawl strip (426) comprises:

a clamping pawl bar (4261), wherein the clamping pawl bar (4261) is arranged in positive fit with the clamping ratchet wheel (425), and the clamping pawl bar (4261) drives the clamping ratchet wheel (425) to clamp positively;

a reset pawl bar (4262), the reset pawl bar (4262) is arranged in reverse cooperation with the clamping ratchet wheel (425), and the reset pawl bar (4262) drives the clamping ratchet wheel (425) to reset reversely.

8. The woven bag continuous production line of claim 6, wherein said flattening assembly (43) comprises:

guide roll (431), guide roll (431) quantity be four groups and in proper order the symmetry set up in on braided bag transportation exhibition flat area (410) length direction and width direction's both ends, and this guide roll (431) are located on limiting plate (421) length direction's both ends, this guide roll (431) with transmission band (414) area face contact sets up.

9. The continuous production line for woven bags according to claim 4, further comprising:

braided bag sign indicating number neat mechanism (5), braided bag sign indicating number neat mechanism (5) set up in on the braided bag holds platform (44) width direction's both ends, this braided bag sign indicating number neat mechanism (5) including set up in a plurality of drive block (51) on transmission band (414) and rotation set up in the braided bag holds neat subassembly (52) of sign indicating number at platform (44) width direction's both ends, the neat subassembly (52) of sign indicating number is interrupted the contact setting with the braided bag that piles up the completion, and this sign indicating number forms the braided bag between neat subassembly (52) and piles up regional (520), drive block (51) and the neat subassembly (52) contact jaw of sign indicating number are the semicircle arcuation setting, the neat subassembly (52) of sign indicating number includes:

the neat stacking block (521) is rotatably arranged on the woven bag containing platform (44), the contact end of the neat stacking block (521) and the driving block (51) is arranged in a semicircular arc shape, and the other end of the neat stacking block (521) is in discontinuous contact with the woven bag stacking area (520);

and the torsion spring (522) is arranged on the rotating end of the aligning block (521).

10. The woven bag continuous production line according to claim 1, wherein the woven bag forming mechanism (1) comprises:

a bag cutting assembly (11);

the bag sewing component (12), the bag sewing component (12) is arranged at one end of the bag cutting component (11) in the output direction;

the printing assembly (13), the printing assembly (13) set up in the one end of the output direction of seam package subassembly (12), the output of this printing assembly (13) set up in braided bag conveying mechanism (2)'s input end department.

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