CN209997881U - three-coating-roller switching coating machine - Google Patents

Abstract

The utility model relates to a coating roll switches coating machine, including the coating frame, coating switching-over roller, the leading-in roller of coating, the rubber roll, the coating roll more than two, coating roll support bearing frame, the coating roll link, the coating roll counter roll, the coating roll adjusting beam, coating roll adjusts lift cylinder, pneumatic chuck, coating roll driving motor, scrape the blade holder, the scraper, scraper lifting rack, scraper lifting gear, scraper lift adjustment wheel, the coating collecting vat, scribble the workbin, scribble the material pump, the coating derivation roller, adopt three coating rolls to switch the coating requirement that has effectively realized multiple coating, the coating specification is not restricted.

Description

three-coating-roller switching coating machine

Technical Field

The utility model relates to a case and bag end material production line, case and bag end material drenches and scribbles three coating rolls of stoving ization production line and switch coating machine specifically says so.

Background

The leather in the prior art needs coating treatment, and the traditional coating machine adopts manual feeding, so that the time and labor are wasted in the processes of feeding speed, material changing, material re-feeding and the like; the coating of scribbling on the leather surface is not even enough, and the stoving case can only satisfy the leather stoving of fixed length, and production efficiency is lower, and unable continuous production, and the product specification is limited, and can't effectively ensure the leather broad width when drying after the coating, easily produces the shrink, influences product drying quality.

SUMMERY OF THE UTILITY MODEL

The utility model provides an simple structure, compactness, it is convenient to use, three coating rolls that can many specifications coating switch coating machine.

The utility model adopts the technical scheme that the spraying and drying integrated production line for the luggage bottom material is characterized by comprising an unreeling device, a collecting and storing material receiving device, a washing and dust removing device, a tension device, a three-coating-roller switching coating machine, a widening and drying device, a water cooling device and a reeling device;

the unwinding device comprises an unwinding base, an unwinding support, an unwinding shaft, an unwinding reversing shaft, a deviation correcting motor, a deviation correcting screw and a deviation correcting sensor, wherein the bottom of the unwinding support is erected on the unwinding base and is guided in a transverse guide rail on the unwinding base through a roller in a limiting manner, the unwinding support is connected with the deviation correcting motor, the deviation correcting motor drives the deviation correcting screw transversely arranged in a transverse threaded hole penetrating through the unwinding base, an unwinding support port capable of supporting the unwinding shaft of a transverse substrate in a rolling manner is arranged at the top of the unwinding support, the transverse unwinding reversing shaft penetrates through a bearing seat in the unwinding support, and the deviation correcting sensor is arranged on the unwinding base and is positioned between the unwinding reversing shaft and the receiving, storing and receiving;

the receiving, storing and receiving device comprises a receiving and storing material frame, a receiving and storing lifting cylinder, a receiving and storing lifting chain wheel, a receiving and storing fixed roller, a receiving and storing driving roller, a receiving and storing reversing roller seat, a receiving and storing reversing guide seat, a receiving and storing reversing lifting cylinder and a receiving and storing output roller, wherein the front part of the receiving and storing material frame is connected with the receiving and storing reversing guide seat, the receiving and storing reversing roller penetrates through the receiving and storing reversing guide seat through the receiving and storing reversing roller seat, the receiving and storing reversing roller seat is connected with the receiving and storing reversing lifting cylinder and is in a lifting state in the receiving and storing reversing guide seat, a plurality of receiving and storing fixed rollers penetrate through the front and back direction of the bottom of the receiving and storing material frame, the receiving and storing lifting cylinder ends are vertically arranged at the receiving and storing lifting chain wheel at the top of the receiving and storing material frame, the receiving and storing lifting cylinder is fixed at the receiving lifting cylinder , and the receiving lifting cylinder is fixed at the upper end of the receiving and washing device, and receiving water outlet device corresponding to the receiving material frame;

the washing dust removal device comprises a washing box seat, a washing guide-in roller, a washing upper roller, a washing lower roller, a pressing bracket, a pressing guide-in roller, a pressing fixed roller, a pressing power motor, a pressing water roller seat, a pressing water roller lifting cylinder and a washing output roller, wherein the front part of an upper opening of the washing box seat is provided with the washing guide-in roller corresponding to the receiving and storing output roller, the upper part and the lower part in the washing box seat are respectively connected with a plurality of upper washing rollers and lower washing rollers which are staggered up and down, the rear part of the upper opening of the washing box seat is provided with the pressing water bracket, the front part of the pressing water bracket is provided with the pressing water guide-in roller, the lower part of the pressing water bracket is connected with the pressing water fixed roller driven by the pressing power motor in a penetrating way, the pressing water roller corresponding to the pressing fixed roller is connected in the upper lifting port of the pressing water bracket through the pressing water roller seat, the pressing roller seat is connected with the pressing water roller lifting cylinder arranged on the pressing bracket and is in, the rear part of the water pressing bracket is provided with a water washing output roller corresponding to the tension device;

the tension device comprises a tension frame, a tension leading-in roller, a tension adjusting roller seat, a tension adjusting roller, a tension adjusting chain wheel set, a tension adjusting drive gear, a tension adjusting drive chain, a tension adjusting drive cylinder and a tension leading-out roller, wherein the front end of the tension frame is provided with the tension leading-in roller corresponding to the water washing output roller, the tension adjusting chain wheel set is arranged in the tension frame up and down, the tension adjusting roller seat is fixedly connected to the chain of the tension adjusting chain wheel set, the tension adjusting roller is connected to the tension adjusting roller seat in a penetrating manner, the tension adjusting drive gear is externally connected to a penetrating shaft of a tension adjusting chain wheel set gear in a penetrating manner, the tension adjusting drive chain is connected to the tension adjusting drive gear in a winding manner and is connected to the upper end of the tension adjusting drive cylinder in an outward pulling manner, the lower end of the tension adjusting drive cylinder is fixed on the tension frame, and the rear end of the tension frame is provided with the tension leading-out roller corresponding to a coating machine;

the three-coating-roller switching coating machine comprises a coating rack, a coating reversing roller, a coating lead-in roller, a rubber roll, more than two coating rollers, a coating-roller supporting bearing seat, a coating-roller connecting frame, a coating-roller fulcrum shaft, a coating-roller adjusting cross beam, a coating-roller adjusting lifting cylinder, a pneumatic chuck, a coating-roller driving motor, a scraper seat, a scraper lifting rack, a scraper lifting gear, a scraper lifting adjusting wheel, a coating collecting tank, a coating box, a coating pump and a coating lead-out roller, wherein the front part of the coating rack is provided with a coating reversing roller corresponding to a tension lead-out roller, the upper part of the middle part of the coating rack is provided with more than two coating rollers in parallel, the more than two coating rollers are rotatably connected on the coating-roller connecting frame in a penetrating manner, the shaft ends of the coating-roller supporting bearing seat extend outwards to be connected with the coating-roller supporting bearing seat through a coating-roller driving motor, the coating-roller driving connection of the coating-roller driving motor is connected with the coating-roller driving arm connecting mechanism of the coating roller, the coating roller driving arm connecting frame is externally connected with the coating roller connecting frame, the coating roller lifting adjusting rack located on the center of the coating roller supporting bearing seat, the coating roller lifting rack is connected with a coating roller lifting adjusting device, the scraper lifting rack of the scraper, the scraper lifting adjusting device, the scraper is connected with a lifting rack, the scraper lifting adjusting device, the scraper on the scraper lifting rack, the scraper, the lifting rack of the scraper is connected with a lifting adjusting device, the scraper lifting rack, the scraper, the lifting rack, the scraper lifting rack, the lifting adjusting device, the scraper lifting rack, the scraper is connected with the lifting rack, the scraper, the lifting device, the lifting rack, the scraper, the lifting rack, the scraper, the lifting device, the lifting rack, the lifting device, the lifting roller lifting rack, the;

the widening and drying device comprises a widening front frame, a widening lead-in roller, a needle bed supporting walking frame, a walking frame driving screw rod, a walking frame driving motor, a needle bed chain wheel, a needle bed chain plate, a needle bed driving motor, a widening rear frame and a plurality of drying boxes, wherein the widening lead-in roller corresponding to the coating lead-out roller is arranged at the front part of the widening front frame, a front cross beam is arranged in the widening front frame after the widening lead-in roller, the plurality of drying boxes are arranged between the widening front frame and the widening rear frame, a rear cross beam is arranged in the widening rear frame, front left and front right needle bed supporting walking frames capable of moving left and right along the front cross beam are respectively supported at two sides of the front cross beam, rear left and rear right needle bed supporting walking frames capable of moving left and right along the rear cross beam are respectively supported at two sides of the rear cross-connected with the front walking frame driving screw rod between the front left and front needle bed supporting walking frames, the front walking frame driving screw rod is driven by the, The front right needle bed support walking frame moves towards or away from each other, the back left and back right needle bed support walking frame is in threaded connection with a back walking frame driving screw rod, the back walking frame driving motor drives the back walking frame driving screw rod to drive the front left and back right needle bed support walking frame to move towards or away from each other, the front left and back left needle bed support walking frame are respectively supported with a front left needle bed chain wheel and a back left needle bed chain wheel, the front left and back left needle bed chain wheels are driven to rotate horizontally by a needle bed driving motor connected with the back left needle bed support walking frame, a left needle bed chain plate is connected between the front left and back left needle bed chain wheels in a winding manner, a left needle bed corresponding to a widening leading-in roller is arranged outside each chain plate of the left needle bed plate, a plurality of needles are vertically and upwards densely distributed on the left needle bed, the front right and back right needle bed structures are symmetrical to the front left and back left needle bed, two groups of symmetrical needle body penetrating brackets are also arranged on the widening front frame, the needle threading pressing-in support is vertically provided with a needle threading pressing-in guide seat, the needle threading pressing-in guide seat is driven by a needle threading pressing-in lifting cylinder connected to the needle threading pressing-in support, the needle threading pressing-in guide seat is penetrated through a needle threading pressing-in guide wheel by a shaft, the needle threading pressing-in guide wheels of the two groups of needle threading pressing-in supports are respectively arranged above needle bodies of a left needle seat and a right needle seat in a clearance corresponding mode, a plurality of drying boxes are sequentially penetrated in front of the left needle bed chain plate and the right needle bed chain plate, a plurality of hot air drying blowing heads which correspond to air supply between the left needle bed chain plate and the right needle bed chain plate downwards are arranged in the front-back direction in the drying boxes, the hot air drying blowing heads are externally connected with heat supply; the left needle bed chain plate and the right needle bed chain plate are fed back and forth on the widened frame and are reversed to bypass the corresponding needle bed chain wheels, and the upper chain plate sinks to the needle body height;

the water cooling device comprises a water cooling bracket, a water cooling tension adjusting roller, a water cooling lead-in roller, a water cooling tension control arm, a water cooling tension adjusting cylinder, a tension control counterweight, a water cooling roller and a water cooling lead-out roller, wherein the water cooling lead-in roller is supported at the front end of the water cooling bracket through bearing seats of water cooling lead-in roller fulcrum shafts at two ends of the water cooling lead-in roller and a corresponding widening lead-out roller;

the winding device comprises a winding rack, a winding support, winding rollers, winding guide rollers, a winding changing motor and a winding motor, wherein two ends of the winding support are connected to the winding rack in a penetrating manner through winding fulcrum shafts, the winding fulcrum shafts are externally connected with the winding changing motor, the winding support is symmetrically provided with the two winding guide rollers and the two winding rollers in a penetrating manner, the two winding guide rollers and the two winding rollers are uniformly distributed in a staggered manner on the circumference of the winding fulcrum shafts, and the winding rollers are connected with the winding motor arranged on the winding support.

steps are further carried out, two bilateral symmetry and press-in laminating supports located behind the needle threading press-in support are further arranged on the front stretching machine frame, press-in laminating guide seats are arranged on the press-in laminating supports in a vertical guide mode, the press-in laminating guide seats are driven by press-in laminating lifting cylinders connected to the press-in laminating supports, the press-in laminating guide seats are connected with press-in laminating guide wheels in a penetrating mode through shafts, and the press-in laminating guide wheels of the two sets of press-in laminating supports are arranged above needle bodies of the left needle base and the right needle base in a corresponding mode in.

, the penetrating needle is pressed into the guide wheel and pressed against the outer circumference of the guide wheel to form circles of wire brush structures.

, the left and right needle bed chain plates are covered with chain plate shields, the chain plate shields are provided with lubricating oil tanks respectively positioned in front of the drying tanks and behind the drying tanks, the lubricating oil tanks are correspondingly connected to the inner sides of the needle bed chain plates through hoses, and the lubricating oil tanks are provided with oil level gauges.

steps are carried out, the left and right back needle bed chain wheels are symmetrical in structure, each chain wheel comprises a chain wheel shaft, a chain wheel upper slide seat, a chain wheel lower slide seat, an upper rotating plate, a lower rotating plate, a vertical slide rail and a slide block, the chain wheel shaft is driven by a back needle bed driving motor and is arranged on a needle bed supporting walking frame, the chain wheel shaft is connected with the chain wheel upper slide seat and the chain wheel lower slide seat in a penetrating mode, a front half parallel gap track is correspondingly formed between the chain wheel upper slide seat and the chain wheel lower slide seat, a descending wedge track descending from forward to back in the inner half side of the rear half is in a reversing mode, an ascending wedge track ascending from backward to forward in the outer half side of the rear half is in a penetrating mode, the ascending heights of the descending wedge track and the ascending wedge track are larger than the height of the needle body, the chain wheel shaft is further connected with the upper rotating plate and the lower rotating plate, a plurality of penetrating holes which are evenly distributed in the circumference direction on the upper rotating plate and the lower rotating plate, the vertical slide rails penetrate through corresponding penetrating holes in the upper rotating plate and the lower rotating plate through cylindrical pins, and the outer ends of the slide blocks are meshed with the chain wheel plates and are in a state.

, a middle beam is arranged in the drying box, a left middle walking frame and a right middle walking frame which move left and right along the middle beam are arranged on the middle beam, and a left needle bed chain plate and a right needle bed chain plate are respectively supported on the left middle walking frame and the right middle walking frame.

, a meter counter is arranged on the washing output roller and correspondingly pressed on the upper substrate.

Step , draw wide drying device is still including corresponding left and right wear the needle respectively and impress leading wheel below or preceding below or two of below before the device of preventing hanging down, prevent the device of hanging down including preventing the cylinder that hangs down, prevent the swing arm that hangs down, prevent the laminating supporting wheel that hangs down, prevent the cylinder that hangs down and set up in drawing wide fore-stock inboard, prevent the cylinder telescopic connection that hangs down and prevent the swing arm end, prevent the swing arm middle part that hangs down and articulate in drawing wide fore-stock inboard, prevent the swing arm that hangs down in addition end swing joint that hangs down and prevent the laminating supporting wheel that hangs down and be along with preventing that the swing arm is rotatory to rise and lift up left, the state that the substrate is not less than the.

, the fulcrum of the coating roller is externally connected with a coating roller selecting motor.

, the end of the wind-up roll is connected with a wind-up motor, the other end is provided with a square interface hole with an opening direction facing the end face and the circumference of the wind-up roll, the square interface hole is clamped with a square chuck on a wind-up roll chuck, the wind-up roll chuck is rotatably arranged on the inner side of the wind-up support, the wind-up roll is clamped on the circumference of the other end of the wind-up roll, which is opposite to the square interface hole, through a semicircular locking disc, and the semicircular locking disc is locked on the inner side of the wind-.

During operation, the unreeling device is unreeled by adding a substrate roll, a reel of the substrate roll is placed on an unreeling branch opening of the unreeling support for supporting, the substrate is conveyed towards a storing reversing roller after being reversed by the unreeling reversing shaft, and during conveying, the deviation of the placing and conveying is detected in real time by a deviation-correcting sensor, if the conveying deviates, the deviation-correcting sensor transmits a signal to a deviation-correcting motor to control a deviation-correcting screw to rotate, so that the unreeling support is driven to move and adjust transversely on the unreeling base, and stable and high-precision unreeling conveying is effectively ensured;

when the substrate is reversed by the storage reversing roller, the substrate is conveyed to the storage lifting frame, the storage movable roller and the storage fixed roller on the storage receiving frame, the storage movable roller and the storage fixed roller sequentially move up and down in a winding way, the substrate is stored in the winding way, the storage lifting frame drives the storage movable roller to ascend, the storage amount of the substrate in the winding way is increased, the storage lifting frame is lifted to the maximum, the storage amount is the maximum, and finally the substrate is conveyed to the washing leading-in roller by the storage output roller; in the process of winding and conveying the substrate, the winding tension is constantly controlled by the winding and storing reversing roller, the winding and storing reversing roller seat is driven by the winding and storing reversing lifting cylinder to lift and lower in the winding and storing reversing guide seat, after the substrate is wound and unwound on the unwinding device and before the substrate is replaced, the winding and storing amount can meet the requirement of subsequent production, the substrate is replaced and the winding and storing amount which is not conveyed backwards is used for receiving materials, the subsequent production is not influenced by replacing the substrate in the unwinding device, the phenomenon that the traditional production line needs to be stopped after unwinding is finished and then started again after the material is received is avoided, and the improvement of the production efficiency is facilitated; the meter counter meters the meter on the receiving and storing output roller at the rear part of the receiving and storing rack in real time, and the receiving and storing quantity can be more accurately controlled by combining the conveying quantity required by the subsequent production line;

determining whether to wash according to production requirements, if not, directly conveying the substrate to a washing output roller from a washing input roller and then entering a subsequent tension input roller; if the water washing is needed, the substrate is conveyed into an upper opening of a washing box seat after passing through a washing leading-in roller, the washing upper roller and the washing lower roller in the washing box seat sequentially bypass in a staggered manner, so that the water washing is effectively ensured to be full, the substrate is conveyed out from the upper opening of the washing box seat after being washed, the substrate is pressurized and dewatered between a pressurized water driving roller and a pressurized water fixed roller driven by a pressurized water driving roller seat, and the substrate is conveyed to a tension leading-in roller by a washing output roller after being pressurized;

before entering a coating process, tension adjustment control is carried out, a substrate is guided into a tension frame through a tension guide-in roller, is output to a coating reversing roller through a tension adjusting roller by a tension guide-out roller after winding, and is driven to rotate by a tension adjusting driving cylinder to control a tension adjusting driving chain to move up and down, so that the tension adjusting driving gear is driven to rotate a tension adjusting chain wheel set through a penetration shaft, the tension adjusting roller of a tension adjusting roller seat on a chain of the tension adjusting chain wheel set is lifted along with the tension adjusting roller, tension adjustment of substrate conveying is realized, the requirements of continuous feeding of a production line on conveying and coating tension are met, and the production quality is ensured;

when entering a coating process, different coating rollers are selectively replaced according to different coatings, firstly, a scraper lifting adjusting wheel is controlled to drive a scraper lifting gear to be meshed with a scraper lifting rack through a shaft, the scraper lifting rack is lifted to drive a scraper seat and a scraper to lift, rotating spaces of a coating roller connecting frame and a plurality of coating rollers are avoided, then a coating roller adjusting lifting cylinder is used for lifting a coating roller adjusting beam, the coating roller adjusting beam sequentially drives more than two coating rollers connected to the coating roller connecting frame through a coating roller supporting shaft and the coating roller connecting frame to lift, any coating rollers are separated from a coating roller vertical supporting port, a coating roller selecting motor drives the coating roller supporting shaft to control the rotation of the more than two coating rollers to vertically align the required coating rollers with the coating roller vertical supporting port as required, the coating rollers are placed in the coating roller vertical supporting port by lowering of the coating roller adjusting lifting cylinder, meanwhile, the outer ends of the coating rollers are placed in a pneumatic chuck gap and clamped in the pneumatic chuck, the coating roller driving motor drives the coating roller driving chuck to drive the coating roller to rotate, the coating roller to guide the coating roller into the middle of a substrate material collecting tank through a coating pump, the substrate material guiding tank, the substrate is guided into the middle of a coating roller, the substrate guiding tank, the substrate is guided into the substrate guiding tank, the substrate guiding and;

when the substrate is transferred to the front needle bed and the bottom needle bed is lifted by a front moving frame driving motor, the front moving frame driving screw drives the front left needle bed supporting walking frame and the front right needle bed supporting walking frame to correspond to the substrate width, the widening rear frame is pulled to adjust the back left needle bed supporting walking frame and the back right needle bed supporting walking frame to correspond to the substrate width finally required for widening, when the substrate is continuously transferred to the inner side of the widening front frame, the penetrating needle is pressed into the upper penetrating needle pressing lifting cylinder to drive the penetrating needle pressing guide seat to drive the penetrating needle pressing guide wheel to descend, the two sides of the substrate width are pressed into the needle bodies on the needle seat of the needle bed chain plate by the brush structure circumference of the penetrating needle, and are pressed into the needle body on the needle seat of the left needle bed chain plate, and pressed into the laminating guide seat by the pressing into the laminating air box laminating guide wheel to descend into the needle body of the needle seat and the needle body of the needle bed edge of the upper end face of the needle seat and the needle body of the needle seat to be laminated on the upper end face of the needle seat of the needle bed, when the needle bed is pressed into the needle bed, the needle seat is pressed into the needle seat, when the needle seat is pressed into the needle seat, the needle body is pressed into the needle seat, the needle body of the needle seat, the needle body is pressed into the needle seat, the needle body is pressed into the needle seat, the needle body, the needle seat, the needle body is pressed into the needle seat, the needle body, the;

the dried substrate is conveyed to a water-cooling tension adjusting roller, a water-cooling tension adjusting cylinder drives a water-cooling guide-in roller to rotate through a water-cooling tension adjusting arm, so that a water-cooling tension control arm is driven to rotate, the water-cooling tension control arm is combined with a tension control counterweight at the other end of the water-cooling tension adjusting roller to adjust the water-cooling tension adjusting roller at the end of the water-cooling tension adjusting roller so as to realize the substrate tension adjustment around the water-cooling tension adjusting roller, the substrate is guided into a plurality of groups of water-cooling roller groups through the water-cooling tension adjusting roller after passing through the water-cooling tension adjusting roller, the substrate is wound on an upper water-cooling roller group and a lower water-cooling roller group for water cooling, shafts at the end of the upper water-cooling roller and the lower water-cooling roller group are respectively externally connected with two gears which are meshed with each other, the gear is driven to rotate as well, the upper water-cooling roller and the lower water-cooling roller synchronously rotate, so that the;

when the winding roll is replaced, the bolts of the semicircular locking discs are loosened, the semicircular locking discs are taken down, the locking of the square interface hole at the other end of the winding roll and the shape chuck above the winding roll chuck is loosened, the square interface hole is separated from the square chuck, the winding roll is dismounted from the end to realize the dismounting of the winding roll, otherwise, the winding roll end is connected to the winding motor corresponding to the inner side of the winding support, the square interface hole at the other end is aligned with the square chuck and connected to the winding roll chuck at the other side of the winding support, the semicircular locking discs are aligned with the circumference of the winding shaft opposite to the square interface hole and locked with the winding roll receiving support through the bolts, so the winding roll is fixed on the winding support, the winding roll is connected to the winding support in a rotatable manner, and the lower winding roll connected to the winding chuck can be driven by the winding motor to complete the winding.

The utility model discloses to unreel, receive and store up, wash, the power control that rises, the coating, draw wide the stoving, the water-cooling, the rolling operation is integrated, the deviation control that has effectively realized unreeling the operation satisfies and unreels the required precision, the receipts of storing up the operation is controlled and is satisfied and unreel the continuous production when changing a roll and connect the material, the washing removes dust, the power control that rises is carried, the coating requirement of multiple coating, draw wide the stability of drying, prevent hanging down, prevent tearing the control, the rolling is carried to the water-cooling, line simple structure is produced to whole, it is compact, can compromise autoloading, rectify a deviation, conveniently connect the material, the washing removes dust, the power control that rises, many specifications coating, draw wide or shrink sign indicating number stoving and automatic rolling, ensure continuous feeding, the coating, the line is dried fast to the fixed width and change a roll rolling.

Drawings

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

FIG. 2 is a schematic view of the unwinding device of the production line of the present invention;

FIG. 3 is a schematic view of the structure of the material receiving and storing device of the utility model;

FIG. 4 is a schematic structural view of the water washing dust removing device of the production line of the present invention;

FIG. 5 is a schematic structural view of the tension device of the application line of the present invention;

FIG. 6 is a schematic structural view of a three-coating-roll switching coater of the present invention;

FIG. 7 is a schematic view of the structure of FIG. 6 along direction A;

FIG. 8 is a schematic structural view of the widening and drying device of the present invention;

FIG. 9 is a top view of FIG. 8;

FIG. 10 is a schematic view of a portion of the front frame of FIG. 8 being drawn wide by a production line;

FIG. 11 is a top view of FIG. 10;

FIG. 12 is a schematic view of a portion of the post-tentering frame of FIG. 8 after being stretched by a production line;

FIG. 13 is a top view of FIG. 12;

FIG. 14 is a view taken along line B of FIG. 13;

FIG. 15 is a view taken along line C of FIG. 14;

FIG. 16 is a schematic structural view of a water cooling device of the application production line of the present invention;

FIG. 17 is a schematic structural view of a winding device of the application line of the present invention;

fig. 18 is a schematic view of the structure in direction D of fig. 17.

In fig. 1: the device comprises a substrate 1, an unreeling device 2, a collecting and receiving device 3, a washing and dedusting device 4, a tension device 5, a three-coating-roller switching coating machine 6, a widening and drying device 7, a water cooling device 8 and a reeling device 9;

in fig. 2: the device comprises an unreeling base 201, an unreeling support 202, an unreeling shaft 203, an unreeling reversing shaft 204, a deviation-correcting motor 205, a deviation-correcting screw 206 and a deviation-correcting sensor 207;

in fig. 3: a storage receiving material rack 301, a storage lifting rack 302, a storage lifting cylinder 303, a front storage lifting chain 304, a front storage lifting chain wheel 305, a rear storage lifting chain 306, a front storage lifting chain wheel 307, a storage fixed roller 308, a storage driving roller 309, a storage reversing roller 310, a storage reversing roller seat 311, a storage reversing guide seat 312, a storage reversing lifting cylinder 313 and a storage output roller 314;

in fig. 4: a water washing box seat 401, a water washing leading-in roller 402, a water washing upper roller 403, a water washing lower roller 404, a water pressing bracket 405, a water pressing leading-in roller 406, a water pressing fixed roller 407, a water pressing power motor 408, a water pressing roller 409, a water pressing roller seat 410, a water pressing roller lifting cylinder 411 and a water washing output roller 412;

in fig. 5: an expansion bracket 501, an expansion leading-in roller 502, an expansion adjusting roller seat 503, an expansion adjusting roller 504, an expansion adjusting sprocket group 505, an expansion adjusting drive gear 506, an expansion adjusting drive chain 507, an expansion adjusting drive cylinder 508 and an expansion leading-out roller 509;

in fig. 6 and 7: a coating machine frame 601, a coating reversing roller 602, a coating leading-in roller 603, a rubber roller 604, a coating roller 605, a coating roller supporting bearing seat 606, a coating roller connecting frame 607, a coating roller supporting shaft 608, a selection motor 609, a coating roller adjusting beam 610, a coating roller adjusting lifting cylinder 611, a pneumatic chuck 612, a coating roller driving motor 613, a scraper seat 614, a scraper 615, a scraper lifting rack 616, a scraper lifting gear 617, a scraper lifting adjusting wheel 618, a coating collecting groove 619, a coating box 620, a coating pump 621 and a coating leading-out roller 622

A coating introduction tension arm 623, a coating introduction tension adjusting cylinder 624 and a coating roll supporting opening 625;

in FIGS. 8-15: a widening front frame 701, a widening lead-in roller 702, a front beam 703, a front left needle bed support walking frame 704, a front right needle bed support walking frame 705, a front walking frame driving screw 706, a roller 707, a front walking frame driving motor 708, a front left needle bed chain wheel 709, a front right needle bed chain wheel 710, a left needle bed chain plate 711, a right needle bed chain plate 712, a chain plate 713, a needle seat 714, a needle body 715, a needle penetrating press-in support 716, a needle penetrating press-in guide seat 717, a needle penetrating press-in lifting cylinder 718, a needle penetrating press-in guide wheel 719, a press-in fitting support bracket 720, a press-in fitting guide seat 721, a press-in fitting lifting cylinder 722, a press-in fitting guide wheel 723, an anti-sag cylinder 724, an anti-sag swing arm 725, an anti-sag fitting support wheel 726, a chain plate shield 727, a lubricating oil tank 728, a drying tank 729, a hot air drying air blower 730, a fan 731, a return 732, a middle beam, a, A rear cross beam 736, a rear left needle bed supporting walking frame 737, a rear right needle bed supporting walking frame 738, a rear walking frame driving screw 739, a rear walking frame driving motor 740, a rear left chain wheel shaft 741, a rear right chain wheel shaft 742, a rear left chain wheel driving motor 743, a rear right chain wheel driving motor 744, a chain wheel upper slide 745, a chain wheel lower slide 746, a rotating gear 747, an auxiliary gear shaft group 748, an upper rotating rack 749, a lower rotating rack 750, a through hole, a vertical slide rail 752, a slide block 753, a cylindrical pin 754, a parallel gap track 755 and a descending wedge track 756;

in fig. 16: a water-cooling bracket 801, a water-cooling tension adjusting roller 802, a water-cooling lead-in roller 803, a water-cooling tension control arm 804, a water-cooling tension adjusting arm 805, a water-cooling tension adjusting cylinder 806, a tension control counterweight 807, a water-cooling roller 808, a roller gear 809, a roller driving rack 810 and a water-cooling lead-out roller 811;

in fig. 17, 18: the winding device comprises a winding frame 901, a winding bracket 902, a winding roller 903, a square interface hole 904, a winding guide roller 905, a winding changing motor 906, a winding motor 907, a winding roller chuck 908, a square clamp 909, a semicircular locking disc 910 and a winding fulcrum 911.

Detailed Description

The following is made with reference to the accompanying drawings and examples.

As shown in figure 1, the production line for coating and drying bodies of luggage substrates comprises an unreeling device 2, a storage and receiving device 3, a water washing and dust removing device 4, a tension device 5, a three-coating-roller switching coating machine 6, a widening and drying device 7, a water cooling device 8 and a reeling device 9, wherein the substrates 1 sequentially penetrate through the devices.

The unwinding device 2 shown in fig. 2 includes an unwinding base 201, an unwinding bracket 202, an unwinding shaft 203, an unwinding reversing shaft 204, a deviation rectifying motor 205, a deviation rectifying screw 206, and a deviation rectifying sensor 207. The bottom of an unreeling support 202 is erected on an unreeling base 201 and is limited and guided in a transverse guide rail on the unreeling base through a roller, the unreeling support 202 is connected with a deviation correcting motor 205, the deviation correcting motor drives a deviation correcting screw 206 transversely arranged in a transverse threaded hole penetrating in the unreeling base, the top of the unreeling support is provided with an unreeling branch port capable of supporting a transverse substrate unreeling reel 203 in a rolling mode, the unreeling support is internally connected with a transverse unreeling reversing shaft 204 in a penetrating mode through a bearing seat, and a deviation correcting sensor 207 is arranged on the unreeling base and is positioned between the unreeling reversing shaft and a material collecting;

the receiving and storing device 3 shown in fig. 3 comprises a receiving and storing rack 301, a receiving and storing lifting frame 302, a receiving and storing lifting cylinder 303, a front receiving and storing lifting chain 304, a front receiving and storing lifting chain wheel 305, a rear receiving and storing lifting chain 306, a front receiving and storing lifting chain wheel 307, a receiving and storing fixed roller 308, a receiving and storing roller 309, a receiving and storing reversing roller 310, a receiving and storing reversing roller seat 311, a receiving and storing reversing guide seat 312, a receiving and storing reversing lifting cylinder 313 and a receiving and storing output roller 314, wherein the front part of the receiving and storing rack 301 is connected with the receiving and storing reversing guide seat 312, the receiving and storing reversing roller 314 is penetrated and received in the receiving and storing reversing guide seat 312 through the receiving and storing reversing roller seat 311, the receiving and storing reversing roller seat is connected with the receiving and storing reversing lifting cylinder 313 in a lifting state in the receiving and storing reversing guide seat, the receiving rack 301 penetrates through a plurality of receiving and storing rollers 308 in the front and rear direction, the receiving rack 301 is provided with the receiving and storing 302, the receiving rack 301 is provided with the receiving and storing lifting frame 309 penetrated through the front and rear lifting frame and rear direction, the receiving lifting frame 63302, the receiving lifting frame 304 is connected with the receiving lifting frame 304, the receiving lifting frame 302, the two receiving lifting and lifting frames 302 are vertically arranged on two sides of the receiving lifting chain wheels of the receiving lifting frame 304, the receiving lifting frame 302, the receiving lifting frame 304, the receiving lifting frame 302, the two receiving lifting cylinder 304, the two receiving lifting frame 302 are vertically arranged in a lifting frame 302;

the washing dust removing device 4 shown in fig. 4 comprises a washing box seat 401, a washing leading-in roller 402, a washing upper roller 403, a washing lower roller 404, a pressing bracket 405, a pressing leading-in roller 406, a pressing fixed roller 407, a pressing water power motor 408, a pressing water roller 409, a pressing water roller seat 410, a pressing water roller lifting cylinder 411 and a washing output roller 412, wherein the washing leading-in roller 402 corresponding to the storage output roller is arranged at the front part of the upper opening of the washing box seat 401, a plurality of upper washing rollers 403 and lower washing rollers 404 which are vertically staggered are respectively penetrated in the washing box seat from top to bottom, the pressing water bracket 405 is arranged at the rear part of the upper opening of the washing box seat, the pressing water leading-in roller 406 is arranged at the front part of the pressing water bracket, the pressing water fixed roller 407 driven by the pressing water motor 408 is penetrated at the lower part of the pressing water bracket, the pressing water roller seat 410 in the lifting hole of the pressing bracket is penetrated by the pressing water roller seat 411 corresponding to the pressing water fixed roller 407, and the pressing water roller seat 410 is connected with the pressing water roller seat 411 arranged on the pressing water roller seat in the lifting and lifting cylinder 411, a washing output roller 412 corresponding to the tension device is arranged at the rear part of the water pressing bracket;

the tension device 5 shown in FIG. 5 comprises a tension frame 501, a tension introducing roller 502, a tension adjusting roller base 503, a tension adjusting roller 504, a tension adjusting sprocket set 505, a tension adjusting drive gear 506, a tension adjusting drive chain 507, a tension adjusting drive cylinder 508, a tension leading-out roller 509, the front end of an expansion frame 501 is provided with an expansion leading-in roller 502 corresponding to a washing output roller, an expansion adjusting chain wheel set 505 is arranged in the expansion frame up and down, an expansion adjusting roller seat 503 is fixedly connected to a chain of the expansion adjusting chain wheel set 505, an expansion adjusting roller 504 is connected to the expansion adjusting roller seat in a penetrating way, an expansion adjusting driving gear 506 is connected to a penetrating shaft of a gear of the expansion adjusting chain wheel set in a penetrating way, an expansion adjusting driving chain 507 is connected to the expansion adjusting driving gear 506 in a winding way and is connected to the upper end of an expansion adjusting driving cylinder 508 in an outward pulling way, the lower end of the expansion adjusting driving cylinder is fixed to the expansion frame, and the rear end of the expansion frame is provided with an expansion leading-out roller 509 corresponding to a three-coating-roller switching coating machine;

the three-coating-roller switching coater 6 shown in the figures 6 and 7 comprises a coating machine frame 601, a coating reversing roller 602, a coating leading-in roller 603, a rubber roll 604, a coating roller 605, a coating-roller supporting bearing pedestal 606, a coating-roller connecting frame 607, a coating-roller fulcrum shaft 608, a selection motor 609, a coating-roller adjusting beam 610, a coating-roller adjusting lifting cylinder 611, a pneumatic chuck 612, a coating-roller driving motor 613, a doctor blade seat 614, a doctor blade 615, a doctor blade lifting rack 616, a doctor blade lifting gear 617, a doctor blade lifting adjusting wheel 618, a coating collecting tank 619, a coating box 620, a coating pump 621, a coating leading-out roller 622, a coating leading-in tension arm 623 and a coating leading-in tension adjusting cylinder 624, a coating reversing roller 602 corresponding to a doctor force leading-out roller guide-out roller is arranged at the front part of the coating machine frame 601, a coating machine frame 604 is provided with a coating roll supporting port 625, three parallel coating rollers 605 are arranged above the coating-in the coating-roller connecting frame 607 in and connected to the coating-roller connecting frame 607 and leading-in supporting bearing pedestal 606 by a coating-in roller supporting bearing pedestal 606 by rotating and correspondingly connected to a coating-in mechanism of a coating-roller supporting rack, a coating-roller supporting rack 600, a coating-roller supporting bearing pedestal 603 corresponding coating-roller is arranged on the coating-roller supporting rack, a coating-roller supporting rack of a coating-roller supporting rack, a coating-roller lifting mechanism of a coating-roller, a coating-roller lifting mechanism of a coating-roller lifting mechanism, a coating-roller lifting mechanism of a coating-roller lifting mechanism, a coating-lifting mechanism of a coating-lifting mechanism, a coating-lifting mechanism of a coating-lifting mechanism, a coating-lifting mechanism of a coating roller 603, a coating roller lifting mechanism of a coating-lifting mechanism of a coating roller lifting mechanism of a coating-lifting mechanism, a coating-lifting mechanism of a coating roller lifting mechanism, a coating roller lifting mechanism, a coating roller, a coating-lifting mechanism;

the widening drying device 7 shown in fig. 8-15 comprises a widening front frame 601, a drying box 729 and a widening rear frame 735, wherein a widening guide roller 702 corresponding to a coating and guiding roller is arranged in the front of a widening front frame 601 shown in fig. 8, 9, 10 and 11, a front left and a front right needle bed supporting traveling frame 704 and 705 which can move left and right along a front cross beam respectively, a front traveling frame driving screw 706 is connected in a threaded manner between the front left and a front right needle bed supporting traveling frame 708, a front left and a front right needle bed supporting traveling frame 704 and 705 which can move left and right along a front cross beam, a front needle bed supporting traveling frame driving screw penetrates through a front needle bed penetrating through a middle needle bed supporting needle seat and a middle needle bed supporting needle seat 150, a rack mounting 709 and a front right needle bed 710 is connected in a front needle bed rack mounting rack 13 shown in fig. 8, 13, FIG. 8, FIG. 13, FIG. 8, 12, FIG. 13, FIG. 8, 2, 7, 13, 7, 2, 7, 2, 7, 13, 7, 2, 7, 2, No. 7, No. 2, No. No.

The water cooling device 8 shown in fig. 16 includes a water cooling frame 801, a water cooling tension adjusting roller 802, a water cooling lead-in roller 803, a water cooling tension controlling arm 804, a water cooling tension adjusting arm 805, a water cooling tension adjusting cylinder 806, a tension controlling counter weight 807, a water cooling drum 808, a drum gear 809, a drum driving rack 810, and a water cooling lead-out roller 811, wherein the water cooling lead-in roller 803 is connected with a bearing seat through the water cooling lead-in roller fulcrum shafts at two ends thereof, the water cooling tension controlling arm is supported at the front end of the water cooling frame 801 corresponding to the widening lead-out roller, the water cooling lead-in roller fulcrum shaft is fixedly connected with the middle part of the water cooling tension controlling arm 804, the tension controlling counter weight 807 is arranged at the upper part of the water cooling tension controlling arm, the lower end of the water cooling tension controlling arm is connected with the water cooling tension adjusting roller 802 between the water cooling lead-in roller and the widening drying device, the water cooling lead-in roller fulcrum shaft is externally connected with the water cooling tension adjusting arm 805 , the water cooling tension adjusting arm is connected with the water cooling tension adjusting cylinder 806 arranged on the water cooling frame corresponding to the water cooling tension adjusting cylinder, a plurality of water cooling roller sets are arranged in the front and back of the water cooling frame, each water cooling roller sets, each water cooling roller set includes an upper and back, each set of a plurality of water cooling roller sets including an upper and a lower roller set of water cooling roller rack 63, each set, each set of water cooling roller set, each set includes an upper roller set of water cooling roller set, each.

The winding device 9 shown in fig. 17 and 18 includes a winding frame 901, a winding support 902, a winding roll 903, a square interface hole 904, a winding guide roll 905, a reel change motor 906, a winding motor 907, a winding roll chuck 908, a square chuck 909, a semicircular locking disc 910, and a winding fulcrum 911, wherein two ends of the winding support 901 are connected to the winding frame 901 through the winding fulcrum 911 in a penetrating manner, the winding fulcrum 911 is connected to the reel change motor 906 externally, two winding guide rolls 905 and two winding rolls 903 are symmetrically connected to the winding support 902 in a penetrating manner, the two winding guide rolls and the two winding rolls are distributed on the circumference around the winding fulcrum in a staggered manner, an end of the winding roll is detachably and connected to the winding motor 907 arranged on the winding support in an assembling manner, an end is provided with the square locking hole 904 facing the end face and the circumference of the winding roll, the square interface hole is clamped to the square chuck 909 on the winding roll chuck 908, the winding roll chuck is rotatably arranged on the inner side of the winding support, and a semicircular locking disc 910 is arranged on the inner side of the winding support 902 through the semicircular locking disc 910.

In the above embodiment, in order to improve the effect of pressing the needle body into the substrate 1, the penetrating needle is pressed into the guide wheel, the outer circumference of the pressing fit guide wheel is circles of wire brush structures, and the output or input roller of each device is provided with a meter counter which is correspondingly pressed and connected with the upper substrate for accurately controlling feeding, the transmission structure, the reversing transmission structure and the like of the related motor driving screw rod and the motor driving shaft in the above embodiment are simple mechanical transmission in the prior art, the two ends of each guide-in roller and the output roller are all provided with bearing seats for cross connection, and all the prior art replacement and change which are carried out on the conception and the production principle of the utility model are within the protection scope of the present invention.

Claims (2)

1. The coating machine comprises a coating machine frame, a coating reversing roller, a coating leading-in roller, a rubber roll, more than two coating rollers, a coating roller supporting bearing seat, a coating roller connecting frame, a coating roller supporting shaft, a coating roller adjusting cross beam, a coating roller adjusting lifting cylinder, a pneumatic chuck, a coating roller driving motor, a scraper seat, a scraper lifting rack, a scraper lifting gear, a scraper lifting adjusting wheel, a coating collecting tank, a coating box, a coating pump and a coating leading-out roller, wherein the front part of the coating machine frame is provided with the coating reversing roller, more than two coating rollers are arranged in parallel above the middle of the coating machine frame, the more than two coating rollers are rotatably connected on the coating roller connecting frame in a penetrating manner through a shaft end extending out and are connected with a coating roller supporting bearing seat, the coating machine frame is provided with a coating roller vertical supporting port corresponding to the scraper roller supporting bearing seat, the coating machine frame is provided with a pneumatic chuck corresponding to a coating roller shaft section of the coating roller lifting roller, the scraper shaft of the coating roller is connected with a coating roller lifting adjusting device, the scraper lifting rack of the scraper, the scraper is connected with a coating roller lifting adjusting device, the scraper, the lifting adjusting mechanism is connected with a lifting rack, the scraper lifting adjusting mechanism, the scraper is connected with a lifting rack, the scraper roller lifting adjusting mechanism, the scraper roll lifting rack, the scraper roll lifting adjusting mechanism, the scraper is connected with the scraper, the scraper lifting rack, the scraper lifting adjusting mechanism, the scraper roll lifting rack, the scraper roll lifting mechanism, the scraper is connected with the scraper seat, the scraper roll lifting adjusting mechanism, the scraper roll lifting rack, the scraper lifting adjusting mechanism, the scraper seat, the scraper roll lifting rack, the scraper is connected with the scraper lifting adjusting mechanism, the scraper roll, the scraper lifting mechanism, the scraper roll lifting mechanism, the scraper is connected with the scraper roll, the scraper lifting mechanism, the scraper roll, the scraper seat, the scraper roll.
2. 2. The kinds of three-coating-roll switching coater according to claim 1, wherein the coating-roll fulcrum is externally connected with a coating-roll selecting motor.

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