CN102962168B - Glue applying machine for non-woven fabrics - Google Patents

Abstract

The invention discloses a glue applying machine for non-woven fabrics, belonging to the technical field of gluing machinery for non-woven fabrics. The glue applying machine comprises a rack, a beam, a glue feeding mechanism, a pair of glue blocking mechanisms, a pair of edge detecting mechanisms, a glue scraping mechanism and a glue squeezing mechanism, wherein a first beam support is fixed at the upper part of one end of the rack, and a second beam support is fixed at the upper part of the other end of the rack; the two ends of the beam are respectively fixed on the first beam support and the second beam support, an upper guide rail is fixed on the upward side of the beam, and a lower guide rail is fixed on the downward side of the beam; the glue feeding mechanism is arranged on the beam; the pair of glue blocking mechanisms are matched with the upper and lower guide rails; the pair of edge detecting mechanisms are arranged on the pair of glue blocking mechanisms; the glue scraping mechanism and the glue squeezing mechanism are arranged on the rack; the glue feeding mechanism comprises a driven transmission wheel, a roller seat transmission belt, a roller seat, a driving wheel, a driving wheel driver and a glue feeding tube; and the driving wheel driver comprises a driving wheel driving motor, a first transmission wheel, a second transmission wheel and a transmission belt. The glue applying machine has the advantages of guaranteeing a uniform glue coating effect, preventing the two side edges of the non-woven fabrics from being separated from a glue feeding area of the glue feeding mechanism, and avoiding waste caused by the escape of glue.

Description

Non-woven fabrics sizing applicator

Technical field

the invention belongs to adhesive-bonded fabric gluing field of mechanical technique, be specifically related to a kind of non-woven fabrics sizing applicator.

Background technology

non-woven fabrics custom is called supatex fabric or non-weaving cloth, apply such as PU(polyurethane on the surface, one or both sides of non-woven fabrics), PVC(polyvinyl chloride) or other similar material after again by other lining cloth compound and the cloth of purposes Compound Fabric or artificial leather or other similar applications very widely can be formed with it, it can thus be appreciated that, be non-woven fabric compounded preceding working procedure to nonwoven surface gluing, the device that gluing relies on is the important equipment in non-woven fabric compounded technique.

technical information about non-woven fabrics sizing applicator can be seen in disclosed Chinese patent literature, typically as " single surface gluing machine " of Authorization Notice No. CN2822795Y recommendation, this patent formula arranges adjustable scraper in the side of the length direction corresponding to drive roll, and in the bottom of the length direction corresponding to driven voller, remaining glue groove is set, when non-woven fabrics (patent claims non-woven fabrics semi-finished product) is by way of master, time between driven voller, drive roll is caused by the glue coming from glue groove, non-woven fabrics is transferred to by drive roll, and the glue of redundancy is struck off by scraper and naturally wander in remaining glue groove.This patent formula visible has confirmed the technique effect (avoiding sizing material to produce waste) alleged by its description the 1st page of final stage to the 2nd page of the 7th row.Again, " a kind of glue spreader for nonwoven fabrics " that CN202162117U provides is by putting cloth apparatus and cloth-feeding device, glue spreading apparatus, cooling device, cloth collector and control device are formed, this patent formula has and connects the function that is heating and curing of the company of painting and can embody desirable production efficiency, specifically can see description 0005 hurdle of this patent.

although the glue spreader being not limited to exemplify above respectively has it long, but as complete sizing applicator, how feed relatively uniform for rubber cement and non-weaving cloth, how avoid non-weaving cloth sideslip and how to control rubber cement thickness and avoid remaining glue waste etc. to be all indispensable technological requirement in traveling process, but above-mentioned patent does not all provide the technology being met described technological requirement enlightens.

in view of above-mentioned prior art, the applicant has done positive and useful design, and prove practicable taking the analog reslt carried out in the applicant plant area under strict secrecy provision, technical scheme described below produces under this background.

Summary of the invention

task of the present invention be to provide a kind of contribute to rubber cement to use with dispersity feeding nonwoven fabric surface embody uniform sizing efficiency, favourable the travel track of gear gluing mechanism and non-weaving cloth is changed keep to follow in sb's footsteps relation and the rubber cement of using the position, both sides of the edge avoiding the selvedge of non-weaving cloth to depart from size application area and to be of value to the length direction to non-weaving cloth stops and use and avoid escaping and cause the non-woven fabrics sizing applicator of waste.

task of the present invention has been come like this, a kind of non-woven fabrics sizing applicator, comprises a frame, is fixed with a first crossbeam support on the top, one end of this frame, and the top of the other end of frame is fixed with a second cross beam support, first, second overarm brace corresponds to each other, one crossbeam, one end of this crossbeam is fixed on described first crossbeam support, and the other end is fixed on described second cross beam support, this crossbeam length direction and towards on side be fixed with a upper rail, and crossbeam length direction and towards under side be fixed with a lower guideway, one feeds gluing mechanism, should feed gluing mechanism and be arranged on described crossbeam, and moves with described upper rail and lower guideway simultaneously and coordinate, the a pair gear gluing mechanism corresponded to each other, this pair gear gluing mechanism moves with described upper rail and lower guideway simultaneously and coordinates, and is positioned at the side of the length direction of crossbeam, a pair exploring side machine structure, one of them exploring side machine structure in this pair exploring side machine structure is arranged on one of them the gear gluing mechanism in a pair described gear gluing mechanism, and another exploring side machine structure in a pair exploring side machine structure is arranged on another gear gluing mechanism in a pair gear gluing mechanism, one for drawing together even frictioning mechanism by rubber cement, this frictioning mechanism to be arranged in described frame and to correspond to the opposite side of the length direction of described crossbeam, one glue-squeezing mechanism, this glue-squeezing mechanism is arranged in frame, and the same described opposite side corresponding to the length direction of described crossbeam, wherein: described frictioning mechanism corresponds between described gear gluing mechanism and described glue-squeezing mechanism, described gluing mechanism of feeding comprises driven transmission wheel, roller seat transmission belt, roller mount, driving wheel, driving wheel drive unit and hello sebific duct, driven transmission wheel is arranged on described crossbeam one end towards described first crossbeam support rotationally, driving wheel drive unit is arranged on crossbeam one end towards described second cross beam support, driving wheel and driving wheel drive unit are in transmission connection, one end of roller seat transmission belt is nested with in driven transmission wheel, the other end is nested with on driving wheel, roller mount is fixedly connected with roller seat transmission belt, a pair upper roller is provided with rotationally towards the top of the side of crossbeam in this roller mount, be provided with a pair bottom roller lower rotational, a pair upper roller and described upper rail form rolling pair, and a pair bottom roller and described lower guideway form rolling pair, feed sebific duct and be fixed on the side of roller mount back to crossbeam with cantilever position, described driving wheel drive unit comprises driving wheel drive motors, first, second drive and driving-belt, driving wheel drive motors is the motor with rotating function, be fixed in motor fixing seat, and motor fixing seat is fixed on one end end of described crossbeam towards second cross beam support, first drive is fixed on the driving wheel drive motors axle of driving wheel drive motors, second drive is fixed on one end of power axle, and the middle part of power axle is bearing on drive axle bed rotationally, drive axle bed is arranged on crossbeam, described driving wheel is fixed on the other end of power axle, one end of driving-belt is nested with on the first drive, the other end is nested with on the second drive.

in a specific embodiment of the present invention, a pair described gear gluing mechanism respectively comprises motor, reduction box, balladeur train, adjustment vertical rod, adjustment crossbar mount, adjustment cross bar, rubber block, driving gear and tooth bar band, motor coordinates with reduction box transmission, and be fixed on the side of balladeur train towards described exploring side machine structure by reduction box together with motor, balladeur train and described upper rail are slidably matched, and be slidably matched with described lower guideway simultaneously, adjustment vertical rod is fixed on the side of balladeur train towards exploring side machine structure, adjustment crossbar mount is arranged in adjustment vertical rod up or down, adjustment cross bar movably and be the level of state be fixed on adjustment crossbar mount on, rubber block is fixed on adjustment cross bar, driving gear is fixed on the reduction gearbox output shaft of reduction box, and be meshed with tooth bar band, one end of tooth bar band and described crossbeam are fixed towards one end of described first crossbeam support, and the other end and crossbeam are fixed towards one end of described second cross beam support.

in another specific embodiment of the present invention, a pair described exploring side machine structure respectively comprises spy frame side, screw rod, screw rod slide block, slide block guide rail and handwheel, spy frame side and described balladeur train are fixed, slide block guide rail is fixed with level and spy frame side, screw rod corresponds to the top of slide block guide rail with level, one end of this screw rod is bearing on screw bolt seat rotationally, screw bolt seat is fixed on to be visited in frame side, the other end of screw rod stretches towards the direction of slide block guide rail, screw rod slide block matches with screw rod and is slidably matched with slide block guide rail, handwheel is fixed on screw rod one end towards described screw bolt seat, wherein: the bottom of described screw rod slide block is provided with selvedge signal picker.

in another specific embodiment of the present invention, described frictioning mechanism comprises scraper, doctor roll and a pair doctor roll corrective action cylinder corresponded to each other, one of them doctor roll corrective action cylinder in a pair doctor roll corrective action cylinder is arranged on one end of described frame, and another doctor roll corrective action cylinder in a pair doctor roll corrective action cylinder is arranged on the other end of frame, the doctor roll corrective action cylinder post of each doctor roll corrective action cylinder towards under, and be fixed with a doctor roll axle bed at the end of doctor roll corrective action cylinder post, doctor roll axle bed coordinates with the doctor roll axle bed slide be fixed in frame, scraper is formed in doctor roll length direction with heeling condition towards under side, the doctor roll roll shaft spindle nose of doctor roll is bearing on described doctor roll axle bed rotationally.

in another specific embodiment of the present invention, described glue-squeezing mechanism comprises, lower Extruded roller and a pair Extruded roller corrective action cylinder corresponded to each other, one of them Extruded roller corrective action cylinder in a pair Extruded roller corrective action cylinder is arranged on described one end of described frame, and another Extruded roller corrective action cylinder in a pair Extruded roller corrective action cylinder is arranged on the described other end of frame, the Extruded roller corrective action cylinder post of each Extruded roller corrective action cylinder towards under, and be fixed with an Extruded roller axle bed at the end of Extruded roller corrective action cylinder post, Extruded roller axle bed coordinates with the Extruded roller axle bed slide be fixed in frame, the upper Extruded roller spindle nose at the two ends of upper Extruded roller is bearing on described Extruded roller axle bed rotationally, the two ends of lower Extruded roller are arranged in frame rotationally by its lower Extruded roller spindle nose, and match with upper Extruded roller in the below of Extruded roller on corresponding to, wherein: upper Extruded roller and lower Extruded roller are in transmission connection with the Extruded roller transmission mechanism of the bottom being arranged on frame.

also have in a specific embodiment of the present invention, a pair parallel balladeur train upper roller shaft is installed with on the top of described balladeur train, and bottom is installed with a pair parallel balladeur train bottom roller axle, a pair balladeur train upper roller shaft is respectively provided with a balladeur train upper rail roller and a balladeur train upper block rotationally, balladeur train upper rail roller and described upper rail form rolling pair, balladeur train upper block rolls with the upper surface of described crossbeam and coordinates, a pair balladeur train bottom roller axle is respectively provided with a balladeur train lower guideway roller and a balladeur train lower tumbler rotationally, balladeur train lower guideway roller and described lower guideway form rolling pair, balladeur train lower tumbler rolls with the lower surface of crossbeam and coordinates.

more of the present invention and in a specific embodiment, respectively offer longitudinal adjustment tank in the corresponding both sides of described balladeur train in the position corresponding to described a pair balladeur train bottom roller axle, the two ends of a pair balladeur train bottom roller axle to be placed in respectively in longitudinal adjustment tank and to be limited by bottom roller axle hold-down nut.

in an of the present invention and then specific embodiment, described Extruded roller transmission mechanism comprises Extruded roller drive motors, motor-driven is taken turns, Extruded roller driving-belt, Extruded roller drive, lower transmissioning gear and upper transfer gear, Extruded roller drive motors is fixed on the bottom of described frame, motor-driven wheel is fixed on the drive motors axle of Extruded roller drive motors, one end of Extruded roller driving-belt is nested with on motor-driven wheel, the other end is nested with on Extruded roller drive, Extruded roller drive and lower transmissioning gear are fixed on the lower Extruded roller spindle nose of described lower Extruded roller, and lower transmissioning gear is meshed with upper transfer gear, and upper transfer gear is fixed on the upper Extruded roller spindle nose of described upper Extruded roller.

rubber cement is fed the non-weaving cloth below it by under the state of feeding gluing mechanism movement on the upper and lower guide rail of crossbeam by technical scheme provided by the invention, thus ensures the even results of cloth glue; The selvedge getting non-weaving cloth is visited, to ensure that a pair gear gluing mechanism is all the time corresponding to the both sides of non-weaving cloth, avoids the both sides of the edge of non-weaving cloth to depart from hello the glue region of feeding gluing mechanism by a pair exploring side machine structure; Reliably the rubber cement being positioned at non-woven fabrics both sides is stopped by a pair gear gluing mechanism, avoid rubber cement escape and cause waste.

Accompanying drawing explanation

fig. 1 is embodiments of the invention structure chart.

fig. 2 is the side view of Fig. 1.

Detailed description of the invention

in order to enable the auditor of Patent Office especially the public clearly understand technical spirit of the present invention and beneficial effect, applicant will elaborate below by way of example, but be not all the restriction to the present invention program to the description of embodiment, any conceive according to the present invention done be only pro forma but not substantial equivalent transformation and all should be considered as technical scheme category of the present invention.

refer to Fig. 1 and Fig. 2, give a frame 1, the top of the left end under location status shown in the top, one end of this frame 1 and Fig. 1 is fixed with a first crossbeam support 11, and the top of the right-hand member of location status is fixed with a second cross beam support 12 shown in the top of the other end of frame 1 and Fig. 1, first, second overarm brace 11,12 corresponds to each other.A pair doctor roll axle bed guide rail 13 and a pair Extruded roller axle bed guide rail 14 is respectively provided with at the two ends of frame 1 and in the position faced each other, specifically can see Fig. 2.The upper surface of frame 1 is configured to show for guiding non-woven fabrics 9(Fig. 2) selvage guide platform 15, this selvage guide platform 15 also can be described as cloth supporting plate.

give a crossbeam 2, the shape of cross section of this crossbeam 2 is the I-shaped of Chinese character, and one end of this crossbeam 2 (shown in Fig. 1 left end) is fixed with aforesaid first crossbeam support 11, and the other end (shown in Fig. 1 right-hand member) is fixed with aforesaid second cross beam support 12.Be installed with a upper rail 21 on the top of the length direction of this crossbeam 2, and bottom is installed with a lower guideway 22, upper and lower guide rail 21,22 keeps upper and lower corresponding relation on crossbeam 2.Shown in figure, crossbeam 2 is made to correspond to the top of frame 1 with airborne by first, second overarm brace 11,12 aforesaid.

give one and feed gluing mechanism 3, this feeds the preferred of gluing mechanism 3 but not the structure be limited to is as follows: comprise driven transmission wheel 31, roller seat transmission belt 32, roller mount 33, driving wheel 34, driving wheel drive unit 35 and hello sebific duct 36, driven transmission wheel 31 is arranged on slave drive axle block 311 rotationally, and this slave drive axle block 311 is arranged on aforementioned crossbeam 2 one end (shown in Fig. 1 left end) towards first crossbeam support 11, driving wheel drive unit 35 is arranged on crossbeam 2 one end (shown in Fig. 1 right-hand member) towards second cross beam support 12, driving wheel 34 and driving wheel drive unit 35 are in transmission connection, one end of roller seat transmission belt 32 is nested with in driven transmission wheel 31, the other end is then nested with on driving wheel 34, roller mount 33 is connected with roller seat transmission belt 32 by traction roll sleeve 334, a pair upper roller 331 is provided with rotationally towards the top of the side of crossbeam 2 in this roller mount 33, and lower rotational be provided with a pair bottom roller 332, a pair upper roller 331 forms rolling pair with aforesaid upper rail 21, and a pair bottom roller 332 forms rolling pair with aforesaid lower guideway 22, feed the upper end of sebific duct 36 and be fixed on the side of roller mount 33 back to roller 331 and bottom roller 332, namely the side of roller mount back to crossbeam 2 is fixed on, the lower end of feeding sebific duct 36 is stretched with the direction of cantilever position towards aforesaid selvage guide platform 15.

preferably, be respectively provided with a signal picker 333 in the both sides, top of aforesaid roller mount 33, signal picker 333 is travel switch, microswitch, position proximity switch or hall sensing element, the present embodiment use location proximity switch.When roller mount 33 moves left and right left end or the right-hand member of crossbeam 2, then by signal picker 333 by gather signal transmission to electric control box, send instruction by electric control box and make driving wheel drive unit 35 reverse operation.

aforesaid driving wheel drive unit 35 comprises driving wheel drive motors 351, first, second drive 352, 354 and driving-belt 353, driving wheel drive motors 351 is for having the motor of rotating function, be fixed in motor fixing seat 3512, and motor fixing seat 3512 is fixed on one end end of aforementioned crossbeam 2 towards second cross beam support 12, first drive 352 is fixed on the driving wheel drive motors axle 3511 of driving wheel drive motors 351, second drive 354 is fixed on one end of power axle 3541, and the middle part of power axle 3541 is bearing on drive axle bed 35411 rotationally, drive axle bed 35411 is arranged on crossbeam 2, aforesaid driving wheel 34 is fixed on the other end of power axle 354, one end of driving-belt 353 is nested with on the first drive 352, the other end is nested with on the second drive 354.

when the driving wheel drive motors axle 3511 of driving wheel drive motors 351 turns clockwise, power axle 3541 is driven to turn clockwise through the first drive 352, driving-belt 353 and the second drive 354 successively.Because driving wheel 34 is coaxial with the second drive 354, namely be fixed on power axle 3541, therefore driving wheel 34 is driven by power axle 3541, roller seat transmission belt 32 is driven by driving wheel 34, drive connected roller mount 33 to follow upper and lower guide rail 21,22 by roller seat transmission belt 32 to move to right-hand member from the left end of crossbeam 2, otherwise with example.While roller mount 33 movement, by the sebific duct 36 of feeding be connected with Jiao Yuanguanlu, rubber cement is fed to aforesaid non-woven fabrics 9.

in the present embodiment, aforesaid driven transmission wheel 31 and driving wheel 34 are sprocket wheel, and correspondingly, aforesaid roller seat transmission belt 32 is chain.But, if use driven transmission wheel 31 and driving wheel 34 instead belt pulley, correspondingly, use roller seat transmission belt 32 instead belt, so should be considered as equivalence and substitute and still belong to technology contents category disclosed by the invention.Same reason, first, second drive 352,354 aforesaid uses synchronous pulley in the present embodiment, correspondingly, driving-belt 353 uses Timing Belt, if therefore use first, second drive 352,354 instead belt pulley or sprocket wheel, correspondingly use driving-belt 353 instead belt or chain, equivalence should be considered as so equally and substitute.

please continue to refer to Fig. 1 and Fig. 2, give the gear gluing mechanism 4 that a pair structure is identical, each gear gluing mechanism 4 comprises motor 41, reduction box 42, balladeur train 43, adjustment vertical rod 44, adjustment crossbar mount 45, adjustment cross bar 46, rubber block 47, driving gear 48 and tooth bar band 49, motor 41 is for having the motor of rotating function, coordinate with reduction box 42 transmission, and be fixed on the side of balladeur train 43 towards the exploring side machine structure 5 that also will describe by reduction box 42 below together with motor 41, balladeur train 43 is made up of the plate body that a pair corresponds to each other, be fixed with a pair balladeur train upper roller shaft 431 on the top of balladeur train 43 parallelly, and bottom is fixed with a pair parallel balladeur train bottom roller axle 432, a pair balladeur train upper roller shaft 431 is respectively provided with balladeur train upper rail roller 4311 and a balladeur train upper block 4312 rotationally, balladeur train upper rail roller 4311 and aforesaid upper rail 21 form rolling pair, balladeur train upper block 4312 rolls with the upper surface of crossbeam 2 and coordinates.A pair balladeur train bottom roller axle 432 is respectively provided with balladeur train lower guideway roller 4321 and a balladeur train lower tumbler 4322 rotationally, balladeur train lower guideway roller 4321 and aforesaid lower guideway 22 form rolling pair, and balladeur train lower tumbler 4322 rolls with the lower surface of crossbeam 2 and coordinates.The upper end of adjustment vertical rod 44 is fixed on the side of balladeur train 43 towards exploring side machine structure 5, and the lower end adjusting vertical rod 44 is stretched towards the direction of aforesaid selvage guide platform 15.Adjustment crossbar mount 45 is arranged on the described lower end of adjustment vertical rod 44 up or down by controlling screw 451.Adjustment cross bar 46 by dog screw 461 with level and be fixed on movably adjustment crossbar mount 45 on.Rubber block 47 is installed with a fixed connecting base 471 towards the side of adjustment cross bar 46, and this fixed connecting base 471 is fixed with aforesaid adjustment cross bar 46.Driving gear 48 is fixed on the reduction gearbox output shaft 421 of reduction box 42, and engage with tooth bar band 49, left end shown in one end of tooth bar band 49 and Fig. 1 is fixed towards one end of first crossbeam support 11 with crossbeam 2 by the first tooth bar band holder 491, and the other end is fixed towards one end of second cross beam support 12 with crossbeam 2 by the second tooth bar band holder 492.As shown in Figure 1, aforesaid lower end of feeding sebific duct 36 corresponds between a pair rubber block 47.

preferably, the bottom of aforesaid balladeur train 43 corresponding both sides and respectively offer a longitudinal adjustment tank 433 corresponding to the position of aforesaid a pair balladeur train bottom roller axle 431, the two ends of a pair balladeur train bottom roller axle 432 to probe into respectively in (inserting) longitudinal adjustment tank 433 and limit with bottom roller axle hold-down nut 4323.

preferably, the balladeur train 43 of aforesaid a pair gear gluing mechanism 4 respectively fixes a track supporting wheel shaft 434, track supporting wheel shaft 434 arranges a carrier wheel 4341 rotationally, and this carrier wheel 4341 corresponds to the below of driving gear 48, and with the side contacts of tooth bar band 49 back to driving gear 48.

to be illustrated in a gear gluing mechanism 4 on the left side in a pair gear gluing mechanism 4 in Fig. 1, when motor 41 works, slow down through reduction box 42, and when reduction gearbox output shaft 421 drives driving gear 48 to turn clockwise, driving gear 48 is in the length direction displacement from left to right of tooth bar band 49, drive balladeur train 43 to move from left to right, vice versa.Spacing between the rubber block 47 of aforesaid a pair gear gluing mechanism 4 adapts with the width of non-woven fabrics 9 as shown in Figure 2 (the industry custom claims door width or breadth width).More particularly, because rubber block 47 has two pieces, therefore wherein one piece correspond to the side of length direction of non-woven fabrics 9, and another piece corresponds to the opposite side of the length direction of non-woven fabrics 9, and the lower edge of each rubber block 47 is corresponding with the edge of the length direction of non-woven fabrics 9.

the a pair exploring side machine structure 5 provided respectively comprises visits frame side 51, screw rod 52, screw rod slide block 53, slide block guide rail 54 and handwheel 55, visit frame side 51 to be fixed by fixed mount screw 511 and aforesaid balladeur train 43, screw rod 52 corresponds to the top of slide block guide rail 54 with level, and one end of this screw rod 52 is bearing on screw bolt seat 521 rotationally, screw bolt seat 521 is fixed on to be visited in frame side 51, the other end of screw rod 52 stretches towards the direction of slide block guide rail 54, screw rod slide block 53 matches with screw rod 52 and is slidably matched with slide block guide rail 54, handwheel 55 is fixed on one end end of screw rod 52 towards screw bolt seat 521.The bottom of aforementioned screw rod slide block 53 is provided with selvedge signal picker 531.

by operator's operating clockwise or counterclockwise handwheel 55, drive the corresponding rotation of screw rod 52, because screw rod slide block 53 coordinates with screw rod 52 transmission, therefore screw rod 52 clockwise or be rotated counterclockwise lower drive screw rod slide block 53 and follow slide block guide rail 54 and move left and right, thus driven the position of the selvedge signal picker 531 be fixed on bottom it to change by screw rod slide block 53.In the course of the work, namely non-woven fabrics is being fed in the process of glue (also can claim glue spraying or applying glue), if there is sideslip situation in non-woven fabrics 9, so by selvedge signal picker 531 by visit and selvedge signal feedback to electric control box, send instruction by electric control box and the motor 41 of aforesaid gear gluing mechanism 4 worked.Such as the selvedge of non-woven fabrics 9 to the left sideslip time, so aforesaid driving gear 48 follows tooth bar band 49 to left dislocation, and namely driving gear 48 is rotated counterclockwise, drive balladeur train 43 to left dislocation, finally make the corresponding displacement of rubber block 47, vice versa.Selvedge signal picker 531 described in the present embodiment is infrared signal acquisition elements, is electrically connected with electric control box by circuit.

continue to see Fig. 1 and Fig. 2, give a frictioning mechanism 6, this frictioning mechanism 6 preferably but not the structure be definitely limited to is as follows: comprise scraper 61, doctor roll 62 and a pair doctor roll corrective action cylinder 63, one of them doctor roll corrective action cylinder 63 in a pair doctor roll acting cylinder 63 is arranged on one end (diagram left end) of frame 1, and another doctor roll corrective action cylinder 63 in a pair doctor roll corrective action cylinder 63 is arranged on the other end (the diagram right-hand member of frame 1, but it is not shown in the drawings), the doctor roll corrective action cylinder post 631 of a pair doctor roll corrective action cylinder 63 towards under, and be fixed with a doctor roll axle bed 6311 at the end of doctor roll corrective action cylinder post 631, doctor roll axle bed 6311 and aforesaid doctor roll axle bed guide rail 13 are slidably matched, scraper 61 is directly formed in doctor roll 62 length direction with heeling condition towards under side, the doctor roll roll shaft spindle nose 621 at the two ends of doctor roll 62 is bearing on doctor roll axle bed 6311 rotationally.

above mentioned doctor roll corrective action cylinder 63 uses oil cylinder in the present embodiment, but does not repel use cylinder, no matter that is adopt oil cylinder or cylinder to fill the post of doctor roll corrective action cylinder 63, all should be considered as technology contents category disclosed by the invention.

during when the thickness of non-woven fabrics 9 and/or spray and to the varied in thickness of the rubber cement on non-woven fabrics 9, so by adapting to the adjustment of spreading roller corrective action cylinder 63.Such as doctor roll corrective action cylinder post 631 is to top offset, namely towards the cylinder body intrinsic displacement of doctor roll corrective action cylinder 63, doctor roll axle bed 6311 to top offset, drives on doctor roll 62 and moves on doctor roll axle bed guide rail 13, gap between scraper 61 and non-woven fabrics 9 is increased, otherwise with example.

please still see Fig. 1 and Fig. 2, give a glue-squeezing mechanism 7, aforesaid frictioning mechanism 6 corresponds between gear gluing mechanism 4 and this glue-squeezing mechanism 7.Preferably but not the structure of the glue-squeezing mechanism 7 be definitely limited to is as follows: comprise, lower Extruded roller 71, 72 and a pair Extruded roller corrective action cylinder 73, one of them Extruded roller corrective action cylinder 73 in a pair Extruded roller corrective action cylinder 73 is arranged on one end (diagram left end) of frame 1, and another Extruded roller corrective action cylinder 73 in a pair Extruded roller corrective action cylinder 73 is arranged on the other end (the diagram right-hand member of frame 1, but it is not shown), the Extruded roller corrective action cylinder post 731 of a pair Extruded roller acting cylinder 73 towards under, and be fixed with an Extruded roller axle bed 7311 at the end of Extruded roller corrective action cylinder post 731, Extruded roller axle bed 7311 and aforesaid Extruded roller axle bed guide rail 14 are slidably matched.The upper Extruded roller spindle nose 711 at the two ends of upper Extruded roller 71 is bearing on Extruded roller axle bed 7311 rotationally.The two ends of lower Extruded roller 72 are respectively extended with lower Extruded roller spindle nose 721, and lower Extruded roller spindle nose 721 is arranged in frame 1 rotationally, and match with upper Extruded roller 71 in the position of lower Extruded roller 72 below of the length direction of Extruded roller 71 on corresponding to.The non-woven fabrics of the non-woven fabrics 9(of the scraper 61 on the doctor roll 62 of Hang Chu frictioning mechanism 6 gluing) between upper and lower Extruded roller 71,72 through entering follow-up compound working procedure compound or directly entering drying mechanism drying, namely the former form compound nonwoven cloth after compound, and the latter obtains artificial leather after directly entering drying.

above mentioned a pair Extruded roller corrective action cylinder 73 is selected with oil cylinder in the present embodiment, specifically as the description to doctor roll corrective action cylinder 63.Again, above mentioned upper and lower Extruded roller 71,72 and be arranged on the bottom of frame 1 or claim the Extruded roller transmission mechanism 8 of bottom to be in transmission connection.And the up-down adjustment of upper Extruded roller 71 is as the description to doctor roll 62.

preferably but not the Extruded roller transmission mechanism 8 be definitely limited to comprises Extruded roller drive motors 81, motor-driven wheel 82, Extruded roller driving-belt 83, Extruded roller retainer 84, lower transmissioning gear 85 and upper transfer gear 86, Extruded roller drive motors 81 is fixed on the bottom of frame 1, motor-driven wheel 82 preferably adopts flat key to be fixed on the drive motors axle 811 of Extruded roller drive motors 81, one end of Extruded roller driving-belt 83 is nested with on motor-driven wheel 82, and the other end is nested with on Extruded roller drive 84, this Extruded roller drive 84 and lower transmissioning gear 85 are fixed on the lower Extruded roller spindle nose 721 of lower Extruded roller 72 jointly, and lower transmissioning gear 85 is meshed with upper transfer gear 86, and upper transfer gear 86 is fixed on the upper Extruded roller spindle nose 711 of aforesaid upper Extruded roller 71.Certainly, lower transmissioning gear 85 also can directly be formed in the version of gear ring on lower Extruded roller 72, and equally, upper transfer gear 86 can directly be formed in the version of gear ring on upper Extruded roller 71.

when Extruded roller drive motors 81 works, by its drive motors axle 811 drive motor drive 82, Extruded roller drive 84 is driven through Extruded roller driving-belt 83, thus lower Extruded roller 72 is rotated, and then drive upper transfer gear 86 by travelling gear 85, Extruded roller 71 is rotated, and upper and lower Extruded roller 71,72 direction of rotation is contrary.

when aforesaid motor-driven wheel 82 and Extruded roller drive 84 are belt pulley, aforesaid Extruded roller driving-belt 83 is driving belt; When motor-driven wheel 82 and Extruded roller drive 84 are sprocket wheel, Extruded roller driving-belt 83 is chain.

shown in Fig. 1 and Fig. 2, shown in the fabric input mouth side of frame 1 and Fig. 2, the right side of location status is provided with a fabric guide roll 16, cloth rewinder roll 17 and one group of transition roller 18 rotationally, open the below that cloth rewinder roll 17 corresponds to fabric guide roll 16 substantially, this cloth rewinder roll 17 is configured with the middle position of the length direction of cloth rewinder roll 17 for boundary and the contrary screw thread 171 of the hand of spiral, by this screw thread 171, the both sides selvedge of non-woven fabrics 9 is outwards supportted, avoid moving about to center position.

applicant sketches use of the present invention, and one group of transition roller 18, a cloth rewinder roll 17 and fabric guide roll 16 that the non-woven fabrics 9 awaiting gluing is illustrated via Fig. 2 successively enter selvage guide platform 15, until go between upper and lower Extruded roller 71,72.In this process, made to be fixed with the roller mount about 33 of feeding sebific duct 36 to move back and forth by the work (forward and reverse rotation) of the driving wheel drive motors 351 of the driving wheel drive unit 35 of hello gluing mechanism 3, by the gum outlet 361 of feeding sebific duct 36, rubber cement is fed and non-woven fabrics 9 in traveling process, when being loaded with the non-woven fabrics 9 of rubber cement when scraper 61 place of frictioning mechanism 6, by scraper 61 drawout, and then, carry glue non-woven fabrics 9 by way of on, lower Extruded roller 71, time between 72, by upper, lower Extruded roller 71, the synergy of 72 and make rubber cement penetrate into the inside of non-woven fabrics 9, the both sides of non-woven fabrics 9 are made all to be loaded with rubber cement.The non-woven fabrics 9 come between upper and lower Extruded roller 71,72 enters later process composite lining cloth as the aforementioned and forms Compound Fabric or form artificial leather for drying mechanism drying.

in non-woven fabrics 9 traveling process, once there is deviation phenomenon, so visited by a pair exploring side machine structure 5 and, and namely signal speed is fed back to electric control box, instruction is sent by the motor 41 of electric control box to gear gluing mechanism 4, to make the position of rubber block 47 change, thus make non-woven fabrics 9 all the time by control in a pair gear gluing mechanism 4 rubber block 47 between.

in sum, technical scheme provided by the invention compensate for the technical problem in prior art, completes invention task, embodies the technique effect described in the superincumbent technique effect hurdle of applicant.

Claims (8)

1. a kind of non-woven fabrics sizing applicator, it is characterized in that comprising a frame (1), a first crossbeam support (11) is fixed with on the top, one end of this frame (1), and the top of the other end of frame (1) is fixed with a second cross beam support (12), first, second overarm brace (11,12) corresponds to each other, one crossbeam (2), one end of this crossbeam (2) is fixed on described first crossbeam support (11), and the other end is fixed on described second cross beam support (12), this crossbeam (2) length direction and be fixed with a upper rail (21) towards upper side, and crossbeam (2) length direction and towards under side be fixed with a lower guideway (22), one feeds gluing mechanism (3), should feed gluing mechanism (3) and be arranged on described crossbeam (2), and moves with described upper rail (21) and lower guideway (22) simultaneously and coordinate, a pair gear gluing mechanism (4) corresponded to each other, this a pair gear gluing mechanism (4) coordinates with described upper rail (21) and lower guideway (22) movement simultaneously, and the length direction being positioned at crossbeam (2) is towards front side, a pair exploring side machine structure (5), one of them exploring side machine structure (5) in this pair exploring side machine structure (5) is arranged on one of them gear gluing mechanism (4) in a pair described gear gluing mechanism (4), and another exploring side machine structure (5) in a pair exploring side machine structure (5) is arranged on another gear gluing mechanism (4) in a pair gear gluing mechanism (4), one for the frictioning mechanism (6) by rubber cement drawout, this frictioning mechanism (6) be arranged on the upper and length direction corresponding to described crossbeam (2) of described frame (1) towards after side, one glue-squeezing mechanism (7), this glue-squeezing mechanism (7) is arranged in frame (1), and the same length direction corresponding to described crossbeam (2) towards after side, wherein: described frictioning mechanism (6) is corresponding between described gear gluing mechanism (4) and described glue-squeezing mechanism (7), described gluing mechanism (3) of feeding comprises driven transmission wheel (31), roller seat transmission belt (32), roller mount (33), driving wheel (34), driving wheel drive unit (35) and hello sebific duct (36), driven transmission wheel (31) is arranged on described crossbeam (2) one end towards described first crossbeam support (11) rotationally, driving wheel drive unit (35) is arranged on crossbeam (2) one end towards described second cross beam support (12), driving wheel (34) and driving wheel drive unit (35) are in transmission connection, one end of roller seat transmission belt (32) is nested with in driven transmission wheel (31), the other end is nested with on driving wheel (34), roller mount (33) is fixedly connected with roller seat transmission belt (32), a pair upper roller (331) is provided with rotationally towards the top of the side of crossbeam (2) in this roller mount (33), be provided with a pair bottom roller (332) lower rotational, a pair upper roller (331) forms rolling pair with described upper rail (21), and a pair bottom roller (332) forms rolling pair with described lower guideway (22), feed sebific duct (36) and be fixed on the side of roller mount (33) back to crossbeam (2) with cantilever position, described driving wheel drive unit (35) comprises driving wheel drive motors (351), first, second drive (352, 354) and driving-belt (353), driving wheel drive motors (351) is for having the motor of rotating function, be fixed in motor fixing seat (3512), and motor fixing seat (3512) is fixed on one end end of described crossbeam (2) towards second cross beam support (12), first drive (352) is fixed on the driving wheel drive motors axle (3511) of driving wheel drive motors (351), second drive (354) is fixed on one end of power axle (3541), and the middle part of power axle (3541) is bearing on drive axle bed (35411) rotationally, drive axle bed (35411) is arranged on crossbeam (2), described driving wheel (34) is fixed on the other end of power axle (354), one end of driving-belt (353) is nested with on the first drive (352), the other end is nested with on the second drive (354).

2. non-woven fabrics sizing applicator according to claim 1, it is characterized in that a pair described gear gluing mechanism (4) respectively comprises motor (41), reduction box (42), balladeur train (43), adjustment vertical rod (44), adjustment crossbar mount (45), adjustment cross bar (46), rubber block (47), driving gear (48) and tooth bar band (49), motor (41) coordinates with reduction box (42) transmission, and be fixed on the side of balladeur train (43) towards described exploring side machine structure (5) by reduction box (42) together with motor (41), balladeur train (43) and described upper rail (21) are slidably matched, and be slidably matched with described lower guideway (22) simultaneously, adjustment vertical rod (44) is fixed on the side of balladeur train (43) towards exploring side machine structure (5), adjustment crossbar mount (45) is arranged in adjustment vertical rod (44) up or down, adjustment cross bar (46) movably and be the level of state and be fixed in adjustment crossbar mount (45), rubber block (47) is fixed in adjustment cross bar (46), driving gear (48) is fixed on the reduction gearbox output shaft (421) of reduction box (42), and be meshed with tooth bar band (49), one end of tooth bar band (49) and described crossbeam (2) are fixed towards one end of described first crossbeam support (11), and the other end and crossbeam (2) are fixed towards one end of described second cross beam support (12).

3. non-woven fabrics sizing applicator according to claim 2, it is characterized in that a pair described exploring side machine structure (5) respectively comprises and visit frame side (51), screw rod (52), screw rod slide block (53), slide block guide rail (54) and handwheel (55), visit frame side (51) to fix with described balladeur train (43), slide block guide rail (54) is fixed with level and spy frame side (51), screw rod (52) corresponds to the top of slide block guide rail (54) with level, one end of this screw rod (52) is bearing on screw bolt seat (521) rotationally, screw bolt seat (521) is fixed on to be visited in frame side (51), the other end of screw rod (52) stretches towards the direction of slide block guide rail (54), screw rod slide block (53) matches with screw rod (52) and is slidably matched with slide block guide rail (54), handwheel (55) is fixed on screw rod (52) one end towards described screw bolt seat (521), wherein: the bottom of described screw rod slide block (53) is provided with selvedge signal picker (531).

4. non-woven fabrics sizing applicator according to claim 1, it is characterized in that described frictioning mechanism (6) comprises scraper (61), doctor roll (62) and a pair doctor roll corrective action cylinder (63) corresponded to each other, one of them doctor roll corrective action cylinder (63) in a pair doctor roll corrective action cylinder (63) is arranged on one end of described frame (1), and another doctor roll corrective action cylinder (63) in a pair doctor roll corrective action cylinder (63) is arranged on the other end of frame (1), doctor roll corrective action cylinder post (631) of each doctor roll corrective action cylinder (63) towards under, and be fixed with a doctor roll axle bed (6311) at the end of doctor roll corrective action cylinder post (631), doctor roll axle bed (6311) and the doctor roll axle bed guide rail (13) be fixed in frame (1) are slidably matched, scraper (61) is formed in doctor roll (62) length direction with heeling condition towards under side, the doctor roll roll shaft spindle nose (621) of doctor roll (62) is bearing on described doctor roll axle bed (6311) rotationally.

5. non-woven fabrics sizing applicator according to claim 1, it is characterized in that described glue-squeezing mechanism (7) comprises, lower Extruded roller (71,72) and a pair Extruded roller corrective action cylinder (73) corresponded to each other, one of them Extruded roller corrective action cylinder (73) in a pair Extruded roller corrective action cylinder (73) is arranged on described one end of described frame (1), and another Extruded roller corrective action cylinder (73) in a pair Extruded roller corrective action cylinder (73) is arranged on the described other end of frame (1), Extruded roller corrective action cylinder post (731) of each Extruded roller corrective action cylinder (73) towards under, and be fixed with an Extruded roller axle bed (7311) at the end of Extruded roller corrective action cylinder post (731), Extruded roller axle bed (7311) and the Extruded roller axle bed guide rail (14) be fixed in frame (1) are slidably matched, the upper Extruded roller spindle nose (711) at the two ends of upper Extruded roller (71) is bearing on described Extruded roller axle bed (7311) rotationally, the two ends of lower Extruded roller (72) are arranged in frame (1) by Extruded roller spindle nose (721) under it rotationally, and match with upper Extruded roller (71) in the below of Extruded roller (71) on corresponding to, wherein: upper Extruded roller (71) and lower Extruded roller (72) are in transmission connection with the Extruded roller transmission mechanism (8) of the bottom being arranged on frame (1).

6. non-woven fabrics sizing applicator according to claim 2, it is characterized in that being installed with a pair parallel balladeur train upper roller shaft (431) on the top of described balladeur train (43), and bottom is installed with a pair parallel balladeur train bottom roller axle (432), above respectively a balladeur train upper rail roller (4311) and a balladeur train upper block (4312) is provided with rotationally a pair balladeur train upper roller shaft (431), balladeur train upper rail roller (4311) and described upper rail (21) form rolling pair, balladeur train upper block (4312) rolls with the upper surface of described crossbeam (2) and coordinates, above respectively a balladeur train lower guideway roller (4321) and a balladeur train lower tumbler (4322) is provided with rotationally a pair balladeur train bottom roller axle (432), balladeur train lower guideway roller (4321) and described lower guideway (22) form rolling pair, balladeur train lower tumbler (4322) rolls with the lower surface of crossbeam (2) and coordinates.

7. non-woven fabrics sizing applicator according to claim 6, it is characterized in that in the corresponding both sides of described balladeur train (43) and respectively offer longitudinal adjustment tank (433) in the position corresponding to described a pair balladeur train bottom roller axle (432), the two ends of a pair balladeur train bottom roller axle (432) to be placed in respectively in longitudinal adjustment tank (433) and to be limited by bottom roller axle hold-down nut (4323).

8. non-woven fabrics sizing applicator according to claim 5, it is characterized in that described Extruded roller transmission mechanism (8) comprises Extruded roller drive motors (81), motor-driven wheel (82), Extruded roller driving-belt (83), Extruded roller drive (84), lower transmissioning gear (85) and upper transfer gear (86), Extruded roller drive motors (81) is fixed on the bottom of described frame (1), motor-driven wheel (82) is fixed on the drive motors axle (811) of Extruded roller drive motors (81), one end of Extruded roller driving-belt (83) is nested with on motor-driven wheel (82), the other end is nested with on Extruded roller drive (84), Extruded roller drive (84) and lower transmissioning gear (85) are fixed on the lower Extruded roller spindle nose (721) of described lower Extruded roller (72), and lower transmissioning gear (85) is meshed with upper transfer gear (86), and upper transfer gear (86) is fixed on the upper Extruded roller spindle nose (711) of described upper Extruded roller (71).