CN108340630B - Automatic laminating device of double-deck cardboard - Google Patents

Automatic laminating device of double-deck cardboard Download PDF

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Publication number
CN108340630B
CN108340630B CN201810256336.2A CN201810256336A CN108340630B CN 108340630 B CN108340630 B CN 108340630B CN 201810256336 A CN201810256336 A CN 201810256336A CN 108340630 B CN108340630 B CN 108340630B
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paper feeding
bottom plate
arm
roller
facial tissue
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CN108340630A (en
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高文举
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Shenzhen Hengli Junxing Intelligent Equipment Co.,Ltd.
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Shenzhen Junxing Jingji Carton Machinery Co ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B31MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31FMECHANICAL WORKING OR DEFORMATION OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31F1/00Mechanical deformation without removing material, e.g. in combination with laminating
    • B31F1/20Corrugating; Corrugating combined with laminating to other layers

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  • Mechanical Engineering (AREA)
  • Sanitary Thin Papers (AREA)
  • Sheets, Magazines, And Separation Thereof (AREA)

Abstract

The invention provides a high-efficiency high-reliability automatic double-layer paperboard laminating device which comprises a differential deviation rectifying and conveying device, a bottom plate positioning and conveying device, a facial tissue gluing and conveying device and a full-automatic lifting and containing device, wherein the bottom plate positioning and conveying device is arranged on the bottom plate positioning and conveying device; differential conveyer of rectifying, the facial tissue crosses to glue conveyer and is in between bottom plate location conveyer and the full-automatic storage device that goes up, and this bottom plate location conveyer's bottom plate advances the big arm and is in differential conveyer of rectifying, the facial tissue crosses to glue conveyer upper portion, the actual motion in-process, utilize the facial tissue to cross to glue conveyer and carry out the gluey conveying of crossing of facial tissue, utilize bottom plate location conveyer to convey the bottom plate, it is fixed with the bottom plate to carry out the pressfitting at differential conveyer upper portion facial tissue that rectifies, finally reach full-automatic storage device that goes up position, collect finished product cardboard, this application structural design is reasonable, the operating stability is high.

Description

Automatic laminating device of double-deck cardboard
[ technical field ]
The invention relates to the technical field of automatic paperboard laminating devices, in particular to a high-efficiency high-reliability automatic double-layer paperboard laminating device which is high in automation degree, reasonable in structural design, high in efficiency and simple to operate.
[ background art ]
The laminating device is the comparatively common equipment in present cardboard processing field, especially at the laminating in-process of corrugated paper and colored facial tissue, adopts automatic laminating equipment to carry out the laminating of gluing of crossing between the cardboard, promotion production machining efficiency that can show, and the accuracy is high moreover, avoids appearing more reworking phenomenon.
However, the existing automatic laminating equipment still has more defects, such as the phenomenon of deviation easily occurs in the conveying process of the paper boards, and the accurate lamination between two paper boards is influenced; the integrity of gluing on the paperboard is not high, and the gluing is not uniform, so that the gluing firmness is influenced; the equipment for conveying materials and storing the materials is not complete enough, additional manual operation is needed, the automatic processing concept is not met, and the like, so that the equipment is restricted to be popularized and used better and more widely.
Based on the above problems, those skilled in the art have made a lot of research and development and experiments, especially in terms of the structural composition and operation principle of the automatic bonding apparatus, and have achieved better results.
[ summary of the invention ]
In order to overcome the problems in the prior art, the invention provides the automatic double-layer paperboard laminating device which is high in automation degree, reasonable in structural design, high in efficiency, simple and easy to operate, high in efficiency and high in reliability.
The invention provides a high-efficiency high-reliability automatic double-layer paperboard laminating device, which comprises a main support frame, a differential deviation rectifying and conveying device, a bottom plate positioning and conveying device, a facial tissue gluing and conveying device and a full-automatic lifting and receiving device, wherein the differential deviation rectifying and conveying device, the bottom plate positioning and conveying device, the facial tissue gluing and conveying device and the full-automatic lifting and receiving device are arranged on the main support frame; the differential deviation rectifying and conveying device and the facial tissue gluing and conveying device are positioned between the bottom plate positioning and conveying device and the full-automatic lifting and containing device, and a bottom plate paper feeding large arm of the bottom plate positioning and conveying device is positioned at the upper parts of the differential deviation rectifying and conveying device and the facial tissue gluing and conveying device; the differential deviation rectifying and conveying device comprises a color paper feeding big arm for bearing and conveying a paper plate and a paper feeding belt arranged outside the color paper feeding big arm in a surrounding mode; a driving paper feeding chain wheel, a driving paper feeding belt wheel, a driven paper feeding chain wheel and a driven paper feeding belt wheel are respectively arranged at two ends of the color paper feeding big arm; a color paper feeding chain is sleeved on the driving paper feeding chain wheel and the driven paper feeding chain wheel, and a plurality of deviation rectifying stop gauges for rectifying deviation of the paper board are arranged on the color paper feeding chain at intervals; the bottom plate positioning and conveying device comprises a bottom plate paper feeding large arm, a bottom plate moving platform and a telescopic support frame positioned between the bottom plate paper feeding large arm and the bottom plate moving platform; the bottom plate moving platform comprises a lifting mechanism and a first lifting platform arm body used for supporting the stacked bottom plates; the lifting mechanism drives the first lifting platform arm body to move up and down; the facial tissue gluing and conveying device comprises a facial tissue lifting mechanism component and a feeder paper feeding mechanism component arranged on one side of the facial tissue lifting mechanism component; a stainless steel gluing roller combination, a stainless steel gluing bottom roller and a cleaning rubber roller are arranged on the other side of the feeder component relative to the facial tissue lifting mechanism component; the lower part of the cleaning rubber roller is also provided with a basin for cleaning the cleaning rubber roller in real time; the facial tissue lifting mechanism component comprises a facial tissue left and right positioning baffle and a second lifting platform arm body for supporting stacked facial tissues; the full-automatic lifting and containing device comprises a paperboard collecting and lifting mechanism assembly and a paperboard blocking mechanism assembly arranged on the upper portion of the paperboard collecting and lifting mechanism assembly and used for limiting the paperboard to be conveyed into the paperboard collecting and lifting mechanism assembly.
Preferably, the paper feeding belt is sleeved on the driving paper feeding belt pulley and the driven paper feeding belt pulley; the tension device is arranged at the positions of the driven paper feeding chain wheel and the driven paper feeding belt wheel; a plurality of adsorption fans which are arranged at intervals are arranged in the large color paper feeding arm, and a plurality of adsorption holes are formed in the front of the large color paper feeding arm; the paper feeding device also comprises a transverse moving ball screw and a transverse moving linear guide rail which are symmetrically arranged at the upper part and the lower part of the large color paper feeding arm; the deviation-rectifying stop gauge comprises a plurality of left deviation-rectifying stop gauges and a plurality of right deviation-rectifying stop gauges; and each left deviation-correcting stop gauge and each right deviation-correcting stop gauge are sequentially arranged on the color paper feeding chain in parallel in an aligned manner; the upper end part and the lower end part of the large color paper feeding arm are respectively provided with a combined roller for conveying and limiting a paper board; the matrix type on the paper feeding belt is provided with a plurality of vent holes.
Preferably, a bottom plate paper feeding combination roller for limiting the transmission of the bottom plate is further arranged in the middle of the bottom plate paper feeding large arm and the telescopic support frame; two groups of bottom plate paper feeding chains for supporting the bottom plate are sleeved outside the bottom plate paper feeding big arm; a plurality of bottom plate paper feeding hooks for conveying and limiting the bottom plates from the telescopic support frame and the bottom plate moving platform are arranged on each bottom plate paper feeding chain; the paper feeding hook of the bottom plate is L-shaped; the end part of one end of the large paper feeding arm of the bottom plate is provided with a transmission shaft matched with the two groups of paper feeding chains of the bottom plate, and the other end of the large paper feeding arm of the bottom plate is respectively provided with a first hexagonal transmission shaft and a second hexagonal transmission shaft which are in one-to-one correspondence with the two groups of paper feeding chains of the bottom plate; the paper feeding chain of the bottom plate is respectively sleeved on the corresponding first hexagonal transmission shaft and the second hexagonal transmission shaft; the upper part of the other end of the large paper feeding arm of the bottom plate, which is opposite to the telescopic support frame, is provided with an anti-warping pressing plate for extruding the bottom plate; the middle part of the large paper feeding arm of the bottom plate is also provided with a large paper feeding arm transverse moving motor and a large paper feeding arm transverse moving screw rod for driving the large paper feeding arm of the bottom plate to transversely move.
Preferably, a bottom plate paper feeding belt assembly for carrying and conveying the bottom plate is arranged at the upper part of the telescopic support frame, close to the bottom plate paper feeding combination roller; an air suction disc is arranged at the lower part of the bottom plate paper feeding belt component; the lower part of the large paper feeding arm of the bottom plate, the position close to the transverse moving motor of the large paper feeding arm and the transverse moving screw rod of the large paper feeding arm are provided with tensioning assemblies; the bottom plate paper feeding combination roller comprises an upper bottom plate paper feeding combination roller and a lower bottom plate paper feeding combination roller arranged at the lower part of the upper bottom plate paper feeding combination roller; the middle parts of the upper base plate paper feeding combined roller and the lower base plate paper feeding combined roller are flush with the upper surface of the base plate paper feeding belt component.
Preferably, the upper part of the facial tissue left and right positioning baffle is provided with a first lifting chain for driving the second lifting platform arm body to move up and down relative to the facial tissue left and right positioning baffle; a paper feeding pressing wheel and a paper feeding pressing roller for bearing the facial tissue are arranged at the lower part of the flight paper feeding mechanism component and close to the outer side of the upper end part of the facial tissue lifting mechanism component; the facial tissue of the facial tissue lifting mechanism component reaches the gap between the paper feeding pinch roller and the paper feeding pinch roller under the transmission of the flying paper feeding mechanism component; the paper feeding device also comprises a paper feeding pressing plate and a paper feeding planker which are arranged in the middle of the combination of the paper feeding pressing wheel and the stainless steel gluing roller and used for limiting and conveying the facial tissue; the facial tissue is transferred from the middle parts of the paper feeding pressing plate and the paper feeding planker; the stainless steel gluing roller combination comprises a first stainless steel gluing roller and a second stainless steel gluing roller, and a paper shoveling knife is fixedly arranged on the outer side of the second stainless steel gluing roller; the first pressure adjusting cam is used for adjusting the extrusion degree between the first stainless steel gluing roller and the second stainless steel gluing roller; the feeder component comprises a feeder servo motor for providing transmission power, a first connecting rod movably connected with the feeder servo motor, a swing arm connected with the other end of the first connecting rod opposite to the feeder servo motor, and a second connecting rod movably connected with one end of the swing arm; and a suction head for sucking and fixing the facial tissue is arranged at the end part of the other end of the second connecting rod, which is opposite to the swing arm.
Preferably, a lead screw adjusting motor for adjusting the distance between the flight motors is arranged on the outer side of the left and right positioning baffles of the facial tissue; the middle parts of the second stainless steel gluing roller and the stainless steel gluing bottom roller and the middle parts of the paper feeding pressing plate and the paper feeding planker are flush with each other; the bottom of the basin is provided with a water outlet, and a temperature regulator is arranged in the basin.
Preferably, the paperboard collecting and lifting mechanism assembly comprises a lifting support frame and a third lifting platform arm body for supporting the paperboard; the second lifting chain wheel is arranged at the upper part of the lifting support frame and is used for driving the third lifting platform arm body to move up and down relative to the lifting support frame; the paper blocking plate mechanism assembly comprises a telescopic supporting arm and a paper blocking plate connected with one end of the telescopic supporting arm; the first non-stop supporting plate is arranged on the paper blocking plate, and the first non-stop supporting plate cylinder is used for driving the first non-stop supporting plate to rotate; a second non-stop supporting plate and a second non-stop supporting plate cylinder for driving the second non-stop supporting plate to rotate are arranged at the upper part of the lifting support frame and the position with the same height as the first non-stop supporting plate; the first non-stop supporting plate is movably connected with the paper blocking plate; the second non-stop supporting plate is movably connected with the upper part of the lifting support frame; the upper part and the lower part of the lifting support frame are respectively provided with an infrared sensor for intelligently sensing the operating height condition of the arm body of the third lifting platform; the laminating combination roller and the laminating combination roller are fixedly arranged on the upper part of the lifting support frame; the pressing combination roller is positioned on the left side of the laminating combination roller; and the pressing combination roller comprises an upper pressing combination roller and a lower pressing combination roller arranged at the lower part of the upper pressing combination roller.
Preferably, the upper part of the lifting support frame is also provided with a left side gauge plate and a right side gauge plate which are used for limiting the received paper plates left and right; the upper part of the telescopic supporting arm is provided with a synchronous chain, a synchronous chain wheel shaft and a pulley assembly for supporting the telescopic supporting arm, wherein the synchronous chain and the synchronous chain wheel shaft are used for adjusting the left-right movement distance of the telescopic supporting arm.
Compared with the prior art, the high-efficiency high-reliability automatic double-layer paperboard laminating device has the advantages that the main support frame 15, the differential deviation correcting and conveying device 13, the bottom plate positioning and conveying device 12, the facial tissue gluing and conveying device 14 and the full-automatic lifting and receiving device 11 are arranged on the main support frame 15, the differential deviation correcting and conveying device 13 and the facial tissue gluing and conveying device 14 are arranged between the bottom plate positioning and conveying device 12 and the full-automatic lifting and receiving device 11, the large bottom plate paper feeding arm 125 of the bottom plate positioning and conveying device 12 is positioned at the upper parts of the differential deviation correcting and conveying device 13 and the facial tissue gluing and conveying device 14, in the actual operation process, the facial tissue gluing and conveying device 14 is used for gluing and conveying the facial tissue 3, the bottom plate positioning and conveying device 12 is used for conveying the bottom plate 4, and the facial tissue 3 and the bottom plate 4 are pressed and fixed on the upper part, finally reach 11 positions of full-automatic lift storage device, collect finished product cardboard 2, this application structural design is reasonable, and operating stability is high.
[ description of the drawings ]
Fig. 1 is a schematic structural view of a double-layer paperboard automatic bonding device in a planar state according to the present invention.
FIG. 2 is a schematic structural diagram of a front view of a substrate positioning and conveying device in the automatic double-layer paperboard laminating device of the present invention.
Fig. 3 is a schematic structural view of a full-automatic lifting and receiving device in the automatic double-layer paperboard laminating device in a front view.
FIG. 4 is a schematic structural diagram of a differential speed deviation rectifying and conveying device in an automatic double-layer paperboard laminating device according to the present invention.
Fig. 5 is a schematic structural view of a front view of a facial tissue gluing and conveying device in the automatic double-layer paperboard gluing device.
[ detailed description of the invention ]
For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Referring to fig. 1 to 5, the automatic double-layer paperboard pasting device 1 of the present invention includes a main support frame 15, and a differential deviation rectifying and conveying device 13, a bottom plate positioning and conveying device 12, a tissue gluing and conveying device 14, and a full-automatic lifting and receiving device 11, which are installed on the main support frame 15; the differential deviation rectifying and conveying device 13 and the facial tissue gluing and conveying device 14 are positioned between the bottom plate positioning and conveying device 12 and the full-automatic lifting and receiving device 11, and a bottom plate paper feeding big arm 125 of the bottom plate positioning and conveying device 12 is positioned at the upper parts of the differential deviation rectifying and conveying device 13 and the facial tissue gluing and conveying device 14; the differential deviation rectifying and conveying device comprises a large color paper feeding arm 132 for bearing and conveying the facial tissue 3 and a paper feeding belt 1361 arranged outside the large color paper feeding arm 132 in a surrounding manner; a driving paper feeding sprocket 138, a driving paper feeding belt pulley 139, a driven paper feeding sprocket 137 and a driven paper feeding belt pulley 136 are respectively arranged at two ends of the color paper feeding big arm 132; a color paper feeding chain 1371 is sleeved on the driving paper feeding chain 138 and the driven paper feeding chain 137, and a plurality of deviation-correcting stop gauges 1373 for correcting the deviation of the facial paper 3 are arranged on the color paper feeding chain 1371 at intervals; the bottom plate positioning and conveying device comprises a bottom plate paper feeding large arm 125, a bottom plate moving platform 121 and a telescopic support frame 127 positioned between the bottom plate paper feeding large arm 125 and the bottom plate moving platform 121; the bottom plate moving platform 121 includes a lifting mechanism and a first lifting platform arm body for lifting the stacked bottom plates 4; the lifting mechanism drives the first lifting platform arm body to move up and down; the facial tissue gluing and conveying device comprises a facial tissue lifting mechanism component 141 and a feeder paper feeding mechanism component 143 arranged on one side of the facial tissue lifting mechanism component 141; a stainless steel gluing roller combination 149, a stainless steel gluing bottom roller 146 and a cleaning rubber roller 147 which are positioned on the lower side of the stainless steel gluing roller combination 149 are arranged on the other side of the feeder mechanism component 143 opposite to the facial tissue lifting mechanism component 141; the lower part of the cleaning rubber roller 147 is also provided with a basin 148 for cleaning the cleaning rubber roller 147 in real time; the facial tissue lifting mechanism component 141 comprises a facial tissue left and right positioning baffle 1413 and a second lifting platform arm 1411 for supporting stacked facial tissues 3; the full-automatic lifting and receiving device comprises a paperboard collecting and lifting mechanism assembly and a paperboard blocking mechanism assembly 114 arranged at the upper part of the paperboard collecting and lifting mechanism assembly and used for limiting the paperboard to be conveyed into the paperboard collecting and lifting mechanism assembly.
By arranging the main support frame 15, the differential deviation rectifying and conveying device 13, the bottom plate positioning and conveying device 12, the facial tissue gluing and conveying device 14 and the full-automatic lifting and receiving device 11 which are arranged on the main support frame 15 in an erected mode, arranging the differential deviation rectifying and conveying device 13 and the facial tissue gluing and conveying device 14 between the bottom plate positioning and conveying device 12 and the full-automatic lifting and receiving device 11, arranging the bottom plate paper feeding large arm 125 of the bottom plate positioning and conveying device 12 at the upper parts of the differential deviation rectifying and conveying device 13 and the facial tissue gluing and conveying device 14, in the actual operation process, using the facial tissue gluing and conveying device 14 to carry out gluing and conveying of the facial tissue 3, using the bottom plate positioning and conveying device 12 to convey the bottom plate 4, carrying out pressing and fixing on the facial tissue 3 and the bottom plate 4 on the upper part of the differential deviation rectifying and conveying device 13, finally reaching the part of, this application structural design is reasonable, and operating stability is high.
Preferably, the paper feeding belt 1361 is sleeved on the driving paper feeding pulley 139 and the driven paper feeding pulley 136; also comprises a tension device arranged at the parts of the driven paper feeding chain wheel 137 and the driven paper feeding belt wheel 136; a plurality of adsorption fans 1321 arranged at intervals are arranged inside the large color paper feeding arm 132, and a plurality of adsorption holes are formed in the front surface of the large color paper feeding arm 132; the color paper feeding device also comprises a transverse moving ball screw 135 and a transverse moving linear guide rail 134 which are symmetrically arranged at the upper part and the lower part of the color paper feeding big arm 132; the deviation-correcting gauge 1373 comprises a plurality of left deviation-correcting gauges and a plurality of right deviation-correcting gauges; and each left deviation-correcting gauge and each right deviation-correcting gauge are sequentially arranged on the color paper feeding chain 1371 in parallel and aligned; the upper end part and the lower end part of the color paper feeding big arm 132 are respectively provided with a combined roller for conveying and limiting the facial tissue 3; a plurality of vent holes are formed in the paper feeding belt 1361 in a matrix manner.
Preferably, a bottom plate paper feeding combination roller 124 for limiting the transmission of the bottom plate 4 is further arranged in the middle of the bottom plate paper feeding big arm 125 and the telescopic support frame 127; two groups of bottom plate paper feeding chains 1256 for supporting the bottom plate 4 are sleeved outside the bottom plate paper feeding big arm 125; a plurality of bottom plate paper feeding hooks 1257 for conveying and limiting the bottom plates 4 from the telescopic support frame 127 and the bottom plate moving platform 121 are arranged on each bottom plate paper feeding chain 1256; the bottom plate paper feeding hook 1257 is L-shaped; a transmission shaft matched with the two groups of bottom plate paper feeding chains 1256 is arranged at the end of one end of the bottom plate paper feeding big arm 125, and a first hexagonal transmission shaft 1251 and a second hexagonal transmission shaft 1253 which are in one-to-one correspondence with the two groups of bottom plate paper feeding chains 1256 are respectively arranged at the other end of the bottom plate paper feeding big arm 125; the bottom plate paper feeding chain 1256 is respectively sleeved on the corresponding first hexagonal transmission shaft 1251 and the second hexagonal transmission shaft 1253; the upper part of the other end of the bottom plate paper feeding large arm 125, which is opposite to the telescopic support frame 127, is provided with an anti-warping pressure plate 126 for extruding the bottom plate 4; a paper feeding large arm traversing motor 1258 and a paper feeding large arm traversing lead screw 1259 for driving the paper feeding large arm 125 of the bottom plate to transversely move are also arranged in the middle of the paper feeding large arm 125 of the bottom plate.
Preferably, a bottom plate paper feeding belt assembly 123 for carrying and conveying the bottom plate 4 is arranged at the upper part of the telescopic support frame 127 close to the bottom plate paper feeding combination roller 124; an air suction disc 1231 is arranged at the lower part of the bottom plate paper feeding belt assembly 123; a tensioning assembly 1255 is arranged at the lower part of the large paper feeding arm 125 of the bottom plate, close to the large paper feeding arm transverse moving motor 1258 and the large paper feeding arm transverse moving screw rod 1259; the bottom plate paper feeding combination roller 124 comprises an upper bottom plate paper feeding combination roller and a lower bottom plate paper feeding combination roller arranged at the lower part of the upper bottom plate paper feeding combination roller; the middle parts of the upper base plate paper feeding combination roller and the lower base plate paper feeding combination roller are flush with the upper surface of the base plate paper feeding belt component 123.
Preferably, a first lifting chain 142 for driving the second lifting platform arm 1411 to move up and down relative to the facial tissue left and right positioning baffle 1413 is arranged at the upper part of the facial tissue left and right positioning baffle 1413; a paper feeding pressure roller 144 and a paper feeding pressure roller 145 for bearing the facial tissue 3 are arranged at the lower part of the feeder paper feeding mechanism component 143 and close to the outer side of the upper end part of the facial tissue lifting mechanism component 141; the facial tissue 3 at the position of the facial tissue lifting mechanism component 141 reaches the middle gap position between the paper feeding pressing wheel 144 and the paper feeding pressing roller 145 under the transmission of the flying paper feeding mechanism component 143; the paper feeding device also comprises a paper feeding pressing plate and a paper feeding dragging plate which are arranged in the middle of the paper feeding pressing wheel 144 and the stainless steel gluing roller combination 149 and used for limiting and conveying the surface paper 3; the facial tissue 3 is transferred from the middle parts of the paper feeding pressing plate and the paper feeding planker; the stainless steel sizing roller combination 149 comprises a first stainless steel sizing roller 1491 and a second stainless steel sizing roller 1495, and a paper shoveling knife is fixedly arranged at the outer side of the second stainless steel sizing roller 1495; the device also comprises a first pressure adjusting cam for adjusting the extrusion degree between the first stainless steel gluing roller 1491 and the second stainless steel gluing roller 1495; the feeder unit 143 includes a feeder servo motor 1431 for providing a transmission power, a first link 1432 movably connected to the feeder servo motor 1431, a swing arm 1433 movably connected to the first link 1432 with respect to the other end of the feeder servo motor 1431, and a second link 1434 movably connected to one end of the swing arm 1433; a suction head for sucking and fixing the facial tissue 3 is arranged at the end part of the other end of the second connecting rod 1434 opposite to the swing arm 1433.
Preferably, a lead screw adjusting motor 1415 for adjusting the distance between the flight servo motors 1431 is arranged on the outer side of the facial tissue left and right positioning baffle 1413; the second stainless steel gluing roller 1495 is flush with the middle part of the stainless steel gluing bottom roller 146 and the middle part of the paper feeding press plate and the paper feeding carriage; a water outlet is arranged at the bottom of the basin 148, and a temperature regulator is arranged in the basin 148.
Preferably, the cardboard collecting and lifting mechanism assembly comprises a lifting support frame 119 and a third lifting platform arm 111 for supporting the finished cardboard 2; the lifting device also comprises a second lifting chain wheel 112 which is arranged at the upper part of the lifting support frame 119 and is used for driving the third lifting platform arm body 111 to move up and down relative to the lifting support frame 119; the paper board blocking mechanism assembly 114 comprises a telescopic supporting arm 1141 and a paper board blocking plate 1143 connected with one end of the telescopic supporting arm 1141; further comprising a first non-stop pallet 1151 disposed on the blocking plate 1143 and a first non-stop pallet cylinder 115 for driving the first non-stop pallet 1151 to rotate; a second non-stop supporting plate 1161 and a second non-stop supporting plate cylinder 116 for driving the second non-stop supporting plate 1161 to rotate are arranged at the upper part of the lifting support frame 119 and at the same height position as the first non-stop supporting plate 1151; the first non-stop supporting plate 1151 is movably connected with a paper blocking plate 1143; the second non-stop supporting plate 1161 is movably connected with the upper part of the lifting support frame 119; the upper part and the lower part of the lifting support frame 119 are respectively provided with an infrared sensor 113 for intelligently sensing the running height condition of the third lifting platform arm body 111; the device also comprises a pressing combination roller 117 and a jointing combination roller 118 which are fixedly arranged on the upper part of the lifting support frame 119; the pressing combination roller 117 is positioned at the left side of the laminating combination roller 118; and the combination roller 117 comprises an upper combination roller and a lower combination roller disposed at the lower part of the upper combination roller.
Preferably, the upper part of the lifting support frame 119 is further provided with a left and right side gauge plate for limiting the received finished paperboard 2 left and right; the upper part of the telescopic support arm 1141 is provided with a synchronous chain for adjusting the left-right movement distance of the telescopic support arm 1141, a synchronous chain wheel shaft and a pulley assembly for supporting the telescopic support arm 1141.
Compared with the prior art, the high-efficiency high-reliability automatic double-layer paperboard laminating device 1 has the advantages that the main support frame 15, the differential deviation correcting and conveying device 13, the bottom plate positioning and conveying device 12, the facial tissue gluing and conveying device 14 and the full-automatic lifting and receiving device 11 are arranged on the main support frame 15, the differential deviation correcting and conveying device 13 and the facial tissue gluing and conveying device 14 are arranged between the bottom plate positioning and conveying device 12 and the full-automatic lifting and receiving device 11, the large bottom plate paper feeding arm 125 of the bottom plate positioning and conveying device 12 is arranged at the upper parts of the differential deviation correcting and conveying device 13 and the facial tissue gluing and conveying device 14, in the actual operation process, the facial tissue gluing and conveying device 14 is used for gluing and conveying the facial tissue 3, the bottom plate positioning and conveying device 12 is used for conveying the bottom plate 4, and the facial tissue 3 and the bottom plate 4 are pressed and fixed on the upper part, finally reach 11 positions of full-automatic lift storage device, collect finished product cardboard 2, this application structural design is reasonable, and operating stability is high.
The above-described embodiments of the present invention do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (8)

1. The utility model provides an automatic laminating device of double-deck cardboard which characterized in that: the automatic paper tissue glue-passing machine comprises a main support frame, a differential deviation-rectifying conveying device, a bottom plate positioning conveying device, a tissue glue-passing conveying device and a full-automatic lifting and receiving device, wherein the differential deviation-rectifying conveying device, the bottom plate positioning conveying device, the tissue glue-passing conveying device and the full-automatic lifting and receiving device are erected on the main support; the differential deviation rectifying and conveying device and the facial tissue gluing and conveying device are positioned between the bottom plate positioning and conveying device and the full-automatic lifting and containing device, and a bottom plate paper feeding large arm of the bottom plate positioning and conveying device is positioned at the upper parts of the differential deviation rectifying and conveying device and the facial tissue gluing and conveying device; the differential deviation rectifying and conveying device comprises a color paper feeding big arm for bearing and conveying a paper plate and a paper feeding belt arranged outside the color paper feeding big arm in a surrounding mode; a driving paper feeding chain wheel, a driving paper feeding belt wheel, a driven paper feeding chain wheel and a driven paper feeding belt wheel are respectively arranged at two ends of the color paper feeding big arm; a color paper feeding chain is sleeved on the driving paper feeding chain wheel and the driven paper feeding chain wheel, and a plurality of deviation rectifying stop gauges for rectifying deviation of the paper board are arranged on the color paper feeding chain at intervals; the bottom plate positioning and conveying device comprises a bottom plate paper feeding large arm, a bottom plate moving platform and a telescopic support frame positioned between the bottom plate paper feeding large arm and the bottom plate moving platform; the bottom plate moving platform comprises a lifting mechanism and a first lifting platform arm body used for supporting the stacked bottom plates; the lifting mechanism drives the first lifting platform arm body to move up and down; the facial tissue gluing and conveying device comprises a facial tissue lifting mechanism component and a feeder paper feeding mechanism component arranged on one side of the facial tissue lifting mechanism component; a stainless steel gluing roller combination, a stainless steel gluing bottom roller and a cleaning rubber roller are arranged on the other side of the feeder component relative to the facial tissue lifting mechanism component; the lower part of the cleaning rubber roller is also provided with a basin for cleaning the cleaning rubber roller in real time; the facial tissue lifting mechanism component comprises a facial tissue left and right positioning baffle and a second lifting platform arm body for supporting stacked facial tissues; the full-automatic lifting and containing device comprises a paperboard collecting and lifting mechanism assembly and a paperboard blocking mechanism assembly arranged on the upper portion of the paperboard collecting and lifting mechanism assembly and used for limiting the paperboard to be conveyed into the paperboard collecting and lifting mechanism assembly.
2. The automatic double-layer paperboard laminating device of claim 1, wherein: the paper feeding belt is sleeved on the driving paper feeding belt pulley and the driven paper feeding belt pulley; the tension device is arranged at the positions of the driven paper feeding chain wheel and the driven paper feeding belt wheel; a plurality of adsorption fans which are arranged at intervals are arranged in the large color paper feeding arm, and a plurality of adsorption holes are formed in the front of the large color paper feeding arm; the paper feeding device also comprises a transverse moving ball screw and a transverse moving linear guide rail which are symmetrically arranged at the upper part and the lower part of the large color paper feeding arm; the deviation-rectifying stop gauge comprises a plurality of left deviation-rectifying stop gauges and a plurality of right deviation-rectifying stop gauges; and each left deviation-correcting stop gauge and each right deviation-correcting stop gauge are sequentially arranged on the color paper feeding chain in parallel in an aligned manner; the upper end part and the lower end part of the large color paper feeding arm are respectively provided with a combined roller for conveying and limiting a paper board; the matrix type on the paper feeding belt is provided with a plurality of vent holes.
3. The automatic double-layer paperboard laminating device of claim 1, wherein: a bottom plate paper feeding combination roller for limiting the transmission of the bottom plate is further arranged in the middle of the bottom plate paper feeding big arm and the telescopic support frame; two groups of bottom plate paper feeding chains for supporting the bottom plate are sleeved outside the bottom plate paper feeding big arm; a plurality of bottom plate paper feeding hooks for conveying and limiting the bottom plates from the telescopic support frame and the bottom plate moving platform are arranged on each bottom plate paper feeding chain; the paper feeding hook of the bottom plate is L-shaped; the end part of one end of the large paper feeding arm of the bottom plate is provided with a transmission shaft matched with the two groups of paper feeding chains of the bottom plate, and the other end of the large paper feeding arm of the bottom plate is respectively provided with a first hexagonal transmission shaft and a second hexagonal transmission shaft which are in one-to-one correspondence with the two groups of paper feeding chains of the bottom plate; the paper feeding chain of the bottom plate is respectively sleeved on the corresponding first hexagonal transmission shaft and the second hexagonal transmission shaft; the upper part of the other end of the large paper feeding arm of the bottom plate, which is opposite to the telescopic support frame, is provided with an anti-warping pressing plate for extruding the bottom plate; the middle part of the large paper feeding arm of the bottom plate is also provided with a large paper feeding arm transverse moving motor and a large paper feeding arm transverse moving screw rod for driving the large paper feeding arm of the bottom plate to transversely move.
4. The automatic double-layer paperboard laminating device of claim 3, wherein: a bottom plate paper feeding belt assembly used for bearing and conveying the bottom plate is arranged at the upper part of the telescopic support frame, close to the bottom plate paper feeding combination roller; an air suction disc is arranged at the lower part of the bottom plate paper feeding belt component; the lower part of the large paper feeding arm of the bottom plate, the position close to the transverse moving motor of the large paper feeding arm and the transverse moving screw rod of the large paper feeding arm are provided with tensioning assemblies; the bottom plate paper feeding combination roller comprises an upper bottom plate paper feeding combination roller and a lower bottom plate paper feeding combination roller arranged at the lower part of the upper bottom plate paper feeding combination roller; the middle parts of the upper base plate paper feeding combined roller and the lower base plate paper feeding combined roller are flush with the upper surface of the base plate paper feeding belt component.
5. The automatic double-layer paperboard laminating device of claim 1, wherein: the upper part of the facial tissue left and right positioning baffle is provided with a first lifting chain for driving the second lifting platform arm body to move up and down relative to the facial tissue left and right positioning baffle; a paper feeding pressing wheel and a paper feeding pressing roller for bearing the facial tissue are arranged at the lower part of the flight paper feeding mechanism component and close to the outer side of the upper end part of the facial tissue lifting mechanism component; the facial tissue of the facial tissue lifting mechanism component reaches the gap between the paper feeding pinch roller and the paper feeding pinch roller under the transmission of the flying paper feeding mechanism component; the paper feeding device also comprises a paper feeding pressing plate and a paper feeding planker which are arranged in the middle of the combination of the paper feeding pressing wheel and the stainless steel gluing roller and used for limiting and conveying the facial tissue; the facial tissue is transferred from the middle parts of the paper feeding pressing plate and the paper feeding planker; the stainless steel gluing roller combination comprises a first stainless steel gluing roller and a second stainless steel gluing roller, and a paper shoveling knife is fixedly arranged on the outer side of the second stainless steel gluing roller; the first pressure adjusting cam is used for adjusting the extrusion degree between the first stainless steel gluing roller and the second stainless steel gluing roller; the feeder component comprises a feeder servo motor for providing transmission power, a first connecting rod movably connected with the feeder servo motor, a swing arm connected with the other end of the first connecting rod opposite to the feeder servo motor, and a second connecting rod movably connected with one end of the swing arm; and a suction head for sucking and fixing the facial tissue is arranged at the end part of the other end of the second connecting rod, which is opposite to the swing arm.
6. The automatic double-layer paperboard laminating device of claim 5, wherein: a lead screw adjusting motor for adjusting the space between the flight-reach servo motors is arranged on the outer side of the left and right positioning baffles of the facial tissue; the middle parts of the second stainless steel gluing roller and the stainless steel gluing bottom roller and the middle parts of the paper feeding pressing plate and the paper feeding planker are flush with each other; the bottom of the basin is provided with a water outlet, and a temperature regulator is arranged in the basin.
7. The automatic double-layer paperboard laminating device of claim 1, wherein: the paperboard collecting and lifting mechanism assembly comprises a lifting support frame and a third lifting platform arm body used for supporting the paperboard; the first lifting chain wheel is arranged at the upper part of the lifting support frame and is used for driving the third lifting platform arm body to move up and down relative to the lifting support frame; the paper blocking plate mechanism assembly comprises a telescopic supporting arm and a paper blocking plate connected with one end of the telescopic supporting arm; the first non-stop supporting plate is arranged on the paper blocking plate, and the first non-stop supporting plate cylinder is used for driving the first non-stop supporting plate to rotate; a second non-stop supporting plate and a second non-stop supporting plate cylinder for driving the second non-stop supporting plate to rotate are arranged at the upper part of the lifting support frame and the position with the same height as the first non-stop supporting plate; the first non-stop supporting plate is movably connected with the paper blocking plate; the second non-stop supporting plate is movably connected with the upper part of the lifting support frame; the upper part and the lower part of the lifting support frame are respectively provided with an infrared sensor for intelligently sensing the operating height condition of the arm body of the third lifting platform; the laminating combination roller and the laminating combination roller are fixedly arranged on the upper part of the lifting support frame; the pressing combination roller is positioned on the left side of the laminating combination roller; and the pressing combination roller comprises an upper pressing combination roller and a lower pressing combination roller arranged at the lower part of the upper pressing combination roller.
8. The automatic double-layer paperboard laminating device of claim 7, wherein: the upper part of the lifting support frame is also provided with a left side gauge plate and a right side gauge plate which are used for limiting the received paper board left and right; the upper part of the telescopic supporting arm is provided with a synchronous chain, a synchronous chain wheel shaft and a pulley assembly for supporting the telescopic supporting arm, wherein the synchronous chain and the synchronous chain wheel shaft are used for adjusting the left-right movement distance of the telescopic supporting arm.
CN201810256336.2A 2018-03-27 2018-03-27 Automatic laminating device of double-deck cardboard Active CN108340630B (en)

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CN113059865A (en) * 2021-04-02 2021-07-02 广东山河实业有限公司 High-precision automatic card pasting machine for card paper and control method
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DE4140652A1 (en) * 1991-12-10 1993-06-17 Volker Ludwig DEVICE FOR COATING A SUBSTRATE WITH A SUBSTANCE
CN2238136Y (en) * 1995-06-27 1996-10-23 陈彤 Automatic surface adhesive device for packing cardboard sheet
CN2818131Y (en) * 2005-08-15 2006-09-20 添进裕机械股份有限公司 Double-side paper binder of multi-layer corrugated paper maker
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