CN102060205A - Paper cutting/receiving machine - Google Patents
Paper cutting/receiving machine Download PDFInfo
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- CN102060205A CN102060205A CN2010105561396A CN201010556139A CN102060205A CN 102060205 A CN102060205 A CN 102060205A CN 2010105561396 A CN2010105561396 A CN 2010105561396A CN 201010556139 A CN201010556139 A CN 201010556139A CN 102060205 A CN102060205 A CN 102060205A
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- paper
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/10—Greenhouse gas [GHG] capture, material saving, heat recovery or other energy efficient measures, e.g. motor control, characterised by manufacturing processes, e.g. for rolling metal or metal working
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Abstract
The invention relates to a paper cutting/receiving machine, which comprises a paper conveying/cutting part, a paper receiving part and a transverse output belt (34), wherein the paper conveying/cutting part comprises a paper cutting foot (14), a paper cutting wallboard (11), a reversing gear (26), a paper drawing shaft (9), a paper pressing strip crossbar (31), a paper pressing strip (32), a round cutter (29), a round cutter gear (30), a servo motor (10), a reversing gear (26), a first short bridge axle (24), a second short bridge axle (25), a chain (28) with a paper conveying rubber roller, a bridge axle (16), a transmission bridge axle variable-frequency motor (13), a transmission paper drawing shaft chain (12), a longitudinal splitting cutter shaft (17), a longitudinal splitting cutter (22), a chain (23) with a longitudinal splitting cutter shaft, an upper photoelectric switch (21) and a lower photoelectric switch (18); and the paper receiving part comprises a paper receiving foot (7), a paper receiving wallboard (3), a seam (1), a seam mounting strip (33), a paper receiving chain (2), a paper receiving chain wheel shaft (4), a paper receiving chain wheel (5) and a transmission paper receiving shaft variable-frequency motor (6). Through the invention, the single-corrugated paper formed by a single-corrugated machine or roll paper is cut off and then automatically stacked.
Description
Technical field
The present invention relates to a kind of machine of cut paper splicing.Pile voluntarily again after being used for to cut off by the single fluting board after single Corrugating Machine moulding or paper in reel.Belong to the printing packaging field of mechanical technique.
Background technology
By piling up after single fluting board after single Corrugating Machine moulding or the paper in reel cut-out is the difficult problem of color printing packaging industry always.Chang paper particularly, though the producer that has has adopted some splicings equipments, effect and efficient are also not fully up to expectations.So generally still adopt artificial splicing.If paper one opens 3 three people's splicings will be arranged.Therefore this sample loading mode labour intensity is big, and speed is slow, has restricted productive force.
Summary of the invention
The objective of the invention is to overcome above-mentioned weak point, the cut paper splicer of pile voluntarily is provided after a kind of will the cut-out by the single fluting board after single Corrugating Machine moulding or paper in reel again.
The object of the present invention is achieved like this: a kind of cut paper splicer is characterized in that described splicer comprises that defeated paper cut paper part, splicing partial sum laterally export belt three parts;
Described defeated paper cut paper partly comprises the cut paper footing, the cut paper wallboard, reversing gear, axis to pull paper, platen bar cross bar, the platen bar, round cutting-off tool, the round cutting-off tool gear, servomotor, reversing gear, the first short axle of passing a bridge, the second short axle of passing a bridge, the defeated paper glue rod chain of band, the gap bridge axle, pass the axle variable-frequency motor of passing a bridge, pass the axis to pull paper chain, vertically cut cutter shaft, vertical carving knife, band is vertically cut the cutter shaft chain, last photoelectric switch and following photoelectric switch, described cut paper wallboard has two, two cut paper wallboard left-right symmetric are installed on the cut paper footing, axis to pull paper and platen bar cross bar respectively have one, be installed between the two cut paper wallboards, and axis to pull paper places platen bar cross bar below, described platen bar has many, many platen bars are installed on the platen bar cross bar, described round cutting-off tool has one pair, divide fixedly round cutting-off tool and slewing circle cutting knife, fixedly round cutting-off tool is fixedly mounted between the described two cut paper wallboards, rotates
Circle is cutCutter by bearing installation one
Circle is cutOn the cutter shaft, should
Circle is cutCutter shaft is installed between the described two cut paper wallboards, and place described platen bar cross bar top, described round cutting-off tool gear has one group, totally four, wherein one is installed on the described round cutting-off tool axle, two is carrier gear, be installed on the cut paper wallboard, also having one is installed on the servomotor, four round cutting-off tool gears are meshing with each other, and servomotor is installed on the cut paper wallboard, described reversing gear has a pair of, be installed in parallel in up and down on the cut paper wallboard by the first short gap bridge axle and the second short axle of passing a bridge, described gap bridge axle mounting is between described two cut paper wallboards, and place below the reversing gear, described defeated paper glue rod has a pair of, be installed in parallel in up and down on the cut paper wallboard, and place described reversing gear rear, the described cutter shaft of vertically cutting has two, vertically cutting cutter shaft for two is installed in parallel in up and down between the described two cut paper wallboards, described vertical carving knife has a plurality of, a plurality of vertical carving knives are installed in described two and vertically cut on the cutter shaft, the described photoelectric switch of going up is installed in described two cut paper wallboard front sides respectively with following photoelectric switch, a described biography gap bridge axle variable-frequency motor is installed on the described cut paper footing, passing the axle variable-frequency motor of passing a bridge links to each other with the axle of passing a bridge by passing the axle chain of passing a bridge, the axle of passing a bridge links to each other with described axis to pull paper by passing the axis to pull paper chain, the axle of passing a bridge also links to each other with a reversing gear by a chain, this reversing gear links to each other with a defeated paper glue rod by the defeated paper glue rod chain of a band, another defeated paper glue rod then links to each other with another reversing gear by the defeated paper glue rod chain of another band, and another reversing gear is with by one and is vertically cut cutter shaft chain and and vertically cut cutter shaft and link to each other;
Described splicing partly comprises the splicing footing, the splicing wallboard, seaming, the seaming mounting bar, the splicing chain, the splicing sprocket shaft, splicing sprocket wheel and biography splicing axle variable-frequency motor, the splicing wallboard has two, two splicing wallboard left-right symmetric are installed on the splicing footing, the splicing sprocket shaft has two, two splicing sprocket shafts one in front and one in back are installed between the described two splicing wallboards, wherein one is active splicing sprocket shaft, another root is passive splicing sprocket shaft, described splicing sprocket wheel has four, four splicing sprocket wheels are installed in the two ends of described two splicing sprocket shafts in twos, wherein two is active splicing sprocket wheel, two is passive splicing sprocket wheel in addition, the splicing chain has two, two splicing chains are installed in respectively on corresponding active splicing sprocket wheel and the passive splicing sprocket wheel, described seaming mounting bar has the N root, N is the natural number greater than 2, N root seaming mounting bar evenly is connected between the described two splicing chains from A-P, the splicing chain is divided into N splicing zone, on the every seaming mounting bar a plurality of seamings are installed, pass splicing axle variable-frequency motor and have one, be installed on the splicing footing, pass one on splicing axle variable-frequency motor and the described active splicing sprocket shaft initiatively the splicing sprocket wheel link to each other;
Described horizontal output belt places splicing chain below.
Characteristics of the present invention are:
1, two defeated paper glue rods all become the active rod to make not stall when failing paper, make the cut paper size more accurate.
2, axis to pull paper, platen bar have been installed and have made from the paper of defeated paper glue rod output stretchingly under round cutting-off tool, beaten bent error, every paper length all unified to eliminate paper.And play every paper and when entering seaming, paper is made positioning action.
3, adopted up and down photoelectricity to the slack-free induction of fluting board, thereby this machine of making is obeyed the paper delivery speed of Corrugating Machine, and paper in reel is not then needed.
The invention has the beneficial effects as follows:
The invention provides a kind ofly vertically cut, transversely cutting, splicing is piled up, can be set number of paper, cuts the machine that laterally export automatically full back when number of paper automatically.Can set up a speed on their own for paper in reel, for fluting board then this machine obey the paper delivery speed of Corrugating Machine, machine is controlled by PLC, the cutting knife action is carried out by servomotor, defeated paper " traction ", splicing add coder by variable-frequency motor to be carried out, for the speed of fluting board by two optoelectronic inductions after PLC discern.These facility have cut paper length accurately, paper piles up neatly, degree of automation is high, speed is fast, saved the artificial productive force that improved.
Description of drawings
Fig. 1 is the structural representation of cut paper splicer of the present invention.
Fig. 2 is the birds-eye view of Fig. 1.
Fig. 3 is the paper sign indicating number of the present invention horizontal paper delivery structural representation in back well.
Reference numeral among the figure:
The specific embodiment
Referring to Fig. 1 and Fig. 2, Fig. 1 is the structural representation of cut paper splicer of the present invention.Fig. 2 is the birds-eye view of Fig. 1.Cut paper splicer of the present invention is laterally exported belt 34 3 parts and is formed by defeated paper cut paper part, splicing partial sum.
Described defeated paper cut paper part is mainly by cut paper footing 14, cut paper wallboard 11, reversing gear 26, axis to pull paper 9, platen bar cross bar 31, platen bar 32, round cutting-off tool 29, round cutting-off tool gear 30, servomotor 10, reversing gear 26, the first short axle 24 of passing a bridge, the second short axle 25 of passing a bridge, the defeated paper glue rod chain 28 of band, gap bridge axle 16, pass the axle variable-frequency motor 13 of passing a bridge, pass axis to pull paper chain 12, vertically cut cutter shaft 17, vertical carving knife 22, band is vertically cut cutter shaft chain 23, last photoelectric switch 21 and following photoelectric switch 18, described cut paper wallboard 11 has two, and two cut paper wallboard 11 left-right symmetric are installed on the cut paper footing 14.Described axis to pull paper 9 has one, is installed between the described two cut paper wallboards 11.Described platen bar cross bar 31 has one, is installed between the described two cut paper wallboards 11, and places described axis to pull paper 9 tops.
Described platen bar 32 has many, and many platen bars 32 are installed on the described platen bar cross bar 31.Described round cutting-off tool 29 has one pair, divides fixedly round cutting-off tool and slewing circle cutting knife, and fixedly round cutting-off tool is fixedly mounted between the described two cut paper wallboards 11, rotates
Circle is cutCutter by bearing installation one
Circle is cutOn the cutter shaft, should
Circle is cutCutter shaft is installed between the described two cut paper wallboards 11, and places described platen bar cross bar 31 tops.Described round cutting-off tool gear 30 has one group, and totally four, one is installed on the described round cutting-off tool axle, two is carrier gear, is installed on the cut paper wallboard 11, also has one and is installed on the servomotor 10, four round cutting-off tool gears 30 are meshing with each other, and servomotor 10 is installed on the cut paper wallboard 11.Described reversing gear 26 has a pair of, is installed in parallel in up and down on the cut paper wallboard 11 by first short the axle 24 and second short axle 25 of passing a bridge of passing a bridge.Described gap bridge axle 16 is installed between the described two cut paper wallboards 11, and places described reversing gear 26 belows.Described defeated paper glue rod 27 has a pair of, is installed in parallel in up and down on the cut paper wallboard 11, and places described reversing gear 26 rears.Shang Mian defeated paper glue rod 27 scalable width between centerss between the two defeated paper glue rods 27 up and down wherein.The described cutter shaft 17 of vertically cutting has two, vertically cutting cutter shaft 17 for two is installed in parallel in up and down between the described two cut paper wallboards 11, below wherein one vertically cuts cutter shaft 17 scalable two and vertically cuts width between centers between the cutter shaft 17, described vertical carving knife 22 has a plurality of, and a plurality of vertical carving knives 22 are installed in described two and vertically cut on the cutter shaft 17.Described upward photoelectric switch 21 and following photoelectric switch 18 are installed in the above and below of not cutting fluting board 20 of described two cut paper wallboards 11 front sides respectively.
A described biography gap bridge axle variable-frequency motor 13 is installed on the described cut paper footing 14, passing the axle variable-frequency motor 13 of passing a bridge links to each other with the axle 16 of passing a bridge by passing the axle chain 15 of passing a bridge, the axle 16 of passing a bridge links to each other with described axis to pull paper 9 by passing axis to pull paper chain 12, the axle 16 of passing a bridge also links to each other with a reversing gear 26 by a chain, this reversing gear 26 links to each other with a defeated paper glue rod 27 by the defeated paper glue rod chain 28 of a band, another defeated paper glue rod 27 then links to each other with another reversing gear 26 by the defeated paper glue rod chain 28 of another band, and this another reversing gear 26 is with by one and is vertically cut cutter shaft chain 23 and and vertically cut cutter shaft 17 and link to each other.
Two defeated paper glue rods 27 pass to the first short axle 24 of passing a bridge by passing the axle variable-frequency motor 13 of passing a bridge through passing the axle chain 15 of passing a bridge, pass to the second short axle 25 of passing a bridge through reversing gear 26 again, first short the axle 24 and second short axle 25 of passing a bridge of passing a bridge makes two defeated paper glue rods 27 do positive and negative rotation through being with defeated paper glue rod chain 28 transmissions respectively then.
Described splicing part mainly is made up of splicing footing 7, splicing wallboard 3, seaming 1, seaming mounting bar 33, splicing chain 2, splicing sprocket shaft 4, splicing sprocket wheel 5 and biography splicing axle variable-frequency motor 6.Described splicing wallboard 3 has two, and two splicing wallboard 3 left-right symmetric are installed on the splicing footing 7.Described splicing sprocket shaft 4 has two, and two splicing sprocket shafts 4 one in front and one in back are installed between the described two splicing wallboards 3, and wherein one is active splicing sprocket shaft, and another root is passive splicing sprocket shaft.Described splicing sprocket wheel 5 has four, and four splicing sprocket wheels 5 are installed in the two ends of described two splicing sprocket shafts 4 in twos, and wherein two is active splicing sprocket wheel, and two is passive splicing sprocket wheel in addition.Described splicing chain 2 has two, and two splicing chains 2 are installed in respectively on corresponding active splicing sprocket wheel 5 and the passive splicing sprocket wheel 5.Described seaming mounting bar 33 has the N root, and N is the natural number greater than 2, and N root seaming mounting bar 33 evenly is connected between the described two splicing chains 2 from A-P, and splicing chain 2 is divided into N splicing zone, and a plurality of seamings 1 are installed on the every seaming mounting bar 33.Described biography splicing axle variable-frequency motor 6 has one, is installed on the splicing footing 7, pass one on splicing axle variable-frequency motor 6 and the described active splicing sprocket shaft initiatively the splicing sprocket wheel link to each other.
Described horizontal output belt 34 places splicing chain 2 belows, and its structure as shown in Figure 3.
The working process of this machine:
Input is wanted cut paper Zhang Changdu and is cut the number that paper will laterally be exported to PLC, again the fluting board 20 of not cutting that comes out on the Corrugating Machine is passed between photoelectric switch 21 and the following photoelectric switch 18, penetrate up and down two again and vertically cut cutter shaft 17 and can start shooting between the two defeated paper glue rods 27 up and down.
The slewing circle cutting knife turns around paper is cut off when defeated paper glue rod 27 defeated full institute cut papers are long.
, when slewing circle cutting knife turn around splicing chain 2 pass by a splicing region distance long when defeated paper glue rod 27 defeated full institute cut papers.
Failed a distance A " A be cutting knife when seaming begins splicing position " again to position B when the slewing circle cutting knife cuts off the defeated paper glue rod 27 in back with paper, this moment seaming 1 also to B, position seaming this moment begins splicing.
The seaming and the paper that connect paper this moment are fast together, deduct A with the speed distance for institute's cut paper length.
When seaming cover with speed apart from the time round cutting-off tool paper is cut off, the different speed with paper of seaming this moment " acceleration " distance adds A for 1/N splicing chain distance " distance between two seamings " deducts institute's cut paper length, when seaming cover different speed apart from the time next seaming again to position B, corresponding defeated paper glue rod was failed distance A with paper makes paper in-position B, and this moment, next seaming began splicing again.
Laterally output belt 34 is driven by motor 38 and does horizontal output when the paper number of input PJC is expired, PLC controls and passes splicing axle variable-frequency motor 6, passes gap bridge axle variable-frequency motor 13 and servomotor 10 decelerations or stops when doing horizontal output, and it is normal laterally to respond to the back recovery by last photoelectric switch 21 and following photoelectric switch 18 behind the end of output.
The key operations of complete machine is the action of seaming and the relation of paper length and paper feed speed, seaming to next seaming is a fixed measure, round cutting-off tool to the size A of splicing position B be fixed measure, paper feed speed can be considered constant speed, its pass is: it is that seaming and chart speed are with fast distance that paper length deducts A, 1/n chain length " between two seamings distance " deducts paper length, and to add A be different fast distances, and its speed is that the different speed distances of chart speed are removed A doubly.
Example: establishing between the two seaming bars distance is 300mm for 1200mm, the long 1000mm of institute's cut paper, A, then: seaming and paper are 1000-300=700mm with the speed distance, different speed distances be 1200-1000+300=500mm, and this moment, the speed of seaming was 500/300=1.666 times of chart speed.The seaming 500mm that passes by simultaneously when just paper is passed by 300mm.
Claims (2)
1. cut paper splicer is characterized in that described splicer comprises that defeated paper cut paper part, splicing partial sum laterally export belt (34) three parts;
Described defeated paper cut paper partly comprises cut paper footing (14), cut paper wallboard (11), reversing gear (26), axis to pull paper (9), platen bar cross bar (31), platen bar (32), round cutting-off tool (29), round cutting-off tool gear (30), servomotor (10), reversing gear (26), the first short axle (24) of passing a bridge, the second short axle (25) of passing a bridge, the defeated paper glue rod chain (28) of band, pass a bridge spool (16), pass the axle variable-frequency motor (13) of passing a bridge, pass axis to pull paper chain (12), vertically cut cutter shaft (17), vertical carving knife (22), band is vertically cut cutter shaft chain (23), last photoelectric switch (21) and following photoelectric switch (18), described cut paper wallboard (11) has two, two blocks of cut paper wallboards (11) left-right symmetric is installed on the cut paper footing (14), axis to pull paper (9) and platen bar cross bar (31) respectively have one, be installed between the two cut paper wallboards (11), and axis to pull paper (9) places platen bar cross bar (31) below, described platen bar (32) has many, many platen bars (32) are installed on the platen bar cross bar (31), described round cutting-off tool (29) has one pair, divide fixedly round cutting-off tool and slewing circle cutting knife, fixedly round cutting-off tool is fixedly mounted between the described two cut paper wallboards (11), rotates
Circle is cutCutter by bearing installation one
Circle is cutOn the cutter shaft, should
Circle is cutCutter shaft is installed between the described two cut paper wallboards (11), and place described platen bar cross bar (31) top, described round cutting-off tool gear (30) has one group, totally four, wherein one is installed on the described round cutting-off tool axle, two is carrier gear, be installed on the cut paper wallboard (11), also having one is installed on the servomotor (10), four round cutting-off tool gears (30) are meshing with each other, and servomotor (10) is installed on the cut paper wallboard (11), described reversing gear (26) has a pair of, be installed in parallel in up and down on the cut paper wallboard (11) by the first short gap bridge axle (24) and the second short axle (25) of passing a bridge, described gap bridge axle (16) is installed between the described two cut paper wallboards (11), and place below the reversing gear (26), described defeated paper glue rod (27) has a pair of, be installed in parallel in up and down on the cut paper wallboard (11), and place described reversing gear (26) rear, the described cutter shaft (17) of vertically cutting has two, vertically cutting cutter shaft (17) for two is installed in parallel in up and down between the described two cut paper wallboards (11), described vertical carving knife (22) has a plurality of, a plurality of vertical carving knives (22) are installed in described two and vertically cut on the cutter shaft (17), described upward photoelectric switch (21) and following photoelectric switch (18) are installed in described two cut paper wallboard (11) front sides respectively, a described biography gap bridge axle variable-frequency motor (13) is installed on the described cut paper footing (14), passing the axle variable-frequency motor (13) of passing a bridge links to each other with the axle (16) of passing a bridge by passing the axle chain (15) of passing a bridge, the axle (16) of passing a bridge links to each other with described axis to pull paper (9) by passing axis to pull paper chain (12), the axle (16) of passing a bridge also links to each other with a reversing gear (26) by a chain, this reversing gear (26) links to each other with a defeated paper glue rod (27) by the defeated paper glue rod chain (28) of a band, another defeated paper glue rod (27) then links to each other with another reversing gear (26) by the defeated paper glue rod chain (28) of another band, and another reversing gear (26) is with by one and is vertically cut cutter shaft chain (23) and and vertically cut cutter shaft (17) and link to each other;
Described splicing partly comprises splicing footing (7), splicing wallboard (3), seaming (1), seaming mounting bar (33), splicing chain (2), splicing sprocket shaft (4), splicing sprocket wheel (5) and biography splicing axle variable-frequency motor (6), splicing wallboard (3) has two, two blocks of splicing wallboards (3) left-right symmetric is installed on the splicing footing (7), splicing sprocket shaft (4) has two, two splicing sprocket shafts (4) one in front and one in back are installed between the described two splicing wallboards (3), wherein one is active splicing sprocket shaft, another root is passive splicing sprocket shaft, described splicing sprocket wheel (5) has four, four splicing sprocket wheels (5) are installed in the two ends of described two splicing sprocket shafts (4) in twos, wherein two is active splicing sprocket wheel, two is passive splicing sprocket wheel in addition, splicing chain (2) has two, two splicing chains (2) are installed in respectively on corresponding active splicing sprocket wheel (5) and the passive splicing sprocket wheel (5), described seaming mounting bar (33) has the N root, N is the natural number greater than 2, N root seaming mounting bar (33) evenly is connected between the described two splicing chains (2) from A-P, splicing chain (2) is divided into N splicing zone, a plurality of seamings (1) are installed on the every seaming mounting bar (33), pass splicing axle variable-frequency motor (6) and have one, be installed on the splicing footing (7), pass one on splicing axle variable-frequency motor (6) and the described active splicing sprocket shaft initiatively the splicing sprocket wheel link to each other;
Described horizontal output belt (34) places splicing chain (2) below.
2. a kind of cut paper splicer according to claim 1, it is characterized in that: a defeated paper glue rod (27) scalable above described is the width between centers between the two defeated paper glue rods (27) up and down, vertically cuts the width between centers that cutter shaft (17) scalable two is vertically cut between the cutter shaft (17) for following one.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2010105561396A CN102060205B (en) | 2010-11-23 | 2010-11-23 | Paper cutting/receiving machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2010105561396A CN102060205B (en) | 2010-11-23 | 2010-11-23 | Paper cutting/receiving machine |
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CN102060205A true CN102060205A (en) | 2011-05-18 |
CN102060205B CN102060205B (en) | 2012-07-25 |
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CN2010105561396A Expired - Fee Related CN102060205B (en) | 2010-11-23 | 2010-11-23 | Paper cutting/receiving machine |
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Cited By (9)
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CN102700986A (en) * | 2012-06-19 | 2012-10-03 | 张世义 | Crawler automatic air leakage paper receiving machine |
CN103224160A (en) * | 2013-03-28 | 2013-07-31 | 陈伟勇 | Cutting machine |
CN103640050A (en) * | 2013-12-02 | 2014-03-19 | 东莞市骏兴机械科技有限公司 | Paper receiving machine for paper cutting machine |
CN104261182A (en) * | 2014-09-18 | 2015-01-07 | 青岛开拓数控设备有限公司 | Trimming and cutting-off machine, corrugated paper board production line and cutting-off and trimming method |
CN104495479A (en) * | 2014-12-20 | 2015-04-08 | 济南金诚特纸制品有限公司 | Single-wall corrugated paper collecting machine |
CN107032169A (en) * | 2017-04-10 | 2017-08-11 | 苏州庆丰包装材料有限公司 | A kind of cardboard collects the piling system of machine |
CN109305595A (en) * | 2017-07-28 | 2019-02-05 | 天津阳光彩印股份有限公司 | A kind of printing equipment is with automatically cutting control mechanism |
CN111807107A (en) * | 2020-07-19 | 2020-10-23 | 朱蓉 | Paperboard processing line |
CN113335986A (en) * | 2021-06-24 | 2021-09-03 | 郭福财 | Continuous cutting machine for elastic bands |
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CN102700986A (en) * | 2012-06-19 | 2012-10-03 | 张世义 | Crawler automatic air leakage paper receiving machine |
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CN104261182A (en) * | 2014-09-18 | 2015-01-07 | 青岛开拓数控设备有限公司 | Trimming and cutting-off machine, corrugated paper board production line and cutting-off and trimming method |
CN104495479A (en) * | 2014-12-20 | 2015-04-08 | 济南金诚特纸制品有限公司 | Single-wall corrugated paper collecting machine |
CN107032169A (en) * | 2017-04-10 | 2017-08-11 | 苏州庆丰包装材料有限公司 | A kind of cardboard collects the piling system of machine |
CN107032169B (en) * | 2017-04-10 | 2018-06-19 | 苏州庆丰包装材料有限公司 | A kind of cardboard collects the piling system of machine |
CN109305595A (en) * | 2017-07-28 | 2019-02-05 | 天津阳光彩印股份有限公司 | A kind of printing equipment is with automatically cutting control mechanism |
CN111807107A (en) * | 2020-07-19 | 2020-10-23 | 朱蓉 | Paperboard processing line |
CN113335986A (en) * | 2021-06-24 | 2021-09-03 | 郭福财 | Continuous cutting machine for elastic bands |
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