前苏联专利SU1087063A3 Method and apparatus for forming laminated cardboard web

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专利摘要:
A method and apparatus are disclosed for forming a novel corrugated paperboard web of indefinite length, which web includes a planar facer layer and a corrugated layer the flutes of which extend longitudinally the length of the web. The web is formed by splicing together sections having offset planar facer and corrugated layers of generally equal dimensions, respectively, whereby at one end the facer layer projects beyond the corrugated layer and at the other end the corrugated layer projects beyond the facer layer, the flutes of the corrugated layer extending from one projecting end to the other. Successive sections are spliced together with the projecting facer layer portion of one section overlying the projecting corrugated portion and the facing layer of another section, preferably with the adjacent portions of the corrugated layers of the two sections being in flute-enmeshing engagement. A conventional second web having a planar facer layer and a corrugated layer with transverse flutes may then be bonded in superimposed relation to the first web, thereby defining a third web having successive corrugated layers the flutes of which extend longitudinally and transversely of the third web, respectively.
公开号:SU1087063A3
申请号:SU772520762
申请日:1977-09-13
公开日:1984-04-15
发明作者:Дж.Хользингер Вальтер
申请人:Бойз Каскейд Корпорейшн (Фирма)；
IPC主号:

专利说明:

2. A device for forming a multi-layer cardboard pcbot containing a knife for transverse cutting of a corrugated web into individual lengths, means for placing the individual lengths in one plane along the axis of the flat web, including a conveyor, and means for connecting the individual lengths with a flat web, characterized in in order to improve the quality of the web, it has a means for connecting adjacent segments. 63 3. The device according to claim 2, characterized in that the means for placing the individual segments in one plane along the axis of the flat web includes a pusher located in front of the conveyor and a rotary one mounted above the conveyor. Hopper hopper segment with the mechanisms for the supply and output of segments. 4. The device according to claim 2, characterized in that the means for joining the adjacent segments comprises an adhesive-applying mechanism with pressure rollers.
one
This invention relates to methods and devices for forming multi-layered cardboard webs.
A known method of forming a multi-ply cardboard sheet consists in forming extreme layers with transversely directed corrugations, forming a middle layer with longitudinal directional corrugations by forming transversely corrugated fabric, gluing it to a flat canvas, cutting the glued web into segments, orienting segments with the longitudinal direction of the corrugations and gluing the extreme and middle layers between themselves.
A device for forming a multi-layer cardboard web is known, comprising a knife for transverse cutting of a corrugated web into individual segments, means for placing the individual segments in one plane along the axis of a flat surface, including a conveyor, and means for connecting the individual segments with an itnky sheet l.
However, the known method and device are not characterized by high quality of the web.
The purpose of the invention is to improve the quality of the canvas.
The goal is achieved by the fact that according to the method of forming a multi-layer cardboard sheet, consisting in the formation of extreme layers with transversely directed corrugations, the formation of a middle layer with
longitudinally oriented corrugations by forming a transversely corrugated web, gluing it to a flat web, cutting the glued web into segments, orienting the segments with the longitudinal direction of the corrugations and gluing the outermost and middle layers between each other, gluing the transversely corrugated web to the flat web, displacing the transversely corrugated web relatively flat in the direction of the corrugations, and the segments of the middle layer after orientation are interconnected by gluing the offset to one the sides of the corrugated section of one segment with the corrugated section of the other segment, and the planes of the section of one segment with the flat section of the other segment displaced.
A device for forming multi-layered Kaj-TOHHoro webs, comprising a knife for transverse cutting of a corrugated web into separate segments, means for placing the individual segments in one plane along the axis of the flat web, including a conveyor, and means for connecting the individual segments with a flat web, also has connections of adjacent segments.
The means for installing individual segments in the same plane along the axis of the flat web includes a pusher located in front of the conveyor and a rotary hopper storage of the pieces installed above the conveyor with feed and discharge mechanisms for the segments. The means for joining the adjacent segments comprises a glue-applying mechanism with pressure rollers. FIG. 1 shows a multi-layered cardboard sheet; in fig. 2 shows a device for making a multi-ply cardboard sheet; in fig. 3 is a section A-A in FIG. 2; in fig. And - section B-Bnafig.2; in fig. 5 is a sectional view BB in FIG. four; in fig. 6 - section GG in figure 2; in fig. 7 - section DD in FIG. 6; in fig. 8 and 9 are shown variants of the methods of gluing in the places of the cut pieces of web; in fig. 10 embodiment of the segment accumulator in FIG. four; in fig. 11 - cross section EE in FIG. ten; in fig. 12 section MF in FIG. ten; in fig. 13 embodiment of the device according to FIG. 2, in which the second web is fed perpendicular to the vertical plane containing the axis of the first web. The multi-layer cardboard sheet 1 (FIG. 1) comprises the first flat layer 2 and the corrugated layer 3, the second flat layer 4 and the corrugated layer 5, the third flat layer 6 and the corrugated layer 7 and the fourth flat layer 8. The outer layers 3 and 7 are transversely directed the corrugations, and the middle layer are longitudinally directed corrugations. The first web 9 (Fig. 2 and 3) has a flat top layer 10 and a bottom corrugated layer 11, the corrugations of which are arranged longitudinally to the web. The first web 9 consists of a plurality of glued pieces, obtained by cutting the second web 12 supplied to the intermediate bridge 13 by means of a corrugating means. The second web 12 has an upper flat layer 15 displaced relative to the lower corrugated layer 16, the corrugations of which are located across the segments of the web 12. The second web 12 is fed to the intermediate bridge 13 by means of a vacuum-type conveyor 17 towards the rotating blade 18, cutting the second web 12 into segments 19 of the same length (Fig. 4). At the ends of each segment 19, the upper flat layer 20 is displaced relative to the corrugated 0634 layer 21. Sequentially cut segments 19 are located in the fixed upper part 22 of the swiveling bunker drive 23; Segments 19 are placed in the accumulator 23 in the form of a vertical stack and are held therein by means of the means 24. The means 24 hold and serve the segments 19 in the upper 22 of the accumulator 23. The upper part 22 of the accumulator 23 is located on the circular plate 25, on the outer edge of which there is an annular flange 26, cooperating in rotation with a fixed guide 27. The plate 25 and the annular guide 27 allow the upper part 22 of the accumulator 23 to rotate around its vertical axis at an angle of 90 using means of rotation 28 of a known type. When the upper part 22 of the accumulator 23 is rotated by an angle of 90, the corrugations of the segments 19 are arranged parallel to the longitudinal axis of the first 9 and second 12 blades. The segments 19 are held in the upper part 22 of the accumulator 23 and released by the feeding mechanisms 29. The segments 19 enter the lower part 30 of the accumulator 23 by means of the output mechanisms 31 and the vertically moving supporting rods 32. Vertical movement of the rods 3.2 is provided by means 33 (Fig. 4). The top surface profile of each rod 32 corresponds to the bottom surface of the corrugated layer 21 of the piece 19. When the piece 19 is lowered into the position with the first blade 9, the pusher 34 is actuated, means for placing the pieces in one plane along the axis of the flat web displacing the piece 19 the side of the means for connecting the adjacent segments 35, containing the glue-applying mechanism with pressure rollers 56 and 37 (Fig. 6 and 7). The upper pressure roller 36 has a cylindrical shape and interacts with the flat top layer 20 of the length 19. The lower pressure roll 37 has a shape corresponding to the lower corrugated surface of the layer 21 of the length 19. The length 19 moves linearly under the action of the pushing means 38 so that the front portion of the layer 20 overlaps the corrugated layer 11 of the first web 9. Near the longitudinal edges of the second web 12, nozzles 39 and 40 are mounted for applying glue to the lower surface of the protruding part of the upper layer 15 and protruding to the upper surface portions of the corrugated layer 16. When the second web 12 is cut into segments 19, rotated 90 by drive 23, then each segment will be glue applied to the lower surface of the front overhang of the flat layer 20 and the upper surface of the rear protruded formed layer 21. When the segments 19 enter the means for joining the adjacent segments 35 (Fig. 7), glue is applied to the bottom surface of the protruding part of the flat layer 20 and on the tops of the corrugations of the protruding part of the corrugated layer 11 of the first web 9 viscous connection 19 occurs between the pinch rollers 36 and 37 and the surface of the projecting mutually modeystvuyua1ie present flat and corrugated layer are adhered. The speed of movement of segment 19 with respect to the speed at which the first web 9 moves by conveyor 41 of means for placing separate segments in one plane along the axis of the flat web must be such that at least a portion of the corrugated layer 21 of the segment 19 has intergate coupling with the projecting a portion of the corrugated 40 layer 11 of the first blade 9 (FIG. 7). Due to the interstock coupling between the corrugated layers 11 and 2t, the first web 9 formed is very strong. The segments 19 can be displaced in the longitudinal direction by a considerable amount. a greater distance (fig. 8) than in fig. 7. As a result, the length of the portion of the corrugated layer 21 interfacing with the projecting back of the layer 11 of the first web 9 is greatly increased. Bonding can be performed in which the corrugations of the layer 21 will not be in intergloof coupling with the corrugations of the projecting back of the layer 11 of the first web 9 (Fig. 9). 636 Longitudinal rigidity of the first section 9 can be reduced by transversely grooving the lower vertices of the corrugations of the lower corrugated layer 11. The first web 9 (Fig. 7) is passed through the grooves 42, including rollers 43 and 44. The roller 44 applies longitudinal grooves 45 on the lower sections the tops of the corrugations of layer 11. Then glue is applied to the lower parts of the tops of the corrugations of the corrugated layer 11. If a corrugated web arrives from the corrugating means 14, the conveyor 46 supplies it to the receiver 47. The third single-sided web 48 having a flat upper and corrugated lower layer, the side edges of which are aligned, is fed from the single-faced corrugating means 49 and with the help of the conveyor 50 is laid on the upper bridge 51. Then the third web 48 is moved by the conveyor 52 through the heating means 53 and the glue applying agent 54, which glue is applied to the bottom surface of the lower corrugated layer 55 of the third web 48. 9 ATEM first web and the third web 48 are fed to means 56 in which are obtained the fourth sheet, the corrugations of corrugated layers which are arranged which are disposed at an angle 90 relative to each other. The fifth web 57, having a flat upper surface and a corrugated lower surface, the side edges of which are aligned, passes through the corrugating means 58, is directed to the lower bridge 59 and is fed by the conveyor 60 to the glue application means 61, where the bottom surface of the corrugated layer 62 is fifth blade 57 is applied glue. . Then, the fifth web 57 is fed to the means 56, in which it is attached to the bottom surface of the fourth web. The flat face layer 63 is also fed into the tool 56 and secured to the bottom surface of the corrugated layer 62 to form a sixth web 64, the corrugations of which alternate corrugated layers are perpendicular to each other. Then, the sixth web 64 passes through a steam vat 65, in which the final curing of the glue and the bonding of all layers of the web take place.
FIG. 10 and 11 it is shown that the hopper 23 is displaced relative to the longitudinal axes of the first 9 and second 12 blades. The side pushers 66 serve for lateral displacement of the segments 19 on the intermediate bridge 13. The feed roller 67 places the segments 19 on the upper one. part 22 of the drive 23.
When the holding means 24 are turned on, the sections 19 are stacked on the rotating part 68 of the accumulator, which is rotated by the means 28. The corrugations of the sections 19 are arranged parallel to the longitudinal axis of the first blade 9. Then the sections 19 by the feeding mechanisms 29 are mounted on the vacuum conveyor 69 transversely to the feed rollers 70. Nozzles 71 and 72 feed glue to the bottom surface of the flat surface layer 20 and to the top surface of the raised corrugated layer 21 after segment 19 returns to the position in which it has been cut longitudinally. th axis of the first blade 9. Therefore, the segments 19
return to the position in which they interact with the stopper 73, with the result that the segments 19 are longitudinally displaced by the action of the pusher towards the rollers 36 and 37 of the means for connecting the adjacent segments 35.
FIG. 13 shows that the second web 12 is arranged perpendicular to the vertical plane containing the longitudinal axis of the first web 9, therefore, the web is cut transversely with a knife 18 into sections 19, which are mounted on an intermediate bridge 1D, and then placed in the fixed part 22 of the accumulator 23.
Since the corrugations of the second blade 12 are arranged parallel to the longitudinal axis of the first blade 9, the corrugations of the cut sections 19 will also run parallel to the longitudinal axis of the first blade 9. The segments 19 are successively removed from the base of the stack of accumulator 23 and fed to the means for connecting the adjacent segments 35.
one
The horizontal dimensions of the accumulator 23 can be adjusted, i.e. its walls are connected with a bolt 74 and a groove.
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权利要求:
Claims (4)
[1]
1. The method of forming a multilayer cardboard web, which consists in the formation of the outermost layers with transversely directed corrugations, the formation of a middle layer with longitudinally directed corrugations by forming a transversely corrugated web, gluing it with a flat web, cutting the glued web into segments, orienting the segments in the longitudinal direction corrugations and gluing of the extreme and middle layers between each other, characterized in that, in order to improve the quality of the canvas, gluing transversely corrugated fabric with a flat the web is carried out with the displacement of the transversely corrugated web relatively flat in the direction of the corrugations, and the segments of the middle layer after orientations are interconnected by gluing the corrugated portion of one segment offset from one side with the corrugated portion of the other segment, and the flat portion of one segment with the offset flat portion another segment.
fi g!
[2]
2. A device for forming a multilayer cardboard web containing a knife for transverse cutting of the corrugated web into separate segments, means for installing individual segments in one plane along the axis of the flat web, including a conveyor, and means for connecting the individual segments with a flat web, characterized in that in order to improve the quality of the canvas, it has a means for connecting adjacent segments.
[3]
3. The device according to p. 2, characterized in that the means for installing individual segments in one plane along the axis of the flat web includes a pusher located in front of the conveyor and a swivel mounted above the conveyor. bunker drive segments with mechanisms for feeding and output segments.
[4]
4. The device according to p. 2, characterized in that the means for connecting adjacent segments contains an applicator mechanism with pressure rollers.

类似技术:

公开号 | 公开日 | 专利标题

SU1087063A3|1984-04-15|Method and apparatus for forming laminated cardboard web

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US3887418A|1975-06-03|Honeycomb product and process for manufacture

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同族专利:

公开号 | 公开日

YU41578B|1987-10-31|

FR2364292A1|1978-04-07|

DD132738A5|1978-10-25|

FI59751B|1981-06-30|

ES464318A1|1978-08-01|

AT364238B|1981-10-12|

DE2719355C2|1983-05-26|

US4128677A|1978-12-05|

JPS5336396A|1978-04-04|

GB1573750A|1980-08-28|

YU43515B|1989-08-31|

ATA652977A|1981-02-15|

NO773139L|1978-03-14|

YU210377A|1983-12-31|

US4126508A|1978-11-21|

YU106382A|1984-04-30|

ES462321A1|1978-06-01|

JPS5647862B2|1981-11-12|

DE2719355A1|1978-03-16|

DK153218C|1988-12-05|

HU179932B|1983-01-28|

NO147945B|1983-04-05|

SE452724B|1987-12-14|

AU505369B2|1979-11-15|

IT1085171B|1985-05-28|

CA1104914A|1981-07-14|

FR2364292B1|1983-08-05|

DK153218B|1988-06-27|

DK404777A|1978-03-14|

FI772690A|1978-03-14|

NL7709992A|1978-03-15|

BE858656A|1978-01-02|

ES232211U|1978-01-16|

NO147945C|1983-07-13|

AU2869277A|1979-03-15|

CH625847A5|1981-10-15|

FI59751C|1981-10-12|

ES232211Y|1978-05-16|

SE7710206L|1978-03-14|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

CN112140644A|2020-09-16|2020-12-29|舒城县大格包装材料有限公司|Paper laminating machine for continuous color printing and working method thereof|US1504218A|1923-06-05|1924-08-12|Charles H Crowell|Process and machine for making cross-corrugated paperboard|

US1935214A|1930-06-28|1933-11-14|Cons Paper Company|Method and machine for making corrugated fiber board|

US2054867A|1932-08-02|1936-09-22|Rudin Ernst|Assembled board|

US2091918A|1932-10-17|1937-08-31|Joseph L Finck|Insulating material|

US2008974A|1933-12-02|1935-07-23|David Weber And Company|Method for making corrugated board|

US2224810A|1937-11-29|1940-12-10|United States Gypsum Co|Air-cell pipe covering and method of forming the same|

CH272842A|1943-10-25|1951-01-15|Centrale Des Usines A Papiers|Process for the production of a continuous strip of corrugated cardboard with longitudinal grooves, installation for implementing this process and strip of corrugated cardboard with longitudinal grooves obtained by this process.|

GB594328A|1943-10-25|1947-11-07|Centrale Des Usines A Papiers|Process and plant for manufacturing longitudinally corrugated cardboard and cross-corrugated cardboard and products obtained thereby|

FR985411A|1943-10-25|1951-07-18|Centrale Des Usines A Papier C|Method and plant for the manufacture of corrugated cardboard with longitudinal corrugations, as well as so-called "double double" cardboard with cross corrugations and resulting products|

US2943965A|1955-03-03|1960-07-05|Alexander E Stogre|Insulating board construction|

US3112184A|1958-09-08|1963-11-26|Corning Glass Works|Method of making ceramic articles|

AT221348B|1959-09-08|1962-05-25|Marius Martin S A R L|Device for the production of multi-layer corrugated cardboard with corrugations running perpendicular to one another|

US3145131A|1960-05-05|1964-08-18|Dow Chemical Co|Joint for corrugated board|

CH1357464D|1964-09-21|1900-01-01|

US3352736A|1964-09-24|1967-11-14|Koppers Co Inc|Apparatus for detecting and handling defective box blanks|

US3288353A|1964-12-16|1966-11-29|Mccullough Jane Fiske|Wrapping material and the fashioning of packaging blanks therefrom|

US3434901A|1965-10-23|1969-03-25|West Virginia Pulp & Paper Co|Method for manufacturing corrugated board|

US3586583A|1966-03-24|1971-06-22|Edwin K Ospelt|Device for the production of largearea sheets formed of plastics,particularly for the roofs of buildings|

US3773587A|1971-07-01|1973-11-20|Domtar Ltd|Manufacture of corrugated board|

US3733235A|1971-07-22|1973-05-15|Westvaco Corp|Fabrication of laminated structural panels|

DE2155442B2|1971-11-08|1973-11-22|Kartonagen-Schertler Manfred K. Schertler & Co, 8858 Neuburg|Corrugated cardboard material for transportable packaging containers|

IT992087B|1973-07-11|1975-09-10|Gd Spa|DEVICE FOR ACCUMULATION AND ALI MENTATION OF TRAITS OF MATERIAL IN THE SHEET|

US4022332A|1975-07-16|1977-05-10|General Corrugated Machinery Co., Inc.|Apparatus for orienting case blanks|

US4012277A|1975-10-14|1977-03-15|Natmar, Inc.|Apparatus for applying thermoactivatable adhesive coated labels|IT1156949B|1978-04-11|1987-02-04|Beloit Italia Spa|PROCESS AND EQUIPMENT FOR THE MANUFACTURE OF A CONTINUOUS CARDBOARD TAPE INCLUDING AT LEAST A CORRUGATED INTERNAL LAYER OF FIBER MATERIAL|

DE3117095C2|1981-04-30|1983-07-21|Europa Carton Ag, 2000 Hamburg|Process for the production of parts with corrugated cardboard covered on both sides as well as press or stamping deformable corrugated cardboard semi-finished product for the production of dimensionally stable finished product parts|

DE3142832C2|1981-10-29|1987-12-03|Boise Cascade Corp., Boise, Id., Us|

JPH0343971B2|1982-07-09|1991-07-04|Bridgestone Corp|

US4500381A|1983-04-20|1985-02-19|Longview Fibre Company|Method and apparatus for making multiple ply paperboard|

JPS6344053B2|1983-09-12|1988-09-02|Showa Denko Kk|

AT384949B|1984-02-15|1988-01-25|Isosport Verbundbauteile|LIGHTWEIGHT, AND COMPOSITE COMPONENT, ESPECIALLY SKI, WITH THIS LIGHTWEIGHT|

US4657611A|1984-11-28|1987-04-14|Kaser Associates, Inc.|Cross corrugated fiberboard and method and apparatus for making the same|

US4992320A|1988-11-23|1991-02-12|Courtaulds Automotive Products Limited|Lamiantes for headlining|

US5429326A|1992-07-09|1995-07-04|Structural Laminates Company|Spliced laminate for aircraft fuselage|

US5456783A|1993-05-06|1995-10-10|Interfic Developments Incorporated|Apparatus and method for enhancing heating uniformity for setting adhesive in corrugated paperboard manufacturing|

US5526739A|1993-09-22|1996-06-18|Corrugated Gear & Services Inc.|Apparatus for applying variable pressure to a surface|

US5611267A|1993-09-22|1997-03-18|Corrugated Gear & Services, Inc.|Apparatus and method for applying variable pressure to a surface in corrugated paperboard manufacturing|

US5788803A|1996-10-16|1998-08-04|Interfic, Inc.|Corrugated paperboard manufacturing apparatus with controllable preheating|

US5902502A|1996-10-16|1999-05-11|Interfic, Inc.|Corrugated paperboard manufacturing apparatus and related methods|

US5837974A|1996-10-16|1998-11-17|Interfic, Inc.|Corrugated paperboard manufacturing apparatus with board profile monitoring and related methods|

US5847362A|1996-10-16|1998-12-08|Interfic, Inc.|Corrugated paperboard manufacturing apparatus providing controllable heat and related methods|

US5732622A|1997-01-24|1998-03-31|Corrugated Gear And Services|Machine for manugacturing corrugated board|

KR20020004630A|2000-07-06|2002-01-16|정강훈|Manufacturing device of corrugated paper|

US7459049B2|2006-06-28|2008-12-02|Marschke Carl R|Method and apparatus for manufacturing open core elements from web material|

US20080078495A1|2006-06-28|2008-04-03|Carl Marschke|Web Fluting Apparatus and method of Forming Open Core Web Elements|

US7896999B2|2006-06-28|2011-03-01|Carl R. Marschke|Method of forming open core web elements|

US20080053022A1|2006-07-13|2008-03-06|Marschke Carl R|Hollow core floor and deck element|

US20090029840A1|2007-07-24|2009-01-29|Jung Chi Chen|Corrugating machine|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

US05/722,699|US4126508A|1976-09-13|1976-09-13|Apparatus for forming multi-flute-layer corrugated board|

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