前苏联专利SU1669394A3 Apparatus for applying marks or fold lines

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法律状态

优先权

专利摘要:
The invention relates to a method for carrying out along optional reagions of a blank or a web of a material comprising at least one layer of paper or cardboard a local thickness reduction of the web or the blank for the purpose of obtaining visible markings or of facilitating the shaping of the material and/or improving the prerequisites for manufacturing packages from the material. The said thickness reduction is achieved by passing the material (141) over one or more die rolls (140), each being provided with raised portions (139) and by bringing the material by means of the said die rolls into contact with a rapidly rotating grinding wheel (142) with the help of which selected surfaces (143) of the material are ground away. The invention also relates to a material to be used for packages which can be easily folded in spite of some layers being overlapped.
公开号:SU1669394A3
申请号:SU853977502
申请日:1985-11-04
公开日:1991-08-07
发明作者:Ниске Йорген
申请人:Аб Тетра Пак (Фирма)；
IPC主号:

专利说明:

J
The invention relates to a device for applying markings or folding lines on packaging materials and can be used in various industries.
In packaging technology, single-turn packaging is made from a material that consists of a carrier layer of cardboard or paper and the outer and inner coverings of a thermoplastic. Often, in such packages, the packaging material is also provided with additional layers of another material, such as aluminum foil or plastic layers, etc.
The composition of the packaging material is designed to provide optimal protection for the products to be packaged, while at the same time giving the package sufficient mechanical protection for the product and adapting the packaging.
so that it can easily be held in the hands of the consumer.
Whether the packaging container is made from preformed blanks, or it is made from a continuously fed web, the packaging material is uniformly thick so that & e can obtain the desired shape stiffness, paper or cardboard layer relative to the thickness of the other layers enclosed in laminate flooring. This means that when combined with the formation and compaction of the packaged layers, significant local thickening may occur, and leaks may occur at the junctions between one section, with multiple material thicknesses and the other with a single material thickness. These leaks are particularly discharged at the intersection points of the joints, where each joint zone represents a double or multiple
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Topical material. At such intersection points, which are called crosses, can easily form leakage channels that can cause minor leakage of fluid, or in aseptic packages can contaminate the sterile contents of the package.
For this, the packaging material, namely its main layer, which mainly determines the thickness, can be reduced in thickness within the zones where the material enters the multi-layered portions, e.g. This reduction in thickness suggests local machining of selected areas of material.
The aim of the invention is to improve the quality of marking or bending lines.
FIG. 1 shows a blank for the length of the packaging conveyor; FIG. 2 shows a soft-packing material equipped with folding lines; facilitating the formation of packaging material; in fig. 3 — marking device or folding lines; in fig. 4-device with an additional pair of grinding and matrix rollers; in fig. 5 - matrix roller device; in fig. 6 - the area processed by the proposed device.
A blank for packing container (fig. 1), cut from a sheet or sheet of cardboard of constant thickness, is divided by fold lines 1 into side panels
spaces 2 and 3, the upper closing 35. sealing seam, which lies
panels 4 and 5 and lower sealing panels 6 and 7. Upper closing panels 5 and lower sealing panels 6 have a triangular shape and are arranged to be wrapped in the form of bellows between upper closing panels 4 and lower sealing panels 7, respectively . While the triangular panels 5 and 6 are folded in this manner, the adjacent panels 8 are folded in such a way that they lie between the panels 4 and 5 and the panels .7 and 6, respectively. This upper and lower structure is usually found in gable-top packages.
In principle, the preform is transformed into a package, initially forming a square or rectangular cross section tube and joining together the short sides of the preform so that the panel 9 joins overlap with the corresponding short side of the preform with a longitudinal seam. After the preform is formed into a tube of square or rectangular cross section, it is loaded into a mandrel of a packaging machine (not shown). Until
the tubular blank is on the mandrel, the bottom wall panels 6 and 7 are folded one above the other in this way, after which the bottom panels are sealed to one another
By the fact that the thermoplastic coatings of the parts lying one against the other, are fused by applying heat and pressure. In order to stabilize the bottom seal, one of the bottom wall panels 7 is provided with a sealing tongue 10, which during the bottom seal overlaps the outer edge of the panel 7 of the outer bottom wall.
After completion of the compaction bottom
the formed container is removed from the mandrel and filled with the required content, after which the top is closed by slamming the upper closing panels 5 and 4 above the container opening with triangular panels 5 located between the outer triangular panels. After this top panel is bent, the sealing panels 11 are assembled side by side into a sealing rib containing four layers of material. By compressing these sealing panels while simultaneously applying heat, the thermoplastic coatings provided on the surface panels are made to melt and
they are joined together so that they form a liquid-permeable and durable sealing joint. The upper sealing panels 12 adjacent to the triangular panels are also connected to one another.
H. / I herme ./. With the seam of panels 11.
As mentioned, the finished package contains a number of areas where several layers of v. Material are arranged together and there is a danger of channeling at the point of the code pen between zones of different thickness. This applies primarily to the sealing zones at the top and bottom of the package and the points of intersection of the longitudinal overlapping seams, where the longitudinal edges of the shell are connected to each other, as well as to the upper and lower seals.
Certain v acTKH blanks for packaging (Fig. 1) zap. This section is reduced in thickness to obtain a more hermetic and better compaction. Parts whose thickness is reduced by grinding may vary in accordance with the requirement for external
type and design of the packaging container. It is also possible to give different polished areas a different thickness, i.e. remove various amounts of material, and it is also possible to vary the grinding thickness within the same grinding area.
First of all, they treat and reduce the thickness of those surfaces where several layers of material seal against one another, i.e. panels 11 and 9, in order to compensate for the effects obtained when a number of layers of material are compacted to obtain a relief-like pattern 13 in the packaging material of a decorative or promotional nature.
After grinding, the sanded surfaces of the material are coated with a thermoplastic layer, giving a protective coating against external moisture, which can be absorbed and damage the base layer of the packaging material,
The packaging material may also consist of a continuous web 14 (Fig. 2). Packages of such a web are made by turning the web 14 from the beginning 113 into a tube, connecting the longitudinal edges 15 of the web 14 to one another, after which the tube is filled with the necessary contents and divided into individual packaging containers by transverse sealing of the filled tube into the packaging and final separation of the packaging containers by cutting along the transverse sealing umbrella.
The packaging material web 14 (FIG. 2), as well as the workpiece 1, is provided with a pattern of fold lines 16 to facilitate packaging formation by folding. The outer edge 15 of the web is intended to overlap the opposite edge 15 of the web 14 in a longitudinal sealing joint and therefore the combined width of the outer panels 17 is somewhat larger than the width of the central panel 18. The full package length D. Zone 19 is between the complete decorations or patterns of the fold line 16 of one section of the package, which is a common sealing zone for uyuschih packages. Separation of packages occurs by cutting along this compaction tone, i.e. within zones 19 of the respective panel. As in the case of the blank, the areas with reduced thickness (Fig. 2) are shown hatched and in this case the edges 15, forming a longitudinal seam on the tube, which turns into a packaging container, are reduced in thickness at least in zones 20 where intersection with cross seam panels. In order to reduce the whole longitudinal seam to the same thickness as the remaining parts of the packaging wall, it is possible to reduce the thickness of the entire area of the longitudinal
a seam on the edge 15. In addition, in this case, the zone where several fold lines or bend lines converge (for example, zone K) is subjected to a reduction in thickness. The reason for this concludes; in that, especially in these zones, the packaging material is subjected to high stresses upon stretching, since the material is duplicated in several layers. These K-Ehiba stresses
0 becomes larger as the material is thicker, and these stresses can therefore be reduced by decreasing the thickness in the K-fold zones.
Fold lines 16, which contribute to the bending of the material, can also be ground, which means this material is removed in the area of the fold lines 16 instead of breaking fibers in the paper or cardboard material and creating permanent deformation according to the pattern of the bend lines. The grinding of the fold lines 16 can be carried out in such a way that the bending is facilitated considerably compared to conventional bend lines, but leads to
5 behind a certain weakening of the material. The grinding or milling operation can be carried out using a device (Fig. 3-5), which contains two mounted with a cart; with the help of
The rotation of the roller is a grinding 21 and a matrix 22, having projections 23 on the outer surface. The frequency of rotation of the grinding roller 21 exceeds the frequency of rotation of the matrix. The protrusions 23 are located on the surface of the matrix roller 22. having a shape and size corresponding to the shape of the desired areas with a reduced thickness,
Adjoining to the matrix roller 22, a rapid rotating grinding roller 21 is seated. It is rotatable and rotatable against the feed direction of the material. However, it can also rotate in the opposite direction (depending on its design). The distance between the surface of the matrix roller 22 and the working edge or working surface of the grinding roller 21 can be adjusted until it is
0 will correspond to or slightly exceed the normal total thickness of the web 24 of the packaging material, meaning that the material can pass under the grinding roller 21 without touching it.
5 When the matrix roller 22 rotates, which occurs synchronously with the feeding of the web 24 of the packaging material, the protrusions 23 on the matrix roller 22 press the web 24 to the grinding roller 21 and the material is ground within the portions of the web 24 that are exposed to the protrusions 23. the protrusions 23 can accurately determine the depth of grinding in the material. It has been found that grinding produces a well-marked ground surface, with the exception that a transition zone always forms between the material with a full depth of grinding and the total thickness of the material. One phenomenon that is observed is that the grinding edge becomes rough and shows edge burrs if the direction of rotation of the grinding roller 21 weakens contact with the material along a line running parallel to the axis of the grinding roller 21. To eliminate this line of the back the edges in the feed direction of the abraded zones must either be adapted so that they form an angle with the axis of rotation of the grinding roller 21, or the abraded zones must be designed in such a way that their rear edge ends at the point at which the grinding roll 21 is gradually attenuates interaction with sanding area and, finally, can completely lose contact blade 24 material. By grinding in this way, relatively uniform grinding with clean edges can be achieved.
However, the problem of burrs of edges or areas can be solved by the fact that the device contains an additional pair of rollers, and the grinding rollers of each pair are mounted rotatably in opposite directions.
The device (Fig. 4) may contain two matrix rollers 22, which are provided with protrusions 23 on their surface. Grinding rollers 21 are provided for each of the matrix rollers 22. The matrix rollers 22 of both pairs have the same direction of rotation, as grinding rollers 21 have the opposite direction of rotation. FIG. Figure 6 shows a grinding zone consisting of two regions, partially overlapping one another (regions 25 and 26). In the grinding operation (Fig. -4), the area 25 is ground with a first grinding roller 21, while the second area 26 is ground with a second grinding roller 21 and there is an overlap area 27 between areas 25 and 26 (Fig. 6), which it is machined with both rollers 21. In order to achieve such a double grinding zone, both matrix rollers 22 must be set in motion perfectly synchronized and this can be done with
using a gear or chain drive. In addition, the protrusions 23 should be positioned on the respective matrix rollers 22 so that they engage with the web 24 in such a way that the overlapping pattern is obtained (Fig. 6). This installation of the position of the protrusions 23 on the matrix rollers 22 is relatively easy to implement, and once it is installed once, the position in relation to the web 24 does not change due to the fact that the matrix rollers 22 are set in motion synchronously. By performing a grinding operation on the grinding zone as
5 two-particle grinding, overlapping one another, can eliminate this drawback, because the grinding burr, which is formed in two zones, is within the overlap zone 27,
0 which is machined by both grinding rollers and therefore does not have any grinding burrs.
With the use of the device (FIG. 4) with two oppositely rotating
5, the grinding rollers 21 make it possible to grind small parts without paying attention to what a burr can be. By grinding with greater precision can
0 oblique or converging bend lines should be obtained. It is good to use double grinding (fig. 4), when it is necessary to grind a relief-like decorative pattern 13 (fig. 1) in the packaging material,
5 and using the device it is possible to grind very fine details in a decorative pattern, also in a grinding sample that has a purely technical function. Grinding depth
0 can be obtained in any grinding area by designing the protrusions 23 of the matrix rollers 22 in an appropriate manner. This can be used not only if you intend to receive
5 is a relief-like decorative pattern, but also when the thickness of the abraded areas is reduced in order to achieve an optimum grinding effect with the help of a stepped grinding depth.
0
It is possible, for example, to apply the invention to obtaining relief-like samples of postal paper, securities, documents of identity, etc.
5 to get a decorative effect or identity control for security purposes.

权利要求:
Claims (2)
[1]
Claims 1. A device for applying markings or folding lines, containing two rollers mounted rotatably - grinding and matrix, characterized in that, in order to improve the quality of the application, the rollers are installed with the possibility of adjusting the distance between them, and the matrix roller has the outer surface of the protrusions, and the frequency of rotation of the grinding roller
go
exceeds the rotational speed of the matrix roll.
[2]
2. An apparatus according to claim 1, characterized in that it is provided with an additional pair of rollers, and the grinding rollers of each pair are rotatably mounted in opposite directions.
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类似技术:

公开号 | 公开日 | 专利标题

SU1669394A3|1991-08-07|Apparatus for applying marks or fold lines

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US4708708A|1987-11-24|Method and apparatus for skiving and hemming

US4540391A|1985-09-10|Method and apparatus for skiving and hemming

US5056707A|1991-10-15|Packaging

US3918237A|1975-11-11|Machine for the manufacture of filled and sealed containers

US4617211A|1986-10-14|Method and apparatus for skiving and hemming

CA1201024A|1986-02-25|Packing laminate in the form of a web and a methodfor manufacturing the same

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ES469509A1|1979-01-01|Package blanks

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同族专利:

公开号 | 公开日

DE3561295D1|1988-02-11|

PT81434B|1987-09-18|

FI78870C|1989-10-10|

EP0185897B1|1988-01-07|

JPS61178836A|1986-08-11|

SE8504990D0|1985-10-23|

SE8504990L|1986-05-06|

DK160687C|1991-09-30|

DK505785D0|1985-11-01|

BR8505509A|1986-08-05|

DK160687B|1991-04-08|

PT81434A|1985-12-01|

JPH0576421B2|1993-10-22|

IE56972B1|1992-02-26|

KR890000989B1|1989-04-15|

KR860003953A|1986-06-16|

UA5966A1|1994-12-29|

NO166221B|1991-03-11|

SE8405539D0|1984-11-05|

ES548503A0|1986-11-16|

JPH0780499B2|1995-08-30|

FI854327A|1986-05-06|

NO166221C|1991-06-19|

US4645484A|1987-02-24|

US4711797A|1987-12-08|

ES8701050A1|1986-11-16|

DK505785A|1986-05-06|

AU5131885A|1986-08-28|

SE464567B|1991-05-13|

AT31670T|1988-01-15|

IE852732L|1986-05-05|

AR243116A1|1993-07-30|

AU581711B2|1989-03-02|

SE451253B|1987-09-21|

SE8405539L|1986-05-06|

CA1247911A|1989-01-03|

CN87108290A|1988-08-03|

NO854362L|1986-05-06|

EP0185897A1|1986-07-02|

FI78870B|1989-06-30|

MX163538B|1992-05-28|

CN85108145A|1986-04-10|

FI854327A0|1985-11-04|

CN85108145B|1988-08-03|

JPS61171329A|1986-08-02|

CN1004866B|1989-07-26|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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US3074327A|1960-02-10|1963-01-22|Svenska Tandsticks Aktiebolage|Method and apparatus for making fold lines in fibrous sheet material|

US3073216A|1960-05-19|1963-01-15|Gaunt Thomas Norman|Liquid proof containers|

US3179025A|1960-06-10|1965-04-20|Olin Mathieson|Apparatus for perforating|

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US3408776A|1965-03-05|1968-11-05|Johnson & Johnson|Method for producing perforated sheet materials|

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US3779786A|1972-01-14|1973-12-18|Eastman Kodak Co|Method for manufacturing aperture cards|

US3780626A|1972-07-25|1973-12-25|Sutco Inc|Device for thinning cellulosic strips|

US3854249A|1973-07-09|1974-12-17|Sonoco Products Co|Deckle grinder|

DE2750901A1|1977-11-14|1979-05-17|Linnich Papier & Kunststoff|FOLDING BOXES FOR LIQUIDS|

JPS55121840U|1979-02-22|1980-08-29|

JPS612045Y2|1979-06-11|1986-01-23|

JPS613667B2|1980-08-15|1986-02-03|Dainippon Printing Co Ltd|

US4540391A|1982-12-06|1985-09-10|International Paper Company|Method and apparatus for skiving and hemming|

JPS59181027U|1983-05-23|1984-12-03|EP0195887A3|1985-01-24|1989-05-03|Tetra Alfa Holdings S.A.|A method for the manufacture of a material in the form of sheets or a web provided with a watermarklike pattern|

GB2172550B|1985-01-24|1988-11-16|Svecia Antiqua Ltd|A method for the manufacture of a material in the form of paper sheets or a paper web provided with a watermarklike pattern.|

EP0261302A3|1986-09-22|1988-08-10|Kenneth Neville Dorrington|Containers|

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US10807098B1|2017-07-26|2020-10-20|Pearson Incorporated|Systems and methods for step grinding|

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US10757860B1|2019-10-31|2020-09-01|Hemp Processing Solutions, LLC|Stripper apparatus crop harvesting system|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

SE8405539A|SE451253B|1984-11-05|1984-11-05|MATERIAL FOR PACKAGING CONTAINERS WHICH HAVE A THICKNESS REDUCED AND Z-WEIGHT TO CREATE STIFFING AND PACKAGING CONTAINERS MANUFACTURED OF THIS MATERIAL|LV930904A| LV5435A3|1984-11-05|1993-06-30|Device for marking or joining lines|

LTRP1003A| LT2515B|1984-11-05|1993-09-20|LABELING OR CLOSING LINE DETECTION IN AUSTRIA|

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