WO2020263149A1 - Sac - Google Patents

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Publication number
WO2020263149A1
WO2020263149A1 PCT/SE2020/000016 SE2020000016W WO2020263149A1 WO 2020263149 A1 WO2020263149 A1 WO 2020263149A1 SE 2020000016 W SE2020000016 W SE 2020000016W WO 2020263149 A1 WO2020263149 A1 WO 2020263149A1
Authority
WO
WIPO (PCT)
Prior art keywords
bag
goods
paper
layer
strip
Prior art date
Application number
PCT/SE2020/000016
Other languages
English (en)
Inventor
Robert GRENMARK
Yvonne CEDERGREN
Claes GARDELIN
Ola HÖGSTRÖM
Original Assignee
Ifoodbag Ab
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ifoodbag Ab filed Critical Ifoodbag Ab
Publication of WO2020263149A1 publication Critical patent/WO2020263149A1/fr

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D33/00Details of, or accessories for, sacks or bags
    • B65D33/06Handles
    • B65D33/12String handles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D31/00Bags or like containers made of paper and having structural provision for thickness of contents
    • B65D31/02Bags or like containers made of paper and having structural provision for thickness of contents with laminated walls
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D33/00Details of, or accessories for, sacks or bags
    • B65D33/06Handles
    • B65D33/08Hand holes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D33/00Details of, or accessories for, sacks or bags
    • B65D33/06Handles
    • B65D33/10Handles formed of similar material to that used for the bag
    • B65D33/105U-shaped
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D33/00Details of, or accessories for, sacks or bags
    • B65D33/16End- or aperture-closing arrangements or devices
    • B65D33/18End- or aperture-closing arrangements or devices using adhesive applied to integral parts, e.g. to flaps
    • B65D33/20End- or aperture-closing arrangements or devices using adhesive applied to integral parts, e.g. to flaps using pressure-sensitive adhesive
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D33/00Details of, or accessories for, sacks or bags
    • B65D33/16End- or aperture-closing arrangements or devices
    • B65D33/18End- or aperture-closing arrangements or devices using adhesive applied to integral parts, e.g. to flaps
    • B65D33/22End- or aperture-closing arrangements or devices using adhesive applied to integral parts, e.g. to flaps using heat-activatable adhesive
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D33/00Details of, or accessories for, sacks or bags
    • B65D33/16End- or aperture-closing arrangements or devices
    • B65D33/25Riveting; Dovetailing; Screwing; using press buttons or slide fasteners
    • B65D33/2508Riveting; Dovetailing; Screwing; using press buttons or slide fasteners using slide fasteners with interlocking members having a substantially uniform section throughout the length of the fastener; Sliders therefor
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D81/00Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents
    • B65D81/02Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents specially adapted to protect contents from mechanical damage
    • B65D81/03Wrappers or envelopes with shock-absorbing properties, e.g. bubble films
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D81/00Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents
    • B65D81/38Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents with thermal insulation
    • B65D81/3888Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents with thermal insulation wrappers or flexible containers, e.g. pouches, bags
    • B65D81/3897Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents with thermal insulation wrappers or flexible containers, e.g. pouches, bags formed of different materials, e.g. laminated or foam filling between walls

Definitions

  • the present application relates to a bag, for transporting goods, such as e.g. fragile goods.
  • the present application also relates to a collapsible bag. It also relates to a method for providing a collapsible bag, and to a method for providing a bag.
  • the present application also relates to a method of delivering goods.
  • the present application also relates to a handle-carryable carrier bag package.
  • the transport of goods such as e.g. fragile goods, often require some sort of packaging for wrapping and enclosing the goods.
  • the goods may include one or several articles, an article being for example a book, an electronic device, a piece of clothing, and/or a Compact disc.
  • envelopes There are a number of known shipping or mailing envelopes, i.e. envelopes that are provided with packing or cushioning material to help protect fragile or breakable articles. Cushioning material is often used to help protect articles that are shipped or mailed in envelopes. For instance, a person may wrap an article inside cushioning material and then place the wrapped article inside an envelope.
  • envelopes may be manufactured with cushioning material secured in the envelope, commonly in the form of a liner or inner envelope inside an outer envelope.
  • cushioning material secured in the envelope, commonly in the form of a liner or inner envelope inside an outer envelope.
  • a person inserts an article inside the liner or inner envelope and then closes and mails the outer envelope.
  • Plastic sheets impregnated with a multitude of bubbles are a common cushioning material used in the above-discussed situations.
  • This packing material commonly referred to as bubble wrap, has several disadvantages, however. For example, toxic wastes are produced when these materials are made. In addition, the disposal of these materials has become a significant environmental problem. Further, bubble wrap is somewhat bulky, and it is often not practical to store large quantities of bubble wrap for extended periods of time.
  • US5,544,473 discloses a protective envelope comprising an outer envelope forming an interior and a top back edge; and a packing material secured in the interior of the outer envelope and forming a pocket for receiving an article.
  • the packing material is comprised of a flexible and expandable paper material forming a multitude of slits arranged to allow the packing material to be pulled into a three-dimensional honeycomb shapes, and the packaging material extends above the top back edge of the outer envelope to facilitate pulling the packing material into said three- dimensional shape.
  • a person i.e. a user, must pull sections of the flexible and expandable paper material upwards relative to the outer envelope to twist those sections into three-dimensional honeycomb shapes, and the user can threafter place an article between the expanded sections.
  • a problem to be addressed by an aspect of the invention is how to achieve an improved, yet cost-efficient, and environmentally friendly transportation of goods using a bag.
  • a problem to be addressed is to provide an improved bag.
  • a protective bag for transporting goods comprising at least one wall panel being shaped and adapted to form an interior storage space (100) for transporting said goods; the at least one wall panel including
  • the protective bag in its expanded state, provides said interior storage space for transporting goods, the protective bag further comprising:
  • the protective bag has
  • a closed expanded state (20D) such that the protective bag (20), in its closed expanded state (20D), provides a closed interior storage space for transporting goods; wherein the bag opening is a closable opening which, in the closed expanded state (20D) of the protective bag cooperates with said at least one wall panel so as to protect said goods, when placed in the interior storage space, against impact damage.
  • This solution advantageously provides a protective bag that may be produced at low cost while enabling the transportation of goods, such as fragile goods and/or impact sensitive goods, in the interior storage space.
  • the at least one wall panel of the protective bag may be adapted to enclose said goods so that said cushioning layer thereby protects the goods against impact damage and/or breakage by impact during transport of the protective bag.
  • Figure 1 is a side perspective elevational view showing an example assembly operation 11 used in making a laminated paper protective strip 5.
  • Figure 2 is a side diagrammatic perspective view of the cut off section of the strip 5 as produced by the procedure of Figure 1.
  • Figure 3 is a transverse fragmentary sectional view upon the line 3-3 of Figure 2, upon an enlarged scale as compared to Figure 2.
  • Figure 4 is a longitudinal fragmentary sectional view upon the line 4-4 of Figure 2 upon an enlarged scale as compared to Figure 2.
  • Figure 4A illustrates an example on how the thermal conductivity of paper materials depend on density.
  • Figure 5 is a side diagrammatic perspective view of an alternative example of the front edge portion 25b of the protective strip.
  • Figure 6 is a partially sectioned perspective view of a part of an example of a bag 20 that may be based on the tubular protector strip 5T of Figure 7.
  • Figure 7 is a diagrammatic perspective view of the front edge portion 25b of the protective strip 5 of Figure 5 in the folded state forming a tubular protector strip 5T.
  • Figure 8 is a longitudinal fragmentary sectional view upon the line 8-8 of Figure 5, but extending further to right than shown in Figure 5, so as to illustrate not only the front edge portion 25b but also a portion of the filler area Z.
  • Figure 9 is a longitudinal fragmentary sectional view upon the line 9-9 of Figure 5 but extending further to right than shown in Figure 5 so as to illustrate not only the front edge portion 25b but also a portion of the filler area Z (compare Figure 2 and Figure 7).
  • FIG 10 is an illustration of an alternative example wherein the flap 26 is formed by layers G and F.
  • Figure 11 illustrates the example of Figure 8, but before removal of frontmost portion of layer F.
  • Figure 12 is a side perspective elevational view showing another example of assembly operation 15 that may be used in making a tubular protector strip 5T.
  • Figure 13 is diagrammatic a side perspective view of an example of a bag based on a tubular protector strip 5T as produced by the assembly of Figure 12.
  • Figure 14 is a diagrammatic side perspective view of another example of a tubular protector strip 5T as produced by the assembly of Figure 12.
  • Figure 14A is an illustration of an example of a part of the filler area Z provided with an intermediate material comprising a plurality of interconnected superposed sheets of a yieldable material.
  • Figure 15 is a diagrammatic side perspective view of another example of a tubular protector strip 5T, or semi-manufactured bag 20, similar to that shown in Figure 14.
  • Figure 16 is a diagrammatic side perspective view of yet another example of a tubular protector strip 5T, or semi-manufactured bag 20, similar to that shown in Figure 14.
  • Figure 17 is a diagrammatic side perspective view of yet another example of a tubular protector strip 5T, or bag 20, similar to that shown in Figure 14.
  • Figure 17A shows a table with measurement data from comparative test, comparing temperature retaining capacity for different bags and comparing temperature retaining capacity for bags with mutually different intermediate materials.
  • Figure 18A is an illustration of a flat state of a bag 20 based on any one of the examples of tubular protector strip 5T described in this disclosure.
  • Figure 18B is an illustration of an expanded state of the bag 20 in Figure 18A.
  • FIG. 18C shows some different implementations of handle embodiments.
  • FIG. 18D shows is an illustration of a bag 20 comprising a string, the string being provided as a handle for the bag 20.
  • FIG. 18E shows a bag provided with a rope handle, or a cord handle.
  • FIG. 18F illustrates a method for forming a bottom panel of a bag.
  • FIG. 18G illustrates another example of a bag 20.
  • Figure 18H is a view in the direction of the arrow 6040 in figure 18G.
  • Figure 181 is a view in the direction of the arrow 6050 in figure 18G.
  • Figure 18J is an illustration of the bag 20 during the process of folding in the direction of arrows 6062 and 6064.
  • Figure 19 is a schematic illustration of an environment 10 in which examples of a bag 20 for goods may be used.
  • Figure 20 is an elevational view of an example of a single collapsed goods carrier bag 20A.
  • Figure 21 is a front view of the collapsed goods carrier bag 20A.
  • Figure 22 is a rear view of the collapsed goods carrier bag 20A.
  • Figure 22A is an illustration of an example of providing a closure element.
  • Figure 22B is a side view of an elongated closure element.
  • Figure 22C-D are illustrations of examples of closure elements.
  • Figure 22E illustrates a bag having a cut-out handle.
  • Figure 22F and Figure 22G illustrate a manner of closing a bag 20 by folding a rim portion of the bag, adjacent to the bag opening.
  • Figure 23 is a side view of the collapsed bag 20A, as seen in the direction of arrow A in figure 22.
  • Figure 24 is an elevational view of the expanded goods carrier bag 20 in an open expanded state 20B.
  • Figure 25 is another elevational view of the expanded goods carrier bag 20 in an open expanded state 20B, illustrating an exterior look of an example of the expanded goods carrier bag 20, 20B.
  • Figure 26 is a top plan view of the expanded goods carrier bag 20 in an open expanded state 20B.
  • Figure 27 is an elevational view of the expanded goods carrier bag 20 in a closed expanded state 20C, illustrating an exterior look of an example of the expanded goods carrier bag 20 in its closed state 20C.
  • Figure 28 is a top plan view of the expanded goods carrier bag 20 in the closed expanded state 20C.
  • Figure 29 is a front view of the expanded goods carrier bag 20 in the closed expanded state 20C.
  • Figure 30 is a side view of the expanded goods carrier bag 20 in the closed expanded state 20C, as seen in the direction of arrow B in figure 29.
  • Figure 31 is an illustration of an example of the closure device 240.
  • Figure 32 is an illustration of Kraft Pulp Fibres.
  • Figure 33 is an illustration of an example of a first elongated closure element, and a second elongated closure element.
  • Figure 34A is a perspective view of a part of the closure device 240 shown in figure 31.
  • Figure 34B is a side view of the closure device 240.
  • Figure 35 is an illustration of an example of an insulator device.
  • Figure 36 is an elevational view of an example of a bag 20 in an open expanded state 20B, placed next to an example of a collapsible inner chill bag 400.
  • Figure 37 is an elevational view of an example of a handle-carryable goods carrier chill bag package 450.
  • Figure 38 shows a schematic block diagram of an example of a system for delivering goods, such as e.g. groceries, according to an example of the invention.
  • Figure 39 is a schematic block diagram of an example of a storage facility comprising plural storage rooms for storing goods.
  • Figures 40A and 40B and 40C show a schematic block diagram of an example of a method of delivering chilled goods and/or frozen goods.
  • Figure 41 is an illustration of a bag 20 including a a neck portion of flexible material at the rim portion of the bag wall(s), the flexible material being shaped and sized to allow a string being placed around the neck portion so as to strangle the neck portion such that the bag 20 becomes sealed or substantially sealed.
  • Figures 41A and 41 B are an illustration of a method of determining a bag wall area over which a lifting force force F is distributed.
  • Figure 41C is a schematical representation of a coated paperboard F,G according to an example.
  • Figure 41D is a schematical representation of another coated paperboard according to an example.
  • Figure 41E is a schematical representation of a coated paper 1008, G, F according to an example.
  • Figure 41F illustrates an example of a manner of heat sealing by placing a first portion of a meltable membrane adjacent to second portion of a meltable membrane.
  • This disclosure relates i.a. to a laminated rectangular protector strip 5 for wrapping and enclosing goods.
  • the goods may include one or several articles, an article being for example a book, an electronic device, and/or a Compact disc.
  • a protector strip 5 may be used for producing a bag 20, including a bag of the kind which may be also be referred to as "envelope".
  • bag is used herein to include bags of a variety of size, including a bag of the kind which may be also be referred to as an "envelope”.
  • Such a protective bag 20, or protective envelope 20, includes a cushioning material.
  • a bag 20 may also be referred to as container 20 in this disclosure and/or in accompanying drawings.
  • the rectangular protector strip 5 may comprise parallel, elongated sheets of strong paper, of which one sheet may be wider than the other sheet, adhesive coatings on the opposed faces of said sheets holding the sheets together adjacent their margins Tl, T2 fragmented stuffing material disposed between said coated faces, said stuffing material being adhesively attached to at least one of said coatings, said stuffing material being lightly compressed and applied across an area which is less than the width of said other sheet, said one sheet having outwardly projecting longitudinal side extension portions folded inwardly over said other sheet and outwardly lapping the marginal edges thereof, said extensions being secured in said folded over position by said adhesive.
  • the protector strip it has been found most satisfactory to provide a continuous method, according to which rolls of a relatively heavy strong paper are fed to an assembly position so that they may be laminated or joined together to form a protector strip which, if desired, may be further formed into a package such as an envelope or bag.
  • the disclosure also relates to a package made from a laminated rectangular protector strip as defined herein.
  • a package made from a laminated rectangular protector strip as defined herein.
  • the sheets may be suitably covered with an adhesive e.g. a hot resinous adhesive material, or less preferably with glue, asphalt or similar adhesives, which will retain its adhesiveness for a predetermined period of time.
  • the stuffing material whether it be cut up paper or paper fragments, waste paper material, fibrous material or like fragmented stuffing material, is fed between the sheets, and desirably, so that each fragment will adhere to that adhesive before it is converted into a dry flexible material.
  • the adhesive is applied to the opposed inner faces of the paper sheets by roller coating, and after the fragmented stuffing material has been dropped, or sprayed onto, or inserted, between the meeting sheets as they come together, there is a substantial compression so that the adhesively connected sheets will be
  • One, two or more thin facing sheets as of a tissue or other paper of light weight may optionally be added to the protector strip, which will be folded into the adhesive edge bond when the edges are folded over.
  • These facing sheets should be wider than the other sheet but narrower than the one sheet, so that they are independently adhesively connected.
  • the laminated protector strip may be cut into sections, and this is desirably done by forcing a serrated knife transversely through the protector strip into a slot formed in a receiver positioned at the opposite side of said strip with the result that a serrated pointed edge will be formed which is less likely to cut the hands of a person handling the strip.
  • Figure 1 is a side perspective elevational view showing an example assembly operation 11 used in making a laminated paper protective strip 5.
  • Figure 2 is a side diagrammatic perspective view of the cut off section of the strip 5 as produced by the procedure of Figure 1.
  • Figure 3 is a transverse fragmentary sectional view upon the line 3-3 of Figure 2, upon an enlarged scale as compared to Figure 2.
  • Figure 4 is a longitudinal fragmentary sectional view upon the line 4-4 of Figure 2 upon an enlarged scale as compared to Figure 2.
  • an upper paper roll A and a lower paper roll B both feed sheets of kraft or other strong paper toward the left over and under adhesive coater rollers C and D, which apply a thin layer of a flexible adhesive E to the opposed faces AOF and BOF of the paper sheets F and G.
  • the layers of flexible adhesive E may be applied e.g. by spraying or sprinkling an adhesive onto the opposed faces AOF and BOF of the paper sheets F and G, the spraying or sprinkling being performed by controllable adhesive appliers Cs and Ds, respectively.
  • the controllable adhesive appliers Cs and Ds, respectively may be controllable sprayers.
  • controllable adhesive appliers Cs and Ds enables controlled provision of adhesive onto selected portions of the opposed faces AOF and BOF of the paper sheets F and G.
  • the intermediate material H may be a fragmented stuffing material H e.g. that is spread from a hopper feed J.
  • the fragmented stuffing H may be provided to hopper feed J with a screw feed means, as well as suitable shaker means to assure uniform distribution for the lateral width of the strip as it is being assembled. It is noted that the fragmented stuffing material H may be applied by any suitable device, and it may be sprayed onto the adhesive E covered faces AOF and BOF of the paper sheets F and/or G.
  • the fragmented stuffing material H may be applied e.g. by spraying or sprinkling fragmented stuffing material H onto the opposed faces AOF and BOF of the paper sheets F and G, the spraying or sprinkling being performed by a controllable stuffing material applier Js.
  • the provision of controllable stuffing material applier Js enables controlled provision of the fragmented stuffing material H onto the selected portions of the opposed faces AOF and BOF of the paper sheets F and G.
  • rolls of such extra surfacing paper may optionally be provided at Q to supply sheets thereof, indicated at R, on top of the uppermost sheet F or terminating short of the edges of the sheet G, so that the adhesive applied by the optional roller coaters PI, P2 will be effective to hold them in position when the sheets are acted upon by optional in-folders S to optionally form folded smooth edges T1 and or T2.
  • a vertical reciprocating cutter U has a serrated edge V, which extends into a slotted receiver W so as to cut and downwardly deflect the end edges of the protector strip.
  • the final laminated protector strip 5 is shown in Figure 2 and it has serrated cut end edges Y.
  • An area Z of the laminated protector strip 5 is centrally located to contain the intermediate material H also referred to as stuffing material H, the area Z thereby constituting a filler area Z (See Figure 2, Figure 3, and Figure 4, as well as Fig 14A).
  • the stuffing material H between the inside faces of the upper sheet F and the lower sheet G is held together by the adhesive E, which is desirably applied when liquid but in heated condition so that it will adhere to the sheet in the form of a thin layer and be depressed into contact with the filler material H by means of the nip rollers K and L.
  • the cut-off by the blade U will leave a series of projections Y projecting downwardly into the slotted member W, with the result that the bent down edges of the projections Y will not be a cutting edge but will be a smooth, non-shearing surface which will not cut or abrade or injure the hands of a person touching the edge of the protector strip 5.
  • the optional extra surfacing paper facings may be movable relatively to each other and to the surface of the upper sheet F so as to prevent abrasion or scuffing of the articles disposed thereagainst.
  • the stuffing material H will have some adhesive connection to either the adhesive E on the upper sheet F or to the adhesive E on the lowermost sheet G.
  • the folding over of the lowermost sheet G as
  • a controller 23 may be provided to control the operation of adhesive sprayers Cs and Ds, and stuffing material applier JS, as well as the speed VPF of protector strip paper layers, and the operation of the reciprocating cutter U.
  • the coordinated control 23cs, 23DS, 23JS, 23VPF, 23U of the adhesive sprayers Cs and Ds, stuffing material applier JS, speed of transport of protector strip paper layers, and operation of the reciprocating cutter U advantageously enables control of the length of the centrally located filler area Z as well as control of the lengths of the protector strip front edge portion 25b and a protector strip back edge portion 25c.
  • control of the transport speed VPF is illustrated in a very simplified manner, and that the control of the transport speed VPF involves controlling e.g. the drive speed of the various rollers illustrated in Figure 1 and in Figure 12 as well as controlling e.g. the drive speed of the relevant paper rolls.
  • the protector strip 5 described may be used for making paper bags, paper envelopes, boxes or other enclosures.
  • the protector strip described may also be used for making multi-laminar sheet materials where paper is to be provided with filling or stuffing H so that it may be used for a protective envelope, protective bag or protective cover.
  • the back edge portion 25c of protector strip 5 may be folded so as to form at least a part of a flat bottom panel, or substantially flat bottom panel.
  • the protector strip 5 may form at least one wall of a bag so that a protector strip front edge portion 25b the wall panel 110, 120 facing away from a bag bottom panel 140 may provide a bag opening 160, described and illustrated elsewhere in this document, e.g. in Figure 6 and/or Figure 13, 14, 15, 16, 17.
  • the described protector strip may be used to form a package in which the laminated paper material having stuffing or protective material enclosed therein, the edges of which have been so formed as not to cause any cutting or abrasion of the section in contact therewith and so that the filling material will be held securely in position without undue shifting or movement and without too great loss if the package may be ruptured.
  • the described protector strip is simple to make, involves a minimum of manual labour and a maximum of production at low cost, and can provide packages without serrating or cutting edges likely to cause injury to the hands or fingers of those who prepare said packages.
  • a stuffed protective envelope or laminated paper package or cover made from the described protector strip will have its stuffing material held securely in place without displacement or lumping up during usage, and with a reduced fall-out of stuffing material upon ripping of the package.
  • Figure 4A illustrates an example on how the thermal conductivity of paper materials depend on density (the graph shows typical/average values, and thus certain paper qualities may deviate from the illustrated example).
  • the graph in figure 4 A is based on data from Kartoaara et. al. 1985. In this connection it is noted that the thermal conductivity of paper materials depends on density; paper of lower density typically having a lower thermal conductivity.
  • paper having a density of about 1000 Kg/cubic metre typically has a thermal conductivity of less than 0,2 W/(m*K) when established at 23°C and 50% RH (Relative Humidity), i.e. this is when the paper is relatively dry.
  • the graph in figure 4A indicates that paper having a density of about 1000 Kg/cubic metre typically has a thermal conductivity of less than about 0,15 W/(m*K) when established at 23°C and 50% RH (Relative Humidity), and the thermal conductivity is typically lower for paper of lower density.
  • the paper F may be 60 grams per m 2 and the paper G may be 90 grams per m 2 .
  • the outer material layer F of the bag is formed by kraft paper having the following characteristics:
  • the thermal conductivity was established in accordance with ISO standard 22007- 2:2008. The thermal conductivity was established at 22°C and 50% RH.
  • Kraft paper layer air permeability 0.5 pm/(Pa s).
  • the above Kraft paper layer example may also be used for forming the inner material layer G of the bag.
  • the paper sheets F and G may be of a water resistant paper quality.
  • Basis weight of the water resistant paper F and/or G may be 60 grams per m 2 or more.
  • the paper sheets F and/or G, respectively may form an outer material layer, and/or an inner material layer, respectively, of a bag.
  • bag is used herein to include bags of a variety of size, including a bag of the kind which may be also be referred to as an "envelope". When air in the environment is humid and goods in the interior of the bag is chilled and/or frozen, there may be water generated by condensation on the outside surface of the bag.
  • This solution i.e. providing a water resistant paper quality for forming an outer material layer of the bag, advantageously eliminates or minimizes seepage of such water into the wall. Thereby, the integrity of the bag is maintained or substantially maintained. Moreover, the water resistant paper quality on the outer material layer of the bag, advantageously reduces or eliminates an increased thermal conduction in the wall which may otherwise occur due to water having a high thermal conductivity of about 0,6 W/(m*K).
  • the water resistant paper F and/or G may be supercalendered paper, thus having a high density, the supercalendered paper being a glassine paper.
  • the glassine paper is a smooth and glossy paper that is air, water and grease resistant.
  • the glassine paper is manufactured by supercalendering: after pressing and drying, the paper web is passed through a stack of alternating steel and fiber-covered rolls called a supercalender at the end of the paper machine such that the paper fibres flatten facing in the same direction.
  • the upper paper roll A and/or the lower paper roll B may feed sheets of kraft or other strong paper that is water resistant.
  • the upper paper roll A and/or the lower paper roll B may feed sheets of kraft paper that is glassine, manufactured by supercalendering.
  • the supercalendered paper F and/or G may optionally be treated in a size press to fill pores or treat the paper chemically to make it fat repellent.
  • the adhesive E and the fragmented stuffing material H may be applied onto part of faces AOF and BOF of the paper sheets F and/or G so as to leave other parts of faces AOF and BOF without fragmented stuffing material H and without adhesive E.
  • the provision of controllable adhesive sprayers Cs and Ds, respectively enables controlled provision of adhesive onto selected portions of the opposed faces AOF and BOF of the paper sheets F and G.
  • the provision of controllable stuffing material applier JS enables controlled provision of the fragmented stuffing material H onto the selected portions of the opposed faces AOF and BOF of the paper sheets F and G, the selected portions of the opposed faces AOF and BOF corresponding to the centrally located filler area Z, as illustrated in Figure 4.
  • the stuffing material applier JS may be controlled to turn off and on so as to not provide any fragmented stuffing material H onto certain portions 25 of the opposed faces AOF and BOF of the paper sheets F and G, thereby allowing the certain portions 25 to form a protector strip front edge portion 25b (see Figure 4) and a protector strip back edge portion 25c.
  • the opposed faces of said sheets F and G hold the sheets together at the protector strip front edge portion and at the protector strip back edge portion.
  • the back edge portion 25c may be shaped and formed in the same manner as the front edge portion 25b.
  • Figure 5 is a side diagrammatic perspective view of an alternative example of the front edge portion 25b of the protective strip.
  • the protector strip front edge portion 25b includes the extra surfacing paper layers R
  • Figure 5 illustrates an example of a protector strip front edge portion 25b wherein the front edges of paper sheets F and G form the protector strip front edge portion 25b.
  • the protector strip front edge portion 25b may provide a flap 26.
  • the far edge portion T2 and the close edge portion T1 may be folded up, as indicated by arrows AF, so that the protector strip 5 is folded to form a bag 20.
  • the far edge portion T2 may be folded along a fold line 27 and the close edge portion T1 may be folded along a fold line 28.
  • a protective strip 5 may be folded along fold line 27 and along fold line 28 in order to produce a bag 20 (See figure 5 in conjunction with e.g. figure 7 and/or figure 13 and/or figure 14 and/or figure 18F).
  • Figure 6 is a partially sectioned perspective view of a part of an example of a bag 20 that may be based on the tubular protector strip 5T of Figure 7.
  • Figure 6 is somewhat simplified in that the edge portions T1 and T2, shown in Figure 7, are not shown in Figure 6.
  • the bag 20 has a bag opening 160 which may be closable by the flap 26 which may be folded over and secured to the body of the bag and retained in position by adhesive 29, conveniently exposed by the use of a peel-off strip 31.
  • the adhesive layer 29 may extend across the whole width of the bag 20.
  • the bag 20 has a front wall 110 and a back wall 120, the fold lines 27 and 28 (See Figure 5), respectively, joining the front wall 110 to the back wall 120 (See Figure 7 and figure 6).
  • the tubular protector strip 5T forms a bag having a wall
  • the fold lines 27 and 28 can be regarded as indicating borders between a front wall and a back wall.
  • FIG. 6 illustrates the flap 26 to extend from the back wall 120, the flap 26 being shown to be folded over and secured to adhesive 29 on the front wall 110, it is to be understood that the flap 26 may alternatively extend from the front wall 110 so that it may be folded over and secured to an adhesive strip 29 on the back wall 120.
  • the front wall 110 may also be referred to as front wall panel 110.
  • the back wall 120 may also be referred to as back wall panel 120.
  • one or several pieces of goods may be inserted into an interior storage space 100 of the bag 20 through the opening 160, and the flap 26 may be folded down and secured in position by the use of the adhesive layer 29.
  • the filler area Z of the protector strip 5 advantageously encloses the interior storage space 100 of bag 20.
  • FIG 7 is a diagrammatic perspective view of the front edge portion 25b of the protective strip 5 of Figure 5 in the folded state forming a tubular protector strip 5T.
  • a bag 20 may be produced based on the tubular protector strip 5T.
  • the edge portion T2 may be placed to overlap with the edge portion Tl, so that the edge portion T2 may be attached on the edge portion Tl e.g. by an adhesive layer (See disclosure relating to Figure 12).
  • the protective strip 5, or the tubular protector strip 5T may be folded into the shape of a bag 20 having a bag opening 160 and a flap 26 for closing opening 160 of the bag 20.
  • Figure 8 is a longitudinal fragmentary sectional view upon the line 8-8 of Figure 5, but extending further to right than shown in Figure 5 so as to illustrate not only the front edge portion 25b but also a portion of the filler area Z (compare Figure 7).
  • the flap 26 may be formed by the layer G.
  • Figure 9 is a longitudinal fragmentary sectional view upon the line 9-9 of Figure 5 but extending further to right than shown in Figure 5 so as to illustrate not only the front edge portion 25b but also a portion of the filler area Z (compare Figure 2 and Figure 7).
  • Figure 10 is an illustration of an alternative example wherein the flap 26 is formed by layers G and F.
  • Figure 10 is an illustration of an alternative as compared to Figure 8.
  • the paper layers G and F are glued together e.g. by adhesive E on the relevant portions of opposing faces AOF and BOF.
  • the adhesive E may be applied onto selected parts of faces AOF and BOF of the paper sheets F and/or G.
  • the provision of controllable adhesive sprayers Cs and Ds, respectively enables controlled provision of adhesive onto selected portions of the opposed faces AOF and BOF of the paper sheets F and G.
  • Figure 11 illustrates the example of Figure 8, but before removal of ffontmost portion of layer F.
  • Figure 11 is a longitudinal fragmentary sectional view illustrating the front edge portion 25b and a portion of the filler area Z.
  • the flap 26 may be formed by the layer G after removal of the corresponding portion of layer F.
  • the adhesive E may be applied onto part of faces AOF and BOF of the paper sheets F and/or G so as to leave other parts of faces AOF and BOF without adhesive E.
  • the provision of controllable adhesive sprayers CS and DS, respectively enables controlled provision of adhesive so that e.g. the flap-to-be portions of the opposed faces AOF and BOF of the paper sheets F and G can be provided without adhesive, allowing simple removal of a portion of layer F so as to render the example illustrated in Figure 8 and 11.
  • Figure 12 is a side perspective elevational view showing another example of assembly operation 15 that may be used in making a laminated paper protective strip 5.
  • the assembly operation 15 of Figure 12 operates essentially in the same manner as described above in connection with Figure 1.
  • a tubular folder S2 operating to fold the rectangular protector strip 5 in a tubular shape so as to form a tubular protector strip 5T.
  • Figure 6 illustrates an example of a portion 25b of such a tubular protector strip 5T in which adhesive applied by the roller coater P2 on the far edge T2 of upper surface of the rectangular protector strip, as shown in Figure 12 (Compare Figure 5 and Figure 7) will attach that edge surface T2 to the corresponding edge portion T1 of opposite side of the rectangular protector strip.
  • Figure 7 provides the paper layer G as an outer layer of the tubular protector strip 5T facing the environment, whereas the paper layer F is provided as an inner layer of the tubular protector strip 5T, so that the paper layer F will be facing the interior storage space 100 of the bag 20.
  • Figure 6 also illustrates an example of a portion of such a tubular protector strip 5T.
  • the assembly operation 15 may alternatively operate to produce a tubular protector strip 5T having paper layer G as inner layer facing the interior storage space 100 of the bag 20, and paper layer F as outer layer.
  • this alternative assembly operation 15 may operate to use the roller coater PI to apply adhesive on the upper surface of the edge T1 (i.e. the upper left hand side edge T1 as seen in the direction of travel VPF of the elongate protector strip) of the elongate protector strip.
  • the tubular folder device S2 may then operate to bend the elongate protector strip so that the mid portion is bent upwardly, as seen in Figure 12, and to form the elongate protector strip in a tube form so that the paper F, originating from the roll A, faces outwards.
  • the tubular folder device S2 may also attach that upper edge surface T1 to the corresponding lower edge portion T2 of opposite side of the elongate protector strip.
  • tubular elongate protector strip when traveling out of the tubular folder device S2, has not yet been cut.
  • controller 23 of the adhesive sprayers Cs and Ds, stuffing material applier JS, speed of transport of protector strip paper layers, and operation of the reciprocating cutter U, the assembly operation 15 machinery illustrated in Figure 12 enables control of the length of the centrally located filler area Z as well as control of the lengths of the protector strip front edge portion 25b and a protector strip back edge portion 25c.
  • the tubular elongate protector strip can be made in many various sizes, enabling the production of a variety of sizes of bags and/or envelopes from the tubular elongate protector strip.
  • control of the transport speed VPF is illustrated in a very simplified manner, and that the control of the transport speed VPF involves controlling e.g. the drive speed of the various rollers illustrated in Figure 1 and in Figure 12 as well as controlling e.g. the drive speed of the relevant paper rolls.
  • Figure 13 is diagrammatic a side perspective view of an example of a bag based on a tubular protector strip 5T as produced by the assembly of Figure 12.
  • the tubular protector strip 5T has a flap 26 adapted to close a bag opening 160 provided at the front edge portion 25b of the tubular protector strip 5T.
  • the front edge portion 25b may also be referred to as the rim portion 150.
  • the tubular protector strip 5T has, at an opposite end, a back edge portion 25c.
  • the tubular protector strip 5T has, between the front edge portion 25b and the back edge portion 25c a filler area Z containing stuffing material H, as explained above (See Figure 2, Figure 3, Figure 4 and Figure 6).
  • the back edge portion 25c of Figure 13 is open as illustrated by reference 33, thereby providing access to the interior storage space 100 provided in the filler area region Z of the bag-to-be.
  • the tubular protector strip 5T of Figure 13 may be an example of a semi-manufactured bag 20.
  • Figure 14 is a diagrammatic side perspective view of another example of a tubular protector strip 5T as produced by the assembly of Figure 12.
  • the front edge portion 25b of the tubular protector strip 5T is shaped and formed substantially in the same manner as the back edge portion 25c.
  • the tubular protector strip 5T of Figure 14 may be another example of a semi-manufactured bag 20.
  • front edge portion 25b, filler area Z, and back edge portion 25c may be very different from the example illustrated in Figure 14.
  • the length of the filler area Z enclosing the interior storage space 100 may typically be much larger than the length of edge portions 25b, 25c.
  • the filler area Z also referred to as intermediate space Z
  • the intermediate material comprises a biodegradable pulp based material.
  • This solution advantageously provides a biodegradable intermediate material.
  • the intermediate material comprises fluff pulp.
  • Fluff pulp which may also be referred to as comminution pulp or fluffy pulp, is a type of pulp, which may be made from long fibre softwoods.
  • the intermediate material comprises flax fibers. Flax fiber can be extracted from the bast beneath the surface of the stem of the flax plant.
  • the flax fibres form soft, lustrous, and flexible bundles of fiber, and hence this solution advantageously provides a good biodegradable intermediate material.
  • the intermediate material comprises hemp refined into a thermally insulating material.
  • hemp, or industrial hemp is a strain of the Cannabis sativa plant species that is grown specifically for industrial uses of its derived products.
  • the plant is spun into usable fibres, and the fibres are then refined into a thermally insulating material.
  • this solution advantageously provides a biodegradable thermally insulating material.
  • the intermediate material comprises shredded paper.
  • This solution advantageously allows for a low cost insulating material that is also very high in air content, and since air has a very low thermal conductivity, the shredded paper also provides very good insulation properties.
  • the shredded paper is shredded recycled paper. This solution advantageously adds to the environmental ffiendlieness of the bag in that the carbon dioxide print of the bag production is reduced by using a recycled paper as source material instead of making the intermediate material from a freshly produced source material.
  • the intermediate material (H) comprises fibres made from pine tree wood. This solution advantageously provides a biodegradable intermediate material. According to another example, the intermediate material (H) comprises cellulose wadding. This solution advantageously provides a biodegradable intermediate material. According to another example, the intermediate material (H) comprises cotton wool. This solution advantageously provides a biodegradable intermediate material.
  • the intermediate material (H) comprises a plurality of interconnected superposed sheets (S Y) of a yieldable material wherein such a superposed sheet is provided with a multiplicity of adjacent lengthwise and widthwise offset discrete areas of embossed, three dimensional patterns defined by mounds and recesses, the patterns of mounds and recesses in adjacent discrete areas being different, the superposed sheets being so disposed relative to each other that areas having identical patterns are at least partly offset from the identical patterned areas in the adjacent sheets so that air filled spaces are formed between adjacent interconnected superposed sheets.
  • This solution advantageously provides a large number of three-dimensional spaces that are filled with air and separated by the interconnected superposed sheets of a yieldable material.
  • FIG 14A is an illustration of an example of a part of the filler area Z provided with an intermediate material (H) comprising a plurality of interconnected superposed sheets (SY) of a yieldable material.
  • the intermediate material H is indicated in an enlarged fragmentary view in Fig. 14A and it has a series of embossed offset sheets SY.
  • the embossed offset sheets SY are enclosed in between the outer material layer, F,G and the inner material layer, G, F (See figure 14A in conjunction with e.g. figure 3, 4, 6, 8, 9, 10, or 11).
  • the sheets SY from one side may each have a series of mounds MU and recesses RV which are next to each other and arranged in rows extending longitudinally or diagonally. Instead of diagonally, they may also extend at varying angles of 30 to 60° or even other intermediate angular displacements.
  • the intermediate material comprising a plurality of inter-connected superposed sheets of a yieldable material may be as described in GB 1373428, the content of which is hereby incorporated by reference.
  • the mounds and recesses are frusto-conical when viewed in section perpendicular to the plane of the sheet. It is noted that the mounds and recesses of adjacent sheets may be in partially nested interengagement. There is a glued connection at the engaging portions of the mounds and recesses of adjacent sheets (SY) to prevent them from moving lengthwisely relative to each other.
  • the interconnected superposed sheets comprise paper.
  • This solution advantageously provides a biodegradable intermediate material.
  • the intermediate material comprises dried plant material which is shaped and arranged to provide multiple air pockets while keeping at least a portion of the outer material layer separated from the inner material layer so as to thermally insulate the interior storage space from the air environment.
  • the dried plant material comprises mosses.
  • mosses are small flowerless plants that typically form dense green clumps or mats, often in damp or shady locations.
  • the individual plants are usually composed of simple leaves that are generally only one cell thick, attached to a stem that may be branched or unbranched.
  • the irregular shape of mosses renders, also in a dried state of the mosses, to the formation of multiple air pockets.
  • Figure 15 is a diagrammatic side perspective view of another example of a tubular protector strip 5T, or semi-manufactured bag 20, similar to that shown in Figure 14.
  • Figure 16 is a diagrammatic side perspective view of yet another example of a tubular protector strip 5T, or semi-manufactured bag 20, similar to that shown in Figure 14.
  • the tubular protector strip 5T, or semi-manufactured bag 20, of Figure 16 is provided with a handle 35 for grabbing and transporting it.
  • the handle 35 is built into the body of the bag 20, formed by a die cut opening 37 in the edge portion 25b of the bag 20.
  • the die cut opening 37 located at sufficient distance from the top edge of the bag to enable a users fingers to conveniently go through the die cut opening 37 in order to carry the bag.
  • the die cut opening 37 may be only partly cut so as to allow the cut out portion of the outer paper layer to fold into the opening so as to allow a users fingers to rest against a folded paper surface.
  • the bag 20 has a bag opening 160 which may be closable.
  • the example bag 20 of Figure 16 is provided with a strip of adhesive 39 positioned on the inward facing surface of the inner paper layer.
  • the adhesive strip 39 is covered by a peel-off strip 41 (not shown in Figure 16) similar to the peel-off strip 31 shown in Figure 6 and Figure 13.
  • the peel-off strip 41 may be conveniently removed so as to expose the adhesive strip 39 thereby allowing the opposing surfaces of the inner paper layer F, or G, to be glued to each other, forming a seal so that the interior storage space 100 may be sealed from the environment.
  • the bag 20 may be conveniently closed and sealed. It is noted that the bag opening is thus closable and that closure device 39 for closing the bag opening is located between the die cut handle opening 37 and the interior storage space 100.
  • the adhesive layer 39 may extend across the whole inner circumference of the initially tubular protector strip 5T.
  • the closure device 39 the closure device may alternatively be achieved by melting a meltable layer placed at least on the part indicated by 39 of the inner material layer in the part 25b, 150 in Figure 16.
  • Figure 17 is a diagrammatic side perspective view of yet another example of a tubular protector strip 5T, or bag 20, similar to that shown in Figure 14.
  • a first handle 170A may comprise a paper strip formed in a U-shape and having two paper strip end portions 200A and 210A. The paper strip end portions
  • a first substantially planar reinforcement sheet 230 (See Figure 17) having a certain size may be provided in order to distribute the lifting force from the first handle paper strip end portions to a larger surface area of the front wall panel 110, SI A.
  • the first reinforcement sheet 230 may be attached to the paper strip end portion 210A of the first handle 170A and to said rim portion 150 of said front wall panel 110, S1A such that said paper strip end portion 210A of the first handle 170 is located between the front wall panel 110, SI A and the reinforcement sheet 230.
  • a first surface 230A of the first reinforcement sheet 230 faces the paper strip end portion 210A of the first handle 170A and said rim portion 150 of the front wall panel 110, SI A.
  • the first surface 230 A of the first reinforcement sheet 230 may be bonded to the paper strip end portion 210A and to said rim portion 150 of said front wall panel 110 SI A so as to distribute lifting force from said paper strip end portions to said front wall panel via said first reinforcement sheet.
  • Figure 18 A is an illustration of a flat state of a bag 20 based on any one of the examples of tubular protector strip 5T described in this disclosure.
  • the bag 20 of Figure 18A comprises a handle and bottom panel.
  • the tubular protector strip 5T has a back edge portion 25c.
  • the bag portion 25c may be folded so as to form a flat bottom panel, or substantially flat bottom panel 140.
  • the rim portion 150,25b of the wall panels 110, 120 facing away from the bag bottom panel 140 may provide a bag opening 160.
  • Figure 18B is an illustration of an expanded state of the bag 20 in Figure 18 A.
  • a handle 4610 and a support sheet 4620 are preferably complementary in their shape.
  • the handle 4610 and the support sheet 4620 are arranged in a flattened state as well.
  • the handle 4610 and the support sheet 4620 are oriented so that the handle 4610 is situated at its complementary part of the support sheet 4620.
  • the thickness of the combination of the handle 4610 and the support sheet 4620 will then equal the thickness of the handle 4610 and/or the support sheet 4620 alone.
  • the support sheet 4620 is in one example attached to the front panel 110, SI A and/or the back panel 120, SIB.
  • the handle 4610 is attached to the support sheet via a folding edge 4630.
  • the handle is not directly attached to the front panel 110, SI A and/or the back panel 120, SIB. This allows a user to fold up and use the handle when the bag is in an expanded state, as is shown in Figure 18B.
  • the handle support sheet 4620 and the handle 4610 are parts of the same separate kraft paper sheet 4610, 4620, and the handle part 4610 is separable from the handle support sheet 4620 by breaking a perforation 4625.
  • the perforation is indicated in figure 18A as full lines between handle support sheet 4620 and handle 4610, whereas the dotted lines at 4630 indicate a folding edge.
  • the folding edge 4630 connects the handle part 4610 with the handle support sheet 4620 when the handle is in position for receiving a human hand for carrying the bag 20.
  • the handle support sheet 4620 and the handle 4610 may be parts of the same support and handle kraft paper sheet, the handle 4610 being separable from the handle support sheet by breaking the perforation.
  • the perforation may for example form two perforated lines 4625A, 4625B in the support and handle kraft paper sheet, wherein a first perforated line 4625A runs from a first end of said at least one folding edge 4630, said first perforated line 4625A forming the shape of an edge of the handle 4610, and said first perforated line 4625 A running to a first end of another folding edge 4630. Moreover, a second perforated line 4625B may run from a second end of said at least one folding edge 4630 to a second end of the first folding edge.
  • FIG. 18C shows some different exemplary handle embodiments.
  • An example bag according to FIG. 18C comprises a wall panel SI A, SIB having a rim portion 25b by a bag opening.
  • a wall may comprise a front panel SI A and a back panel SIB, provided with a first and a second handle, respectively, adapted to allow gripping by a human hand.
  • the first handle comprising a material layer strip formed in a U-shape 4530, 4520 and having two material layer strip end portions, the material layer strip end portions of the first handle being attached to said rim portion 25b of one of the wall panels.
  • the second handle comprising a material layer strip formed in a U-shape and having two material layer strip end portions, the material layer strip end portions of the second handle being attached to said rim portion 25b of the other one of the wall panels.
  • the first and the second handle are in cooperation with each other for enabling carrying the bag when used in an expanded state.
  • the material layer strip end portions are attached to said rim portions 25b by means of a glue layer.
  • the glue layer may be any kind of adhesive material inclusive self-adhesive tape, glue, etc.
  • the material layer strips end portions may be glued to at least one adhesive reinforcement sheet 4620 as shown in FIG. 18B placed on the rim portion 25b and adapted to reinforce and adhesively attach the handles to the rim portion 25b of the respective wall panel.
  • the shown shape of the handle 4520 is only an example.
  • Other form of a handle, for example the handle 4530 may also be used and would thus provide an opening similar to the opening 4510.
  • the shape may be of any form.
  • the providing of the handle and/or a closure may be quite independent of how the other parts of the bag 20 have been provided. It should thus be understood that everything which is discussed in relation to the handle and/or the closure can be easily interchanged and/or combined between different embodiments and/or examples of bags which are described in this disclosure.
  • FIG. 18D shows is an illustration of a bag 20 comprising a string, the string being provided as a handle for the bag 20.
  • the provided handle is formed by a string 4710.
  • the string 4710 can, for example, be attached close to the rim portion 25b of the front panel S1A and/or the back panel SIB.
  • the bag 20 shown in figure 18D comprises a rim portion 25b, similar or same as the rim portion 25b shown in FIG. 17.
  • the string 4710 can be placed substantially parallel to the edge of the rim portion 25b of the front panel SI A and/or the back panel SIB.
  • the string 4710 can have a length that exceeds the width of the edge of the front panel SI A and/or the back panel SIB.
  • the string 4710 may have a length that exceeds twice the width of the edges of the front panel SI A and/or the back panel SIB.
  • the string 4710 is arranged to provide a closed loop 4713. This can, for example, be done by providing a knot 4720 between the two ends of the string 4710.
  • the string can then be arranged substantially parallel to the upper side or edges of the rim portion 25b of the front panel SI A and/or the back panel SIB, so that the looped string has two portions 4711, 4712 of the string 4710 substantially parallel and preferably close to each other at the upper side of the front panel SI A and/or the back panel SIB.
  • two loops 4714, 4715 will be provided at each side of the upper side of the front panel SI A and/or the back panel SIB.
  • the length of the string is preferably so long that said two loops 4714, 4715 can be extended by moving the string which forms said two loops 4714, 4715, so that preferably at least a human hand, or at least four fingers of a human hand can then grab through said two loops 4714, 4715.
  • the string is attached vertically to the front panel SI A and/or the back panel SIB.
  • the material of the string is in one example cotton twine.
  • the string comprises plastics.
  • FIG. 18E shows a bag provided with a rope handle, or cord handle.
  • the bag in FIG. 18E comprises a wall panel 4811 as shown in FIG.15, where the long side edges of the wall panel 4811 are glued or adhesively attached to each other.
  • the wall panel 4811 has a top portion 4810, 25b and a bottom portion 4818, 25c, each at opposite ends along the length of the bag (See fig. 18E in conjunction with Figures 5,6, 13, 14, 20, 21, 22, 22A - 22E).
  • the top portion 4810 is an intumed portion folded towards a front side of the wall panel 4811.
  • the top portion 4810 has a pair of openings formed on the front side of the wall panel 4811 and on a rear side of the wall panel 4816, which are adapted to receive at least one cord 4813 or tape configured to form a cord handle attached to a rim portion 4810 for carrying the bag in the expanded state.
  • the cord handle is slidably attached to the rim portion.
  • the cord handle is formed by introducing the cord into a pair of openings, wherein the ends of the cord may be fastened with blocking means.
  • the blocking means maybe made of plastic or similar and be of any geometrical shape with a radius larger that the radius of the openings to avoid siding all the cord of the handle to the bottom.
  • the rest of the cord is extending on the external surface of the bag and attached with slidably attached means.
  • the bag When the bag is not used, it may be practical to carry it in a collapsed state by pulling the cord of the cord handle.
  • the two pairs of openings are at the same position on the top portion 4810 so the at least one cord 4813 may easily be passed through.
  • the bottom portion 4818 is folded to form a bottom panel 4820.
  • the bottom panel 4820 is surrounded by the at least one cord adapted to be extended in a lengthwise direction from the bottom panel 4820 to the rim portion 4810.
  • the bottom panel 4820 is configured to be collapsable e.g. towards the front side 4811 of the wall panel when the cord handle is pulled.
  • the bottom panel 4820 may further comprise as shown in FIG 18E, an extra supporting layer 4823 for strengthen the bag at the bottom when transporting goods.
  • FIG. I8F illustrates a method for forming a bottom panel of a bag 20.
  • FIG. 18F shows different folding steps of forming a bottom panel of the bag according to an exemplary embodiment of the present disclosure.
  • the front wall panel SI A of the bag (see Figure 18F in conjunction with Figures 5,6, 13, 14, 20, 21, 22, 22A - 22E), is joined to said back wall panel (SIB) along a first fold line FL1, 28 that runs from said bag opening to said bottom panel 140.
  • the bag wall edge portion 25c is provided with a second fold line FL2; the second fold line FL2 being perpendicular to said first fold line FL1, or substantially perpendicular to said first fold line FL1,
  • step SI the bottom portion 4818 is folded, along the second fold line FL2, upwards against the side wall panel 4811 (See Figure 18F in conjunction with Figure 18E).
  • the width of the folded bottom portion 4818, 140 may be adjusted according the desired width of the bottom of the bag.
  • the bottom portion 4818, 140 has a width of at least 8 cm.
  • step S2 the bag wall edge portion 25c is folded so that opposing triangles TR1 and TR2 are formed on each side of the bottom-portion-to-be 140, 4818.
  • a third fold line FL3 is formed on the front wall part of edge portion 25c, and another third fold line FL3 is formed on the back wall part of edge portion 25c.
  • the third fold lines FL3 are parallel with the second fold line FL2, or substantially parallel with the second fold line FL2.
  • the front wall panel SI A, 4811 is joined to said bottom panel 140 along one of the third fold lines FL3.
  • the second fold line FL2 is parallel with the third fold lines FL3; and the second fold line FL2 is a fold line on said front wall.
  • the second fold line FL2 is a fold line on said back wall.
  • the bag is collapsible into said collapsed state 20A by folding said front wall and/or said back wall along the second fold line FL2.
  • FIG. 18G illustrates another example of a bag 20.
  • the bag 20 of figure 18G comprises three rectangular protector strips 5 attached to each other so as to form a single bag.
  • a first rectangular protector strip 6010, 5 forms a bag bottom wall
  • a second rectangular protector strip 6020, 5 forms a bag front wall 110, SI A
  • a third rectangular protector strip 6030, 5 forms a bag back wall 120, SIB.
  • the bag of figure 18H has an opening 160 at a rim portion 150, the rim portion of the bag being defined by the front edge portion 25b of the second rectangular protector strip 6020 and the third rectangular protector strip 6030.
  • the second and third protective strips are joined, e.g. by an adhesive, along their respective margin edges Tl, T2.
  • Figure 18H is a view in the direction of the arrow 6040 in figure 18G.
  • the second and third protective strips are joined, e.g. by an adhesive, along their respective margin edges Tl, T2, the margin edge Tl of the second protective strip being attached to the margin edge T2 of the third protective strip.
  • Figure 181 is a view in the direction of the arrow 6050 in figure 18G.
  • the first rectangular protector strip 6010, 5 forming the bag bottom wall has its filler area Z positioned to cover the bag bottom wall.
  • stuffing material H in the front wall panel 110, S1A, 6020 and in the back wall panel 120, SIB, 6030 as well as in the bottom wall panel.
  • the first rectangular protector strip 6010, 5 may be provided with a fold line 6060 so as to enable folding the bottom panel in the direction of arrows 6062 and 6064 (See fig 181 in conjunction with fig 18G). When folded in this manner the bag 20 can be provided in a collapsed state.
  • Figure 18J is an illustration of the bag 20 during the process of folding in the direction of arrows 6062 and 6064.
  • a rectangular protector strip 5 may comprise parallel, elongated sheets of strong paper, of which one sheet may be wider than the other sheet, adhesive coatings on the opposed faces of said sheets holding the sheets together adjacent their margins Tl, T2 fragmented stuffing material disposed between said coated faces, said stuffing material being adhesively attached to at least one of said coatings, said stuffing material being lightly compressed and applied across an area which is less than the width of said other sheet, said one sheet having outwardly projecting longitudinal side extension portions folded inwardly over said other sheet and outwardly lapping the marginal edges thereof, said extensions being secured in said folded over position by said adhesive.
  • FIG 19 is a schematic illustration of an environment 10 in which examples of a bag 20 for goods may be used.
  • the bag 20 is a container 20.
  • a bag 20 may also be referred to as container 20 in this disclosure and in accompanying drawings.
  • the environment may include a grocery store 30, wherein a large number of grocery items 40 are provided.
  • a piece of grocery 40, or a food item 40, in a modem grocery store 30 may be provided in a separate package 40 A, the size of a grocery package 40A being adapted to contain an amount of packaged food 40B intended to be convenient for the customer.
  • the grocery store 30 may have an entry 42 for allowing a grocery store customer 60 to enter the grocery store, and it may have an exit 44 for allowing customers 60 to leave the grocery store 30.
  • a grocery store customer 60 may select to purchase food by selecting a plurality of food item packages 40.
  • the purchasing process may typically involve the customer walking through the grocery store while collecting several food item packages 40 in a physical transportation cart 70, and transporting the cart to a check out 80, or cash register 80, for paying.
  • the grocery packages 40 collected by a customer 60 may comprise fresh produce, such as fruit or mushroom, which may be provided in separate portion sized packages or containers 40A.
  • Fresh produce may be provided at a cool temperature of about 15-18 degrees Centigrade, being held in a slightly cooled part of the grocery store.
  • some grocery goods may be provided at a first, cool, temperature range of about 15-18 degrees Centigrade.
  • the grocery may comprise dairy products, such as milk, cream and butter.
  • the dairy products may be provided in separate individual packages, and they may be provided in fridges at a temperature of about 6- 8 degrees Centigrade.
  • An individual dairy product package may typically range in size from around 100 grams to about 4 kg. Dairy product packages intended for use in private household commonly have a size of between 200 grams to 2 kg.
  • milk may be provided in a carton package, such as a Tetra Pak® package containing e.g. 1 litre of milk, weighing about 1 kg.
  • a carton package such as a Tetra Pak® package containing e.g. 1 litre of milk, weighing about 1 kg.
  • some grocery goods may be provided at a second, cold non- freezing, temperature range.
  • the cold non-freezing temperature range may be a range of about +6 to +8 degrees Centigrade.
  • the cold non-freezing temperature range may be a range of about +1 to +4 degrees Centigrade.
  • the grocery which may be collected by the customer, may also comprise frozen food packages 40, provided in a freezer within the grocery store.
  • the frozen food items 40B for delivery at a temperature of e.g. about -18 degrees Centigrade, may be collected by the customer directly from a freezer.
  • the frozen food 40B may be separately packaged e.g. in a carton box 40A.
  • the frozen food may, for example include frozen fish, meat, or vegetables.
  • the frozen food may have been frozen in a raw state, or, alternatively, it may be provided in a prepared manner such that it is ready to eat after thawing or heating.
  • some grocery goods may be provided at a freezing temperature range of about -18 degrees Centigrade, or colder. In general, frozen goods does not suffer any harm from being chilled to a lower temperature than -18 degrees Centigrade, and accordingly frozen grocery goods may be provided at a freezing temperature in a range of between -25 to -40 degrees Centigrade.
  • Providing frozen goods within such a low temperature range advantageously extends the time required for the frozen goods to warm towards minimum freezing temperatures, such as e.g. -10 or -4 degrees Centigrade.
  • the grocery store In order to achieve cost-efficient handling of the goods 40, sold in the grocery store, the grocery store typically receives a large variety of food items, each food item typically being received in bulk, i.e. an individual received food item type is received as a large number of smaller packages. As mentioned above, the smaller packages are adapted to contain an amount of packaged food 40B intended to be convenient for the customer, who typically buys just one or a few packs of each item.
  • the collapsible bag 20 may be a collapsible grocery bag 20.
  • the collapsible bag 20 may advantageously be delivered in bulk to the grocery store, thus requiring a very small storage volume, thereby contributing to cost-efficiency.
  • a large plurality of collapsible bags may advantageously be delivered in a collapsed state 20A, thereby enabling
  • the bag 20 may be shaped in such a manner that plural bags 20 can be piled on top of each other in a space conservative manner.
  • An example of such a space saving shape is a cone shaped container.
  • plural cone shaped containers may be stacked by placing one cone container on top of the other such that the space required for storing ten containers is only slightly larger than the space required for storing one cone container.
  • the bag may be shaped as a truncated cone such that there is provided a substantially flat bottom area inside the truncated cone container, the cone wall leaning outwardly from the bottom area.
  • the truncated cone container may also be stacked or piled so that one container fits inside the next substantially identical container, thus enabling transport of a large number of stacked bags within a very small space.
  • This feature of the bag advantageously contributes to enable transporting bags 20 in bulk at a low cost.
  • the collapsed collapsible bag 20A comprising kraft paper, as described below, has a balanced rigidity and flexibility allowing it to be easily expanded.
  • the carrier bag In its expanded state 20C the carrier bag provides an interior storage space which is sufficiently large for transporting a plurality of grocery packages, even when the individual grocery packages are larger than 1 litre.
  • the carrier bag 20 has a volume of between 10 litres and 50 litres in the expanded state of the carrier bag.
  • the customer 60 may transport the cart to a check-out 80, or cash register 80, for paying.
  • the customer 60 may collect a collapsed goods carrier bag 20A from a pile 90 of collapsed goods carrier bags 20A. The customer 60 may then unfold the goods carrier bag 20 A it to its open expanded state 20B (See Fig 24, Fig 25 and Figure 26), so that it is ready be loaded with groceries.
  • Figure 20 is an elevational view of an example of a single collapsed goods carrier bag 20A.
  • Figure 21 is a front view of the collapsed goods carrier bag 20A.
  • Figure 22 is a rear view of the collapsed goods carrier bag 20A.
  • Figure 23 is a side view of the collapsed goods carrier bag 20A, as seen in the direction of arrow A in figure 22.
  • Figure 24 is an elevational view of the expanded goods carrier bag 20 in an open expanded state 20B.
  • the folds of the paper walls are illustrated, and several parts on the inside of the carrier bag are also indicated.
  • Figure 25 is another elevational view of the expanded goods carrier bag 20 in an open expanded state 20B, illustrating an exterior look of an example of the expanded goods carrier bag 20, 20B .
  • Figure 26 is a top plan view of the expanded goods carrier bag 20 in an open expanded state 20B.
  • the expanded goods carrier bag 20 When the expanded goods carrier bag 20 has been filled with chilled or frozen grocery packages 40, the expanded goods carrier bag 20 can be closed.
  • Figure 27 is an elevational view of the expanded goods carrier bag 20 in a closed expanded state 20C, illustrating an exterior look of an example of the expanded goods carrier bag 20 in its closed state 20C.
  • Figure 28 is a top plan view of the expanded goods carrier bag 20 in the closed expanded state 20C.
  • Figure 29 is a front view of the expanded goods carrier bag 20 in the closed expanded state 20C.
  • Figure 30 is a side view of the expanded goods carrier bag 20 in the closed expanded state 20C, as seen in the direction of arrow B in figure 29.
  • the expanded goods carrier bag 20 in the closed expanded state 20C may have a larger cross-sectional area A1 near the bottom panel 140 and a smaller cross-sectional area A2 near the closed opening, i.e. in the vicinity of the rim portion 150.
  • the goods carrier bag 20 in its closed expanded state 20C may have a generally tapered shape, having a larger cross-sectional area near the bottom panel and a smaller cross-sectional area near the opening.
  • an example of the collapsible handle-carryable goods carrier bag 20 is suitable for use in an air atmosphere environment.
  • the carrier bag has a collapsed state 20A (See Figs 20, 21 and 22) for enabling transportation of the carrier bag in a substantially flat state.
  • the carrier bag may also have an expanded state 20B, 20C such that the carrier bag, in its expanded state, provides an interior storage space 100 (Fig 24 and 26) for transporting chilled and/or frozen grocery packages 40 (See Fig 26).
  • the carrier bag may comprise a protector strip 5, as described in this disclosure, being shaped and folded so as to form a bag.
  • the wall panels may cooperate to form said interior storage space 100.
  • the interior storage space 100 may be of a volume larger than 10 litres, or larger than four litres, in the expanded state of the carrier bag. The volume depends on the dimensions of the bottom panel and the wall panels.
  • a rim portion 150 of the wall panels 110, 120, 130A and 130B facing away from the bag bottom panel 140 may provide a bag opening 160 (Fig 24 & 25).
  • the carrier bag may further comprise a first handle 170A being associated with said rim portion 150, 150A of said front wall panel SI A.
  • the first handle 170A may be shaped and dimensioned to allow gripping by a human hand such as to enable convenient carrying of the goods carrier bag. In some businesses where carrier bags are utilized, it is considered necessary for a carrier bag to be provided with a handle, since a handle-carryable goods carrier bag is considered to be a fundamental customer convenience requirement.
  • a collapsible bag which is capable of being carried by means of a handle, or a pair of handles, is considered to be a fundamental customer convenience requirement.
  • the carrier bag is therefore advantageously provided with an integrated handle, or an integrated pair of handles such that a handle-carryable goods carrier bag is supplied.
  • the carrier bag may have an open expanded state 20B (Figs 24 & 25) for loading and/or unloading grocery packages to be transported, and a closed expanded state 20C (See Figs 27 & 28).
  • the carrier bag In its closed expanded state 20C, the carrier bag may provide a substantially closed interior storage space 100.
  • the bag opening 160 (Fig 24 & 25) is a closable opening which, in the closed expanded state (Fig 27) of the carrier bag may cooperate with the wall panels and the bottom panel so as to minimize or prevent entry of air from the environment into the interior storage space.
  • the substantially closed interior storage space may
  • the carrier bag in its closed expanded state 20C, may exhibit a very good ability to maintain a low temperature of chilled or frozen items that are stored in the closed interior storage space.
  • the choice of material forming the wall panels and the bottom panel contributes to the advantageous cold keeping properties. It is to be noted that the design of the bag walls is not limited to the shapes described above. Instead, the term“wall” is to be understood as a material forming the boundaries of the interior storage space of the bag 20.
  • a bag 20 may also be referred to as container 20 in this disclosure and in accompanying drawings.
  • the wall or walls of the bag 20 forms the boundaries of the interior storage space for transporting chilled and/or frozen goods.
  • the walls of the bag 20 comprise a paper layer.
  • Paper is a material which is available at a reasonable cost, and it is readily available in large quantities. Paper is advantageous in that it is biodegradable and environmentally friendly.
  • the walls of the bag 20 comprise a kraft paper layer. Kraft paper is a material which is available at a reasonable cost, and it is readily available in large quantities. Kraft paper is advantageous in that it is biodegradable and environmentally friendly.
  • the kraft paper layer may have a surface weight in the range between 40 and 240 grams per square metre, and a density lower than 1200 kg per cubic metre.
  • the surface weight of the kraft paper may be selected in dependence on the tensile strength to which the bag will be exerted when in use.
  • a carrier bag may be produced in various sizes, such as e.g. a five litre bag, a ten litre bag, a twenty litre bag, a thirty litre bag, a forty litre bag, or a fifty litre bag.
  • kraft paper with as low surface weight as 40 g/square metre and a density lower than 1200 kg/cubic metre, at least for the small size bags of five, ten or twenty litre storage space, when the small size bag will be used for carrying lower weights.
  • the maximum weight of the goods to be transported will, to some extent, be limited by the size of the bag.
  • the walls may comprise protector strip 5 as disclosed in relation to Figures 1 to 18B above.
  • the protector strip 5 may include a kraft paper layer. It has been found that a collapsible bag having a protector strip 5 including a Kraft paper layer having a surface weight of between 60 and 160 grams per square metre generally provides a satisfactory strength while also providing sufficient flexibility so as to be user friendly. Paper of selected types, such as some kraft paper qualities also has a relatively low thermal conductivity value l .
  • a wall of the bag 20 may comprise plural material layers, i.e. an outer yield-able material layer F; an inner yield-able material layer G; and an intermediate material layer H disposed between the outer layer and the inner layer.
  • the kraft paper density may be as low as 350 kg/m 3 .
  • the tensile strength needed is generally higher for a larger bag, since a larger bag will enclose a larger volume, i.e. a higher weight, of goods.
  • an appropriate size bag should the selected.
  • the bag size should be selected sufficiently large that the chilled goods fits inside, of course, but for optimum chill conserving ability of the bag, the chilled or frozen goods should preferably fill more than 30 % of the inside volume of the bag 20.
  • the bag size when packing chilled goods into the bag, the bag size should be selected sufficiently small so that, when packed with the cold or frozen goods, the cold or frozen goods fill up more than 30 % of the inside volume of the selected bag 20.
  • the selection of an appropriate size container contributes to the chill conserving properties of the packed container, since the thermal resistance of the wall is decreased in dependence on an increased wall surface area.
  • a good filling degree of a bag 20 is between 25% and 75%.
  • the step of determining the desired tensile strength therefore may begin by assuming a 100% filling degree of goods having a mean density of about 0,5 kg per cubic decimetre or 50% filling degree of goods having a mean density of about 1 kg per cubic decimetre.
  • a bag with an interior storage space of X litres should be designed to enable carrying a mass of at least 0,5 *X kg. Therefore, in one example it is assumed that a bag with an interior storage space of 10 litres should be designed to enable carrying a mass of at least 5kg.
  • a bag with an interior storage space of 20 litres may be designed to enable carrying a mass of 10kg, and so on.
  • a bag with an interior storage space of four litres would according to this example be able to carry a mass of 2 kg.
  • the bag comprises walls with a layer of wall material, the layer having a pre-determined tensile strength.
  • said pre determined tensile strength exceeds 0.133 N/mm 2 .
  • said pre-determined tensile strength exceeds 0.267 N/mm 2 .
  • said pre-determined tensile strength exceeds 0.399 N/mm 2 .
  • said pre-determined tensile strength exceeds 0.533 N/mm 2 .
  • said pre-determined tensile strength exceeds 0.667 N/mm 2 .
  • the mass m is in principle the added mass of the bag and the goods carried in it. In practice, the mass of the goods might be predominant.
  • the area A is an area over which the force F is distributed.
  • Fig. 41 A shows schematically a bag to illustrate the principle of determining the area A.
  • the bag has a rectangular bottom with length and width of di and Ai, respectively.
  • the bag comprises two handles.
  • the bag further comprises two sheets for distributing the forces applied to the handles to the outer walls of the bag.
  • the handles and the sheets for distributing the forces applied to the handles to the outer walls of the bag are the same on the front side and on the back side of the bag.
  • Each sheet for distributing the forces applied to the handles to the outer walls of the bag is substantially rectangular and has a length and a width of ⁇ and d3, respectively.
  • Fig.41B shows, schematically, a side view of the handle, the bag and the sheet for distributing the forces applied to the handles to the outer walls of the bag.
  • the sizes in Fig. 41B are not to scale in relation to each other.
  • three thicknesses are illustrated, wherein a first thickness ds denotes the thickness of the handle, de denotes the thickness of the sheets for distributing the forces applied to the handles to the outer walls of the bag, and n denotes the thickness of the wall of the bag.
  • a first thickness ds denotes the thickness of the handle
  • n denotes the thickness of the wall of the bag.
  • d3 180mm
  • ds 0.8mm
  • d6 0.1mm
  • d 7 0.123mm.
  • the tensile strength of the bottom portion has to be taken into account.
  • the tensile strength of the bottom can in principle be orders of magnitudes weaker than the tensile strength at the part of the bag where the handle is attached.
  • Another example protector strip 5 comprises a plastic material and/or a rubber material as wall material, e.g. in the cushioning layer H disposed between the outer layer F and the inner layer G, and /or as material in the the outer layer F and/or the inner layer G.
  • a plastic material and/or a rubber material as wall material, e.g. in the cushioning layer H disposed between the outer layer F and the inner layer G, and /or as material in the the outer layer F and/or the inner layer G.
  • thermoplastic may be a conventional oil-based plastic such as polyethylene, polypropylene or polyurethane. It is also possible to use a bio-based plastic, polylactic acid (PLA)
  • chloroprene rubber are preferred.
  • Another example protector strip 5 comprises non-woven as wall material, e.g. in the cushioning layer disposed between the outer layer and the inner layer.
  • the at least one wall panel of the bag 20 may include an outer yield-able material layer F; an inner yield-able material layer G; and a cushioning layer H disposed between the outer layer and the inner layer, the cushioning layer comprising non-woven.
  • Non-woven material may comprise slender fibers which are not woven or knitted but are kept together in other ways, such as by entanglement.
  • Non-woven materials may include textile-like materials.
  • - paper such as e.g. kraft paper
  • Said non-woven materials and conventional textiles have a tensile index value exceeding 50 kNm/kg. All these container wall materials are selected to have a thermal conductivity value less than 0,15 W/(m K):
  • the wall panels and/or bottom panel of the bag 20 may comprise one, or several, of the above listed materials, i.e. paper, a Non-woven material, a Conventional textile, a film of foamed or porous thermoplastic, a film of foamed or porous rubber.
  • bag size should be selected such that an air gap is allowed to form between the inner surface of the bag and the outer surface of the cold or frozen goods.
  • an air gap is advantageous in that the air gap renders extra insulation against the exterior environment, which may be warm.
  • the middle portion of interior the surface of the bag bottom may be marked so as to indicate that it is a loading zone for chilled goods. This advantageously indicates to the user of the chill container that goods to be transported should preferably be placed within the indicated area for optimum chill conserving effect during transport. In this manner a simple marking of the bag bottom will be indicative of a three-dimensional bag loading zone volume within the bag, the bag loading zone volume being separated from the side wall(s) of the bag by an air gap.
  • a number of strips e.g. kraft paper strips, having lengths commensurate with a width and a breadth of the paper bag; the strips being attached to the inner surfaces of the walls such that, when the bag is in its expanded state, the strips are arranged to stretch from wall to wall.
  • the strips may advantageously provide a visual indication of the loading zone volume of the bag.
  • the strips may also advantageously provide support for goods to be transported so as to prevent such goods from leaning against the bag wall when the bag is transported.
  • the middle portion of interior the surface of the bag bottom may be marked so as to indicate that it is a loading zone for chilled goods (as described above), and the strips may be attached and positioned to the bag walls so that when goods-to-be-transported is stacked on the marked loading zone on the bag bottom (which may lead to the marked bottom area being covered), the paper strips will still indicate the loading zone volume of the bag.
  • the bag size should be selected sufficiently small so that, when packed with the cold or frozen goods, the cold or frozen goods fill up more than 30 % of the inside volume of the selected bag 20, while also allowing for an air gap to be formed between the cold or frozen goods and the inner surface of the bag wall or walls.
  • the protector strip 5 may have a substantially water vapour impermeable membrane 190 bonded to at least one side of the protector strip 5.
  • the substantially water vapour impermeable membrane 190 may be bonded to the outer surface of the protector strip 5.
  • a Membrane 190 on the Wall As mentioned above the bag 20 may be based on a protector strip 5, and/or on a tubular protector strip 5T, both of which are described elsewhere in this document.
  • the wall panels comprises
  • thermally insulating intermediate material H between the outer material layer and the inner material layer.
  • Some example bags may comprise a substantially water vapour impermeable membrane 190.
  • the substantially water vapour impermeable membrane 190 may be provided on one or both of the surfaces of outer material layer F.
  • the substantially water vapour impermeable membrane 190 may be provided on one or both of the surfaces of the inner material layer G.
  • the substantially water vapour impermeable membrane 190 may comprise a polymer membrane layer 190, which may comprise Low- density polyethylene (LDPE).
  • LDPE Low- density polyethylene
  • the LDPE membrane may have a density in the range from 910 to 940 kg/m3.
  • the LDPE- membrane layer may have an air permeability of less than 0,35pm/(Pa s) in accordance with ISO 5636-3:2013.
  • the polymer membrane layer 190 may comprise a biodegradable plastic, such as e.g. Polylactic acid (PLA),
  • PLA Polylactic acid
  • the polymer membrane layer 190 may alternatively comprise a biodegradable plastic such as polyhydroxyvalerate (PHV) , or polyhydroxyhexanoate (PHH), polybutylene succinate (PBS), polycaprolactone (PCL), polyvinyl alcohol (PVA).
  • the polymer membrane layer 190 may alternatively comprise biodegradable plastics such as a starch based plastics, plastics based on natural oils and fats (fatty acid esters obtained by transesterification of naturally occurring fats and oils).
  • the polymer membrane layer 190 may alternatively comprise a biodegradable plastic such as a cellulose-based plastics (eg cellulose acetate).
  • the polymer membrane layer 190 comprising a biodegradable plastic as defined above may be extrusion coated on a kraft paper layer.
  • biodegradable plastic as defined above may be dispersion coated on a kraft paper layer.
  • the dispersion coated biodegradable plastic can advantageously be recycled in a conventional paper recycling process.
  • biodegradable plastic for the polymer membrane layer 190 is preferred since it may be combined with a wall material having a sufficient tensile strength and also being biodegradable, such as e.g. kraft paper, thus rendering a kraft paper bag which, not only provides outstanding chill retaining properties, but also is fully biodegradable.
  • an outer material layer F; and/or an inner material layer G may comprise paper, as mentioned elsewhere in this disclosure.
  • a substantially water vapour impermeable membrane 190 may be provided on one or on both of the surfaces of outer material paper layer G, or F.
  • the substantially water vapour impermeable membrane 190 may be provided on one or on both of the surfaces of the inner material paper layer F, or G.
  • the substantially water vapour impermeable membrane 190 may be a polymer coating as described in EP 1,094,944, the content of which is hereby incorporated by reference.
  • Figure 41C is a schematical representation of a coated paperboard F,G according to an example.
  • a layered structure of a paperboard F,G which is on one side provided with a compostable polymer coating.
  • the fiber layers of the paperboard are in the figure marked commonly with the reference number 1002 whereas the polymer coating is marked with the reference number 1003.
  • a fiber layer 1002 may, for example, be a Kraft paper layer.
  • the fiber layers 1002 are composed of a trilayered paperboard the thicker middle layer 1004 of which is a mixture of sulfate mass and CTMP; while the outer layers 1005 on both sides of the middle layer 1004 are of sulfate mass.
  • the middle layer 1004 may form about 60% of the weight of the fiber layer 1002 while each of the above mentioned sulfate mass layers 1005 may form about 20%.
  • the total weight of the fiber layer 1002 without coating layers may be about 350 - 400 g/m2, or more.
  • the polymer coating 1003 according to fig. 41C is composed of an outer layer 1006, which comprises polylactide (PLA) and of an adhesive layer 1007 which is coextruded with the former and is of biodegradable polymer and binds the polylactide layer onto the sulfate mass layer 1005.
  • the weight of the polylactide layer 1006 is 20 g/m2 at the most, while it is preferred that the total weight of the polymer coating 1003 be about 30 g/m2 at themost.
  • FIG. 41D is a schematical representation of another coated paperboard according to an example.
  • the coated paperboard F, G according to fig. 4 ID is structurally similar to the one represented in fig. 41C except that the paperboard (fiber layers 1002) are on both sides provided with a compostable polymer coating 1003.
  • the fiber layers 1002 are thus composed of a similar trilayered paperboard as in the application according to fig. 41C, and even the polymer coatings 1003 on each side of the paperboard F,G may in relation to material and surface weight correspond to the one represented in fig. 41C.
  • the polymer coating layers 1003 may be made even thinner, e.g. such that the amount of polylactide in each layer is about 5 g/m2 and the amount of the polyester 1007 underneath, functioning as adhesive material, is likewise about 5 g/m2.
  • the polymer coating 1003 may be somewhat thicker, as of a total surface weight of about 15 - 30 g/m2.
  • Figure 41E is a schematical representation of a coated paper 1008, G, F according to an example.
  • the weight of the base paper 1009 manufactured e.g. of sulfate mass may be 30 - 100 g/m2.
  • On one side of the paper is laminated by coextrusion adhesive polymer and polylactide layers 1007, 1006, on top of each other, in the same way as in the paperboard applications according to fig. 41C and fig 4 ID.
  • the total weight of coating layers 1003 may be 5 - 10 g/m2.
  • the polymer coated paper 1008 according to fig. 4 IE is as such well suited as inner wall material for a bag 20 for transporting e.g.
  • a water impermeable and water vapour impermeable membrane 190 may be provided on the surface the kraft paper layer facing the interior of the bag.
  • the closeable opening of the bag 20 may be closed and sealed by heat sealing 39HS.
  • the inner paper layer G,F of the bag 20 comprises a coated paperboard according to fig. 4 ID
  • the closeable opening of the bag 20 may be closed and sealed by heat sealing 39HS.
  • Figure 41F illustrates an example of a manner of heat sealing by placing a first portion 190:1 of a meltable membrane 190 adjacent to second portion 190:2 of a meltable membrane 190.
  • the bag 20 can closed and sealed by heat-sealing from the paperboard F,G according to fig. 4 ID which is coated on both sides.
  • the inner layer F has its surface facing the interior storage space 100 being provided with the PLA layer 1006 for the purpose of enabling heat-sealing 39HS.
  • the polymer membrane layer 190 comprises a non- biodegradable plastic which may be produced from fossil oil. Such a plastic membrane advantageously provides a good water vapour barrier. Such a plastic membrane may also be used for heat sealing 39HS, as discussed above. According to an example, the water vapour impermeable membrane 190 is
  • the water vapour impermeable membrane 190 comprises a polymer.
  • the polymer layer 190 may be a layer of PE or Polyethylene.
  • the first handle 170 A may comprise a paper strip formed in a U-shape and having two paper strip end portions 200A and 210A.
  • the paper strip end portions 200 A and 210A of the first handle 170 A may be attached to said rim portion 150 of said front wall panel 110, SI A.
  • the paper strip end portion 210A may be attached to the membrane 190 by means of a glue layer 220.
  • a first substantially planar reinforcement sheet 230 (See Fig 24) having a certain size may be provided in order to distribute the lifting force from the first handle paper strip end portions to a larger surface area of the front wall panel 110, S 1 A.
  • the first substantially planar reinforcement sheet 230 may have a first sheet surface 230 A and a second sheet surface 230B on opposite sides of the substantially planar reinforcement sheet 230.
  • the first reinforcement sheet 230 may be attached to the paper strip end portion 210A of the first handle 170A and to said rim portion 150 of said front wall panel 110, S 1 A such that said paper strip end portion 210 A of the first handle 170 is located between the front wall panel 110, SI A and the
  • the first surface 230A of the first reinforcement sheet 230 faces the paper strip end portion 210A of the first handle 170A and said rim portion 150 of the front wall panel 110, SI A.
  • the first surface 230A of the first reinforcement sheet 230 may be bonded to the paper strip end portion 210A and to said rim portion 150 of said front wall panel 110 SI A so as to distribute lifting force from said paper strip end portions to said front wall panel via said first reinforcement sheet.
  • the bag opening 160 is closable by means of a mechanical interlock 240, or closure device 240 attached to said rim portion 150.
  • the closure device 240 in the closed expanded state of the carrier bag, cooperates with the wall panels and the bottom panel to minimize or prevent air from the environment from entering the interior storage space.
  • the closure device 240 includes a first elongated closure element 240A, and a second elongated closure element 240B.
  • Figure 31 is an illustration of an example of the closure device 240.
  • the first elongated closure element 240A is integrated with a second substantially planar reinforcement sheet 250A, the second reinforcement sheet 250A having a predetermined area extension which is larger than the above mentioned certain size of the first substantially planar reinforcement sheet 230.
  • the second substantially planar reinforcement sheet 250A may be attached to the first reinforcement sheet 230 and to the rim portion 150 of said front wall panel 110, SI A such that the first reinforcement sheet 230 is located between the front wall panel 110, SI A and the second substantially planar reinforcement sheet 250A.
  • the second substantially planar reinforcement sheet 250A may be attached by a glue layer 260.
  • the second substantially planar reinforcement sheet 250A comprises polymer material.
  • the second substantially planar reinforcement sheet comprises paper.
  • the second substantially planar reinforcement sheet being bonded to the second sheet surface of the first substantially planar reinforcement sheet advantageously achieves two effects.
  • the elongated closure device is thereby attached to the bag wall, and on the other hand the second substantially planar reinforcement sheet 250A also acts to distribute lifting force from said first substantially planar reinforcement sheet to said front wall panel via said second reinforcement sheet, the lifting force originating from the handle when the bag is carried by lifting the handle 170 A (See Fig 24).
  • the second substantially planar reinforcement sheet 250 A may have a lower edge 270, and the second substantially planar reinforcement sheet 250A may have a physical extension of between 10% and 30% of the height of a wall panel 110.
  • the second substantially planar reinforcement sheet 250 A may be attached to an interior surface of the rim portion 150 of the front panel 110 and to a part of an interior surface of the rim portion 150 of a side panel, as shown in Figure 24.
  • the paper strip end portions of the first handle and said first reinforcement sheet are sized and dimensioned so as to withstand a force exceeding 100 Newton.
  • the kraft paper layer comprises a certain amount of air being trapped within the kraft paper layer. This trapped air is believed to contribute to good insulating property of the bag walls and bag bottom.
  • examples of the carrier bag have been tested and the tests included a measurement with an Infra-red camera for a duration of more than 24 hours, while the closed carrier bag was placed in a warm room at a temperature of 25° Centigrade. The bag was placed such that the bottom panel 140 was placed on the floor, and the bag was standing with the rim portion 150 facing upwards. During this testing, the temperature on the outer surface of a closed carrier bag was detected and the temperature development was registered as time passed. The closed carrier bag was packed with a number of chilled and frozen grocery packages.
  • a Kraft paper layer of more than 140 grams per square metre may be advantageous for certain uses of the carrier bag, but the example of the goods carrier bag intended for use in grocery stores, allowing end user customers to pack their groceries into the bag, will preferably have a Kraft paper layer of 140 grams per square metre, or less than 140 grams per square metre. This is because the Kraft paper layer of more than 140 grams per square metre may be experienced to be a bit too stiff, whereas a Kraft paper layer of 140 grams per square metre or less than 140 grams per square metre will be more flexible, and thus more convenient to handle.
  • Figure 32 is an illustration of Kraft Pulp Fibres.
  • the kraft paper layer may comprise a plurality of Kraft Pulp Fibres 270 which are arranged one above the other so as to form plural air gaps within the kraft paper layer.
  • the kraft paper layer comprises a plurality of Kraft Pulp Fibres which are arranged one above the other so as to form plural air gaps within the kraft paper layer, and at least some of the Kraft Pulp Fibres have a length in the range between 1 and 3 mm and/or a width in the range between 10 and 50
  • At at least some of the plural air gaps have a volume exceeding 200 000 cubic micrometers according to that example.
  • the substantially water vapour impermeable membrane is bonded to the side of the kraft paper layer facing the outside of the bag.
  • Figure 33 is an illustration of an example of the first elongated closure element 240 A, and the second elongated closure element 240B.
  • the first elongated closure element 240A, and the second elongated closure element 240B are adapted to mate with each other in the closed state.
  • the first elongated closure element 240A comprises an elongated cavity having lips forming a slit along its length, so as to enable a mating protrusion to enter the slit between the lips.
  • the lips of the elongated cavity may be compliant so as to close around the protrusion so as to hold once it has entered into the cavity.
  • the first elongated closure element 240A comprises at least two elongated cavities provided in parallel so as to receive at least two corresponding elongated protrusions of the second elongated closure element 240B which are provided in parallel.
  • an elongated cavity of the first elongated closure element 240A forms an elongated tubular hollow which is adapted to receive the protrusion of the second elongated closure element 240B.
  • Figure 34A is a perspective view of a part of the closure device 240 shown in figure 31.
  • Figure 34B is a side view of the closure device 240.
  • a movable pressure device 280 also referred to as“runner” 280, may be provided, according to an example, for the purpose of forcing the protrusion of the second elongated closure element 240B to enter into the elongated cavity of the first elongated closure element 240A.
  • This solution provides for an advantegeosly simple handling of the bag 20.
  • a customer having loaded chilled groceries into the bag 20, may easily close the bag by simply sliding the movable pressure device 280 from one edge 290 to the other edge 300 (see Figure 31 in conjunction with Figure 26 or 25) . In this manner, the customer may easily close and
  • collapsible bag 20 exhibits an ability to
  • a customer 60 may easily close the carrier bag 20, e.g. by sliding the“runner” or slider 280, thereby achieving a closed and sealed state 20C of the carrier bag, as shown in Figure 27.
  • the customer 60 may then carry the bag 20 by lifting the handles 170 and thus bring the frozen or chilled groceries to a destination 330, such as e.g. a freezer 310 or fridge 320 in the customer’s home.
  • Figure 22A is an illustration of an example of providing a closure element.
  • Figure 22B is a side view of an elongated closure element.
  • Figure 22C-D are illustrations of examples of closure elements.
  • Figure 22E illustrates a bag having a cut-out handle.
  • FIG. 22A-22B Another example of providing a closure device 4910 is shown in FIG. 22A-22B.
  • the bag according to the present disclosure comprising a protrusion or rim portion by the bag opening and at least two wall panels. As seen in FIG. 22A, the bag comprises a
  • a closure device 4910 including a first elongated closure element 5010 attached to an interior surface of the rim portion of one of the wall panels, and a second elongated closure element 5020 attached to an interior surface of the rim portion of the other wall panel.
  • the elongated closure elements 5010, 5020 are positioned and adapted for mating with each other so as to achieve closing of the bag opening as shown in FIG. 22B.
  • the first elongated closure element 5010 may comprise an elongated cavity with lips forming a slit along its length so as to enable a mating protrusion provided by the second elongated element 5020 to enter the slit between the lips.
  • the closure device 4910 may further comprise a movable pressure device (not shown) adapted to force the mating protrusion of the second elongated closure element 5020 to enter the elongated cavity of the first elongated closure element 5010.
  • the bag may comprise a substantially planar reinforcement sheet attached to the interior surface of the rim portion of one of the at least one wall so as to withstand gravity of the goods when loaded in the bag.
  • the elongated closure elements 5010, 5020 may comprise permanent magnets of different polarities adapted to be attractive to each other.
  • the closure device 4910 is provided at the inner and/or outer side of the front panel SI A and/or the back panel SIB.
  • This closure device can have the size of a stripe and has preferable substantially the width of the upper side of the front panel SI A and/or the back panel SIB.
  • the closure device 4910 can be attached to the front panel S1A and/or the back panel SIB. The attaching can be done by gluing or bonding.
  • the closure element 4910 can be a glue strip.
  • the closure device 4910 can be an adhesive tape. Thus, when pressing the front panel S 1 A to the back panel SIB, the glue strip and/or the adhesive tape can keep the front panel SI A and the back panel SIB close to each other, thus providing a closing of the transport container.
  • the front panel SI A and the back panel S IB are kept attached to each other by the closure device 4910 once they touch each other via the closure device 4910.
  • the closure element 4910 is only at the front panel SI A or only at the back panel SIB. This might be enough for providing a closure of the bag via adhesive forces.
  • the closure element 4910 can comprise an additional strip 29 of protection material shown in FIG 13. This strip can have substantially the same size as the glue strip/the adhesive tape.
  • the additional strip 29 can be provided in such a way that it has to be removed before allowing the glue strip/the adhesive tape to provide its adhesive force between the front panel SI A and the back panel SIB. This prevents the front panel SI A and the back panel SIB to stick permanently together when the transport container is in a flat state.
  • the closure element 4910 is on the outside of the front panel SI A and/or the back panel SIB.
  • the back panel SIB could have a larger vertical height than the front panel SI A.
  • a folding edge could be provided at the back panel SIB.
  • the folding edge can be substantially parallel to the upper side of the back panel SIB.
  • the folding edge could be situated at a distance from the upper side of the back panel SIB. Said distance could be approximately the distance of which the vertical height of the back panel SIB differs from the vertical height SI A of the front panel.
  • the folded section of the back panel SIB can then be put over the front panel SI A so that it covers the outer part of the front panel which comprises the closure device 4910. In that way a closure of the bag can be provided as well.
  • the closure device 4910 could also or instead be situated at the inner side of the folded part of the back panel SIB.
  • the role of the front panel SI A and the back panel SIB can also easily be interchanged.
  • the closure device 4910 can also be an element which allows closing the transport element with the help of an external closure device.
  • the closure device 4910 can comprise a welding strip.
  • the welding strip can be formed from a layer of PE.
  • the welding strip can be made of a weldable material so as to enable closing the bag opening by heat welding such that entry of air into the bag interior is minimized or prevented.
  • Said external element is in one example a sealing element, for example a hot sealing element. It could also be an impulse sealing element.
  • the external element could be a welding element.
  • the external element could be a so- called hot weld pistol.
  • the closure device is part of sheet which is provided for being cut in a method like method 1305.
  • the closure device 4910 is not an additional element which has to be attached to the front panel SI A and/or the back panel SIB, but is already part of the front panel SI A and the back panel SIB.
  • the closure device 4910 is in one example of the same material as the front panel SI A and/or the back panel SIB. According to an embodiment a part the water vapour impermeable membrane 190 forms the welding strip . .
  • the closure device 4910 can also be provided at the outside of the front panel SI A and/or the back panel SIB when the front panel SI A and the back panel SIB have the same size. This might be advantageous when providing a closure as described in relation to FIG 22F and FIG. 22G.
  • closure devices 5170a is provided by a tape or another adhesive material. This tape could be folded over the upper side of the bag after the upper sides of the front panel
  • the closure device 5170b is provided by a clamp.
  • the clamp 5170b could, for example, press the upper parts of the front panel SI A and the back panel SIB together. This pressing together could for example be caused by the form and the stiffness of the clamp 5170b.
  • the clamp 5170b can have a width which is longer than the upper width of the bag.
  • the form of the clamp 5170b can be different from what is shown in FIG.22D. Although shown without a handle, it would be no problem to provide a handle in FIG. 22C and FIG. 22D, for example a handle as in FIG 18C.
  • a tape 5170a or a closure device 5170b could, for example, be combined with a folded closing as described in relation to FIG. 22F and FIG. 22G In that case it might in one example be advantageous to provide one or several clamps with shorter widths than the upper width of the front panel S1A and/or the back panel SIB. This is due to the fact that such a clamp might be enough to keep a closing as indicated in FIG. 22G at its place so that it will not unfold automatically.
  • the front panel SI A and/or the back panel SIB could have a rim portion 5110c extending to its upper side. This rim portion 5110c could be substantially
  • each wall panel of the bag in FIG. 22E comprises at least one die cut opening so as to form a handle adapted to allow gripping by a human hand.
  • the rim portion could have an opening 5120c.
  • the opening 5120c could be such that it provides a handle. How openings can provide handles has been described before.
  • a closure device 5170c could be provided at a part of the protrusion or rim portion 5110c which is between the opening 5120c and the front panel SI A and/or back panel SIB .
  • This closure device 5170c could have any of the properties of the closure device 4910 which has been described before. Especially the closure device 5170c could provide adhesive force. The closure device 5170c could also be thus that a closure could be provided with the help of an external element which has been described before.
  • the front panel SI A and/or the back panel SIB could have a protrusion or rim portion 5110c extending to its upper side. This protrusion 5110c could be
  • the protrusion could have an opening 5120c.
  • the opening 5120c could be such that it provides a handle. How openings can provide handles has been described before.
  • a closure device 5170c could be provided at a part of the rim portion 5110c which is between the opening 5120c and the front panel SI A and/or back panel SIB .
  • This closure element 5170c could have any of the properties of the closure element 4910 which has been described before.
  • Especially the closure element 5170c could provide adhesive force.
  • the closure device 5170c could also be thus that a closure could be provided with the help of an external element which has been described before.
  • FIG 22F and Figure 22G illustrate a manner of closing a bag 20 by folding a rim portion of the bag, adjacent to the bag opening.
  • an example of a manner of closing the closeable opening includes repeated folding of a top part of the rim portion 25b, as illustrated by figure 22F and figure 22G in conjunction with e.g. figure 15 . .
  • the bag opening is first brought to a closed state by putting the rim portion 25b of the back panel SIB in contact with the rim portion 25b of the front panel SI A. Thereafter rim portion 25b of the front wall and the back wall are repeatedly folded so as to obtain a closed state, e.g. as illustrated in Figure 22G.
  • the closed state of the bag may be secured by placing some glue in one or several of the folds.
  • the closed state of the bag may be secured e.g. by clamping , 5170b, as illustrated in Figure 22D.
  • FIG. 22F is one example in the direction of the first sheet surface of the front panel SI AJ or the rim portion 25b of FIG. 15. In another example, the folding may be in the direction of the second sheet surface of the front panel
  • the back panel SIB is put into contact with the front panel SI A. This could be done by putting the upper side of the back panel SIB in contact with the upper side of the front panel.
  • the contact between the back panel SIB and the front panel SI A is along the enclosed areas FS1, FS2, FS3.
  • What is said regarding bringing the back panel SIB in contact with the front panel SI A applies in one example also to the rim portion 25b, which could be brought into contact with a corresponding rim portion 25b at the back panel S IB, for example the rim portion 25b of Fig. 15.
  • the folding is in one example done in the way that the enclosed area FS1 between the upper side of the rim portion 25b/the upper side of the front panel SI A and the uppermost folding edge, in the shown example FI 1.1, faces the enclosed area FS2 between the uppermost folding edge FI 1/F12, in the shown example FI 1.1, and the second most upper folding edge F 11/F 12, in the shown example F 11.2.
  • folding edges corresponding to FI 1/F 12 exist at the back panel SIB/at rim portions from the back panel SIB, and when a folding along these corresponding folding edges is performed in the same direction as a folding at the front panel SI A/the protrusion 4320, a closure of the transport container is provided.
  • the term same direction thus implies that the folding at the back panel SIB has to be towards the second sheet surface of the back panel SIB when the folding at the front panel SI A is towards the first sheet surface of the front panel SI A, and vice versa.
  • the contact between the front panel SI A and the back panel SIB and/or the corresponding rim portions is preferable kept throughout the folding procedure, so that the first sheet surface of the front panel SI A and the back panel SIB and/or the corresponding rim portions always touch each other.
  • an enclosed area FS2 between the uppermost folding edge FI 1.1 and the second uppermost folding edge FI 1.2 is folded towards the enclosed area FS3 between the second uppermost folding edge FI 1.2 and the third uppermost folding edge FI 1.3.
  • the enclosed area FS1 and preferably its counterpart on the back panel SIB, will thus be situated between the areas FS2 and FS3.
  • Fig. 22G shows a schematic example of how the result of thus a folding can look like.
  • Fig. 22G can be obtained when looking into the direction of the arrow D in Fig. 22F.
  • Fig. 22G it is shown how the enclosed areas FS1, FS2, ... can be arranged after the folding procedure.
  • the horizontal lines in Fig. 22G are only sketched for clarity reason to provide an intermediate space between the enclosed areas FS 1 , FS2, ...
  • the horizontal lines are in reality preferably not there, or at least much more narrow in relation to the vertical lines.
  • the lines in Fig. 22G present preferably the front panel SI A and the back panel SIB together, i.e. every line represents both the front panel SI A and the back panel SIB, where the front panel SI A is on one side of the line and the back panel SIB on the other side of the panel.
  • a folding provides a closure of the bag. This has the advantage that no additional closing element is needed. It is, however, possible to combine such a folding with a closure element as well.
  • Figure 35 is an illustration of an example of an insulator device.
  • the insulator device may be arranged and positioned on at least a portion of the bottom panel in the interior storage space 100 of the bag 20 so as to reduce heat transfer through the bottom panel.
  • the insulator device comprises a piece of material being shaped and adapted to provide cellular air cushions so as to reduce heat transfer through said bottom panel.
  • the insulator device comprises paper and a substantially water vapour impermeable material. This solution advantageously enables the insulator device to withstand a damp or wet environment without absorbing water.
  • the substantially water vapour impermeable material of the insulator device comprises at least one layer of a polymer material.
  • the insulator device comprises at least one layer of a plastic material. This solution advantageously enables the insulator device to withstand a damp or wet environment without absorbing water.
  • the insulator device comprises BubbleWrap® .
  • Figure 36 is an elevational view of an example of the expanded goods carrier bag 20 in an open expanded state 20B, placed next to an example of a collapsible grocery inner chill bag 400.
  • the collapsible grocery inner chill bag 400 is suitable for use inside of the carrier bag 20.
  • the inner chill bag 400 may have: a collapsed state 20A for enabling transportation of the inner chill bag in a substantially flat state, and
  • the inner chill bag 400 may comprise:
  • the inner chill bag 400 may have an open expanded state for loading and/or unloading grocery packages to be transported, and
  • the inner bag opening 420 may be closable opening which, in the closed expanded state of the inner chill bag cooperates with said inner walls and said inner bottom so as to minimize or prevent entry of air from the environment into the second interior storage space.
  • collapsible grocery inner chill bag 400 in its expanded state, is shaped and dimensioned to fit inside of the carrier bag 20.
  • Figure 37 is an elevational view of an example of a handle-carryable goods carrier chill bag package 450.
  • the chill bag package 450 illustrated in figure 37 includes an expanded goods carrier bag 20 in the closed expanded state 20C, and the collapsible grocery inner chill bag 400, in its expanded state; the inner chill bag 400 being shaped and dimensioned to fit inside of the carrier bag 20.
  • the handle-carryable goods carrier chill bag package 450 may thus comprise a collapsible handle-carryable goods carrier chill bag 20 and a collapsible grocery inner chill bag 400.
  • the handle-carryable goods carrier chill bag package in use, may include include the collapsible grocery inner chill bag 400 in its closed expanded state; and the collapsible handle-carryable goods carrier chill bag 20 in its closed expanded state, wherein the collapsible grocery inner chill bag is placed in the interior storage space 100 of the collapsible handle-carryable goods carrier chill bag 20.
  • This solution advantageously enables the packing of frozen grocery packages in the second interior storage space 410.
  • This solution therefore enjoys a high thermal resistance from a frozen grocery package in the second interior storage space to the environment outside of the outer handle-carryable goods carrier bag, since any air inside of the first interior storage space 100 functions as insulation between the second interior storage space and the environment outside of the outer handle- carryable goods carrier bag.
  • the interior of the bag 20 when in use, may be initially chilled by the low temperature of frozen or chilled grocery packages which are placed in the interior storage space 100. Although this is sufficient for maintaining the frozen or chilled state of frozen or chilled grocery packages for an extended period of time, the inventor realized that this time period may be further extended. According to an example, there is provided a means 460 for cooling the interior of the bag 20 so as to enable a further extended period of time during which the frozen or chilled state of frozen or chilled grocery packages is maintained. According to an example the handle-carryable goods carrier chill bag package 450 may, in use, further comprise a means 460 for cooling the interior 100 of the bag 20 and/or for cooling the second interior storage space 410.
  • a cooling agent According to an example of the means 460 for cooling the interior of the bag, there is provided a cooling agent.
  • a piece of dry ice is an example of such a cooling agent.
  • Dry ice is the solid form of carbon dioxide.
  • the chemical formula of carbon dioxide is C02.
  • a carbon dioxide molecule comprises two oxygen atoms bonded to a single carbon atom. It is colourless, non-flammable, and slightly acidic.
  • Carbon dioxide can change from a solid to a gas with no intervening liquid form, through a process called sublimation.
  • the opposite process is called deposition, where C02 changes from the gas to solid phase (dry ice).
  • sublimation/deposition occurs at -78.5 °C. Its enthalpy of sublimation is 571 kJ/kg (25.2 kJ/mol).
  • the density of dry ice varies, but usually ranges between about 1.4 and 1.6 g/cm3.
  • the low temperature and direct sublimation to a gas makes dry ice an effective coolant, since it is colder than water ice and leaves no residue as it changes state.
  • the Dry Ice cooling agent there is provided pellets of dry ice, the size of the pellets being suitable for placing in the interior storage space 100 of the bag 20, when the bag 20 is in use as a chill bag.
  • the dry ice pellets gradually change from a solid form to gaseous carbon dioxide with no intervening liquid form (sublimation) there is a corresponding energy consumption of 571 kJ/kg which causes a decrease of the temperature of any food packages surrounding the dry ice pellets.
  • the dry ice may be provided in a piece of a suitable size, dependent on the amount of refrigeration desired.
  • a single piece of dry ice may comprise one kilogram of dry ice.
  • a single piece of dry ice may comprise e.g. 10 grams of dry ice.
  • a single piece of dry ice may comprise e.g. 100 grams of dry ice.
  • Such relatively small pieces of dry ice may be referred to as dry ice pellets.
  • One or several dry ice pellets may be used simultaneously in the interior storage space 100 of the chill bag 20, dependent on duration of the period of time it is desired to keep the interior storage space 100 at freezing temperatures.
  • the carrier bag 20 may advantageously be used by on-line shops, for delivery of frozen or chilled groceries which have been ordered e.g. via the Internet.
  • the advantageous ability of the bag 20 to preserve the frozen or cold state of groceries for an extended length of time may enable a reduction in the cost for delivery of frozen or chilled groceries.
  • FIG 38 shows a schematic block diagram of an example of a system for delivering goods, such as e.g. groceries, according to an example of the invention.
  • Reference numeral 500 relates to a client location with a computer 510 having a user interface 520 for enabling a client, such as e.g. a person wanting to buy goods, to access the Internet.
  • the computer 510 has a communications port 520 for bi directional data exchange.
  • the communication port 520 is connectable to a communications network 530, e.g. via a data interfacel9.
  • the communications network 530 may be the world wide internet, also known as the Internet.
  • the communications network 530 may also comprise a public switched telephone network.
  • a server computer 540 is also connected to the communications network 530.
  • the server computer 540 may comprise a database 560, user input/output interfaces 570 and data processing hardware 580, and a communications port 590.
  • the server computer 540 is located on a server location 592, which is geographically separate from the client location 500.
  • the server location 592 may be in a first city, such as the Swedish capital Swedish, and the client location may be in another city, such as Berlin, Germany.
  • the server location 592 may be in a first part of a town and the client location may be in another part of the same town.
  • the server location 592 may also be referred to as supplier part 592, or supplier part location 592.
  • the server computer may be part of an on-line business entity 595 for the sales and delivery of goods that needs to be kept chilled, cold or frozen.
  • the on-line business also includes a storage facility 600 for goods 40.
  • a storage computer 610 is connected to the communications network 530.
  • the storage computer 610 may comprise user input/output interfaces 620 and data processing hardware 630, and a communications port 640.
  • the storage facility 600 also comprises one or several storage rooms 650.
  • the storage room 650 has a controlled environment, in that the temperature and the relative humidity of the air in the storage room 650 is controlled so that it is kept within certain predetermined ranges.
  • the goods may comprise a plurality of different types of goods, and the goods may be sorted into different temperature ranges TI, TII, Till, and TIV, each type of gods being stored in a corresponding storage room 650n, 650TM, 650nn, and 650nv having a temperature in accordance with the corresponding goods temperature range TI, TII, Till, or TIV (See Figure 39).
  • the temperature in each storage room is set 650TI, 650TII, 650TIII, and 650uv in accordance with a lowest acceptable goods temperature range for the corresponding goods.
  • the temperature in each storage room 650TI, 650TH, 650TIII, and 650nv is set in accordance with a lowest acceptable goods temperature range for the
  • FIG 39 is a schematic block diagram of an example of a storage facility 600 comprising plural storage rooms 650TI, 650TII, 650TIII, and 650nv.
  • the facility 600 may also comprise a goods loading room 660.
  • the goods loading room 660 may be arranged so that a storage room 650 is accessible directly from the goods loading room 660.
  • the ambient air temperature in goods loading room 660 is kept lower than +18 degrees Centigrade.
  • the air humidity is advantageously kept low in the environment where chilled or frozen goods is to be packed into bags 20 so as to eliminate or minimize the occurrence of condensation or frosting on chilled or frozen goods.
  • the relative air humidity is kept lower than 40% RH.
  • the relative air humidity is kept lower than 20% RH.
  • condensation can cause significant heating of chilled, non-frozen, goods. If air humidity causes condensation on the surface of a piece of chilled, non-frozen, goods the increase of the mean temperature of a piece of chilled, non-frozen, goods is:
  • mc ond number of grams of water being deposited on chilled goods by condensation
  • Wc hg mean heat capacity of the chilled goods
  • ni chg the mass of the chilled goods [kilograms]
  • DTFRG 2594* mcond /(WFRG *mFRo), where
  • DTFRG the increase in mean temperature of the chilled goods [degrees Centigrade]
  • mfrost number of grams of frost (frozen water) being deposited on frozen goods by condensation & freezing
  • WFRG mean heat capacity of the frozen goods
  • niFRG the mass of the frozen goods, measured in kilograms
  • an object and an advantageous feature of the invention is to eliminate or minimize warming of chilled or frozen goods during packing into a bag 20 by eliminating or minimizing the occurrence of frosting and/or condensation on chilled or frozen goods.
  • the ambient air temperature in goods loading room 660 is therefore kept lower than +10 degrees Centigrade, and the air humidity is also kept low in the environment where chilled or frozen goods is to be packed into bags 20 so as to eliminate or minimize the occurrence of condensation or frosting on chilled or frozen goods.
  • the relative air humidity is kept lower than 30% RH.
  • the relative air humidity is kept lower than 20% RH.
  • the right hand column in Table 1 below provides an overview of the water mass per unit volume of vapour saturated air.
  • the left hand side column indicates corresponding temperature and the middle column indicates the pressure of saturated vapour.
  • the storage facility 600 also comprises storage of bags 20 for the transport of chilled or frozen goods.
  • the bags 20 may be bags 20 for the transport of chilled or frozen goods.
  • the bags 20 may be provided in plural predetermined sizes, such as e.g. six different sizes.
  • the interior storage space volume of the bags 20 sizes may comprise e.g. 4,5 litres, 10 litres, 20 litres, 30 litres, 40 litres and 50 litres.
  • the facility 600 may comprise plural storage rooms
  • the Goods storage facility # may keep a stock of goods 40i at a first cool temperature within the first temperature range Ti.
  • the first temperature range may be 15-18 degrees Centigrade.
  • Such goods 40i may comprise grocery such as fresh produce, such as fruit or mushroom, which may be provided in separate portion sized packages or containers 40A.
  • some goods may be provided at a first, cool, temperature range Ti of about 15-18 degrees Centigrade.
  • Some goods may be provided at a second, cold non-freezing, temperature range Tii.
  • the second cold non-freezing temperature range may be a range of about +6 to +8 degrees Centigrade.
  • the cold non-freezing temperature range may be a range of about +1 to +4 degrees Centigrade.
  • Some goods may be provided at a third temperature range Tm.
  • the third temperature range Till may be a freezing temperature range of e.g. between -18 degrees to - 22 Centigrade.
  • some goods may be provided at a fourth freezing temperature range Tiv which is colder than the third range.
  • the fourth range may be e.g. of between -25 to
  • the minimum freezing temperature TfrMin may be e.g. -10 or -4 degrees Centigrade.
  • the inaccuracy range T ra may be a narrow span of a few degrees.
  • the inaccuracy range T ra may be a narrow span of e.g. less than two degrees.
  • the duration from the packing of the chilled or frozen product into the chill conserving bag 20 until the goods has reached a certain higher temperature T c h2 depends on the initial temperature T c hi of the chilled or frozen goods.
  • T c hi the initial temperature of the chilled or frozen goods.
  • Figures 40A and 40B and 40C show a schematic block diagram of an example of a method of delivering chilled goods and/or frozen goods.
  • the left flow chart F10 illustrates actions performed by means of a client location computer 510.
  • a client such as e.g. a person wanting to buy goods, places an order for chilled and/or frozen goods by causing the client location computer 510 to communicate with the server computer 540 located at the server location 592.
  • the client may thus place an order for a certain amount A of chilled and/or frozen goods to be delivered to a delivery destination DD.
  • the server computer 540 may thus be adapted to receive an order, as indicated by step S300 in the right hand side flow chart F20 in Fig 40 A.
  • the server computer 540 may also include functionality for debiting, and for confirming receipt of the order.
  • the server computer 540 may be adapted to sort the order information according to the goods temperature ranges (step S310).
  • the server computer 540 may, in a step S320, transfer a delivery instruction DI to the storage computer 610 at the storage facility 600.
  • the delivery instruction DI may comprise information about the amount of each piece of goods ordered and information indicative of the delivery destination DD.
  • the delivery instruction DI may also be indicative one or plural goods temperature ranges associated with the ordered goods.
  • the delivery instruction DI may be received by the storage computer 610 at the storage facility 600.
  • the storage computer 610 may be adapted to create a packing instruction PI.
  • the packing instruction may include information about the amount of each piece of goods ordered.
  • step S310 may be performed by the storage computer 610, as an alternative to being performed by the server computer.
  • the storage computer 610 may be adapted include structured information in the packing instruction PI so that an approximate volume and/or an approximate mass of the goods within an individual temperature range TI, TII, Till, or TIV is indicated by the packing instruction PI. In dependence on the information in the packing instruction PI the storage computer 610 may generate an indication of a suitable type and/or suitable size of transport container for the ordered goods.
  • the bags 20 may be provided in plural predetermined sizes, such as e.g. five different sizes.
  • the interior storage space volume of the bags 20 sizes may include plural bag volume sizes VI, V2, V3, V4, V5.
  • the bag volumes may include VI, V2, V3, V4, V5, V6 being mutually different sizes such as e.g. 4 litres, 10 litres, 20 litres, 30 litres, 40 litres and 50 litres.
  • the storage computer 610 may deliver the packing instruction PI to a relevant user input/output interface 620i, 620n, 620m , or 620iv dependent on the volume and/or mass indicated for goods within an individual temperature range TI, Til, Till, or TIV is indicated by the packing instruction PI.
  • the packing instruction PI includes an indication that X kg of goods within the fourth
  • the instruction may be sent to the
  • a user input/output interface 620i, 620n, 620m , and/or 620iv may include a display.
  • the display 620i, 620II, 620m , and/or 620iv may be adapted to be read by a person whose task it is to move the indicated amount of goods from the indicated storage room 650n, 650TII, 650TIH, and/or 650TIV into a bag 20 having an indicated size VI, V2, V3, V4, or V5. It has been found that there is an optimum filling degree of a chill bag 20. Moreover, it has been found that if X kg of a certain chilled or frozen goods is to be
  • all goods within a certain temperature range should preferably be collectively packed in as few containers as possible, while not exceeding the optimum filling degree of a chill bag 20.
  • the optimum filling degree allows for an air gap to form between the inner surface of the bag 20 and the outer surface of the cold or frozen goods.
  • the bag is filled to a filling degree such that the chilled goods avoids physical contact with any side wall and with the inside of the closed upper surface, i.e. the sealed opening portion of the bag 20.
  • packing instruction PI may include information indicative of a recommended number container(s) 20 and recommended container size VI, V2, V3, V4, or V5 for goods within each temperature range (see step S350 in Figure 40 A) so as to allow for packing a minimum number of uniform goods temperature containers being filled to the optimum filling degree.
  • the filling degree is determined so as to balance between conflicting requirements.
  • the bag has too little content of chilled or frozen goods, the amount of stored negative energy is small rendering an undesiredly fast warming of the goods due the small amount of“cold energy”.
  • the terms“negative energy” or“cold energy” are used since a piece of chilled goods having a certain temperature absorbs energy , i.e. absorbs positive energy, in the process of increasing its temperature. The absorbed energy is the energy that may seep in via the walls of the closed and sealed container, by way of heat conduction through the walls.
  • heating by condensation and/or frosting within the container 20 or bag 20 is eliminated or reduced, since entry of air is prevented or reduced as described elsewhere in this document, thereby basically rendering heat conduction through the walls the only remaining manner by which energy can seep into the interior of the container 20 or bag 20.
  • the goods may fill the interior storage space to such an extent that the chilled or frozen goods may rest close to the side walls, or even touch the side walls, thereby reducing or eliminating an insulating effect gained by a gap between the side walls and the chilled or frozen goods placed at a centre position of the bottom panel of the bag.
  • a good filling degree of a bag 20 is between 25% and 75%, according to an example of the disclosure, so as to gain an insulating effect by a gap between the side walls and the chilled or frozen goods placed in the interior storage space. It has been found that it is preferable to have at least 2 kg of chilled or frozen goods in order to provide an amount of stored cold energy within the bag 20, when the bag 20 has a volume between 10 litres and 50 litres. More preferably, a bag 20 having a volume between 10 litres and 50 litres, should be filled with at least 2,5 kg of chilled or frozen goods and the filling degree should preferably be less than 90%. It has been concluded that a bag 20 having a volume between four litres and 10 litres, should preferably be filled with at least 1,5 kg of chilled and/or frozen goods and the filling degree should preferably be less than 90%.
  • An optimum filling degree appears to be between 40% and 60% of the bag volume. According to a preferred example the filling degree is between 45% and 55% of the bag volume.
  • a step S360 one or plural bags 20 are packed.
  • a bag 20, having a bottom panel and side panels is packed in a manner that allows an air gap to be formed between the side panels of the bag 20 and chilled or frozen goods placed at a centre position of the bottom panel.
  • a certain bag 20 is filled with goods having mutually uniform temperature. This advantageously contributes to a substantially uniform temperature throughout the goods in that bag 20, and it minimizes any temperature re-distribution between mutually different pieces of goods.
  • one or plural bags 20 may be packed such that a minimum number of uniform goods temperature containers are filled to the optimum filling degree.
  • the actual packing of bags 20 may be performed manually by a person receiving instructions from the user interface 620 in goods loading room 660.
  • each bag 20 may be closed and sealed, as indicated in step S370 (Fig 40B). This may also be done manually.
  • closing and/or sealing of the bag 20 may be performed. This may include heat welding, gluing, sealing by use of a tape, or by clamping. Closing and/or sealing of the bag 20 may be also be performed by folding a rim portion of a bag 20.
  • the bag 20 may include a neck portion 662 of flexible material at the rim portion of the bag wall(s), the flexible material being shaped and sized to allow a string 664 being placed around the neck portion so as to strangle the neck portion such that the bag becomes substantially sealed.
  • the storage computer 610 may deliver the packing instruction PI to a packing robot 670 (See figure 38 in conjunction with step S340 in
  • Figure 38 only shows one storage room 650, it is to be understood that there may be plural storage rooms 650TI, 650TII, 650TIII, 650TIV and one, several or all the storage rooms 650TI, 650TH, 650mi, 650TIV may be provided with a packing robot 670, thereby enabling complete packing to be to performed in a cold and dry environment.
  • the whole packing procedure may be performed within the respective storage room 650TI, 650TII, 650HH, 650TIV having a controlled air temperature and a controlled air humidity.
  • the ambient air temperature in goods loading room 660 is kept lower than +25 degrees Centigrade, and the air humidity is advantageously kept lower than 70% in the environment where chilled or frozen goods is to be packed into bags 20 so as to eliminate or minimize the occurrence of condensation or frosting on chilled or frozen goods.
  • the relative air humidity is kept lower than 40% RH.
  • the relative air humidity is kept lower than 20% RH.
  • the bag 20 should preferably be packed and sealed such that the air trapped within the bag 20 has a relative humidity of less than 70% at an air temperature equal to the surface temperature of the goods during packing.
  • the purpose of this feature is to minimize or eliminate the risk of condensation occurring within the bag 20. Since the relative air humidity decreases in response to increased temperature, such relatively dry air being initially trapped in the bag may not only avoid causing condensation, but it may also advantageously be able to absorb and dilute some humidity that may originate from the chilled goods or from a minor entry of ambient air during transport.
  • the sealed container(s) 20 may be placed in or on a transport vehicle 680 for distribution to the delivery destination DD.
  • the delivery destination may be the client location 500, or a geographically different place.
  • the sealed container(s) is/are transported to the delivery destination DD in accordance with the information in the delivery instruction DI.
  • the sealed container(s) 20 may have the ability to retain an initial low goods temperature for a long time due to the interaction of a number of cleverly combined features, as described elsewhere in this document, even when used in an air atmosphere environment having an ambient air temperature of more than +10 degrees Centigrade.
  • the sealed container(s) 20 may have the ability to retain an initial low goods temperature for a long time also when the air atmosphere environment has an ambient air temperature of more than +20 degrees Centigrade or more.
  • the sealed container(s) 20 may be delivered at the delivery destination DD in accordance with the information in the delivery instruction DI.
  • an embodiment of the bag 20 comprises
  • a wall adapted to enclose an interior storage space (100) for transporting chilled and/or frozen goods 40, 40A, the wall being shaped and adapted to form an interior storage space 100 to a volume of five metric litres; the chill bag having a collapsed state for enabling transportation of the paper chill bag in a substantially flat state, and
  • a back wall panel 120, SIB
  • thermally insulating intermediate space beween the outer paper layer and the inner paper layer; the intermediate space comprising an intermediate material;
  • a closable bag opening 160, 420
  • the chill bag (20) in its closed state seals, or substantially seals, the interior storage space (100) from the environment so as to minimize or prevent entry of air from the environment into the interior storage space (100); the bag opening being closed by folding a flap 26 be folded down and secured in position by the use of the adhesive layer 29, as illustrated in figure 13.
  • the a bottom panel was made as disclosed in connection with Figure 18F.
  • testbag TB a bag as disclosed in Figure 13 in conjunction with Figure 18F
  • testbag TB was filled with an amount of frozen goods
  • the bag 20 was placed in an environment of 20 degrees Centigrade and a relative humidity of 60%RH.
  • the test bag TB had fragmented stuffing material in the form of recycled paper as intermediate material H.
  • a kraft paper bag as disclosed in EP3140223B1 here referred to as KPB
  • KPB kraft paper bag as disclosed in EP3140223B1
  • KPB kraft paper bag as disclosed in EP3140223B1
  • the kraft paper bag KPB was also placed in the same environment.
  • the measuring condition were the same.
  • the frozen goods in the kraft paper bag KPB had increased its temperature by 4 degrees centigrade after 1 hour
  • the frozen goods in the inventive bag 20 had increased its temperature by 4 degrees centigrade after 2 hours.
  • the goods in the kraft paper bag KPB had increased its temperature by 8 degrees centigrade after two and a half hours
  • the goods in the inventive bag 20 had increased its temperature by 8 degrees centigrade after 5 hours.
  • Figure 17A shows a table with measurement data from comparative test, comparing temperature retaining capacity for different bags and comparing temperature retaining capacity for bags with mutually different intermediate materials.
  • the table in Figure 17A provides measurement data from a comparative test.
  • the initial temperature is maintained for even longer, when the bag is placed in an air environment having a temperature in the range from +24 to +26 degrees Centigrade, as indicated by the table in Figure 17 A.
  • the bags to be compared were packed with mutually the same amount of chilled, non-frozen goods, the initial temperature of the goods being indicated in the column marked“start temp”.
  • the two rows (rows 5 and 9) which in the leftmost column are marked“ifoodbag27L” indicate measurement data for a kraft paper bag as disclosed in EP3140223B1 (here referred to as KPB).
  • the other remaining rows of the table of Figure 17A provide test data for bag 20 as described above (Here referred to as testbag TB) with mutually different example intermediate materials H.
  • These alternative intermediate materials H are also discussed elsewhere in this document, e.g. the text relating to figure 14 and the text relating to figures 3, 4, 6, 8, 9, 10, and figure 11.
  • the 12:th row in the table in Figure 17A lists Versa-PakTM.
  • the term Versa- PakTM refers to a multiple layer cushioning paper packaging from recycled and biodegradable cellulose tissue.
  • Example 1 A bag for transporting goods comprising
  • At least one wall panel being shaped and adapted to form an interior storage space (100) for transporting said goods; the at least one wall panel including
  • the bag is a protective bag having
  • the protective bag in its expanded state, provides said interior storage space for transporting goods, the protective bag further comprising:
  • the protective bag has
  • a closed expanded state (20D) such that the protective bag (20), in its closed expanded state (20D), provides a closed interior storage space for transporting goods.
  • the bag opening is a closable opening which, in the closed expanded state (20D) of the protective bag cooperates with said at least one wall panel so as to protect said goods, when placed in the interior storage space, against impact damage.
  • the inner layer includes paper.
  • the cushioning layer comprises a soft material, forming a lining.
  • the cushioning layer comprises paper.
  • the cushioning layer comprises fragmented stuffing material.
  • said stuffing material is adhesively attached to at least one of the said yield- able material layers.
  • said stuffing material is adhesively attached to at least one of the said yield- able material layers, said stuffing material being lightly compressed and applied across an area of at least one of said yield-able material layers.
  • the cushioning layer comprises a biodegradable material.
  • the outer layer includes a biodegradable material.
  • the inner layer includes a biodegradable material.
  • the fragmented stuffing material comprises paper.
  • the fragmented stuffing material comprises recycled paper.
  • the fragmented stuffing material comprises recycled paper, said recycled paper including a mix of at least two types of recycled paper.
  • the fragmented stuffing material comprises recycled paper, said recycled paper including a mix of at least two types of recycled paper, one of said recycled paper types including recycled newspaper.
  • the outer layer includes Kraft paper.
  • the inner layer includes Kraft paper.
  • said wall panel being shaped and adapted to form said interior storage space to a volume of between 4 metric litres and 50 metric litres, or between 10 metric litres and 50 metric litres, in the expanded state of the bag.
  • the outer yield-able material layer comprises paper of a water resistant paper quality.
  • the outer yield-able material layer, and or the inner yield-able material layer comprises paper having a basis weight of at least 60 grams per m 2 .
  • the outer yield-able material layer, and or the inner yield-able material layer comprises paper having a basis weight of at least 90 grams per m 2 .
  • the bag (20) is based on a tubular protector strip (5T).
  • 5T tubular protector strip
  • the bag (20) has a rim portion by the bag opening, and wherein
  • the rim portion is provided with at least one handle.
  • the handle comprises an opening (37) through the outer yield-able material layer and through the inner yield-able material layer.
  • the handle comprises a paper strip formed in a U-shape and having two paper strip end portions (200A, 210 A); the paper strip end portions (200 A, 210A) of the first handle (170A) being attached to the rim portion (150, 25b) of a bag wall (110, 120, S1A, SIB).
  • a bag portion (25c) is folded so as to form a flat bottom panel, or substantially flat bottom panel (140). 29.
  • the collapsible bag in its expanded state, provides an interior storage space for transporting goods, the collapsible bag comprising:
  • a wall panel wherein the wall panel and the bottom panel cooperate to form said interior storage space to a volume of between 4 metric litres and 50 metric litres, or between 10 metric litres and 50 metric litres in the expanded state of the bag;
  • a rim portion of the wall panel facing away from the bottom panel provides a bag opening
  • the collapsible bag has
  • the bag opening is a closable opening which, in the closed expanded state (20D) of the collapsible bag, cooperates with said wall panel and said bottom panel so as to minimize or prevent entry of air from the environment into the interior storage space.
  • the collapsible bag in its expanded state, provides an interior storage space for transporting goods, the collapsible bag comprising:
  • a bottom panel wherein the at least one wall panel and the bottom panel cooperate to form said interior storage space to a volume of between 4 metric litres and 50 metric litres, or between 10 metric litres and 50 metric litres in the expanded state of the bag;
  • the collapsible bag has
  • the bag opening is a closable opening which, in the closed expanded state (20D) of the collapsible bag, cooperates with said at least one wall panel and said bottom panel so as to minimize or prevent entry of air from the environment into the interior storage space.
  • the at least one wall panel comprises at least two wall panels.
  • the collapsible bag (20), in its closed expanded state comprises:
  • the collapsible bag (20), in its closed expanded state comprises:
  • one of the wall panels is said bottom panel.
  • the wall panel or at least one of the wall panels, comprises
  • an intermediate space beween the outer material layer and the inner material layer.
  • the outer material layer comprises a biodegradable material.
  • the outer material layer consists of biodegradable material.
  • the inner material layer comprises a biodegradable material.
  • the inner material layer consists of biodegradable material. 41.
  • the outer material layer is shaped as a sheet having
  • the inner material layer is shaped as a sheet having
  • the outer material layer is arranged and positioned in relation to the inner material layer such that air is trapped in the intermediate space so that at least 70% of the inner material second surface is separated from the outer material second surface.
  • an intermediate material is placed in the intermediate space. 7.
  • the intermediate material is a biodegradable material.
  • the biodegradable material comprises paper. 50.
  • the outer material layer comprises kraft paper.
  • the inner material layer comprises kraft paper.
  • the intermediate material comprises a biodegradable pulp based material.
  • the outer material layer is a biodegradable material.
  • the outer material layer includes greaseproof paper. 55.
  • the outer material layer includes paper that is water resistant.
  • the collapsible bag in its expanded state, provides an interior storage space for transporting goods, the collapsible bag comprising:
  • the collapsible bag has
  • a closed expanded state (20D) such that the collapsible bag (20), in its closed expanded state (20D), provides a closed interior storage space for
  • the bag opening is a closable opening which, in the closed expanded state (20D) of the collapsible bag, cooperates with said at least one wall panel so as to minimize or prevent exchange of air between the environment and the interior storage space.
  • said at least one wall panel is folded so as to provide
  • SIB back wall panel
  • SI A front wall panel
  • SIB back wall panel
  • a bottom panel 140; wherein the wall panels and the bottom panel cooperate to form said interior storage space.
  • the wall panel or at least one of the wall panels, comprises
  • thermally insulating intermediate space beween the outer material layer and the inner material layer.
  • This solution advantageously provides, in the closed expanded state (20D) of the protective bag, a three step thermal protection for goods placed in the interior storage space of the bag.
  • the thermally insulating intermediate space provides for a minimized thermal conductance between the air of the bag environment and the goods placed in the interior storage space of the bag.
  • the outer material layer and the inner material layer cooperate with the closable opening, in the closed expanded state (20D) of the collapsible bag, to minimize or prevent exchange of air between the environment and the interior storage space.
  • the formation of condensation is minimized or prevented on chilled and/or frozen goods placed in the interior storage space of the bag, since the entry of any humid air from the evironment is minimized or prevented by the outer material layer and the inner material layer in cooperation with the closed opening.
  • condensation heating of chilled and/or frozen goods is is minimized or prevented by the outer material layer and the inner material layer in cooperation with the closed opening.
  • the inner material layer acts as an air barrrier to to minimize or prevent any steam that may arise from hot goods, such as hot food items, from entering into the intermediate space. Since steam holds water, and water has a relatively high thermal conductivity, the inner material layer acting as a air barrier thereby minimizes or eliminates the detrimental effect that such steam and/or water would otherwise have on the thermally insulating function of the intermediate space.
  • the outer material layer and the inner material layer provide a two step air exchange barrier.
  • the intermediate space provided beween the outer material layer and the inner material layer will protect said goods, when placed in the interior storage space, against impact damage, which could otherwise occur if the bag, when filled with goods, e.g. falls or is hit by another object.
  • the outer material layer comprises a biodegradable material.
  • the outer material layer consists of biodegradable material.
  • the inner material layer comprises a biodegradable material.
  • the inner material layer consists of biodegradable material.
  • an intermediate material is placed in the intermediate space.
  • the intermediate material comprises fragmented stuffing material.
  • said intermediate material is adhesively attached to at least one of the said yield-able material layers, said intermediate material being lightly compressed and applied across an area of at least one of said yield-able material layers.
  • the intermediate material comprises a biodegradable material.
  • the outer layer includes paper.
  • the inner layer includes paper.
  • the intermediate material is a fragmented stuffing material.
  • the fragmented stuffing material comprises recycled paper.
  • the fragmented stuffing material comprises recycled paper, said recycled paper including a mix of at least two types of recycled paper.
  • the fragmented stuffing material comprises recycled paper, said recycled paper including a mix of at least two types of recycled paper, one of said recycled paper types including recycled newspaper.
  • the outer layer includes Kraft paper.
  • the inner layer includes Kraft paper.
  • said wall panel being shaped and adapted to form said interior storage space to a volume of between 4 metric litres and 50 metric litres, or between 10 metric litres and
  • the outer yield-able material layer comprises paper of a water resistant paper quality.
  • This solution i.e. providing a water resistant paper quality for forming an outer material layer of a bag, advantageously prevents any water that, if air in the environment is humid, may be generated by condensation on the outside surface of the bag, from seeping into the wall. Thereby, this solution reduces or eliminates an increased thermal conduction in the wall which may otherwise occur due to water having a high thermal conductivity of about 0,6 W/(m*K).
  • paper typically has a thermal conductivity of less than 0, 15 W/(m*K) when established at 23 °C and 50% RH (Relative Humidity).
  • the outer material layer, and or the inner material layer comprises paper having a basis weight of at least 60 grams per m 2 .
  • the outer material layer, and or the inner material layer comprises paper having a basis weight of at least 90 grams per m 2 .
  • the bag (20) is based on a tubular protector strip (5T).
  • the bag (20) has a rim portion by the bag opening, and wherein
  • a rim portion is provided with at least one handle.
  • the handle comprises an opening (37) through the outer material layer and through the inner material layer.
  • the handle comprises a paper strip formed in a U-shape and having two paper strip end portions (200A, 210A); the paper strip end portions (200A, 210A) of the first handle (170A) being attached to a rim portion (150, 25b) of a bag wall (110, 120, SI A, SIB).
  • a bag portion (25 c) is folded so as to form a flat bottom panel, or substantially flat bottom panel (140). 89.
  • a bag edge portion (25c) facing away from the bag opening (160) is folded so as to form a flat bottom panel, or substantially flat bottom panel (140).
  • the outer layer includes a paper layer having an air permeability of 0,5 pm/(Pa s), or less.
  • the inner layer includes a paper layer having an air permeability of 0,5 pm/(Pa s), or less.
  • said at least one wall panel comprises a paper layer, said paper layer having a biodegradable polymer coating.
  • This bag may be a paper bag as disclosed in W02015171036 (ifoodbag).
  • the outer material layer and/or the inner material layer comprises a paper layer, said paper layer having a biodegradable polymer coating.
  • This biodegradable polymer coating advantageously provides a very good barrier having a low air permeability while also being biodegradable.
  • the biodegradable polymer coating (1003) comprises an outer layer (1006) containing polylactide, and
  • the biodegradable polymer coating (1003) comprises an outer coating layer (1006) containing polylactide, the weight of said outer layer being at the most about 20 g/m2, and
  • the combined total weight of the outer coating layer (1006) and the adhesive inner coating layer (1007) lying on top of each other is in the range of 12-30 g/m2.
  • the adhesive layer (1007) contains biodegradable polyester amide, cellulose ester or aliphatic or aliphatic-aromatic copolyester.
  • the biodegradable coating (1003) contains mixed in the polymer a finely divided mineral component.
  • the biodegradable coating (1003) is only on one side of the paper layer.
  • the biodegradable coating (1003) is provided on each side of the paper layer.
  • the biodegradable coating is a compostable coating.
  • the outer material layer has a biodegradable polymer coating, said polymer coated outer material layer having an air permeability less than 0.35 pm/(Pa s).
  • the inner material layer has a biodegradable polymer coating, said polymer coated inner material layer having an air permeability less than 0.35 pm/(Pa s).
  • biodegradable coating is as defined in any of examples 94-100.
  • the outer layer includes a Non- woven material.
  • the inner layer includes a Non-woven material.
  • the intermediate material comprises a biodegradable pulp based material.
  • This solution advantageously provides a biodegradable intermediate material.
  • intermediate material comprises fluff pulp.
  • Fluff pulp which may also be referred to as comminution pulp or fluffy pulp, is a type of pulp, which may be made from long fibre softwoods.
  • This solution advantageously provides a biodegradable intermediate material.
  • the intermediate material comprises flax fibers.
  • Flax fiber can be extracted from the bast beneath the surface of the stem of the flax plant.
  • the flax fibres form soft, lustrous, and flexible bundles of fiber, and hence this solution advantageously provides a good biodegradable intermediate material.
  • 109. The bag according to any preceding example, wherein
  • the intermediate material comprises hemp refined into a thermally insulating material.
  • hemp, or industrial hemp is a strain of the Cannabis sativa plant species that is grown specifically for industrial uses of its derived products.
  • the plant is spun into usable fibres, and the fibres are then refined into a thermally insulating material.
  • this solution advantageously provides a biodegradable thermally insulating material.
  • the intermediate material comprises shredded paper.
  • This solution advantageously allows for a low cost insulating material that is also very high in air content, and since air has a very low thermal conductivity, the shredded paper also provides very good insulation properties.
  • the shredded paper is shredded recycled paper.
  • This solution advantageously adds to the environmental friendlieness of the bag in that the carbon dioxide print of the bag production is reduced by using a recycled paper as source material instead of making the intermediate material from a freshly produced source material.
  • the intermediate material (H) comprises fibres made from pine tree wood. This solution advantageously provides a biodegradable intermediate material.
  • the intermediate material (H) comprises cellulose wadding.
  • the intermediate material (H) comprises cotton wool.
  • This solution advantageously provides a biodegradable intermediate material.
  • the intermediate material (H) comprises a plurality of interconnected superposed sheets (SY) of a yieldable material wherein such a superposed sheet is provided with a multiplicity of adjacent lengthwise and widthwise offset discrete areas of embossed, three dimensional patterns defined by mounds and recesses, the patterns of mounds and recesses in adjacent discrete areas being different, the superposed sheets being so disposed relative to each other that areas having identical patterns are at least partly offset from the identical patterned areas in the adjacent sheets so that air filled spaces are formed between adjacent interconnected superposed sheets.
  • This solution advantageously provides a large number of three-dimensional spaces that are filled with air and separated by the interconnected superposed sheets of a yieldable material.
  • the large number of air filled spaces, formed by the interconnected superposed sheets, in combination with the fact that air has a very low thermal conductivity, as mentioned elesewhere in this document, advantageously renders an intermediate material that has excellent thermally insulating properties.
  • the bag, provided with this type of intermediate material has excellent thermally insulating properties.
  • this type of intermediate material enables the bag to provide excellent protection for fragile objects in the goods placed in the interior storage space of the bag.
  • the intermediate material H has a series of embossed offset sheets S Y.
  • the embossed offset sheets SY are enclosed in between the outer material layer, F,G and the inner material layer, G, F.
  • the sheets SY from one side may each have a series of mounds MU and recesses RV which are next to each other and arranged in rows extending longitudinally or diagonally. Instead of diagonally, they may also extend at varying angles of 30 to 60 or even other intermediate angular displacements.
  • the intermediate material comprising a plurality of interconnected superposed sheets of a yieldable material may be as described in GB 1373428, the content of which is hereby incorporated by reference.
  • the areas of patterns are rectangular and the identical areas of each sheet are lengthwisely offset from the comparable areas- of each adjacent sheet.
  • the interconnected superposed sheets comprise paper.
  • This solution advantageously provides a biodegradable intermediate material.
  • the intermediate material comprises dried plant material which is shaped and arranged to provide multiple air pockets while keeping at least a portion of the outer material layer separated from the inner material layer so as to thermally insulate the interior storage space from the air environment.
  • the dried plant material comprises mosses.
  • mosses are small flowerless plants that typically form dense green clumps or mats, often in damp or shady locations.
  • the individual plants are usually composed of simple leaves that are generally only one cell thick, attached to a stem that may be branched or unbranched.
  • the irregular shape of mosses renders, also in a dried stat of the mosses, to the formation of multiple air air pockets.
  • the outer layer and/or the inner layer includes a textile material.
  • a wall adapted to enclose an interior storage space (100) for transporting goods (40), the wall being shaped and adapted to form said interior storage space (100) to a volume of at least four metric litres, or at least ten metric litres,; said wall comprising:
  • a closable opening 160
  • the bag (20) in its closed state (20C) substantially seals the interior storage space (100) from the environment so as to minimize or prevent entry of air from the environment into the interior storage space (100).
  • the bag is adapted to be collapsible so as to have
  • the bag (20) is shaped in such a manner that plural bags (20) can be stacked so as to enable transporting a plurality of stacked containers (20, 20A) within a certain volume in three dimensional space; said certain volume being smaller than the sum of the individual container volumes (100). 127.
  • said material layer is a biodegradable material.
  • said material layer comprises paper.
  • said substantially water vapour impermeable membrane is a biodegradable material.
  • said goods comprises chilled and/or frozen goods (40).
  • said wall further comprises
  • said substantially water vapour impermeable membrane is a biodegradable polymer coating as defined in any of examples 92 to 100.
  • a bag (20) for use in an air atmosphere environment the bag having a collapsed state (20A) for enabling transportation of the bag in a substantially flat state, and
  • the bag in its expanded state, provides an interior storage space for transporting goods, such as e.g. chilled and/or frozen goods, the bag comprising:
  • a bottom panel wherein the wall panels and the bottom panel cooperate to form said interior storage space to a volume larger than 10 litres, or larger than four litres, in the expanded state of the bag;
  • the bag further comprising
  • a first handle being associated with said rim portion of said front wall panel (SI A) so as to allow gripping by a human hand such as to enable carrying of the bag;
  • said paper layer is a kraft paper layer
  • the bag opening is a closable opening which, in the closed expanded state of the carrier bag cooperates with said wall panels and said bottom panel so as to minimize or prevent entry of air from the environment into the interior storage space.
  • said kraft paper layer has a substantially water vapour impermeable membrane bonded to at least one side of the kraft paper layer.
  • the substantially water vapour impermeable membrane is bonded to the side of the kraft paper layer facing the outside of the bag.
  • said substantially water vapour impermeable membrane is a biodegradable polymer coating as defined in any of examples 92 to 100.
  • the bag (20) has a rim portion by the bag opening, and wherein
  • the rim portion is provided with a separate kraft paper sheet (4610, 4620); and wherein
  • a first part (4620) of the separate kraft paper sheet (4610, 4620) forms a handle support sheet (4620) which is attached to the rim portion (150, 25b) e.g. by an adhesive;
  • a second part of the separate kraft paper sheet (4610, 4620) forms at least one handle (4610); the handle (4610) being connected to the handle support sheet (4620) by at least one folding edge (4630).
  • the handle support sheet (4620) and the handle (4610) are parts of the same kraft paper sheet (4610, 4620); the handle (4610) being separable from the handle support sheet (4620) by breaking a perforation (4625);
  • perforation forming at least two perforated lines (4625) in the separate kraft paper sheet (4610, 4620);
  • a first perforated line (4625A) runs from a first end of said at least one folding edge (4630), said first perforated line (4625A) forming the shape of an edge of the handle part (4610), and said first perforated line (4625) running to a first end of another folding edge (4630);
  • a second perforated line (4625B) runs from a second end of said at least one folding edge (4630).
  • handle support sheet (4620) and the handle (4610) are parts of the same support and handle kraft paper sheet (4610, 4620);
  • the handle part (4610) being separable from the handle support sheet (4620) by breaking a perforation (4625);
  • perforation forming at least one perforated line (4625) in the support and handle kraft paper sheet (4610, 4620), said perforated line (4625) starting from said at least one folding edge (4630), said perforated line (4625) forming the shape of an edge of the handle part (4610), and said perforated line (4625) running to another folding edge (4630).
  • the closable opening comprises a closure means.
  • the closable opening comprises a closure device.
  • closing and/or sealing of the bag (20) is achieved by gluing.
  • closing and/or sealing of closable opening is achieved by use of a tape.
  • closing and/or sealing of closable opening is achieved by folding a rim portion of the bag (20).
  • the bag (20) includes a neck portion (662) of flexible material at the rim portion of the bag wall, the flexible material being shaped and sized to allow a string (664) being placed around the neck portion so as to strangle the neck portion such that the bag (20) becomes sealed, or substantially sealed.
  • the bag has a rim portion by the bag opening, the bag further comprises:
  • closure device including a first elongated closure element
  • first elongated closure element (240A) comprises an elongated cavity with lips forming a slit along its length so as to enable a mating protrusion provided by the second elongated element (240B) to enter the slit between the lips.
  • closure device (240) further comprises a movable pressure device (280) adapted to force the mating protrusion of the second elongated closure element (240B) to enter the elongated cavity of the first elongated closure element (240 A).
  • the bag has a rim portion by the bag opening, the bag further comprises:
  • a closure device including a first elongated closure element attached to an interior surface of the rim portion of one of the wall panels, and a second elongated closure element attached to an interior surface of the rim portion of the other wall panel, the elongated closure elements are positioned and adapted for mating with each other so as to achieve closing of the bag opening.
  • closing and/or sealing of closable opening is achieved by repeated folding of a top part of the rim portion (25b).
  • the bag opening is brought to a closed state by placing the rim portion (25b) of the back wall panel (SIB) in contact with the rim portion (25b) of the front wall panel (SI A); and repeatedly folding the rim portions (25b) of the front wall and the back wall are so as to obtain a closed and sealed state.
  • the closed state of the bag is secured by placing glue in one or several of the folds.
  • rim portion forming part of one of the wall panels, said rim portion having a visual indication of a suggested folding edge.
  • said rim portion of a wall panel comprises at least one die cut opening
  • the bag (20) comprises
  • the bag is formed by a protector strip (5, 5T) having a protector strip first edge portion (25b; 25c) and a protector strip second edge portion (25c; 25b);
  • said wall panel rim portion (150) being formed by said protector strip first edge portion (25b);
  • said die cut opening (37) is formed in said protector strip first edge portion (25b; 25c); and said closure device (39; 160) is positioned between said die cut opening (37) and said protector strip second edge portion (25c; 25b).
  • the bag is formed by a protector strip (5, 5T) having a protector strip first edge portion (25b; 25c) and a protector strip second edge portion (25c; 25b);
  • said wall panel rim portion (150) being formed by said protector strip first edge portion (25b; 25c);
  • the protector strip first edge portion (25b; 25c) comprises at least one die cut opening (37) so as to form a handle (35) configured to allow gripping by a human hand.
  • said at least one die cut opening (37) is an opening in said outer material layer
  • the protector strip (5; 5T) forms a bag having a wall, and wherein
  • fold lines (27, 28) indicating borders between a front wall and a back wall.
  • the bag further comprises at least one cord configured to form a cord handle attached to a rim portion of the bag for carrying the bag in the expanded state.
  • the at least one cord is attached to a rim portion of the front wall panel, said at least one cord being arranged to extend from the rim portion of the front wall panel, under the bottom wall panel, and bach to a rim portion of the back wall panel.
  • a bag wall edge portion (25c) facing away from the bag opening (160) is folded so as to form a substantially flat bottom panel (140).
  • said bag wall edge portion (25c) is provided with a second fold line (FL2); said second fold line (FL2) being substantially perpendicular to said first fold line (FL1).
  • an external layer of the bottom portion is folded down so that opposing triangles (TR1, TR2) are formed on each side of the bottom portion.
  • said front wall panel (SI A) is joined to said bottom panel (140) along a third fold line (FL3).
  • the second fold line (FL2) is parallel with the third fold line (FL3); and the second fold line (FL2) is a fold line on said front wall.
  • the second fold line (FL2) is parallel with the third fold line (FL3); and the second fold line (FL2) is a fold line on said back wall.
  • the bag is collapsible into said collapsed state (20A) by folding said front wall and/or said back wall along the second fold line (FL2) so that a first angle between a plane of said bottom panel (140) and a plane of said front wall and/or said back wall is between zero and 45 degrees when the bag is in the collapsed state (20A).
  • a second angle between the plane of said bottom panel (140) and the plane of said front wall and/or said back wall is between 45 degrees and 90 degrees (i.e.
  • said bottom panel (140) comprises a laminated rectangular protector strip (5); the laminated rectangular protector strip (5) being attached to at least a part of an edge portion (25 c) of the bag.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Buffer Packaging (AREA)

Abstract

L'invention concerne un sac pliable (20) pour transporter des marchandises ; le sac pliable ayant un état plié (20A) pour permettre le transport du sac pliable dans un état sensiblement plat et un état déployé (20B) de telle sorte que le sac pliable (20), dans son état déployé, fournisse un espace de stockage intérieur pour transporter des marchandises, le sac pliable comprenant : au moins un panneau de paroi ; et une ouverture de sac ; et le sac pliable ayant un état déployé ouvert (20C) pour charger et/ou décharger lesdites marchandises par l'intermédiaire de l'ouverture de sac et un état déployé fermé (20D) de telle sorte que le sac pliable (20), dans son état déployé fermé (20D), fournisse un espace de stockage intérieur fermé pour transporter des marchandises ; l'ouverture de sac étant une ouverture pouvant être fermée.
PCT/SE2020/000016 2019-06-24 2020-06-24 Sac WO2020263149A1 (fr)

Applications Claiming Priority (6)

Application Number Priority Date Filing Date Title
SE1900115-5 2019-06-24
SE1900115 2019-06-24
SE1900172 2019-10-18
SE1900172-6 2019-10-18
SE1900185 2019-11-05
SE1900185-8 2019-11-05

Publications (1)

Publication Number Publication Date
WO2020263149A1 true WO2020263149A1 (fr) 2020-12-30

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ID=71833396

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Application Number Title Priority Date Filing Date
PCT/SE2020/000016 WO2020263149A1 (fr) 2019-06-24 2020-06-24 Sac

Country Status (1)

Country Link
WO (1) WO2020263149A1 (fr)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2022169496A1 (fr) * 2021-02-04 2022-08-11 United Parcel Service Of America, Inc. Manutention et manipulation automatisées d'emballages, et emballages spécialement adaptés à cet effet
WO2022167976A1 (fr) * 2021-02-03 2022-08-11 Fm Marketing Gmbh Emballage de télécommande et son procédé de fabrication
DE102021120900A1 (de) 2021-08-11 2023-02-16 profümed Karlheinz Lohr e. K. Inhaber: Georg Scheffer Thermobehältnis
WO2023186336A1 (fr) * 2022-03-31 2023-10-05 Schumacher Packaging Gmbh Enveloppe postale
DE102022119517A1 (de) 2022-08-03 2024-02-08 easy2cool GmbH Verfahren zur Herstellung einer Isolierverpackung, Isolierverpackung, Anlage zur Herstellung einer Isolierverpackung, Verpackungsbox
US11975878B2 (en) 2021-02-04 2024-05-07 United Parcel Service Of America, Inc. Automated handling and manipulation of packages and packages specially adapted therefor

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US1942917A (en) * 1931-07-25 1934-01-09 Jiffy Pad And Excelsior Inc Heat-insulated paper bag and method of making the same
GB1333661A (en) * 1971-04-01 1973-10-10 Jiffy Mfg Co Laminated protector strip
GB1373428A (en) 1972-01-21 1974-11-13 Jiffy Mfg Co Superimposed embossed packing sheets
DE2601312A1 (de) * 1975-01-17 1976-07-22 Imura Envelope Co Gefuetterter versandbeutel oder -sack
US5544473A (en) 1994-09-15 1996-08-13 Prompac Industries, Inc. Protective shipping or mailing envelopes and method of making
US5662420A (en) * 1995-04-12 1997-09-02 Astro-Valcour, Incorporated Cushioned macerated paper dispatch package
EP1094944A1 (fr) 1998-07-07 2001-05-02 Enso Oyj Carton enduit ou carton compostable, procede de fabrication de ces materiaux et produits obtenus a partir de ces derniers
US20080116101A1 (en) * 2006-11-20 2008-05-22 From The Source, Llc Article for safely transporting wine and spirit glass bottles and the like
US20120248177A1 (en) * 2011-04-04 2012-10-04 Pierre Beaulieu Padded paper envelope
WO2015171036A2 (fr) 2014-05-08 2015-11-12 Ifoodbag Ab Système d'emballage et de transport de produits d'épicerie
EP3370563A2 (fr) * 2015-11-06 2018-09-12 Ifoodbag AB Système d'emballage de transport de produits d'épicerie

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1942917A (en) * 1931-07-25 1934-01-09 Jiffy Pad And Excelsior Inc Heat-insulated paper bag and method of making the same
GB1333661A (en) * 1971-04-01 1973-10-10 Jiffy Mfg Co Laminated protector strip
GB1373428A (en) 1972-01-21 1974-11-13 Jiffy Mfg Co Superimposed embossed packing sheets
DE2601312A1 (de) * 1975-01-17 1976-07-22 Imura Envelope Co Gefuetterter versandbeutel oder -sack
US5544473A (en) 1994-09-15 1996-08-13 Prompac Industries, Inc. Protective shipping or mailing envelopes and method of making
US5662420A (en) * 1995-04-12 1997-09-02 Astro-Valcour, Incorporated Cushioned macerated paper dispatch package
EP1094944A1 (fr) 1998-07-07 2001-05-02 Enso Oyj Carton enduit ou carton compostable, procede de fabrication de ces materiaux et produits obtenus a partir de ces derniers
US20080116101A1 (en) * 2006-11-20 2008-05-22 From The Source, Llc Article for safely transporting wine and spirit glass bottles and the like
US20120248177A1 (en) * 2011-04-04 2012-10-04 Pierre Beaulieu Padded paper envelope
WO2015171036A2 (fr) 2014-05-08 2015-11-12 Ifoodbag Ab Système d'emballage et de transport de produits d'épicerie
EP3140223B1 (fr) 2014-05-08 2019-03-27 Ifoodbag AB Système d'emballage et de transport de produits d'épicerie et procédé de distribution de marchandises réfrigérées
EP3370563A2 (fr) * 2015-11-06 2018-09-12 Ifoodbag AB Système d'emballage de transport de produits d'épicerie

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2022167976A1 (fr) * 2021-02-03 2022-08-11 Fm Marketing Gmbh Emballage de télécommande et son procédé de fabrication
WO2022169496A1 (fr) * 2021-02-04 2022-08-11 United Parcel Service Of America, Inc. Manutention et manipulation automatisées d'emballages, et emballages spécialement adaptés à cet effet
US11975878B2 (en) 2021-02-04 2024-05-07 United Parcel Service Of America, Inc. Automated handling and manipulation of packages and packages specially adapted therefor
DE102021120900A1 (de) 2021-08-11 2023-02-16 profümed Karlheinz Lohr e. K. Inhaber: Georg Scheffer Thermobehältnis
DE102021120900B4 (de) 2021-08-11 2024-01-25 profümed Karlheinz Lohr e. K. Inhaber: Georg Scheffer Thermobehältnis
WO2023186336A1 (fr) * 2022-03-31 2023-10-05 Schumacher Packaging Gmbh Enveloppe postale
DE102022119517A1 (de) 2022-08-03 2024-02-08 easy2cool GmbH Verfahren zur Herstellung einer Isolierverpackung, Isolierverpackung, Anlage zur Herstellung einer Isolierverpackung, Verpackungsbox

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