• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    14 ABSTKÄCT A large lightweight molded coffin comprises a large pulp moldedouter shell (17) lined with a reinforcing spacer material (18) such assingle faced ReBoardTM, a honeycomb structure or a moldedspacer material conforming to and adhering to said shell and aninner shell (19) made of molded pulp or a paper based material. Amethod for manufacturing such a lightweight coffin involvespressing slurried pulp between a first male mold half (5) coveredWith elastomeric material (6) and a second female mold half (3), toform the molded pulp shell (17), and gluing the reinforcing spacer(18) material to the interior of said outer molded pulp shell (17) and the inner shell.
    公开号:SE1550867A1
    申请号:SE1550867
    申请日:2015-06-23
    公开日:2016-12-24
    发明作者:Sundblad Per;HANSSON Torbjörn;Ollevik Tommy;Hellberg Mårten
    申请人:Organoclick Ab;
    IPC主号:
    专利说明:

    TITLELarge Lightweight Coffin and Method for its Manufacture TECHNICAL FIELDGenerally, embodiments of the invention relate to large lightweight coffins, and to methods of making such molded containers.
    BACKGROUNDPulp molding is known in the art for producing small packages such asegg cartons, disposable food dishes, box inserts and other protective packing materials etc.
    RELATED ART US 6 245 199 describes a method of pulp molding trays where thestarting material is a suspension containing cellulose fibers. The malemold half is dipped in a bath of the suspension, and the mold halves are then pressed together under heat and pressure.
    SE 529 897 C2 describes the pulp molding of a tray where a dewateringreceptacle is used to shape a tray of pulp which is then transferred to acompression tool where the tray is subjected to pressure and heat. It involves a transfer step and is not readily usable for large containers.
    Large containers With smooth surfaces and strong, lightweight structurehave been very difficult to pulp mold. And a complex of difficult to solveproblems have prevented Widespread use of pulp molding to produce lightweight coffins.
    EP 0466653, for example, describes a coffin made of molded pulp Without any reinforcing spacer lining. Upper and lower coffin halves are pulp molded With integral ribs 44, 46 for reinforcement. These prevent afinished smooth surface and do not permit forming into a classic attractive coffin shape, With gently curved smooth walls.
    US 4 162 935 also describes a coffin made of deWatered paper pulp. Themold also provides integral ribs 20, for reinforcement, Which prevent having a finished smooth surface and a classic coffin shape.
    WOo6o16o72 describes boards or panels consisting of honeycomb layerswith paper sheet faces and possibly polyurethane coating. One possiblementioned use of this honeycomb board is for constructing a lightWeight and inexpensive coffin.
    GB-2448592 describes a coffin made of sandWich honeycombpaperboard panels, Which can be covered With veneer or other material to give the appearance of Wood.
    HoWever, none of the related art discloses or hints at hoW to achieve the solutions provided by the present invention.
    OBIECT OF THE INVENTIONThe present invention intends to solve a complex of difficult-to-reconcile interrelated problems still present in the designs of the prior art: It has been very difficult to use existing pulp molding methods toproduce very large objects. This is due partially to the problem of thermalexpansion and contraction of the tWo metal mold halves used in thecompression of the pulp in the press. If the dimensions of the moldhalves change, due to unavoidably becoming cooler and hotter during thecompression process, the strength of the container Will be compromisedand the surface Will not be smooth and even. This is not a problem if the surface quality and the strength of the finished object is of no great importance, such as for packaging materials or disposable dishes, butwhere the strength and surface finish of the finished molded product is ofgreat importance then this is a problem. In general it is difficult toachieve uniformity of strength and surface in pulp molded products, particularly in such products which are thin.
    It is now possible to make a large volume lightweight shell of moldedpulp with improved strength and smoothness using the mold halves andapparatus described and claimed in our co-pending patent applicationNo. 1550864-1 entitled Pulp Molding Apparatus and Molds for Use Therein and with the lightweight 3-D shaped material described in our co-pending patent application No. 1550866-6 entitled Large LightweightMolded Material and Method for its Manufacture.
    Providing a coffin, which is lightweight, very strong, with smooth andeven outer surface and above all is easy and inexpensive to manufacture has hitherto proved very difficult.
    SUMMARYThis entire complex of problems listed above finds its solution in the invention as defined in the appended main patent claims.
    BRIEF DESCRIPTION OF DRAWINGSEmbodiments of the invention will now be described in more detail with reference to the appended drawings, wherein: Fig. 1 shows a cross sectional view of a lower portion of a coffin according to the invention.
    Fig. 2a shows a perspective view of the lower portion of the coffin shown in Fig. 1 and Fig. 2b shows a perspective view of the coffin provided witha lid.
    Fig. 3 shows schematically the pair of mold halves used in a methodwhich can be used to manufacture the shells for a coffin according to the invention.
    DETAILED DESCRIPTION The lower receptacle portion of a large lightweight molded coffinaccording to the invention is shown in cross section in Fig. 1 and inperspective in Fig. 2(a). The complete coffin with a lid made in a similar manner of molded pulp is shown in Fig. 2b.
    The lightweight material used in the coffin is built up as a sandwich construction by three different parts comprising: An outer shell 17 made of 3-D shaped molded pulp. This is the surface ofthe material and will, for example, by using the novel method for producing large molded pulp objects described in our co-pending PatentApplication No. 1550864-1. entitled Pulp Molding Apparatus and Molds for Use Therein i) have a smooth and even surface and make possible complex 3-Dshaped designs. ii) A core 18 composed of a flexible spacer structure that may have,but is not limited to having, a core of ReBoardTM, a paperhoneycomb structure, a molded core structure (as described in e.g. International Patent Application No WO2o1o138o66 A1), or the corrugated core structure made by fluting used in corrugatedboards.iii) An inner shell 19 made of molded pulp or a flexible paper based material such as a linerboard or paperboard.
    By using a sandwich construction as described above, complex 3D-shaped designed coffins can be made while at the same time obtain a high strength material.
    In one of embodiments of the invention, the outer shell 17 of the coffin ismade of molded pulp and is lined in the embodiment shown withReBoardÜM) With only a single linerboard, on its exposed interior surface19. The ReBoardTM then composes both the core structure ii) above) andthe inner shell (iii) above). As one of the linerboards has been removedfrom a normal ReBoardTM material, the ReBoardTM 18 can be bent,Without breaking, to conform to the inside of the molded pulp shell 17before being glued to the shell, which will then replace the missing linerboard of the reinforcing ReBoardTM spacer structure.
    It is of course also possible to use other core materials used as spacers toline the outer molded pulp shell of the coffin that are able to conform tothe interior curvature of the molded pulp shell. A honeycomb structure,having walls extending perpendicular to the surface of the shell is alsoone possible spacer material, as well as the corrugated core used incorrugated board, or pulp molded spacer material as described above,thereafter covered with another inner shell made of molded pulp of a paper based material in order to create a strong light weight material.
    A number of special functional characteristics apply to coffins, inparticular if they are intended for cremation. The specifications of a normal coffin are: i) Have enough mechanica1 strength for carry a body weight of 120kg. ii) Have a dimensiona1 stabi1ity and wet strength that enab1esstorage in a freezer. iii) Have water repe11ent properties to withstand rainy weather. iv) If used in cremation, Withstand the heat in a cremation oven (ca 900 °C) for at 1east 15 sec. Without catching fire.
    A cardboard/reboard coffin can be expected to have exceptiona11y fastcombustion. For safety of the crematorium workers and for optimumcremation of the body, according to one embodiment of the presentinvention, a measured amount of fire retardant is mixed into the s1urryfor making the mo1ded pu1p she11 and/ or sprayed on the surface of themo1ded she11(s) and the core spacer material. In order to make themo1ded she11s stiff enough, dry strength additives are added to the pu1pand in order to have enough wet strength enab1ing storage in a freezer,wet strength additives are added to the pu1p in sufficient amount. Toachieve enough water repe11ent properties on the outer she11, ahydrophobization additive is added to the pu1p s1urry. Thehydrophobization may be even more increased by adding ahydrophobizing surface coating by using spray or a coating machine.There may a1so be adhesives sprayed on the inner surface(s) of theshe11(s), which will make the core spacer material adhere to the she11(s) and become secure1y g1ued thereto.
    The mo1ded 3-D shaped materia1 17 has an even and smooth surface andgood mechanica1 properties. The density of the mo1ded materia1s needsto be at 1east 100 kg / m8 in order to obtain proper stiffness but may be even higher depending on the pressure used during the mo1ding process.
    The molded material may be made of pulp from various fibers such asVirgin wood fibers (e.g. chemothermo-mechanical pulp, chemical pulp ormechanical pulp), recycled wood fibers, textile fibers made of viscose,cotton or other cellulosic fibers, but may also be made of pulp comprisingfibers mixed with thermoplastic fibers such as polylactic acid (asdescribed in e.g. patent no EP2171154 A1) in order to create compositematerials. Fig. 2a shows the lower receptacle portion 17 of a coffinaccording to the invention, provided with an inner spacer structure andan inner shell 19. Fig. 2b shows a complete closed coffin according to the invention with the lid 21 in place on the bottom portion of the coffin 20.
    Fig. 3 shows in longitudinal cutaway view a pair of mold halves used formanufacturing shells 17 for the reinforced coffins of the presentinvention. The male mold half 5 is made of hollow aluminum and iscoated with an elastomer 6 which is ca 30 mm thick. This elastomer ispreferably sprayed onto the aluminum mold half. It is also possible tocast the elastomer onto the aluminum mold half. A typical elastomer 6should be hydrophobic but not be subject to hydrolysis. An advantageoushardness, particularly for a sprayed-on elastomer is 70 A-Shore, toprovide optimal elastic properties. 5mm diameter through-holes spaced15 mm from each other cover the elastomer layer and connect tothrough-holes 8 in the aluminum body of the male mold half 5. Withinthe male mold half there is generated a vacuum of 0.5-0.9 bar. On top ofthe elastomer layer there is a wire mesh. In this case it is a 100 mesh (i.e.100 threads per inch) and is approximately 1 mm thick. The wire meshcan also be laid in multiple layers which will further contribute todistributing the vacuum forces more evenly. The female mold-half 3 ismade of aluminum and has in this example a weight of 700 kg. It isheated to ca. 200 degrees C., for example by means of heating rods embedded in the material of the female mold-half 3. This is the most energy effective method of heating the female mold-half. Its inner surfaceWill create the outer surface of the product. The two mold halves can bemade of porous aluminum to increase strength over sintered material and to increase heat conductivity.
    The male mold-half 5 after being dipped in the slurry bath dewaters theslurry through vacuum to approximately 20% dryness (8o% water) andthe male mold-half 5 is then pressed into the female mold-half 3 down toa gap of ca. 1 mm between the two mold halves. It can vary for thisparticular product between ca. 0.8 and ca. 1.2 mm without detrimentaleffects. The material is then dried under pressure at an elevatedtemperature (>1oo degrees, preferably 150 degrees). Due to absorbingcoolness from the male mold-half 3 (temp of ca. 250 C), the hot aluminumfemale mold-half 5 (initially ca. 2oo° C) will in turn drop ca. 13 degrees Cduring the compression process. This temperature change causes thefemale mold-half to shrink over its length approximately 7-8 mm withcorresponding contractions in its width (2.5 mm) and height (1.5 mm).This is compensated for by the elastomer layer 6. The temperatures inboth the female and male mold-halves will vary up and down during thecompression process thus repeatedly changing slightly the dimensions onthe molds. In conventional pulp molding processes, these dimensionalvariations would cause stresses and unevenness in the finished product,possibly even ruptures. In this particular exemplary product, without anelastomer layer, the temperature of the female mold-half must be ratherprecise, i.e. in this example between ca. 1950 and 2040 C. This precision isdifficult to achieve and maintain in an industrial process of this type.These problems have been experienced even in the manufacture ofrelatively small pulp molded products, and require precise adjustment ofthe temperature to avoid them. Most pulp molded products, such as egg cartons, are several millimeters thick and are thus more porous and it makes no difference whether such products have a rough surface. Aproduct With a rough surface cannot be used in many applications. For alarge product, the problems of dimensional heat expansion/contractionwill be greatly increased. These problems have hitherto made itimpossible to manufacture large pulp molded products With reasonable reject rates and with a smooth surface.
    The present invention was developed inter alia in order to produce shellsfor coffins with very few rejects and no necessity of precisely monitoringand continually adjusting the temperatures of the two mold-halves. Sincethe elastomer is used to absorb much of the dimensional variation of themale and female mold-halves, they can be made much lighter andthinner than otherwise since they will not require a large mass to preventtemperature variations. For instance in this example the female mold-half weighs ca. 750 kg. If it had to maintain a more constant temperatureit might have to have a mass of several tons, requiring more energy to heat such a large mass and maintain the heat.
    A coffin has in general curved sides, something which is expensive toproduce in plywood or with wood planks. According to the presentinvention it is possible to produce shells of ca. 1-2 mm in thickness,which provides the maximum stiffness. Thicknesses greater or less than this thickness (1-2 mm) provide less stiffness These problems are solved by coating the surface of the male mold-halfwith an elastomeric material, onto which the wire mesh or meshes is/ arethen applied. This elastomeric material continually compensates for thevarying dimensions of the two mold-halves during the compression/ heating process.
    It is also advantageous for molding the shell to mount the stationarymold half (in this case the female mold half) to be slightly horizontallymoveable (+- 25 mm) to make sure that any heating expansion will notprevent a correct horizontal alignment between the male and female mold halves during the pressing operation.
    As can be seen in Fig. 3, the male mold half is provided With troughs 14and large holes 8 beneath the elastomer layer in order to prevent anyreduction of the vacuum Which holds the pulp slurry and deWaters it on the surface of the Wire mesh.
    The invention further describes a method to produce the moldedlightWeight coffin described above. The steps to produce the coffin comprises: i) Provide an 3-D shaped molded material according to the designof the specific coffin by using the apparatus described abovewith or Without addition of functional additives Which will beused as outer shell 17 of the coffin ii) Provide a spacer material used as core 18 in the coffin material,and glue said core spacer material to the outer 3-D shapedmolded shell iii) Provide an inner shell 19 made of a 3-D shaped molded materialor a flexible paper based material Which Will adhere to the spacer material 18.
    权利要求:
    Claims (1)
    [1] 1. A large lightweight molded coffin comprising: An outer shell (17) of molded pulp and a core material used asa reinforcing spacer material (18) conforming to andadhering to the interior of said shell, and an inner shell (19)made of molded pulp or a flexible paper based material adhering to said core spacer material. . Molded coffin according to Claim 1, characterized in that the said spacer material is a paper based honeycomb sheet of hexagonal cells. . Molded coffin according to Claim 1, characterized in that the said core spacer material is made of a spacer structure of molded pulp. . Molded coffin according to Claim 1, characterized in that said reinforcing spacer material (18) is made of Re-board©. . Molded coffin according to Claim 3, characterized in that said Re- board© spacer material has only a single interior cover sheet (19). . Molded coffin according to Claim 1, characterized in that said reinforcing spacer material comprises hollow cells separated by walls substantially perpendicular to said shell. . Molded coffin according to Claim 1, characterized in that said outer shell is molded of pulp With a fire-retardant additive. 12 8. Molded coffin according to Claim 1 characterized by a coffin cover (12) also comprising an outer shell of molded pulp and a reinforcing spacer material. . Method of producing a molded coffin as claimed in one of Claims 1- 8, characterized by: a. Pressing slurried pulp between a first male mold half (5) coveredwith elastomeric material (6) and a second female mold half (3),and drying the material at elevated temperature under pressure, toform the molded pulp shell (17), b. providing a core spacer structure and gluing said reinforcingspacer structure (18) to the interior of said molded pulp shell (17).c. provide an inner shell made of molded pulp or another flexible paper based material and gluing it to the core spacer structure. Method of producing a molded coffin according to Claim 9also characterized by: admixing a measured amount of fireretardant to the slurried pulp and/ or spraying a fire retardant tothe surface of the shells. 11. Method of producing a molded coffin according to one of Claims 9- 10, also characterized by: admixing a measured amount of dry- and wet strength additive to the slurried pulp. 12. Method of producing a molded coffin according to one of Claims 9- 11, also characterized by: admixing a measured amount of hydrophobizing additive in the slurried pulp. 13 13. Method of producing a molded coffin according to one of Claims 9-12, characterized by surface treating the outer layer of the coffinmaterial With a hydrophobizing coating by spray or coating. 14. Method of producing a molded coffin according to one of Claims 9-13 , also characterized by spraying an adhesive on the inner side of the shell in order to glue the spacer material to the shell.
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    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    SE1550867A|SE539867C2|2015-06-23|2015-06-23|Large Lightweight Coffin and Method for its Manufacture|SE1550867A| SE539867C2|2015-06-23|2015-06-23|Large Lightweight Coffin and Method for its Manufacture|
    JP2017564683A| JP6795141B2|2015-06-23|2016-06-23|Large and lightweight casket and methods for its manufacture|
    RU2017144293A| RU2697237C2|2015-06-23|2016-06-23|Light coffin of large size and method of its production|
    DK16814818.7T| DK3313349T3|2015-06-23|2016-06-23|Large lightweight coffin and method of making it|
    PL16814818T| PL3313349T3|2015-06-23|2016-06-23|Large lightweight coffin and method for its manufacture|
    AU2016281466A| AU2016281466B2|2015-06-23|2016-06-23|Large lightweight coffin and method for its manufacture|
    ES16814818T| ES2863240T3|2015-06-23|2016-06-23|Large and light casket and procedure for its manufacture|
    PCT/SE2016/050628| WO2016209158A1|2015-06-23|2016-06-23|Large lightweight coffin and method for its manufacture|
    EP16814818.7A| EP3313349B1|2015-06-23|2016-06-23|Large lightweight coffin and method for its manufacture|
    CA2990059A| CA2990059A1|2015-06-23|2016-06-23|Large lightweight coffin and method for its manufacture|
    CN201680036613.8A| CN107847386A|2015-06-23|2016-06-23|Large-scale lightweight coffin and its manufacture method|
    US15/738,873| US10974490B2|2015-06-23|2016-06-23|Large lightweight coffin and method for its manufacture|
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