Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS 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
  • B65D21/00—Nestable, stackable or joinable containers; Containers of variable capacity
  • B65D21/02—Containers specially shaped, or provided with fittings or attachments, to facilitate nesting, stacking, or joining together
  • B65D21/06—Containers specially shaped, or provided with fittings or attachments, to facilitate nesting, stacking, or joining together with movable parts adapted to be placed in alternative positions for nesting the containers when empty and for stacking them when full
  • B65D21/068—Containers specially shaped, or provided with fittings or attachments, to facilitate nesting, stacking, or joining together with movable parts adapted to be placed in alternative positions for nesting the containers when empty and for stacking them when full the movable parts consisting of walls or parts thereof, i.e. deformable containers
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS 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
  • B65D11/00—Containers having bodies formed by interconnecting or uniting two or more rigid, or substantially rigid, components made wholly or mainly of plastics material
  • B65D11/18—Containers having bodies formed by interconnecting or uniting two or more rigid, or substantially rigid, components made wholly or mainly of plastics material collapsible, i.e. with walls hinged together or detachably connected
  • B65D11/1833—Containers having bodies formed by interconnecting or uniting two or more rigid, or substantially rigid, components made wholly or mainly of plastics material collapsible, i.e. with walls hinged together or detachably connected whereby all side walls are hingedly connected to the base panel
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS 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
  • B65D21/00—Nestable, stackable or joinable containers; Containers of variable capacity
  • B65D21/02—Containers specially shaped, or provided with fittings or attachments, to facilitate nesting, stacking, or joining together
  • B65D21/06—Containers specially shaped, or provided with fittings or attachments, to facilitate nesting, stacking, or joining together with movable parts adapted to be placed in alternative positions for nesting the containers when empty and for stacking them when full
  • B65D21/062—Containers specially shaped, or provided with fittings or attachments, to facilitate nesting, stacking, or joining together with movable parts adapted to be placed in alternative positions for nesting the containers when empty and for stacking them when full the movable parts being attached or integral and displaceable into a position overlying the top of the container, e.g. bails, corner plates

Definitions

• the present invention relates to containers.
• the invention provides a container which is stackable on a like container but which, at least when the container is in condition for containing goods, is unable to nest with a like container by entering wholly or partially therein, stacking means being provided which, in use, allow the first type container to support a container of substantially the same size in plan and of a second type which is stackable with a second type container and nestable as aforesaid with a second type container.
• the stacking means comprise a stack member on which the base of a second type container may be supported.
• the stacking means are attached to the first type container.
• the first type container may be open-topped.
• the first type container preferably has substantially vertical sides, at least when the container is in condition for containing goods.
• the first type container preferably has a base of substantially the same size in plan as the container mouth, at least when the container is in condition for containing goods.
• the stack member may be fixed in position on the first type container, and may comprise a lip around the upwardly open mouth of the container.
• the stack member may be movably mounted to have a stacking position and a stowed position in which a second type container is not supported.
• the stack member may be received within a recess in the wall of a container when in the stowed position.
• the stack member is preferably pivotally mounted on the container for movement between the stacking and stowed positions, and may be mounted to pivot through substantially 270° from a position outside the container, to a position overlying the mouth of the container.
• the stack member may be slidably mounted on the container for movement between the stacking and stowed positions.
• the stack member may be mounted for movement between the stacking and stowed positions by a combined sliding and pivoting movement.
• the stack member may be mounted to move from the stowed position to the stacking position by an initial sliding phase followed by a pivoting phase of movement.
• the sliding movement may be substantially vertical.
• the sliding phase may move the stack member to a position from which it may pivot out over the mouth of the container to provide a support surface.
• the stack member may be mounted to move from the stowed position to the stacking position by an initial pivoting phase followed by a sliding phase of movement.
• the sliding movement may be substantially horizontal.
• the pivoting phase may turn the stack member to an orientation at which it may slide out over the mouth of the container to provide a support surface.
• the stack member may be alongside the outside wall of the container in the stowed position, or may be located against the inside face of a container wall.
• the stack member extends along all or part of the periphery of the container mouth when in the stacking position.
• the stack member may comprise a bar or flap on which a second type container may be supported.
• the stack member or members may be located at corners of the container mouth, and may be generally triangular.
• the container is preferably collapsible.
• the container may be collapsible by folding the walls over the base.
• the container is preferably collapsible when the stack member is in the stowed position.
• the container may further comprise releasable lock means to secure the walls against collapse.
• the lock means may be caused to engage by movement of the stack member to the stacking position.
• the stack member may engage another member when in the stacking position, to secure the walls as aforesaid.
• the invention provides a stackable container on which a like container may be stacked, but with which a like container is unable to nest, the container comprising stacking means which, in use, support a container of substantially the same size in plan and of a stackable and nestable type.
• the container may have any or any combination of the preferred features set out above.
• the invention also provides a stackable container having an upwardly open mouth, and a base supportable at the mouth of a like container to form a stack, but unable to enter the mouth of another like container to nest therewith, at least when the container is in condition for containing goods, there being stacking means which, in use, are able to support a second type container in stacked manner on the first type container, the second type container being of substantially the same size in plan as the first type container and being stackable as aforesaid with a second type container, and nestable as aforesaid with a second type container.
• the container may have any or any combination of the preferred features set out above.
• the invention also provides a container system comprising a plurality of containers and including at least one container of a first type which is stackable with other containers of the first type, but, at least when the container is in condition for containing goods, is unable to nest with another container of the first type by entering wholly or partially therein, and further including at least one container of a second type which is stackable and nestable as aforesaid with other containers of the second type, the containers of the first and second types having substantially the same size as each other in plan and the containers of the first type being in accordance with any preceding definition.
• Figs, la and lb are highly schematic perspective views of a stack-only and a stack/nest container
• Fig. 2 is a vertical section through a stack/nest container above a stack- only container
• Figs. 3a,b and c are perspective views of one end of an alternative embodiment, and Fig. 3d is a vertical section through a stack/nest container stacked on a container of Figs. 3 a to c;
• Figs. 4a to c are perspective views of one end of a further embodiment
• Fig. 5 is an enlarged perspective view of one top corner of another embodiment and Fig. 6 shows a variation of this embodiment
• Figs. 7 and 8 are views corresponding to Fig. 5, showing other embodiments;
• Fig. 9a is a perspective view of another embodiment, shown partially collapsed in Fig. 9d, and Figs. 9b,c,e and f show corner pieces of Fig. 9a, on an enlarged scale;
• Fig. 10 is an enlarged perspective view of the inside corner of a container which uses wedges as stack members;
• Fig. 11 is a perspective view of a container which uses swing bars as stack members;
• Figs. 12a and 12b are enlarged perspective views of the inside corner of a further embodiment, and
• Fig. 12c is a vertical section perpendicular to the stacking bar of the embodiment;
• Figs. 13a, 13b and 13c are enlarged perspective views of the inside corner of a further embodiment.
• Figs. 14a-g are highly schematic partial views of one corner of a further embodiment in the collapsed condition (Fig. 14a); the partially erect condition (Figs. 14b,14c); the erect condition (Fig. 14d); the erect condition with the stacking bar raised (Fig. 14e); the erect condition with the stacking bar lowered and with containers stacked thereon (Figs. 14f and 14g).
• Figs, la and lb show, highly schematically, two common types of container 10,12 commonly used for delivery of goods to retail premises.
• the first type container 10 has a base 14, side walls 16 and end walls 18.
• the walls 16,18 extend perpendicular to the rectangular base 14 to form a parallelepipedal container with an open upper mouth 20.
• the parallelepipedal form of the container when erect, means that like containers of the same size will readily stack on each other. Some designs will provide additional formations around the lip 22 of the mouth 20, and around the edges of the base 14, to enhance the security of the stack so formed.
• the vertical arrangement of the walls 16,18 means that the base 14 is substantially the same size (in plan) as the mouth 20, and thus the containers 10 will not nest with each other, because the base 14 will be unable to enter into the mouth 20.
• the term “nest” is used to indicate containers adopting a compact arrangement by one container being received wholly or partially within another.
• these containers By virtue of their inability to nest, at least while in their erect condition for receiving goods, and having vertical walls, these containers would occupy the same volume when empty as when full, unless they are provided with an arrangement to allow them to collapse, such as hinging the walls 16,18 to the base, so they can fold down onto the base. It is recognised that the increased compactness of collapsed containers is sometimes referred to as a "nesting factor” but this is by analogy with the compactness achieved by nesting of the type defined above and is not encompassed within the meaning of "nest" as used in this document.
• the container 12 is of an alternative type which is stackable with and nestable (as defined) with containers of its own design. Again, it has a base 24 from which side walls 26 and end walls 28 extend up. However, the main difference between the container 12 and the container 10 is that the walls 26,28 do not extend up perpendicular to the base 24, but rather slope outwardly so that the mouth 30 of the container 12 is larger (in plan) than the base 24. In consequence, the mouth 30 is able to receive the base 24 of a like container, for nesting. This provides compactness during transport while empty. It is therefore not necessary for this type of container to collapse.
• Stacking bars 31 or bale arms allow these containers to stack, and can be stowed when not in use.
• a container of the second type 12 cannot stack on a container of the type 10, assuming both containers have substantially the same size in plan (and therefore substantially the same mouth size), because the smaller base 24 will nest into the mouth 20 to some degree.
• Fig. 2 shows a second type container above a first type container, but both having the same size in plan, and being vertically aligned. As can be seen, there is a gap around the edge of the base 24, between the base 24 and the Up 22, so that the base 24 is unsupported and will therefore move down into the mouth 20.
• Figs. 3a,b,c,d illustrate one embodiment of the invention, in which containers of the first type 10 are modified to allow greater interworking with containers of the second type.
• the container 10a has a base 14a, side walls 16a and end walls 18a.
• a slat 32 is mounted at the top of the wall 18a in a manner which allows a combined pivotal and sliding movement, as follows.
• Containers of the types being described would often be rectangular in plan, in which case the longer sides would generally be called side walls, and the shorter sides would often be called end walls.
• the principles of the invention can be applied to containers with side walls longer or shorter than end walls, or with all side walls of the same length, i.e. square in plan.
• the inside faces of the walls 16a carry horizontal slots 34 along which a peg (not shown) at the top of the slat 32 may run.
• the peg forms a pivot which allows the slat 32 to turn from the stowed position (Fig. 3 a) hanging from the peg, to a generally horizontal position (Fig. 3b) in which the lower edge 36 has swung out from the wall 18a.
• the slat 32 is then able to slide out over the edge of the mouth 20, by the pegs sliding along the slots 34.
• the slat 32 reaches the final position (Fig. 3 c) two further pegs 38 enter the open ends of the slots 34 to provide support at four points around the slat 32.
• the slat 32 When in the position of Fig. 3 c, the slat 32 provides a surface on which the base 24 of a stackable and nestable container can rest (Fig. 3d) thereby allowing a second type container to stack on a first type container.
• runner could be provided for the slat 32, such as pegs or projections on the inner faces of the walls 16a, with corresponding recesses or slots on the ends of the slat 32.
• a slat 32 would preferably be provided at each end of the container 10a.
• Figs. 4a,b,c show a variation to the arrangement of Fig. 3, in which a bale arm 40 is provided at the top of the end wall 18b of a container 10b which also has side walls 16b, the walls 16b,18b being hinged to a base 14b to allow the container to collapse.
• the bale arm 40 is mounted at the top of the wall 18b to be able to pivot through substantially 270° about a horizontal axis 42 along the top edge of the arm 40, from the position shown in Fig. 4a, to the position shown in Fig. 4b, and as indicated by the arrow 44.
• two wings 46 are revealed at either end of the bale arm 40, these wings being housed within recesses 48 when in the position of Fig. 4a.
• the walls 16b have a series of sockets 50 formed along their top edge, near their ends. These are complementary to teeth 52 formed on the underside of the wings 46 (see inset to Fig. 4b) so that when in the position of Fig. 4b, the teeth 52 are aligned with sockets 50, allowing downward pressure to engage the teeth and sockets with a snap-fit.
• Fig. 5 shows a further variation of an arrangement similar to Fig. 4.
• a member in this case a stacking bar 54, which can swing through a large angle of almost 270° from a stacking position (shown in Fig. 5) to a stowed position hanging down outside the end wall 18c.
• This movement is provided by an in-turned end 56 of the bar 54 which provides a journal mount in a socket at 58.
• the bar 54 when in the position of Fig. 5, overlies one edge of the mouth 20c to provide support for a second type container stacked thereon.
• the end wall 18c has a small ear 60 against which an upstand 62 of the wall 16c is trapped when the bar 54 is in the stacking position. Moreover, to reach the stacking position, the bar 54 must be forced past a resilient projection 64 and is thus locked in position until pulled back past the projection 64. Accordingly, the bar 54 helps lock the walls 16c,18c in the erect condition, preventing collapse of the container. There could however be other arrangements made for securing the container, in which case the bar 54 could then be allowed to move freely and selectively between the stacking and stowed positions.
• Fig. 6 shows a variation of the arrangement of Fig. 5, in which the pivot axis of the bar 54b is closer to the top of the end wall 18e and in which a channel 72 is provided on the end wall 18e to receive the bar 54b flush in the wall 18e when in the stowed position.
• a lock may be provided between the walls 16 and walls 18, or this may be provided by engagement between the bar 54b and the walls 16e.
• Fig. 7 shows an arrangement in which the end wall 18d is provided with an elongate channel 66 to receive the vertical edge of the side wall 16d, with locking means in the form of a small latch 68 being provided.
• the top edge 70 of the end wall 18d is relatively wide, to restrict the mouth 20d sufficiently to provide a ledge on which a second type container can be stacked. It will be apparent that when a container of the type of Fig. 6 is erect, the stacking ledge is permanently provided by the edge 70.
• Fig. 8 shows another variation using a bar 54c.
• the bar has a leg 74 which, in the stowed position, extends downwardly and carries a pin (not shown) at its lower end.
• the pin runs in a vertical slot in the end wall 18f to allow the bar 54c to slide up and down in a vertical plane.
• the peg may then turn in the slot to swing the bar 54c over to the position indicated in broken lines in Fig. 8, in which the bar 56c lies over the mouth 20f to provide a stacking support for a second type container above.
• Ears 76 at either end of the bar 56c rest in notches 78 in the top edge of the side walls 16f to help take the weight of the container above.
• the ears 76 may be a snap-fit into the notches 78 for added security.
• the oversize heads 76a of the ears 76 help retain the ears in the notches and help brace the walls 16f,18f to prevent the container collapsing.
• leg 74 could be enclosed within the end wall 18f.
• a notch or channel could be provided along the top edge of the wall 16f to receive the leg 74, when in the stack position.
• Fig. 9 shows a further alternative which differs from those previously described in that stacking surfaces are only provided in the corners of the container mouth.
• the container lOg of Fig. 9 is shown (Fig. 9a) with four small triangular corner pieces 80, one at each corner of the mouth 20g. These pieces 80 support the corners of a second type container, to allow it to stack above.
• the stacking pieces 80 also help brace the container to prevent collapse, as follows.
• Each corner piece 80 (Fig. 9b) is hinged to a side wall 16g to move from the stack position (Fig. 9b) to a raised position (Fig. 9c) in which the end wall 18g is no longer engaged. It can however be seen from Fig. 9c that the lower surfaces of the pieces 80 are provided with teeth 82 to engage notches 84 along the end walls 18g, to help lock the walls 16g,18g together.
• the end walls 18g can then be folded down over the base 14g, as indicated in Fig. 9d, in which one end wall is partially folded down. This reveals triangular recesses 86 in the upper corners of the side walls 16g, into which the pieces 80 can pivot down to their fully stowed position (Fig. 9e) in which they are flush with the inner face of the wall 16g.
• the walls 16g can then fold down in turn over the end walls 18g and base 14g to fully collapse the container.
• Engagement between the pieces 80 and the end walls 18g can be modified, for instance by forming a channel 87 in the piece 80 (Fig. 9f) to be used with or without teeth 82 and notches 84 to enhance the security with which the walls are braced together.
• Fig. 10 shows an arrangement in which small wedges 88 can swing out from recesses in side walls 16h to provide an upper surface 90 as a stacking surface for second type containers, and also to lock the container against collapse, by abutment of their end faces 92 with the end wall 18h.
• Wedges 88 can be provided at a number of different positions around the inner edge of the mouth 20h and could be of various different sizes. They could be connected together so that manipulation of one wedge 88 causes corresponding movement of at least one other wedge.
• Fig. 11 shows an arrangement in which two long bars 94 are provided, each supported at one end 96 to turn about a vertical axis from a stowed position (indicated in heavy ink in Fig. 11) clear of the mouth 20j, to a stack position in which the two bars 94 extend across the mouth 20j to support a second type container stacked thereon.
• Figs. 12 a,b and c show an arrangement using a stacking bar 100, similar to a conventional stacking bar.
• the side wall 16k is intended to hinge down before the end wall 18k when the container is being collapsed.
• the extension 102 has two walls forming a gap 106 between, which receives a leg 108 of the bar 100.
• the lower end of the leg 108 carries a boss 110 having an enlarged head by which it is held captive in a slot 112 in the extension 102.
• the boss 110 also passes through a hole 114 in the flange 104.
• the hole 114 is relatively large at its lower extremity, to allow the head of the boss 110 to pass through, but relatively narrow toward its upper end, and too narrow to allow the boss to pass through.
• leg 108, slot 112 and hole 114 are arranged so that when the bar 100 is in the stacking position (Fig. 12a and to the right in Fig. 12c), the boss 110 is pulled to the top of the slot 112 and thus cannot pass through the hole 114, thus locking the flange 104 to the extension 102 and preventing the side wall 16k folding down to collapse the container.
• the boss 110 can move down the slot 112 to the wider part of the hole 114, thus allowing the extension 102 to move past the boss 110 as the wall 16k is collapsed.
• corresponding mounting and locking arrangements are provided at the other end of the bar 100, and preferably a similar bar is provided at both ends of the container.
• Figs. 13a to 13c show another variation, which is similar to the variation of Fig. 8.
• a bar 130 is mounted on the end wall 18m by legs 132 near each end, only one of which is shown in the drawings.
• the leg 132 In the stowed position, the leg 132 extends downwardly from the bar 130 and carries at its lower end a pin 134 which projects to either side of the leg 132.
• Vertical slots 136 (only one of which is shown in the drawings) are provided to receive the pins 134, to allow the legs 132 to slide up and down in a recess 138 in the wall 18m, thereby allowing the bar 130 to slide up and down in a vertical plane.
• the pins may turn in the slots 136 to allow the bar 130 to swing over to the position shown in Fig. 13c, in which the bar 130 lies over the mouth 20m to provide a stacking support for a second type of container above.
• Ears 140 at either end of the bar 130 rest in notches 142 in the top edge of the side walls 16m to help take the weight of the container above.
• the ears 140 may be a snap-fit into the notches 142 for added security.
• the mechanical arrangement of the legs 132, pins 134 and slots 136 are in a shielded position within the container, protected from tampering from outside.
• Figs 14a to 14g show another variation, which is similar to the variations of Figs 8 and 13a to 13c.
• a bar 150 is mounted on the end wall 18n by legs 152 near each end, only one of which is shown in the drawings.
• the leg 152 In the stowed position, shown in Figs 14a to 14c, the leg 152 extends downwardly (Figs. 14b and 14c) from the bar 150 and carries a pin 154 at its lower end.
• the pin runs in a vertical slot in the end wall 18n to allow the bar 150 to slide up and down in the plane of the wall.
• the unfolding of the side walls 16n causes the bar 150 to be raised in the slot 153 in the end wall 18n, as shown in Fig 14c.
• the bar 150 is thus moved to a position which allows the bar 150 to be pivoted into the stacking position.
• a finger 159 provided on the leg 152.
• the finger can be of sufficient length to project out of the plane of the wall 18n when the bar 150 is raised (see Fig. 14b). If the side wall 16n is provided with an appropriately shaped slot (not shown) the movement of the side wall 16n to its erect position can engage the finger 159 and provide a simple cam action pushing the bar 150 to the upper position of Fig. 14c and locking the walls together while the user pushes the bar 150 over to the notch 158. When the container is to be collapsed, the action of raising the bars 150 will cause them to move up the slot 153 to the position of Fig. 14c, and then pressing down on them can release the latch effect of the finger 159 and allow the side wall 16n to fall of its own accord, following which the user can lower the end wall 18n.
• a first type container having straight, vertical walls
• the stacked container 160 will not be securely located on the container 10m.
• the non-secure stacking will encourage the user to locate the bar 150 in the stacking position, in the notches 158, as shown in Fig 14f.
• This insecurity can be made worse by using a bowed bar 150, allowing the upper container to rock or slide on the lower one.
• a second type container 162, Fig 14g, having walls which taper from the mouth to the base of the container 162, may be stacked on the container 10m when the bar 150 is in the stacking position.
• the user is thus encouraged to locate the bar in the stacking position so that a container 10m may be called upon to interstack with straight sided containers 160 or with tapered sided containers 162, without further adjustment. If the bar 150 is correctly located in the stacking position the user need not waste any time repositioning the bar 150.
• a stackable container 10 which would normally only support a like container when stacked thereon, but be unable to nest with it, further comprises a stacking device of some description, which, in use, can support a container of substantially the same size in plan, and of a stackable and nestable type.
• containers of the two types can be used interchangeably, at least to the extent that any container would be able to stack on any other container when the containers are full, although it might still be desired to separate the containers when empty, so that first type containers can be collapsed for return, and second type containers can be nested.
• slant sided stack/nest containers can be used for many types of product, others are better suited to the vertical sides of a stack-only container. Boxes of breakfast cereals, and bottles, for instance, tend to be better accommodated in vertical sided containers.
• containers of the type described can be formed from various different materials, but preferably wholly or substantially wholly from synthetic plastics materials, such as by injection moulding. They may be formed in a variety of sizes, but a preferred system would comprise containers having a plan size of about 400mm x 600mm.
• containers could provide dual-height stacking, at least of second type containers on first type containers, in a manner like that set out in our British Patents Nos. GB 2264102 and GB 2296009.

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• Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Stackable Containers (AREA)
• Rigid Containers With Two Or More Constituent Elements (AREA)

Priority Applications (4)

Applications Claiming Priority (4)

Publications (1)

Family

ID=26311697

Family Applications (1)

Country Status (6)

Cited By (13)

Families Citing this family (20)

Citations (7)

Family Cites Families (6)

• 1998
  • 1998-06-11 GB GB9927268A patent/GB2340482B/en not_active Expired - Lifetime
  • 1998-06-11 ES ES98928452T patent/ES2192774T3/es not_active Expired - Lifetime
  • 1998-06-11 EP EP02004929A patent/EP1241105B1/en not_active Expired - Lifetime
  • 1998-06-11 EP EP98928452A patent/EP1009671B1/en not_active Expired - Lifetime
  • 1998-06-11 WO PCT/GB1998/001701 patent/WO1998056668A1/en active IP Right Grant
  • 1998-06-11 DE DE69811514T patent/DE69811514T2/de not_active Expired - Lifetime
  • 1998-06-11 DE DE69833575T patent/DE69833575T2/de not_active Expired - Lifetime
  • 1998-06-11 ES ES02004929T patent/ES2260344T3/es not_active Expired - Lifetime
  • 1998-06-11 AU AU80283/98A patent/AU8028398A/en not_active Abandoned

Patent Citations (7)

Non-Patent Citations (1)

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