• 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:
    A stackable box for holding and transporting bottles includes a plurality of outer walls 12, 14, 16, 18 forming an outer shell and a box bottom disposed within the shell, and a plurality of outer surfaces for supporting the outer surfaces of the bottles. It includes landlords. The side walls include a lower wall portion and a plurality of offset upwardly protruding suspensions 24, 26, 28, 30, 32, in which four corner suspensions 24, 32 make up the four corners of the box. Doing. At least one upwardly protruding pillar 52 is generally disposed within the shell, the pillars 52, 54, 56 and the suspension struts 24, 26, 28, 30, 32 having the lower wall portion and the holding bottle. Extend under the brand's surface. The flats comprise a monolithic handle structure 58, 60, each of which is suspended between the upper portions of adjacent corner suspension columns 24, 32, thereby forming a generally open short wall area under the handle structure 58, 60. do. The end walls further comprise integrally shaped structural reinforcement members 66 and 68 extending between adjacent corner suspension posts 24 and 32 below the respective handle structures 58 and 60, respectively.
    公开号:KR20010052831A
    申请号:KR1020007014157
    申请日:1999-06-02
    公开日:2001-06-25
    发明作者:윌리엄 피. 앱스;필립 시. 황
    申请人:레리그 퍼시픽 컴파니;
    IPC主号:
    专利说明:

    Stackable Shallow Depth Bottle Box {STACKABLE LOW DEPTH BOTTLE CASE}
    Plastic bottles are widely used as containers for soft drinks and other beverages. Polyethylene terephthalate (PET), a form of plastic, has become particularly popular because of its transparency, light weight and low cost. The walls of PET bottles are flexible and resistant to tension, and thus can safely suppress the pressure of the carbonated beverage. In addition, conventional PET bottles can support surprisingly high compressive loads if the load is directed along an axis of axial symmetry of the bottle. A single PET bottle is made up of many bottles of the same size containing a drink if the bottle stands upright on a flat horizontal surface and the weight of the other bottles is applied to the single bottle and directed virtually vertical along the axis of symmetry. It can support weight. However, if the compressive load is applied along a direction different from the axis of symmetry of a conventional PET beverage bottle, the bottle tends to twist. This tendency of conventional PET bottles to collapse under off-axis compression loads is particularly pronounced in large bottles, such as 2 liter bottles, which are widely used for marketing soft drinks.
    Soft drink bottles are usually packaged in boxes or other containers by the bottle packer, or in a box for six or six bottles for loading to the retailer or for storage. The term "case", "crate" or "tray" is used interchangeably herein to refer to all boxes, crates, trays, and similar containers having a bottom and perimeter sidewall structure. It will be included. The boxes of the bottle are usually stacked on top of each other. In the warehouse, the props of the crates are stacked on pallets that can be transported to and from the forklift truck. Therefore, the boxes of the pile on the pallet must be particularly rigid in order to keep them standing in terms of the inherent push in moving around. The technique of interconnecting stacks of bin boxes, so-called "cross-stacking", is often used to improve the stability of bin boxes stacked on warehouse pallets. Cross stacking generally involves stacking rectangular bottles, with each layer having boxes facing parallel to each other, forming a layered structure, with adjacent layers facing at right angles to each other. Thus, because adjacent layers are at right angles, each box of intersected layers stays on at least two boxes of the underlying layer. As a result, boxes in stacked layers tend to hold on to boxes that do not lift away from each other. Therefore, the cross stacked layers stabilize the stacked structure.
    Due to the tendency to warp under off-axis loads of conventional PET drinking bottles, attempts to stack boxes of these bottles have failed. For example, when conventional compartments with shallow sidewalls are used to contain the bottles, the bottles may be inclined from vertical alignment in terms of cost. The tilted bottles of the lower boxes of the pile are also twisted. Even without warping, the tilting tendency of the bottles in conventional shallow side boxes cause problems. Since the inclination of the bottles of one box can cause the next higher box in the pile to be inclined, the slope usually orders an undesirably low limit on the number of layers in the pile. If too many layers are included in the pile, this will cause instability.
    Previously, these problems were addressed by wrapping beverage bottles in cardboard boxes on the high side, sometimes the height of which was the height of the bottles. 2 liter PET bottles containing soft drinks were frequently packaged in sealed cardboard boxes for storage and loading. Although these cardboard boxes reduce the extent of tilting when stacking boxes, they provide additional support. Corrugated boxes are not hard enough for reuse and, therefore, are usually discarded by retailers, so the cost of the boxes cannot usually be distributed to the number of repeat uses.
    One solution to the problem of full depth cardboard boxes is the full depth of plastic boxes; That is, a plastic box with peripheral sidewalls about the same height as the bottle. In the full depth boxes of plastic, the side walls are load bearing surfaces. Nevertheless, full-depth plastic boxes have many adverse conditions. They are expensive to store and store in warehouses because they are expensive to manufacture and require large amounts of space, and they also enclose the bottles as a whole, which also hinders the display of the bottles.
    To overcome this problem, a shallow depth of plastic box is used. The shallow depth box is that the side walls are lower than the height of the bottles of storage and the bottles support the weight of the additional boxes stacked on top. However, they also have drawbacks. For example, some shallow depth boxes require additional structure to hold the bottles and ensure complete bottle stability, even if the box depth is more than 25 percent of the height of the bottles.
    Various plastic reusable bottle carriers are known in the art. One reusable bottle carrier is disclosed in US Pat. No. 3,055,542 to Lucer. The bottle carrier can be made of plastic and assembled into a carrier body with two pieces, a handle and six cups for soft drink bottles. If empty, handles must be removed to stack bottle carriers. This is very inconvenient and time consuming. The '542 bottle carrier is also significantly confined with regard to stacking carriers. As described therein, since the space between the bottles and the carriages differs in a direction perpendicular to the direction parallel to the handle of the carriage, they cannot be stacked in a conventional cross stacking structure.
    U.S. Patent No. 2,970,715 to Capel is one of the earliest embodiments of shallow depth bottle boxes of molded plastics. Each bottle is placed on a raised surface within the individual compartment. The bottom of the box is formed by recesses that receive the tops of the bottles, so that when loaded, the boxes are stacked vertically. However, the capel does not indicate the size of the crates for the bottles being carried.
    Bunell's US Patent No. 3,812,996 discloses a bottle transport box of reusable plastic for beer bottles. The box is designed with a plurality of bottle compartments with flat bottom walls. The boxes are designed to cross stack; That is, the center-to-center distance between adjacent bottles in the box is dimensioned to be equal to the center-to-center distance between adjacent bottles in the adjacent box of the neighboring relationship. Thus, the vertical axes of the bottles of adjacent layers are co-linear. Although the plurality of cargo boxes are designed to be stacked vertically by the weight of the upper boxes supported by the bottles in the lower boxes, the bottom surface of the bottom wall of the box is flat. Therefore, there is no structure that ensures proper alignment or centering of a box with an upper box or a lower box.
    Garcia, U. S. Patent No. 3,247, 996, discloses a plastic bottle container for milk bottles. The container is shorter than bottles extending over the upper surface of the container walls. In Garcia's patent, the bottles, rather than the walls of the container, are load bearings. When the container is stacked vertically, the bottom wall will form circular portions intended to receive the bottle tops. Like many prior art bottle carriers, Garcia's container has sides of height reduced from that of a standard full depth box; It can also be used in several cocks. However, the box is not a shallow depth box and costs more than shallow depth boxes. It also does not have the ability to display shallow depth boxes.
    A recent attempt to solve the problem of providing a reusable, shallow depth, cross stackable PET bottle box is disclosed in US Pat. No. 4,344,530 to DeLarosiere. The '530 patent describes most of the features and problems of Garcia and discloses a PET bottle box of plastic that is cross stackable and has a very low depth as shown in the figure. This low height is disclosed to be approximately 2 inches. In practice, however, this depth is insufficient because a great degree of lateral instability prevents the bottles from falling over. In addition, bottle retaining pockets require having an angled bottle seat ring of ridges that fit into the medial indentation formed on the base of many bottles to ensure bottle stability. This prevents all PET bottles from rotating in the bottle pockets for display purposes. In addition, it does not adequately hold a single piece of bottles (ie, petal shaped bottles that do not have a basal indentation).
    Generally assigned U.S. Patent Nos. 4,899,874 and 4,978,002 disclose a shallow depth bottle box for 2 liter bottles that can be stacked if the empty top stacking boxes are correctly placed. In addition, in the illustrative embodiment, the substantially flat upper surface allows for holding bottles with one piece petal shaped bottles and base indentations across the bottle holding pockets. The low height of the box sidewalls and the pillars on the box sidewalls also allow for display of the bottle label to the consumer. However, due to the shallow depth and virtually flat upper surface across the bottle holding pocket, a neat fit is generally required between the bottle pocket and the bottle, thus limiting the range of bottle diameters that can be held in a stable pile. have.
    Today's trend in the bottled industry is to make 2 liter bottles as cheaply as possible. This means a reduction in the amount of plastic in the bottle, but nevertheless it means maintaining sufficient bottle strength to support the full stacked boxes. To accomplish this task, the latest two liter bottles are made with a smaller diameter and slightly larger height than their predecessors. The result is a lightweight 2-liter bottle with a slim overall appearance than the previous 2-liter bottles. However, lightweight bottles do not ideally fit within the pockets of shallow depth 2 liter boxes discussed above, due to their slim appearance and height of increase.
    The shallow depth bottle box described in co-owned U.S. Pat.No. 5,651.461 overcomes many of the functional drawbacks described above with respect to the prior art, but the nesting ability of the improvement, the cross stacking ability of the improvement, the transport stability and the improvement of the improvement. Further improvements such as structural integrity of are desirable.
    The present invention relates to a shallow depth stackable bottle box used to hold and transport bottles. More specifically, high safety for storage bottles, full level visibility for display purposes, easily gripped handle structure, cross-locking ability to hold multiple stacks of empty boxes, and improved, structural reinforcement Relates to a soda box which combines a shallow depth with a.
    1 is a perspective view of a shallow depth box that may be stacked in accordance with the present invention.
    FIG. 2 is a side view of the box of FIG. 1. FIG.
    3 is a cross-sectional view of the box of FIG. 1.
    4 is a plan view of the box of FIG. 1.
    5 is a bottom view of the box of FIG. 1.
    6 is an overhead plan view of a box in which bottles are dropped according to the embodiment of FIG. 1.
    FIG. 7 is an overhead plan view of a plurality of stacked boxes in which bottles are dropped according to the embodiment of FIG. 1. FIG.
    8 is a perspective view of a box according to an alternative embodiment of the present invention.
    9 is a side view of the box of FIG. 8.
    10 is a cross-sectional view of the box of FIG. 8.
    11 is a plan view of the box of FIG. 8.
    12 is a bottom view of the box of FIG. 8.
    FIG. 13 is an overhead plan view of a box in which bottles are dropped according to the embodiment of FIG. 8. FIG.
    FIG. 14 is an overhead plan view of a plurality of stacked boxes in which bottles are dropped according to the embodiment of FIG. 8. FIG.
    15 is a schematic cross-sectional view of the bottle cap and the lid positioning zone according to the embodiment of FIG. 8.
    Overview of the Invention
    These and other problems of the prior art are overcome by the stackable shallow depth box of the present invention. In particular, in the present invention, the handle structure is provided at the opposite end, and can substantially grasp the entire circumference thereof, and the integrally-structured structural reinforcing member is provided under each handle to increase the structural integrity of the handle. It provides such a stackable shallow depth box that is spaced enough to prevent interference with the grip of the handle structure. In addition, in one embodiment, the bottle retaining pockets are formed in groups of four equally spaced in the box and between adjacent boxes, so as to be 360 ° relative to the bottle caps of the conical cap location areas for improved cross stacking stability. Will provide support
    More specifically, the stackable shallow depth box for holding and transporting bottles has opposite sidewalls and opposite shortwalls that form an outer shell with a box bottom disposed within the outer shell. The side walls include a lower wall portion and a plurality of offset upwardly protruding suspension columns, including the four corner suspension posts that make up the four corners of the box. A plurality of offset upwardly projecting pillars or vertical rib structures are generally disposed within the outer shell and, in conjunction with the box bottom, side walls and end walls, constitute a plurality of bottle retaining pockets. The end walls each comprise a unitary handle structure suspended between the upper portions of adjacent corner suspension posts and will generally form an open end wall region below the handle structure. The end walls further include an integrally shaped structural reinforcement member that extends between adjacent corner suspension posts below each handle and is sufficiently separated from each handle to prevent interference with the grabbing of the handle structure.
    The structural reinforcing member of the integral molding improves the durability and the useful life of the box by adding remarkable structural integrity to the box.
    In one embodiment, the plurality of bottle holding pockets consists of two sets of four pockets configured to support two sets of four equally spaced bottles such that two sets of four equally spaced bottles are separated from each other. Separated by S), each of the bottles is separated from the peripheral edge of the box by a distance D, which is half the separation distance S, thereby providing bottle alignment in the cross piled boxes.
    Thus, the object of the present invention is to improve the stacking of the improvement, with high stability for storage bottles, full label visibility for display purposes, easily gripped handle structure, stable cross stacking ability, and structural integrity for long-term contents. The shallow depth of the box is for providing.
    The above and other objects, features and advantages of the present invention can be readily understood from the following detailed description of the best mode for carrying out the present invention when dealt with in the accompanying drawings.
    (Detailed Description of Preferred Embodiments)
    A stackable shallow depth bottle box 10 according to the first embodiment of the present invention is shown in FIGS. The box 10 includes side walls 12, 14 and opposed end walls 16, 18 that cooperate to form an outer shell. The box bottom 20 is actually arranged in the outer shell. The side walls 12, 14 are relatively long to extend the length of the box 10, while the short walls 16, 18 are relatively short to extend the width of the box 10. The box 10 is rectangular and therefore symmetrical to two centerlines bisecting the bottom surface. The depth or height of the side walls 12, 14, 16, 18 is relatively low compared to the height of the bottles held therein. The ratio of the length of the side walls 12, 14 to the length of the short walls 16, 18 is the ratio of the number of bottles holding in the direction of the length of the box to the number of bottles holding in the direction of the width of the box. Is virtually the same as For example, an eight-bottle box holds bottles in a 4x2 relationship that is approximately double or longer than wide.
    As shown in FIGS. 4 and 5, the upper structure or box bottom 20 is attached to the side walls 12 and 14 and the end walls 16 and 18 to form an outer shell of the box 10. . Preferably, the box 10 is made of plastic and integrally molded as a single construct.
    As shown in FIGS. 1 and 2, the sidewalls 12, 14 include a plurality of lower wall portions 22 and a plurality of four corner suspension posts 24, 32 that constitute the four corners of the box 10. It includes floating upward protruding suspension columns (24, 26, 28, 30, 32).
    As shown in FIG. 4, a vertical rib structure 34 is generally disposed within the outer shell, in cooperation with the box bottom 20, the sidewalls 12 and 14 and the end walls 16 and 18, so that a 2-liter plastic A plurality of bottle holding pockets 36, 38, 40, 42, 44, 46, 48, 50 for holding bottles such as bottles is constituted.
    Preferably, the vertical rib structure 34 includes first, second, and third upwardly projecting pillars 52, 54, 56. Thus, the various columns 52, 54, 56 have suspension posts 24, 26, 28, 30 for forming bottle retaining pockets 36, 38, 40, 42, 44, 46, 48, 50. 32) and the box bottom (20).
    1 and 3, the end walls 16, 18 have inner and outer surfaces 62, 64, respectively, as shown in FIG. 4, so that the adjacent corner suspension columns 32 or 24 are separated from each other. It contains the integrally molded handle structures 58 and 60 suspended between the upper portions, respectively. Generally, the area of opening is below the inner and outer surfaces 62, 64 of the handle structures 58, 60 and the inner surfaces 62 of the handle structures 58, 60 and the adjacent columns 56, 52. In between, the handle structures 58, 60 are virtually free to grip around their front circumference.
    1 and 3, the present invention is characterized by integrally formed structural reinforcement members 66, 68 extending between adjacent corner suspension columns 32 or 24 under each handle structure 58, 60. have. The structural reinforcing members 66 and 68 are prominently lifted from the respective handle structures 58 and 60 so as not to disturb the grip of the handle structure. Since boxes are subject to dropping, handling, forklift operation, and the like, it is desirable to reinforce the handle stages very much. The structural reinforcing members 66 and 68 provided in the present invention substantially increase the life expectancy of the box 10 by adding significant structural integrity to the box 10. Even if a box of eight 2-liter bottles can place the stages of the box under significant torsional and bending forces, the reinforcing members 66, 68 mitigate the adverse effects of the force.
    Referring to FIG. 3, the hole 70 between the handle structure 58 and the reinforcing member 66 is formed with the core of an “open-and-close” tool, in which the injection molding tool used to manufacture the portion is not simple. The cavity, for example, poses a molding problem. Rather, shaping of the structure requires features such as a folding core and a slide device at each end of the box.
    As shown in FIG. 1, the reinforcing members 66, 68 each include horizontally extending surfaces 72, 74 that provide additional torsional strength.
    In this embodiment, the reinforcing members 66, 68 extend down to the box bottom 20. The reason for this configuration is that the boxes are sometimes carried on a conveyor belt with upright tabs used to engage the boxes to stop the conveyor. Thus, the reinforcing members 66 and 68 engage the upright tabs to stop the conveyor.
    In addition, the handles 58, 60 are spaced approximately one inch below the top of the suspension column 24, 32 for positioning of the enhancement.
    According to Figure 5, another feature of the invention is illustrated. As shown, each corner of the box 10 not only adds additional strength to the box 10, but also reinforcing ribs 78, 80, 82, 84 that also prevents the bottle cap from entering through the bottom of the box. It includes. For example, if the box 10 slides across a plurality of bottles supported in boxes placed below, the ribs 78, 80, 82, 84 are close enough to adjacent ribs to the bottle lid. Since not enough space is provided for the passage, the ribs 78, 80, 82, 84 will prevent the bottle cap from entering through the bottom surface of the box 10. Therefore, a free sliding movement of the box 10 across the plurality of stacked bottles is possible.
    Referring to FIGS. 6 and 7, a plan view showing a box 10 in which bottles 11 with bottle caps 13 are loaded and a layer of stacked boxes 10 in which bottles 11 are loaded, respectively. to be. In this configuration, the bottle pockets minimize the size of each box by arranging the two liter bottles to contact each other when the box is loaded. However, as illustrated by the box 10 'shown by dashed lines, when the boxes are stacked stacked, the bottle caps 13 and 13' of the stacked boxes are misaligned through the crossed stacked pallets. Thus, the box bottoms 20 must have clova-shaped bottle cap location areas 17 to receive the bottle caps from the box directly below for improved stacking stability, as shown in FIG. 5. This provides a bottle closure of approximately 130 ° to 150 °.
    8-14, a box 110 is shown in accordance with an alternative embodiment of the present invention. Box 110 is similar to that shown in FIGS. 1-7 in many respects. The box 110 includes sidewalls 112 and 114 and end walls 116 and 118. The box bottom 120 is attached to the side walls 112 and 114 and the end walls 116 and 118 to form an outer shell of the box 110.
    A plurality of suspension posts 124, 126, 128, 130, 132, including corner suspension posts 124, 132 forming the four corners of the box 110, have sidewalls 112 on both sides of the box 11. , 114 is provided adjacent to the lower wall 122.
    The vertical rib structure 134, as shown in FIG. 11, comprises a plurality of ribs that, in cooperation with various suspension holders, constitute the bottle holding pockets 138, 140, 142, 144, 146, 148, 150, 152 It includes. As shown in FIGS. 8 and 11, the vertical rib structure 134 includes a single column 152 in the center of the box 110.
    As shown in FIG. 8, the box 110 includes handle structures 158, 160 at opposite ends of the box 110. In this embodiment, the handle structures 158, 160 are placed on top of the suspension columns 124, 132 to provide a high center of gravity and high grip position resulting in a more stable and easier to carry box. .
    Opposite ends 116, 118 of box 110 include reinforcing members 166, 168 that are sufficiently isolated from respective handle structures 158, 160 so as not to interfere with the grabbing of handle structures 158, 160. Doing. As shown in FIGS. 8 and 10, the reinforcing members 166, 168 include a bottom edge 170 that borders the cutout of the bottom of each opposing end 116, 118. Thus, the reinforcing members 116, 118 do not extend to the box bottom 12. The cutout 170 improves the seating ability by giving a deep occlusion capacity between adjacent nested boxes.
    Suspension columns and column structures provided in the embodiments described herein also facilitate stacking of adjacent boxes on top of each other when empty boxes.
    In this embodiment, the bottle retaining pockets are equally spaced between the box and adjacent boxes for improved cross stacking stability (compared to the clover-shaped location zones 17 described above) and the bottle caps of the conical location zones. Is formed in a group of nets that will provide 360 ° of support for. Referring to FIG. 13, each box 110 includes two groups 111, 113 of equally spaced groups of four bottle retaining pockets for holding four bottles in contact with each other. The two groups of bottles 111, 113 stand out at a distance S, which is twice the distance D from the periphery of the box 110 on the side of each bottle.
    By maintaining equal distances between groups of four bottles between boxes and adjacent stacked boxes, even when boxes are stacked, all bottle caps are aligned vertically. As shown in FIG. 14, the distance L between groups of four bottles is maintained through adjacent boxes, providing bottle cap alignment when stacking boxes. This configuration allows the use of the conical bottle cap region 151 at the bottom of each box to provide 360 ° support to each bottle cap 153, thereby improving stacking stability. . As shown, the lid 153 is always centered in the conical bottle cap region 151 and resists lateral movement in all directions.
    According to the present invention, the handle structure is provided at the opposite ends, and the entire circumference thereof can be grasped substantially freely, and under each handle, a structural reinforcing member of the integral molding is provided for the preservation of the structure for increase, and is sufficiently separated from each handle structure to handle It is a stackable shallow depth box that prevents interference with the grabbing of the structure.
    In addition, the present invention provides improved, stackable padding with high stability for storage bottles, full label visibility for display purposes, easily handled handle construction, stable cross stacking capability, and structural integrity for long-term content. It's a depth box.
    权利要求:
    Claims (5)
    [1" claim-type="Currently amended] A stackable shallow depth box for transporting and containing bottles containing opposing sidewalls and opposing shortwalls forming an outer shell, and a box bottom substantially disposed within the outer shell,
    The sidewalls include a bottom wall portion comprising four corner suspension posts constituting the four corners of the box and a plurality of offset upwardly projecting suspension posts;
    A vertical rib structure is generally disposed within the outer shell constituting the box bottom, the side walls and the end walls, the suspension posts extending above the lower wall portions and below the upper surface of the retaining bottles;
    The short walls contain integrally shaped handle structures each having inner and outer surfaces suspended between the upper portions of adjacent corner suspension posts, with a generally open area beneath the inner and outer surfaces of the handle structure and the handle structure. Configured between the inner surface of and the first portion of the vertical rib structure such that the handle structure can be substantially freely gripped around its entire periphery;
    The short walls further each comprise a unitary structural reinforcement member, each extending between the adjacent corner suspension posts below the handle structure and sufficiently separated from the handle structure of each so as not to interfere with the grip of the handle structure;
    Improvement of composition.
    [2" claim-type="Currently amended] The method of claim 1,
    And the handle structure further comprises at least one upwardly projecting pillar.
    [3" claim-type="Currently amended] The method of claim 1,
    The handle structure and the suspension columns are stackable boxes of substantially the same height.
    [4" claim-type="Currently amended] The method of claim 1,
    The plurality of bottle holding pockets contain two sets of four pockets formed to support two equally spaced sets of four such that two sets of four equally spaced bottles are isolated by a separation distance (S), each The bottles are stackable boxes that are isolated from the peripheral edge of the box at a distance (D) that is half the separation distance (S) to provide bottle alignment in the cross stacked boxes.
    [5" claim-type="Currently amended] The method of claim 1,
    A stackable box further containing at least one conical bottle cap location area formed at the bottom of the box for receiving bottle caps from bottles in adjacent boxes.
    类似技术:
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    同族专利:
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    AU758069B2|2003-03-13|
    PL345025A1|2001-11-19|
    DE69925144T2|2006-02-16|
    AR018872A1|2001-12-12|
    JP2002518257A|2002-06-25|
    CN1110432C|2003-06-04|
    WO1999065779A1|1999-12-23|
    EP1486423A1|2004-12-15|
    EP1124730A1|2001-08-22|
    AU4328499A|2000-01-05|
    BR9911242A|2001-03-06|
    US20030029870A1|2003-02-13|
    AT294742T|2005-05-15|
    DE69941462D1|2009-11-05|
    NZ508627A|2003-07-25|
    ZA200007171B|2001-12-04|
    TR200003692T2|2001-05-21|
    EP1486423B8|2009-11-18|
    HU0102207A2|2001-10-28|
    EP1124730A4|2002-09-04|
    CA2334326A1|1999-12-23|
    ID27399A|2001-04-05|
    YU80100A|2003-01-31|
    HU0102207A3|2002-11-28|
    DE69925144D1|2005-06-09|
    EP1124730B1|2005-05-04|
    US6457599B1|2002-10-01|
    US7128234B2|2006-10-31|
    CA2334326C|2007-01-30|
    CZ20004723A3|2002-01-16|
    AT443663T|2009-10-15|
    CN1312764A|2001-09-12|
    US6073793A|2000-06-13|
    EP1486423B1|2009-09-23|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    1998-06-16|Priority to US09/097,933
    1998-06-16|Priority to US09/097,933
    1999-06-02|Application filed by 레리그 퍼시픽 컴파니
    1999-06-02|Priority to PCT/US1999/012238
    2001-06-25|Publication of KR20010052831A
    优先权:
    申请号 | 申请日 | 专利标题
    US09/097,933|1998-06-16|
    US09/097,933|US6073793A|1998-06-16|1998-06-16|Stackable low depth bottle case|
    PCT/US1999/012238|WO1999065779A1|1998-06-16|1999-06-02|Stackable low depth bottle case|
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