巴西专利BR112012021442B1 set of containers to store, dispatch, and / or distribute fluids

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专利摘要:
CONTAINER SETS FOR STORING, DISPATCHING, AND / OR DISTRIBUTING FLUIDS, AND RELATING METHODS. The present invention relates to a container assembly that includes a container and a receptacle configured to be positioned within the container. The receptacle has an opening to distribute the fluid, and the container has an opening that aligns with the opening of the receptacle when the receptacle is positioned within the container. The container opening defines an ergonomic cutout portion for use in grabbing the container to load the container and receptacle together, and to distribute the fluid within the receptacle when the receptacle is positioned within the container. The container order also includes window openings to see the fluid level inside the receptacle through the container. And, the receptacle may include a handle to grasp in connection with the ergonomic cutout portion for use in carrying the container and receptacle together and distributing the fluid from the receptacle.
公开号:BR112012021442B1
申请号:R112012021442-0
申请日:2011-02-25
公开日:2020-11-17
发明作者:Scott C. Voelker
申请人:Monsanto Technology Llc；
IPC主号:

专利说明:

CROSS REFERENCE TO RELATED ORDERS
[0001] This application claims the benefit of Provisional Application U.S, Number 61 / 308,779, filed on February 26, 2010. The entire description of the above application is hereby incorporated by reference. FIELD
[0002] The present description generally relates to container assemblies, and more specifically to composite container assemblies that have suitable receptacles for containing fluids positioned within containers for use in storage, shipping and / or distribution of fluids, and relative methods to these. BACKGROUND
[0003] This section provides fundamental information regarding this description which is not necessarily prior art.
[0004] Composite packaging that has plastic receptacles positioned inside cardboard boxes has been used in the food and restaurant industry to package various types of fluids, including cooking oils. In such packages, the receptacles (for receiving liquids) typically have spout nozzles located towards the front walls of the receptacles and elongated handles that extend from the spout spouts to the rear walls of the receptacles. And, cardboard containers typically have single or double layer top assemblies with movable tabs to define first cutout portions to accommodate the nozzles of receptacles and second cutout portions to accommodate the receptacle handles. SUMMARY
[0005] This section provides a general summary of the description, and is not a comprehensive description of its full scope or all of its characteristics.
[0006] The exemplary modalities of the present description generally refer to sets of container for storing, dispatching, and / or distributing a fluid. In an exemplary embodiment, a set of containers generally includes a first container, and a second container configured to be arranged at least partially within the first container. The second container has an opening to distribute a fluid from the second container, and the first container has an opening aligned with the opening of the second container when the second container is at least partially disposed within the first container. The opening of the first container defines an ergonomic cutout portion to grasp to allow loading of the first and second containers and to facilitate the distribution of fluid from the second container through the opening of the second container when the second container is at least partially disposed within the first container .
[0007] In another exemplary embodiment, a container set generally includes a container and a receptacle. The container is formed of corrugated material and has an upper portion, a lower portion, and multiple side portions that hang down from the upper portion where the upper portion is defined by at least three overlapping layers of the corrugated material. The receptacle is configured to be disposed within the container and has an opening for receiving fluid within the receptacle and / or distributing fluid from the receptacle. The container also includes an opening defined at least partially in the upper portion of the container and at least partially in one of the side portions of the container. The opening of the receptacle is aligned with the opening of the container when the receptacle is disposed within the container, and the opening of the container defines an ergonomic cutout portion to grip the container and facilitate the distribution of fluid from the receptacle through the opening of the receptacle. The container also includes a first and a second displaced window openings to see the fluid level inside the receptacle when the receptacle is disposed within the container, and a reinforcement material disposed adjacent to the first and second window openings to improve the strength of the container. And, the receptacle includes a support portion and a ventilation structure each communicating with the opening of the receptacle. The support portion is configured to help support the receptacle within the container and thereby help to inhibit sliding movement of the receptacle in relation to the container when distributing the fluid from the receptacle, and the ventilation structure is configured to allow air circulate within the receptacle when distributing the fluid from the receptacle to thereby promote a generally uniform flow of fluid from the receptacle.
[0008] In another exemplary embodiment, the container set generally includes a container that has a first and a second window openings displaced to see an inner portion of the container and a reinforcement material disposed adjacent to the first and second window openings for improve the strength of the container.
[0009] The exemplary embodiments of the present description also generally refer to methods for preparing container assemblies for use in storage, shipping, and / or fluid distribution. In an exemplary embodiment, a method generally includes folding a blanket of one-piece material to form a container configured to receive a receptacle at least partially within the container, wherein an upper portion of the folded container includes at least three layers of overlapping material coupled joints and an opening defined at least partially in the upper portion. The opening defines an ergonomic cutout portion to grab the container and allow the container and receptacle to be loaded together when the receptacle is at least partially arranged within the container.
[00010] The exemplary embodiments of the present description also generally refer to blanks of material for use in forming suitable containers for receiving receptacles in them for storage, shipping, and / or distributing a fluid. In an exemplary embodiment, a one-piece material blanket usually includes a group of openings defined in the one-piece material blanket and positioned to generally align when the one-piece material blanket is folded to form the container to thereby define an access opening in an upper portion of the formed container. The access opening is aligned with an opening of a receptacle when the receptacle is positioned within the container formed to facilitate the distribution of fluid from the receptacle within the container through the opening of the receptacle.
[00011] Additional areas of applicability will be apparent from the description provided here. The description and specific examples in this summary are intended for illustration purposes only and are not intended to limit the scope of this description. DRAWINGS
[00012] The drawings described here are for illustrative purposes only of selected modalities and not all possible implementations, and are not intended to limit the scope of this description.
[00013] Figure 1 is a perspective view of an exemplary container set that includes one or more aspects of the present description;
[00014] Figure 2 is a front elevation view of the container assembly of Figure 1;
[00015] Figure 3 is a top plan view of the container assembly of Figure 1;
[00016] Figure 4 is a bottom plan view of the container assembly of Figure 1;
[00017] Figure 5 is a right side elevation view of the container assembly of Figure 1;
[00018] Figure 6 is a rear elevation view of the container assembly of Figure 1;
[00019] Figure 7 is a left side elevation view of the container assembly of Figure 1;
[00020] Figure 8 is a perspective view of the container assembly of Figure 1 with a fluid shown spilling from a receptacle of the container assembly;
[00021] Figure 9 is a perspective view of the container assembly of Figure 1 with a cutout removed from a lower portion of a container in the container set in preparation for drilling the receptacle into the container through an opening left by the cutout removed ;
[00022] Figure 10 is a perspective view of the container of the container set of Figure 1;
[00023] Figure 11 is a sectional view of the container of Figure 10 made in a plane that includes line 11-11 in Figure 10;
[00024] Figure 12 is a perspective view of the container assembly of Figure 1;
[00025] Figure 13 is a front elevation view of the receptacle of Figure 12;
[00026] Figure 14 is a rear elevation view of the receptacle of Figure 12;
[00027] Figure 15 is a left side elevation view of the receptacle of Figure 12;
[00028] Figure 16 is a right side elevation view of the receptacle of Figure 12;
[00029] Figure 17 is a top plan view of the receptacle of Figure 12;
[00030] Figure 18 is a bottom plan view of the receptacle of Figure 12;
[00031] Figure 19 is a sectional view of the receptacle of Figure 12 taken in a plane that includes line 19-19 in Figure 17;
[00032] Figure 20 is a perspective view of another exemplary container set that includes one or more aspects of the present description;
[00033] Figure 21 is a perspective view of yet another exemplary container set that includes one or more aspects of the present description;
[00034] Figure 22 is a top plan view of an exemplary container assembly that includes one or more aspects of the present description and that has an access opening generally in square shape formed in its upper portion of a container;
[00035] Figure 23 is a top plan view of another exemplary container assembly that includes one or more aspects of the present description and that has an access opening generally circular in shape formed in its upper portion of a container;
[00036] Figure 24 is a front elevation view of an exemplary container assembly that includes one or more aspects of the present description and that has a single window opening formed in a front side portion of its container;
[00037] Figure 25 is a front elevation view of another exemplary container assembly that includes one or more aspects of the present description and that has three window openings formed in a front side portion of its container;
[00038] Figure 26 is a front elevation view of an exemplary container assembly that includes one or more aspects of the present description and that has two generally vertically aligned window openings formed in a front side portion of its container;
[00039] Figure 27 is a perspective view of another exemplary container assembly that includes one or more aspects of the present description and that has window openings formed in a front side portion and a left side portion of its container;
[00040] Figure 28 is a front elevation view of another exemplary container assembly that includes one or more aspects of the present description and that has two generally diagonal aligned window openings formed in a front side portion of its container;
[00041] Figure 29 is a front elevation view of yet another exemplary container set that includes one or more aspects of the present description and that has two window openings formed in a front side portion of its container;
[00042] Figure 30 is a front elevation view of an exemplary container assembly that includes one or more aspects of the present description and that has two window openings formed in a front side portion of its container;
[00043] Figure 31 is a perspective view of another exemplary receptacle for use with a container set that includes one or more aspects of the present description;
[00044] Figure 32 is a perspective view of multiple exemplary container sets stacked on a pallet for shipping, storage, etc .;
[00045] Figure 33 is a perspective view of a container set according to another exemplary embodiment of the present description; and
[00046] Figure 34 is a perspective view of a receptacle in the container assembly of Figure 33.
[00047] The corresponding reference numbers indicate corresponding parts through all the different views of the drawings. DETAILED DESCRIPTION
[00048] The exemplary modalities will now be described more fully with reference to the accompanying drawings. Exemplary modalities are provided so that this description is complete, and will fully guide the scope for those skilled in the art. Numerous specific details are presented such as examples of specific components, devices, and methods, to provide a complete understanding of the modalities of the present description. It will be apparent to those skilled in the art that specific details need not be employed, that exemplary modalities can be incorporated in many different ways and that none should be considered to limit the scope of the description. In some exemplary embodiments, well-known processes, well-known device structures, and well-known technologies are not described in detail.
[00049] The terminology used here is for the purpose of describing specific exemplary modalities only and is not intended to be limiting. As used herein, the singular forms "one", "one" and "o" may be intended to include plural forms as well, unless the context clearly indicates otherwise. The terms "comprises", "comprising", "including", and "having" are inclusive and therefore specify the presence of declared characteristics, integers, steps, operations, elements, and / or components, but do not exclude the presence or addition of one or more other characteristics, integers, steps, operations, elements, and / or their groups. The method steps, processes, and operations described herein are not to be considered as necessarily requiring their execution in the specific order discussed or illustrated, unless specifically identified as an order of execution. It should also be understood that additional or alternative steps can be employed.
[00050] When an element or layer is referred to as "over", "engaged in", "connected to" or "attached to" another element or layer, it can be directly over, engaged, connected or attached to the other element or layer, or intervening elements or layers may be present. In contrast, when an element is referred to as "directly over", "directly engaged in", "directly connected to", "directly coupled to" another element or layer, there may be no intervening elements or layers present. Other words used to describe the relationship between the elements should be interpreted in a similar way (for example, "between" versus "directly between", "adjacent" versus "directly adjacent", etc.). As used herein, the term "and / or" includes any and all combinations of one or more of the associated listed items.
[00051] Despite the terms first, second, third, etc. may be used herein to describe various elements, components, regions, layers and / or sections, these elements, components, regions, layers and / or sections should not be limited by these terms. These terms can only be used to distinguish an element, component, region, layer or section from another region, layer or section. Terms such as "first", "second", and other numeric terms when used herein do not imply a sequence or order unless clearly indicated by the context. Thus, a first element, component, region, layer or section discussed below could be called a second element, component, region, layer or section without departing from the teachings of exemplary modalities.
[00052] Spatially relative terms such as "internal", "external", "under", "below", "lower", "above", "upper", "lower" and the like can be used here for ease of description to describe the relationship of an element or characteristic to another element (s) or characteristic (s) as illustrated in the figures. Spatially relative terms can be intended to cover different orientations of the device in use or operation in addition to the orientation shown in the figures. For example, if the device in the figures is facing, the elements described as "below" or "under" other elements or characteristics would then be oriented "above" the other elements or characteristics. Thus, the exemplary term "below" can encompass both an upward and downward orientation. The device may be otherwise oriented (rotated 90 degrees or in other orientations) and the spatially related descriptors used herein interpreted accordingly.
[00053] Referring now to the drawings, Figures 1-19 illustrate an exemplary container set 100 (e.g., a fluid storage and distribution set, etc.) that includes one or more aspects of the present description. The illustrated container set 100 generally includes a composite design, bottle in a semi-rigid box that promotes easy, safe, and efficient containment, delivery, and / or use of fluids within container set 100. Container set 100 can be used, for example, to store, dispatch, and / or distribute fluids, as desired, where such fluids may include (but are not limited to) chemical fluids such as herbicides, pesticides, fertilizers, etc.
[00054] As shown in Figure 1, the container set 100 generally includes a container 102 (for example, a package, a box, etc.) (generally, a first container) and receptacle 104 (for example, a bottle, etc. .) (generally, a second container). The receptacle 104 is configured to mount inside the container 102 where it can then be filled with desired fluids. Fluids can then be delivered from receptacle 104 while disposed within container 102 without removing receptacle 104 from container 102. As such, container 102 can provide protection (and security) for receptacle 104 (and the fluids within) against, for example, environmental exposure (for example, rain, heat, etc.), handling, shipping, and / or storage damage (for example, falls, tipping, etc.), or other damage that may affect receptacle 104 and / or the fluids within it.
[00055] With additional reference to Figures 2-7, container 102 generally includes a box shape that has four side portions 108a, 108b, 108c, and 108d, an upper (or top) portion 110, and a lower portion ( or bottom) 112. Corner portions 114a, 114b, 114c, and 114d of container 102 generally located between adjacent adjacent portions 108a, 108b, 108c, and 108d, are chamfered to give container 102 a generally orthogonal shape. The chamfered corner portions 114a, 114b, 114c, and 114d generally connect adjacent ones of the side portions 108a, 108b, 108c, and 108d. The beveled corner portions 114a, 114b, 114c, and 114d help to optimize the storage space inside the container 102 (for example, to receive the receptacle 104 inside it, etc.), and provide improved strength (for example, strength compression, etc.), structural integrity, and resistance to drop impact to container 102, for example, to protect receptacle 104 when receptacle 104 is disposed within container 102. Container 102 may be formed of any suitable material within of the scope of this description including, for example, corrugated material, corrugated material, cardboard, plastic, composite material, coated material, etc. In addition, container 102 may be formed of a single blanket of material or two or more separate pieces of material within the scope of the present description.
[00056] As shown in Figure 1, the upper portion 110 of the illustrated container 102 includes three individual layers 118a, 118b, and 118c generally defined by overlapping flaps of the container 102. In the illustrated embodiment, the three layers 118a, 118b, and 118c substantially they totally overlap and are coupled (e.g., glued, interlocked, secured, etc.) together to substantially seal receptacle 104 within container 102. Each of the individual layers 118a, 118b, and 118c may include a single layer of corrugated material. This construction provides strength and structural integrity for the upper portion 110 of container 102 (as will be described further below) and also discourages users from removing receptacle 104 from container 102 before using container assembly 100 (for example, before dispensing fluid from receptacle 104 of container assembly 100, etc.). In other exemplary embodiments, containers may include upper portions that have more than or less than three overlapping layers and / or overlapping layers that do not substantially overlap substantially.
[00057] An access opening 120 is defined in container 102 generally illustrated in the upper portion 110 and a front side portion 108a of container 102. Access opening 120 allows access to receptacle 104 when receptacle 104 is disposed within container 102 ( for example, without requiring to manipulate, open, remove, etc. the flaps of container 102, etc.). More specifically, access opening 120 provides space for users to fill receptacle 104 with fluid and / or distribute the fluid from receptacle 104 when receptacle 104 is disposed within container 102 without interference from container 102 (for example, without contacting the container 102, etc.). Access opening 120 also provides space for users to seal and cap receptacle 104 after receptacle 104 is filled and / or to open sealed and capped receptacle 104 in preparation for fluid delivery. In the illustrated embodiment, the access opening 120 includes a generally diamond shape. In other exemplary embodiments, however, containers can include access openings that have other desired shapes, depending on design choices, that provide space for users to access the receptacles arranged within the containers. In addition, in the illustrated embodiment, container 102 includes a single access opening.
[00058] The opening of access 120 also forms, provides, defines, etc. gripping portions 122 in the upper portion 110 of container 102. Gripping portions 122 can be seen as ergonomic cutout portions, etc. In the illustrated embodiment, the gripping portions 122 are located towards both sides of the access opening 120. And, the gripping portions 122 are oriented at angles of approximately thirty degrees. As such, users can grab container 102 in the grab portions 122 with left hands or right hands (for example, for loading, ergonomic spilling, etc.) and, for example, lift container 102 and receptacle 104 (when receptacle 104 is disposed within container 102), move container 102 and receptacle 104, and / or manipulate container 102 to directionally spill fluid from receptacle 104 (see Figure 8). The overlapping construction of the upper portion 110 (i.e., the three overlapping layers 118a, 118b, and 118c of the upper portion 110) provides additional resistance to the gripping portions 122 of container 102. This can help to inhibit failure of container 102 in gripping portions 122 when lifting container assembly 100 (specifically when receptacle 104 is filled with fluid), when transporting container assembly 100, and / or when manipulating container assembly 100 to spill fluid from receptacle 104. One additional reinforcement (for example, reinforcement material, bands, clips, etc.) could be provided to the gripping portions 122 as desired to provide additional resistance thereto.
[00059] A security seal (not shown) can be included on the access opening 120 of container 102 (and on receptacle 104 disposed within container 102), as desired. When included, the security seal must be removed in order to access receptacle 104 within container 102. As such, the security seal could provide evidence that container set 100 has not been altered or tampered with (for example, that the fluid inside receptacle 104 has not been altered or tampered with, etc.) prior to use. As an example, the security seal may be coupled (for example, glued, etc.) to the upper portion 110 of container 102 so that the security seal substantially covers access opening 120. Perforations may be provided around the edges perimeter of the security seal to allow users to easily remove the security seal when desired to access receptacle 104 (for example, to spill fluid from receptacle 104, etc.).
[00060] With continued reference to Figures 1 and 2, container 102 includes first and second window openings 126 and 128 defined in the front side portion 108a. The window openings 126 and 128 allow to see an interior portion of the container 102, for example, the fluid level inside the receptacle 104 when the receptacle 104 is disposed inside the container 102. The window openings 126 and 128 are generally uniform, narrow , and elongated in shape (e.g., slit-shaped, etc.) and have generally rounded end portions. The window openings 126 and 128 extend in a generally vertical direction of the container 102. And, measurement markings 130 (eg, a scale, etc.) are usually included vertically along the window openings 126 and 128 to help indicate the amount of fluid within receptacle 104. As an example, measurement markings 130 may include volumetric units (e.g., liters, gallons, etc.) which can be used to indicate the volume of fluid within receptacle 104 and / or measure the volume of fluid delivered from receptacle 104.
[00061] In the illustrated embodiment, the two window openings 126 and 128 are positioned in a configuration generally offset along the front side portion 108a of container 102. As seen in Figure 2, the first window opening 126 is located in the direction of a left portion of the front side portion 108a of the container, and the second window opening 128 is located generally below the first window opening 126 and towards the right portion of the front side portion 108a of the container. And, a lower portion of the first window opening 126 is generally located above an upper portion of the second window opening 128. This spaced configuration of the two window openings 126 and 128 can help provide strength and stability for container 102, and it can also protect container 102 from overflow, tearing, etc. under tension (for example, when container set 100 is dropped with receptacle 104 filled with fluid, etc.).
[00062] As shown in Figure 4, container 102 also includes an opening 132 and a cutout 134 located at the bottom portion 112 of container 102. Opening 132 is configured for a user to grip (in combination with the grip portions 122) when manipulating container 102 to spill fluid from receptacle 104. Cutout 134 can be used, for example, in operations where dispensing fluid from receptacle 104 and / or flushing receptacle 104 (when receptacle 104 is disposed within the container 102) includes drilling a lower portion 112 of receptacle 104 (without opening receptacle 104 and / or removing receptacle 104 from container 102) (see Figure 9). In these operations, cutout 134 can be removed from the lower portion 112 of container 102, and receptacle 104 can then be impaled on a stake 136 through an opening 138 left by cutout 134 removed (see Figure 9). The fluid inside the receptacle 104 can then be delivered, for example, into a tank 140 as shown in Figure 9. In addition (or alternatively), the fluid can be introduced into receptacle 104 to wash receptacle 104, as desired, through from the opening 138 left by the cutout 134 removed and through an opening formed in the receptacle 104 perforated by the stake 136.
[00063] In the illustrated embodiment, cutout 134 has a generally circular shape with a diameter dimension of approximately 7.62 centimeters (approximately 3 inches). However, cutouts can have shapes other than circular (for example, square shapes, oval shapes, etc.) and / or cutouts that have dimensions other than approximately 7.62 centimeters (approximately 3 inches), depending on the design choice, within the scope of this description. In addition, perforations (indicated as dashed lines in Figure 4 that generally define cutout 134) are formed in the lower portion 112 of the container 102 around a periphery of cutout 134 to allow cutout 134 to be easily removed from the lower portion 112, as desired, to allow access to receptacle 104 within container 102 through the lower portion 112 of container 102 (i.e., through opening 138 left by cutout 134 removed (see Figure 9)). The bottom portion 112 of container 102 also includes index lines 142 to direct users how to remove receptacle 104 from container 102 after container assembly 100 is used. The index lines 142 indicate the locations for cutting the bottom portion 112 of the container 102 to open the container 102 to remove the receptacle 104. In other exemplary embodiments, the containers may include removable structures such as pull cords, zipper cords, etc. . arranged inside the containers (for example inside the lower surfaces of the containers, etc.) for use in opening the containers and removing the receptacles from the containers as desired.
[00064] Referring to Figures 10 and 11, the illustrated container 102 also includes a reinforcement tape 146 (generally, a reinforcement material) that extends through the side portions 108a, 108b, 108c, and 108d, of the container 102 and generally to the around a perimeter of container 102. Reinforcement tape 146 provides reinforcement and structural stability for the side portions 108a, 108b, 108c, and 108d of container 102 and helps protect container 102 from overflow, tearing, etc. under tension (for example, when container set 100 is dropped with receptacle 104 filled with fluid, etc.).
[00065] In the illustrated embodiment the reinforcement tape 146 is installed from the side portions 108a, 108b, 108c, and 108d of the container 102 within corrugated structures of the side portions 108a, 108b, 108c, and 108d. Part of the reinforcement strip 146 hidden within the side portions 108a, 108b, 108c, and 108d and the corner portions 114a, 114b, 114c, and 114d of the container 102 is shown in broken lines. In the front side portion 108a of container 102, the first and second window openings 126 and 128 are generally spaced vertically along container 102 so that reinforcement strip 146 can extend adjacent (e.g., generally between, etc.) to the first and second window openings 126 and 128. Reinforcement tape 146 can be constructed of any suitable materials within the scope of the present description, including, for example, metallic materials, composite materials, woven material, sesame strip, etc.
[00066] In other exemplary embodiments, containers may include a reinforcing strip that extends along the surfaces of side portions of containers (for example, along the inner surfaces of side wall portions of containers, along external surfaces of side wall portions of containers, etc.). In yet other exemplary embodiments, the reinforcement material may include labels, tape, etc. arranged along external container surfaces and adjacent openings in the containers (eg window openings, etc.) to provide strength and structural stability to the side portions of the containers to help protect the containers from overflow, tearing, etc. under tension.
[00067] Container 102 illustrated generally includes openings in the upper portion 110 and in the front side portion 108a. The openings are not provided in the side portions 108b, 108c, or 108d. This can help to improve the strength of container 102, etc. In other exemplary embodiments, however, the containers may include side portions that have openings differently than described herein. In addition, the illustrated container 102 generally includes a flat bottom portion 112 (e.g., flap-free, etc.). This can help to provide a flat surface for stacking the container 102. In other exemplary embodiments, however, the containers can include flapped bottom surfaces.
[00068] The receptacle 104 of the illustrated container assembly 100 will now be described with reference to Figures 12-18. The receptacle 104 has a generally octagonal shape which provides strength (e.g., compressive strength, etc.), structural integrity, and drop impact resistance for receptacle 104. The receptacle 104 can be formed by any suitable process within the scope of the present description including, for example, an extrusion blow molding process, etc.
[00069] As shown in Figure 12, receptacle 104 generally includes a nozzle 150 (generally, an opening) in communication with receptacle 104. Nozzle 150 is configured to receive fluid within receptacle 104 and / or to distribute the fluid of the receptacle 104. The nozzle 150 generally aligns with the access opening 120 of the container 102 when the receptacle 104 is disposed within the container 102 (see Figures 1-3). This facilitates the distribution of fluid from the receptacle 104 through the nozzle 150 and through the access opening 120 of the container 102 and allows filling, closing, dispensing, etc. generally in line with receptacle 104 within container 102.
[00070] A cover 152 is removably attached to the nozzle 150 and allows selectively covering and uncovering the nozzle 150. A removable security seal (eg, a peel-off liner, etc.) may be included on the nozzle 150 (and under cap 152) as desired. When included, the safety seal should be removed from the nozzle 150 in order to spill fluid from receptacle 104. As such, the safety seal could provide evidence that receptacle 104 has not been altered or tampered with (for example, that fluid inside receptacle 104 has not been altered or tampered with, etc.) prior to use. As an example, the safety seal may be coupled (e.g., induction welded, etc.) to receptacle 104 so that the safety seal substantially covers the nozzle 150 and can be easily removed when desired to access the nozzle 150 ( for example, spill fluid from receptacle 104, etc.). Other types of removable security seals can be used in connection with cover 152 and / or the nozzle 150 of receptacle 104 within the scope of the present description (for example, perforated seal rings used in connection with cover 152, etc.) .
[00071] The receptacle 104 also includes a shoulder 154 (generally, a support portion) in communication with the receptacle 104 and the nozzle 150. The shoulder 154 is configured to be positioned adjacent to the upper portion 110 of the container 102. In this position, shoulder 154 engages upper portion 110 of container 102 when, for example, container assembly 100 is manipulated to spill fluid from receptacle 104 (see Figure 8). As such, shoulder 154 supports receptacle 104 within container 102 generally against upper portion 110 of container 102 to help inhibit unwanted sliding movement of receptacle 104 that could affect, inhibit, etc. The fluid spilling operation. The shoulder 154 also creates a space within the container 102 between the receptacle 104 and the upper portion 110 of the container 102 for users to grasp the gripping portions 122 of the container 102 (so that the user's fingers can generally fit within the container 102 between the receptacle 104 and the upper portion 110 of the container 102).
[00072] With continued reference to Figure 12 it also includes a ventilation structure 156 that promotes easy spilling of fluid from receptacle 104. More specifically, ventilation structure 156 provides a continuous, smooth, generally uniform flow of fluid from receptacle 104 ( for example, a "no-gargle" fluid flow, a generally uniform fluid flow stream, etc.) when users manipulate container assembly 100 to spill fluid from receptacle 104. This can help reduce fluid spillage as fluid spills from receptacle 104 (as well as the risk of inadvertent fluid contact with users while spilling).
[00073] In the illustrated embodiment, the ventilation structure 156 of receptacle 104 generally includes a neck 158 that extends along an upper portion of receptacle 104 between nozzle 150 and shoulder 154. Neck 158 is formed monolithically with receptacle 104 and defines a generally tight channel extending from the nozzle 150 to the shoulder 154. The neck 158 is generally sealed from the fluid of the receptacle 104 (through the construction of the tight channel of the neck 158, and is generally open at the nozzle 150 and the shoulder 154. As such, neck 158 allows air to enter neck 158 of nozzle 150, moves through neck 150 to boss 154, and then circulates within receptacle 104 as the fluid is spilled (that is, usually behind the fluid that is being spilled through the shoulder 154) .This inhibits pressure differentials from forming inside the receptacle 104 during the spilling operation, and thus promotes smooth, uniform continuous fluid flow from the receptacle. it 104.
[00074] The illustrated receptacle 104 does not include a handle for gripping and lifting the receptacle 104. The lifting of the receptacle 104 when filled with fluid is performed by grasping the gripping portions 122 of the container 102 and moving the container 102 and the receptacle 104 together. Thus, the structural flexion of the receptacle 104 (for example, in the ventilation structure 156, etc.) when being loaded is reduced. As such, the wall thicknesses of receptacle 104 can be reduced resulting in the use of less plastic when forming receptacle 104.
[00075] Figure 20 illustrates another exemplary embodiment of a container set 200 that includes one or more aspects of the present invention. Container set 200 of this embodiment is substantially similar to container set 100 previously described and illustrated in Figures 1-19. For example, the container assembly 200 includes a container 202 and a receptacle 204 configured to mount within container 202. An access opening 220 is defined in an upper portion 210 of container 202 as well as a front side portion 208a of container 202 And, a first and second window openings 226 and 228 are defined in the front side portion 208a of the container.
[00076] In addition, in the illustrated container assembly 200, container 202 includes two inner finger openings 272 each positioned on an opposite side from access opening 220. Finger openings 272 are defined through inner layers 218b and 218c of the upper portion 210 to assist users in securely gripping the gripping portions 222. In this exemplary embodiment, the finger openings are not defined through layer 218a of the upper portion 210 of the container 202. As such, the finger openings 272 are hidden in the Figure 20 and are thus shown in dashed lines to illustrate the general location.
[00077] Figure 21 illustrates an exemplary embodiment of a container set 300 substantially similar to the container set 200 previously described and illustrated in Figure 20. For example, container set 300 includes a container 302 and a receptacle 304 configured to mount inside the container 302. An access opening 320 is defined in an upper portion 310 of the container 302 as well as in a front side portion 308a of the container 302. And, a first and second window openings 326 and 328 are defined in the side portion front 308a of the container. And, the container 302 includes two internal finger openings 372 each positioned on an opposite side of the access opening 320. In this embodiment, the finger openings 373 are defined through each of the layers 318a, 318b, and 318c of the upper portion 310 to help users securely grasp the 322 grab portions.
[00078] Figures 22 and 23 illustrate additional exemplary embodiments of container assemblies that include one or more aspects of the present description. In these exemplary embodiments, the container sets include containers that have alternative designs for the access openings in upper portions of the containers to access the receptacles within the containers. For example, Figure 22 illustrates a container assembly 400 in which a container 402 includes an access opening 420 of generally square shape. And, Figure 23 illustrates a container assembly 500 in which a container 502 includes an access opening 520 of generally circular shape.
[00079] Figures 24-30 illustrate further additional exemplary embodiments of container assemblies that include one or more aspects of the present description. In these exemplary embodiments, the container assemblies include containers that have alternative designs for the window openings located on the side portions of the containers to see, for example, the fluid level within receptacles arranged within the containers.
[00080] For example, Figure 24 illustrates a container assembly 600 in which a container 602 includes a single window opening 626 generally oriented vertically along a front side portion 608a of 602. Figure 25 illustrates a container assembly 700 in which its container 702 includes three window openings 726, 728, and 780 displaced and generally vertically oriented along a front side portion 708a of container 702. Figure 26 illustrates a container assembly 800 in which its container 802 includes two window openings 826 and 828 generally oriented vertically along a front side portion 808a of container 802. Figure 27 illustrates a container assembly 900 in which a container 902 includes a first window opening 926 generally oriented vertically along a left side portion 908d of container 902 and a second window opening 928 oriented generally vertically along a portion front side 908a of container 902. Figure 28 illustrates a container assembly 1000 in which a container 1002 includes a first and second window openings 1026 and 1028 each generally oriented diagonally along a front side portion 1008a of container 1002 Figure 29 illustrates a container assembly 1100 in which a container 1102 includes window openings 1126 and 1128 in a front side portion 1108a of container 1102 that have generally square end portions. And, Figure 30 illustrates a container assembly 1200 in which a container 1202 includes window openings 1226 and 1228 in a front side portion 1208a and which are generally non-uniform shapes. In yet other exemplary embodiments, container assemblies may include containers that have different numbers of window openings, different forms of window openings, different window opening orientations, etc. than described here.
[00081] Figure 31 illustrates an exemplary embodiment of a receptacle 1304 for use with a container set that includes one or more aspects of the present description. In this exemplary embodiment, receptacle 1304 includes an alternative design for shoulder 1354. Shoulder 1354 supports receptacle 1304 within a container generally against an upper portion of the container to help inhibit unwanted sliding movement of receptacle 1304 within the container while spilling fluid from receptacle 1304 (when receptacle 1304 is disposed within the container).
[00082] In another exemplary embodiment, a container set includes a container and a receptacle configured to mount inside the container. In this exemplary embodiment, the container has a length (or depth) dimension of approximately 25.4 centimeters (approximately 10 inches), a width dimension of approximately 22.9 centimeters (approximately 9 inches), and a height dimension of approximately 36.2 centimeters (approximately 14.25 inches). And, the receptacle has a volume of approximately 11.4 liters (approximately 3 gallons). In addition, the walls of the receptacle may have a nominal thickness of approximately 0.762 mm (approximately 0.03 inches). In other exemplary embodiments, container assemblies may include containers that have dimensions other than those described herein and / or receptacles that have volumes other than approximately 11.4 liters (3 gallons) (for example, approximately 13 liters (3.5 gallons), etc.). In yet other exemplary embodiments, container assemblies may have receptacles sized to contain sufficient fluid to dose a specific area of land (for example, approximately 20 acres of land, etc.).
[00083] Other exemplary embodiments of the present description refer to methods for preparing container assemblies for use in storage, shipping, and / or fluid distribution. In an exemplary embodiment, a material blanket is initially formed into a desired shape for use in forming a container from the container set. Features such as access openings (generally a first group of openings), window openings (generally a second group of openings), finger openings, and cutouts can be formed (for example, stamped, cut, etc.). ) on the material blanket as desired, for example, while forming the material blanket in the desired shape. The access openings, for example, are positioned in overlapping portions of the material blanket so that they generally align when the container is formed (i.e., to thereby form a single access opening in the container). Similarly, respective finger openings are positioned to generally align when the container is formed. In addition, desired artwork, brand adornments, product instructions, product notices, etc. can be printed on the material blanket and / or document containment compartments (for example, for product booklets, etc.) can be formed on the material blanket as desired. Any suitable material can be used to form the material blank, for example, a corrugated material, cardboard, etc. And, the material blanket can have any desired thickness within the scope of the present description.
[00084] In this exemplary embodiment, after forming the blanket material, the blanket of material is folded to form the container. When folding the material blanket, an upper portion of the container can be left unfolded and opened so that a receptacle can be positioned inside the container through it. After the receptacle is positioned inside the container, the upper portion of the container can then be folded over the receptacle. In this exemplary method, the overlapping portions of the folded blanket can be coupled together (e.g., glued, etc.) as desired, for example, hereby generally sealing the receptacle within the container.
[00085] Also in this exemplary modality, the method can also include filling the receptacle (disposed inside the container) with a desired fluid, and then attaching a seal and a lid to a nozzle of the receptacle. A security seal can then also be attached to the upper portion of the container, usually over the access opening. Fewer production steps may be involved to finally fill the receptacle in this exemplary modality.
[00086] Figure 32 illustrates prepared sets of container 1400 stored with other sets of container 1400 prepared on a pallet for dispatch, distribution, use, etc. subsequent. For example, 75 sets of container 1400 are shown on the pallet.
[00087] Figures 33 and 34 illustrate a container set 1500 according to another exemplary embodiment of the present description. Container set 1500 of this embodiment is similar to container set 100 previously described and illustrated in Figures 1-19. For example, container set 1500 includes a container 1502 and a receptacle 1504 configured to mount within container 1502. An access opening 1520 is defined in an upper portion 1510 of container 1502 as well as a front side portion 1508a of container 1502 As such, a fluid can be spilled from receptacle 1504 at any desired angle without interference from container 1502. In addition, receptacle 1504 includes a vent structure 1556 to assist with spilling fluid from receptacle 1504 (for example, to provide a continuous, smooth, generally uniform fluid flow from receptacle 1504 (for example, a "no-gargle" fluid flow, a generally uniform fluid flow stream, etc.), and a 1550 nozzle that helps to inhibit fluid from run through receptacle 1504 below during, after, etc. spilling.
[00088] In this embodiment, the window openings (not visible) are defined in the rear side portion 1508c of the container 1502 (compared to the front side portion 1508a of the container 1502). As such, in this embodiment users can easily see the window openings while grabbing the container set 1500 and spilling the fluid from the receptacle 1504.
[00089] Also in this embodiment, receptacle 1504 includes a handle in the style of flange 1570 for use in grasping and loading receptacle 1504, and for use in helping to spill fluid from receptacle 1504. For example, a user can grasp the container 1502 in a grab portion 1522 (e.g., an ergonomic grab portion, etc.) while at the same time also grabbing handle 1570 from receptacle 1504 thereby allowing the user to lift container 1502 and receptacle 1504 together (when receptacle 1504 is disposed within container 1502), move container 1502 and receptacle 1504 together, and / or manipulate container 1502 to spill fluid fluid directionally from receptacle 1504. Allowing to hold receptacle 1504 and container 1502 together ( grabbing the handle 1570 of the receptacle and the grabbing portion 1522 of the container 1502 together at the same time) while using the container set 1500 can provide support, stability, et ç. additional for the container set 1500. The handle 1570 is also configured to position adjacent the upper portion 1510 of container 1502 when receptacle 1504 is disposed within container 1502 (Figure 33). In this position, handle 1570 can engage upper portion 1510 of container 1502 when, for example, container assembly 1500 is manipulated to spill fluid from receptacle 1504. As such, handle 1570 can help support receptacle 1504 within the container 1502 generally against upper portion 1510 of container 1502 to help inhibit unwanted sliding movement of receptacle 1504 that could affect, inhibit, etc. the fluid spilling operation.
[00090] Exemplary container sets of the present description generally provide environmentally sensitive products (for example, eco-friendly, etc.) to store, dispatch, and / or distribute fluids. The container sets of this description can be recycled as part of the Ag Container Recycling Council (ACRC) flow. For example, after the container assemblies are used (for example, after spilling the fluid from the container assemblies, etc.) the receptacles can be removed from containers in the container assemblies, washed, and recycled. And, containers can be broken and disposed of as desired (eg recycled, etc.). In addition, the receptacles of the exemplary container assemblies can be formed using less plastic. For example, a lightweight plastic can be used to form the receptacles due to the additional structural support provided for the container assemblies by the containers. As such, over approximately fifty percent less plastic can be used to form the receptacles, less chemically exposed plastic (by weight) can be presented for recycling, and the weight of container assemblies can be reduced by up to, for example, approximately thirty and five percent or more. In addition, as the receptacles are substantially sealed within the containers for use, labeling may not be required for the receptacles within the containers (thereby reducing unnecessary paper consumption).
[00091] Exemplary container sets of this description can improve storage and shipping efficiency. For example, container assemblies are initially prepared for use (for example, for filling with fluid, etc.) as unitary structures - the empty receptacles are positioned within the containers of the container assemblies before filling the receptacles with fluid. Thus, prepared (but empty) container sets require less storage space because the receptacles are already arranged within the containers. In addition, the octagonal shape of the containers in the container assemblies provides for a compact, efficient stacking of the container assemblies (either filled with fluid or voids), for example, on pallets, thereby requiring less storage area for the container assemblies and providing efficient use of available storage space.
[00092] Specific dimensions and / or values described here are exemplary in nature and do not limit the scope of this description.
[00093] The description above the elements has been provided for purposes of illustration and description. This is not intended to be exhaustive or to limit the invention. The individual elements or characteristics of a specific modality are generally not limited to that specific modality, but, where applicable, are interchangeable and can be used in a selected modality, even if not specifically shown or described. It can also be varied in many ways. Such variations should not be considered a departure from the invention, and all such modifications are intended to be included within the scope of the invention.

权利要求:
Claims (7)
[0001]
1. Container set (100) for storing, dispatching, and / or distributing a fluid, the container set comprises: a first container (102); and a second container (104) configured to be arranged at least partially within the first container (102), the second container (104) having a nozzle (150) defining an opening for distributing a fluid from the second container (104); wherein the first container (102) includes an opening (120) aligned with the spout (150) of the second container (104) when the second container (104) is at least partially arranged within the first container (102) to facilitate distribution fluid from the second container (104) through the spout (150) of the second container (104) and through the opening (120) of the first container (102); and wherein the second container (140) includes a handle (1570) generally extending over the second container (104) and defining a flange having a continuous front edge portion to allow the user to grip the handle (1570) on the flange , the front edge portion of the handle flange (1570) accessible through the opening (120) of the first container (102) to allow to transport the first and second container (102, 104) together and to facilitate the distribution of the fluid from the second container (104) when the second container (104) is at least partially disposed within the first container (102); characterized by the fact that: the first container (102) includes at least one window opening (126, 128) arranged on a side portion of the first container (102) to view the fluid level in the second container (104) when the second container (104) is arranged at least partially within the first container (102); and the second container (104) includes a ventilation structure (156) separate from the handle (1570), the ventilation structure (156) coupled to the spout (150) of the second container (104) and in communication with the opening defined by the spout (150), the ventilation structure (156) defining an opening in the opening of the second container (104) configured to allow air to enter and circulate in the second container (104), thereby promoting a generally uniform flow of fluid from the second container (104) when dispensing the fluid from the second container (104).
[0002]
Container assembly (100) according to claim 1, characterized in that the second container (104) includes a support portion configured to help support the second container (104) at least partially within the first container (102) and thereby help to inhibit a sliding movement of the second container (104) relative to the first container (102) when distributing the flow of the second container (104).
[0003]
Container set (100) according to claim 2, characterized in that the support portion includes said handle (1570) to allow loading the first and second containers (102, 104) together and facilitating the fluid distribution of the second container (104) through the opening of the second container (104).
[0004]
Container assembly (100) according to claim 1, characterized in that the at least one window opening (126, 128) of the first container (102) includes a first and a second window opening (126 , 128), and wherein the first container (102) still includes a reinforcement material (146) disposed adjacent the first and second window openings (126, 128) to improve the strength of the first container (102).
[0005]
Container assembly (100) according to claim 4, characterized in that the first and second window openings (126, 128) are offset and are both defined on the side portion of the first container (102) , wherein the side portion of the first container (102) is a rear side portion of the first container (102), and the rear side portion of the first container (102) includes reinforcement material (146) disposed between the first and second window openings (126,128).
[0006]
Container assembly according to any one of claims 1 to 5, characterized in that the first container includes a lower portion that has an extractor configured to be removed from the first container to allow access to the second container through the portion bottom of the first container when the second container is at least partially arranged within the first container.
[0007]
7. Container assembly according to claim 6, characterized in that the lower portion of the first container still defines an opening adjacent to the extractor to grasp the first container and facilitate the distribution of fluid from the second container when the second container is at least partially disposed within the first container.

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同族专利:

公开号 | 公开日

CA2790821A1|2011-09-01|

BR112012021442A2|2016-05-31|

MX359193B|2018-09-18|

CA2790821C|2019-05-07|

US20120312813A1|2012-12-13|

MX2012009930A|2012-10-05|

US20190152671A1|2019-05-23|

EP2539238A1|2013-01-02|

US10189623B2|2019-01-29|

AR080335A1|2012-03-28|

WO2011106698A1|2011-09-01|

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法律状态:
2019-01-08| B06F| Objections, documents and/or translations needed after an examination request according art. 34 industrial property law|

2019-02-12| B06T| Formal requirements before examination|

2020-02-18| B06A| Notification to applicant to reply to the report for non-patentability or inadequacy of the application according art. 36 industrial patent law|

2020-06-23| B09A| Decision: intention to grant|

2020-11-17| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 25/02/2011, OBSERVADAS AS CONDICOES LEGAIS. |

优先权:

申请号 | 申请日 | 专利标题

US30877910P| true| 2010-02-26|2010-02-26|

US61/308,779|2010-02-26|

PCT/US2011/026317|WO2011106698A1|2010-02-26|2011-02-25|Container assemblies for storing,shipping, and/or dispensing fluids, and related methods|

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