The present invention relates generally to packaging for condiments. More particularly, the present invention concerns condiment packaging adapted for opening in at least two different ways.
Condiment packaging has evolved over the years, starting with basic glass bottles and jars for display and sale of condiments, including without limitation ketchup, mustard, mayonnaise, sauces, and the like. That basic packaging later included larger capacity bottles and jars, and then containers made from synthetic plastic materials. Eventually, the packaging concepts turned to providing packaging suitable for individual portions of the condiments.
Individual packaging for condiments has, itself, seen changes. At one time, the packaging was simply an empty cup that could be filled with a condiment from a large capacity condiment dispenser that may, for example, have included a pump or other suitable dispensing device. For many years, condiments have been available in individual portion packets or sachets which seal the condiment between a pair of generally planar sheets of material. See, for example, U.S. Pat. No. 3,315,801. One or more weakened zone may be provided to simplify the act of opening the packet to access the condiment contained therein.
Condiment packages having a generally rectangular receptacle portion covered with a substantially planar sheet have been long known also. See, for example, U.S. Pat. No. 2,705,579. Such condiment packages were later provided with breakaway corners and exposed corners for the covering material, thereby providing different access means for the condiment packaged therein. See, for example, U.S. Patent Application Publication Nos. 2003/0183637, and 2002/0100760.
Packages for varied products are also known where the receptacle portion has a generally frustoconical shape with a spout at one side. See, for example, U.S. Pat. Nos. 2,898,003, 3,660,960, and 4,863,036. Typically, receptacles having this configuration have been used for relatively low viscosity products such as milk and cream.
Squeezable packages for products are also known where the package has a spout at one end and the forming materials are weakened in the vicinity of the spout to permit access to the contents thereof. See for example, U.S. Pat. Nos. 5,529,224, 4,921,137, and WO 2007/126817.
Containers for liquids have also been proposed which permit dual access modes. For example, one mode allowing squeezing for product removal and another mode allowing dipping for product removal. See, for example, U.S. Patent Application Publication No. 2006/0278562 (commonly owned, the entire contents of which are incorporated herein by this reference thereto). It has been proposed to use different opening methods where the product has different consistencies. See, for example, Fr. Patent No. 2,801,570. Moreover, various designs for containers which permit the varied kinds of access have also been disclosed. See, for example, U.S. Patent Application Publication No. 2007/0164045.
Notwithstanding the development of condiment containers, a number of difficulties are known to exist with available containers. More particularly, during use, the containers tend to be messy making them imperfect for use by children, and for use in vehicles when provided at drive-thru food sources. In addition, in recognition of environmental concerns, some retailers impose restrictions on the types of materials that may be used in products sold or otherwise provided through their retail outlets. When dealing with individual portion sizes of condiments, shelf-life stability for the condiments therein becomes important to maintain wholesomeness of the condiments. That stability may result from a variety of factors including for example permeability of container materials to oxygen.
Other shortcomings include difficulties encountered by a user when trying to insert his/her finger between a peelable cover and a flange of a container, when trying to peel-off the cover. The bonded relationship between the cover and the flange makes it difficult to properly grasp the cover.
Moreover, it is desirable to package condiment containers in closely arranged compact relationship for shipment, but the configuration of the containers often makes this difficult to achieve.
For purposes of this invention, the word “condiment” should be interpreted broadly so as to include substances used to enhance larger food portions. Thus, as used in this application, “condiment” is intended to cover traditional condiments such as ketchup, mustard, mayonnaise, tartar sauce, and the like, as well as to encompass, without limitation, other comestibles such as sauces, jellies, jams, honey, and the like.
The improved condiment container according to this invention includes a cover portion and a container portion. The container portion preferably includes a receptacle proportioned to receive a predetermined volume of a condiment. Typically, the predetermined volume corresponds to the quantity of the condiment that a consumer may personally use during consumption of a meal.
Preferably, the receptacle of the container portion includes a generally planar bottom surface with a nominal length and a nominal width. The bottom surface provides a stable surface to support the condiment container during certain aspects of its use by a consumer. The receptacle also has a nominal depth selected in relation to the nominal width and nominal length to provide a receptacle that is low, wide, and stable against lateral tipping when a food item is thrust or poked into the receptacle.
The container portion preferably includes a flange extending substantially continuously around the receptacle. Preferably, the flange is generally planar, is spaced from the generally planar bottom surface, and parallel thereto. At one side of the receptacle and at the position of the flange, a spout is provided. The spout has cross-sectional area which is smaller than the cross-sectional area of the opening at the upper edge of the receptacle. In this manner, access to the condiment through the spout is much more restricted that access to the condiment through the upper edge of the receptacle.
Preferably, the container portion is fashioned from a material having a first bending stiffness sufficient that the receptacle retains its shape, even in the absence of the cover portion. Moreover, that first bending stiffness is also sufficient to ensure that the flange will retain its shape and orientation relative to the receptacle, even in the absence of the cover portion. To this end, container portion may be fabricated from a material selected from the group consisting of polyethylene terephthalate (PET), amorphous polyethylene terephthalate (APET), oriented polyethylene terephthalate (OPET), metalized polyethylene terephthalate (MET-PET), polyethylene (PE), low density polyethylene (LDPE), linear low density polyethylene (LLDPE), metalocene linear low density polyethylene (mLLDPE), high density polyethylene (HDPE), metalocene polyethylene (mPE), ethylene vinyl acetate (EVA), polypropylene (PP), metalized oriented polypropylene (mOPP), polystyrene (PS), high impact polystyrene (HIPS), foil, ethylene vinyl alcohol (EVOH), polyamide, Nylon, polyvinyl chloride (PVC), biaxially oriented materials, materials complying with 21 C.F.R. Part 177, and combinations thereof. While the container portion may comprise a single layer of material, the container portion may also be fabricated of multiple layers bonded, coextruded or otherwise formed together into a cohesive structure, where one or more of the layers is selected from the group of materials set forth above. Regardless of the particular composition used for the lid portion, all surfaces of the lid portion which face the receptacle are required to be food-safe.
The thickness of the container portion may preferably lie in the range of about 3 mils to about 20 mils—a mil being 0.001 inches. Depending upon the particular material and the thickness selected, it may also be desirable to further stiffen the bottom surface of the receptacle. Such stiffening may be accomplished by embossing a three-dimensional pattern into the bottom surface, thereby increasing its bending stiffness. A logo may be used to provide that three-dimensional pattern, if desired.
The cover portion is substantially planar and preferably is configured to have a perimeter substantially the same as the perimeter of the container portion. Moreover, the cover portion substantially covers the flange of the container portion. The cover portion, however, is preferably fabricated from a material having a second bending stiffness, where the bending stiffness of the cover portion is lower than the bending stiffness of the container portion. This difference in stiffness causes the cover portion to be more flexible and more readily separable from the container portion along the flange.
The material from which the cover portion is fabricated may be the same as, or different from, the material used for the container portion. Accordingly, the material of the cover portion may be selected from the group consisting of PET, APET, OPET, MET-PET, PE, LDPE, LLDPE, mLLDPE, HDPE, mPE, EVA, PP, mOPP, PS, HIPS, foil, EVOH, polyamide, Nylon, PVC, biaxially oriented materials, materials complying with 21 C.F.R. Part 177, and combinations thereof. Typically, the thickness of the cover portion will lie in the range of about 1 mil to about 5 mils. While the cover portion may comprise a single layer of material, the cover portion may also be fabricated of multiple layers bonded, co-extruded or otherwise formed together into a cohesive structure, where one or more of the layers is selected from the group of materials set forth above. Regardless of the particular composition used for the lid portion, all surfaces of the lid portion which fact the receptacle are required to be food-safe.
To hold the cover portion and the container portion together in a condiment package, an adhesive is preferably positioned between the cover portion and the container portion, in the flange area, and surrounding the top edge of the receptacle. The adhesive preferably is a food-grade adhesive and may be conventionally cured, for example, thermally, electromagnetically, or time cured. Preferably, the adhesive is integral with the cover portion and/or the container portion. Application of heat and pressure can be used to cause the adhesive to bond the cover portion and/or the container portion. Alternatively, adhesive may be applied around the receptacle of the container portion in a separate step. Preferably the adhesive is applied such that the adhesive defines a non-bonded region in alignment with the spout, although the adhesive otherwise surrounds the spout. If desired, pressure may be applied to assure that the adhesive bonds the cover portion and the container portion so as to define a sealed compartment defined by the receptacle and the cover portion. Moreover, the adhesive is applied such that an non-bonded region exists between the lid portion and the flange of the container portion in general alignment with the spout.
Preferably, the non-bonded region is located opposite the spout and at the periphery of the container assembly. The non-bonded region is operable to define a lift tab at an edge of the lid portion. The lift tab is graspable so that it can be pulled away from the flange of the container portion so as to expose the receptacle and the contents thereof. Moreover, the adhesive is applied such that a peel-initiating region, such as a substantially angular region, partially defines an edge of the non-bonded region. The peel-initiating region is engaged as the lid portion is pulled by the tab from the container portion before the lid portion engages the full linear extent of the adhesive extending from side to side of the receptacle, and offers reduced resistance to separation between the lid portion and the container portion of the assembled package. For example, the required opening force may lie in the range of 1 to 5 lbs. Depending upon the opening scheme desired, the non-bonded region and the peel-initiator may be positioned in alignment with the spout or on the opposite side of the receptacle. Regardless of the position, when the lid portion is peeled back away from the container portion, the receptacle is exposed so as to be available for dipping a food item in the condiment.
Preferably, wherein at least one section of the flange in the non-bonded region is bent downwardly away from the cover portion to form therebetween a finger-access gap for facilitating manual gripping of the cover portion.
For access to the spout, a weakened area is preferably positioned so as to be transverse to the spout. The weakened area may be provided by mechanically cutting or fracturing the package materials in the vicinity of the spout. The weakened area may be fashioned by cutting the lid portion and the container portion so that a pair of aligned slits straddle the spout. Alternatively, the weakened area may be provided by laser scoring either the lid portion or the container portion or both. The end of the assembled container may then be broken away along the weakened area to expose the spout. By then squeezing the assembled container, the condiment will be released through the spout in a controlled manner.
In the assembled package, the adhesive preferably has sufficient strength that the container will resist bursting when subjected to a force of 50 lbs. or greater, and preferably when subject to a force of 70 lbs. or greater.
If desired, the container assembly may be adapted for attachment to the sidewall of a paperboard container. To this end, a pair of slits may be provided in the container and extending through both the lid portion and the container portion, where the slits are symmetrically disposed and cooperate to define a pair of ears. The ears can be bent out of the plane of the flange to define an angular (when viewed from the side) hook. Resilience of the materials used to fabricate the lid portion and the container portion cooperates to pinch an edge of the paperboard container. To further enhance the grip between the ears and an associated paperboard container, the surface of each ear may be suitable treated. For example, a tacky coating, or a roughened surface may be provided for such a purpose.
If desired, either or both of the lid portion and the container portion may include an oxygen control barrier or an oxygen scavenger layer. Such a barrier layer can be helpful to reduce or eliminate degradation of the condiment packaged in the container assembly. If desired, either or both of the lid portion and the container portion may be opaque. Opaqueness may enhance the packaged product where exposure to light degrades the product over time.
When the condiment packaged in the container is ketchup, the materials for the lid portion and the container portion are preferably selected such that the packaged condiment will have a shelf-life of at least about six months. One technique for evaluating shelf-life involves use of a colorimeter operating in the L*a*b* color space. Shelf-life may be evaluated by monitoring degradation of the color components of the packaged product according to measurements in that color space. For example, shelf-life may be determined by requiring that the L* and/or the ratio of a*/b* does not degrade more than a specified amount during the specified period, e.g., by less than 10% over a six-month period.
Preferably, at least one section of the flange in the non-bonded region between the cover and the flange is offset downwardly away from the cover portion to form therebetween a finger-access gap for facilitating manual gripping of the cover portion.
The sidewall preferably includes a front portion disposed below the spout at a location offset from a discharge end of the spout. An upper section of the sidewall front portion extends downwardly with respect to the spout and is configured to prevent the spout from being displaced upwardly in response to the upper section of the sidewall front portion being contacted by the rear portion of the flange of another container when a plurality of the containers is assembled in a package. That is preferably accomplished by orienting the upper section of the sidewall front portion substantially perpendicularly to the plane of the flange. Thus, a plurality of the containers can be disposed in partially overlapping relationship in a package or shipping container, with their spouts in alignment, and with a rear end of the flange of one container contacting the upper section of the sidewall front portion of an adjacent container, without causing the spout of that adjacent container from being displaced appreciably upwardly.
Many objects and advantages of the present invention will be apparent to those skilled in the art when this written specification is read in conjunction with the appended drawings wherein like reference numerals are applied to like elements and wherein:
Turning now to
The lid portion 24 is preferably fabricated from a material selected from the group consisting of polyethylene terephthalate (PET), amorphous polyethylene terephthalate (APET), oriented polyethylene terephthalate (OPET), polyester (PE), low density polyester (LDPE), linear low density polyester (LLDPE), metalocene linear low density polyester (mLLDPE), high density polyester (HDPE), metalocene polyester (mPE), ethylene vinyl acetate (EVA), polypropylene (PP), high impact polystyrene (HIPS), foil, ethylene vinyl alcohol (EVOH), polyimide, Nylon, polyvinyl chloride (PVC), and combinations thereof. Where foil is used, that foil may be an aluminum foil, or other metal foil. Typically, the thickness of the lid portion 24 will lie in the range of about 1 mil to about 5 mils. More preferably, the lid portion 24 may have a thickness in the range of about 1 mil to about 3 mils. The thickness of the lid portion 24 is selected to be more flexible than the cup portion, to have sufficient tensile integrity that the lid portion 24 can be pulled away from the cup portion overcoming the tackiness of the adhesive, and to have a surface texture that is graspable but not too slippery. The lid portion 24 preferably has a peripheral contour that substantially corresponds to the perimeter of the flange 26.
While the lid portion 24 may comprise a single layer of the selected material, the lid portion 24 may also be fabricated of multiple layers bonded, co-extruded or otherwise formed together into a cohesive structure, where one or more of the layers is selected from the group of materials set forth above. Regardless of the particular composition used for the lid portion 24, all surfaces of the lid portion 24 which face the packaged condiment are required to be food-safe. If the condiment to be packaged experiences oxygen degradation over time, the lid portion 24 may include an oxygen control layer or an oxygen scavenger layer in its structure. One suitable material for an oxygen control layer is EVOH which can function not only as an oxygen barrier but may also function as a moisture barrier. Depending on the condiment, the material from which the lid portion 24 is fabricated may be transparent, translucent, or opaque. Moreover the material may be colored, if desired.
While the combinations of acceptable material combinations for the lid portion 24 is large, the following table identifies some combinations known to be useful for the lid stock.
The cup portion 22 (see
When the lid portion 24 is in place, that symmetry of the cup portion 22 coupled with the inclined surface 34 and the lid portion 24 creates a funnel or converging cross-sectional area at the side of the receptacle so that the funnel communicates with the spout 38. Thus, the spout 38 exhibits a cross-sectional area that is much smaller than the area exposed at the top edge of the receptacle 34 (see
The cup portion 22 (see
In some applications, it may be desirable to have a bottom surface 32 (see
In general, the material from which the cup portion 22 is fabricated may be selected from the same group of materials available for the lid portion 24, namely the group consisting of PET, APET, OPET, MET-PET, PE, LDPE, LLDPE, mLLDPE, HDPE, mPE, EVA, PP, mOPP, PS, HIPS, foil, EVOH, polyamide, Nylon, PVC, biaxially oriented materials, materials complying with 21 C.F.R. Part 177, and combinations thereof. Where foil is used, that foil may be an aluminum foil, or other metal foil. Typically, the thickness of the cup portion 22 will lie in the range of about 3 mils to about 20 mils. More preferably, the cup portion 22 may have a thickness in the range of about 8 mils to about 12 mils. The thickness of the cup portion 22 is selected to be less flexible than the lid portion 24 so that the lid portion 24 can be pulled away from the cup portion 22 overcoming the tackiness of the adhesive.
As with the lid portion 24, certain combinations of the materials for the cup portion 22 have been found to be particularly suitable, as set forth in the table below.
The receptacle of the condiment container 20 is preferably sized to contain a suitable individual serving of the condiment, for example, a nominal volume of about one ounce. While larger and smaller nominal volumes are within the scope of this invention, the nominal volume will generally correspond to the quantity of the particular condiment desired by a typical individual. As seen in
Another important feature of the cup portion 22 is lateral stability against tipping. Furthermore these nominal dimensions can be used to establish guidelines that provide adequate tipping stability. More specifically, the ratio of the nominal height to the nominal width is preferably less that about 0.5, and more preferably less than about 0.45. In addition, the ratio of the nominal height to the nominal length is preferably less that about 0.3, and more preferably less than about 0.26. When the receptacle of the cup portion 22 has nominal dimensions within these ranges, the receptacle is sufficiently stable that it does not tip when a food item is dipped in the condiment contained therein.
The lid portion 24 and the cup portion 22 are sealed together using a food-grade adhesive so as to define an encapsulated volume isolated from the environment. One technique for accomplishing the seal is to include a heat-sealable layer on the inside of the lid portion 24 and on the inside of the cup portion 22. Upon application of heat and pressure applied to the flange 26, the adjacent surfaces bond together forming the appropriate seal surrounding the periphery of the edge 40 of the receptacle. Alternatively, a suitable food-grade adhesive compatible with the materials of the container may be used. The adhesive is preferably applied so as to surround the edge 40 of the receptacle (see
The adhesive preferably extends to the peripheral edge 50 of the flange 26, but provides an non-bonded region 52 at one side of the receptacle. That non-bonded region 52 extends inwardly along the flange 26 from the peripheral edge 50 of the flange by a distance sufficient that a pull-tab portion 54 (see
From the foregoing discussion, it will be apparent to those skilled in the art that the tab 54 can be grasped to pull the lid portion 24 away from the flange 26 of the cup portion 22 to expose the receptacle and its contents. Such a step would prepare the container for dipping a food item into the condiment. However, a different opening scheme is also available with the container of this invention. More particularly, the container may be provided with a weakened region in the vicinity of the spout 38 for the purpose of opening the spout 38 as an alternative to removal of the lid portion 24. The weakened region may, for example, comprise a pair of aligned slits 60, 62 in the vicinity of the spout 38. The slits 60, 62 are aligned with one another and straddle the spout 38. The slits 60, 62 may extend through the thickness of both the lid portion 24 and the cup portion 22. With this arrangement, the distal end of the container 20 can be bent to fracture the material of the container and expose a channel through the spout 38 into the receptacle. At that point application of pressure to the receptacle will cause the condiment to be expelled through the spout 38 in directionally controlled and defined way.
The aligned slits 60, 62 can be applied to the container before, during, or after assembly of the condiment container 20. However, an efficient mechanical way of creating the aligned slits 60, 62 is to form them at the same time that the lid portion 24 is applied to the cup portion 22 and adhesively connected thereto. Alternatively, a laser scoring process may be employed to weaken the container around the spout 38 so that an end of the container can be snapped or twisted off to expose the end of the spout passage.
The materials selected for the lid portion 24, the cup portion 22, and the adhesive are preferably chosen so that the condiment has a desired shelf life. In the case of a condiment such as ketchup, a shelf-life of at least six months is desirable. With condiments like ketchup, shelf-life can be evaluated by changes in the color characteristics of the condiment. Testing for shelf-life can, therefore, be conducted using colorimetric analyses. The Hunter Lab color space and the L*a*b* color space use three coordinates to define any particular color. For example, in the L*a*b* color space, the coordinates L*, a*, and b* define the three-dimensional color space. The L* component measures lightness and correlates particularly well with human eye perceptions. The L* value ranges between 0 corresponding to pure black and 100 corresponding to pure white. The a* coordinate measures the color position between red/magenta and green, with negative values indicating green and positive values indicating magenta. The b* component measures the color position between yellow and blue, with negative values indicating blue, while positive values indicate yellow. Accordingly, changes in ketchup color over time can be evaluated by the value of and changes in the value of the L*, a*, and b*, or L, a, b components. For purposes of shelf-life analysis, it has been found that the lightness component, L* or L, provides a reliable parameter to correlate with shelf-life. More particularly, as long as the L* component value remains within about 10% of its initial value, during the shelf-life, the shelf-life requirement is satisfied. In addition, the ratio of a*/b* or a/b is also indicative of product degradation. Thus, in some instances, satisfactory shelf-life may be determined when the L* (or L) component and the a*/b* (or a/b) ratio remain within about 10% of their initial values, respectively. Other condiments for which color changes over time can also be colorimetrically evaluated for shelf-life using one or more of the L*a*b* color space components.
An alternative embodiment of the invention is shown in
Yet another embodiment of the invention includes a pair of peel-initiator structures in the adhesive bonding between the lid portion 24 and the cup portion (see
To assemble the condiment container 20, the cup portion 22 may be exposed to a dispensing mechanism that deposits a metered volume of condiment 70 (see
In another embodiment of the condiment container 20 (see
In a further embodiment (see
It is also within the purview of this disclosure that only one peel-initiator be used and that that peel-initiator be located at a corner of the condiment container offset from the plane of symmetry. Such a container may look like the embodiment of
To use the condiment container 20, (see
Yet another embodiment of the condiment container 20 (see
To open the condiment container 20, the tongue 86 of the lid portion 22 (see
Another embodiment of the condiment container 20 (see
In use, the condiment container 20 of this embodiment provides an additional convenience feature (see
If desired, the surface of each ear 96, 98 may be treated to enhance frictional engagement with a package 100. For example, the surface of the ears 96, 98 could be roughened relative to other surfaces of the container 20, or may have a low tack adhesive applied to at least a portion thereof.
The shape of the receptacle in the cup portion may be generally pentagonal as depicted in the embodiments described above, but may also have other desired shapes. For example, generally rectangular, generally square, generally triangular, generally polygonal, oblong, generally elliptical, and other shapes for the receptacle are all within the scope of this disclosure. For example, another embodiment of the condiment container 20 may include a generally cylindrical receptacle 110 (see
To make a container in accordance with this disclosure, the material for the cup portion is typically provided in a roll. That roll of material is unwound into a forming device as a substantially continuous sheet where a plurality of receptacles are formed. Typically, the receptacles may be formed in a row having two to about twelve or more receptacles therein, thereby forming a sheet with receptacles in straight transverse rows and straight longitudinally extending rows running in the direction of the length of the sheet unwound from the roll.
The sheet with formed receptacles then advances to filling apparatus. In that filling apparatus, the desired condiment is deposited in the receptacles through a conventional metering device to control the quantity and volume of condiment for each receptacle. Ordinarily, there is a filling head for each longitudinal row of receptacles in the sheet. Moreover, these filling heads may supply the same condiment in each of the longitudinal rows. However, if desired, it is within the scope of this disclosure that adjacent fill heads may deliver different condiments so that different condiments are filled in the receptacles of adjacent longitudinal rows of the sheet.
Next, the sheet with filled receptacles is flushed with gas compatible with the product and helpful in retarding product degradation. At this point a second sheet of material for the lid portion is unrolled and advanced into overlying relationship with the receptacle sheet where it is sealed into position with respect to each of the receptacles.
The filled, covered, receptacles in the substantially continuous sheet then advance to a die cutting machine where individual containers are cut from the continuous sheet. Conventional accumulation, packaging, palletizing, storing, and shipping of the individual containers then occurs.
A seventh preferred embodiment of the container 20 is depicted in
An additional advantageous feature of the seventh embodiment shown in
In order to enable the tops of the containers, i.e., the cover portions 24 and the flanges 26, of all assembled containers to lie in substantially parallel planes for compact handling, the front portions 36a of the container sidewalls 36 are configured to prevent the respective spouts 38 from being displaced, or cammed, upwardly in response to the sidewall front portions being contacted by the rear portions of longitudinally adjacent containers. Preferably, the upper section of the sidewall front portion 36a is arranged to extend downwardly relative to the respective flange 38 in a direction which is substantially perpendicular to the plane of the flange, as shown especially in
Thus, by being arranged substantially perpendicular to the plane of the flange 26, the upper section of the sidewall front portion 36a will not displace the spout 38 upwardly to any appreciable extent in response to being contacted by the rear portion of another container. That ensures that the containers can be assembled tightly together in overlapping relationship, with the container tops disposed in substantially parallel planes. An alternative way of preventing the spouts from being displaced upwardly involves inclining the upper section of the sidewall front portion 36a in a downward/forward direction relative to the flange, but it is preferable to achieve this result by orienting the upper section substantially perpendicular to the plane of the flange.
As can be seen in, e.g.,
The lid portion 24 and the container portion 22 of the embodiment according to
The eighth embodiment, depicted in
Turning briefly to
Suitable equipment for making the score line 110 includes the VideoJet 3320 laser scoring system, operating at a power setting in the range of about 80% to about 100%. The VideoJet 3320 is a 30 watt system. Preferably, the mark speed lies in the range of about 90 to about 225 mm/sec. The VideoJet 3320 is available from Videojet Technologies Ltd., Huntingdon, Campridgeshire PE29 6XX, United Kingdom.
The seal 112 between the cover and the container bottom may be patterned as depicted in
In some applications it has been observed that resistance to separation between the container top or lid and the container bottom increases in the vicinity of the spout. That resistance appears to be the result of increasing width of the seal transversely of the spout in the region 114 of the container (see
For some uses of the containers according to this invention, it may be desirable to deploy multiple containers joined together so as to be separable, for example by perforations or some other frangible connection or attachment. To that end, containers may be laterally joined to one another so as to be detachable from one another without rupturing the containers. Such assemblies of multiple containers may include two, three, four, five, or more containers in a strip-like arrangement. Furthermore, two such strip-like arrangements may be connected along the container back ends or edges to provide plural generally parallel strips in an assembly of containers. If further desired, hooks, eyes, or other mounting devices may be attached to the container assemblies to further enhance product display.
While the container described herein is suitable for packaging condiments, it will also be apparent to those skilled in the art that the container has myriad other potential uses and/or applications. For example, and without limitation, containers according to this invention may be used for condiments, sauces, dairy products, soups, pharmaceuticals, paints, powders, liquids, particulate materials, as well as any other product or material for which It may be desirable to have both metered and unmetered access. Expressed differently, the container may be used for any edible material. A suitable edible product or material may be selected from the group consisting of a condiment, a soup, a sauce, a dairy product, a liquid, and combinations thereof. The container may also be used for products or materials selected from the group consisting of a pharmaceutical, a pain, a powder, a liquid, a particulate material, and combinations thereof. Similarly, those skilled in the art will further appreciate that the container can be scaled up or down as needed to provide the appropriate volumetric capacity.
The container can be fabricated using various manufacturing techniques. For example, the container portion may be fashioned using deep draw processes, vacuum forming, or the like. Other available manufacturing processes may provide container walls with features that are corrugated, undulating, bellows-like, ribbed, and/or the like. Such wall features may extend in the longitudinal direction or transversely thereto, as may be desired.
Some applications may also include reclosable ends for the spout and/or a valving arrangement for the spout. It is also contemplated that the material selected for use in the container of this invention may be selected from the group of consisting of recyclable materials, and/or may be selected from the group consisting of sustainable materials.
The word “about” is used in connection with numerical values at various locations throughout this specification with the intent of avoiding mathematical precision for those numerical values. Accordingly, when the word “about” is used in connection with a numerical value or range of values, it is intended that the word “about” should be interpreted as including a tolerance of ±10% around the stated numerical value. To similar effect, the words “generally” and “substantially” are used throughout this specification in connection with various geometric words, terms, and/or phrases. The intent of the words “generally” and “substantially” in such a context is to avoid strict geometrical definitions, to encompass structures which approximate the geometrical definitions, and to include features that are not precisely met by the related terms and/or phrases.
Moreover, it is expressly intended that this invention be interpreted so as to be consistent with all parts of this specification. Thus, the summary, abstract, drawing description, and the like are not intended to be limiting but are intended to summarize some, but not all, features, or to provide an overview of the entire specification, or of a particular drawing.
It will now be apparent to those skilled in the art that this specification describes a new, useful, and nonobvious condiment container. Moreover, it will be apparent to those skilled in the art that numerous modifications, variations, substitutions, and equivalents exist for the various features of the invention described in the appended claims. Accordingly, it is expressly intended that all such modifications, variations, substitutions, and equivalents which fall within the spirit and scope of the invention, as defined in the appended claims, be embraced thereby.
This is a continuation-in-part of concurrently filed U.S. application Ser. No. 12/766,091 (Attorney Docket No. 1011525-000519) naming the same inventive entity. Both the concurrently filed application and the subject continuation-in-part application claim the benefit of the Apr. 23, 2009, filing date of Provisional Application No. 61/202,968.
Number | Date | Country | |
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61202968 | Apr 2009 | US |
Number | Date | Country | |
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Parent | 12766091 | Apr 2010 | US |
Child | 12766164 | US |