JP2000512960A - Flexible, collapsible, self-recoverable storage bags and containers - Google Patents

Abstract

SUMMARY OF THE INVENTION The present invention relates to at least one flexible sheet material assembled to form a semi-closed container having an opening defined by a hinged peripheral flange (31). A flexible storage bag (10) comprising a seat is provided. The hinged flange includes closure means for sealing the opening to convert the semi-closed container into a closed container. When the bottom rests on a horizontal surface, the container is free standing and keeps the opening open. The present invention also includes an integral continuous tubular side wall having a first open end and a second open end and defining an axial direction extending through the first and second open ends. Provide a container (101) that is collapsible, stackable, and self-recoverable. The tubular side wall is foldable in response to an externally applied force being applied in its axial direction, and is self-restorable when the force is removed. A lid (401) attached to the tubular side wall for selectively converting the semi-closed container to a closed container completes the storage container, and closing means are provided to seal the lid to the tubular side wall.

Description

DETAILED DESCRIPTION OF THE INVENTION       Flexible, collapsible, self-recoverable storage bags and containers                                Field of the invention     The present invention includes flexible storage bags and containers, especially perishable materials. Pertinent to use for the inclusion and protection of a wide variety of items. Book The invention further provides for the inclusion and protection of items contained therein under a wide range of conditions of use. Flexible storage bags and containers having improved sealing for Has to do with.                                Background of the Invention     Inclusion and preservation of a variety of items, as well as storage of perishable materials such as food Flexible storage bags for use in protection are well known in the art. like this Bags typically fold over themselves and seal along two edges Two flexible opposed side walls, three sealed or folded edges, And a rectangular polymer fill forming a semi-closed container having one open edge Equipped with Formed integrally with the bag like an interlock rib type seal Or plastic or paper-clad wire ties (paper- A separately provided closure, such as a clad-wire tie, Complete the assembly.     As used herein, the term "flexible" is particularly repetitive. Can be deflected or bent and therefore applied externally Used to refer to materials that are flexible and deflectable in response to force. Therefore , "Flexible" means substantially non-flexible, rigid, or non-flexible In the opposite sense. Therefore, flexible materials and structures absorb external forces, To conform to the shape of the objects that are in contact with them without losing their integrity, It may be modified in shape and structure. The various flexible storage bags are typical Has about 0. 0002 inches and approx. Between 002 inches thick, polyethylene Or formed from a polymer film, such as another element of the polyolefin series. This Films like Often transparent, Opaque and / or colored There may be.     Various flexible storage bags currently commercially available include: Normal disposable inclusion In the place, It provides a convenient way to store a wide range of objects and materials. Said Although flexible storage bags of some kind have had considerable commercial success, Its mechanical closure Depends on children, Old man, Individuals with impaired hand dexterity, such as arthritis patients Man tends to have difficulty in operation. further, Such mechanical closure The chains are Typically, For people with visual impairment or impaired hand-eye coordination Operations that may prove difficult require adjustment of mechanical elements I do. Many mechanical closure mechanisms Liquid or gas leaks into or out of bag Provide a leak site at a location, such as the end of an interlocking channel, which may be.     In an attempt to address this issue, To combine the areas located on the bag Alternative closure mechanisms have been developed that rely on a strip or area of adhesive for the closure. this These closures use a separate closure element, In interlocking mechanical elements Address some of the difficulties of Some attachment closure mechanisms include: Glue too early Requires a peelable liner to protect from actuation, Therefore, before use Additional elements to the assembly, And additional operating steps. further, Some protection The adhesive composition that has been Must be properly aligned to engage adhesive Interlock groove, which must be Channel, Or need a protrusion, Therefore again Raise the visual and coordination requirements of conventional mechanical closure mechanisms.     Such a flexible storage bag, Normal, Extremely efficient for storage before use But For many preserved states, Blocked in the bag after closure, filling Minimize the storage space of the bag that has been In the storage of perishable items Help the effectiveness of the bag, Air and / or on or around the contents It is desirable to minimize the amount of free space. Depending on the type of closure mechanism used Regardless of In many cases, Close the bag only partially, Blocked before closing To discharge the air This is again a certain amount of hand dexterity and visual You need a good fitness, This is difficult with conventional flexible storage bags.     Also, Conventional flexible storage bags A flexible or sagging bag The other hand operates another container, Pour the contents into a bag, Put in bag Stripping items to be Cut or So that you can arrange At most one There are also inherent difficulties in being able to hold open with only hands Let it. Also, Ensure that the bag opening is properly (usually upright) during such filling operations. Is also difficult to maintain. Rigid container and container with sagging reinforcement opening perimeter Vessels have been developed for such applications, Its relatively high price and limited For economical disposability There is room for improvement. Container or bag Despite the problem of maintaining the opening in the open state, Don't use easy hands (Hands-free) Flexible with the above attributes to facilitate filling But, There remains a need for a container that supports itself. On the other hand, Promote disposability To proceed Flexible storage bags made of cheaper materials include: Scripture Typeically, Lack of structure required for stable stacking of bags after filling.     For rigid or semi-rigid containers, Such containers, Store various contents Recognition of considerable commercial success in providing the means to Have been. Such containers are Typically, Keep open for filling Has an opening, Typically, Freestanding with openings in proper orientation for filling . In such containers, In many cases, Stackability Are provided with a flat bottom and top. However, this Such containers are Typically, As the disposability is limited, More expensive materials It is composed of At the same time The useful life of such a container is damage, Spots, Ma Or degradation of typical mechanical closure mechanisms, Inferior naturally occurring during other uses Is limited by Such a three-dimensional rigid or half-rigid volume when empty The preservation of the vessel As much volume as they occupy when filled To occupy the sky, One concern. Its relatively fixed volume structure , Minimize the amount of air or free space above or around the contents , Minimize the storage space of filled containers, Containers for storage of perishable items It is also difficult to promote the effectiveness of. Another concern is: Usually a separate lid or closure To The task is to match each container to be used.     Therefore, Combine the desired qualities of both flexible storage bags and storage containers And Flexible protection that minimizes the less desirable quality of both approaches It is desirable to provide storage bags and containers.     More specifically, Flexible storage bag and container with enhanced sealing during use It would be desirable to provide a vessel.     Provide a flexible storage bag to help vent any air that might have been blocked before the closure was completed. It would also be desirable to provide.     further, Can stand alone in the open state for filling purposes, compact Provide such a bag or container that is easily stored by folding It is desirable to provide.     further, Still promotes stable stacking of bags or containers in filled state While moving forward Bag made of inexpensive materials to facilitate disposability Or it may be desirable to provide a container.     further, Provide the attributes in a convenient one-piece format, No need for separate closure Avoid it, It would also be desirable to provide such a bag or container.                                Summary of the Invention     The present invention The opening defined by the peripheral flange connected by the hinge Small amount of flexible sheet material that is assembled to form a semi-closed container A flexible storage bag comprising at least one sheet is provided. Hinged The connected flange is Seal the opening to turn a semi-closed container into a closed container Includes closure means for The bag is Sheet material extending perpendicular to the opening At least one set of opposing gussets formed in the material; To the opening A substantially flat bottom extending in a substantially parallel direction; Contains. Water bottom When placed on a flat surface, The container is self-supporting, And keep the opening open You.     The present invention also provides Opening and And an opening to change the semi-closed container into a closed container Closing means for sealing; To provide a flexible storage bag having: Closing means Is A first side facing inward toward the opening and a second side facing out of the opening A piece of material forming at least a portion of the periphery of the opening having a surface. . The first aspect is Greater than the adhesive release force shown before actuation by the user, User 4 shows the adhesion and peeling force after the operation according to FIG.     The present invention also provides A first open end and a second open end; And an axial direction extending through the second open end. One piece continuous tubular side Equipped with walls, Crushable, Stackable, Provide a self-restoring container. No. 1 Open end A substantially continuous outwardly extending flange forming the periphery Have. The tubular side wall is Loaded from outside that is loaded in its axial direction Can be crushed according to the force Self-healing when power is removed. Container further, One end of the tubular side wall integrally formed with the second open end of the tubular side wall A bottom panel to close the container to form a semi-closed container. Select semi-closed container as closed container A lid attached to the tubular side wall to selectively change completes the storage container, And the lid Closing means are provided to seal the to the tubular side wall. The closing means Towards the opening Having a first side facing inward and a second side facing out of the opening. A piece of material forming at least a portion of the peripheral edge, The first aspect is Greater than the adhesive force shown before actuation by the user, User actuation Shows the adhesive peel force shown after.     The present invention also provides Two opposing side walls, Two opposing end walls between the side walls, And A semi-closed container body having a bottom panel closing one end of the container body. Crushable, Foldable, Stackable, And provide a self-restoring container You. Each of the side walls, A town (gu) extending in a direction substantially parallel to the bottom panel ess). The container also To selectively convert semi-closed containers to closed containers Including a lid attached to the container body. Finally, The container is Seal the lid to the container body Includes closure means for According to the present invention, Side walls and end walls are Towards each other Can be folded inside, The container is The side and end walls are folded While substantially independent while in the absence of Perpendicular to lid and bottom panel Can be collapsed in any direction.     The present invention also provides Opening and Seal the opening to turn a semi-closed container into a closed container Closing means for A storage container having: The closing means Towards the opening An opening having a first side facing inward and a second side facing out of the opening. A piece of material forming at least a portion of the mouth periphery is provided. The first aspect is Use Greater than the adhesive peel force shown before operation by the user, After operation by the user Shows the adhesion and peeling force.     Therefore, The flexible storage bags and containers of the present invention include: Flexible bags and Combine both desirable qualities of the storage container, Provides improved sealing, Before closure Facilitates the ventilation of air trapped in Stand alone in the open state for filling, Con Easily preserved by folding into a compact shape, And promote disposability And one piece of inexpensive material to obviate the need for a separate closure device Can be done, Minimize the less desirable quality of both approaches .                             BRIEF DESCRIPTION OF THE FIGURES     This specification Claims of the invention that are particularly pointed out and claimed separately Has been The present invention will be better understood from the following description taken in conjunction with the accompanying drawings, in which: I believe that. In the attached drawings, Similar reference numbers indicate similar components And put it here:     FIG. A perspective view of a preferred embodiment of the flexible storage bag of the present invention in an open state. Is a diagram;     FIG. 1 of the flexible storage bag of FIG. 1 in a partially closed state after filling A perspective view;     FIG. 1 of the flexible storage bag of FIG. 1 in a closed and sealed state after filling. A perspective view;     FIG. The bag is sealed to provide a flat top surface for stacking 2 is a perspective view of the flexible storage bag of FIG. 1 with additional folds folded;     FIG. 1 is a perspective view of the flexible storage bag of FIG. 1 in a partially folded state. Is;     FIG. Completely folded, Oblique of the flexible storage bag of FIG. 1 in a flat state View;     FIG. 6 similar to FIG. 6 of another flexible storage bag without stiffening panels View;     FIG. Figure 2 is a perspective view of a storage container according to the invention in a closed state;     FIG. 8 of the storage container of FIG. 8 in an open state and partially filled with solids A perspective view;   FIG. 9 is a perspective view of the storage container of FIG. 8 in a sufficiently flat condition;   FIG. Depicting the relationship of the closure to the rest of the container, The edge of the container of FIG. Figure 2 is a partial sectional elevation view of a part;   FIG. Similar to the partial elevational sectional view of FIG. 11, but Draw another container structure And There, the container body and the periphery of the lid are formed as a composite structure , FIG.   FIG. Similar to the partial elevational sectional view of FIG. 11, but Externally applied force Figure 3 is a partial sectional elevational view depicting a partial collapse of the container in response to:   FIG. Similar to the partial elevational sectional view of FIG. Completely crushed FIG. 3 is a partial sectional elevational view depicting the container in FIG.   FIG. Figure 2 is a perspective view of a storage container according to the invention in a closed state;   FIG. The storage container of FIG. 15 which is open and partially filled with solids FIG.   FIG. 15 in the horizontal position in preparation for folding View;   FIG. FIG. 15 in a partially folded and crushed state FIG. 2 is a perspective view of a storage container of FIG.   FIG. FIG. 15 in a fully folded and collapsed state Figure 2 is a perspective view of a storage container;   FIG. With frustoconical projections surrounded by an interconnecting array of materials Discloses a piece of material that Of materials suitable for use as closure means of the present invention. Figure 2 is a plan view of the preferred embodiment;   FIG. Showing a row of protrusions, FIG. 20 is an enlarged partial plan view of the material of FIG. 20; Is;   FIG. The target surface in contact with the outermost edge of the protrusion does not contact the material layer Sea urchin Serves as standoffs for the material layer between the protrusions Indicating a projection that is 22 is a sectional elevational view taken along section line 22-22 of FIG. 21;   FIG. Substantially react to allow the material layer between the protrusions to contact the target surface. As the protrusions are deformed by rolling and / or crushing, Push material to target surface Showing the effect of applying FIG. 23 is an elevational sectional view similar to FIG. 22;   FIG. Shows a preferred dimensional relationship of the protrusions, Standing of the material in FIGS. A plan view; And   FIG. With the belt wrapped around the vacuum drum and drive pulley Showing the forming screen, Suitable for use as a closure in the present invention FIG. 1 is a schematic diagram of a suitable method of making a material.                             Detailed description of the invention     FIG. FIG. 4 shows a presently preferred embodiment of a flexible storage bag according to the present invention; I have. In the embodiment depicted in FIG. The flexible storage bag 10 Franc To form a semi-closed container having an opening defined by a die 31, Occasionally A bar formed from a piece of flexible sheet material that is folded and bonded to itself Including a bag body 20. The flexible storage bag 10 Seal the open end of container 10 Also includes a closure means 30 associated with the flange 31 for As illustrated in FIG. To Form a completely closed container or vessel. The closing means 30 After below As stated, Can be selectively opened, Sealable, And resealable.     In the preferred configuration depicted in FIG. Closing means 30 Flange 3 1 completely surrounds the perimeter of the opening formed. However, Under certain circumstances, (For example, Closure located only along one side of flange 31 Lower degree of enclosure (such as means) ment). May provide adequate closure integrity You. The flange 31 Even if it is formed integrally with the bag body 20, Connect to bag body It may be provided as a separate material element that is combined. Separate, Preferably further When provided as a rigid material element to The bag body material is Flan the bag body In order to form a suitable joint for joining to Corner folds Formed on at least a small peripheral flange at its upper edge (defining the opening) Is currently preferred.     The flexible storage bag 10 A wide variety of materials in the bag body And / or substances Suitable to protect. FIG. Open Depicts a storage bag 10, Where, The flange 31 is opened, Materials and And / or objects can be placed in the bag body of the storage bag 10. Sea urchin The closing means 30 is open. In FIG. Several common solid objects 99 is shown in the storage bag 10.     The flexible storage bag described above with respect to FIG. Commonly available flexible security Offers many advantages compared to storage bags and storage containers, that is, Further use I do not support it by hand to make it easier To facilitate product acquisition and product filling To Includes additional features to allow the bag to assume a self-supporting configuration.   As used here, The term “independent” The direction of gravity Material, which can be maintained in a plane parallel to the direction Structure, Or just mention the container Used for For example, Independent materials, Especially for the sheet material, that is, Gravity Extends upward parallel to the direction, Folded, Maintain its orientation without crushing May be held. Materials that are not self-supporting Typically, Folded And Crushed, They are held so that they extend downward from the point of their support Unless It cannot be held parallel to gravity (ie, "vertically"). Commensurate By the way, A freestanding bag or container is Can maintain that orientation, Face , Folded on itself, Without being crushed Contrary to gravity, It extends upward from the base of its support.     In the preferred embodiment of FIG. The flexible storage bag 110 Two sketches Flat side panels 23, Two generally flat gusseted end panels 21, And one piece Comprising a generally flat bottom panel 50 of Those panels are By the upper flange 31 A semi-closed container having a defined opening is formed. Side panel 23 Including an edge 22 and a bottom edge 26, The end panel 21 Bottom edge 48, and A through hole having a converging base crease 42 and an intermediate crease 46 It usually includes a gusset of conventional design. The shape depicted in Figure 1 The The bag is in its free standing open state. The flange 31 Preferably , In particular, hinge 32 (best seen in FIG. 2) shows flange 31 in FIG. A living hinge that resiliently deflects toward the open shape to be When Hold the open end of the bag in the open state as shown in FIG. Elastic enough to help Stiff The structure of the flexible storage bag is like this And then To facilitate the acquisition and filling of unsupported products, The bag Be able to take a self-sustaining configuration.     As is known in the art, The gusseted bag is Normal, With the least difficulty Easy filling, Provides a freestanding open bag that can be emptied. However, Unlike most traditional gusseted bags, Flexible storage of the present invention The bag is Including selectively operable closure means 130 as described above. Therefore , In addition to being independent, The gusseted flexible storage bag 10 Described here It also provides the desired sealing attributes.     FIG. 1 is in a partially closed condition after the object 99 has been inserted. I am drawing a bag. As shown in FIG. The flange 31 general As is typical of hinges called "active hinges", Of the flange 31 A pair of hinges 32, preferably formed integrally of material, is preferably included. No. The hinge 32 is Preferably, They are For the open configuration shown in FIG. Providing at least a slight deflection, Helps keep containers open and self-supporting It is configured to:     FIG. As is typical of what is shown in FIG. 1, Made inside the bag It depicts a flexible storage bag that is sealed, such as after insertion. Therefore, The middle crease 46 of the town, Pressed inward from the shape of FIG. 1 in a manner similar to FIG. ing. However, The closing means 30 Overlaid area above the closure Areas are joined together by adhesive, Formed by the flange 31 of the bag Safe for opening, Substantially fluid, And forms a vapor-tight seal like, Being operated by the user. To the preferred shape illustrated in FIG. In addition, To ensure complete adhesion of the entire periphery during operation, The closing means Completely surrounds the open end of the bag defined by the flange 31 .     As will become apparent by looking at the sequence of steps depicted in FIGS. , The flexible sheet material used to form the body of the bag is Connect with hinge Movement of the flange, It moves between the open configuration of FIG. 1 and the closed configuration of FIG. As you move, Flexible enough to accommodate, Dent. More specifically, The end panel 21 Outer parts of the flanges (near tab 35) While moving towards The hinge portion of the flange pivots downward toward the bottom panel 50. As you move, Folded on themselves or Flexible enough to crimp There is.     Also, The illustrations in FIGS. Another inherent performance of the flexible storage bag of the present invention The benefits are also shown. More specifically, Peripheral flanges connected by hinges Is The closure means 30 is upright on the axis of the opening of the flexible storage bag, And hula Orientation in a direction perpendicular to the inner wall adjacent to the edge. This orientation is Closing means, Separated from the material inserted into the bag through the opening, Its contamination before use Tends to prevent. At the same time Closing the bag Closing means, From horizontal to vertical , 90 degrees from perpendicular to the axis of the opening to parallel to the axis of the opening, Transition, in fact, Flexible storage Closing the bag, Transition from the closure of the container-like device to the closure of the bag-like device, That It combines both advantages in doing so.     To open the bag of FIG. The user Grab a set of tabs 35, Beside them Pull in opposite directions, The opposite half of the flange 31, Therefore Start separating the closing means 30; You can spread it. Or Of the bag above the closure means (As mentioned earlier, Peripheral edge (preferably partially free of adhesive) Grabbed, May be pulled apart.     FIG. The upper part is Folded substantially parallel to the bottom 50, So cheap A fixed stackable shape is obtained, as a result, Other containers, Products, etc. Of the bag Can be stably placed on top, FIG. 3 is closed, Drawing a sealed bag . again, Due to the flexible nature of the bag body material, Such folding is efficient Executable additional settings for saving. Spaced, Of the prescribed angle is there, Gusseted, The crimped side wall structure Further filling bag Add integrity and stability, Increase stackability during use, Points such as falling But it also adds stability.     In addition to being independent, The gusseted flexible storage bag 10 Easily folded Folded, You can also crush Provides easy storage that takes up minimal space. FIG. Partially folded or Although it is in a crushed state, Shown in FIG. 1 depicts a gusseted flexible storage bag 10 as shown. Therefore, During ~ The intermediate creases 46 are pushed inward toward each other, Side edge 22 Head to each other On the opposite sides of the intermediate crease 46, At base crease 42 in the vicinity Make them parallel. Such a predictable folding feature independent of the closure means Is After closing, it is locked in the bag, Minimal storage space for filled bags Limit, Above the contents that aid the effectiveness of the bag in storing perishable items Or to reduce the amount of surrounding air and / or free space After being It enables the volume of the container to be reduced. FIG. Bottom 50 Folding continues until it is practically parallel to the side, More completely folded 1 shows a gusseted flexible storage bag 110 in an open state. In FIG. Further unity Sex and stability, Attached to the bottom panel 50, which is usually rectangular and planar, Additional installation A constant reinforcement panel 55 is also depicted.     Adding more reinforcement to the bottom panel, Before filling, And increase stability during filling The center of gravity of the empty bag has been lowered, Is filled or Most of the empty Increased rigidity at the bottom of the bag for additional stability in situations, With heavier content The possibility of the bottom of the bag flexing when filled is reduced. Illustrated in FIG. Like Flap forming the bottom panel 50 of the bag body is folded inward Folding, Play a similar role. The reinforcement panel is Material similar to bag material Sometimes it is made from Can be made from more or less durable materials Yes, Secured to the bottom panel by applying glue or other suitable means . When reinforcement panels are used, that is, Further aspects, Bonding, And folds, It They confine the bag contents to the site, Potential for cleaning difficulties Do not add to the inside of a bag, To provide support and reinforcement, Internal table Rather than on the surface, It is presently preferred to be located on the outer surface of the bottom panel.     FIG. Similar to the bag of FIG. 6, but Of any reinforcement panel on the bottom 50 Not drawing a bag. Therefore, In FIG. Seam and fold at bottom 50 The folding structure is clearly visible. Such a folded shape Square or rectangular Conventional folded with a bottom shape, Typical for gusseted bags, Virtually liquid-tight, Glue to provide an airtight bottom structure, By heating seal etc. Properly sealed.     Various compositions suitable for constructing the flexible storage bag of the present invention include: Mainly gender Two-dimensional in quality, Regardless of whether it is formed in a three-dimensional structure, Poly salt Vinyl chloride (PVC), Polyvinylidene chloride (PVDC), Polyethylene (PE) , Polypropylene (PP), Aluminum foil, Coated (waxed, etc.) paper And uncoated paper, A substantially impermeable material, such as a coated nonwoven fabric, And Klim, mesh, Woven cloth, Non-woven fabric, Or perforated or multiple Includes a substantially permeable material such as a porous film. Such materials are Single structure Or with layers, Alternatively, it may include a substrate substance used as a carrier for the substance. Mm It may be a composite structure composed of a plurality of materials. For use in accordance with the present invention Materials that have been found to be suitable for The thickness is 0. 004 inches or 0. 0 06 inches, Huntsman Film Products with manufacturer name X420 (Huntsman Film Products Corp. ) From commercial Including low density polyethylene films.     FIG. 8 depicts a presently preferred embodiment of a storage container 10A according to the present invention. . In the embodiment depicted in FIG. 8, the storage container 10A is preferably one piece. Container body 20A integrally formed from sheet material, and preferably container body It is formed integrally with the body 20A, or at least in the container body with a hinge line 45A. Includes a lid 40A connected by a hinge. The storage container 10A has a lid 40A. And the periphery of the container body 20A is sealed and completely closed as shown in FIG. Closing means located adjacent edge 28A to form a chain container or vessel Also includes 30A. The closing means 30A includes a peripheral portion of the lid 40A and a peripheral portion of the container body 20A. It may include a flange 25A or both. Hinge line 45A is preferably integral Active bristle hinge, arbitrarily cut, perforated, or optional Provide a line of weakness by similarity that allows the lid to separate from the container body May be provided.     In the preferred configuration depicted in FIG. 8, the closure means 30A is A completely surrounds the periphery of the opening formed by A. However, (for example, Hin All parts of the edge 28A except for the part connected by the hinge at the wire 45A Formed by a lower degree of enclosure (such as closure means located along the minute) Closed means may provide adequate closure integrity.     The storage container 10A contains a wide variety of materials and / or Or to contain and protect objects. FIG. 9 shows a storage container in an open state. Depicts container 10A, where edge 28A is opened to retain material and / or objects. The closing means 30A is provided so that the closing means 30A can be placed inside the main body of the storage container 10A. Has been released. In FIG. 9, a plurality of general solid objects 99A are stored in a storage container. Shown in 10A.     The resiliently deformable storage container of the present invention provides the user with more than just product protection. Also provides temporary compressibility for easy and compact storage, where compression containers Tend to self-restore to near their original shape for ease of use. Compressed When not in storage, the storage container is unfolded for easy filling and use. , "Independent" in a restored state.     As used herein, the term "self-supporting" refers to its orientation Refers to a material, structure or container that can be maintained in a plane parallel to the direction Used for For example, free-standing materials, especially sheet materials, are Extend upwards in parallel with the direction of, and maintain its orientation without being folded or collapsed. It may be held to carry. Materials that are not self-supporting are typically folded Or crushed and held so that they extend downward from the point of their support Unless they can be held parallel to gravity (ie, "vertically"). phase Accordingly, a free standing bag or container can maintain its orientation and face Is opposed to gravity without folding or collapsing on itself , Extending upward from the base of its support.     Referring again to FIG. 9, the storage container body 20A is deformable, substantially continuous. Tubing or material loop. Container has a substantially rectangular shape In the exemplary shape depicted, having a side wall portion Forming a substantially continuous side wall comprising 21A, 22A, 23A, and 24A. To achieve. The tube or hoop can be of almost any desired cross-section, but is typically rectangular. You. Regardless of the cross section, the container body forming the semi-closed container preferably comprises a wall, Bottom panels etc. are joined together to facilitate easy removal and cleaning of the contents of the container. There are no interior corners joined together to facilitate. Of the tube forming the tubular side wall One end is left open for access to the interior of the container and has a pivotable lid 40. A can be selectively closed. The other end of the tubular side wall has the same elasticity as the tubular side wall It is closed by a bottom panel 50A, which may be made of a material. Specific good In a preferred embodiment, the container is comprised of a material that is elastically deformable, Relatively thicker, more rigid lids and bottoms, typically oriented parallel to each other It has a section wall.     The elastically deformable package of the present invention maintains its functionality and aesthetic appearance. Can be made from low-cost materials, easy to produce, and You can go through the circle.     Generally, the elastically deformable storage container of the present invention comprises a material having a side wall. Larger sidewall thicknesses may be utilized as the elasticity of the material increases. Conversely, the side wall As the resiliency of the material used to construct decreases, the storage container of the present invention Preferably, the sidewall thickness is further reduced to maximize the elastically deformable properties of the Is used.     As shown in FIG. 10, the intersecting side walls 21A, 22A, 23A , And 24A, the circumferential mounting of the "pleated" drawn along the side wall Externally applied force, as illustrated by the "pleating" effect "F" defines a tube or loop that is easily deformable. Tubular (s) Depending on the nature of the material used for the side walls and the radius of the corner where the adjacent side walls meet , This pleating effect is more or less concentrated on the corners and is further widened (gener aligned), and may be bent or distorted in the middle part of the side wall. This change The shape depends on the thickness of the side walls and the elastically deformable properties of the material comprising the side walls appear. The deforming force “F” is applied to the elastically deformable storage container (the lid 40 in FIG. 10). A) when removed from the top of A) a tube formed by interconnecting sidewalls Or a loop connects the container body 20A, generally as shown in FIGS. Self-restoring toward its substantially original deformed shape, substantially as shown in FIG. Eliminate folds or folds drawn at zero. As used here, The term "self-restoring" refers to a storage that is elastically deformable. When the storage container 10A loses its deforming force, a permanent set Refers to the tendency to return to its original, undeformed state without removing the object. This recovery is The container may not be completely restored to its exact original shape and appearance. But However, unlike the substantially rigid containers of the prior art, elastically deformable storage containers 10A is self-contained to a degree sufficient to at least facilitate continued functional use. Will restore himself. A more detailed description of the self-recoverable container is assigned to Muckenfuhs et al. ) To And provided in US Pat. No. 5,379,879 issued Jan. 10, 1995. The disclosure of which is hereby incorporated by reference into this patent. Incorporated during loading.     Thermoforming is used to produce storage container body 20A and / or lid 40A If only the appropriate mold is prepared, the resulting save at a relatively low price Containers can also have a very decorative effect. For example, texture (t extensions, logos, instructions, etc., all require ancillary printing or marking operations. Rather than requiring, the desired aesthetic appearance and / or integrated trademark identification and / or Or to create a usage description, the container body 20A and / or lid 40A Can be molded into. The torsional forces that may be applied to the storage container Not only by the tube or loop formed by the side walls 21A to 24A Due to the substantially flat and thicker bottom panel and lid torsion resistance respectively Will also be resisted. Therefore, the bottom surface is relatively thick with the side walls 21A to 24A. For both the raw material and the lid, all the forces once applied from the outside are taken from the package. When removed, helps restore the package to substantially its original shape One.     Referring again to FIG. 9, lid 40A, side walls 21A-24A, and elastically deformable. The bottom panel 50A of the shapeable container 10A need not be made from the same material. However, there may be certain advantages to doing so. From a manufacturing perspective The use of similar materials, lids, sidewalls using known techniques such as heat sealing, ultrasonics, etc. , And make the bottom panels easier to join together and cheaper be able to. Furthermore, regarding the recycling of storage containers at the end of their useful life All elements that have a storage container are made of the same material and This eliminates the need to separate components from each other prior to material recovery processing.     FIG. 11 more clearly illustrates the structural relationships between the various components described above. Storage container depicted in FIGS. 8 and 9 taken from side wall 22A It is a partial sectional view of 10A. Flange 25A is integral with bottom panel 50A Is formed integrally with the side wall 22A which is drawn as being formed I have. The lid 40A is integrally drawn. On the other hand, FIG. The central lid panel 42A and may also be formed from a variety of elements if desired. And the lid 40A is illustrated as having the lid frame 44A. The flange 25A is Smaller, preferably, but optionally still integral with bottom panel 50A , But preferably still integral with side wall 22A It is depicted as being formed in a typical manner. However, the outer part of the container body is Currently, it is attached to the flange 25A, and laterally outward from the flange 25A. An extending outer flange 27A is provided. What is also shown in FIG. Provided to increase the rigidity and elasticity of the bottom of the storage container, preferably Further cleaning inside the interior of the container body will cause difficulties in cleaning and emptying Externally provided to avoid creating surfaces and edges Of the reinforcing bottom panel 55A.     Adding additional reinforcement to the bottom panel increases stability before and during filling. Most empty bags have their center of gravity lowered, filled or empty Increased rigidity at the bottom of the bag for additional stability in different situations, and heavier contents The possibility of the bottom of the container being bent when filled with is reduced. The reinforcement panel is In some cases, they are made from materials similar to container body materials, while others are more or less durable. It may be made from a material, which may be applied by gluing or other suitable means Secured to the bottom panel. When stiffening panels are used, they are Folds and folds, which trap portions of the bag contents at the site, making cleaning difficult Supports and reinforces without adding to the interior of the bag, which may cause May be located on the outer surface of the bottom panel rather than on the inner surface to provide Is currently preferred.     What makes tubular sidewall material unique is its ability to construct a container from multiple composite elements Regardless, transparent polymer panels for lid panels, or for flanges and lid frames It allows the use of a wide variety of materials, such as more rigid and elastic materials.     13 and 14 are partially compressed and fully compressed, respectively. FIG. 12 is a partial cross-sectional view corresponding to FIG. 11, depicting the storage container in a compressed state. is there. As shown in FIG. 10, the negative axial direction is relative to the axial direction of the tubular side wall. Depending on the externally applied force F to be loaded, the container may be partially collapsed or compressed. This results in pleating or folding of the tubular side wall. This collapse is on top Creases or folds are fitted to form an even stack of sidewall material FIG. 14 (and FIG. 10 in a perspective view) when preventing further compression of the storage container. Continue until a completely collapsed condition is encountered, as described. Side wall thickness Exaggerated beyond preferred thickness for illustrative clarity of FIGS. 11-14 So, this condition preferably occurs when the lid and bottom panel are fully compressed Only when close enough to each other to provide a truly minimal total container thickness Achieved.     Choice of the present invention for primary closure, with or without additional ventilation features The use of a manually actuable closure means that by providing an easy-to-use sealing mechanism Ventilate the air and / or free space over or around the unsealed contents; This facilitates the greater ease of draining.     A variety of components suitable for constructing the storage container of the present invention are primarily of a nature. Regardless of whether it is a two-dimensional or three-dimensional structure (PVC), polyvinylidene chloride (PVDC), polyethylene (PE), poly Propylene (PP), aluminum foil, coated (eg, waxed) paper and coated Substantially impervious materials such as uncovered paper, coated nonwovens, etc., and scrims Mesh, woven, nonwoven, or perforated or porous Contains substantially permeable materials such as films. Such a material may be a single structure or Multiple layers, including a substrate material provided with layers or used as a carrier for the material. It may be a composite structure of a number of materials. Suitable for use according to the invention Is known to have a thickness of. 012 inch manufacturer Under the name DZ-2002-2. National Can), including polymer films.     FIG. 15 depicts a presently preferred embodiment of a storage container 10B according to the present invention. . In the embodiment depicted in FIG. 15, the storage container 10B is preferably one piece. Container body 20B integrally formed from a sheet material, and preferably a container It is formed integrally with the main body 20B or at least is connected to the container main body with a hinge line 45B. Also includes a lid 40B joined by a hinge. Further, the storage container 10B includes a lid 40. B and the periphery of the container body 20B are sealed, and complete as shown in FIG. Closed adjacent edge 28B to form a closed enclosure or vessel Means 30B is also included. The closing means 30B is provided around the periphery of the lid 40B and around the container body 20B. A side flange portion 25B or both may be provided. The closing means 30B will be described later. As such, it can be selectively releasable, sealable, and resealable. Illustrated in FIG. The hinge line 45B being provided preferably comprises an integral live hinge, optionally Can be cut, perforated, or optionally the lid can be separated from the container body A similarity may be provided as a line of weakness.     In the preferred configuration depicted in FIG. 15, the closure means 30B has an edge 2 It completely surrounds the periphery of the opening formed by 8B. However, (for example, All of the edge 28B except the part joined by the hinge at the wire 45B. Formed by a lower degree of enclosure (such as closure means placed along the part) The closing means provided may provide adequate closing integrity. Flange 25 B is formed integrally with the container body 20B or joined to the container body. May be provided as a separate material element. Discrete, preferably more rigid When provided as a material element, the container body material joins the container body to the flange. Corners (openings) that are crimped to form a suitable junction for At least at its upper end is formed on a small peripheral flange Currently preferred. The closing means may be flange 25B, lid 40B, or both. May be provided on a mating portion composed of either one of the two.     The storage container 10B is made up of various materials and objects contained in the container body. Suitable for including and protecting. FIG. 16 shows the storage container 10 in the open state. B, where the edge 28B is opened and the material and / or object is stored. The closure means 30B is opened so that it can be inserted into the interior of the body part of 10B. Has been released. In FIG. 16, a plurality of general solid objects 99B are stored in a storage container. Shown in 10B.     Due to the ability to construct a container from multiple composite elements, the material for the container body 20B Regardless of the features, a transparent polymer panel for the lid panel, or flange and A wide variety of materials can be used, such as a more rigid elastic material for the lid frame. The lid 40B may be an integral structure, but either of the lids 40B Central lid panel 42B and lid frame 44, which may also be formed from a variety of elements B.     In the embodiment of FIG. 15, the storage container 10B has two substantially flat end panels. 50B, two substantially flat gusseted side panels 60B, and one generally flat Bottom panels 70B, which are defined by a top flange 25B. Forming a semi-closed container having an opening provided. End panel 50B is side Although including the edge 55B and the bottom edge 54B, the side panel 60B includes a bottom edge 64B, And converging base crease 62B and intermediate crease 61B, and lateral folds It usually includes the town of the conventional design having 63B. The shape depicted in FIG. In, the storage container is in its free standing open state. The flange 25B Helps hold the open end of the container in the open state as shown in FIG. Moderately elastic and stiff.     The storage container described above with respect to FIG. 15 is a commonly available flexible storage bag. Offers many advantages compared to storage and storage containers, but To facilitate product acquisition and product filling, Includes additional features to allow the vessel to assume a self-contained configuration.     As used herein, the term "self-suppo" rting) "can maintain its orientation in a plane parallel to the direction of gravity. Used to refer to a material, structure, or container. For example, independent The material, in particular the sheet material, is stretched upwards parallel to the direction of gravity and folded, It may be held to maintain its orientation without collapsing. Not independent The material typically collapses or collapses, making sure that they are not Parallel to gravity (ie, "vertically") unless it is held to extend down ) Can not be retained. Accordingly, freestanding bags or containers should be Can maintain the orientation of the surface, folded or crushed on itself Instead, it extends upward from the base of its support, as opposed to gravity.     In addition to being independent, the gusseted storage container 10B was easily folded It can be crushed and crushed, providing easy storage that takes up minimal space. FIG. 15, shown laterally on its side in preparation for folding, shown in FIG. A storage container 10B with a gusset is drawn. FIG. 18 shows a partially folded City as shown in FIG. 15 that has been broken and crushed 10 shows a storage container 10B attached. Therefore, the middle fold 61B is The bottom edge 64B toward the flange 25B. And usually parallel to the flange 25B. FIG. 19 shows that the bottom 70B is substantially on the side. In parallel, the fold continues until it is close to the flange 25B, and the fold is more complete. The gusseted storage container 10B is shown in a state in which the gusseted storage container 10B is in a state in which the gusseted storage container 10B is in a state where the gusseted storage container 10B is in a state where the gusseted storage container 10B is in a state. Also depicted in FIG. What is added is additional integrity and stability, usually a rectangular, flat bottom panel. It is a reinforcing panel 72B that is additionally set to be added to the panel 70B. Folding the container body To avoid negatively affecting foldability In addition, the reinforcing bottom panel 72B is preferably mounted as shown in FIGS. A crease 71B substantially aligned with the transverse crease 63B for folding. No. An optional reinforcement panel 72B also covers or reinforces the end panel 50B. Extends upwards at the ends or ends.     Adding additional reinforcement to the bottom panel increases stability before and during filling The center of gravity of an empty container has been pulled down to fill or empty Stiffness at the bottom of the container for additional stability in different situations, filling with heavier contents The possibility of the bottom of the container being bent when being reduced is reduced. The reinforcement panel is the container body Sometimes made from materials similar to the material, more or less durable May be made from a base material, and may be applied by applying an adhesive or other suitable means. Fixed to the panel. When a stiffening panel is used, it can provide additional surface, bonding , And folds, they trap portions of the contents in the site, causing difficulty in cleaning To provide support and reinforcement without adding to the interior of the To be located on the outer surface of the bottom panel rather than on the inner surface. Good.     The flexible sheet material used to form the body of the container is shown in FIG. 19 to absorb folding or collapse of the container body between the open configuration and the closed configuration of FIG. Sufficiently flexible and concave. More specifically, the side panel 60B is an end panel. The panels 50B move toward each other as the bottom panel 70B moves toward the lid 40B. Folded or pleated on themselves as they pivot inward toward It is flexible enough to go.     To open the storage container of FIG. 15, the user grasps a pair of tabs 35B and Pull them in opposite directions in the lateral direction, and then opposite half of the flange 31B. Accordingly, the separation of the closing means 30B may be started and spread.     15 to 19, the seam and folding structure of the end panel 50B are shown. Is clearly visible. Such a folded configuration has a square or rectangular bottom Is typical of conventional folded, gusseted bags having Properly with bottom adhesive, heat seal, etc. to provide a tight and airtight bottom structure Sealed. Spaced, defined horned, gusseted, pleated The sidewall structure provides added integrity and stability to the filled bag In addition, the stackability during use is enhanced, and stability is added in terms of falling down.     More specifically, the container body material is provided as shown in FIGS. In the meantime, the overlapping flanges are formed by the folding method to form the end panel 50B. A plurality of layers of material forming the tops 51B and 52B result, and these panels However, since they serve as customer parts or supports for the container, At times, it provides additional stability and rigidity to the container. Furthermore, the flap 51B And 52B, the diagonally folded edges, ie, edge 53B, Flexible to give containers the desired level of integrity, independence, and stackability Reinforced folds or fasteners to further aid in constructing end panel 50B from material It is believed to provide extra money.     A variety of components suitable for constructing the storage container of the present invention are primarily of a nature. Regardless of whether it is a two-dimensional or three-dimensional structure (PVC), polyvinylidene chloride (PVDC), polyethylene (PE), poly Propylene (PP), aluminum foil, coated (eg, waxed) paper and coated Substantially impervious materials such as uncovered paper, coated nonwovens, etc., and scrims Mesh, woven, nonwoven, or perforated or porous Contains substantially permeable materials such as films. Such a material may be a single structure or Multiple layers, including a substrate material provided with layers or used as a carrier for the material. It may be a composite structure of a number of materials. Suitable for use according to the invention Is known to have a thickness of. 006 inch manufacturer With the name X420 of Huntsman Film Products m Products Corp. ), Low density polyethylene commercially available from Including film.     Once the desired sheet material is manufactured in any desired and appropriate manner With all or part of the material used for the body of the bag or container, The bag or container is a technique for making such a bag or container in a commercially available form. May be configured in any known and appropriate manner, such as those known in the art . Joins the various components or elements of a bag or container by themselves or together To do so, a technique of heat sealing or sealing with an adhesive may be used. Further In addition, the body of the bag or container is separated from the web or sheet of material by the bag or container. Worms that rely on folding and joining techniques to construct the vessel body Thermoformed, blown, or otherwise melted It may be melt molded.     The closure means depicted in FIGS. 1-19 may be folded, pleated, adhesive, or Combined with mechanical interlocks such as ribs, beads and grooves known in the art May be configured in any known manner using any closure shape, such as a closure . However, selectively activatable adhesive that provides a secure closure seal when actuated It is presently preferred to use an agent bearing structure. Therefore closed The means preferably comprises an optional means for joining the material surfaces facing each other across the opening to one another. And a operable adhesive-like material. Also, the connection between the closure means and the target surface is Perishable items are satisfactorily closed and preserved to the extent of the barrier properties of the material itself Provide a barrier seal to prevent transmission of oxygen, moisture / water vapor, odor, etc. Is enough for The target surface may comprise a separate element of the bag or Another area of the chain means itself may be provided.     As used herein, the term "selectively operable" ly active) is used by the user to determine the adhesive properties. Until action is taken to "activate" the substance by Used to refer to substances that exhibit substantial non-stick properties when contacted with the target surface Is done. Thus, the ability to operate selectively exposes the adhesive for use To rely on removal of liner material (typically silicon-coated paper pieces) to It is different from the permanent working piece of the agent.     Due to the selective actuation of such materials, the user will be able to handle the bag or bag during the filling operation. Not only minimizes the possibility of contamination of the closure by the contents of the container, The opposing surfaces can be properly positioned before actuation and adhesion is achieved Swell. This feature is advantageous for the closure means to itself or to the opening or bag / Without encountering premature entanglement or adhesion difficulties with the container body And any desired module without the need for separate release sheets, liners, spaces, etc. Open, fill, and / or manipulate flexible storage bags or containers with Make it possible. Preferably, the optional actuation step is such that the closing means is not actuated. After the bag has been opened for filling or removal of the contents, Reversibly so that it can be reactivated for further closure without significant loss of is there.     The material used for the closure means has two working sides or surfaces In accordance with the present invention, such materials may be used if desired, but desired for a particular application. To provide only one working side, and one inactive or inactive side Currently preferred. Under some circumstances, the working surface may have an intermittent or Discontinuous connection to itself or another target surface, such as by having a continuous layer Designing closures to form patterns is acceptable or desirable At present, the closure now forms a continuous seal, with itself and Be designed to show the ability to mate with any sufficiently continuous target surface preferable.     Various means of actuation are envisioned as being within the scope of the present invention, such as: I have. That is, mechanical operation by compression, mechanical operation by tensile force, and heat It is the operation by. However, connections that could work as described here Any other product that would trigger a type similar to a glue or adhesive It is contemplated that there may be a vehicle or that it may be developed. Preferred practice In the example, the working surface is the externally applied force exerted on the sheet of material. Can be operated by The force is applied in a direction substantially perpendicular to the sheet of material Externally applied compressive force or load in a direction substantially parallel to the sheet of material Externally applied pulling force or a combination thereof.   Regardless of the method of operation, a material useful as a closure in accordance with the present invention is simply Shows adhesive, sticking, or tacking properties as opposed to entangled types or affinities I will. Accordingly, as used herein, the term "adhesi ve) "means that the material is actually understood as an adhesive in general and named The ability of a material to exhibit adhesive properties, whether or not it contains the constituents Used to refer to Thus, such a material would simply be In contact with itself or another target surface, as opposed to being attracted to a surface When it is, it will form a binder or seal. Use of materials that adhere selectively A number of techniques may be used to provide the desired adhesive properties, such as A currently preferred approach is to use a pressure sensitive adhesive.     When designing a material that is effective as a closure in accordance with the present invention, certain adhesives The choice can be permanent or peelable, as desired for a particular application. It may be desirable to adjust to provide flicker. Where permanent bonding is If desired, obtain a flexible storage bag or container for the item (s) contained therein Opening the bag or container would require breaking the bag or container. The other , The peelable bond does not break, the closure means can be removed from itself or of the binder To allow it to be separated from the rest of the bag or container And to achieve the acquisition. In addition, it depends on the operating mechanism used in the material design. First, the peelable bond has sufficient adhesive properties even after the initial actuation / bonding / peel cycle. If it remains, it may be possible to fix it again.     Closures that are effective with the present invention should be used to ensure that perishable items are preserved. A flexible storage bag, while maintaining the desired level of sealing engagement with mating surfaces Or the degree of handling that the container or container is likely to encounter during use, and Shows sufficient adhesion to withstand internal forces. Generally, minimum adhesion to maintain seal Is desired for the closure, and as a result the closure is the entry of the stored item (s). Easy to open and peel for hands. At the same time, in a preferred embodiment, closed The means is a substantially non-entangled material. Measures adhesion and entanglement properties Appropriate methods for determining and quantifying are described in the disclosure herein. Hamilton and Ma Filed November 8, 1996, under the name of McGuire, Material Having Substance Protected By Deformable Support, And Method Of Making " No. 08 / 744,850, entitled Co-pending U.S. Patent Application Serial No. 08 / 744,850. It is explained in detail.     The closure means used according to the invention has a first side and a second side. Comprising a sheet of material. The first aspect is the adhesion shown before actuation by the user. Provide an operating side that shows the adhesive peel force after actuation by the user that is greater than the peel force. I can. The working side of the closure means is preferably at least about 1 per linear inch. Ounces, more preferably, about 1 ounce per linear inch after actuation by the user. And about 2. The adhesive peel force between 5 ounces is shown.     One such type of current interest for use as a closure in accordance with the present invention is Materials are protected from external contact by the three-dimensional surface topology of the substrate. Three-dimensional consistent with active material as adhesive on at least one surface Have a web. Such a material has a structure in which the adhesive between the As a support to keep objects from contacting external surfaces until they become more two-dimensional Etch to form a pattern of raised “dents” on at least one surface that serves With an embossed / debossed polymer or other sheet material. Representative contact The adhesive carrier structure is commonly assigned to Hamilton and Hamilton. And filed on January 10, 1996 under the name of McGuire "A composite material that can be peelably sealed to a target surface when pressed against it. And co-pending U.S. patent application Ser. No. 638, Hamilton and McGuire ), Filed November 8, 1996, entitled "Protected by Deformable Supports" No. 08 / entitled "Materials Having Substances Made and Methods of Making" 744,850, McGuire, Twedde 11), and under the name Hamilton, November 8, 1996 Filed on March 31, 2009, entitled "3D Fitting Resistive Sheet Material and Method 08 / 745,339 entitled "Listening to Do" and Hamilton (Hamilton) and McGuire (1996) No. 0 entitled "Improved Storage Wrap Material" filed on November 8, 2010 No. 8,745,340. Each of these U.S. applications This disclosure is hereby incorporated by reference into these U.S. applications. Incorporated during loading.     The three-dimensional structure has a plurality of hollow protrusions separated by valleys And a piece of deformable material having a first side surface formed on the first side. Multiple hollow bumps The raised has an outermost end. The piece of material has a second side. The second side has a plurality of depressions therein corresponding to the plurality of hollow protrusions of the first side. ing. The substance adheres to the valley between the hollow protrusions and partially fills the valley . The material has a surface beneath the outermost end of the plurality of hollow protrusions, such that When placed in contact with the tear surface on the first side of the deformed film, Empty protrusions prevent contact between the substance and the target surface until a portion is formed at the target surface. Good Preferably, the plurality of protrusions consist of flipping, squashing, and stretching Transform in the mode selected from the group. Preferably, inverted and / or In crush mode, each of the plurality of protrusions has at least 0. One pound (0. Does not substantially deform until it is subjected to a pressure of 69 kPa). I will.     8 to 12 are generally shown as 30 (3 in FIGS. 8 to 19). OA according to the invention with a three-dimensional sheet-like structure (also representing OA, 30) FIG. 4 shows a preferred embodiment of a material useful as a closure for sexual storage bags and containers. . The material 30 comprises a hollow projection 14 and a layer of substance 16 located between the projections 14. Including a deformed material 12 having The projection 14 preferably has a conical shape The outermost end is truncated or hemispherical You. The protrusions 14 are preferably equally spaced in an equilateral triangular pattern, All extend from the same side of the material. The projections 14 are preferably valleys between the projections In order to minimize the amount of waste and therefore the amount of material located between them. The distance between the centers of the two projecting base diameters, or closer to It is placed. Preferably, protrusion 14 has a height less than its diameter. So that when they deform, they are on an axis that is substantially upright in the plane of the material. Deform by substantially flipping and / or squashing along. This bump The shape of the protrusion and the mode of deformation are such that the protrusions 14 Folds in a direction parallel to the plane of the material so that it cannot be blocked from contact with Prevent from getting caught.     FIG. 10 shows a smooth but arbitrary surface topology and more of the protrusions 14. May also be spaced from the layer of material 16 by the outer end 18 A certain target plane 90 is shown. A target surface according to the present invention is typically similar to itself. May or may not include selectively activatable adhesive carrier closure means of the type It will have opposing portions of the closure rim, which may not be present. FIG. 4 reduces the pressure applied to the non-material side of material 12 as indicated by force F Shows the target surface 90 in contact with the layer of material 16 after receiving and partially deforming.     In order to resist the specified deformation force, the more protrusions per unit area, The material and the projection walls are thinner. The preferred material layer 16 is preferably a latex Pressure sensitive adhesive or, for example, Vadnais Heights, Minnesota s Heights). B. Fuller (H. B. Fuller Co. ) Therefore, it is possible to obtain the specification number Fuller HL2115X that is manufactured. High-temperature melting adhesive. Use any adhesive suitable for the needs of the material application be able to. The adhesive may be re-stickable, peelable, permanent, or otherwise It may be. The size and spacing of the protrusions are preferably for selective actuation. To provide an airtight seal with the target surface, while also providing the optimal support pattern for A continuous adhesive path surrounding the protrusion and the desired level of attachment to the target surface Selected to provide wear.     The film material may be made from the same resin or a mixture thereof. Shared extrusion Is it formed, extruded, or covered with a thin plate? , Or combined by other known means. A single layer or multiple layers within a lum structure are contemplated. Important genus of film material Gender is in that it is deformable to create protrusions and valleys is there. Effective resins are polyethylene, polypropylene, PET, PC, PVDC , Latex structure, nylon, etc. Usually its cheaper price and formation Polyolefins are preferred because of their ease of operation. Other suitable materials are Mifoil, coated (eg, waxed) and uncoated paper, uncoated Woven and uncoated nonwovens, scrims, meshes, wovens, nonwovens, and Including perforated and porous films, and combinations thereof .     The different uses of the closure that is being formed depend on the choice of Not only will it determine the ideal size and density of the protrusions. The formation process Not the size, shape, and spacing of projections, flexural modulus, material stiffness, Web material properties, such as thickness, hardness, deflection temperature, etc., determine the strength of the protrusions. "Thread The "Should" protrusion hardness depends on the weight of the layer on the sheet, shipping vibration, mishandling Closing means too early due to other forces, such as forces induced by falling, etc. Required to prevent actuation.     The reversal of the protrusion is to prevent the seal failure that the higher adhesion is relatively weak. Minimize spring back of protrusions so they are not required suppress. For example, if the binder is intended to be permanent, the aggressive (ag Gressive) Use elastic projections, such as when the adhesive overcomes bouncing. Can be used. Also, resilient protrusions are intended for repeated use of the material. Is sometimes desirable.     FIG. 12 shows that the protrusions substantially reverse as a mode of deformation, and / or Of the projections and valleys of the closure means of the invention so that they can collapse. It shows a new shape. The preferred shape is between the turn of the protrusion and the valley of the protrusion And / or inside the hollow projection, or both Limit. The preferred shape is repeatable and predictable for protrusion deformation. Helps ensure effective resistance. FIG. 12 shows that each protrusion has a height dimension A and a base diameter. It is shown that it is defined by the dimension B. Even if there is no fold, projections Straight-through, allowing it to substantially flip and / or collapse The preferred ratio of diameter B to height A is at least 2 to 1.     FIG. 13 is an illustration according to the present invention, generally shown as 180 in FIG. A suitable method for making a material such as effective material 30 is shown.     The first step involves coating the forming screen with a first material. Formation screw The shaft has an upper surface and a plurality of recesses therein. In the coating step, the first substance is The coating is applied to the upper surface without cross-linking the recess. The second step includes a first side surface and a second side A piece of material having a surface, a first side having a first material on the top surface of the forming screen; And introducing it onto the forming screen such that it contacts the forming screen. 1st substance is priority Typically, it adheres to the first side of a piece of material. The third step is to form one piece of material, Creating a plurality of hollow protrusions extending from one side into the recesses of the forming screen And A plurality of hollow projections are transferred into the first material from the forming screen. They are separated by valleys. Multiple hollow projections can share one common transport and shape By using the surface, it is correctly registered with the first substance. The first substance is a protrusion To form interconnected layers in the valleys between.     The forming screen 181 includes an idle pulley 182 and a driving vacuum roll 18. Guided over four. The forming screen 181 preferably has a recess in the belt. Stainless steel base with the desired protrusion pattern etched Is the default. The outer surface of the vacuum roll 184 is covered with a forming screen 181. Nickel screen at the seam that serves as a porous backing surface for     To create a material containing a pressure sensitive adhesive, preferably a high temperature fusion welding The substance, 186, which is the adhesive, is formed by the Coated above, the forming screen 181 rotates past the applicator. Lumber The material web 190 is fed to a material feeding idle roll 192 by a material coating forming screen. Contact. Hot air causes material to pass over vacuum roll 184 And a vacuum is applied from a vacuum source (not shown) to a fixed vacuum manifold. Applied to the forming screen 181 through the vacuum roll 184 via the gate 196. As it is directed radially toward the material 190 by the hot air source 194. The vacuum is As the material is heated by the hot air source 194, it is applied. Is formed The coating material 198 is formed on the strip roll 200 by the Peeled from 81. The same common forming screen is used to form the protrusions The material pattern is conveniently bumped because it is used to transfer the material to the material, as It is registered in Ki.     Stainless steel forming screen 181 is assembled and seamed It is a belt. It is assembled in multiple steps. The concave pattern is Providing a photomask for photoetching, created by a computer program Printed on a transparent film. The photomask is Used to create areas and unetched areas. etching The material that is typically stainless steel, but it is brass, aluminum, copper , Magnesium, or other materials including alloys. further, The recess pattern may be etched on the photopolymer instead of metal. Suitable Sharp forming structures are referred to above and incorporated herein by Hamilton and others. (Hamilton et al. ) And McGuire and others (McGuire)   et al. ) Is described in more detail in the patent application.     Said type of material, when used as closure means according to the invention, is Before, during, or after assembling a bag from charge components Is formed integrally as part of the body of a flexible storage bag or container , May be configured. Alternatively, such closure means may be formed separately and provided on the bag. The body of a flexible storage bag or container, either before, during or after assembly May be joined. Such joints may be along the edges, Or a facely laminate on top of the overlapped portion of the body of the container Or it may be achieved as a bond, such a stack comprising a closing means. Add additional thickness, stiffness, and / or elasticity to the area of the bag or container It is particularly advantageous if this is desired. The material used for the closure means Form the body of a bag or container either in terms of method or composition It may be the same as or different from the material used for     Particularly effective as a flange material according to the invention is that the working surface of the closure means is Facing away from the runge material, so that it is substantially more elastic and more self-supporting Forming a composite closure with several highly deformable struts with a base material Self-supporting semi-rigid, to which the closure means is glued with a sheet Elastomeric polymer or coated paper sheet material. Suitable for use according to the invention The known material is Huntsman Film Producer with the name X420 of the manufacturer. Kutsu (Huntsman Film Products Corp.) ) From city It is sold and has a thickness of 0. Includes a 020 inch low density polyethylene sheet material.     Separation of the overlying part to which the closure means material is attached or bonded The material into the overall structure of a flexible storage bag or container to facilitate Various adaptations or modifications may be achieved in terms of integration. For example, the periphery of the opening The extension tabs (such as the tab 35 shown in FIGS. 1 to 7) on opposite sides of the It may be desirable to provide and facilitate manual starting of the closed separation. Also, the material Used to initiate material separation and thus the opening of a flexible storage bag or container. Immediately adjacent to the opening rim, free from closures, so that there is a non-stick rim that may be It may also be desirable to leave a small but finite part of the body of the bag or container is there.     The use of a selectively activatable adhesive material for the closure means 30 in accordance with the present invention. More, the user can close and seal the opening in the flexible storage bag or container Operation is provided with easy closing means. Closure means 30 is only needed Dexterity is the use of a pair of opposing fingers to grasp or pinch the closure, a bag or Actuating the material against the opposing surface of the body or closure means of the container Therefore, it can be easily operated with one hand or both hands. Move your finger beyond the aperture Moving provides a secure attachment of the closure means across the area of the opening, Thus a flexible storage bag or container is completely closed from a semi-closed container Change to In particular, the closure means completely surrounds the opening in the body of the bag or container. When closing, the closure means 30 typically requires precise alignment of the alignment elements. Unlike mechanical closure mechanisms that adhere to any opposing surfaces, they are misaligned High resistance to     Pinching the overlapping part of the body of the bag or container of the closure means The ability to be actuated by grasping, especially the flexible storage bag of the present invention And flexible, conformable structures such as containers. More specifically In fact, such structures will dent under the applied force, and Activating the seal by exerting pressure on the bag or container as a body What this means is that the contents of the bag or container will be It may be difficult, especially when filling, due to the tendency to eject material. So here The use of closures as described in paragraph 2 It also allows for safe and reliable sealing of vessels.     The closure means in a preferred configuration is a three-dimensional mating set of interlockingly connected elements. Rather, utilize a layer of adhesive that is protected by multiple three-dimensional protrusions Because such closure means provide a site of leakage, such as the end of a mechanical element Without the enclosed body of the bag or container, such as the area near the hinge 32 It can be used safely in non-parallel areas. Therefore, the present invention The closing means 30 of the seal is obtained for situations where a leak-proof seal is important. Provide additional security and trust at the level of     The self-supporting flexible storage bag shown in FIGS. 1 to 7 and FIGS. Is a flexible sheet along the line of technique typically taken on grocery-type paper bags It was made of wood, for example, Lorenz (1897) As shown in U.S. Patent No. 5,584,555, issued June 15, A wide variety of other structures have been developed in conjunction with the use of May be used to continue the process. Of such other exemplary bag designs An example is the United States of America issued July 20, 1976 to Hanson. Patent No. 3,970,241 to Mendenhall Watkins No. 5,061,500 issued October 29, 1991 Et al. (Watkins et al. Issued on March 23, 1993 No. 5,195,829 and May 24, 1994 to Happ. Includes No. 5,314,252 issued on the day. Also exemplary is Cox Others (Cox et al. ) Was issued on February 6, 1990, No. 4,898,477. These disclosures These patents are incorporated herein by reference. .   Sheet folded and sealed to form the body of the bag or container In addition to such uses of the material, bags or containers Any knowledge, such as those known in the art for making And may be configured in any suitable manner. Various components of a bag or container Or to join the elements to themselves or to each other Alternatively, an adhesive sealing technique may be used. In addition, a book in a bag or container The body is used to construct the body of a bag or container from a web or sheet of material Thermoformed or sprayed rather than relying on folding or bonding techniques Or otherwise formed from a starting blank or sheet of material May be.   While particular embodiments of the present invention have been shown and described, the spirit and scope of the present invention Be able to make a variety of other changes and modifications without departing from it Will be apparent to those skilled in the art. Therefore, within the scope of the appended claims, Intended to cover all such changes and modifications within the scope of the invention Have been.

────────────────────────────────────────────────── ─── Continuation of front page    (31) Priority claim number 08 / 854,247 (32) Priority date May 9, 1997 (5.9.1997) (33) Priority country United States (US) (81) Designated country EP (AT, BE, CH, CY, DE, DK, ES, FI, FR, GB, GR, IE, I T, LU, MC, NL, PT, SE), OA (BF, BJ , CF, CG, CI, CM, GA, GN, ML, MR, NE, SN, TD, TG), AP (GH, GM, KE, L S, MW, SD, SZ, UG, ZW), EA (AM, AZ , BY, KG, KZ, MD, RU, TJ, TM), AL , AM, AT, AU, AZ, BA, BB, BG, BR, BY, CA, CH, CN, CU, CZ, DE, DK, E E, ES, FI, GB, GE, GH, GM, GW, HU , ID, IL, IS, JP, KE, KG, KP, KR, KZ, LC, LK, LR, LS, LT, LU, LV, M D, MG, MK, MN, MW, MX, NO, NZ, PL , PT, RO, RU, SD, SE, SG, SI, SK, SL, TJ, TM, TR, TT, UA, UG, UZ, V N, YU, ZW

Claims (1)

[Claims]     1. Semi-closed with an opening defined by a hinged peripheral flange At least a flexible sheet material that is assembled to form a chain container The flexible storage bag with one sheet has the hinged flange above. Closing means for sealing said opening to convert said semi-closed container into a closed container Wherein the container is self-supporting, and The opening is maintained in a state of extending upward.     2. The flexible storage bag according to claim 1, wherein the bag is arranged such that At least one pair formed in the sheet material extending in a vertical direction. A substantially flat extending in a direction substantially parallel to the opening with the opposing town And the container is free standing when the bottom is placed on a horizontal surface. And maintaining the opening in an upwardly extending state. I have.     3. The flexible storage bag according to claim 1 or 2, wherein the closing means is Comprising a piece of material forming at least a portion of the hinged flange. A piece of said material having a first side facing inward toward said opening and said A second side facing the outside of the opening, wherein the first side is provided by a user. Detachment after actuation by the user, greater than the detachment force shown before actuation Indicating power.     4. Crushable, stackable, self-recoverable containers are: (A) a first open end and a second open end, and the first and second open ends; An axial direction extending through the first open end. A substantially continuous, outwardly extending flange forming a peripheral edge; And can be folded according to the externally applied force applied in the axial direction. An integrally continuous tubular side wall that is self-restorable when said force is removed; (B) a semi-closed container formed integrally with the second open end of the tubular side wall; A bottom panel closing one end of said tubular side wall to form; (C) a lid for selectively converting the semi-closed container into a closed container; (D) closing means for sealing the lid to the flange;       With     The closure means comprises a piece of material forming at least a portion of the perimeter. A piece of the material having a first side facing inward toward the opening and an upper side. A second side facing the outside of the opening, wherein the first side is Adhesive peel after actuation by the user, greater than the adhesive force shown before actuation It shows power.     5. A collapsible, stackable, self-recoverable container according to claim 4, wherein The tubular side wall and said bottom panel are thermoformed from a continuous sheet of material; Is further characterized.     6. Collapsible, collapsible, stackable, self-recoverable containers are: (A) comprising two opposing side walls and two opposing end walls between said side walls Wherein the side wall and the end wall both have two open ends. A bottom panel formed and closing one end of the tubular structure; A semi-closed container body, the other end of said tubular structure on the opposite side forming a peripheral edge; (B) a lid for selectively converting the semi-closed container into a closed container; (C) closing means for sealing the lid to the container body;       With       Each of the side walls extends in a direction substantially parallel to the bottom panel. Including a gusset, wherein the side walls and the end walls are folded inward toward each other The container is in a condition where the side walls and the end walls are in their unfolded condition. While being substantially self-supporting, while being perpendicular to the lid and the bottom panel It can be crushed in any direction.     7. 7. The collapsible, collapsible, stackable, and self-contained of claim 6. The reversible container is such that the side walls, the end walls, and the bottom panel are a continuous sheet of material. It is further characterized by being formed integrally from the     8. A collapsible, stackable, and self-contained according to claim 6 or 7. The reversible container is characterized in that the end panels include diagonal reinforcement folds. It is also characterized.     9. A storage bag or container according to any one of claims 1 or 4 or 6. The vessel may be such that the closure means is loaded in a direction substantially perpendicular to the flange. It is further characterized in that it can be actuated by an externally applied compression force.   10. A storage bag or container according to any one of claims 1 or 4 or 6. The container is adapted so that the closure means contacts the supplemental surface of the semi-closed container across the opening. Substantially two-dimensional by being actuated by the user to expose the adhesive layer It further features that it has a three-dimensional sheet material that can be changed to a different sheet material. It is a sign.