AU2074900A - Lining for container - Google Patents

Description

-1- P/00/0011 Regulation 3.2

AUSTRALIA

Patents Act 1990 COMPLETE SPECIFICATION FOR A STANDARD PATENT

ORIGINAL

Name of Applicants: PODD, Victor T; PODD, Victor I and PODD, Stephen

D

Actual Inventors: PODD, Victor T; PODD, Victor I and PODD, Stephen D Address for service in Australia: CARTER SMITH BEADLE 2 Railway Parade Camberwell Victoria 3124 Australia Invention Title: LINING FOR CONTAINER The following statement is a full description of this invention, including the best method of performing it known to us BACKGROUND OF THE INVENTION The present invention generally relates to liners for cargo containers, and more specifically, to liners for containers that are used to carry bulk cargo.

Standardized containers or boxes have come into very extensive use for the shipment of freight by land and sea, and the many advantages of such containers have made it extremely desirable to adapt them for use with as many types of cargo as possible. Accordingly, there have been attempts, with varying degrees of success, to use such standardized containers to carry bulk cargo such as dry bulk chemicals, powdered and pelletized resins, flour, coffee beans, and grain.

15 When cargo containers are used to carry such bulk cargo, it is important that the container itself either be.

.kept clean or be cleaned after each load of cargo is emptied from the container, so that the container can be subsequently used with another load of cargo. Moreover, it is important to protect the bulk cargo from contamination and from undesirable exposure to the natural elements.

For these reasons, large plastic removable liners are often used to line the interior walls or surfaces of cargo containers that are used to carry bulk cargo. The 25 liners protect the cargo during shipment, for example, from rain and debris; and after the cargo is delivered, the liner can be removed so that the container is again useable, without significant cleaning, to carry other cargo.

\0 Various difficulties have been encountered, however, in using plastic liners in the above-described manner; and in particular, it has been found that the liners may tear or rupture under certain conditions. For example, the general practice in the industry is to try to secure the liners comparatively tightly inside the cargo containers so as to minimise movement of the liners therein. However, bulk cargo loads often shift; and if such a load shifts inside a liner that itself is practically immovable inside a cargo container, then the shifing load may produce high localised stresses on the liner, which in turn may cause the liner to tear or rupture.

In addition, with liners that are used in the above-discussed manner, bulkheads are often secured to the back ends of the liners to help hold and support the liners inside cargo containers, particularly when cargo is being loaded into and discharged from the liners. Commonly, a bulkhead is secured to the back end of a liner by means of .an adhesive, by staples or both; and during transportation, a bulkhead may partially break away from a liner, tearing or rupturing the liner.

*go• S 15 Summary of the Invention This invention provides in one form a flexible and expandable liner comprising: a liner body defining an interior for holding a bulk cargo, and forming an opening in communication with said interior; and 20 a chute extending through said opening and having i) an interior portion located inside the interior of the liner body; and S. .ii) an exterior portion located outside the liner body; wherein the chute is sealed to the liner body around said opening to prevent cargo from passing therebetween; and wherein the interior portion of the chute has i) an open position wherein the chute forms a tubular passageway extending inward from the liner body and in communication with the interior thereof, and ii) a closed position wherein the chute is pressed against the body to close said opening and to prevent cargo from passing therethrough.

In an alternative form this invention provides a method of connecting a chute DVG:JMD:#33942 -2- 8 March 2000 to a flexible and expandable liner, said liner defining an interior for holding a bulk cargo, the method comprising: forming an opening in the liner; inserting the chute partially through said opening; and connecting the chute to the liner, around the opening, so as to form a seal between the chute and the liner to prevent cargo from passing therebetween.

In a further alternative form this invention provides a method of loading a bulk cargo into a flexible and expandable liner, the liner including a body defining an inlet opening and an interior for holding the cargo, and (ii) an inlet chute connected to said liner body and extending through the inlet opening, the method comprising: :i opening the inlet chute to form a tubular shaped passageway therethrough and in communication with the interior of the liner body; conducting the bulk cargo through said tubular passageway and into the interior of the liner body; and raising a gas pressure in the interior of the body to force the inlet chute against the liner body and to close the chute and the inlet opening.

DVG:JMD:#33942 -3- 8 March 2000 This page has been deliberately left blank.

55.5 DVG:JMD:#33942 8Mrh20 -4- 8 March 2000 Preferably, the left and right flaps of the liner are sandwiched between first and second sections of the left and right flaps, respectively, of the bulkhead. Even more preferably, after the liner flaps are sandwiched between the two sections of the corresponding bulkhead flaps, the sections of each bulkhead flap are stabled together, tightly capturing the corresponding liner flap therebetween.

Further benefits and advantages of the invention will become apparent from a consideration of the following detailed description given with reference to the accompanying drawings, which specify and show preferred embodiments of the invention.

A Brief Description of the Drawing Figure 1 shows a lined, bulk cargo container embodying the present invention.

Figure 2 shows the liner and a portion of the container body of the cargo container of Figure 1.

44 15 Figure 3 is an enlarged view of a portion of Figure 2, showing in detail how a support rope extends through a plurality of lashing and mounting members of the cargo container of Figure 1.

Figure 4 shows a portion of one end of the support rope of Figure 3.

Figure 5 shows an alternate lashing member that may be used in the present 20 invention.

Figure 6 is an enlarged view of another portion of Figure 2, showing in detail o. a bottom fastening member of the liner.

DVG:JMD:#33942 -5- 8 March 2000 Figure 7 shows a flexible tubular body from which a liner for a cargo container may be made.

Figure 8 illustrates how sections of the tubular body of Figure 7 may be folded together to form a back panel of a liner for a cargo container.

Figure 9 shows the liner body of Figure 8 after portions of the back side flap have been trimmed away.

Figure 10 shows the liner body of Figure 9 and a bulkhead adapted to be fastened thereto.

Figures 11, 12, and 13 show in detail how various flaps of the liner body may be sandwiched between corresponding flaps of the bulkhead.

Figures 14-16 show a portion of a further, improved container liner having a self-collapsing inlet 15 chute, with the chute being shown in an open position in Figures 14 and 16, and in a closed position in Figure Figures 17-19 show a portion of a container liner having an alternate collapsing chute, with this chute being shown in open and closed positions in Figures 17 and 18, 20 respectively.

1. Figures 20 and 21 show an expandable and inflatable liner having collapsible chutes at various •locations.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Figure 1 shows cargo container 100, generally, comprising container body 102 and expandable and inflatable liner 104. Container body 102 defines an interior cargo space 106, and includes floor 102a, roof 102b, left and right side wall 102c and d, and front and back walls 102e and f. Back wall 102e includes a pair of outwardly hinged doors 110a and b that provide access to the interior of the container. Any suitable cargo container may be employed in the practice of this invention, although preferably container body 102 has a conventional size and shape, and even more specifically, the container body is of the type referred to in the art as intermodal and can be transported by truck, railroad, and ship.

With reference to Figures 1 and 2, liner 104 comprises a liner body 112, and preferably the liner further comprises reinforcing panel 114. Liner body 112, in turn, includes bottom and top panels 112a and b, left and right side panels 112c and d, and front and back panels 15 112e and f that are connected or formed together to form the liner body. Liner 104 is employed to line the interior of cargo container body 102; and when the liner is inflated "or expanded inside the container body, the shape of the liner partially or substantially conforms to the shape 20 formed by the interior surfaces of that container. It should be noted, though, that the present invention may be practiced with liners that only partially conform to the shape of the interiors of the cargo containers with which the liners are used. For example, many liners are only half the height of the cargo containers with which they are used, and the present invention may also be employed with such liners. As illustrated in Figures 1 and 2, liner body 112 has a hollow, substantially parallelepiped shape, although the liner body may have other shapes.

Once liner 104 is positioned inside the cargo container body 102, a bulkhead (not shown) is preferably held or positioned against the back panel of the liner to help support the liner. Any suitable bulkhead may be employed with liner 104, and one such bulkhead is disclosed in detail in U.S. Patent No. 4,799,607. To accommodate this bulkhead, back panel 112f has left and right triangular shaped corner portions that form lower right and left back truncated corners. In addition, inlet and outlet openings 112g and 112h are provided in back panel 112f to conduct cargo into and out of liner 104, respectively.

Chutes 112i and 112j, shown in Figure 2, may be connected to back panel 112f, adjacent openings 112g and 112h, to facilitate loading cargo into and unloading cargo from the 15 liner 104. These chutes may be tied closed, as desired, to cover or close openings 112g and 112h.

A heating or cooling element (not shown) such as an electric heating ribbon, wire, rope or pipe element may be placed inside or outside of liner 104 to keep products 20 warm inside the liner during transportation, or to liquify oo•I products for discharging. For example, this heating or cooling element may be used to allow semi-liquid products to be loaded into and discharged from a liner, even though those products may normally have a low viscosity and normally do not flow easily, or the products solidify when *"cooled such as syrup, chocolate liquor, tallow, hot melt adhesive, waxes, lard, and others. It should be noted that this heating or cooling element does not have to be an electric heating element; and, for instance, hot or cooled -8liquid may be conducted through tubes placed in liner 104 or in cargo container body 102 to heat or cool, respectively, the contents of the liner, if desired.

Liner body 112 may be made in any suitable manner andfrom any suitable material, and for example, the liner body may be made from.a thin plastic material such as polyethylene having a thickness of 7 mils. Liner body 112 may be formed from one large sheet of plastic material and folded into the desired shape. Alternatively, panels 112a, b, c, d, and e may be formed from one large sheet of material and folded into the desired shape, with back panel 112f subsequently connected to the other liner body panels to form the complete liner body. As still another example, each panel of liner body 112 may be formed separately, and 15 the panels may be connected together to form the desired cool liner body. Any suitable technique may be employed to make any necessary connections between the panel of the liner e. body; and for instance, the liner body panel may be heatsealed together, or sewn or glued together.

20 Reinforcing panel 114 is secured to the bottom panel of liner body 112 to reinforce the latter panel, and preferably the reinforcing panel extends under and is connected to the bottom surface of the bottom panel.

~Reinforcing panel 114 extends rearward from, or from a position adjacent, the front edge of the liner, and preferably this reinforcing panel extend rearward over the complete length of the bottom panel 112a.

Reinforcing panel 114 may also be secured to a bottom portion of front panel 112e of liner body 112 to -9reinforce this area ofthe latter panel, and preferably the reinforcing panel extends upward approximately 25 percent of the height of panel 112e. Reinforcing panel 114 may extend to a higher or lower height; and, if desired, the reinforcing panel may completely cover the front liner panel.

Reinforcing panel 114 also may be made from any suitable material and in any suitable manner, and connected to liner body 112 in any suitable way. Preferably, in liner 104, panel 114 has a high resistance to stretching at least along the length of the liner. For example, the reinforcing panel 114 may be constructed of woven polyethylene and polypropylene fabric also having a ".thickness of about 7 mils. Alternatively, the reinforcing 15 panel could be made from strips, such as 2 inch strips, of fiberglass tape, metal reinforced tape, or polyester '"reinforced tape, or the reinforcing panel could be made from coextruded cross-laminated plastic film or co-extruded or cross-laminated film.

20 The use of reinforcing panel 114 is not necessary to the practice of the present invention in its broadest sense, and it may be possible to provide liner 104 with the :'".desired longitudinal strength by forming the whole liner .body 112 from a high-strength material that would provide the desired resistance to stretching. Using the reinforcing panel 114 is preferred, however, because this is a very simple, economical and effective way to provide liner 104 with the desired longitudinal strength.

Cargo container 100 is provided with a support system to support liner 104 inside container body 102; and this support system includes a multitude of lashing members 116, a multitude of liner ties 120, and first and second support ropes or rope segments 122 and 124. Liner ties 120 are connected to and spaced along liner 104 adjacent the top left and top right edges thereof, and lashing members 116 are connected to and spaced along container body, also adjacent the top left and the top right edges of liner 104.

First rope or rope segment 122 is connected to container body 102 at or adjacent front panel 112e of liner 104, and this rope extends rearward therefrom, through the lashing members and the liner ties on or adjacent the right side of V the liner to hold and support that side of the liner.

15 Similarly, rope or rope segment 124 is connected to container body 102 at or adjacent front panel 112e of the liner, and this rope extends rearward therefrom, through the lashing members and the liner ties on the left side of the liner body to hold and support that side of the liner.

20 Preferably, rear or back ends of ropes or rope segments 122 and 124 are also connected to container body 102, at or adjacent back panel 112f of liner 104.

Liner ties 120 are substantially identical to each other, and Figure 3 shows several of these ties in greater detail. Generally, each liner tie comprises a strip of material 120a connected to liner body 112, S* adjacent either the top left or the top right edge thereof, and forming an elongated channel 120b; and in use, one of the rope segments 122 or 124 extends through that elongated -11- Schannel. With the preferred embodiment of the mounting members shown in Figure 3, strip 120a is partially folded over itself, and folded over portions of strip 120a are connected together to form channel 120b. The end portions 1i20c and 120d of material 120a that are spaced from channel 120b are not connected directly together; but instead, in use, one of these end portions is connected to top panel 112b of liner 104, and the other end portion is connected to either the left or the right side panel of the liner depending on whether the liner tie is located on the left or the right side, respectively, of the liner. Lashing members 116 also are substantially identical to each other, and Figure 3 also shows a plurality of these lashing members in greater detail. Each of these lashing members oo:. 15 comprises a ring 116a that is secured to the container body, adjacent either the left or right top edges of liner .104 depending on whether the lashing member is located on the left or right side of the liner, respectively. Also, each of these rings form a central opening 116b, and, in 20 use, one of the rope segments 122 or 124 is extended .through that opening to support liner 104 inside cargo container body 102. With the embodiment of the lined cargo container illustrated in Figures 1-3, rings 116a are connected to the container roof 102a, closely adjacent the top left or top right inside edges of the container body.

Rings 116a may be connected to container body 102 at other locations, however. For instance, if the height of liner 104 is about half the height of the container body 102, rings 116a may be connected to the left and right side -12- 0, walls of the container body at a height slightly more than half the height of the container body.

In addition, preferably each lashing member 116, either alone or in combination with container body 102, forms a closed perimeter extending completely around central opening 116b. This closed perimeter is of utility because it prevents any rope that has been inserted through that opening, from slipping off the lashing member. Rings 116a may be made of any suitable material and they may be secured in place in any suitable way. For example, these ring may be made of metal and bolted to the container body.

i With the above-described liner support system, ropes or rope segments 122 and 124 securely hold liner 104 upright in cargo container body 102. At the same time, 15 liner ties 120 are able to slide along those ropes or rope ~segments for limited distances, and this allows the top portion of liner 104 to move in case a bulk cargo load moves inside the liner. This, in turn, allows that top liner portion to adjust in case localized forces develop 20 inside the liner as a result of shifting loads therein, reducing or minimizing the tendency of those shifting loads to tear or rupture the liner.

Preferably, on each side of the liner 104, the lashing members 116 and the liner ties 120 alternate with each other along the length of the liner. Moreover, in the specific embodiment of cargo container 100 shown in Figures 1 and 2, nine liner ties 120 and ten lashing members 116 are provided on each side of liner 104. In addition, with reference to Figure 4, preferably at least the end of each -13-

IC

of the rope segments 122 and 124 that is extended through the lashing members and the liner ties is encased in a heat-shrinkable plastic tubing 126. This tubing adds rigidity to this end of each of the ropes, and allow easier insertion of the rope through the liner ties and the lashing ring.

Other types of lashing members may be used .in the present invention. For example, with reference to Figure each lashing member may comprise a hook 130 having a shank portion 130a and an open, curved portion 130b. In use, the shank portion is used to connect the hook to container body 102, and the open, curved portion of the hook is used to support one of the support ropes 122 or 124.

15 Preferably, liner 104 is also provided with a *multitude of lower connecting segments 132 positioned around the liner to help hold the liner inside the S: container body 102; and in particular, to secure tightly the bottom panel of the liner to the floor of the container 20 body. Figure 6 illustrates one suitable connecting segment 6132 in greater detail. With reference to this Figure, each of the connecting segments 132 comprises a strip of S• material 132a. One end of material 132a is connected to ooo the liner body 112, specifically, the bottom panel thereof 112a, material 132a extends outward from the liner body, over container floor 102a, and an outward portion 132b of material 132a is connected to the container floor. A heatsealing procedure may be used to connect material 132a to -14the liner body 112, and this material may be connected to container floor by one or more staples 134.

As will be understood by those of ordinary skill in the art, other means or procedures may be used to connect segment 132. to liner body 112 and to container floor 102a; and for example, connecting segment 132 may be nailed or screwed to-the container floor. Stapling is preferred, though, because it can be done very easily and inexpensively, and because staples can be removed from the 1, connecting segment quickly and easily. In addition, a reinforcing section 132c is preferably added to connecting segment 132, directly onto the portion thereof that is stapled to the container floor.

Other types of connecting segments may be used to 15 connect liner 104 to the floor of container body 102; and for example, a suitable alternative connecting segment is disclosed in copending patent applications Serial No.

482,030, filed February 15, 1990 and Serial No. 627,695, filed December 14, 1990. In addition to the foregoing, 20 supplemental connecting or securing means may be used, in ~addition to lower connecting segments 132, to connect liner 104 to the floor of container body 102. For instance, as '.".taught in the above-mentioned copending application No.

.482,030, wooden slats may be nailed to the container floor, over lower portions or edges of left and right side panels 112c and 112d of liner 104 to hold the bottom of the liner 104 firmly in place in the container 100.

To install liner 104 inside cargo container body 102, the liner is placed inside the container body, with bottom panel ll2a on or over the container floor 102a and with the left and right bottom edge of the liner adjacent the left and right bottom inside edges of the container body. Liner 104 may be in a collapsed, comparatively flat condition when it is placed in the container body, with top panel 112b of the liner lying on or closely over bottom panel 112a thereof and with side panels 112c and ll4d folded inward between the top and bottom panels of the liner. The liner 104 may be placed in the container body 102 in a further folded or rolled condition, and then unfolded or unrolled into the above-mentioned comparatively flat condition.

After liner 104 is unfolded or unrolled onto floor 102a of container body 102, lower connecting segments 15 132 are secured to that floor. Supplemental connecting or securing means may be used, in addition to lower connecting "segment 132, to connect liner 104 to the floor of the container body. In particular, as previously mentioned, wooden slats may be nailed to the container floor, over 20 lower portions or edges of the left, and right side panel of liner 104 to hold the bottom of the liner firmly in place in the container body.

:'--Once the bottom of liner 104 is secured in [.container body 102, the liner is partially inflated therein, and this may be done by conducting a gas into the interior of the liner via inlet 112g. After the liner is partially or fully expanded inside the container body, rope or rope segments 122 and 124 are threaded through and lashing members 116 and liner ties 120 to hold the liner in -16an upright, expanded position in the cargo container. More specifically, one end of rope segment 122 is tied to the ring 116 at the front of the container, and the second end of this rope segment is threaded through the lashing members 116 and the liner ties 120 on the right side of the liner. Once this second end of rope segment 122 reaches the back of container body 102, the rope segment is pulled taut and tied to a ring 116 at that end of the container body. Similarly, one end of rope segment 124 is tied to the ring at the left front of the cargo container, and the second end of this rope segment is threaded through the lashing members 116 and the liner ties 120 on the left side of the liner, starting from the front of the liner and moving rearward therealong. Once the second end of this rope segment reaches the back of container body 102, the rope is pulled taut and tied to a ring 116 at that end of the cargo container.

After the top portion of liner 104 is hung from container body 102, the liner may be fully inflated and a 20 bulkhead may be installed in the cargo container, against back panel 112f of the liner. Further bracing may be provided to support the back panel of the liner. A number of excellent systems for bracing the bulkhead and the back panel of the liner are disclosed in the above-mentioned patent application No. 627,695, filed December 14, 1990.

Once liner 104 is fully secured and braced inside container body 102, cargo may be loaded into the lined container, also via inlet 112g. When this is completed, the cargo container 100 is transported to a destination, and there -17the cargo container is unloaded. Typically, this is done by opening outlet 112h and raising the front end of the container so that the cargo therein slides rearward and out through the outlet opening in liner back panel 112f.

As previously mentioned, a liner for a cargo container may be made by folding various sections of a tubular member to form top, bottom, front, back, and left and right panels of the liner. Figures 7-13 show a procedure for shaping or folding a tubular member 150 into a liner for a cargo container, and then attaching a bulkhead to that liner. In this procedure, various folds or flaps are formed on the liner as it is made; and these flaps are then used to attach the bulkhead to the liner without requiring that any securing device, such as. staples 15 or nails, extend into or be inserted into the interior of or the liner.

Figure 7 shows a flexible tubular member 150 ooae having front and back ends 150a and b. To form a liner from this tubular member, first and second sections 150c 20 and d of the tubular member, both of which extend forward from the back end of that member, are folded toward each ooo other to form, as shown in Figure 8, back panel 152 and left and right side flaps 154 and 156. More specifically, ~section 150c is folded downward about an edge, which becomes the top back edge of the liner; and section 150d is *folded upward about an edge, which become the bottom back edge of the liner. As sections 150c and d are so folded, a portion of section 150c and a portion of section 150d are folded against a third section 150e of tubular member 150, -18forming left flap 154, which has a generally triangular shape; and, at the same time, a portion of section 150c and a portion of section 150d are folded against a fourth section 150f of the tubular member, forming right flap 156, which also has a generally triangular shape. In addition, preferably, as the various sections of tubular member 150 are folded to form back panel 152 and flaps 154 and 156, a bottom flap 158 is also formed extending outward from a bottom edge of that back panel.

After sections 150c and 150d are folded, as described above, various edges of back panel 152 are sealed together. Specifically, left and right edges 152a and b of the back panel are connected to adjacent portions of tubular member 150; and in particular, those edges are 15 respectively connected to portions of the tubular member o o 150 that are, or that become, the left back and the right back edges of the liner 160 formed from the tubular member.

o In addition, the bottom edge of section 150c and the top edge of section 150d are connected together, extending 20 laterally across the middle of back panel 152. Edges 152a and b may be connected to the adjacent portion of tubular member 150, and the edges of sections 150c and 150d may be ~connected to each other in any suitable manner, such as by heat sealing. Preferably, section 150c is connected to section 150d along at least the full width of back panel 152, and edges 152a and 152b are connected to the adjacent portion of tubular member 152 along the entire height of those edges, forming an H-shaped seal on the back panel.

-19- In Figure 7, tubular member 150 is shown in an inflated or expanded condition, with a generally uniform, rectangular, transverse cross-section and having welldefined bottom, top, and left and right sides. It is not necessary that the tubular members have that shape when sections 150c and 150d are folded together, however; and those sections may be folded together to form back panel 152 when tubular member 150 itself is in a relatively flat condition.or in a partially expanded or inflated condition.

After the left and right edges of panel 152 are connected to the adjacent portions of tubular member 150, most, but not all, of the left and right side flaps 154 and 156 are cut off, leaving left and right connecting flaps 154a and 156a, as shown in Figure 9. These flaps are used to connect a bulkhead to liner 160, as described below.

With reference to Figure 10, bulkhead 162- has a comparatively flat shape, comprising a main, or central, body section 164, and left,., right, and bottom connecting flaps 166, 170, and 172. Left flap 166 is foldably connected to body section 164, along a left edge 164a thereof; right flap 170 is foldably connected to body section 164, along right edge 164b thereof; and bottom flap 172 is foldably connected to body section 164, along bottom edge 164c thereof.

Each of the connecting flaps of bulkhead 162, in turn, include a pair of sections, a first of which is foldably connected to the body section of the bulkhead, and a second of which is foldably connected to the first section of the flap. More specifically, with particular reference to Figure 11-, flap 166 includes sections 166a and b. Section 166a is foldably connected to body section 164 along edge 164a, and section 166b is foldably connected to flap section 166a along a fold line 166c, which extends parallel to edge 164a. Preferably the height of each flap section 166a and b is the same as the height of body section 164, and these two flap sections have equal widths.

Similarly, with reference to Figure 12, flap 170 includes flap section 170a and 170b. Section 170a is foldably connected to body section 164 along edge 164b, and section 170b is foldably connected to flap section 170a along a fold line 170c, which extends parallel to edge 164b.

Preferably, the height of each flap section 170a and b is the same as the height of body section 164, and these two 15 flaps sections have equal widths. In addition, with reference to Figure 13, bottom flap 172 includes flap sections 172a and 172b; and section 172a is foldably connected to the body section 164 along edge 164c, and section 172b is foldably connected to flap section 172a 20 along a fold line 172c, which extends parallel to edge 164c. Preferably the length of each of the flap sections 172a and 172b is the same as the width of body section 164, and these two flap sections have equal widths.

The size and shape of main body section 164 of bulkhead 162 is substantially commensurate with the size and shape of back panel 152 of liner 160. Also, the width of each section of each bulkhead flap is slightly more than the width of the corresponding flap of liner 160. In particular, the width of each bulkhead flap section 166a -21and 166b is slightly greater than the width of liner flap 154a, the width of each bulkhead flap section 170a and 170b is slightly greater than the width of liner flap 156a, and the width of each bulkhead flap section 172a and 172b is slightly greater than the width of liner flap 158.

To attach bulkhead 162 to liner 160, the bulkhead is positioned against back panel 152 of the liner. More specifically, the central body section 164 of the bulkhead is positioned against back panel 152, substantially coterminus therewith. Also, left bulkhead flap 166 is positioned against left liner flap 154a, right bulkhead flap 170 is positioned against right liner flap 156a, and bottom bulkhead flap 172 is positioned against bottom liner Sflap 158. Then, each bulkhead flap is connected to. the 15 corresponding liner flap; and preferably this is done by sandwiching each liner flap between the two sections -of the corresponding bulkhead flap, and then stapling together the two sections of each bulkhead flap with the corresponding liner flap tightly captured between these two bulkhead flap 20 sections.

More specifically, with reference to Figure 11, left bulkhead flap section 166a is positioned directly against liner flap 154a, bulkhead flap section 166b is folded around liner flap 154a, sandwiching the liner flap 25 between the two bulkhead flap sections 166a and b, and then these two bulkhead flap sections are stapled together, by means of staples 174, to capture liner flap 154a therebetween. Likewise, as may be best understood from Figure 12, right bulkhead flap section 170a is positioned -22t 'S .f" directly against liner flap 156a, bulkhead flap section 170b is folded around this liner flap, sandwiching that liner flap between the two bulkhead flap sections 170a and b, and staples 174 are then used to staple together these two bulkhead flap sections to capture liner flap 156a between them. Also, .with particular reference to Figure 12, bottom bulkhead flap section 172a is positioned directly against liner flap 158, bulkhead flap section 172b is folded over this liner flap, sandwiching that liner flap between the two bulkhead flap sections 172a and b, and then these bulkhead flap sections are stapled together to capture liner flap 158 therebetween.

In addition to the foregoing, a pressure eeeo sensitive adhesive is preferably applied onto the entire 15 backside of bulkhead 162 that is, the side of the eeoc bulkhead that is positioned directly against liner panel 152 and flaps 154a, 156a, and 158-- to help secure the bulkhead to the liner.

eeoc Any suitable procedure may be used to form a front panel for liner 160. For instance, with reference to Figures 7 and 8, sections of tubular member 150 adjacent the front end thereof may be folded and then connected together to form a front panel of the liner.

Alternatively, a separate piece of material may be connected to front end 150a of tubular member 150 to form a front panel.

Liner 160 may be made from any suitable material, such as a thin polyethylene material; and the liner may be stored, handled, and secured in a cargo container in any -23n(" suitable manner. For example, the liner may be provided with a multitude of the connecting segments 132 described above to help hold the liner in place in a cargo container.

Bulkhead 162 may also be made of any suitable material; and for example, the bulkhead may be made from a single blank of corrugated cardboard, which is scored to form fold lines 164a, b, and c, 166c, 170c, and 172c.

Alternatively, the central section 164 and flaps 166, 170, and 172 may each be formed from a respective one, separate piece of material, which are connected together to make the bulkhead. In addition, it should be noted that, in "assembly, the two sections of each of the bulkhead flaps 166, 170, and 172 may be connected together by means other ooo• than staples, and for example, nails or screw may be used.

15 Stapling is preferred, however, because it is a relatively simple and inexpensive, yet very effective procedure.

S"Also, bulkhead 162, specifically central section 164 thereof, may be provided with openings or with score lines, o• ~generally references at 164d, to form cargo inlet and outlet openings in the bulkhead.

As discussed above, with liners of the type that ~are used to line the interiors of modular cargo containers, inlet and outlet chutes are commonly connected to the liners to help conduct cargo into and to help discharge the cargo from the interiors of the liners. Typically, these chutes are tied closed to prevent cargo from being discharged through the chutes from the interior of the liner while the cargo container is being transported.

Figures 14 and 15 illustrate a further, improved flexible -24and inflatable liner having a self-collapsing inlet chute that eliminates the need to tie the chute closed.

More specifically, Figures 14 and 15 illustrate a portion of liner 202 and inlet chute 204. Liner 202 defines an interior for holding a bulk cargo, and forms a cargo inlet opening 206. The specific embodiment of liner illustrated in part in Figures 14 and 15 has a substantially parallelepiped shape and includes top and back panels, each of which has a generally flat, rectangular shape. As will be appreciated, however, liners having other shapes may be employed in the practice of the present invention.

Inlet chute 204 extends through inlet 206, and oeme includes interior and exterior portions 204a and 204b, 15 which are respectively located inside and outside liner eeoc 202. Preferably, chute 204 is sealed to the liner 202, around inlet 206, as referenced at 210, to prevent cargo from passing into or out of the liner interior through the o• interface between chute 204 and liner 202. A heat sealing procedure may be used to seal the chute to. the liner, although other suitable connecting procedures may also be o" used.

To load cargo into liner 202, chute 204 is opened into a position, shown in Figure 14, in which the chute forms a tubular shaped passageway, and the cargo is simply conducted through the chute and into the liner interior.

Typically, bulk cargo is loaded into a liner by forcing the cargo thereinto under pressure; and as this is done, the air pressure inside the liner increases to a level greater t( than the air pressure outside the liner. When the loading of the cargo into the liner 202 is completed, the air pressure therein forces the inner portion 204a of the chute 204 into a comparatively flat, closed position against the liner, specifically the back panel thereof, as shown in Figure 15. This closes inlet 206 and prevents cargo from passing out through the chute 204.

To help keep chute 204 in its open position while cargo is being loaded through that chute, a stiff or rigid tubular member, such as a pipe or a similar device 212, may be positioned inside the chute, as shown in Figure 16.

This tubular member is removed from the chute after the .desired amount of cargo is loaded into the liner to allow the chute to collapse into its closed position.

15 Figures 17-19 show a portion of an alternate liner 214, in which the liner 216 inlet is formed by an elongated slit. More specifically, liner 214 also defines an interior for holding a bulk cargo, and forms an inlet opening 216, which comprises an elongate slot cut into the liner. Inlet chute 220 extends through inlet 216 and includes interior and exterior portions 220a and 220b, which are respectively located inside and outside liner 214. Chute 220 is sealed to the liner 214 around inlet 216, as referenced at 222, to prevent cargo from passing into or out of the interior of the liner, through the interface between chute 229 and liner 214. Preferably, as with the embodiment of the invention shown in Figures 14- S16, this sealing is achieved by a heat sealing procedure.

If such a heat sealing procedure is used with the -26embodiment of the invention shown in Figures 17 and 18, it may be desirable to temporarily insert an insulating material or member into the chute 220 and in inlet 216, between the top and bottom sides of chute 220, to prevent those sides of the chute being sealed to each other.

Cargo may be loaded into the liner 214 in an manner analogous to the procedure discussed above in connection with Figures 14-16. Also, chute 220 is moved between open and closed positions, shown in Figures 17 and 18, respectively, in the same way in which chute 204 of Figures 14 -16 is moved between its open and closed positions.

For the sake of simplicity, Figures 14-19 illustrate only portions of liners 202 and 214. As will be 15 understood by those of ordinary skill in the art, each of -these liners may be formed from any suitable material and in any suitable procedure, and these liners may be provided with numerous items such as connecting segments 132 and .liner ties 120 described above. Also, normally each liner 20 is provided with an outlet opening to discharge cargo from the liner, and a chute, which may or may not be selfcollapsing, may be connecting to the liner to facilitate oo. conducting cargq from the discharge outlet.

Self-collapsing chutes may be connected to the 25 liners at a multitude of locations, and these chutes may be used both as inlet and outlet chutes. For instance, as shown in Figures 20 and 21, a self-collapsing chute 224 may be connected to a top panel of an expandable liner 226 and, also, a self-collapsing chute 230 may be connected to a -27-

P

r rC II~ r back panel of liner 226 and used to discharge cargo therefrom. It may be particularly-useful to connect selfcollapsing chutes to the top panels of liners when the liner is used to transport liquid or semi-liquid cargos.

The liners disclosed herein may be used to carry a large variety of products including dry bulk chemicals, powdered and pelletized resins, flour, coffee, grains, and liquid and semi-liquid materials.

While it is apparent that the invention herein disclosed is well calculated to fulfill the objects previously stated, it will be appreciated that numerous modifications and embodiments may be devised by those skilled in the art, and it is intended that the appended claims cover all such modifications and embodiments as fall within the true spirit and scope of the present invention.

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Claims (12)

1. A flexible and expandable liner comprising: a liner body defining an interior for holding a bulk cargo, and forming an opening in communication with said interior; and a chute extending through said opening and having i) an interior portion located inside the interior of the liner body; and ii) an exterior portion located outside the liner body; wherein the chute is sealed to the liner body around said opening to prevent cargo from passing therebetween; and 10 wherein the interior portion of the chute has i) an open position wherein the chute forms a tubular passageway extending inward from the liner body and in communication with the interior S: thereof, and ii) a closed position wherein the chute is pressed against the body to 15 close said opening and to prevent cargo from passing therethrough.

2. A flexible liner according to claim 1 wherein, said opening has a circular shape.

3. A flexible liner according to claim 1, wherein said opening has a narrow, elongated shape.

4. A flexible liner according to claim 1, wherein said opening comprises an inlet for conducting cargo into the interior of the liner body. A method of connecting a chute to a flexible and expandable liner, said liner defining an interior for holding a bulk cargo, the method comprising: forming an opening in the liner; inserting the chute partially through said opening; and connecting the chute to the liner, around the opening, so as to form a seal between the chute and the liner to prevent cargo from passing therebetween.

DVG:JMD:#33942 -29- 8 March 2000

6. A method according to claim 5, wherein the connecting step includes the step of heat sealing the chute to the liner body around the inlet opening.

7. A method according to claim 6, wherein the connecting step further includes the step of inserting an insulating member into the chute and into said opening prior to the heat sealing step to prevent the chute from being sealed to itself during the heat sealing step. 10

8. A method of loading a bulk cargo into a flexible and expandable liner, the liner including a body defining an inlet opening and an interior for holding the cargo, and (ii) an inlet chute connected to said liner body and extending through the inlet opening, the method comprising: opening the inlet chute to form a tubular shaped passageway therethrough and in communication with the interior of the liner body; conducting the bulk cargo through said tubular passageway and into the interior of the liner body; and 20 raising a gas pressure in the interior of the body to force the inlet chute against the liner body and to close the chute and the inlet opening.

9. A method according to claim 8, wherein the conducting step includes the step of forcing the bulk cargo through the tubular passageway and into the interior of the liner body under pressure, wherein the gas pressure in said interior is raised as the bulk cargo is conducted thereinto.

A method according to claim 8, wherein the conducting step further includes the steps of: inserting a tubular member through the inlet chute to maintain the chute open during the conducting step; DVG:JMD:#33942 -30- 8 March 2000 conducting the bulk cargo through the tubular member; and removing the tubular member from the inlet chute to allow the gas pressure in the interior of the liner body to force the inlet chute closed.

11. A flexible and expandable liner substantially as hereinbefore described with reference to the accompanying drawings.

12. A method of connecting a chute to a flexible and expandable liner substantially as hereinbefore described with reference to the accompanying 10 drawings. DATED: 8 March 2000 *e CARTER SMITH BEADLE Patent Attorneys for the Applicants: PODD, Victor T; PODD, Victor I; PODD, Stephen D o0 C CC DVG:JMD:#33942 -31 8 March 2000