A pocket device including a first major panel and a second major panel coupled together along a major fold line. The pocket device further includes a first pocket panel coupled to the first major panel along a first pocket fold line and forming a first pocket with the first major panel, and a second pocket panel coupled to the second major panel along a second pocket fold line and forming a second pocket with the second major panel. The first and second pocket panels are coupled along a minor fold line. A reinforcing material is positioned on at least part of at least one of the major fold line, the first pocket fold line, the second pocket fold line or the minor fold line.

A pocket device including a first major panel and a second major panel coupled together along a major fold line. The pocket device further includes a first pocket panel coupled to the first major panel along a first pocket fold line and forming a first pocket with the first major panel, and a second pocket panel coupled to the second major panel along a second pocket fold line and forming a second pocket with the second major panel. The first and second pocket panels are coupled along a minor fold line. A reinforcing material is positioned on at least part of at least one of the major fold line, the first pocket fold line, the second pocket fold line or the minor fold line.

The blank for making a folder is formed with a rhombic-shaped tab on each side flap. When each flap is folded over or under an extension folded onto the main section of the blank, the rhombic-shaped tab reinforces the corner of the pocket formed by folding over each flap onto a folded up extension.

The blank for making a folder is formed with a rhombic-shaped tab on each side flap. When each flap is folded over or under an extension folded onto the main section of the blank, the rhombic-shaped tab reinforces the corner of the pocket formed by folding over each flap onto a folded up extension.

A pocket device including a first major panel and a second major panel coupled together along a major fold line. The pocket device includes a first pocket panel coupled to the first major panel and defining a first pocket with the first major panel, the first pocket panel having an edge positioned adjacent to a mouth of the first pocket. The pocket device further includes a second pocket panel coupled to the second major panel and defining a second pocket with the second major panel, the second pocket panel having an edge positioned adjacent to a mouth of the second pocket. The pocket device has a first reinforcing material positioned on the first pocket panel adjacent to the mouth of the first pocket, wherein the first reinforcing material is spaced apart from the edge of the first pocket panel. The pocket device further has a second reinforcing material positioned on the second pocket panel adjacent to the mouth of the second pocket, wherein the second reinforcing material is spaced apart from the edge of the second pocket panel.

A pocket device including a first major panel and a second major panel coupled together along a major fold line. The pocket device includes a first pocket panel coupled to the first major panel and defining a first pocket with the first major panel, the first pocket panel having an edge positioned adjacent to a mouth of the first pocket. The pocket device further includes a second pocket panel coupled to the second major panel and defining a second pocket with the second major panel, the second pocket panel having an edge positioned adjacent to a mouth of the second pocket. The pocket device has a first reinforcing material positioned on the first pocket panel adjacent to the mouth of the first pocket, wherein the first reinforcing material is spaced apart from the edge of the first pocket panel. The pocket device further has a second reinforcing material positioned on the second pocket panel adjacent to the mouth of the second pocket, wherein the second reinforcing material is spaced apart from the edge of the second pocket panel.

A vertical file folder system is disclosed in several embodiments. The folder (10) has a plurality of pocket segments 20, 30, 32 which are joined together at their bottom by living hinges 38 which maintain the bottoms edges 16, 116, 216 spaced apart. Port 28 also allow for expansion as do slots 60. An alternative embodiment (FIG. 9-10) show a folder which has a bottom flap 320, side flap 322 and top flap 318 which overlie each other to create a three sided boundary for papers or other contents.

A vertical file folder system is disclosed in several embodiments. The folder (10) has a plurality of pocket segments 20, 30, 32 which are joined together at their bottom by living hinges 38 which maintain the bottoms edges 16, 116, 216 spaced apart. Port 28 also allow for expansion as do slots 60. An alternative embodiment (FIG. 9-10) show a folder which has a bottom flap 320, side flap 322 and top flap 318 which overlie each other to create a three sided boundary for papers or other contents.

According to one or more embodiments disclosed herein is a method of transporting equipment between sea-surface and seafloor by providing a structure with equipment mounted thereon. The equipment may be liquid storage tanks, pumps, compressors, separators, metering systems, energy sources, communication systems, buoyancy tanks, and the like. The structure is used for disposal and installation in a subsea environment by changing the volume of buoyancy material within at least one buoyancy tank.

According to one or more embodiments disclosed herein is a method of transporting equipment between sea-surface and seafloor by providing a structure with equipment mounted thereon. The equipment may be liquid storage tanks, pumps, compressors, separators, metering systems, energy sources, communication systems, buoyancy tanks, and the like. The structure is used for disposal and installation in a subsea environment by changing the volume of buoyancy material within at least one buoyancy tank.