The present application discloses a collapsible organizer of the present application comprises a base, a pair of side walls and a pair of top rods. The pair of side walls is rotatably coupled to the base, wherein each of the side walls comprises a pair of slots. Each of the top rods comprises a straight portion and a pair of insertions coupled to two ends of the straight portion correspondingly, one of the insertions is insertably coupled to one of the slots of one of the side walls, another one of the insertions is insertably coupled to one of the slots of another one of the side walls. A method for utilizing the aforementioned collapsible organizer is also disclosed, comprising: rotating the pair of the side walls; and inserting the pair of top rods to the slots of the pair of side walls.

A method of forming and assembling a foldable plastic utility enclosure using molds to form sides of the enclosure, preferably using glass fiber-reinforced thermoplastic composite. The molds are constructed to form a central hole in hinge members which are formed on ends of the sides. The central hole of the hinge member is molded with two molding parts, wherein one or both of the molding parts have a solid central portion that forms the central hole. The sides are removed from the molds after curing and the sides are assembled to form the utility enclosure while the sides are still hot from the molding process. Hinge pins are inserted into the central holes of the hinge members to form hinges and to prevent the sides from warping during cooling. Assembling the sides and inserting hinge pins to form the utility enclosure is completed within approximately 10 minutes after removing the sides from the molds.

A method of forming and assembling a foldable plastic utility enclosure using molds to form sides of the enclosure, preferably using glass fiber-reinforced thermoplastic composite. The molds are constructed to form a central hole in hinge members which are formed on ends of the sides. The central hole of the hinge member is molded with two molding parts, wherein one or both of the molding parts have a solid central portion that forms the central hole. The sides are removed from the molds after curing and the sides are assembled to form the utility enclosure while the sides are still hot from the molding process. Hinge pins are inserted into the central holes of the hinge members to form hinges and to prevent the sides from warping during cooling. Assembling the sides and inserting hinge pins to form the utility enclosure is completed within approximately 10 minutes after removing the sides from the molds.

A modular, multiconfigurable container adapted to collapse for stowability and portability which is capable of being arranged in several geometries; whereby the container is operable to enable a user to assembly the container without tools, screws or external fasteners, and customize the container with minimal effort and skillset requirements for assemblage, so as to enable a user to customize said container for optimal stowing of categorized items in multiple interior bins, the container further configured to facilitate disassembly and stowage, one-man portability, and minimal tool and skillset requirements for assemblage. In various embodiments, the side panels and base panel are affixed together using a live hinge. The tote container further operates to allow a user to apply labels forwardly and rearwardly on the container within a recess adapted for that purpose.

A storage container for storing product items in an automated storage and retrieval system includes a base; two first parallel side walls; two second parallel side walls perpendicular to the two first parallel side walls; a top opening; and two side openings, to allow one or more items to be unloaded from the storage container or loaded into the storage container through one of the side openings at an unloading station or at a loading station. The storage container is provided with a restraint which is arranged to restrain movement of the one or more items from exiting through one of the side openings during transportation of the storage container to the unloading or loading station. The restraint includes an elevatable floor movably connected to the storage container between: a lower position, arranged to restrain movement of the one or more items from exiting through one of the side openings during transportation of the storage container to the unloading or loading station; and an upper position, arranged not to restrain movement of one or more items from exiting through one of the side openings at the unloading or loading station. The elevatable floor includes apertures and the storage container includes friction increasing members positioned in the apertures. In the lower position, the elevatable floor is vertically aligned with, or lower than the friction increasing members. In the upper position, the elevatable floor is higher than the friction increasing members.

A collapsible crate with improved stability and smooth movement includes a top having two opposing top side sections defining top side axes and two opposing top end sections defining top end axes; a bottom having two opposing bottom side edges defining bottom side axes and two opposing bottom end edges defining bottom end axes; first and second opposing end walls, the first and second end walls each being pivotably connected to the top along the corresponding top end sections with interlocking projections; and first and second opposing side walls. The crate includes one or more features which help the crate remain in the erect configuration, for example, a first protrusion protruding from an inner surface of a first side wall, wherein the first protrusion is configured to abut with a portion of a first end wall with an interference fit when the crate is in an erect configuration.

A collapsible crate with improved stability and smooth movement includes a top having two opposing top side sections defining top side axes and two opposing top end sections defining top end axes; a bottom having two opposing bottom side edges defining bottom side axes and two opposing bottom end edges defining bottom end axes; first and second opposing end walls, the first and second end walls each being pivotably connected to the top along the corresponding top end sections with interlocking projections; and first and second opposing side walls. The crate includes one or more features which help the crate remain in the erect configuration, for example, a first protrusion protruding from an inner surface of a first side wall, wherein the first protrusion is configured to abut with a portion of a first end wall with an interference fit when the crate is in an erect configuration.

Described herein are embodiments of a yarn-carrying and dispensing apparatus. The embodiments described allow knitters to easily transport, carry and use balls of yarn for knitting and other knitting materials. The embodiments prevent the ball of yarn from rolling away or getting tangled or intertwined. The embodiments also easily and smoothly dispense the yarn, making the knitting more efficient and easier for the knitter. The embodiments provide additional elements to accommodate a knitter: (i) a ruler allowing, for example, to measure a knitting sampler; (ii) a needle gauge and needle openings, allowing, for example, to measure the size of a needle; and (3) an insert allowing, for example, to hold one or more balls of yarn.

A method of forming and assembling a foldable plastic utility enclosure using molds to form sides of the enclosure, preferably using glass fiber-reinforced thermoplastic composite. The molds are constructed to form a central hole in hinge members which are formed on ends of the sides. The central hole of the hinge member is molded with two molding parts, wherein one or both of the molding parts have a solid central portion that forms the central hole. The sides are removed from the molds after curing and the sides are assembled to form the utility enclosure while the sides are still hot from the molding process. Hinge pins are inserted into the central holes of the hinge members to form hinges and to prevent the sides from warping during cooling. Assembling the sides and inserting hinge pins to form the utility enclosure is completed within approximately 10 minutes after removing the sides from the molds.

A method of forming and assembling a foldable plastic utility enclosure using molds to form sides of the enclosure, preferably using glass fiber-reinforced thermoplastic composite. The molds are constructed to form a central hole in hinge members which are formed on ends of the sides. The central hole of the hinge member is molded with two molding parts, wherein one or both of the molding parts have a solid central portion that forms the central hole. The sides are removed from the molds after curing and the sides are assembled to form the utility enclosure while the sides are still hot from the molding process. Hinge pins are inserted into the central holes of the hinge members to form hinges and to prevent the sides from warping during cooling. Assembling the sides and inserting hinge pins to form the utility enclosure is completed within approximately 10 minutes after removing the sides from the molds.