An apparatus for dispensing a dispensable product can include a flexible inner container and an outer container. The inner container can have a cavity configured to receive a dispensable product, a top end defining or configured to define a sealable opening in fluid communication with the cavity, and a closed bottom end that defines one or more corners. The outer container can have a cavity configured to receive the inner container, a top end that is open or is configured to be opened, and a closed bottom. The inner container can be sized such that, when the top end of the outer container is open, the inner container is disposable within the cavity of the outer container such that the corner(s) are disposed within the cavity of the outer container and the top end of the inner container is foldable over the top end of the outer container

A trampoline packaging system has a box base with a box cover. A left footing stack is arranged from a plurality of left leg footings. The leg footings have a rear left leg bend and a front left leg bend. A right footing stack is arranged from a plurality of right leg footings. The leg footings have a rear right leg bend and a front right leg bend. A walled area is formed between the left footing stack and the right footing stack. The walled area has a front hollow and a rear hollow. A first vacuum bag holds an enclosure net and a second vacuum bag holds trampoline spring covers.

A flexible tank according to the present invention includes an inner tank having an inner space and having elasticity, an outer tank in which the inner tank is disposed, and a passage part passing through the inner tank in a reference direction, and having an outer end disposed outside the inner tank and an inner end disposed in the inner space so that the inner space communicates with the outside of the inner tank.

Reduction of contamination and the proportion of fines fractions in the packaging of rod form polysilicon is achieved by directly filling a plastic bag with polysilicon from a cleaning bowl by a rotating motion which causes polysilicon chunks to slide into the bag.

Provided is a perforated plastic bag wherein the volume of said bag is 100 liters or more; wherein the average perforation diameter is 500 micrometers or less; wherein said plastic bag comprises a lower zone and a top zone, wherein the perforation density of said lower zone is greater than the perforation density of said top zone. Also provided is a method of using such a plastic bag.

The present disclosure is directed to an apparatus and system for dispensing foods and liquids to be kept separate in a pouch, package or bag. The pouch has separate components within that separate components with a removable or openable divider between the components for combining the components. For example, a liquid component and a solid component can be kept separate in the packaging with a removable or openable barrier between the solid and liquid component. The packaging includes a base which supports the pouch, which is rollable or foldable into the base to provide a mechanism for adjusting the level of the material within the pouch in relation to an upper opening of the bag.

Embodiments described herein relate to systems, devices, and methods for packaging nutritional supplements. In one aspect, an apparatus can include a housing with a cover. The housing can define a chamber and the cover can move between an open configuration and a closed configuration. A plurality of pouches can be disposed in the chamber, and each pouch from the plurality of pouches can contain a strip having a nutrient disposed therein. In some embodiments, each pouch can contain a single strip. In some embodiments, the housing can be composed of a biodegradable material. In some embodiments, the housing can be composed of paper, cardboard, biodegradable plastic, KAPA? board, polyurethane, poster board, or any combination thereof. In some embodiments, each of the plurality of individual pouches can be composed of polyethylene, polypropylene, polyethylene terephthalate, acrylonitrile-butadiene-styrene, polyvinyl chloride, polyamide, polycarbonate, polyoxymethylene, polyurethane, or any combination thereof.

A foldable watering pot comprises a framework, a container, and a spout. An inside of the framework is hollow. The container is detachably mounted in a hollow portion of the framework, the container is made of a soft waterproof material, and an inlet is disposed on a top of the container, and a lid is disposed on the inlet for sealingly connected with the inlet. An outlet is disposed on a side of the container, the spout is disposed at one side of the framework, the outlet is connected to the spout through a connecting device, and the spout is rotatably connected with the framework and can form a seal for the outlet. The present invention can make the container shrinkable by the above structures, and therefore the watering pot can be conveniently stored and space can be saved.

Produce boxes and bags for shipping produce, e.g., bananas, utilize ventilation structures that allow for ventilation therethrough. A method of assembling produce boxes provides for cutouts that serve as ventilation structures in the boxes. When the produce boxes are stacked such as on a shipping pallet, the ventilation structures allow for ventilation of through the stacked boxes. Produce may be packed in a bag, which is closed with a rip cord and inserted into a produce box. The rip cord may be accessed when the box is in a stack such as on a shipping pallet, such that the rip cord may be pulled thereby opening the bag, without removing the box from the stack.

There is provided a 3D printing build material container (1). The container comprises a collapsible reservoir, (3) a relatively rigid reinforcement structure (4), a build material outlet structure (13) and a gas inlet structure (14). The reservoir is to hold build material (11). The reinforcement structure is to resist collapsing of at least one reinforced portion of the reservoir. The outlet structure is to allow build material to exit the reservoir. The inlet structure is to allow a gas to enter the reservoir.