A blast resistant container includes a rigid outer cylinder, a rigid inner cylinder and at least one pumice brick. The rigid inner cylinder has a longitudinal axis. The at least one pumice brick is within the interior of the rigid inner cylinder.

A container is provided. The container comprises a cover, a base, and a body, which includes one or more spine structures and one or more door panels which may open and allow substantially lateral access to the interior of the container. The one or more door panels may be secured in a closed position by a latch mechanism. In a first mode, the latch mechanism is not released. In a second mode, the latch mechanism is released. The first mode and the second mode may operate concurrently and can be accessed separately via different mechanisms. A switch mechanism may alternate between the first mode and the second mode. Alternatively, a pedal includes a first pedal mechanism corresponding to the first mode and a second pedal mechanism corresponding to the second mode.

One example embodiment is adapted for use in facilitating collection and transport of memory devices, e.g., drives, motherboards, etc., e.g., for the purposes of subsequent destruction. The example embodiment has an outer bin, also called a garage or outer enclosure, within which is placed an inner bin with wheels. Once closed and locked, the outer bin has a door that can be opened so drives or other memory devices can be inserted. The drives then fall into the inner bin and, once sufficiently filled, the inner bin be easily wheeled out from the outer bin. The inner bin has its own locking lid that is secured when transporting the inner bin with the drives, e.g., to a destruction facility or area. Other features are provided as described below. Enhanced synergistic security features include use of multi-point locking latches to secure doors and lids, metal construction of the bins, and so on. The bins are sized to facilitate efficient collection and transport of potentially sensitive data center media.

A guide robot includes a lower module includes a wheel and a motor provided inside the lower module, and an upper module disposed at an upper portion of the lower module and including a trash can assembly and a display unit. The upper module includes a body part coupled to the upper portion of the lower module and a head part rotatably coupled to an upper portion of the body part. The body part includes a front case forming a front outer appearance of the body part and including the trash can assembly provided inside the front case, and a rear case forming a rear outer appearance of the body part and including the display unit. A garbage insertion part is provided at a portion of the front case corresponding to an upper portion of the trash can assembly to insert garbage into the trash can assembly.

A hand mounted secure waste item receptacle is described having a hollow container with a base formed to a single ring-shaped structure sized appropriately for mounting to one or more fingers of a human hand and stabilized against rotational motion. The top surface of the container has a central opening with narrowing slots extending radially outward providing access for the waste items and tool holding such items to be positioned therein and moved outward within any of the slots allowing for a wiping action to remove the waste item from the tool with the waste item to remain within the hollow receptacle.

System and method of managing waste at waste transfer stations. Open faced bins allow human entry for sorting, segregation or quarantining waste before it is moved to or mixed with bulk waste stations. Bins are located in covered or uncovered bays located away from waste stations. Stops and guides for precise and safe placement of bins in bays are provided. Bins have quick hitch connection points. To collect, store and redirect leachates in bins, a liquid capture zone and drain hole is provided. Bay design prevents public access to machine areas and adjacent bays.

A mobile waste storage device is disclosed. The mobile waste storage device includes a storage body and a pair of cover sections. The storage body includes a waste receiving space and a plurality of body fastener receiving passageways. The pair of cover sections is flexibly attached to the storage body and is extendable over each other when covering the waste receiving space. Each cover section includes a cover fastener receiving passageway extending through an end thereof and positioned to correspond with another cover fastener receiving passageway extending through an opposite cover section and one of the plurality of body fastener receiving passageways when the pair of cover sections overlap to cover the waste receiving space.

A waste or recycling container system is disclosed. The container system includes a container and a rigid liner for inserting into the container. The liner includes a supporting structure provided on a wall of the liner. The liner also includes bag retention structures. The liner is capable of being placed in the container in a first position and a second position. In the first position, the bag retention structures are below an opening of the container. In the second position, the supporting structure rests on a resting portion of the container walls and the liner is elevated with respect to the first position such that the bag retention structures are above the opening of the container.

Systems and methods for processing debris from job sites are disclosed. Carts for receiving the debris are also disclosed. Each cart has a base, a plurality of wheels extending downwardly from the base relative to a vertical axis, and a plurality of walls extending upwardly from the base. The walls and the base of each cart cooperate to define a debris-receiving space. The carts can be engaged by a lifting apparatus that rotates along an arcuate path to position the carts in an unloading position.

Systems and methods for processing debris from job sites are disclosed. Carts for receiving the debris are also disclosed. Each cart has a base, a plurality of wheels extending downwardly from the base relative to a vertical axis, and a plurality of walls extending upwardly from the base. The walls and the base of each cart cooperate to define a debris-receiving space. The carts can be engaged by a lifting apparatus that rotates along an arcuate path to position the carts in an unloading position.