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.

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.

A dolly (10) comprises a body (12) having an upwardly projecting first locating formation (20) for locating a further dolly thereon in a stacked condition of said dollies. The body (12) has a second locating formation (21) for stacking the dolly (10) on a further dolly in a stacked condition of said dollies. The first locating formation (20) is engageable with a second locating formation on the further dolly stacked on the first mentioned dolly, and the second locating formation (21) is engageable with a first locating formation of the further dolly on which the first mentioned dolly (10) is stacked.

A dolly (10) comprises a body (12) having an upwardly projecting first locating formation (20) for locating a further dolly thereon in a stacked condition of said dollies. The body (12) has a second locating formation (21) for stacking the dolly (10) on a further dolly in a stacked condition of said dollies. The first locating formation (20) is engageable with a second locating formation on the further dolly stacked on the first mentioned dolly, and the second locating formation (21) is engageable with a first locating formation of the further dolly on which the first mentioned dolly (10) is stacked.

A shelving base bracket is an apparatus that is used to support and transport shelving units. The shelving base includes a rectangular frame which is made up of a plurality of lateral cross members. Each of the lateral cross members includes a base panel and a border panel. The base panel may be used to support a shelving platform for storing goods. The border panel provides structural strength to the lateral cross member and may be used to prevent items from falling off the shelving base frame. The shelving base frame also includes a plurality of corner brackets which is used to reinforce the connections between each of lateral cross members. Each of the plurality of lateral cross members is connected in-between two corner brackets. The plurality of corner brackets may be used to attach a shelving unit to the shelving base frame.

An inflatable cabinet is provided and includes a first inflatable cabinet stand and a base. The first inflatable cabinet stand is for storing products. The first inflatable cabinet stand includes members and first connectors. The members include side walls, a back wall, and a top member. The base is connected to the first inflatable cabinet stand and includes an air pump, second connectors and air lines. An air pump is configured to pump air into at least one of the members of the first inflatable cabinet stand. The second connectors are configured to connect to the first connectors. The air lines are connected between the air pump and the second connectors.

A method for attaching and detaching a substrate from a bonded stack is disclosed. A broadband light-absorbing material is combined with an adhesive material to form a broadband light-absorbing adhesive. A layer of the broadband light-absorbing adhesive is then applied on one side of a transparent carrier. A substrate is placed on the broadband light-absorbing adhesive and the transparent carrier to form a bonded stack. The substrate can be a wafer or a polymeric film. At this point, processing steps can be performed on the substrate. After the processing steps have been completed, a light pulse from a flashlamp is utilized to heat up the broadband light-absorbing adhesive in order to loosen the substrate from the bonded stack such that the substrate can be easily detached from the bonded stack.

A method for attaching and detaching a substrate from a bonded stack is disclosed. A broadband light-absorbing material is combined with an adhesive material to form a broadband light-absorbing adhesive. A layer of the broadband light-absorbing adhesive is then applied on one side of a transparent carrier. A substrate is placed on the broadband light-absorbing adhesive and the transparent carrier to form a bonded stack. The substrate can be a wafer or a polymeric film. At this point, processing steps can be performed on the substrate. After the processing steps have been completed, a light pulse from a flashlamp is utilized to heat up the broadband light-absorbing adhesive in order to loosen the substrate from the bonded stack such that the substrate can be easily detached from the bonded stack.