A system for transporting a number of assortment boxes or toolboxes comprises at least one frame part and at least one transportation unit. The frame part comprises a top, a bottom, and a front opening. The frame part forms at least one compartment adapted to contain at least one assortment box or toolbox, wherein the front opening is dimensioned for receiving and introducing the assortment box or toolbox into the compartment. The transportation unit comprises a carrying means, a stabilisation means, wheels, a handle, and an arm. A distal end of the arm is connected to the carrying means and the wheels. A proximal end of the arm is connected to the handle. The carrying means is adapted to carry the bottom of the frame part. The stabilisation means is arranged at the arm, where the stabilization means is adapted to fixate the frame part to said transportation unit.

A system for transporting a number of assortment boxes or toolboxes comprises at least one frame part and at least one transportation unit. The frame part comprises a top, a bottom, and a front opening. The frame part forms at least one compartment adapted to contain at least one assortment box or toolbox, wherein the front opening is dimensioned for receiving and introducing the assortment box or toolbox into the compartment. The transportation unit comprises a carrying means, a stabilisation means, wheels, a handle, and an arm. A distal end of the arm is connected to the carrying means and the wheels. A proximal end of the arm is connected to the handle. The carrying means is adapted to carry the bottom of the frame part. The stabilisation means is arranged at the arm, where the stabilization means is adapted to fixate the frame part to said transportation unit.

An apparatus (100) for applying pressure to at least a portion of an edge surface (192), which bridges opposing faces (194) of a workpiece (190), comprises a frame (110), a first roller (120), a second roller (130), a rotation-control member (140), a first biasing member (150), and a second biasing member (160). The first roller (120) and the second roller (130) are coupled to the frame (110) and are rotatable relative to the frame (110). At least one of the first roller (120) or the second roller (130) is translatable relative to the frame (110) along a first axis (101). The rotation-control member (140) is movable relative to the frame (110), controlling rotation of the first roller (120) and the second roller (130) relative to the frame (110). The first biasing member (150) is configured to operate in compression along a second axis (102). The second biasing member (160) is positioned, in compression, between the frame (110) and the rotation-control member (140).

An apparatus (100) for applying pressure to at least a portion of an edge surface (192), which bridges opposing faces (194) of a workpiece (190), comprises a frame (110), a first roller (120), a second roller (130), a rotation-control member (140), a first biasing member (150), and a second biasing member (160). The first roller (120) and the second roller (130) are coupled to the frame (110), are rotatable relative to the frame (110), and are translationally fixed relative to the frame (110). The rotation-control member (140) is movable relative to the frame (110), controlling rotation of the first roller (120) and the second roller (130) relative to the frame (110). The first biasing member (150) is configured to operate in compression along a second axis (102). The second biasing member (160) is positioned, in compression, between the frame (110) and the rotation-control member (140).

An apparatus (100) for applying pressure to at least a portion of an edge surface (192), which bridges opposing faces (194) of a workpiece (190), comprises a frame (110), a first roller (120), a second roller (130), a rotation-control member (140), a first biasing member (150), and a second biasing member (160). The first roller (120) and the second roller (130) are coupled to the frame (110), rotatable relative to the frame (110) about a first pivot axis (125), and translationally fixed relative to the frame (110). The rotation-control member (140) is movable relative to the frame (110), controlling rotation of the first roller (120) and the second roller (130) relative to the frame (110). The first biasing member (150) is coupled to the frame (110) and is configured to operate in tension. The second biasing member (160) is positioned, in compression, between the frame (110) and the rotation-control member (140).

The mount includes a base formed of a substantially planar side wall and a substantially planar bottom wall. The interior surfaces of the walls intersect at a right angle. Each of the walls has an opening. The wall openings together form a recess adapted to receive the wheel. A first notched protrusion extends from the side wall interior surface and is intended to be received in a slot adjacent a cut-out on the side wall of a container on which the mount is installed. A second protrusion, having two portions situated as an angle extends from the bottom wall interior surface of the mount and is intended to be received in a slot adjacent a cut-out on the bottom of the container.

The mount includes a base formed of a substantially planar side wall and a substantially planar bottom wall. The interior surfaces of the walls intersect at a right angle. Each of the walls has an opening. The wall openings together form a recess adapted to receive the wheel. A first notched protrusion extends from the side wall interior surface and is intended to be received in a slot adjacent a cut-out on the side wall of a container on which the mount is installed. A second protrusion, having two portions situated as an angle extends from the bottom wall interior surface of the mount and is intended to be received in a slot adjacent a cut-out on the bottom of the container.

An apparatus for lifting and moving a pallet rack includes a lifting portion and a supporting portion. The lifting portion and the supporting portion are in telescoping relation to each other and joined by a threaded rod. A swiveling caster is connected to the supporting portion, and a drive shaft is coupled to the threaded rod, with the drive shaft preferably extending out of the lifting portion. A vertical base plate is removably coupled to the lifting portion and includes at least one primary attachment point for attaching a bracket. The bracket is removably affixed to at least one primary attachment point, and preferably includes several secondary attachment points arranged to align with mounting points on the pallet rack so the pallet rack can be lifted by rotating the drive shaft.

The mount includes a base formed of a substantially planar side wall and a substantially planar bottom wall. The interior surfaces of the walls intersect at a right angle. Each of the walls has an opening. The wall openings together form a recess adapted to receive the wheel. A first notched protrusion extends from the side wall interior surface and is intended to be received in a slot adjacent a cut-out on the side wall of a container on which the mount is installed. A second protrusion, having two portions situated as an angle extends from the bottom wall interior surface of the mount and is intended to be received in a slot adjacent a cut-out on the bottom of the container.

The mount includes a base formed of a substantially planar side wall and a substantially planar bottom wall. The interior surfaces of the walls intersect at a right angle. Each of the walls has an opening. The wall openings together form a recess adapted to receive the wheel. A first notched protrusion extends from the side wall interior surface and is intended to be received in a slot adjacent a cut-out on the side wall of a container on which the mount is installed. A second protrusion, having two portions situated as an angle extends from the bottom wall interior surface of the mount and is intended to be received in a slot adjacent a cut-out on the bottom of the container.