A blow molded runner having a bottom wall and a top wall forming a double wall blow molded configuration, at least one compressed double wall structure defined by fusion an inner surface of the bottom wall to an inner surface of the top wall. At least two columns spaced apart at a distance wherein each of the at least two columns defines one of the at least one compressed double wall structure and has a top surface and the compressed double wall structure corresponding to each of the at least two columns extends from the top surface to a bottom surface of the runner at the at least two columns wherein the bottom surface is defined by an outer surface of the bottom wall. A width of the runner varies along a length thereof.

A blow molded runner having a bottom wall and a top wall forming a double wall blow molded configuration, at least one compressed double wall structure defined by fusion an inner surface of the bottom wall to an inner surface of the top wall. At least two columns spaced apart at a distance wherein each of the at least two columns defines one of the at least one compressed double wall structure and has a top surface and the compressed double wall structure corresponding to each of the at least two columns extends from the top surface to a bottom surface of the runner at the at least two columns wherein the bottom surface is defined by an outer surface of the bottom wall. A width of the runner varies along a length thereof.

Cable retainers for cables are disclosed. The cable retainers may include a panel having a pair of loop locks. The loop locks may engage each other to form a loop. The cable retainer may include a first and a second retention loop. Each retention loop may have a finger with a slot formed at a fold line of the finger. Each retention loop may also have a flap with a tab formed at a fold line of the flap. The finger and the flap of the first retention loop may be located directly across the panel from one another. The finger of the second retention loop may be located at a first end of the panel while the flap of the second retention loop may be located at a second end of the panel. The tabs and slots of each retention loop may interlock to form a rectangular cable passage. The cable may also include a reinforcement structure disposed in a retention loop. The reinforcement structure may be stepped reinforcement structure. The cable retainer may be formed entirely of paper and may be formed without and adhesive.

Cable retainers for cables are disclosed. The cable retainers may include a panel having a pair of loop locks. The loop locks may engage each other to form a loop. The cable retainer may include a first and a second retention loop. Each retention loop may have a finger with a slot formed at a fold line of the finger. Each retention loop may also have a flap with a tab formed at a fold line of the flap. The finger and the flap of the first retention loop may be located directly across the panel from one another. The finger of the second retention loop may be located at a first end of the panel while the flap of the second retention loop may be located at a second end of the panel. The tabs and slots of each retention loop may interlock to form a rectangular cable passage. The cable may also include a reinforcement structure disposed in a retention loop. The reinforcement structure may be stepped reinforcement structure. The cable retainer may be formed entirely of paper and may be formed without and adhesive.

A bundle of containers like bottles or cans comprises a structure (2) for holding containers (3), having a base wall (4) intended to support the containers (3) and lateral walls (5) extending from the base wall (4), which define a compartment (6) intended for the support of the containers (3). The compartment (6) is impermeable for receiving a predefined amount of ice intended for cooling the containers. The bundle (1) also comprises a wrapping (7) made of thermoretractable plastic material which wraps the structure (2) for holding containers (3) and the containers (3) arranged therein. The wrapping (7) has at least one access opening (8) for the introduction of the ice into the housing compartment (6) of the structure (2) for holding containers (3). An optional spacer between containers provides gaps for receiving the coolant.

A bundle of containers like bottles or cans comprises a structure (2) for holding containers (3), having a base wall (4) intended to support the containers (3) and lateral walls (5) extending from the base wall (4), which define a compartment (6) intended for the support of the containers (3). The compartment (6) is impermeable for receiving a predefined amount of ice intended for cooling the containers. The bundle (1) also comprises a wrapping (7) made of thermoretractable plastic material which wraps the structure (2) for holding containers (3) and the containers (3) arranged therein. The wrapping (7) has at least one access opening (8) for the introduction of the ice into the housing compartment (6) of the structure (2) for holding containers (3). An optional spacer between containers provides gaps for receiving the coolant.

A bioreactor system and packaging is provided. The bioreactor system includes a vessel for housing biomaterials for processing and a support structure. The vessel includes a flexible material defining a chamber and a mixing system positioned within the chamber. The mixing system includes an agitator for imparting motion and mixing to the contents of the vessel and includes a base affixed to the flexible material at a base section of the chamber, a shaft moveably mounted in the base and extending from the base into the chamber and at least one mixing element mounted to the shaft, the shaft configured to be driven by a motor magnetically coupled to the shaft and external to the lower portion of the chamber. The support structure is connected to the mixing system such that the shaft is moveable therein and configured to cooperate with an external structure to provide support for the shaft.

A container system useful for holding prepared foodstuffs in a refrigerator in an organized and convenient manner, having a frame, a plurality of containers with removable lids, and a retention means for holding the containers in fixed position relative to the frame when placed therein, and a method for using same.

A container system useful for holding prepared foodstuffs in a refrigerator in an organized and convenient manner, having a frame, a plurality of containers with removable lids, and a retention means for holding the containers in fixed position relative to the frame when placed therein, and a method for using same.

This sample rack conveying apparatus is provided with a pusher unit, a linear motion guide, and a conveyance drive mechanism. The pusher unit has a base portion, a moving member, and a base-side guide. The base portion is supported by the linear motion guide so as to be movable in a first guide direction. The moving member is provided with a pusher that pushes a sample rack. The base-side guide supports the moving member such that the moving member is movable in a second guide direction that crosses the first guide direction.