A packaging container for an elongate object has a base and a protective sleeve to be pushed in a direction of a longitudinal axis of the protective sleeve onto the base. The protective sleeve can be secured at the base. The base has a receptacle for an end of an elongate object and the protective sleeve covers an elongate object received in the receptacle. The packaging container has a primary part of a first external coupling device and the primary part is detachably connectable to a secondary part of a second external coupling device that is provided on a further packaging container.

A packaging container for an elongate object has a base and a protective sleeve to be pushed in a direction of a longitudinal axis of the protective sleeve onto the base. The protective sleeve can be secured at the base. The base has a receptacle for an end of an elongate object and the protective sleeve covers an elongate object received in the receptacle. The packaging container has a primary part of a first external coupling device and the primary part is detachably connectable to a secondary part of a second external coupling device that is provided on a further packaging container.

The logistics arrangement comprises an arm adapted to be pivotably attached to a logistics stand. The arm comprises a support member adapted to carry an object, when the arm is substantially horizontally directed in a storage position, and a pivoting element adapted to pivotably attach the arm to the logistics stand, such that the arm is enabled to pivot between the storage position and a standby position where the arm is substantially vertically directed. The arm also comprises a stop member adapted to together with the logistics stand hold the arm in a storage position. The support member is connected with the stop member and the pivoting element, and the arm is configured to be forced into the standby position by an upwardly directed lift-movement of the another located object, during unload of the lower located object form the logistics stand. The invention also relates to a logistics stand comprising a plurality of logistics arrangements, a logistics system comprising a freight container and at least one logistics stand, and a method for unloading objects from a logistics stand.

The logistics arrangement comprises an arm adapted to be pivotably attached to a logistics stand. The arm comprises a support member adapted to carry an object, when the arm is substantially horizontally directed in a storage position, and a pivoting element adapted to pivotably attach the arm to the logistics stand, such that the arm is enabled to pivot between the storage position and a standby position where the arm is substantially vertically directed. The arm also comprises a stop member adapted to together with the logistics stand hold the arm in a storage position. The support member is connected with the stop member and the pivoting element, and the arm is configured to be forced into the standby position by an upwardly directed lift-movement of the another located object, during unload of the lower located object form the logistics stand. The invention also relates to a logistics stand comprising a plurality of logistics arrangements, a logistics system comprising a freight container and at least one logistics stand, and a method for unloading objects from a logistics stand.

A releasable lock (11) for a pipe cradle is disclosed. The releasable lock (11) comprises an elongate arm (1), pivotally secured at a first end to a pivot end mounted on a cradle frame (12). At a second end the releasable lock comprises a locking element (3), said locking element (3) being moveable between a release position allowing pivoting of the elongate arm (1) about the pivot end and a gripping position preventing said pivoting. The pivot end is moveable about a pivot pin (10) housed on the cradle, said movement displacing the elongate arm (1) between a first release position allowing removal or addition of pipes (15) from/to a cradle and a second position in which pipes are secured in position in the cradle.

A releasable lock (11) for a pipe cradle is disclosed. The releasable lock (11) comprises an elongate arm (1), pivotally secured at a first end to a pivot end mounted on a cradle frame (12). At a second end the releasable lock comprises a locking element (3), said locking element (3) being moveable between a release position allowing pivoting of the elongate arm (1) about the pivot end and a gripping position preventing said pivoting. The pivot end is moveable about a pivot pin (10) housed on the cradle, said movement displacing the elongate arm (1) between a first release position allowing removal or addition of pipes (15) from/to a cradle and a second position in which pipes are secured in position in the cradle.

A protective apparatus configured to protect electrode plates includes a support assembly configured to support a roll around which the electrode plates are wound, and a damping assembly. A top of the damping assembly is fixed to a bottom of the support assembly, and a bottom of the damping assembly is configured to be fixed to a base plate of a transport apparatus.

A protective apparatus configured to protect electrode plates includes a support assembly configured to support a roll around which the electrode plates are wound, and a damping assembly. A top of the damping assembly is fixed to a bottom of the support assembly, and a bottom of the damping assembly is configured to be fixed to a base plate of a transport apparatus.

This invention describes an interchangeable dismountable hinged box (C) for storing core samples, particularly used in the field of the collection of mineral materials, deriving from geological exploration activities, for subsequent analysis. The invention reveals a box (C) comprising modular walls (2 and 3) that can be fitted interchangeably with a base (1), allowing for the hinging of these walls (2 and 3) between a parallel position and a position perpendicular to the base (1). The box (C) comprises at least one storage compartment (C1) for core samples (T) defined between two modular transversal walls (2) and two modular longitudinal walls (3), and may comprise additional storage compartments (C1), obtained by interlocking interchangeable partitions (4) with modular walls (2). The box (C) is adaptable as it meets the need for storing core samples (T) of varying diameters.

This invention describes an interchangeable dismountable hinged box (C) for storing core samples, particularly used in the field of the collection of mineral materials, deriving from geological exploration activities, for subsequent analysis. The invention reveals a box (C) comprising modular walls (2 and 3) that can be fitted interchangeably with a base (1), allowing for the hinging of these walls (2 and 3) between a parallel position and a position perpendicular to the base (1). The box (C) comprises at least one storage compartment (C1) for core samples (T) defined between two modular transversal walls (2) and two modular longitudinal walls (3), and may comprise additional storage compartments (C1), obtained by interlocking interchangeable partitions (4) with modular walls (2). The box (C) is adaptable as it meets the need for storing core samples (T) of varying diameters.