The present disclosure provides a ray protection device and a radiation inspection system. The ray protection device comprises: a mobile bearing device, including a vehicle frame and a traveling device supporting the vehicle frame to drive the vehicle frame to travel in a first direction; and a protection wall, arranged on the vehicle frame and including a movable wall which is movable relative to the vehicle frame. The movable wall has a shielding position and a retracting position; at the shielding position of the movable wall, the protection wall has first projection area in a vertical plane parallel to the first direction; and at the retracting position of the movable wall, the protection wall has second projection area in the vertical plane, where the first projection area is larger than the second projection area.

The present disclosure provides a ray protection device and a radiation inspection system. The ray protection device comprises: a mobile bearing device, including a vehicle frame and a traveling device supporting the vehicle frame to drive the vehicle frame to travel in a first direction; and a protection wall, arranged on the vehicle frame and including a movable wall which is movable relative to the vehicle frame. The movable wall has a shielding position and a retracting position; at the shielding position of the movable wall, the protection wall has first projection area in a vertical plane parallel to the first direction; and at the retracting position of the movable wall, the protection wall has second projection area in the vertical plane, where the first projection area is larger than the second projection area.

Systems and methods for distribution, storage, transport, administration and/or disposal of one or more therapeutic or diagnostic agents are disclosed. A storage device configured to connect to a delivery system for delivering the therapeutic or diagnostic agent has a housing with a chamber, a vessel having an access port positioned within the chamber. The door is movable relative to the housing between a closed position and an open position. In the closed position, the door covers an opening in the housing to enclose the chamber, and, in the open position, the door reveals the opening for accessing the access port of the vessel. The door is moveable between the closed position and the open position in response to actuation by an access mechanism of the delivery system.

Systems and methods for distribution, storage, transport, administration and/or disposal of one or more therapeutic or diagnostic agents are disclosed. A storage device configured to connect to a delivery system for delivering the therapeutic or diagnostic agent has a housing with a chamber, a vessel having an access port positioned within the chamber. The door is movable relative to the housing between a closed position and an open position. In the closed position, the door covers an opening in the housing to enclose the chamber, and, in the open position, the door reveals the opening for accessing the access port of the vessel. The door is moveable between the closed position and the open position in response to actuation by an access mechanism of the delivery system.

Disclosed example radiographic source projectors include: a source housing configured to house a radiographic source capsule and to selectively expose the radiographic source capsule for radiographic imaging; a jacket holding the source housing and comprising a handle for carrying the source housing; and a removable tracker module; and a tracker module holder configured to accept the removable tracker module and to retain the removable tracker module within a cavity of the jacket.

Disclosed example radiographic source projectors include: a source housing configured to house a radiographic source capsule and to selectively expose the radiographic source capsule for radiographic imaging; a jacket holding the source housing and comprising a handle for carrying the source housing; and a removable tracker module; and a tracker module holder configured to accept the removable tracker module and to retain the removable tracker module within a cavity of the jacket.

A radiation protection container of a measuring system serves for radiometric density or fill level measurement. The radiation protection container is based on two base bodies connected to one another via a planar surface. The radiation waveguide extends for focused emission in a plane defined by the planar surface, wherein the radiation waveguide is formed by depressions in the base body surfaces. The radiation protection container comprises radiation absorption structures formed by depressions and complementary elevations in the base body surfaces lying on top of each other. An advantage is that refractory base bodies based on steel can be used and it is possible for the depressions and/or elevations to be realized using surface machining. The radiation absorption structures ensure that no radiation exits the radiation protection container laterally.

A radiation protection container of a measuring system serves for radiometric density or fill level measurement. The radiation protection container is based on two base bodies connected to one another via a planar surface. The radiation waveguide extends for focused emission in a plane defined by the planar surface, wherein the radiation waveguide is formed by depressions in the base body surfaces. The radiation protection container comprises radiation absorption structures formed by depressions and complementary elevations in the base body surfaces lying on top of each other. An advantage is that refractory base bodies based on steel can be used and it is possible for the depressions and/or elevations to be realized using surface machining. The radiation absorption structures ensure that no radiation exits the radiation protection container laterally.