The present invention relates to a system for the disinfection of containers in a blowing and filling system of the containers with a product, in particular a system for the internal disinfection of the containers by means of ultraviolet-C radiation LED emitters.

The present invention relates to a system for the disinfection of containers in a blowing and filling system of the containers with a product, in particular a system for the internal disinfection of the containers by means of ultraviolet-C radiation LED emitters.

A vehicular sanitization control device includes a rechargeable internal power source, a deep ultraviolet light source, a first display light source configured to display an operating state of the deep ultraviolet light source, a second display light source configured to display a state of charge of the internal power source, and a control unit configured to control a power supplied to the deep ultraviolet light source, a charging operation of the internal power source, and displays of the first display light source and the second display light source, respectively.

A vehicular sanitization control device includes a rechargeable internal power source, a deep ultraviolet light source, a first display light source configured to display an operating state of the deep ultraviolet light source, a second display light source configured to display a state of charge of the internal power source, and a control unit configured to control a power supplied to the deep ultraviolet light source, a charging operation of the internal power source, and displays of the first display light source and the second display light source, respectively.

A safe sterilization unit includes a bearing portion, a light source portion and at least one safety switch. The bearing portion includes two surfaces corresponding to each other; the light source portion is configured to generate sterilization light, and is disposed on one surface of the bearing portion; and the safety switch is disposed on one side surface, provided with the light source portion, of the bearing portion, and is connected with the light source portion. The safety switch is disposed to sense light to generate a sensing message, and to regulate power supply of the light source portion according to the sensing message.

Provided are methods and apparatus for environment-adaptive robotic disinfecting. In an example, provided is a method that can include (i) creating, from digital images, a map of a structure; (ii) identifying a location of a robot in the structure; (iii) segmenting, using a machine learning-based classifying algorithm trained based on object affordance information, the digital images to identify potentially contaminated surfaces within the structure; (iv) creating a map of potentially contaminated surfaces within the structure; (v) calculating a trajectory of movement of the robot to move the robot to a location of a potentially contaminated surface in the potentially contaminated surfaces; and (vi) moving the robot along the trajectory of movement to position a directional decontaminant source adjacent to the potentially contaminated surface. Other methods, systems, and computer-readable media are also disclosed.

Provided are methods and apparatus for environment-adaptive robotic disinfecting. In an example, provided is a method that can include (i) creating, from digital images, a map of a structure; (ii) identifying a location of a robot in the structure; (iii) segmenting, using a machine learning-based classifying algorithm trained based on object affordance information, the digital images to identify potentially contaminated surfaces within the structure; (iv) creating a map of potentially contaminated surfaces within the structure; (v) calculating a trajectory of movement of the robot to move the robot to a location of a potentially contaminated surface in the potentially contaminated surfaces; and (vi) moving the robot along the trajectory of movement to position a directional decontaminant source adjacent to the potentially contaminated surface. Other methods, systems, and computer-readable media are also disclosed.

A disinfection apparatus for disinfecting an object is disclosed. The disinfection apparatus comprises at least one disinfection unit operable to perform a disinfection operation on the object to be disinfected, an outer casing and at least one actuating door. The outer casing and the at least one actuating door define a disinfection compartment. The apparatus includes at least one position sensor for detecting the presence of an object to be disinfected having been positioned within the disinfection compartment, at least one obstruction sensor operable to detect whether at least a first safety zone is clear, and a central control unit, the central control unit being operable to control operation of the at least one actuating door, the at least one position sensor, the at least one obstruction sensor, and the at least one disinfection unit.

A disinfection apparatus for disinfecting an object is disclosed. The disinfection apparatus comprises at least one disinfection unit operable to perform a disinfection operation on the object to be disinfected, an outer casing and at least one actuating door. The outer casing and the at least one actuating door define a disinfection compartment. The apparatus includes at least one position sensor for detecting the presence of an object to be disinfected having been positioned within the disinfection compartment, at least one obstruction sensor operable to detect whether at least a first safety zone is clear, and a central control unit, the central control unit being operable to control operation of the at least one actuating door, the at least one position sensor, the at least one obstruction sensor, and the at least one disinfection unit.

Vehicle comprising a plurality of walls defining a housing and a sanitization system for said housing comprising diffuser means, a source of sanitizing fluid, ventilation means and an electronic unit, this being configured to allow the passage of the sanitizing fluid from the source to the diffuser means, the diffuser means nebulizing this fluid inside said housing, the electronic unit being configured to activate the ventilation means to allow the airing of said housing following the nebulization of the sanitizing fluid inside the housing.