Device and method for sterilizing a packaging container

1 . Device for sterilization of an interior surface of packaging containers with electron beam, comprising: an emitter provided with an electron exit window, said emitter being adapted to emit charge carriers through the electron exit window, said electrons forming an electron cloud, at least one outlet for conditioning at least a sterilized volume in the packaging container, wherein the outlet is adapted to provide a flow of a sterile gaseous medium, thereby generating a first condition at least inside the sterilized volume of the packaging container, wherein the first condition is adapted to prevent any flow of medium from outside the sterilized volume from coming into the sterilized volume without first being sterilized by the electron cloud. 2 . Device according to claim 1 , wherein the outlet is adapted to be provided within the electron cloud generated by the electrons emitted from the electron exit window. 3 . Device according to claim 2 , wherein said electron cloud and said flow of sterile gaseous medium together create an aseptic barrier during sterilization, and wherein said aseptic barrier is adapted to prevent any unsterile medium from reaching into the sterilized volume before being sterilized. 4 . Device according to claim 1 , wherein the emitter and the packaging container are adapted to perform a movement relatively to each other between first and second positions, wherein the first position is a position in which the packaging container and the emitter are not engaged with each other, and wherein the second position is a position in which an emitter portion, being provided with the electron exit window, is fully inserted into the packaging container, through an opening of the packaging container, for sterilization of the interior surface of the packaging container. 5 . Device according to claim 4 , wherein, during a movement from the second to the first position, the first condition is a flow of sterile gaseous medium configured to be controlled such that a volume of sterile gaseous medium added, per time unit, to the packaging container through the outlet is adapted to at least compensate for the volume of a portion of the emitter leaving the packaging container during the same time unit. 6 . Device according to claim 4 , wherein, during a movement from the second to the first position, the first condition is a flow of sterile gaseous medium configured to be controlled such that a volume of sterile gaseous medium added, per time unit, to the packaging container through the outlet is adapted to be larger than the volume of a portion of the emitter leaving the packaging container during the same time unit, such that a outflow of sterile gaseous medium can be created out from the sterilized volume of the packaging container. 7 . Device according to claim 4 , wherein, during a movement from the second to the first position, the first condition is a flow of sterile gaseous medium configured to be controlled such that a volume of sterile gaseous medium added, per time unit, to the packaging container through the outlet is adapted to be less than the volume of a portion of the emitter leaving the packaging container during the same time unit, but large enough to prevent any flow of medium from outside the sterilized volume from coming into the sterilized volume without first being sterilized by the electron cloud. 8 . Device according to claim 1 , wherein the sterilized volume is formed inside the packaging container, comprises the electron cloud and is separated from an ambient volume by means of the electron cloud. 9 . Device according to claim 1 , wherein the device it is adapted to control, adjust and/or adapt the flow of the sterile gaseous medium over time. 10 . Device according to claim 1 , wherein the device it comprises a tube, said tube being provided with the outlet. 11 . Device according to claim 10 , wherein the tube is arranged on the emitter. 12 . Device according to claim 10 , wherein the emitter extends basically along an axis, wherein the electron exit window is arranged in a plane perpendicular to the axis, wherein the emitter is adapted to be axially inserted along an extension of the packaging container, wherein the relative movement is made along the axis, and wherein the tube extends along the emitter. 13 . Device according to claim 12 , wherein the tube comprises an end surface in the plane of the electron exit window or a plane parallel to the plane of the electron exit window, and wherein the end surface comprises the at least one outlet. 14 . Device according to claim 12 , wherein the tube comprises an outer envelope surface in the vicinity of the electron exit window, wherein the outer envelope surface comprises the at least one outlet. 15 . Device according to claim 1 , wherein the device is arranged in an irradiation chamber in a filling machine, which filling machine also comprises at least one filling station for filling content into the packaging container, and at least one station for sealing the opening after filling. 16 . Method for sterilizing an interior surface of a packaging container with electron beam, the method comprising: positioning an emitter inside the packaging container, the emitter including an electron exit window emitting charge carriers through the electron exit window to form an electron cloud, conditioning at least a sterilized volume inside the packaging container the conditioning of at least the sterilized volume inside the packaging container comprising: introducing a flow of a sterile gaseous medium inside the container, and generating, by said flow, a first condition at least inside the sterilized volume of the packaging container that prevents any flow of medium from outside the sterilized volume from coming into the sterilized volume without first being sterilized by the electron cloud. 17 . Device for sterilizing an interior surface of a packaging container with electron beam comprising: an emitter comprised of a body that houses a sealed vacuum chamber in which is produced electrons, the body including a free end portion configured to be positioned inside the packaging container and at which is located an electron exit window from which is emitted the electrons while the electron exit window at the free end portion of the body is located in the packaging container to form an electron cloud in the packaging container that produces a sterilized volume in the packaging container; the emitter and the packaging container being relatively movable so that the emitter moves between one position in which the electron exit window at the free end portion of the body is positioned inside the packaging container to an other position in which the electron exit window at the free end portion of the body is positioned outside the packaging container; and a sterile gaseous medium tube configured to be connected to a sterile gaseous medium source, the tube being connected to the emitter so that relative movement between the emitter and the packaging container results in relative movement between the sterile gaseous medium tube and the packaging container, the sterile gaseous medium tube including an outlet from which the sterile gaseous medium tube flows and enters the packaging container to prevent any flow of medium outside the sterilized volume from coming into the sterilized volume without first being sterilized by the electron cloud. 18 . The device according to claim 17 , wherein the sterile gaseous medium tube