Heating roller and film production method

The invention claimed is: 1. A film production method comprising the steps of: supplying a heating medium into a heating roller and ejecting the heating medium from inside the heating roller, the heating roller comprising: a cylindrical member for heating a film, the cylindrical member having a first inner end surface and an opposing second inner end surface, with a heating medium which is supplied into the cylindrical member and ejected from inside the cylindrical member, the first inner end surface extending in a plane that is perpendicular to an outer peripheral surface of the cylindrical member; and a discharge member for discharging, inside the cylindrical member, the heating medium toward the first inner end surface of the cylindrical member, the heating medium being introduced into the cylindrical member through the second inner end surface of the cylindrical member and being discharged from a discharge opening of the discharge member, a distance between the discharge opening and the first inner end surface of the cylindrical member being longer than a distance between the discharge opening and the second inner end surface of the cylindrical member; and heating the film by wrapping the film on the outer peripheral surface of the cylindrical member of the heating roller. 2. The film production method as set forth in claim 1 , wherein: the film is a separator for a lithium ion secondary battery. 3. A film production method comprising the steps of: supplying a heating medium into a heating roller and ejecting the heating medium from inside the heating roller, the heating roller comprising: a cylindrical member for heating a film, the cylindrical member having a first end surface and an opposing second end surface and a peripheral wall extending between the first and second end surfaces, the peripheral wall having an inner peripheral surface and an outer peripheral surface, with a heating medium which is supplied into the cylindrical member so as to fill the cylindrical member and ejected from inside the cylindrical member, the film being wrapped on an outer peripheral surface of the cylindrical member; and a discharge member for discharging, inside the cylindrical member, the heating medium toward the inner peripheral surface of the cylindrical member, the cylindrical member rotating on a center longitudinal axis of the cylindrical member relative to the discharge member in response to transfer of the film, the discharge member being fixed and not rotated on the center longitudinal axis, and the discharge member discharging the heating medium toward the inner peripheral surface from a position coinciding with the center longitudinal axis of the cylindrical member and from a position between the first end surface and the second end surface of the cylindrical member; and heating the film by wrapping the film on an outer peripheral surface of the cylindrical member of the heating roller. 4. The film production method as set forth in claim 3 , wherein: the film is a separator for a lithium ion secondary battery. 5. A film production method comprising the steps of: supplying a heating medium into a heating roller and ejecting the heating medium from inside the heating roller, the heating roller comprising: a cylindrical member for heating a film, with a heating medium which is supplied into the cylindrical member and ejected from inside the cylindrical member; and a discharge member for discharging, toward one end surface of the cylindrical member, the heating medium which is supplied into the cylindrical member, the discharge member separating the heating medium into portions and discharging the portions of the heating medium respectively at a first discharge position and a second discharge position, the first discharge position and the second discharge position being arranged such that a distance from the first discharge position to the one end surface is longer than a distance from the second discharge position to the one end surface, the discharge member including a first discharge branch extending along a center axis of the cylindrical member, and a second discharge branch which branches from the first discharge branch and extends in a direction parallel to the center axis of the cylindrical member, the first discharge position being located at a first discharge opening at a tip of the first discharge branch, the second discharge position being located at a second discharge opening at a tip of the second discharge branch; and heating the film by wrapping the film on an outer peripheral surface of the cylindrical member of the heating roller. 6. The film production method as set forth in claim 5 , wherein: the film is a separator for a lithium ion secondary battery. 7. A film production method comprising the steps of: supplying a heating medium into a heating roller and ejecting the heating medium from inside the heating roller, the heating roller comprising: a cylindrical member for heating a film, with a heating medium which is supplied into the cylindrical member and ejected from inside the cylindrical member, the film being wrapped on an outer peripheral surface of the cylindrical member, the cylindrical member including a peripheral wall having the outer peripheral surface, a first inner end surface at a first end of the peripheral wall and a second inner end surface at a second end of the peripheral wall, the peripheral wall being thicker at the first end than at the second end, the first inner end surface extending in a plane that is perpendicular to an outer peripheral surface of the cylindrical member; and a discharge member having a cylindrical shape and being inserted inside the cylindrical member, the discharge member being configured to discharge the heating medium toward the first inner end surface of the cylindrical member; and heating the film by wrapping the film on an outer peripheral surface of the cylindrical member of the heating roller. 8. The film production method as set forth in claim 7 , wherein: the film is a separator for a lithium ion secondary battery.