Vibrating blister

The invention claimed is: 1. An inhaler ( 1 ) for inhalation of a formulation ( 2 ), comprising: a housing ( 6 ) having an inlet ( 1 B) at a first end and an outlet ( 1 A) at an opposing, second end; and a carrier ( 3 ) in the form of a belt, strip, blister or film, wherein: at a resting position, the carrier ( 3 ) is planar and extends longitudinally within the housing between the first and second ends of the housing ( 6 ) along a longitudinal axis, the carrier ( 3 ) comprises a free end, an opposing end, and a spring portion ( 4 ) located between the free end and the opposing end that is deformable by spring resilience, the carrier ( 3 ) includes an oblique fin ( 5 ) extending obliquely with respect to the longitudinal axis from the free end of the carrier ( 3 ) at least when the carrier is at the resting position, the opposing end of the carrier ( 3 ) is connected to the housing ( 6 ) such that air current (L) entering and flowing through the inlet enters the housing ( 6 ) parallel to the longitudinal axis of the carrier ( 3 ) and impinges on the oblique fin ( 5 ) and sets the free end of the carrier ( 3 ) into motion transversely with respect to the longitudinal axis, and the spring resilience of the spring portion ( 4 ) opposes the motion of the free end of the carrier ( 3 ) transversely with respect to the longitudinal axis and in combination with continued air current (L) into the inlet of the housing ( 6 ) sets the carrier into oscillation (S). 2. The inhaler ( 1 ) according to claim 1 , characterized in that the spring portion ( 4 ) permits the carrier ( 3 ) to be movable at right-angles to the air current (L) but biases the carrier ( 3 ) back towards the resting position in the presence of the air current (L). 3. The inhaler ( 1 ) according to claim 1 , characterized in that the carrier ( 3 ) is pivotable or movable about an axis (A) perpendicular to the longitudinal axis and located in a region of the spring portion ( 4 ). 4. The inhaler ( 1 ) according to claim 1 , characterized in that the spring portion ( 4 ) comprises two spring bars ( 4 A) extending parallel to one another and parallel to the longitudinal axis. 5. The inhaler ( 1 ) according to claim 1 , characterized in that the spring portion ( 4 ) is in the form of a leaf and comprises an opening in the form of a longitudinal slot ( 4 B) extending parallel to the longitudinal axis. 6. The inhaler ( 1 ) according to claim 1 , characterized in that: the carrier ( 3 ) is impacted by the air current (L) at least substantially only from the free end opposite to the spring portion ( 4 ), and/or the air current (L) flows along the carrier ( 3 ) at least substantially only parallel to a flat side and/or at least substantially only on a flat side of the carrier ( 3 ). 7. The inhaler( 1 ) according to claim 1 , characterized in that the oblique fin ( 5 ) onto which the air current (L) impinges is adjacent to the inlet ( 1 B) of the inhaler ( 1 ). 8. The inhaler ( 1 ) according to claim 7 , characterized in that the carrier ( 3 ) and air inlet ( 1 B) are arranged in such a way that the carrier ( 3 ) is adapted to be impacted by the air current (L) substantially parallel to the longitudinal axis of the carrier ( 3 ). 9. The inhaler ( 1 ) according to claim 1 , characterized in that the inhaler ( 1 ) comprises an opening device ( 7 ) for opening a holding chamber ( 3 A) containing the formulation ( 2 ). 10. The inhaler ( 1 ) according to claim 9 , characterized in that the opening device ( 7 ) is formed by a manually deformable wall of the housing ( 6 ) and/or comprises at least one piercing element ( 7 A) that is resiliently and/or resettingly mounted. 11. The inhaler ( 1 ) according to claim 1 , characterized in that the inhaler ( 1 ) comprises at least one stop ( 8 , 9 ) for limiting the oscillation (S) of the carrier ( 3 ), the at least one stop ( 8 , 9 ) being formed within the housing ( 6 ) of the inhaler ( 1 ). 12. The inhaler ( 1 ) according to claim 1 , characterized in that the carrier ( 3 ) comprises a base element ( 3 B) forming a receptacle ( 3 A) for the formulation ( 2 ), and a cover ( 3 D) over the receptacle ( 3 A), wherein the cover ( 3 D) is at least partially covered by a covering device ( 10 ) which can be manually opened or removed in order to open the carrier ( 3 ) or the cover ( 3 D) for the subsequent dispensing of the formulation ( 2 ). 13. The inhaler ( 1 ) according to claim 12 , characterized in that the covering device ( 10 ) comprises: a cover element ( 10 A) having a first end coupled to a first peripheral edge of the base element ( 3 B) closest to the outlet ( 1 A) of the housing ( 6 ) and extending toward the inlet ( 1 B) over the cover 3 D and the receptacle ( 3 A) past a second opposing edge of the base element ( 3 B) closest to the inlet ( 1 B), a folded-back portion of the cover element ( 10 A) extending from the second opposing edge of the base element ( 3 B) back over the cover element ( 10 A), the cover ( 3 D) and the receptacle ( 3 A) and out through the outlet ( 1 A), and an associated grip element ( 10 B) for pulling the cover element ( 10 A) out through the outlet ( 1 A) and off the cover ( 3 D). 14. The inhaler ( 1 ) according to claim 12 , characterized in that the cover ( 3 D) comprises a plurality of holes ( 3 E) communicating with the formulation within the receptacle ( 3 A), which holes ( 3 E) are covered by the covering device ( 10 ) when the carrier ( 3 ) is closed. 15. The inhaler ( 1 ) according to claim 1 , characterized in that the inhaler ( 1 ) is a single-use inhaler with the carrier ( 3 ) arranged within the housing ( 6 ). 16. The inhaler ( 1 ) according to claim 1 , characterized in that the spring portion ( 4 ) extends at least substantially in a main plane of the carrier ( 3 ) or in a plane parallel thereto. 17. A method for the delivery and nebulisation of a formulation ( 2 ) from a carrier ( 3 ) that is flexible, flat, in the form of a belt, strip, blister or film, and extends longitudinally along a longitudinal axis, the method comprising the steps of: locating a free end of the carrier ( 3 ) adjacent to an air inlet ( 1 B) such that that air current (L) entering and flowing through the inlet ( 1 B) flows parallel to the longitudinal axis of the carrier ( 3 ) directly impacts a fin ( 5 ) and the carrier ( 3 ) oscillates in a defined manner where the fin is an oblique fin extending obliquely with respect to the longitudinal axis from the free end of the carrier at least when the carrier is at the resting position, directing the air current (L) to flow from the free end only over one flat side of the carrier ( 3 ), and the formulation ( 2 ) is released through a cover ( 3 D) of the carrier ( 3 ) with three to five holes ( 3 E), each hole ( 3 E) having a diameter of 0.5 mm to 3 mm, while a cover element ( 10 A) that closes off or covers the holes ( 3 E) is pulled manually away from the cover ( 3 D) by pulling on a grip element ( 10 B) before the formulation ( 2 ) is delivered. 18. An inhaler ( 1 ) for the inhalation of a formulation ( 2 ) comprising a carrier ( 3 ) in the form of a belt, strip, blister or film, wherein: at a resting position, the carrier ( 3 ) is planar and extends longitudinally along a longitudinal axis, the carrier ( 3 ) comprises a free end, an opposing end, and a spring portion ( 4 ) located between the free end and the opposing end that is deformable by spring resilience, the carrier includes an oblique fin extending obliquely with respect to the longitudinal axis from the free end of the carrier at least