System composed of inhaler and capsule

The invention claimed is: 1. System comprising an inhaler and a capsule for use as a reservoir for a pharmaceuticals wherein the capsule comprises two capsule elements open at one end, the two capsule elements including a capsule body ( 2 ) and a capsule cap ( 1 ), which are fitted into one another telescopically through their respective openings so as to form a cavity, the inhaler comprises a capsule chamber ( 74 ), the capsule body ( 2 ) and/or the capsule cap ( 1 ) each comprise, in addition to the respective opening at one end, at least one prefabricated hole ( 7 , 6 ), before the inhaler is used, the capsule ( 71 ) is stored in a capsule receptacle ( 173 a ), the capsule receptacle ( 173 a ) sealing off at least one hole ( 72 a , 72 b ) which leads into the cavity of the capsule ( 71 ), the capsule receptacle ( 173 a ) is at least partly arranged in the capsule chamber ( 74 ), and the capsule receptacle ( 173 a ) is removed from the capsule chamber ( 74 ) by means of a pulling mechanism, such that when the capsule receptacle ( 173 a ) is removed, the capsule ( 71 ) remains in the capsule chamber ( 74 ), the inhaler comprises a mouthpiece ( 78 ) with a mouth tube ( 78 d ) that connects the capsule chamber ( 74 ) to an air outlet, a component that forms or encompasses the capsule receptacle ( 173 a ) extends through the mouth tube ( 78 d ) in the inhaler, the inhaler comprises a tongue, pin or bar ( 75 ) that delimits the capsule chamber ( 74 ) and extends through the capsule receptacle ( 173 a ), and the capsule receptacle ( 173 a ) comprises a recess through which the tongue, pin or bar ( 75 ) slides during relative movement between the component and the capsule chamber ( 74 ). 2. The system according to claim 1 , wherein the capsule receptacle ( 173 a ) is part of, or is formed by, a pulling element ( 173 ). 3. The system according to claim 1 , wherein each of the capsule body ( 2 ) and the capsule cap ( 1 ) are of cup-shaped configuration, comprise a capsule casing which forms a cylindrically or elliptically encircling wall, and the at least one prefabricated hole ( 7 , 6 ) in the capsule body ( 2 ) and/or the capsule cap ( 1 ) are arranged in an encircling wall region of the capsule casing. 4. The system according to claim 3 , wherein the capsule casing of the capsule body ( 2 ) and the capsule cap ( 1 ) comprise, on sides that abut on one another in an inserted state, a structuring that enables the two capsule elements to be fitted into one another only in a defined alignment. 5. The system according to claim 3 , wherein the at least one prefabricated hole ( 7 , 6 ) of the capsule body ( 2 ) and the capsule cap ( 1 ) comprise two holes ( 7 a , 7 b , 6 a , 6 b ) in upper and lower regions of the capsule casing, so that in the second insertion position the capsule ( 71 ) comprises two holes in the capsule casing. 6. The system according to claim 5 , wherein each of the two holes in the capsule casing is close to a capsule end. 7. The system according to claim 1 , wherein: both the capsule cap ( 1 ) and the capsule body ( 2 ) each comprise the at least one prefabricated hole ( 6 , 7 ) in addition to the opening at one end, and there is an insertion position with respect to the telescopic fitting together of the capsule body ( 2 ) and capsule cap ( 1 ) in which the at least one prefabricated hole ( 7 , 6 ) in the capsule body ( 2 ) and the capsule cap ( 1 ) are in registry with one another, such that the otherwise closed capsule comprises at least one hole at corresponding locations. 8. The system according to claim 7 , wherein the closed capsule comprises two holes at the corresponding locations. 9. The system according to claim 1 , wherein: both the capsule cap ( 1 ) and the capsule body ( 2 ) each comprise the at least one prefabricated hole ( 6 , 7 ) in addition to the opening at one end, the capsule comprises, with respect to the telescopic fitting, together of the capsule body ( 2 ) and the capsule cap ( 1 ), two insertion positions, in a first insertion position, the capsule body ( 2 ) and the capsule cap ( 1 ) are fitted into one another such that the at least one prefabricated hole ( 7 , 6 ) in the capsule body ( 2 ) and the capsule cap ( 1 ) are covered, and thus the cavity in the capsule ( 71 ) is closed off, and in a second insertion position, the capsule body ( 2 ) and the capsule cap ( 1 ) are fitted into one another such that the at least one prefabricated hole ( 7 , 6 ) in the capsule body ( 2 ) and the capsule cap ( 1 ) overlap one another, such that the entire capsule ( 71 ) comprises a hole at a corresponding location. 10. The system according to claim 9 , wherein the capsule body ( 2 ) and the capsule cap ( 1 ) comprise latching elements interacting with one another which have the effect that the two capsule elements after being fitted into one another up to the first insertion position can no longer be separated from one another non-destructively and/or in that the relative position of the two capsule elements relative to one another is fixed. 11. The system according to claim 9 , wherein the capsule body ( 2 ) and the capsule cap ( 1 ) each comprise the at least one prefabricated hole ( 7 , 6 ), which can be brought into registry by fitting the two capsule elements into one another, and one of the at least one prefabricated hole ( 7 ) in an outer capsule element, is larger than the other of the at least one prefabricated hole ( 6 ), and/or is embodied as an oblong hole or an elliptical hole. 12. The system according to claim 1 , wherein the capsule elements are made from polyethylene, polycarbonate, polyester, polypropylene or polyethylene terephthalate, in an injection moulding process and the at least one prefabricated hole ( 6 , 7 ) are formed in the same injection moulding process. 13. The system according to claim 1 , wherein the air outlet representing an opening in the center of the end of the mouthpiece ( 78 ) that is next to the mouth during use. 14. The system according to claim 1 wherein: the inhaler comprises the mouthpiece ( 78 ) with one end that is closest to a mouth of a user during use and forms an opening that is connected to the capsule chamber ( 74 ) in a middle of a mouth end, and a component that forms the capsule receptacle ( 173 a ) is embodied as a cap which, in a transporting state of the system, closes off the opening at the mouth end. 15. The system according to claim 14 , wherein the cap closes off the opening at the mouth end in such a way that the areas to which a user places his lips when using the inhaler are covered. 16. The system according to claim 1 , wherein a component that forms the capsule receptacle ( 173 a ) comprises elements which prevent the capsule receptacle ( 173 a ) from being non-destructively reinserted in the capsule chamber ( 74 ) after being fully removed from the capsule chamber ( 74 ). 17. The system according to claim 16 , wherein the elements include spring arms which prevent the capsule receptacle ( 173 a ) from being non-destructively reinserted in the capsule chamber ( 74 ) after being fully removed from the capsule chamber ( 74 ). 18. The system according to claim 1 , wherein the capsule receptacle ( 173 a ) is formed by a thermoformed film or blister film. 19. The system according to claim 1 , wherein the inhaler comprises a body ( 100 ) forming the capsule chamber ( 74 ), which is formed by two parts, preferably in the form of halves, which are joined together by a joint formed by welding, lamination, gluing or s