Inhaler

What is claimed is: 1. Inhaler for active dispensing of an inhalation formulation as an aerosol, comprising: a conveying means for at least one of conveying and nebulizing the inhalation formulation for generating the aerosol and having a nozzle for dispensing of the formulation, and a mouthpiece coaxially surrounding the nozzle and provided with at least one fluidically connected or associated air supply opening for enabling ambient air to be drawn into the mouthpiece at a location upstream of said nozzle in a direction of flow toward an outlet end of the mouthpiece, wherein a flow path for the ambient air into said mouthpiece from the at least one air supply opening extends from the at least one air supply opening within a space between an inner wall of the mouthpiece and the nozzle around the outside of said nozzle toward an open end thereof and has a total flow resistance of at least 60,000 Pa 1/2 s/m 3 , and wherein the flow resistance is produced at least in part by a replaceable apertured insert plate that has openings with a fixed flow-through cross section and that is clampingly engages against the inner wall of the mouthpiece with an outwardly flaring sealing lip that is mounted on an outer edge of the apertured insert plate and at a protrusion of the nozzle; and wherein the sealing lip is radially and axially inclined in a direction away from the insert plate and toward said mouthpiece. 2. Inhaler according to claim 1 , wherein the at least one air supply opening has a flow resistance of at least 75,000 Pa 1/2 s/m 3 . 3. Inhaler according to claim 1 , wherein the at least one air supply opening has a flow resistance of about 90,000-96,000 Pa 1/2 s/m 3 . 4. Inhaler according to claim 1 , wherein the flow resistance is produced in part by the size of the air supply openings without any flow varying valve structure being associated with the air supply openings. 5. Inhaler according to claim 1 , wherein the inhaler comprises a pressure generator as conveying means. 6. Inhaler according to claim 1 , wherein the inhaler comprises an insertable reservoir containing the inhalation formulation. 7. Inhaler according to claim 1 , wherein the conveying means generates the aerosol, at least after start of the generation, independent on any sucking or breathing-in via the mouthpiece. 8. Inhaler according to claim 1 , wherein ambient air is sucked into or flows into the mouthpiece through said at least on air supply opening when air and the aerosol are sucked via the mouthpiece. 9. Inhaler according to claim 1 , wherein the replaceable apertured insert plate is adapted for mounting in the mouthpiece of an assembled inhaler. 10. Inhaler according to claim 1 , wherein a flow resistance of at least 75,000 Pa 1/2 s/m 3 is produced by at least said insert plate. 11. Inhaler according to claim 1 , wherein the flow resistance is produced by the size of at least one air supply opening in conjunction with said insert plate. 12. Inhaler according to claim 1 , wherein the insert plate comprises at least one hole for adjusting the flow resistance, and wherein the at least one hole is only a single opening that has a diameter of 3.2 to 3.6 mm, the diameter being a circular aerodynamic cross section corresponding in its effect. 13. Inhaler according to claim 1 , wherein the insert plate comprises at least one hole for adjusting the flow resistance, and wherein the at least one hole is two openings each of which has a diameter of 2.2 to 2.6 mm, the diameter being a circular aerodynamic cross section corresponding in its effect. 14. Inhaler according to claim 1 , wherein the insert plate comprises at least one hole for adjusting the flow resistance, and wherein the at least one hole is three openings each of which has a diameter of 1.8 to 2.1 mm, the diameter being a circular aerodynamic cross section corresponding in its effect. 15. Inhaler according to claim 1 , wherein the insert comprises at least one hole for adjusting the flow resistance, and wherein the at least one hole is four openings each of which diameter 1.5 to 1.8 mm, the diameter being a circular aerodynamic cross section corresponding in its effect. 16. Inhaler for actively dispensing of an inhalation formulation as an aerosol, comprising: a conveying means for at least one of conveying and nebulizing the inhalation formulation as the aerosol and having a nozzle for dispensing of the formulation, and a mouthpiece coaxially surrounding the nozzle and with at least one fluidically connected or associated ambient air supply opening which enables air to enter the mouthpiece at a location upstream of said nozzle in a direction of flow toward an outlet end of the mouthpiece, wherein the inhaler comprises an insert located within the mouthpiece between the at least one ambient air supply opening and an outlet end of said nozzle to define or increase the flow resistance to air entering through the at least one air supply opening as it flows toward an outlet end of the nozzle within a space between the inside of the mouthpiece and the nozzle, wherein the insert is replaceably mountable in the mouthpiece, and wherein the insert comprises an apertured plate having at least one hole having a fixed flow-though cross section and at least one fixed guiding element which overlies the at least one hole at a distance and which blocks a direct or straight flow of ambient air from the at least one hole toward the outlet end of the mouthpiece, the guiding element being formed of one piece with the apertured plate. 17. Inhaler according to claim 16 , wherein the inhaler comprises a pressure generator as the conveying means. 18. Inhaler according to claim 16 , wherein the inhaler comprises an insertable reservoir. 19. Inhaler according to claim 16 , wherein the conveying means is adapted for generating the aerosol, at least after start of the generation, independent on any sucking or breathing-in via the mouthpiece. 20. Inhaler according to claim 16 , wherein ambient air is sucked into or flows into the mouthpiece through said at least one air supply opening and across said insert when air and the aerosol are sucked via the mouthpiece.