Dispensing device, storage device and method for dispensing powder

What is claimed is: 1. Dispensing device for dispensing a powder as a spray including fine powder particles, the dispensing device comprising at least one duct, at least one powder-containing storage chamber connected to said at least one duct, and at least two powder jets connected to the at least one duct downstream thereof, wherein the powder is dispensable via the at least two powder jets into a mouthpiece from the at least one powder-containing storage chamber and at least one duct by gas pressure for de-agglomerating the powder, wherein the at least two powder jets are arranged at a powder impinging angle so as to form a powder jet impinging means for impinging powder from the at least two powder jets against each other to at least one of deagglomerate the powder, slow down the propagation velocity of the spray and mix separate powders by said at least two powder jets, wherein said powder impinging angle between the at least two powder jets is about 90° to 150° in a plane containing the powder jets; wherein said powder jets are positioned relative to a frontmost end of the device from which the spray dispensed is received by a user so as to produce impingement of powder from said jets externally, forward of the frontmost end of the device, and wherein a first cross section of a gas supply inlet to the storage chamber is smaller than a second cross section of an outlet for the powder to substantially control or restrict the gas flow during dispensing of the powder by the first cross section. 2. Dispensing device according to claim 1 , wherein the storage device comprises a pressure sensitive element closing the at least one storage chamber such that the pressurized gas opens the pressure sensitive element for discharging powder from the associated storage chamber to dispense the powder. 3. Dispensing device according to claim 1 , wherein the at least one duct is a duct that has a flat cross section, a ratio of a largest side of the flat cross section to a smallest side of the flat cross section being at least 2.0. 4. Dispensing device according to claim 1 , wherein the at least one duct comprises multiple ducts and wherein each dose of powder is dispensed through a separate one of said ducts. 5. Dispensing device according to claim 1 , wherein said storage device comprises separate storage chambers for at least two powders and wherein said at least one duct is adapted for mixing the at least two powders during dispensing thereof. 6. Dispensing device according to claim 1 , wherein the dispensing device is a dry powder inhaler, said powder jets opening into a mouthpiece. 7. Dispensing device according to claim 1 , wherein the storage device comprises multiple storage chambers each containing a dose of the powder, and multiple ducts, wherein at least one duct is associated to each storage chamber, wherein each storage chamber and its associated duct are formed of or in the same piece of material. 8. Dispensing device according to claim 1 , wherein the means for providing pressurized gas comprises an air pump. 9. Dispensing device according to claim 1 , wherein the angle between the jets is in a plane containing the ducts that form the impinging jets. 10. Dispensing device according to claim 1 , wherein said at least one storage chamber contains a dose of the powder, wherein said at least one duct comprises a first duct portion that tangentially intersects said at least one storage chamber and wherein a flow divider subdivides a second duct portion into a pair of duct passages, outlet ends of which form the powder jets that are angled toward each other. 11. Dispensing device according to claim 10 , wherein the duct passages are arcuately curved in opposite directions. 12. Dispensing device according to claim 2 , wherein the pressure sensitive element is a bursting element that is burst by the pressurized gas. 13. Dispensing device for dispensing a powder as a spray including fine powder particles, the dispensing device comprising at least one duct, at least one powder-containing storage chamber connected to said at least one duct, and at least two powder jets connected to the at least one duct downstream thereof, wherein the powder is dispensable via the at least two powder jets into a mouthpiece from the at least one powder-containing storage chamber and at least one duct by gas pressure for de-agglomerating the powder, wherein the at least two powder jets are arranged at a powder impinging angle so as to form a powder jet impinging means for impinging powder from the at least two powder jets against each other to at least one of deagglomerate the powder, slow down the propagation velocity of the spray and mix separate powders by said at least two powder jets, wherein said powder impinging angle between the at least two powder jets is about 90° to 150° in a plane containing the powder jets; wherein said powder jets are positioned relative to a frontmost end of the device from which the spray dispensed is received by a user so as to produce impingement of powder from said jets externally, forward of the frontmost end of the device, wherein the storage device comprises a pressure sensitive element closing the at least one storage chamber such that the pressurized gas opens the pressure sensitive element for discharging powder from the associated storage chamber to dispense the powder and wherein the pressure sensitive element is a bursting element that is burst by the pressurized gas. 14. Dispensing device according to claim 13 , wherein the at least one duct comprises multiple ducts and wherein each dose of powder is dispensed through a separate one of said ducts. 15. Dispensing device according to claim 13 , wherein the dispensing device is a dry powder inhaler, said powder jets opening into a mouthpiece. 16. Dispensing device according to claim 13 , wherein the storage device comprises multiple storage chambers each containing a dose of the powder, and multiple ducts, wherein at least one duct is associated to each storage chamber, wherein each storage chamber and its associated duct are formed of or in the same piece of material. 17. Dispensing device according to claim 13 , wherein the means for providing pressurized gas comprises an air pump. 18. Dispensing device according to claim 13 , wherein said at least one storage chamber contains a dose of the powder, wherein said at least one duct comprises a first duct portion that tangentially intersects said at least one storage chamber and wherein a flow divider subdivides a second duct portion into a pair of duct passages, outlet ends of which form the powder jets that are angled toward each other. 19. Dispensing device according to claim 13 , wherein the angle between the jets is in a plane containing the ducts that form the impinging jets. 20. Dispensing device for dispensing a powder as a spray including fine powder particles, the dispensing device comprising at least one duct, at least one powder-containing storage chamber connected to said at least one duct, and at least two powder jets connected to the at least one duct downstream thereof, wherein the powder is dispensable via the at least two powder jets into a mouthpiece from the at least one powder-containing storage chamber and at least one duct by gas pressure for de-agglomerating the powder, wherein the at least two powder jets are arranged at a powder impinging angle so as to form a powder jet impinging means for impinging powder from the at least two powder jets against each other to at least one of deagglomerate the powder, sl