Aerosol assembly for a medicament delivery device

The invention claimed is: 1 . An aerosol assembly for a medicament delivery device, the aerosol assembly comprising: a nozzle chip assembly including a carrier and a nozzle chip provided on the carrier, a holding structure having a fluid channel extending through the holding structure, wherein the nozzle chip assembly is configured to be mounted into the fluid channel such that fluid flowing through the fluid channel passes through the nozzle chip, an elastic sealing member configured to be arranged with a tight fit in the fluid channel, the sealing member having a central through-opening configured to receive the nozzle chip to seal the nozzle chip towards the carrier, and a base member having a Luer cone configured to extend into the fluid channel towards the nozzle chip assembly, the Luer cone having a central channel extending through the base member and configured to extend coaxially with the fluid channel, wherein the base member and the holding structure have Luer threads by which the base member and the holding structure are configured to be connected, wherein the central through-opening of the sealing member is configured to open towards the central channel, wherein the sealing member is configured to be arranged axially between the Luer cone and the carrier, and wherein the sealing member is configured to be in contact with the Luer cone and with the carrier. 2 . The aerosol assembly as claimed in claim 1 , wherein the fluid channel has an inner surface provided with a circumferentially extending opening, wherein the carrier has an outer boundary portion mounted into the opening to hold the carrier in place. 3 . The aerosol assembly as claimed in claim 1 , wherein the sealing member comprises a viscoelastic material. 4 . The aerosol assembly as claimed in claim 3 , wherein the viscoelastic material is an elastomer. 5 . The aerosol assembly as claimed in claim 1 , wherein the sealing member is rotationally symmetric. 6 . The aerosol assembly as claimed in claim 1 , wherein the central through-opening ( 12 ′) has a constant inner diameter along its entire extension. 7 . The aerosol assembly as claimed in claim 1 , wherein the sealing member is configured to be mounted in the fluid channel with a mounting compression of between 0.2 to 0.6 mm. 8 . The aerosol assembly as claimed in claim 1 , wherein the sealing member has an external surface provided with a rib extending in a circumferential direction of the sealing member. 9 . The aerosol assembly as claimed in claim 1 , wherein the holding structure has a hollow generally cylindrical end portion in which the fluid channel extends axially, wherein the cylindrical end portion has an external surface provided with first Luer threads, and wherein the base member has an outer wall arranged concentrically with the Luer cone, wherein the cylindrical end portion is configured to be arranged concentrically between the Luer cone and the outer wall, the outer wall having second Luer threads configured to engage with the first Luer threads. 10 . A medicament delivery device comprising an aerosol assembly as claimed in claim 1 . 11 . The medicament delivery device as claimed in claim 10 , wherein the medicament delivery device is an inhaler. 12 . An aerosol assembly for an inhaler, where the aerosol assembly comprises: a nozzle chip assembly including a carrier and a nozzle chip provided on the carrier; a holding structure having a fluid channel extending through the holding structure, where the nozzle chip assembly is configured to be mounted into the fluid channel such that fluid flowing through the fluid channel passes through the nozzle chip; an elastic and rotationally symmetric sealing member is arranged with a tight fit in the fluid channel, where the sealing member has a central through-opening configured to receive the nozzle chip; and a base member having a Luer cone configured to extend into the fluid channel towards the nozzle chip assembly, the Luer cone having a central channel extending through the base member and configured to extend coaxially with the fluid channel, wherein the base member and the holding structure have Luer threads by which the base member and the holding structure are configured to be connected, wherein the central through-opening of the sealing member is configured to open towards the central channel, wherein the sealing member is configured to be arranged axially between the Luer cone and the carrier, and wherein the sealing member is configured to be in contact with the Luer cone and with the carrier.