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A nasal inhaler for introducing a substance to a nasal cavity of a user. The nasal inhaler comprises a chamber having an interior and an exterior, an outlet comprising an air exit passageway in flow communication with the interior of the chamber, a one-way air inlet valve in one-way flow communicati

A nasal inhaler for introducing a substance to a nasal cavity of a user. The nasal inhaler comprises a chamber having an interior and an exterior, an outlet comprising an air exit passageway in flow communication with the interior of the chamber, a one-way air inlet valve in one-way flow communication with the interior of the chamber, and a dosage inlet passageway in flow communication with the interior of the chamber. A container includes a dispensing portion disposed in the dosage inlet passageway. In preferred embodiment, an adapter defines the dosage inlet passageway and is connected to the chamber. A mask also can be connected to the outlet. A method for dispensing a substance into the nasal cavity of the user comprises inserting the outlet into the nasal cavity, dispensing the substance into the chamber and inhaling through the outlet. A method for assembling a nasal inhaler assembly also is provided.

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A nasal inhaler for introducing a substance to a nasal cavity of a user. The nasal inhaler comprises a chamber having an interior and an exterior, an outlet comprising an air exit passageway in flow communication with the interior of the chamber, a one-way air inlet valve in one-way flow communicati

A nasal inhaler for introducing a substance to a nasal cavity of a user. The nasal inhaler comprises a chamber having an interior and an exterior, an outlet comprising an air exit passageway in flow communication with the interior of the chamber, a one-way air inlet valve in one-way flow communication with the interior of the chamber, and a dosage inlet passageway in flow communication with the interior of the chamber. A container includes a dispensing portion disposed in the dosage inlet passageway. In preferred embodiment, an adapter defines the dosage inlet passageway and is connected to the chamber. A mask also can be connected to the outlet. A method for dispensing a substance into the nasal cavity of the user comprises inserting the outlet into the nasal cavity, dispensing the substance into the chamber and inhaling through the outlet. A method for assembling a nasal inhaler assembly also is provided. carrier for supporting said membrane in said open position thereof. 3. A two-stroke engine including a two-stroke engine in a portable handheld work apparatus, the two-stroke engine comprising: a crankcase; a cylinder connected to said crankcase; said cylinder having a cylinder wall defining a cylinder bore open to said crankcase; a piston displaceably mounted in said cylinder bore and said piston and said cylinder conjointly defining a combustion chamber; a crankshaft rotatably mounted in said crankcase; said piston being operatively connected to said crankshaft for driving said crankshaft; a mixture inlet in said crankcase; a transfer channel for flow connecting said crankcase to said combustion chamber and said transfer channel having a first end open to said crankcase and a second end communicating with said combustion chamber; a bypass channel for conducting an essentially fuel-free gas; said bypass channel having an opening into said transfer channel at a location between said first and second ends thereof; said transfer channel being configured as a closed channel over the length thereof in said cylinder wall; a membrane valve assembly including a membrane axially inserted into said transfer channel through said first end thereof; said membrane being fixed on said cylinder in the region of said first end and projecting in said transfer channel up to in front of said opening; said membrane being movable between a closed position wherein said opening is closed and an open position wherein said fuel-free gas can flow through said opening and into said transfer channel; said membrane valve assembly further including an essentially stiff membrane carrier for supporting said membrane in said open position thereof; and, said membrane carrier projecting beyond said opening of said bypass channel and said membrane carrier having a break-through opening formed therein at the elevation of said opening of said bypass chamber. 4. The two-stroke engine of claim 3, wherein said membrane is held on said membrane carrier. 5. The two-stroke engine of claim 4, wherein said membrane is clamped between the wall of said transfer channel and said membrane carrier. 6. The two-stroke engine of claim 5, said membrane valve assembly further comprising attachment means for fixing said membrane carrier; and, said attachment means engaging through said cylinder wall from the outside. 7. The two-stroke engine of claim 6, said attachment means being an attachment screw threadably engaging said membrane carrier. 8. A two-stroke engine including a two-stroke engine in a portable handheld work apparatus, the two-stroke engine comprising: a crankcase; a cylinder connected to said crankcase; said cylinder having a cylinder wall defining a cylinder bore open to said crankcase; a piston displaceably mounted in said cylinder bore and said piston and said cylinder conjointly defining a combustion chamber; a crankshaft rotatably mounted in said crankcase; said piston being operatively connected to said crankshaft for driving said crankshaft; a mixture inlet in said crankcase; a transfer channel for flow connecting said crankcase to said combustion chamber and said transfer channel having a first end open to said crankcase and a second end communicating with said combustion chamber; a bypass channel for conducting an essentially fuel-free gas; said bypass channel having an opening into said transfer channel at a location between said first and second ends thereof; said transfer channel being configured as a closed channel over the length thereof in said cylinder wall; a membrane valve assembly including a membrane axially inserted into said transfer channel through said first end thereof; said membrane being fixed on said cylinder in the region of said first end and projecting in said transfer channel up to in front of said opening; said membrane being movable between a closed position wherein said opening is closed and an op en position wherein said fuel-free gas can flow through said opening and into said transfer channel; said membrane valve assembly further including an essentially stiff membrane carrier for supporting said membrane in said open position thereof; and, said membrane valve assembly further including: a finished insert part separate from said cylinder; a seal seat formed on said insert part for said membrane when in said closed position; said insert part being inserted into said transfer channel through said first end thereof; and, means for fixing said insert part to said cylinder in said transfer channel. 9. The two-stroke engine of claim 8, wherein said insert part extends in said transfer channel beyond said opening of said bypass channel; said insert part has a flow opening formed therein connecting said opening of said bypass channel to said transfer channel; and, said flow opening delimiting said seal seat on the side of said insert part facing toward said membrane. 10. The two-stroke engine of claim 8, wherein said insert part is fixed approximately seal tight to the inner wall of said transfer channel. 11. The two-stroke engine of claim 8, wherein said cylinder has an assembly slot formed therein; said insert part is a plate configured longer than said membrane and said plate having an end engaging in said assembly slot; and, said fixing means fixing said plate to the cylinder at the other end of said plate. 12. The two-stroke engine of claim 11, said membrane valve assembly further comprising additional fixing means for fixing said insert part in said assembly slot. 13. The two-stroke engine of claim 12, wherein said insert part, said membrane and said membrane carrier conjointly define a component which can be preassembled outside of said cylinder. 14. The two-stroke engine of claim 13, wherein said cylinder has a recess formed therein; and, said membrane carrier has an end portion facing toward said crankcase and has a projection formed thereon at said end portion for engaging said recess. 15. The two-stroke engine of claim 14, wherein said projection is configured to prevent said membrane carrier from rotating in said transfer channel. 16. The two-stroke engine of claim 14, wherein said projection is configured to be of assistance during assembly of said membrane valve assembly in said transfer channel. 17. The two-stroke engine of claim 16, wherein said membrane valve assembly includes an attachment screw for threadably engaging said projection. 18. The two-stroke engine of claim 17, wherein said recess is a through bore and said projection is configured as cylindrical bushing for fitting with accuracy into said through bore. 19. The two-stroke engine of claim 16, wherein said insert part is guided onto said projection. 20. The two-stroke engine of claim 15, wherein said projection is configured as an angled lug of said membrane carrier. 21. A two-stroke engine including a two-stroke engine in a portable handheld work apparatus, the two-stroke engine comprising: a crankcase; a cylinder connected to said crankcase; said cylinder having a cylinder wall defining a cylinder bore open to said crankcase; a piston displaceably mounted in said cylinder bore and said piston and said cylinder conjointly defining a combustion chamber; a crankshaft rotatably mounted in said crankcase; said piston being operatively connected to said crankshaft for driving said crankshaft; a mixture inlet in said crankcase; a transfer channel for flow connecting said crankcase to said combustion chamber and said transfer channel having a first end open to said crankcase and a second end communicating with said combustion chamber; a bypass channel for conducting an essentially fuel-free gas; said bypass channel having an opening into said transfer channel at a location between said first and second ends thereof; said transfer channel being configured as a closed channel over the length thereof in said cylinder wall; a membra ne valve assembly including a membrane axially inserted into said transfer channel through said first end thereof; said membrane being fixed on said cylinder in the region of said first end and projecting in said transfer channel up to in front of said opening; said cylinder including a connecting stub formed thereon as one piece with said cylinder and said connecting stub communicates with said transfer channel; and, said bypass channel being connected to said transfer channel via said connecting stub. 22. A two-stroke engine including a two-stroke engine in a portable handheld work apparatus, the two-stroke engine comprising: a crankcase; a cylinder connected to said crankcase; said cylinder having a cylinder wall defining a cylinder bore open to said crankcase; a piston displaceably mounted in said cylinder bore and said piston and said cylinder conjointly defining a combustion chamber; a crankshaft rotatably mounted in said crankcase; said piston being operatively connected to said crankshaft for driving said crankshaft; a mixture inlet in said crankcase; a transfer channel for flow connecting said crankcase to said combustion chamber and said transfer channel having a first end open to said crankcase and a second end communicating with said combustion chamber; a bypass channel for conducting an essentially fuel-free gas; said bypass channel having an opening into said transfer channel at a location between said first and second ends thereof; said transfer channel being configured as a closed channel over the length thereof in said cylinder wall; a membrane valve assembly including a membrane axially inserted into said transfer channel through said first end thereof; said membrane being fixed on said cylinder in the region of said first end and projecting in said transfer channel up to in front of said opening; said cylinder including an exhaust-gas discharge and said cylinder including two of said transfer channels on respective sides of a symmetry plane partitioning said mixture inlet and said exhaust-gas discharge; a first connecting stub formed on said cylinder as one piece therewith and communicating with the two transfer channels on a first side of said symmetry plane; said first connecting stub including an inner wall running in the channel longitudinal direction and partitioning said first connecting stub into two flow paths communicating with corresponding ones of the transfer channels on said first side; a second connecting stub formed on said cylinder as one piece therewith and communicating with the two transfer channels on a second side of said symmetry plane; and, said second connecting stub including an inner wall running in the channel longitudinal direction and partitioning said second connecting stub into two flow paths communicating with corresponding ones of the transfer channels on said second side. 23. A two-stroke engine including a two-stroke engine in a portable handheld work apparatus, the two-stroke engine comprising: a crankcase; a cylinder connected to said crankcase; said cylinder having a cylinder wall defining a cylinder bore open to said crankcase; a piston displaceably mounted in said cylinder bore and said piston and said cylinder conjointly defining a combustion chamber; a crankshaft rotatably mounted in said crankcase; said piston being operatively connected to said crankshaft for driving said crankshaft; a mixture inlet in said crankcase; a transfer channel for flow connecting said crankcase to said combustion chamber and said transfer channel having a first end open to said crankcase and a second end communicating with said combustion chamber; a bypass channel for conducting an essentially fuel-free gas; said bypass channel having an opening into said transfer channel at a location between said first and second ends thereof; said transfer channel being configured as a closed channel over the length thereof in said cylinder wall and said transfer channel having an inside wall surface extending along said channel; a membrane valve assembly including a membrane axially inserted into said transfer channel through said first end thereof; said membrane being fixed on said cylinder against said inside wall surface in the region of said first end and projecting in said transfer channel up to in front of said opening; and, said membrane being movable between a closed position wherein said membrane lies seal tight against said inner wall surface so as to close said opening and an open position wherein said fuel-free gas can flow through said opening and into said transfer channel. 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