Abstract: An inhalant medicator includes a medicator body 1 which is formed therein with a cylindrical fit hole 2, an inhalant port 3, an inflow air passageway 5, and an outflow air passageway 6, and a medical powder storage cylindrical member 8 which is installed or fitted into the cylindrical fit hole 2 in a manner so as to open or close the air passageways 5 and 6 with respect to a medical powder storage chamber 12. The inhalant medicator is constructed by two component parts, namely the medicator body 1 and the medical powder storage cylindrical member 8, thus ensuring simplified structure and reduced production costs. Additionally, powder-and-granular medicine or medical powder 16 is tightly encapsulated within the medical powder storage chamber 12 by means of the medical powder storage cylindrical member 8, thus preventing loss of flow of the medical powder 16.
Abstract: An inhalant medicator comprises a medicator body formed at one axial end with a capsule housing hole and at another axial end with an inhalant port, an inflow air passageway having an axial inflow passage extending in an axial direction of the medicator body and a first pin insertion hole extending in a radial direction of the medicator body for communicating the capsule housing hole with the atmosphere, an outflow air passageway having an outflow passage extending in the axial direction of the medicator body and a second pin insertion hole extending in the radial direction of the medicator body for communicating the capsule housing hole with the inhalant port, and a boring tool having pins insertable toward a capsule through the first and second insertion holes for pricking holes in the capsule accommodated in the capsule housing hole with the pins.
Abstract: A valve includes a valve case secured to a container that stores a pressurized fluid, and a valve pin moveable relative to the valve case and defining a fluid path in cooperation with the valve case. A seal separates the fluid path into an upstream portion communicating with inside of the container and a downstream portion communicating with outside of the container. The valve pin has a main passage always communicating with outside of the container, and a bypass passage. A valve pin adjuster, responsive to change in pressure acting on the valve pin within the container, shifts the valve pin between a first position where fluid communication between the main passage and the upstream portion of the fluid path is blocked to prevent the pressurized fluid from being discharged from the container, and a second position where fluid communication between the upstream and downstream portions of the fluid path is established through the bypass passage to allow the flow of the pressurized fluid from the container.