Patent ID: 11891231
Assignee: HAMEX FUEL CELL PVT LTD
Field: Handling (Mechanical engineering)
Classification: CPC B | IPC B  G

Claim 0:
1. A controlled dosage dispensing valve system comprising:
a main valve body;
an intake channel;
a cap system;
a spigot valve system;
a dosing system;
a gas cylinder;
the main valve body comprising an intake protrusion, a connecting portion, a first end, and a second end;
the spigot valve system comprising a spigot stem, at least one dose release orifice, a spigot seal, and a spigot gas flow path;
the dosing system comprising a dose valve body, a dose volume chamber, and a dose volume seal;
the first end being positioned opposite to the second end across the main valve body;
the intake protrusion being centrally positioned and extending opposite to the second end of the main valve body;
the intake channel traversing centrally through the intake protrusion;
the gas cylinder being in fluid communication with the intake channel;
the connecting portion being mounted adjacent to the second end of the main valve body;
the spigot valve system and the dosing system being centrally mounted around the intake protrusion;
the cap system being operably coupled with the spigot valve system and the dosing system, wherein operating the cap system enables the spigot valve system to transition between a closed state and an open state;
the spigot stem extending above the intake protrusion away from the first end of the main valve body;
the spigot gas flow path centrally traversing through the spigot stem;
the at least one dose release orifice laterally traversing through the spigot stem;
the spigot seal concentrically wrapped around the spigot stem adjacent to the at least one dose release orifice;
the dose volume chamber being delineated by the area between the dose valve body and the intake protrusion; and
the dose volume seal being operably connected within the intake channel, wherein operating the spigot system enables the dose volume seal to close and open the flow of gas from the gas cylinder into the dose volume chamber.