| 摘要 |
#CMT# #/CMT# The method involves thermo-initiating or combusting a thermo-initiable pyrotechnic gas/thermite generating load (1d) at a preset temperature ranging between 80-270 degrees. Combustion gas is generated from the combustion of the load or combustion of the load and another thermo-initiable pyrotechnic load. Fluid (F) in a tank (5d) is pressurized under an action of the gas, and the pressurized fluid is delivered by using a pressurized fluid delivering unit (6d). #CMT# : #/CMT# An independent claim is also included for an autonomous fluid injection device comprising a combustion chamber. #CMT#USE : #/CMT# Method for autonomous injection of fluid e.g. conditional preventive maintenance, protection or safeguarding fluid such as coolant, reaction inhibiting agent, protection additive and lubricating agent i.e. emergency grease, into a system subjected to heat e.g. chemical reactor, electronic system and mechanical rolling bearing (all claimed) that is utilized in a gearbox of a motor vehicle e.g. helicopter, industrial machine e.g. rotary machine, machine tool and building machine, and in railway field. #CMT#ADVANTAGE : #/CMT# The method injects the fluid in a simple, rapid, convenient, safe and autonomous manner, without requiring a connection with an energy source or an outer mechanical element. #CMT#DESCRIPTION OF DRAWINGS : #/CMT# The drawing shows a perspective longitudinal sectional view of an autonomous fluid injection device arranged on a mechanical rolling bearing system. F : Fluid 1d : Thermo-initiable pyrotechnic gas/thermite generating load 4d, 4`d : Combustion chambers 5d : Tank 6d : Pressurized fluid delivering unit 7d : Mobile separator 8d : System subjected to heat 10d : Autonomous fluid injection device. |
