Design And Analysis Of Kick-out Control Kit Stud
Prem Dhang,  Mrs. Shanthala N.l
directional control valve is a device that receives an external signal (mechanical, fluid pilot signal, electrical or electronics) to release, stop or redirect the fluid that flows through it. The function of a directional control valve is to control the direction of fluid flow in any hydraulic system. a directional control valve does this by changing the position of internal movable parts. D16 control valve having a capacity of 1 to 12 sections and oil rated flow of 250 l/min to 291 l/min. the application of valve in wheel loaders, Truck cranes, drilling machines and sea platform cranes, and garbage compactor.
in this project work ,garbage compactor is considered and has a simple mechanism involving use of manual force to control the working of lead screw and gear arrangement system. a compactor consists of cylindrical block in which the garbage is collected. the compaction is performed through the action of gear arrangement and lead screw that is mounted upon the cylindrical shell which is operated by the simple hand lever. in this also consists of the moving plate which is attached to the lead screw by the nut. in garbage compactor the kick out control kit is used in the D16 valve.
this control kit works under the pressure of 7bar.when the lever actuates, it may lock up below set of pressure or pressure may exceeds above it, then the lever will come to the neutral position. as this process continues the stud in the control kit failed due to necking around 50,000 cycles. to overcome this problem selection of different high strength material is required.
the analysis is carried to check yield & ultimate strength of new material using ansys software. so that the material should run up to the 10,00,000 cycles.
Keywords- kick-out control kit stud, finite element analysis, material selection, design optimization.
Cite this Article
Prem Dhang,  Mrs. Shanthala N.l,   "Design And Analysis Of Kick-out Control Kit Stud"
, International Journal of Engineering Development and Research (IJEDR), ISSN:2321-9939, Volume.8, Issue 3, pp.61-71, August 2020, Available at :http://www.ijedr.org/papers/IJEDR2003012.pdf