Fabrication Of Hydraulic Tailstock – Mechanical Project

Fabrication Of Hydraulic Tailstock – Mechanical Project

Synopsis

A hydraulic fluid power system is defined as a means of power transmission in which relatively incompressible fluid is used as the power transmitting media. The primary purpose of hydraulic system is the transfer of energy from one location to another location and this energy into useful work. Fabrication Of Hydraulic Tailstock  is project for final year students.
Tail stock is the device which is used in all conventional lathes, the tailstock spindle can move front and back by bolt nut mechanism by rotating the tailstock hand wheel .

but here spindle of the tailstock will operated by hydraulic circuitOur circuit works with Pascal’s law it contains hydraulic cylinder assembly with hydraulic pump and tank. When pump is pumped the oil will push the spindle forward and when Direction control valve is open the spindle will moves back automatically.

fabrication of hydraulic tail stock
fabrication of hydraulic tail stock

Introduction :

A pressure driven liquid power framework is characterized as a method for control transmission in which moderately incompressible liquid is utilized as the power transmitting media. The main role of the water-powered framework is the exchange of vitality starting with one area then onto the next area and this vitality into valuable work.

The tailstock is the gadget which is utilized as a part of every single traditional machine, the tailstock axle can move front and back by fastener nut system by turning the tailstock hand wheel.

be that as it may, here axle of the tailstock will be worked by a pressure-driven circuit or circuit works with Pascal’s law it contains water driven chamber get together with pressure has driven pump and tank. At the point when the pump is pumped the oil will drive the axle forward and when Direction control valve is open the shaft will move back naturally.

Advantage
1) We Can drill the big holes directly, no need of pilot holes
2) During job is hold between center the pressure is constant
3) We get high pressure when job is hold between centers, so we get high stability
4) Quick operation
5) No manual power need for drilling

Sachin Thorat

Sachin is a B-TECH graduate in Mechanical Engineering from a reputed Engineering college. Currently, he is working in the sheet metal industry as a designer. Additionally, he has interested in Product Design, Animation, and Project design. He also likes to write articles related to the mechanical engineering field and tries to motivate other mechanical engineering students by his innovative project ideas, design, models and videos.

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