KNUCKLE JOINT
PROBLEM: Design a knuckle joint to transmit 150KN. The design stresses may be taken as 80 Mpa in tension, 60 Mpa in shear and 150 Mpa in compression.
MAJOR COMPONENTS OF KNUCKLE JOINT (1) (2) (3) (4) (5) Single eye end Double eye end Knuckle pin Collar Taper pin / Split pin
Knuckle Joint Assembly Knuckle Joint Assembly
Single Eye End Single Eye End
Double Eye End Double Eye End
Knuckle Pin Knuckle Pin
Collar
Collar
Taper Pin / Split Pin Pin Taper Pin / Split
Knuckle Joint Assembly Knuckle Joint Assembly
(1) Failure of the Solid rod in tension: Let d transmitted (P), The load= Diameter of the rod
(1) Failure of the of the rod in tension: Let d = Diameter Solid rodThe load transmitted (P), 150 x 103 = (/4) x d2 x t= (/4) x d2 x 80 150 x 103 = 16 mm. d2 x t= (/4) x d2 x 80 d = 15.45 say (/4) x d = 15.45 say 16 mm. So, Rod Diameter = 16mm So, Rod Diameter = 16mm
(2) Failure of the Knuckle Pin in shear: Because of tensile load P, knuckle pin may fail in double shear. dp = Knuckle pin diameter = Allowable shear stress P = 2 x (/4) x dp2 x 15000 = 2 x (/4) x dp2 x 60 So, dp = 12.61mm
Generally, pin diameter is taken equal to rod diameter. So, dp = d = 16 mm
(3) Failure of the single eye or rod in tension: Generally, outer diameter of eye D1 and thickness t of single eye end is taken from the dimension of pin diameter. So, D1 = 2 dp = 2 x 16 = 32mm t = 1.2d = 1.2 x 16 = 19.2mm say 20mm
Now, P = (D1-dp) x t x t 15000 = (32-16) x 20 x t t = 46.88 N/mm2 [ t ]
(4) Failure of the single eye hole and knuckle pin crushing: P = dp x t x c 15000 = 16 x 20 x c c = 46.88 n/mm2 So, c [ c] So, the eye end and pin is safe in crushing failure.
(5) Failure of the fork end in tensile: P = 2 x C x t1 x t t1= t/2 = 20 / 2 = 10mm And C = 2 t1 = t =20 taken, 15000 = 2 x 20 x 10 x t t = 37.5 N/mm2 So, t [ t] So, the fork is safe in tensile failure.
(6) Failure of the fork eye end at pin hole section in tensile: P = 2 x (D1 dp ) x t1 x t 15000 = 2 x ( 32-16) x 10 x t t = 46.88 N/mm2 So, t [ t] So, the fork eye end at pin hole section is safe in tensile failure.
(6) Failure of the single eye end in double shear: P = 2 x { (D1 dp )/2 } x t x 15000 = 2 x { ( 32-16) / 2 } x 20 x = 46.88 N/mm2 So, [] So, the single eye end is safe in double shear.
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