![• As shown in fig. The pin may fail in double
shear due to tensile load
• P=2× Л/4×dp
2×[τ]
• Where dp=pin diameter](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-15-320.jpg)
![• Eye dimension are obtained by taking
proportions.
• D1=2dp; t=1.2 dp
• Checking the eye for tensile failure
• P=( D1 - dp )×t× σt
• If σt˂[ σt] the eye is safe for tensile failure](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-17-320.jpg)
![• P= dp ×t × σc
• If σc˂[ σc] the eye / pin is safe for crushing
failure](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-19-320.jpg)
![• P=2(D1- dp )t1× σt
• If σt˂[ σt] the double eye is safe for tensile
failure](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-23-320.jpg)
![• P=2×[(D1- dp )/2] ×t×τ
• If τ˂[ τ] the double eye end / single eye end is
safe against shear failure.](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-25-320.jpg)
![• Bending moment , Mb =P/2×b - P/2×a
• =P/2 (b-a)
• b = t/2 +t1/3 ; a=t/4
• Mb =P/2[t/2 +t1/3 - t/4]
• =P/2 [t/4 +t1/3]
• Taking , t1 = t/2
•
• Mb= P/2 [t/4 +t/6]
• Mb =5/24 P×t
• σb = Mb/Z
• Z= Л/32 dp
3
• Here , If σb˂[ σb] the pin is safe for bending
•](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-28-320.jpg)
![Problem 1
• Design of knuckle joint to connect two m .s
rods of equal diameter subjected to axial
tensile load of 12kN
• [σt]=75N/mm2; [ σc ] =140 N/mm2; [τ]=55
N/mm2](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-29-320.jpg)
![2.Shear Failure of knuckle pin
• As shown in fig. The pin may fail in double shear due to
tensile load
• P=2× Л/4×dp
2×[τ]
• Where dp=pin diameter
• 12000=2× Л/4×dp
2×55
• dp =11.78
• note : here ,pin is also subjected to bending and hence
possibility of bending is more compared to shear.
Hence the diameter of pin is increased by 25% to 30%
to that obtained for shear failure.
• Generally for safety and simplicity in design , the pin
diameter is taken same as rod diameter.
• dp=d=16mm](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-31-320.jpg)
![3.Tensile failure of the single eye-
having hole for pin
• Eye dimension are obtained by taking proportions.
• D1=2dp; t=1.2 dp
• D1 =2×16=32mm
• t =1.2 ×16 =19.2=20mm
• Checking the eye for tensile failure
• P=( D1 - dp )×t× σt
• 12000=( 32 – 16)×20× σt
• σt =37.5 N/mm2
• allowable stress [σt]=75N/mm2
• as σt˂[ σt]
• The eye is safe for tensile failure
•](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-32-320.jpg)
![4.Crushing failure of single
eye/knuckle pin
• P= dp ×t×σc
• 12000= 16 ×20×σc
• σc =37.5 N/mm2
• here, σc˂[ σc] ,
hence the eye / pin is safe for crushing failure
•](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-33-320.jpg)
![5.Tensile failure of double eye end
/forked end
• P=2×C× t1× σt
• Here, t1=t/2 =20/2=10mm ;
C=2t1=2×10=20mm
• 12000=2×20× 10× σt
• σt =30 N/mm2
• here, σt˂[ σt] the double eye is safe for tensile
failure](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-34-320.jpg)
![6.Tensile failure of double eye through
the hole for the pin
• P=2(D1- dp )t1× σt
• 12000=2(32- 16 )10× σt
• σt =37.5 N/mm2
• here,σt˂[ σt],
hence double eye is safe for tensile failure](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-35-320.jpg)
![7.Double shear failure of the single
eye/ double eye
• P=2×[(D1- dp )/2] ×t×τ
• 12000=2×[(32- 16 )/2] ×20×τ
• τ =37.5 N/mm2
• here , τ˂[ τ] ,
• hence the double eye end / single eye end is safe
against shear failure.](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-36-320.jpg)
![• Bending moment,Mb =P/2×b - P/2×a
• =P/2 (b-a)
• b = t/2 +t1/3 ; a=t/4
• Mb =P/2[t/2 +t1/3 - t/4]
• =P/2 [t/4 +t1/3]
• Taking , t1 = t/2
•
• Mb= P/2 [t/4 +t/6]
• Mb =5/24 P×t
• σb = Mb/Z
• taking [σb ] =1.4 [σt ]
• [σb ]= 1.4×75
• [σb ] =105N/mm2
•
• Z= Л/32 dp
3 = Л/32 ×(16)3
• Z =402.12 mm3](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-39-320.jpg)
![• Mb =5/24×12000×20
• Mb =50000N.mm
• σb = Mb/Z
• σb =50000/401.92
• σb =124.40 N/ mm2
• Here , σb˃[ σb] the pin is not safe in bending
• Let pin diameter, dp =20mm
• Z= Л/32 ×(20)3
• Z=785.39 mm3
• σb = Mb/Z
• σb = 50000/785.39
• σb =63.66 N/ mm2
• Here , σb˂[ σb] the pin is safe in bending](https://image.slidesharecdn.com/knucklejoint-230425163502-9355b565/85/knuckle-joint-pptx-40-320.jpg)
knuckle joint.pptx
- 1. Design of Knuckle Joint Sunilkumar N Chaudhari Mechanical engineering Department BBIT V.V.Nagar Date :30/7/2020
- 2. Introduction • Knuckle joint is used to connect two rods subjected to axial tensile loads. • The joint permit slight angular movement between the rods and little offset between the axis of the rods. • It is not suitable to connect rotating shafts which transmit torque.
- 6. Main parts of knuckle joint • Single eye end(rod end) • Double eye end (fork end) • Knuckle pin • Collar • Taper pin(split pin)
- 7. Application of knuckle joint • To connect valve rod and eccentric rod of steam engine . • To connect structural members under tension. • To connect links in some material handling equipment. • In locomotive engine for connecting links for The air brake assembly.
- 10. Advantages of the knuckle joint • Permits slight angular movement between the rods. • Easy to assemble and disassemble. • Permits little offset between the axes of the rods
- 11. Design procedure of knuckle joint
- 12. 1.Tensile failure of rod
- 13. • Refer fig. • P=A×σt • P=Л/4×d2 × σt
- 14. 2. Shear Failure of knuckle pin
- 15. • As shown in fig. The pin may fail in double shear due to tensile load • P=2× Л/4×dp 2×[τ] • Where dp=pin diameter
- 16. 3.Tensile failure of the single eye- having hole for pin
- 17. • Eye dimension are obtained by taking proportions. • D1=2dp; t=1.2 dp • Checking the eye for tensile failure • P=( D1 - dp )×t× σt • If σt˂[ σt] the eye is safe for tensile failure
- 18. 4. Crushing failure of single eye/knuckle pin
- 19. • P= dp ×t × σc • If σc˂[ σc] the eye / pin is safe for crushing failure
- 20. 5. Tensile failure of double eye end /forked end
- 21. • P=2×C× t1× σt • Here, t1=t/2 C=2 t1
- 22. 6. Tensile failure of double eye through the hole for the pin
- 23. • P=2(D1- dp )t1× σt • If σt˂[ σt] the double eye is safe for tensile failure
- 24. 7. Double shear failure of the single eye/ double eye
- 25. • P=2×[(D1- dp )/2] ×t×τ • If τ˂[ τ] the double eye end / single eye end is safe against shear failure.
- 26. 8. Bending failure of knuckle pin
- 27. • In the knuckle joint, the clearance is provided between pin and the hole of single and double eye and hence the possibility of bending of the pin will be there. • Pin is considered to be a beam subjected to UDL on its length in the single eye and varying load on the length in the double eye with maximum load at the inner most end and zero at outer end . • Hear , as shown in fig. • a = distance of line of action of load on one side of single eye end from the axis of the joint. • b = distance of line of action of load on one side of double eye end from the axis of the joint. • With this loading , maximum bending stress in the pin is determined and compared with allowable to check for the failure.
- 28. • Bending moment , Mb =P/2×b - P/2×a • =P/2 (b-a) • b = t/2 +t1/3 ; a=t/4 • Mb =P/2[t/2 +t1/3 - t/4] • =P/2 [t/4 +t1/3] • Taking , t1 = t/2 • • Mb= P/2 [t/4 +t/6] • Mb =5/24 P×t • σb = Mb/Z • Z= Л/32 dp 3 • Here , If σb˂[ σb] the pin is safe for bending •
- 29. Problem 1 • Design of knuckle joint to connect two m .s rods of equal diameter subjected to axial tensile load of 12kN • [σt]=75N/mm2; [ σc ] =140 N/mm2; [τ]=55 N/mm2
- 30. Solution 1. Tensile failure of rod • Refer fig. • P=A×σt • P=Л/4×d2 × σt • 12000= Л/4× d2 ×75 • d2 =203.71 • d =14.27mm= 16mm
- 31. 2.Shear Failure of knuckle pin • As shown in fig. The pin may fail in double shear due to tensile load • P=2× Л/4×dp 2×[τ] • Where dp=pin diameter • 12000=2× Л/4×dp 2×55 • dp =11.78 • note : here ,pin is also subjected to bending and hence possibility of bending is more compared to shear. Hence the diameter of pin is increased by 25% to 30% to that obtained for shear failure. • Generally for safety and simplicity in design , the pin diameter is taken same as rod diameter. • dp=d=16mm
- 32. 3.Tensile failure of the single eye- having hole for pin • Eye dimension are obtained by taking proportions. • D1=2dp; t=1.2 dp • D1 =2×16=32mm • t =1.2 ×16 =19.2=20mm • Checking the eye for tensile failure • P=( D1 - dp )×t× σt • 12000=( 32 – 16)×20× σt • σt =37.5 N/mm2 • allowable stress [σt]=75N/mm2 • as σt˂[ σt] • The eye is safe for tensile failure •
- 33. 4.Crushing failure of single eye/knuckle pin • P= dp ×t×σc • 12000= 16 ×20×σc • σc =37.5 N/mm2 • here, σc˂[ σc] , hence the eye / pin is safe for crushing failure •
- 34. 5.Tensile failure of double eye end /forked end • P=2×C× t1× σt • Here, t1=t/2 =20/2=10mm ; C=2t1=2×10=20mm • 12000=2×20× 10× σt • σt =30 N/mm2 • here, σt˂[ σt] the double eye is safe for tensile failure
- 35. 6.Tensile failure of double eye through the hole for the pin • P=2(D1- dp )t1× σt • 12000=2(32- 16 )10× σt • σt =37.5 N/mm2 • here,σt˂[ σt], hence double eye is safe for tensile failure
- 36. 7.Double shear failure of the single eye/ double eye • P=2×[(D1- dp )/2] ×t×τ • 12000=2×[(32- 16 )/2] ×20×τ • τ =37.5 N/mm2 • here , τ˂[ τ] , • hence the double eye end / single eye end is safe against shear failure.
- 37. 8. Bending failure of knuckle pin • In the knuckle joint, the clearance is provided between pin and the hole of single and double eye and hence the possibilityof bending of the pin will be there. • Pin is considered to be a beam subjected to UDL on its length in the single eye and varying load on the length in the double eye with maximum load at the inner most end and zero at outer end . • Hear , as shown in fig. • a = distance of line of action of load on one side of single eye end from the axis of the joint. • b = distance of line of action of load on one side of double eye end from the axis of the joint. • With this loading , maximum bending stress in the pin is determined and compared with allowable to check for the failure.
- 39. • Bending moment,Mb =P/2×b - P/2×a • =P/2 (b-a) • b = t/2 +t1/3 ; a=t/4 • Mb =P/2[t/2 +t1/3 - t/4] • =P/2 [t/4 +t1/3] • Taking , t1 = t/2 • • Mb= P/2 [t/4 +t/6] • Mb =5/24 P×t • σb = Mb/Z • taking [σb ] =1.4 [σt ] • [σb ]= 1.4×75 • [σb ] =105N/mm2 • • Z= Л/32 dp 3 = Л/32 ×(16)3 • Z =402.12 mm3
- 40. • Mb =5/24×12000×20 • Mb =50000N.mm • σb = Mb/Z • σb =50000/401.92 • σb =124.40 N/ mm2 • Here , σb˃[ σb] the pin is not safe in bending • Let pin diameter, dp =20mm • Z= Л/32 ×(20)3 • Z=785.39 mm3 • σb = Mb/Z • σb = 50000/785.39 • σb =63.66 N/ mm2 • Here , σb˂[ σb] the pin is safe in bending