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Kinematic analysis of mechanisms analytical methods

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ajitkarpe1986

Theory of Machines

Engineering
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Prof A B Karpe By Prof. A B Karpe Karpe.ajit@gmail.com Department of Mechanical Engineering STES’s, Smt. Kashibai Navale College of Engineering
CONTENTS • Introduction • Analytical method for Displacement, Velocity and Acceleration analysis of slider crank Mechanism. • Position analysis of links with vector and complex algebra methods • Loop closure equation • Chase solution • Velocity and acceleration analysis of four bar and slider crank mechanisms using vector and complex algebra methods. • Hooke’s joint, Double Hooke’s joint.A B Karpe
APPROXIMATE ANALYTICAL METHOD    OPStrokeofLinewithRodConnectingofAngle OPStrokeofLinewithCrankofAngle r l RatioObliquityn OCCrankofRadiusr CPRodConnectingofLengthl , , , ,        A B Karpe
• Find: Crank Position (ϴ) using Displacement of Piston • Find Velocity of Piston using (Vp) Velocity of Piston • Find Acceleration of piston (Ap) Acceleration of Piston • Find angular velocity of connecting rod (ωp) Angular velocity of C.R • Find Angular acceleration of Connecting rod (αp) Angular acceleration of C.R.        n rx 2 sin )cos1( 2        n rvP 2 2sin sin.        n raP   2cos cos.2 nn CP     cos. sin cos. 22    2/322 22 )sin( )1(sin.       n n CPA B Karpe            22 sin2 2sin sin. n rvP Uniform speed of crank Non-Uniform speed of crank
NUMERICAL • IN an IC engine the rod of rotation is 2000 rpm. The connecting rod is 270 mm long and crank radius is 60 mm. Determine at 30 % of outstroke. i. Linear velocity of piston ii. Angular position of crank iii. Linear acceleration of piston iv. Angular acceleration of connecting rod v. Angular velocity of connecting rod vi. Crank angle for maximum piston velocity A B Karpe
COMPLEX ALGEBRA METHOD »This method is preferred when high level accuracy is desired or the analysis is to be repeated for a large number of configurations. • Complex algebra method is also called as complex variable method. • Complex numbers are not vectors but that can be used to represent vector • In Polar form of fig, vector OR of magnitude r and direction θ is written as, • In Complex form the same can be represented as  rROR i reR  A B Karpe
COMPLEX ALGEBRA METHOD »Where, r = magnitude of vector R θ = Direction of vector R w. r. t. Real axis • The location of any point in fig (b) is specified by its corresponding real and imaginary coordinates 1i (a) (b) yx iRRR  A B Karpe
COMPLEX ALGEBRA METHOD • Employing complex rectangular notation for vector R • Euler’s Equation from trigonometry Hence, and  sincos iRRRR   sincos iei  )sin(cos  iR  i R Re ) 2 (      i i eie A B Karpe
DEFINITION OF COMPLEX NUMBER: • A complex number is a number of the form a + bi, where a and b are real number and i is an imaginary unit satisfying Properties of Complex number: • Equity: Two complex numbers are equal if and only if their real parts and their imaginary parts are respectively equal. • Addition: To add two complex numbers, add the real parts to one another and the imaginary parts to one another. 1i A B Karpe
• In complex form vector OC of magnitude R is written as, ------ (i) Where, R is magnitude and θ is position of vector On Differentiate Eq (i) w. r. t. Time, we get velocity Velocity, VELOCITY ANALYSIS OF A LINK BY COMPLEX ALGEBRA i OC Re       )( )(Re   i dt d eR dt d V i i C A B Karpe
     i i er dt d ieR . .              ) 2 ( ..   i C erV• ---(ii) • Where, r.ω = Magnitude of velocity and = Direction of velocity of link OC which is 900 ahead from original position of OC ) 2 ( i e A B Karpe
ACCELERATION ANALYSIS OF A LINK BY COMPLEX ALGEBRA • On Differentiating equation (ii) w. r. t. Time, we get acceleration of link,  )(.. )2/(     i c er dt d a       dt d e dt d iera ii c    )2/()2/( ... t c r cc ii c aaa erera    )2/()(2 ....   A B Karpe
Velocity and acceleration of a link in complex variable form A B Karpe
LOOP CLOSURE EQUATION • The sum of the relative position vectors for the links forming a close loop in the mechanism take by order is always zero. • As the links in the mechanism are rigid, hence even after changing the loop position the magnitude of position vector do not change w. r. t. Time. • The four general cases are discussed  Loop closure equation for four bar chain  Loop closure equation for slider crank chain  Loop closure equation for offset slider crank chain  Loop closure equation crank and slotted lever mechanism A B Karpe
LOOP CLOSURE EQUATION FOR FOUR BAR MECHANISM DADA CDCD BCBC ABAB     DOD COC BOB AOA    From fig Absolute position vectors A, B, C & D are given as Relative position vectors A B Karpe
LOOP CLOSURE EQUATION FOR FOUR BAR CHAIN 0 DACDBCABDACDBCAB 0 DACDBCAB • Adding all relative positions vectors as under • The above equation represents Loop closure equation A B Karpe
LOOP CLOSURE EQUATION FOR SLIDER CRANK CHAIN A B Karpe
LOOP CLOSURE EQUATION FOR SLIDER CRANK CHAIN From fig Absolute position vectors A, B, C & D are given as COC BOB AOA    Relative position vectors CACA BCBC ABAB    CABCABCABCAB  0 CABCAB Adding all relative positions vectors as under The above equation represents Loop closure equationA B Karpe
LOOP CLOSURE EQUATION FOR OFFSET SLIDER CRANK MECHANISM A B Karpe
LOOP CLOSURE EQUATION FOR SLIDER CRANK CHAIN From fig Absolute position vectors A, B, C & D are given as DOD COC BOB AOA     Relative position vectors DADA CACD BCBC ABAB     CABCABCABCAB  0 CABCAB Adding all relative positions vectors as under The above equation represents Loop closure equationA B Karpe
NUMERICAL • In slider crank mechanism, the crank radius is 100 mm and length of connecting rod is 500mm. The crank is rotating in counter-clockwise direction at an angular velocity of 15 rad/sec and the angular acceleration of piston and angular acceleration connecting rod when the crank is at 600 from IDC. A B Karpe
STEPS • For Loop Closure Equation • Find, θ3 • Angular velocity of connecting rod • Find, ω3 • Acceleration of piston 324 RRR  xeler ii  32 ..  )cos.cos.()sin.sin..( 33223322  lrilrVp  A B Karpe
VECTOR ALGEBRA METHOD • Vectors are used to represent the magnitude and position of kinematic links • Let the loop closure equation for a slider crank mechanism is • The above equation in vector form is written as • Properties of Vector  Dot product of two perpendicular vector is zero  Cross product of two parallel vectors is zero BAC    BBAACC A B Karpe
• Chace soutions are closed form solutions of two and three dimensional vector equations. • Case 1: magnitude and direction of C are unknown Chace Solution-I A B Karpe
• Magnitude of A and B are unknown eliminating B by taking dot product with every term with (B cross K). Chace Solution-II A B Karpe
• Magnitude of A and direction B are unknown (eliminating A) Chace Solution-III A B Karpe
VELOCITY ANALYSIS USING VECTOR METHOD • Let R the magnitude of the vector of a link • Differentiate w. r. t. Time to get velocity • Where, • --------------------(i)   RRR   R dt d R dt dR RR dt d )( )(    RkRR dt d  )()(   RkRRRR dt d V  A B Karpe
ACCELERATION ANALYSIS OF LINK USING VECTOR METHOD • Differentiate Equation (i), to get acceleration • For non uniform motion of link • For non-uniform motion of link • The first part of equation is tangential component of acceleration whereas second part is centripetal component of acceleration       )()( RkRRR dt d V dt d a  )(2   RRa  )()( 2   RRRkRa  A B Karpe
NUMERICAL • In IC engine mechanism, crank is 40 mm long and length of connecting rod is 160 mm. The crank angle is 400 with the TDC position. Find the angle made by connecting rod with the line of stroke and the distance between the crank and piston using chace solution. A B Karpe
STEPS • To form Loop closure equation • Angular position of connecting rod (θ3 • Distance between crank and piston   332211 ... RRRRRR A B Karpe
HOOK JOINT • Used to connect two non parallel intersecting shaft • It is used when angular misalignment between shaft is up to 400 • The main disadvantage of single hook joint, velocity ratio is not constant. A B Karpe
UNIVERSAL JOINT A B Karpe
Hook’s Joint Analysis A B Karpe
MAXIMUM AND MINIMUM SPEED OF DRIVEN SHAFT • Angular velocity ratio • or A B Karpe
MAXIMUM AND MINIMUM SPEED OF DRIVEN SHAFT A B Karpe
ANGULAR ACCELERATION OF THE DRIVEN SHAFT • Angular velocity of driving and driven shaft is equal CONDITION FOR EQUAL SPEED A B Karpe
MAXIMUM FLUCTUATION OF SPPED A B Karpe
Polar diagram of angular velocities A B Karpe
DOUBLE HOOK JOINT A B Karpe
NUMERICALS A B Karpe
STEPS • Torque required at driving shaft A B Karpe
• Value of α for the total fluctuation speed to be 24 rpm A B Karpe
THANK YOU A B Karpe

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Kinematic analysis of mechanisms analytical methods

  • 1. Prof A B Karpe By Prof. A B Karpe Karpe.ajit@gmail.com Department of Mechanical Engineering STES’s, Smt. Kashibai Navale College of Engineering
  • 2. CONTENTS • Introduction • Analytical method for Displacement, Velocity and Acceleration analysis of slider crank Mechanism. • Position analysis of links with vector and complex algebra methods • Loop closure equation • Chase solution • Velocity and acceleration analysis of four bar and slider crank mechanisms using vector and complex algebra methods. • Hooke’s joint, Double Hooke’s joint.A B Karpe
  • 3. APPROXIMATE ANALYTICAL METHOD    OPStrokeofLinewithRodConnectingofAngle OPStrokeofLinewithCrankofAngle r l RatioObliquityn OCCrankofRadiusr CPRodConnectingofLengthl , , , ,        A B Karpe
  • 4. • Find: Crank Position (ϴ) using Displacement of Piston • Find Velocity of Piston using (Vp) Velocity of Piston • Find Acceleration of piston (Ap) Acceleration of Piston • Find angular velocity of connecting rod (ωp) Angular velocity of C.R • Find Angular acceleration of Connecting rod (αp) Angular acceleration of C.R.        n rx 2 sin )cos1( 2        n rvP 2 2sin sin.        n raP   2cos cos.2 nn CP     cos. sin cos. 22    2/322 22 )sin( )1(sin.       n n CPA B Karpe            22 sin2 2sin sin. n rvP Uniform speed of crank Non-Uniform speed of crank
  • 5. NUMERICAL • IN an IC engine the rod of rotation is 2000 rpm. The connecting rod is 270 mm long and crank radius is 60 mm. Determine at 30 % of outstroke. i. Linear velocity of piston ii. Angular position of crank iii. Linear acceleration of piston iv. Angular acceleration of connecting rod v. Angular velocity of connecting rod vi. Crank angle for maximum piston velocity A B Karpe
  • 6. COMPLEX ALGEBRA METHOD »This method is preferred when high level accuracy is desired or the analysis is to be repeated for a large number of configurations. • Complex algebra method is also called as complex variable method. • Complex numbers are not vectors but that can be used to represent vector • In Polar form of fig, vector OR of magnitude r and direction θ is written as, • In Complex form the same can be represented as  rROR i reR  A B Karpe
  • 7. COMPLEX ALGEBRA METHOD »Where, r = magnitude of vector R θ = Direction of vector R w. r. t. Real axis • The location of any point in fig (b) is specified by its corresponding real and imaginary coordinates 1i (a) (b) yx iRRR  A B Karpe
  • 8. COMPLEX ALGEBRA METHOD • Employing complex rectangular notation for vector R • Euler’s Equation from trigonometry Hence, and  sincos iRRRR   sincos iei  )sin(cos  iR  i R Re ) 2 (      i i eie A B Karpe
  • 9. DEFINITION OF COMPLEX NUMBER: • A complex number is a number of the form a + bi, where a and b are real number and i is an imaginary unit satisfying Properties of Complex number: • Equity: Two complex numbers are equal if and only if their real parts and their imaginary parts are respectively equal. • Addition: To add two complex numbers, add the real parts to one another and the imaginary parts to one another. 1i A B Karpe
  • 10. • In complex form vector OC of magnitude R is written as, ------ (i) Where, R is magnitude and θ is position of vector On Differentiate Eq (i) w. r. t. Time, we get velocity Velocity, VELOCITY ANALYSIS OF A LINK BY COMPLEX ALGEBRA i OC Re       )( )(Re   i dt d eR dt d V i i C A B Karpe
  • 11.      i i er dt d ieR . .              ) 2 ( ..   i C erV• ---(ii) • Where, r.ω = Magnitude of velocity and = Direction of velocity of link OC which is 900 ahead from original position of OC ) 2 ( i e A B Karpe
  • 12. ACCELERATION ANALYSIS OF A LINK BY COMPLEX ALGEBRA • On Differentiating equation (ii) w. r. t. Time, we get acceleration of link,  )(.. )2/(     i c er dt d a       dt d e dt d iera ii c    )2/()2/( ... t c r cc ii c aaa erera    )2/()(2 ....   A B Karpe
  • 13. Velocity and acceleration of a link in complex variable form A B Karpe
  • 14. LOOP CLOSURE EQUATION • The sum of the relative position vectors for the links forming a close loop in the mechanism take by order is always zero. • As the links in the mechanism are rigid, hence even after changing the loop position the magnitude of position vector do not change w. r. t. Time. • The four general cases are discussed  Loop closure equation for four bar chain  Loop closure equation for slider crank chain  Loop closure equation for offset slider crank chain  Loop closure equation crank and slotted lever mechanism A B Karpe
  • 15. LOOP CLOSURE EQUATION FOR FOUR BAR MECHANISM DADA CDCD BCBC ABAB     DOD COC BOB AOA    From fig Absolute position vectors A, B, C & D are given as Relative position vectors A B Karpe
  • 16. LOOP CLOSURE EQUATION FOR FOUR BAR CHAIN 0 DACDBCABDACDBCAB 0 DACDBCAB • Adding all relative positions vectors as under • The above equation represents Loop closure equation A B Karpe
  • 17. LOOP CLOSURE EQUATION FOR SLIDER CRANK CHAIN A B Karpe
  • 18. LOOP CLOSURE EQUATION FOR SLIDER CRANK CHAIN From fig Absolute position vectors A, B, C & D are given as COC BOB AOA    Relative position vectors CACA BCBC ABAB    CABCABCABCAB  0 CABCAB Adding all relative positions vectors as under The above equation represents Loop closure equationA B Karpe
  • 19. LOOP CLOSURE EQUATION FOR OFFSET SLIDER CRANK MECHANISM A B Karpe
  • 20. LOOP CLOSURE EQUATION FOR SLIDER CRANK CHAIN From fig Absolute position vectors A, B, C & D are given as DOD COC BOB AOA     Relative position vectors DADA CACD BCBC ABAB     CABCABCABCAB  0 CABCAB Adding all relative positions vectors as under The above equation represents Loop closure equationA B Karpe
  • 21. NUMERICAL • In slider crank mechanism, the crank radius is 100 mm and length of connecting rod is 500mm. The crank is rotating in counter-clockwise direction at an angular velocity of 15 rad/sec and the angular acceleration of piston and angular acceleration connecting rod when the crank is at 600 from IDC. A B Karpe
  • 22. STEPS • For Loop Closure Equation • Find, θ3 • Angular velocity of connecting rod • Find, ω3 • Acceleration of piston 324 RRR  xeler ii  32 ..  )cos.cos.()sin.sin..( 33223322  lrilrVp  A B Karpe
  • 23. VECTOR ALGEBRA METHOD • Vectors are used to represent the magnitude and position of kinematic links • Let the loop closure equation for a slider crank mechanism is • The above equation in vector form is written as • Properties of Vector  Dot product of two perpendicular vector is zero  Cross product of two parallel vectors is zero BAC    BBAACC A B Karpe
  • 24. • Chace soutions are closed form solutions of two and three dimensional vector equations. • Case 1: magnitude and direction of C are unknown Chace Solution-I A B Karpe
  • 25. • Magnitude of A and B are unknown eliminating B by taking dot product with every term with (B cross K). Chace Solution-II A B Karpe
  • 26. • Magnitude of A and direction B are unknown (eliminating A) Chace Solution-III A B Karpe
  • 27. VELOCITY ANALYSIS USING VECTOR METHOD • Let R the magnitude of the vector of a link • Differentiate w. r. t. Time to get velocity • Where, • --------------------(i)   RRR   R dt d R dt dR RR dt d )( )(    RkRR dt d  )()(   RkRRRR dt d V  A B Karpe
  • 28. ACCELERATION ANALYSIS OF LINK USING VECTOR METHOD • Differentiate Equation (i), to get acceleration • For non uniform motion of link • For non-uniform motion of link • The first part of equation is tangential component of acceleration whereas second part is centripetal component of acceleration       )()( RkRRR dt d V dt d a  )(2   RRa  )()( 2   RRRkRa  A B Karpe
  • 29. NUMERICAL • In IC engine mechanism, crank is 40 mm long and length of connecting rod is 160 mm. The crank angle is 400 with the TDC position. Find the angle made by connecting rod with the line of stroke and the distance between the crank and piston using chace solution. A B Karpe
  • 30. STEPS • To form Loop closure equation • Angular position of connecting rod (θ3 • Distance between crank and piston   332211 ... RRRRRR A B Karpe
  • 31. HOOK JOINT • Used to connect two non parallel intersecting shaft • It is used when angular misalignment between shaft is up to 400 • The main disadvantage of single hook joint, velocity ratio is not constant. A B Karpe
  • 34. MAXIMUM AND MINIMUM SPEED OF DRIVEN SHAFT • Angular velocity ratio • or A B Karpe
  • 35. MAXIMUM AND MINIMUM SPEED OF DRIVEN SHAFT A B Karpe
  • 36. ANGULAR ACCELERATION OF THE DRIVEN SHAFT • Angular velocity of driving and driven shaft is equal CONDITION FOR EQUAL SPEED A B Karpe
  • 38. Polar diagram of angular velocities A B Karpe
  • 41. STEPS • Torque required at driving shaft A B Karpe
  • 42. • Value of α for the total fluctuation speed to be 24 rpm A B Karpe
  • 43. THANK YOU A B Karpe