theory of machines and automatic control winter 2019/2020
TRANSCRIPT
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Theory of Machines and Automatic ControlWinter 2019/2020
Lecturer: Sebastian Korczak, PhD, Eng.
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 2
Lecture 1 cont.
kinematic pairs, mechanisms, mobility
Materials license: only for education purposes of Warsaw University of Technology students.
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 3
Kinematic chain mobility
F >= 1 – movable
F < 1 – locked or overconstrained
(3D chain) F=6N − p1 − 2 p2 − 3 p3 − 4 p4 − 5 p5
(2D chain) F=3N − p4 − 2 p5
N− numberof moving bodies
pi − number of i − type classes
kinematic chain mobility – structural formula
(the Chebychev–Grübler–Kutzbach criterion)
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 4
Kinematic chain - examples
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 5
Multiple kinematic pairs
1
2
3
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 6
Kinematic chain - examples
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 7
Kinematic chain - examples
Mobility = 0 Locked? No!
overconstrained
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 8
Kinematic chain - examples
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 9
Kinematic chain - examples
Universal joint (Cardan, Hooke's, Hardy Spicer)
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 10
Kinematic chain - examples
ω2=ω1cosβ
1− sin2βcos2 γ1
, ω1=d γ1
dt, ω2=
d γ2
dt
Universal joint (Cardan, Hooke's, Hardy Spicer)
γ1γ2
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 11
Kinematic chain - examples
Constant-velocity joint (homokinetic, Double Cardan)
source: http://www.cardanjoints.com
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 12
Additional materials
http://507movements.com/
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 13
Examples – digger arm
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 14
Examples – oscillatory fretsaw
źródło: http://www.plan-rozwoju.pcz.pl/wyklady/mechatronika/Struktura_i_analiza_kinematyczna_ukladow_plaskich_w.pdf
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 15
Examples - corrugated sheet metal forming machine
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 16
Examples
Geneva drive (Maltese cross)
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 17
Lecture 2
Structural classification,velocities in planar mechanisms.
Materials license: only for education purposes of Warsaw University of Technology students.
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 18
Classification of kinematic chains
Simple kinematic chain – every member has maximum
two kinematic pairs.
Complex kinematic chain – at least one member has
three kinematic pairs.
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 19
Classification of kinematic chains
Simple kinematic chain – every member has maximum
two kinematic pairs.
Complex kinematic chain – at least one member has
three kinematic pairs.
Open kinematic chain – at least one member has only
one kinematic pair.
Closed kinematic chain – every member has minimum
two kinematic pairs.
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 20
Classification of kinematic chains
Examples
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 21
Structural classification of mechanisms
Structural group – the simplest part of mechanism that has zero
mobility.
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 22
Structural classification of mechanisms
Structural group – the simplest part of mechanism that has zero
mobility.
Planar mechanism with only 5th class pairs: F=3n − 2 p5=0
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 23
Structural classification of mechanisms
Structural group – the simplest part of mechanism that has zero
mobility.
Planar mechanism with only 5th class pairs: F=3n − 2 p5=0
p5
n=
3
2=
6
4=
9
6=.. .
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 24
Structural classification of mechanisms
Structural group – the simplest part of mechanism that has zero
mobility.
Planar mechanism with only 5th class pairs: F=3n − 2 p5=0
p5
n=
3
2=
6
4=
9
6=.. .
n=2 p5=3
IInd structural
group
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 25
Structural classification of mechanisms
Structural group – the simplest part of mechanism that has zero
mobility.
Planar mechanism with only 5th class pairs: F=3n − 2 p5=0
p5
n=
3
2=
6
4=
9
6=.. .
n=2 p5=3
IInd structural
group
IIIrd structural
group
n=4 p5=6
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 26
Structural classification of mechanisms
Structural group – the simplest part of mechanism that has zero
mobility.
Planar mechanism with only 5th class pairs: F=3n − 2 p5=0
p5
n=
3
2=
6
4=
9
6=.. .
n=2 p5=3
IInd structural
group
IIIrd structural
group
n=4 p5=6 n=6 p5=9
IVth structural group
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 27
Structural classification of mechanisms
crank drive
Ist structural group – drive
n=1 p5=1 + drive
linear drive rotary drive
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 28
Structural classification of mechanisms
Example
E
A
B C
D
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 29
Structural classification of mechanisms
Example
E
A
C
D
B
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 30
Structural classification of mechanisms
Example
E
A
C
D
B
I
n=1 p5=1
+ drive
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 31
Structural classification of mechanisms
Example
A
C
D
B
IE
C
n=1 p5=1
+ drive
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 32
Structural classification of mechanisms
Example
A
C
D
B
IE
C II
n=1 p5=1
+ drive
n=2 p5=3
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 33
Structural classification of mechanisms
Example
A
C
D
B
IE
C II
n=1 p5=1
+ drive
n=2 p5=3
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 34
Structural classification of mechanisms
Example
A
C
D
B
IE
C II
II
II class mechanism.
n=1 p5=1
+ drive
n=2 p5=3
n=2 p5=3
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 35
Structural classification of mechanisms
2nd Example
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 36
Structural classification of mechanisms
2nd Example
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 37
Kinematics of mechanisms
Kinematic analysis of a mechanism – determination of velocities
and accelerations of selected mechanism members' points at
considered configuration. Mechanism structure must be given
(geometry of members, kinematic pairs) and drive method must
be known.
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 38
Methods of velocities and accelerationdetermination
Graphical methods
- velocity projection method,
- instantaneous center of rotation method,
- instantaneous center of acceleration method,
- method of rotated velocities,
- velocity decomposition method,
- acceleration decomposition method,
- velocity scheme method,
- accelerations scheme method.
Analytical method
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 39
Methods of velocities and accelerationdetermination
Graphical methods Analytical method
advantage
better understanding of mechanism motion,
analysis of very complicated mechanisms,
computers not needed,
functions of configuration as a solution,
analysis of very complicated mechanisms,
disadvantage
great workload, needs to repeat graphs
for every configuration, graphical errors.
computer needed for complicated mechanisms,
complicated systems of equations to solve,
solution interpretation may be complicated.
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 40
Velocity projection method
Projections of velocities of two rigid body's points onto
common line are equal.
A
B
vA
vB
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 41
Velocity projection method
A
B
vA
vB
Projections of velocities of two rigid body's points onto
common line are equal.
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 42
Velocity projection method
Example
A
B
vA
Given: vA and direction of vB
Searched: vB
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 43
Velocity projection method
A
B
vA
Example
Given: vA and direction of vB
Searched: vB
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 44
Velocity projection method
A
B
vA
Example
Given: vA and direction of vB
Searched: vB
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 45
Velocity projection method
A
B
vA
Example
Given: vA and direction of vB
Searched: vB
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 46
Velocity projection method
A
B
vA
Example
Given: vA and direction of vB
Searched: vB
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 47
Velocity projection method
A
B
vA
vB
Example
Given: vA and direction of vB
Searched: vB
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 48
Instantaneous center of rotation method
A
BvA
vB
S
center of instantaneous rotation
(center of velocities)
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 49
Instantaneous center of rotation method
Example
A
BvA
vB
Given: vA and vB
Serched: vC
C
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 50
A
BvA
vB
S
C
Instantaneous center of rotation method
Example
Given: vA and vB
Serched: vC
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 51
A
BvA
vB
S
C
Instantaneous center of rotation method
Example
Given: vA and vB
Serched: vC
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A
BvA
vB
S
C
ω=vA|SA|
=vB|SB|
ω
Instantaneous center of rotation method
Example
Given: vA and vB
Serched: vC
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 53
A
BvA
vB
S
C
ω=vA|SA|
=vB|SB|
ω
Instantaneous center of rotation method
Example
Given: vA and vB
Serched: vC
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A
BvA
vB
S
C
vC
ω=vA|SA|
=vB|SB|
ω
vC=ω|SC|
Instantaneous center of rotation method
Example
Given: vA and vB
Serched: vC
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C
D
B
A
ω
Instantaneous center of rotation method
Example 2
Given: ω
Serched: vA, vC, vD
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C
D
B
A
vC
vA
vD
ω
vA=ω|AB|
vC=ω|CB|
vD=ω|DB|
Instantaneous center of rotation method
Example 2
Given: ω
Serched: vA, vC, vD
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 57
Velocity decomposition method
Every planar motion can be described by a superposition of a linear
motion and an angular motion.
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 58
A
B
+
A
B =
1st example
A
B
Velocity decomposition method
Every planar motion can be described by a superposition of a linear
motion and an angular motion.
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 59
AB
+AB
AB =
Velocity decomposition method
2nd example
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 60
AB
+AB
AB =
v⃗B= v⃗ A+ v⃗ BA
absolute velocity
of point B velocity of a linear motion
Angular velocity of point B
in rotation around point A.
Velocity decomposition method
2nd example
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 61
AB
+AB
AB =
v⃗B= v⃗ A+ v⃗ BA
absolute velocity
of point B velocity of a linear motion
Angular velocity of point B
in rotation around point A.
v⃗BA=ω⃗× A⃗B
Velocity decomposition method
2nd example
ω
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Velocity scheme method
Velocity scheme of a rigid body – geometry created by the ends
of it's velocity vectors moved to the common starting point
(pole).
Velocity scheme is similar to the corresponding rigid body: it is
scaled and rotated by an 90o angle in the direction of body's
angular velocity.
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Velocity scheme method
A
B
vA
vB
C
Example
Given: vA and vB
Serched: vC
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Velocity scheme method
A
B
v A
vB
C
Example
Given: vA and vB
Serched: vC
Graph in scale! e.g.:
geometry scale: 1cm → 10cmvelocity scale: 1cm → 1m/s
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Velocity scheme method
A
B
vA
vB
C Ov
Example
Graph in scale! e.g.:
geometry scale: 1cm → 10cmvelocity scale: 1cm → 1m/s
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15.10.2019 TM&AC, Lecture 2, Sebastian Korczak, only for educational purposes of WUT students. 66
Velocity scheme method
A
B
vA
vB
C
vA
Ov
Example
Graph in scale! e.g.:
geometry scale: 1cm → 10cmvelocity scale: 1cm → 1m/s
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Velocity scheme method
A
B
vA
vB
C
vB
vA
Ov
Example
Graph in scale! e.g.:
geometry scale: 1cm → 10cmvelocity scale: 1cm → 1m/s
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Velocity scheme method
A
B
v A
vB
C
vB
v A
Ov
A’
B’
Example
Graph in scale! e.g.:
geometry scale: 1cm → 10cmvelocity scale: 1cm → 1m/s
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Velocity scheme method
A
B
vB
C
vA
vB
vA
Ov
90o
Example
Graph in scale! e.g.:
geometry scale: 1cm → 10cmvelocity scale: 1cm → 1m/s
A’
B’
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Velocity scheme method
A
B
vA
vB
C
vB
vA
Ov
90o
Example
Graph in scale! e.g.:
geometry scale: 1cm → 10cmvelocity scale: 1cm → 1m/s
A’
B’
C’
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Velocity scheme method
A
B
vA
vB
C
vB
vA
Ov
90o
Example
Graph in scale! e.g.:
geometry scale: 1cm → 10cmvelocity scale: 1cm → 1m/s
A’
B’
C’
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Velocity scheme method
A
B
v A
vB
C
vC
vB
v A
Ov
90o
Example
Graph in scale! e.g.:
geometry scale: 1cm → 10cmvelocity scale: 1cm → 1m/s
A’
B’
C’
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Velocity scheme method
A
B
vA
vB
C
vC
vB
vA
Ov
90o
velocity scale: the samegeometry scale: new!
Example
Graph in scale! e.g.:
geometry scale: 1cm → 10cmvelocity scale: 1cm → 1m/s
A’
B’
C’
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Velocity scheme method
Example
ω
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Velocity scheme method
Example
A
B
C
D
E
F
ω