Insa Projet Thsa
of 157
-
Upload
youssef-khali -
Category
Documents
-
view
131 -
download
3
Transcript of Insa Projet Thsa
-
!
"#$
%&' &
() &
%*+
",--*
"
#.'
+/'
0 01234 !52
0 0 213 !52
0 +002 !5&
0 +0 3(6 !5.
0 0 637(2 () &5.
0 802616 !5.
!"#$%%
& !%$$ !'($
#! % '% '
%%$ !'
-
&.&
-
Avant-propos &"
"&
&)
&& " &" !9 6: & !65 &$ "&
&& /0 "
$ &
5&!+
5 " " & &
/&
0
;
&. &
(
5
0
&&'
! +
) &5
"
-
%54) " E
SOMMAIRE %6(2 000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E
7!(2-' (4263(64 427% 000000000000000000000000000000000000000000000000000000000000000000 =
E !261(F3000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 =
, 24%2!3(%%43%(4%%A%%B(64 00000000000000000000000000000000000000000000000000 =
,0E
& 000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 =
,0, $/ 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 =
,0=
&" 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 ;
= 64%B60000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 *
=0E "&
0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 G
=0, &
/ 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 H
I !4762(J642 100000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 >
I0E &
:)$ 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E-
I0, 6$
,0, M&7%0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 I-
,0= &
&
&M
&7% 00000000000000000000000000000000000000000 IE
,0I /&&&)&
/7% 000000000000000000000000000000 I=
= 4A%%!2%3%(437%!2%%!6(4%!2624 000000 I;
=0E .
&
&M
&7%&
1 0000000000000 I;
=0, .
&
&M
&7%&
0000000000000 I*
=0= .
&
&M
&7%&
0000000000000 IG
=0I .
&
&M
&7%&
0000000000000 IH
=0; %/
/
&7%.
& 00000 I>
I 4A%%644%%B6%A!%46232134%B337% 00000 ;E
I0E B 000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 ;E
I0, B$ 000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 ;*
; 643%(64000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 ;*
7!(2=' 7%2(F3N(4((644A%%6427(32000000000 ;G
E 61+( 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 ;G
, (4((6427(3237%2(F300000000000000000000000000000000000000000000000000000 ;G
,0E 7%/ 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 ;G
,0, "$&& 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 ;G
,0= 4
&$ 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 ;H
,0I
&/000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 ;>
,0;
&N&) 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000 ;>
,0* &&$000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 *E
= 76(8%2(!(6427(32(400000000000000000000000000000000000000000000000000000000000 *>
=0E /&&&$000000000000000000000000000000000000000000000000000000000000000000000000000000 *>
=0, && 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 GE
-
%54) " ,
=0= &&& 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 HE
I 643%(64000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 H,
7!(2I' 4A%%64%6(64!3(%%437%2(F3 00000 H=
E 61+( 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 H=
, 4A%338%62%4%7(4!3(%%437%0000000000000000 H=
,0E &&M
&7%& 0000000000000000000000000000000000000000000000000000000000 H=
,0, &E
= /.
&
&M
&7%!600000000000000000000000000000000000000000000 >G
=0E
/&"&7%&/0000000000000000000000000 >G
=0, "
&
&M
&7%00000000 >G
=0= !&
&
7% 0000000000000000000000000000000000000000000000000000000000000 E-=
I 643%(640000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E-I
7!(2;' (22B2%32K6(%(6464!(64314%%( 000000000000 E-*
E 61+( 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E-*
, %2(!(64(22B2%32%6464(6444000000000000000000000000000000000000 E-*
,0E &"000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E-*
,0, &
" 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E-H
= 6(%(64(22B2%32000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E-H
=0E &"$&) 000000000000000000000000000000000000000000000 E-H
=0, &/"0000000000000000000000000000000000000000000000000000000 EEE
I 14%%((22B2%32000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 EE=
I0E %&&$
& 000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 EE=
I0, %&)&&000000000000000000000000000000000000000000000000000000000000000000000000000000000000 EE;
I0= %&$
&0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 EEG
; %2(!(64%%%(%2(%200000000000000000000000000000000000000000000000000000000000000000000000000000000000000 EE>
* 643%(640000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E,-
643%(64(4000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E,,
448E' 62(%164 2!7164 2!71(3% 00000000000000000000000000 E,;
E 1 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E,;
, 1 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E,;
= & 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E,H
I 1 $& 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E,>
448,' 6(000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E=E
E (& 000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E=E
,
)))& 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E=E
,0E )&/0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E=E
,0, %&&/0000000000000000000000000000000000000000000000000000000000000000000000000000000 E==
,0= &
&&
$$/000000000000000000000000000000000000000000000000000000 E==
448=' 462(13(64%6424%3!26 2!6000000000000000000 E=*
448I' 332A646A43461D 000000000000000000000000000000000000000000000000000000000000000000 E=H
448;' 64%6(6437%7A23(F3%32B63213400000000000000 E=>
448*' 762(72J%32%64%(4(2% 0000000000000000000000000000000000000000000000000 EI,
1(1(6 2!7( 00000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 EI;
4643200000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 EIH
1%12B((64%0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 E;,
-
-'(& 54) " =
CHAPITRE 0 : INTRODUCTION GENERALE DE LA THESE
1 PROBLEMATIQUE " &
& " )$
5 &O&5. 0&
"
&$)")
)$
.)
)0&&&
/
" & &05 &&
" &&. "
& &5
.)& )5 &O / 0
&
&.&0
2 TRANSFERT DE PUISSANCE AU SEIN DES SYSTEMES AVION
)*+ ,
% "5
& " &
&/0
&&)
.$&
&& $5
&
$
$
&;-PCI--B
#&&$,;-)LQ2>>R0%&&""
/
&)&&
S
).&
")0
&/$&.$
& && $0
)
&
/ )5 ) && /
"&&)&
&5/&$5&005
$"
&;-PC
,E-
$5)$&
"E;--)L
Q2>>R0
5&
/
&"
$
&
&0#
-
-'(& 54) " I
,G;$I---!%("5
=I;$;---!%($=H-"&$&0
! $5 " ). "S
1)GIG&&/5
&
0)
,NE5&&"5>R0
&&$&)&"
S
-
-'(& 54) " G
$
!
00
"
#
:
%.8
0-
02(+1 ,,0
)./&
"'
N &
",&U " "
&.&'5)"
&&5)"
))0
N &
" &)
/ "' / " $&
&@
M0
&
&
)"5&
&
&/
).&&
0
2*+ $,,
3"&
)
$)
&$
&)
&
& ) &)0 ) "
/ & & " &
&)")$))=N,0
"&
"&&
)"Q!63H;R0
-
-'(& 54) " H
!"#$
%
$
;
$
$
&
!#"#
02()1,,
&)/
)
&
&$
-
-'(& 54) " >
&
/ &"
5 #) #&
""" # & &
0 &5
&
/5#)&&)$
-
-'(& 54) " E-
-
-'(& 54) " EE
)" &
" 5 7% " "
$ "0 &
&
5)"&0
) " & / $ ==- 7%
/0./M"
$
&0"
/"
$
&
:&
0
7% ==- &
"
. 0 &
5 & "
&& "
7%5 "
"0 & &
&
5
&U && 7% )
"
0
&7%/)&?$0(
&) & "
& && " #" &
$
&&./0"
"$/&&
&.5)
"
&
&
5/&0
& ) INI5 ) &
7%S
&GN$&&
)
).
&
&
5&/0
&M&
&&
0
&&
5
&
0 & $
/&.0&
'
N /& " "
""5
N $&"""0
$
&
& / "
&&
.0 &
5 .
&"&&0
&&
"
.
"
&"
S
""&0/&
&&/5 &&$
0&&
&&&
&"0N$
7%&'
N "$M&
&&0/""$0
N &&
)""7%
&&&)IN,5
N 4$&P41"0%U
"7%&
M &5 /0! &
&M
&54$&PS&&
/
0&/"N&5
"$0
-
-'(& 54) " E,
"")&&
/
2B3
"
&)&
5")0
!5&)
&&"&&
"
2B&
5)
0%&&&
& .). & -5H) 7%
=,-57%"0
"X&
4$&P
B
&
!)
"
!)
&
""
&
""
4
/&
"
&
))
""
1
&
1
&
B"&&
"
!)
2B
)
2B
&
&
$
&
&&
=%"
&
&
&
&
&
&
/&&>RQ4 C-ER5 & / ) ,NE5 &
&U5 """5 & " / T
&).*60
&U %B
*6
7
37
378
0)(+1,(./
/S.T5&&
"$&.&&"$'
N ,
&&0!&&&
),NE5&"7&
&
[
73 0
& )
&)5&&
&
) ,N,5 "& "$ 5
&)[
73 .*65 "$
&"
$70
*6
7
378
0)()1>&,(./
&T&
&&
"5&
&
" $ 9 ""5 ."$0(&5&&&U$
&
"").&)[
73 370
-
E'"7%/54) " EG
N ,>
2&&),NE5&.
" &
&
7$03&
"
&
&&
&),NE5&
"$557$
.*60"$&
"""0
($"")7
$&
&
"""0
*6
7
0)(21>&,(./
&&
&&S
&
&0"$""" 90
& &5 &
"""
&75
&$&M&U
&U&0
&5 & &
M & &M
&U&&
&/0
" "
) &0 5 &
" &
&
&0 . " &
&.2N&&J\N20B
&))""B(10&5&&
&
5
&"
-
E'"7%/54) " EH
!
4N$&P
6B
&""!)"
B
&6
THSA
&,(
! "5 7%&0 (&
& $ " ) " &
)
&&7%5&&&7%)=NI0
" 7%L)5 & &
7%L) &L7%
&&$"&)=NI&&&&
7%0
& &: &5
&E0ES$
)&&7%&$"&'
& & ++= E0E
1 7% & ) =N; &
&
E0,0
)&&7%
:$5 &&) $"&
&&
0&") &1 &
7%&)=N;0
-
E'"7%/54) " ,-
##
$
$
;&
-
E'"7%/54) " ,E
N &
&
7%"5
&
&"5
pi
,
*$ = E0I
"&' &"N04&&
"1
& 1 2 " " &),NE0
pi,
*
7.
$
E
$
$
E
5'5!#
$
*
B
02(@1>".#:::,
&$."
&"'
=
=
7
*
$
pi
pi
,
-,
E0;
"&' &&"N&4LL5 ""L0
& "$&&&
& 5E0=E0I'N &
&
7%&5
*
EE
,
E=
pi E0*
N &
&
7%"5
*
E,
E=
pi E0G
N&&"&&
1 " & & ) =NG0 1
&"
" &
&5 "U
"&&)=NH0
"
)&&")0!&
&"
-
E'"7%/54) " ,,
pi,
*
7.
$
E
$
$
E
5'5!#
$
*
B
B
02(A1>".
:::,,,
**
7.
E
5'5!#
$
$
B
pi
55,
02(B1>".
:,9::
1 "5 &
&
&
7%&"$
&
&
)"&
&&&
&"&)E0H0
= -E-
,
*
$
pi
E0H
"&'
&
&"C0&5"&&
&"&&)"0!,,1
E0H5
&$"
&5
"&.
T&=>&$0& T & E0>
& & /
"&&0"
&
& & ) E0 3 T
$ )5 .
" &
" Q5 0
-
E'"7%/54) " ,=
+
+=
)
EE,
E E0>
"&' &.&"&$
&N5
&
C5
&&.
&:0
%$&&.&$&'
pi
*
$,
= E0E-
2'/
&&&"
& 5 & & "$ &
&
0
2*2*2 $,>-;
&&5"$&&&"$&M
& 7%04$&P & "$
&)
&)"&&)
0
4$&P)&.&5&$.&"$
"$0(&'
N .$.
&$.4$&P5
N .&5
N .&5
N .&$&"$4$&P5
N 1"&)"0
E
2$"21E
1.12E
2&&2E
&$E,
2,
12,
21,
*
B
1"
4$&P
"
02(+31 -;
-
E'"7%/54) " ,I
% &&). *5 & ""/
&$&&5S$.'
N &)
&
7%5&&$
&"&"
&$5
)"
&).0
N &)
&
7%5 &
&&"&).0
&5&&
$
&
0
5&)&5&&&$&)
"&&0
"$"&"5M&
&04$&P
&5
:&.0 &. " &
&
&
7%""0
&&&
!
B
&
Noback
**
1.
02(++1-;
&4$&P&.&&E0EE
& $ $0 &
$5
&
5O.&)
1"0&&4$&P5&.
* & )=NEE &)
7% &
&
0
?(?( *$$ + &)
E0EE"&' //&$4$&P5
$ &
4$&P45
?( &&&$L&4$&PN5 /4$&P0
3
/5&1
/ 2 QD2--R0 " "5 & 4$&P
&&&""E0E,0
&"
-
E'"7%/54) " ,;
" " 5 & & 4$&P
. & . " E0EE0 &
&0 " " 5 1
4$&P&)=NE,&E0E,0
$
$
E
4 $&P
$ ? ( ? (
5 ' 5 !#
*7 .
*
02(+)1>".-;
&&"&4$&P&
&.
* )
&
" & 0 % )
E0E,'
( )[ ] ( )
=
>+=
*$$
)- E0E,
1 )=NE,5&'
==
=
?(
#?( 5$$$
E0E=
2*2*
!S&"
&"5
&0
&"5
&5 " & ) & & &&
")=NEI031 &&
)=NE=0
*
$
EE
$
$
2&
02(+21>".
,
*$
$
2&
5E
02(+".
:::,
& &
1 )
=NEI & E0EI0 & && "$
&5""$
&
&
0&)&)&
&5&
&"0
&&5&"/
"
-
E'"7%/54) " ,*
&0
&"5)S
&"0
=
=
>+".::
& E0E*5
& &
5 &&.
&
&."&).0
+=
==
,E
,E
,
,
E
$$$
E0E*
"&' $0 &E45
$- &,45
0 "EL5
- ",L0
-
E'"7%/54) " ,G
2*2*@ $:./
&
5 / & &
& &M
&0 ( " &
$&&))""7%05
& & )
=NE*0&M5&&
&&$0($&
$0
**
!#
02(+@1.,:./
1 &/
)=NEG0
$
0 *
$
* 0
$
9 9 7.
&
E
/
'* '
02(+A1".:./
1 &5 & & &"
&0
N
-
E'"7%/54) " ,H
7 ")L5
9 $
")=L0
&$&&
&7%5
/5"S&
]&
& &0 5 /
0%&
&
&$$
S
4$&P0
2*2*A ./
& & " &5
&
" 5 "
"&.1 &0
& 1 &"
/ ) =NEH
&&)=NE>0
*
-$
-
E
E
$ 9
2
9
/ &
5'
$
' '
02(+B1".
,
./
*$
9
55E
-
02(+C1".,:
,./
7% "
&
5 & &
4$&P5&&"&$0
>++
"&' &
E$5 > &//
=L5
&
N5 9 $
=L5
"N0
-
E'"7%/54) " ,>
2*2*B $,0,
)7%""//0
5""))5
$ " 5 & 0 3 ""
/&&
&)=N,-'
0 -
7
$
9
02()31#./
"&555
""0!
)&5&&&&
&
/ ) =N,E & 7 "" &
1 "")=N,,0
7
0-
9
02()+1.,
./
9E
7
9
9
2&
""
02())1>".,:
.
""
-
E'"7%/54) " =-
/&
./&)/
""51 &&&.
&5&
&$& )$03 &$
&&))&1) $N
&QB2-IR0)=N,I 1 & $ )
""0 & & & &
&
)$)&"")/90
9E-
9
7
E
9
9
&
9
9)
B"
2
&
)
2
&
""
2&
""
9
02()
-
E'"7%/54) " =E
. & )$
)
E0,E5
&E"
0,99 ++= E0,E
N 9
==
5
-
,
79
999 E0,,
"&' 9 $""=L5
9 $=L0
.)&2&).7%5
"))&$
5&&
. $ ""90 4 " & & &
E0,=&NN&&$9"
""75))
""0
=
99 = E0,=
&5&"
$9"7""
&$&&Q2*GR5&&04"
. )
$ & & @ E0,I0
& & & ) =N,; $
$&P
/$")&$
)&0
,
9
9 += E0,I
"&' $
""=L5
$&""=L5
&&,L
*0
av
9
9
02()51 -,:-::
-.0,./*
N %:
E,./
==5
-
=
79
E0,;
-
E'"7%/54) " =,
"&' &
""$5 7 &""5
&
$0 &= && ""
E0,*'
,
)7$9
=
E0,*
"&' $ &&$N5
) &&&)5
7 &""5
"P)L=02*2*C >.?,./
&)=N,*5&)
&M
&7%"0
-
E'"7%/54) " ==
900
>
0
90
0
70
0
90
0
90
&0
90
900
0
0
)
900
B
"
$0
0
9-0
>
-
9-
-
7-
0
9-
-
9-
&-
9-
9--
-
-
)
9--
B
"
$-
-
,,
*
0 5--
$-
-
$-
0
0*
$
*-
$-
-
9-- 9-
-
E
&
E
7.
*
00
$0
0
$0
0 *
$
*
00
0
$0
0
900 90 7.
-
E
&
E
E
E
>
*
0
0
*
*
E
pi,
E
$& &
*7.
5
$
$?(
$
0
$
$
$
BL&
"7%
2&
4$
&P
$
*,
E
$
>9-
->90
0
50
02()@1>"..?,
./
-
E'"7%/54) " =I
2*-;
" "&&" E0EE0
&&5&
) =N,H5 " & 4$&P & &
5 && " ) &0 &
&&$&4$&P$?(5&"$&
0
"5"&&&)"&&)0
& & &5 "
)QNE5ER_&&$0
)`NE5&4$&P"&
]
)"&&)0%.&'
?( *&$$ = E0,G
)`E5&4$&P"&
]
)""&&)0%."'
-
E'"7%/54) " =;
?(?( *&*$$ += E0,HE0,GE0,H)
'
[ ] - ?(?( *&)*$)$ >+= E0,>&))C>&&
&
0
."S&)'
E $)"&E0=-&&&
$:0&"$&7%0
?(
*$
$) += E0=-
, ")&]4$&P
5&)
&&0
2*::F,,G
&5"""707-."
&&&&)/"
"0"5"0-""&
5&&E0E*0(/& $ ) &0 " &
&&0
&$5")_&&$
.
"QNE5 ER0 & " )
"&&&
$&
&"E0=EE0=,'
) EE += E0=E
) E, = E0=,
&S
")5&&
$ =NE0 ( ) $ &
&
) .
&) "
0
)
NE E
,
- .
)$
&
E ,
E
a- E,
b- ,E
-2(+1,:::
&& ) " " &
")&"0
-
E'"7%/54) " =*
3 $& . """0
& "5 .
" "" .705 & &7-
"&&S&&0&&&)$)&
5 & ) .
"70""E7-&,5)=N,>0
900
>
0
90
0
70
0
90
0
90
&0
90
900
0
0
)
E
900
B
"E
$0
0
9-0
>
-
9-
-
7-
0
9-
-
9-
&-
9-
9--
-
-
9--
$-
-
,
*
0 5--
$-
-
$-
0
-
E
*
0 500
$0
0
$0
0
-
E
E
>
$
>9-
->90
0
7-70
)$
)
,
B
",
02()C1%0::
0-*
-
E'"7%/54) " =G
4 CONCLUSION & "7%/
1 $&0$$)& /:
)&
0.&
&&/
"&
0&&
4$&P"$
&5"$"0&
&&5"&
'
N &&
&
" $5 &5
/5
&5 " 1
"& *0 & "
&)
&0
N &
4$&P5 " & " & &
&& " & 0 4 "
)
) _ & &$
5 ) & &
&
"4$&P5$0
N &
& "
) _& &$ . )
&$&
&&)0
&T5
&&
S&U5/&
&0&
S"&&&
"
)& /5 $
)) )&
.,0
-
,'B/"7%.
&7%/54) " =H
CHAPITRE 2 : FLUX DE PUISSANCE AU SEIN DU THSA HYDRAULIQUE
1 OBJECTIF $
-
,'B/"7%.
&7%/54) " =>
Caractristique de charge mcanique du THSA d'aprs la spcification
-800
-600
-400
-200
0
200
400
600
800
-0,025 -0,020 -0,015 -0,010 -0,005 0,000 0,005 0,010 0,015 0,020 0,025
Vitesse angulaire THS (rad/s)
M
omen
t THS
(x1
000N
m)
Specification Iso-puissance maximale
1
!
&
.'=E=;C
.
0)(+1 .0,F223G:
),NE5&
.)
&=E=;C0
)*+
/7%
$&N
/ &
0 & $?
)"
&
&7%
&&0
&
7%//&
&0.M&"),N,Q!63H;R0
./7%
&)/
)&
&M
&7%0
0.
%,=
%,
"./
./
0)()1 ./&,
-
,'B/"7%.
&7%/54) " I-
&M
&7%S&.&'
N / )
) / 5 $&
/ . /0
&
/T/
&&
5
N &
)
"5&5
4$&P"$0
&
&&
7%
)
"$&
")
&&0
)*) .?,
)&N&M&7%/'
$A
$?(A?(
$A
!-;
*7:
*
$-A-
0
90
9-
-
::
$0A0
$A
$
X XN
&
0)(21 .?,
-
,'B/"7%.
&7%/54) " IE
H
N
"H
,5E,-
X&"
7%
H
"&$ N&"
:"
0)(,
E::
),NI5&&"7%&":5
&&)"&"&$03& "
"&&$"&
U&
&0
)*2 .?
&&""&&0%$
& && 7% &
/ "
"&&
7%5"&
)7%0&&"$
&M
& 7% & )
"$
&)5
"&)
&
&&M0
)*2*+ ,,
"
&5.7%
&
&M
&0&
&.
&""&)0&
5&;-V
&&M"0&
5&
&O&5
&."&$.
&
& & &
$ &
. /
5
" ""
&)0&&&
&
&0
&
&
)
/$
&7%)&'
N
&&7%5
& 9 = ,0E
"&' !5
-
,'B/"7%.
&7%/54) " I,
N
&
)/5
9 =[ ,0,
N
&
"")5
9 =[ ,0=
N
&&
)&""&5
EELE 9 = ,0I
N /&5
( ) --EE LELE[ E >+++
-
,'B/"7%.
&7%/54) " I=
)*2*) .?-;
&M
& & 4$&PS5 "5 & 7%0
" 5
& 4$&P5 &M
&7%"$0
N
&
4$&P5
$ = ,0E-
N
&&
)"&5
-- [LL >+
-
,'B/"7%.
&7%/54) " II
) ,N; & &)
5 &&
&
7% &)
0& && )
$"0
5"S&&"
&
&/7%0!&&"5
& " 7%5 5
-
,'B/"7%.
&7%/54) " I;
3 ANALYSE DES PERTES AU SEIN DU THSA DAPRES LES POINTS DE PERFORMANCE
&&
&
&
&
"
&
&M
& 7%0 &
&5 "
&
7%5 & & $
&M
&)0
2*+ D.?
:
,"
N ,.0G
$:&
0>>D
0>AED
@0A-D
"
-AFD00D !1A1-D
&
-1AGD
!
-AHD
)
I-A0D
02(+1D.?:
:
,"FI+BCD
0>AED
11AED
"
-A@DGAHD
!
@A1D
$&
-1AGD
!
-AEHD
)
-AFFD
2)$,;V
02()1D.?,
:
,"FI+BC
-
,'B/"7%.
&7%/54) " I*
2*) D.?
:
,
N ,.0G
$:&
0>>D
0EAFD
-FAID
"
-AIDFAFD!
@AFFD
&
--A-D
!
-A-D
)
HHAFD
02(21D.?:
:
, FI+@C537#I373+BA,EG
N ,F.0G
$:&
0>>D
0EAFD
10AED
"
-DEAED
!
@A0D
$&
--A-D
!
-A1ID
)
-AFFD
2)$,,V
02(
-
,'B/"7%.
&7%/54) " IG
2*2 D.?
:
,
N ,.0G
$:&
0>>D
-0A@D
HHA0D "
0A0GD1AHD
!
0AGD
&
GD
!
>AGFD
)
-1A0D
02(51D.?:
:
,FI@AA37#I373)),EG
N ,F.0G
$:&
0>>D
-0A@D
I>D
"
>AF1D@AED
!
0A1@D
$&
GAGHD
!
>AFGD
)
-AFFD
2)$>V
02(@1D.?,
:
,FI@AA37#I373)),EG
)=NE5)=N,5)=N=5)=NI5)=N;5 )=N*
& ) &
"" ) & "&
"&&0.$"
.&*"&5
&7%7%
" $ & &
N
/ /0 7% $
)"$"0
-
,'B/"7%.
&7%/54) " IH
2*>D
-0A@D
E1A@D
>AG@D
!
>A@@D
)
-AFFD
02(A1D.?:
:
,FI37#I373)),EG
N ,F.0G
$:&
0>>D
-0A@D
E1A@D
0D
!
>A@@D)
-AFFD
2)$-V
02(B1D.?,
:
,FI37#I373)),EG
&&&
5M&&
N/
/
&
5 &&
""0
-
,'B/"7%.
&7%/54) " I>
2*5 /.>/ D
:,
/
&M
& 7%5
&'
!$"""5&&,0EI)""
= Q2--R ,0EI
&.S./7%
&
5M&&.
]
&))/&&&I-45&`-5, W7%L"&"&&05
&/)
.*`-45&`-5*W7%L0
&& &
)5 $ " &) "5
&
5 $ &) " "5 &
/0
/$&")
&""Q2--R0
.
&5)""
&,0EI5**VQ2--R5Q2*GR0
!,1
-555
&&//&
))
&/
&/Q2--R03.&
/&
"$ =H-
/)""&)))&/0)=N>
)=NE-&.0
-
,'B/"7%.
&7%/54) " ;-
/
$
&
$
&
$
&
1M
$
#"
$
B"
&""
2"
/
$
&
$
&
$
&
1M
$
#"
$
B"
&""
2"
02(C1:--223E2
-
,'B/"7%.
&7%/54) " ;E
&
& &$
& 7%0
& &
7% " )
& && &M
&0
&
7% &
"5""))/
0
&5&)&e"
/0&")$4$&P5
"$ &M
& 7%0 )
&7%&$
/
"/
&)&$0
4 ANALYSE DES DONNEES DES VOLS TYPES NORMAL ET TURBULENTS VUE DU THS
/ $ & .)&
&7%
"/QIR0)"&
&
-
,'B/"7%.
&7%/54) " ;,
Caractristique de charge du THSA
Vol normal
-800
-600
-400
-200
0
200
400
600
800
-0,025 -0,020 -0,015 -0,010 -0,005 0,000 0,005 0,010 0,015 0,020 0,025
Vitesse angulaire THS (rad/s)
Coupl
e au
TH
S (x1
000N
m)
Monte 250 Nuds A cclration Monte 300 NudsCrois ire Descente 300 Nuds DclrationDescente 250 Nuds Specif ication 10% du domaine
1
!
&.
&'=E=;C
E-V&"
&'!.`E=5H;C
0
-
,'B/"7%.
&7%/54) " ;=
&$7%0!&5"&)IN,5&
&
/
T7%7%&
&7%0
0,0 0,0 0,0 0,2 0,0
0,5
1,7
0,81,2
0,0
3,8
2,21,7
0,00,00,51,01,52,02,53,03,54,04,5
Mot
e
250
Nuds
Acc
lra
tion
Mot
e
300
Nuds
Croi
sir
e
Desc
ente
300
Nuds
Dc
lra
tion
Desc
ente
250
Nuds
Phases
Puis
san
ce (w
att)
Cadran frein Cadran moteur
0
-
,'B/"7%.
&7%/54) " ;I
conso
. to
tale
du
TH
SA
perte
en
lig
ne
perte
val
ve
perte
m
oteu
r
perte
r
duct
eur
perte
vis
-c
rou
perte
No
back
puis
s. re
cu du
TH
S
puis
s. fo
urn
ie au
TH
S
mon
te
25
0 n
uds
acc
lra
tion
mon
te
30
0 n
uds
croi
sir
e
desc
ente
300
n
uds
dc
lra
tion
desc
ente
250
n
uds0
10
20
30
40
50
60
70
80
90
100%
con
som
ma
tion
to
tale
du
TH
SA
0
-
,'B/"7%.
&7%/54) " ;;
>:-L
,,*
4"&&"&S&&)
&
&
&$ &" $ &
&
7% &
& /
&$ &" $ $
&7%)0&
&&7%"-5-;5E5;5E-*-
0
/
] " )
&$
&S
N
& )/& &&0
U&&&
&"&
&5
)/0)INI5&"
/
&
&&
)&0
0,00
0,20
0,40
0,60
0,80
1,00
1,20
1,40
1,60
1,80
Puis
san
ce in
stan
tan
e (kW
)
Mon
te
25
0N
uds
Acc
lra
tion
Mon
te
30
0N
uds
Croi
sir
e
Desc
ente
300
Nud
s
Dc
lra
tion
Desc
ente
250
Nud
s
60 s
10 s
5 s
1 s
0,05 s
%,
:IA7
-
,'B/"7%.
&7%/54) " ;*
&&*
;
&,PC,E-$
"&&):E-V0?
,,/K,90
.0./0
,/
0
-
='7%&@
/&&54) " ;G
CHAPITRE 3 : THSA ELECTRIQUE - DEFINITION ET ANALYSE DE SON ARCHITECTURE
1 OBJECTIF &&&7%&04$
5&&"
)&""
& /5 & &0 &5
&$ & && && 7%
&0
2 DEFINITION DE LARCHITECTURE DU THSA ELECTRIQUE )*+ $./
)&N&&&
7%/'
M
&XN
/&
!
&&
B
!
!#
&
*$
**3
&0 &-
M
&UL&
; '
0)(+1:
0
)*) $-
5""&&$&)
&
&
)"&&)$/91C0
&5"&
&
"&
&
05.
5""
0&O
&//5&
)
&5 $ &
&& && $ "
& &&$Q2-ER0%
&5 && &
& !1C5 "
>- && Q+64>>R Q-IR0 % $ =H-5
&
&
" &
&
'./.&Q+64>>R0""
-
='7%&@
/&&54) " ;H
"$&&5"&&7%
!65$
b>
-)(+1 >
&&7%&)$
&$.S5$$SE-N>L"0
-
='7%&@
/&&54) " ;>
)*,
!&.
&$5.&Q+64>>R
Q2--R0(../
&@
&,&
.,06
&,/&
&5S5&&
)&"/
0!
&.,5&
&U " " " .S0 /
" M / , 0 3 /
& &
M
& / , /
.,&&0
$/
/
&$0&
)'
N /:5&$&
$
'0:5.-:5
N /:"&
&
&0
&&5/::5
N / :
& &
&0 ( "
"&"/.&
O0
)*5 $(.0
$/5.$@
&0
&&&)&
&
$ $$ )$
& /
0
)& & &
& $
/
&0N&
$"
"S&$"
/)$0)"
.
Q+64>>RQ2--R0
)*5*+ >,/
%/5&&:$$
&
&& 0
$$ "5 &5 &
$"5&/
&"&"
&
"0!.&
5
&
S.
.S$.
)0
-
='7%&@
/&&54) " *-
#+
#)
X
X
$
&
0)()1.>1G,F!.>C3GN-G
>NGDF
-:+BG
!//&5
&:
& / ,/
& 0
%& & " & "
&
&0&"&"
&=&
&
0 M
& / ,
5 "
& " ,L=@
& U
/ . ,5 "
& EL=0 &
&
".&
)"& .N$=I-N*--5.
"""5.&.&&&
"
..0T)5&&
/
&&&.
&
/0
X
XX
#+
#)
#2
.,
/>,
D-2
-
='7%&@
/&&54) " *E
&"&5 )&&
) "0"
"&&"&&&&0
#+
#)
>
:
$0
0)(
-
='7%&@
/&&54) " *,
/
$.&)&%E
%,@))5 $ $)
&$,N,0
) $& )
%& $/)&
&
&&
&
&&"
%"$
&))
%" &
&&"
$
&
&&
%"$
/&
"
-)()1%
-:,,+)
)*@*+ :0/>,-
,
"5.&&$&'
N ,,
!E E !,,
!
0)(51.&,,
.)&
-
='7%&@
/&&54) " *=
N/ "$ S )
)0 % && 7%5 / &)
")$'
EN &)"S'
N 4$&P"&&5
N 4$&P"&&&5
N 4$&P&U5
N $
";5
,N &&
5
=N &)
/ "$ 5 "&
$&)&
7%
&&5&&)
/0
&"$&.&$&
)&&&7%0)?&
&&&)&"$5".S
)
&0
&/&&&)&%E%,")"&
/ "$0 & $ &
&5&NN'
N 7%&5"
&$9
$&P $/ $$S &&
E-NE-"5
N $)7% $$ &&
SE-N*"0
)*@*) :.-
$&& &N &$ $ &
&&$7%!60&&&&&@
EN 5
,N &)
&5
=N
&)&
&5
IN "$&
5
;N "$&5
*N
&)&"/0
-
='7%&@
/&&54) " *I
B1B1B1B1
"&
"&41 %
41
6 4
B1B1 B2
%
"&41 %
41
6 4
B2 B1 B1B1B1B1
&
"&41 %
41
6 4
B1B2
"&41 %
41
6 4
B2
,
7%E.
)
2
-
='7%&@
/&&54) " *;
)*@*2 . +(+1 , 7 -; ::
F,,G
&& & & & 7% /0
& &
/ " &0 ! 5
&
& " &
0 " " &
&.&&U &&"!"
0
&)E5&'
N .&M
&M
&"
""5
N .
&&!5&$&
/ ""0 ! &
).
&&&$!5
N .&)
&
61)5
& / !610361 &" 5 &
&$
&
5&
5
N & " . %
5
& S & & & ))
""7%/0".&"
&&0%&&S7%/&
".5
N .%C5&&7%
&&
&0
:E
61
61
2B
64
4$PE
,
&
"
!
!
%C
%C
&
2B
64
!E!,!=
!E
!,!=
!E
!,
!=
!E5,5=
!E5,5=
,
E
0)(B1.+(+7D,-;::F,,
G
-
='7%&@
/&&54) " **
)*@*
-
='7%&@
/&&54) " *G
$,N=&&
7%N&&EN='
+ - E - E - E - E
) - - E E - - E E
,,
F2
G- - - - E E E E
&" &" &" &" &" 2?& 2?& 2?&
-)(21:,0:
,
$,N=5"&
5
$5&"$
"0&"&
5
&E,
.
5?&"$0
%C S 7% /
5 S
T"
)5&)/&
$0
%&&&5&&&5?&
&
7% S " "0 ( . &
$"&&&
-
='7%&@
/&&54) " *H
:E
2B
64
E
,
/&
"
&
2B
64
!E
!,
!=
!E5,5=
!E5,5=
E
,
0
0
!
!
4$P
0)(+31.)(+7,,,-;
&&5"
&&&")$'
N &&,N,'"/
/"$54$&P5
N &&,N='&&EN=5$T
4$&P5
&
0
)*@*A .)(
-
='7%&@
/&&54) " *>
!E!,!=
!E5,5=
E
,
!E5,5=
,E !E5,5=
2B
64
2B
64
&
0
!
!
:
E
0)(++1.)(
-
='7%&@
/&&54) " G-
&& 2& ENE EN, EN= ,NE ,N, ,N= ,NI
/ 7/%"
%&
3
.
/>,
-4$&P 4$&P & 4$&P &
,-,
-0H0E-N> >5H0E-NE- ;5E0E-NH E0E-N> >0E-NE- ;0E-NH E0E-N> ,5G0E-NE-
,,-
-5>0E-N* E5I0E-N* E5=0E-N* =5*0E-N* G5H0E-N* *5H0E-N* >5H0E-N* ;0E-N*
%-
-5>;0E-N* >5>0E-NG >5>0E-NG >5>0E-NG >5>0E-NG >5>0E-NG >5>0E-NG =5>0E-N*
%F;0G
F,GE-> E-* >I5I E,I5I E-E5> H>5> EE>5> E-H5I
-2(+1-,:::.->D:-
" $$"&&
/&&
$$
)
&
7%&
0)&N.$
$
7%/&&,NI0
(61((%(6437%
!
&
&"
&
&
)
L"
&"
)
&M
L"
)
&
)
!
!&
&"
"
=0E-N*L7B
,0,0E-NGL7B
=0E-N*L7B
=0E-N*L7BE0E-NGL7B
E0E-N>L7BE0E-N*L7B
;0E-NHL7B
G0E-NGL7B
;5E0E-N*
6
-2()1-
,,-,9-,
$=NE"$5&&,NIMS
015&&&)
$&"
-
='7%&@
/&&54) " GE
&
&5)
)
&
0
N "5&&5 /
&
&&)&5
"&&
0
!& 5 &&
-
='7%&@
/&&54) " G,
0 (/&$
&"" &)0
&
" & 7% &$5 & &
& &) / /
&
0 ( ) /
/4$&P0 (
"$&N$0
4$&P"
$
$
&
"
$
$
&
&)
&
&)
02(+1:
,
2*)*+*2 %,>,
,/>,-,F-;G
&&&&&)5.
4$&P0()/,/:::,
(&$&"E0N /,/-;
&$0(.)=N,0
>
*:&
02()1 /,/-;
&//)/5
/.>.&$4$&P0!&
..".'
()
)=N,&&'
*$ ?( = =0E
-
='7%&@
/&&54) " G=
"&' $?( &4$&P45
* .7%&45
/&&0
)
.I&&'
( )==-=
,?(
$ =
pi =0,
"&' &&4$&P!5
> /.4$&P5
/4$&P0
$ &4$&P
E&4$&P.'
?( $ ,,
- = pi =0=
"&' //&4$&P0
&$&.".5=0,=0=5&
&//&&'
( ) ++ --=
,
, =0I
/
> &
".//)0
&5 / U . .
4$&P E0 & / . > & &
&$&
4$&P'
N &)
7%&
&
5&)4$&P
S &
& "0 &
'
?( $$ < =0;
"&' $ &
"&5
N &&&5
5 & &" S
&$&&&L&$0
< =0*
"&',,
-
*
=
pi &"&&!5
$!0
&&=0*5&
=0I5/.
.'
-
='7%&@
/&&54) " GI
* +
pi- =0G
N:::,-;
(&&&&$L&"&$&0
&& 4$&P&& //
&.&&
4$&P0
N &)
&&=0;0
6"E&'
*$
pi,= =0H
S4$&P&'
?(?( *$ = =0>&)"&&.$$?(
.&&=0E-5".&$
""$
5&
0
?(
pi
,
E =0E-
N &)&
&&5"&&?(&
4$&P5 S ) && )&&&I-V0'
VI-E--
=0EE
N /D$:::,,,,)&$"&&
4$&P5"
))=N=5/.>
&
&&4$&P&?0")&&?(.//&&&&"4$&P=0*0!
=0;5/.
4$&P$"0&=0E,
" " && & "
">5))"$&&I-V0
( ) =
,,
,,
-
-
+
pi
pi
=0E,
)=N=&&&
/.>5
&&4$&P0
-
='7%&@
/&&54) " G;
%*
F@
,(F+3G
0
F++G
,$
FAG
.D$
0
-
F+)G
$(-;
-
.D/,/
F
-
='7%&@
/&&54) " G*
+=
=0E=
= =0EI
/
)5&
= 5
"&'
) 5 . & "&5
)"5
)&0
6 5 / "$
Q5 piL,NR0 & &
& $ " )
$&5 0)&H-",*E&)
P 5 " $& / "N& " )
5"
))0&
/)"
" & 5
&U " 7%
"
0
#
:0
D:
02(51#90,90.)@+,0;
N 9-
&"$5&"$5&.5
&&."0&N&&""
/&&Q!2-IR0&"&&/"$0
-
='7%&@
/&&54) " GG
02(@1 .,(-9-4@6
N 9D
" . &
. Q!2-IR $ E5
)=NG0("&.&
.0.&."&/0"
)N. $,5)=NG0 .
&)0N.
&
.
-
='7%&@
/&&54) " GH
$=N=&./"&&Q 2-IR0
&
&)" B 2)
2
&
&&
&$N
N
&
B
.
"
)5
&
"$
"" $
B
$" "
-2(21-,::,9-9D
$=N=5)=NH
&/"0
&$$$
&)Q1%R
$0
0
0,1
0,2
0,3
0,4
0,5
0,6
0,7
0,8
0,9
1
0 1 2 3 4 5 6 7 8 9 10Pas (m/tr)
Ren
dem
ent
2f"$
2f".
2f""$
2f"".
2")
02(B1 ,,90,79D79-
)=NHS
)&5"$
)
& & .0 ( M & " )
&."$.5&&
&&7%!60
&
"7%$==-5"&
!6$)0!$5&"$&T).
$:: )E0I0& "5 &$
&"&)&&7%
/ 7%" & " )=N>0% "
:&$$5&
/"
&5&5
:$5U$:
:0
-
='7%&@
/&&54) " G>
4$&P
B 1&
JJ
02(C1"::
&)=N>5&$."0
&$)."0&
5"$&
"&&&7%$==-!6&
$)0 & && &)5
")$& " .0 5 & $ =NI
&7%$==-5".&&&)/
&"$05
&"$5
$ && $L "0 ! & &
)=NE-5".&&5&&
)
$"$0
-2( ;E5G
)
/
E>-P4 EGGP4
)
/
G**P4 ==*P4
02(+31 ,9
-E9D
?&&&$"&&5".
0&"."
)
&7%!605&)?&4$&P
"&)&//=0>0
5//&"=0E-0&
"7%&&4$&P0&
=0E;&"&&0
&
pi
,=
=0E;
S & ==-
-
='7%&@
/&&54) " H-
& $)0 "5 " & & &
'
N >.`;-5&$)5
N aE-W5&$5
N b-5HH5&&0
2*)*+*5 ,,--;9D
"
$".4$&P5
&
.&
0&
]
>"/.>4$&P0
&
4$&P'
N=0;.
)5
N=0*.
&&$4$&P5
&
4$&P &5 $
D / . 4$&P&&")=NEE0
-0,050
0,000
0,050
0,100
0,150
0,200
0,250
0 0,005 0,01 0,015 0,02 0,025 0,03 0,035
pas de v is (m/tr)
rayo
n ex
t nb
(m)
lim ite P res s ion adm iss ible NB lim ite gliss em ent NBlim ite ralis abilit vis lim ite rendem ent direc t
D
%, ,,-E-;F373++737
-
='7%&@
/&&54) " HE
0
50
100
150
200
30 40 50 60 70Marge de scurit (%)
Pre
ssio
n de
co
nta
ct (M
pa)
pression de contact (pour p = 0,01 m/tr)pression de contact admissiblepression de contact (pour p = 0,011 m/tr)
!
&
&!
)&V
02(+)1#:,-;:
,0:::,-E*
)=NE,5&&&"&"0!&
&M"&))&0!"E-5
&&&$*,)&=IV
&& & &$L&0!EE5 &)"
=>V0&$)&
&$4$&P5"&&M&&&"
&$0
2*2 .:
&)=NE=&&"&&
EN=0 & "
&&0/&".
"&U0&&&$'
N .&U
&
.&
&& $
/& " .
5
N .&/&S$
&5
N 4$&P&"$5
N 3""$&5
N 3" . &
) .
)
:)$0
-
='7%&@
/&&54) " H,
4$&P+
#
THSA
)
THS
$K
&-
!#
&0
!#
02(+21.:
4 CONCLUSION 4 "
& ") &
&&7%&
..)&&&))
!60 ! / "5 .&
&7%$
&0
"&&$0
&$
/& &5&
5&.$04".&
&$
-
I'7%&K/&
&54))" H=
CHAPITRE 4 : ANALYSE DE SA CONSOMMATION DE PUISSANCE DU THSA ELECTRIQUE
1 OBJECTIF &
/ & 7% &
&&&&0
5$"&
".
"
&M
&7%0&"
)
&M
&&&
&
5&&
$"&$&&
&7%0
&7%/5
/&
7%.
&&&$
" /0 & &
/ " )) "
)
&&
&&7%0
2 ANALYSE DU FLUX DES EFFORTS DANS LA CHAINE DE PUISSANCE DU THSA
3&&7%!6=0
)*+ .?
7%&&/'
N &) & .
&&"5
N "$&&
/"&
&7%&
&4$&P5
N ".&"$5
N .&$&/5
N 4$&P&$0
-
I'7%&K/&
&54))" HI
&
&
&
B.
&
1"
&
7%7%
1"
&7%
)
0)(+1
&M&&7%/0
$A
$
$?(A?($A
$A 2&4$&P
*
7:
*
+
)
50
5-
L0
L-
"
&
&
$0A0
$-A-
XX
N
&
0)()1.,,
-
I'7%&K/&
&54))" H;
.&&
&&&TT
" &
&
0 7% & 5 7%!6
&
)&
&&/0
)*) ,::=.?,
1 ),N=&&
&
&
.0
&
) " .$ &0
&&&
&&
&M
"0
4$&P
&
E
,
2& B 7%
$ !'
L0 L-
L- 5- 50
$- -$0 0
L0
$
$
*
$
$&$
*
&
E
&7:
&
,
50 5-
!)
("
$
0)(21".:
&& &M
&
S &
&
&
-
I'7%&K/&
&54))" H*
"&&"&&)0&5$
1 E$"&"
$&)""&)5&),NI0
E
2
%
^ ^
0)(,,
&M
4$&P
&"$5"&
"&&1 &),N;0 &
/
"5 "
1 &&&),N*0
E
2
0)(51".&
E
%
0)(@1".,:
&
1 &),N;""
'
=
+=
$$
I0E
"&' &&"4LL5
$ &"40
1 ),N*5"
&
'
=
+=
$$$
E I0,
"&' "N5 $=M0 $ &"40
N $0-,,DD,
% 1
) ,NG0 &
&
, M E
)?& )
5&
&
&&)0
-
I'7%&K/&
&54))" HG
0
E
$ 0
- $ -
$
2 N
5 0
L 0
E
5 O 5 0
2 N E
O -
5 O 5 -
O 0
E
O -/
5 -
L -
5 L
0)(A1".0-,,DD,
1 &)),NG&'
=
=
$$
E
E I0=
& . &
5 ) $
& &)0 & /& $ )
&.0
N $,
! &
$ 7%5 "
.
01
& & ) ,NH0 4
&
5 U " 1 ) ,N>
0
A0
E$0
E
0$
O 0 O0/-
L 50
A
) 0
E
5O50/5-
50
L 0
E
O -/
5L
5-
L -
) -
E
,
0)(B1>".,
A0
E$0
E
0$
O 0 &
L 50
) 0
A E
5O50/5-
50
L0
E
O -/
5L
5-
L-
) -
E
,
0)(C1>".,:
,
-
I'7%&K/&
&54))" HH
1 &&&'
N E
+=
++++=
EEEEE
E,EE,EEEE
5)L
55
$5)
I0I
"&' 50 &
E5
0 &&E4LL5
- &&,4LL5
50 EP),5
5- ,P),5
)0 &
&)E4L5
L0 EB5
0
&E0
N ,
+=
+=
,,,,,
,,E,,
5)L
555)
I0;
"&' 5- &
,5
)- &
&),4L5
L- ,B5
-
&,0&
-
I'7%&K/&
&54))" H>
2NE
O
L 50
50
L0
&
0C>
0P>
50
L0
50
L0
0)(+31>".&,:
& &5 S
&"$&.
)"
0
&U
&&
&U
& & &
&
&&0&U
&
&) &5
-
I'7%&K/&
&54))" >-
),NEE5&"&'
N
&EE;B "
&5
N )5
N & "& ( 1$&
&
0
&. ( 15 &&
,5
( 1&0
N &&)
&"&
0
$ &
&
" 5 & ! &U
&&".&7%0&
&/( 10&
&
&& ) ) &"$ Q261-ER
Q%-;R0&
( 1'
3>
>5)
3)
0)(+)1>,:&"
&&
&
5
( 1&&&Q2-=R0
%$),NE,'
E . && &
&
&NN
)5
'
,
-- )) 553 += I0G
"&' 3> &&&B5
5Q &
"
N&&5
>
&N&&0, &.
&&&
&
&&Q2-=R0]
5
&&0!
5)
$ &
&& )
&
) &
5)0
&
"&"5)3)
& "" 5)
" ". 3) "
:0S
"$&)
5$$)5
&
&& ) &
0& "
" )" &
5) & S
T 3)0"&."
& " "
-
I'7%&K/&
&54))" >E
S)&
&&03
Q2-=R&&
( 15
.&
&'
( ))) 53 +=
,
E I0H
"&' &&)7:5
"( 15
( 10
( & & I0H
& &
( 15&M"&&55&&)0
& &.
"& & $5
&
&&&)"5&
&$$
)&
&
&"0(.&
-
I'7%&K/&
&54))" >,
N $ & &
&0 5 "5 " /
& "
&M " 7%0
&&$
-
I'7%&K/&
&54))" >=
N -;
& $ "0
),NE;5 &&
&$/)0
$A
A
$A!
A
*A#
?)
*A6&%!Effort normal Noback
!
NN&)Y&&)Y
NN&)Y"&&)Y
Embrayage inversible !
N!"
0)(+51!,>/,-;
$/)'$/)"&
$$/0"&$&"$&4$&P0&
&$
$&&"5)&&
"7%0"//
)_)QD2G;R5"$
$/)$4$&P5E0(&5
&$/)5"U$&E
&&&&""0$/)
),NE;5/"#
//4$&P&&&$L&
4$&P0("
' %?)' #?( *$ = 5
O%"' $$ = 5
O %"O $$ = !$?(5
' $$$ += 0
"&' $?( &$4$&P45
* &45
# "5
$ &$/)45
$ &)4E0
4$&P' & & 4$&P
"E0 (&&5 .7% &03
-
I'7%&K/&
&54))" >I
4$&P0 ( )
&
4$&P"&'
E54$&P&"$5
-54$&P&"$0
& & 4$&P
)&4$&P0
N ,>
& & &
&
.
0
'$A!
5"
)&
$A%!
A%
Rducteur !
N
N&
0)(+@1!,>/,
5 " & $$
/04/
&
"5 "
" &$
&
&
0.5
&0&
$$/5$
)"&&0&
"&"
& &
&
"
&7%0
N ,>
&
&5"&
&
& & : "
$ 0 & & 5 &
-
I'7%&K/&
&54))" >;
:
& 0 ) -5
"$
&0
N $0-,,DD,F,,G
$&.&)
E0(&.$&
$&
M
"0".$
)&0
'$A!
A
$0A0%%!0
00
0
de couple !'
&-
$-A-%%!-
--
0)(+B1!,>/,,,
N ,>,
(&&
&.
0
$00
0A0
Moteur lectrique !'
N
&
N&
&)
N&
&
N
"
$"
0)(+C1!,>/,&,
N ,>F%G
! & . ) &
&U )0
)
&0
0$0
MPD !N
&
&
!#0
$!#0
!#-
$!#-
R!0
$R!0
R!-$R!-
&
-
$-
0)()31>/,F%G
7%"&,$0)
"&0&
5).&U)
&$&E0
-
I'7%&K/&
&54))" >*
N >:
7%!6)&"
&&
&=0%&U/),N,E&0
THSA
Noback
THS
Motor2Motor1
Mths Wths
Um1
Im1
Im2
Um2
Ur1
Ir1
Ir2
Ur2
THSA_status
Noback_status
0)()+1:,>%
7%!6&&'
, 0: / 0
/7%
%& I-----4
4$&Pf &
4$&P %& -E
7%f% &
7%"
B&
&
E=-E
C "
)7% %& -0-EL
-)(+1#-
, 0: / 0
(E
E %& I;E(,
, %& I;E(E
)E %& E;E(,
), %& E;E3E E %& EH-BE3, , %& EH-BE3E )E %&
&&)
3, ), %&
&&)
-)()1#-
E3&5"&!
-
I'7%&K/&
&54))" >G
3 Analyse du flux de puissance dans la chane de puissance du THSA POA
/
&
&7%/0-,
,,./O0
*
2*+ $/ , ,,
./
/ $ &M
&7%/"&,&.7%&
"
&&0")
&
)c!6d0 ) =NE5 & & 7% &
/ 7% &
&)
5
"&
&&05
& &&5 &
& 7%
& ) & 7% /0 6 &&
&&)""0
02468
1012141618
B (0,2/s ;18940daN) C (0,5/s ;16950daN) D (0,6/s ;6770daN) E (0,6/s ;0daN)Points de performance (vitesse angulaire THS; effort axial Ecrou)
Puiss
an
ce (kW
)
ConsommationTHSA Hydraulique (kW) ConsommationTHSA Electrique (kW)
N;,V
N;GV NH-V
N>*V
!
&)
02(+1 ,,,./.0
7::,
"
) & )
&
" " " $7%0 &
) ;,V
& 1 -5,WL5 EH>I-45 >*V
&-5*WL5-40
2*) .? ,
&7%/.
&&&
& && 7% ,0 & &
&)7%"
)&
7%S&$
&0 .
& & " )"
7% & &M
&5 &&
-
I'7%&K/&
&54))" >H
&&0)
&&
&M
&0
2*)*+ D:,:
N %:
,"FI+BC
-
I'7%&K/&
&54))" >>
N %:
,FI@AA37#I373)),EG
100,0
5,0 4,8 4,5
121,8
9,05,0 4,8 4,519,6 13,2
-45,1
100,0
-60-40-20
020406080
100120140
con
som
ma
tion
THSA
perte
m
ote
ur
et
ele
ctro
niq
ue
s
perte
ireve
rse
ur
perte
rdu
cte
ur
perte
N
oba
ck
perte
c
rou
app
ort
du TH
S
l'ecr
ou
% co
nsom
mat
ion
tota
le TH
SA
charge motrice charge receptrice
02(
-
I'7%&K/&
&54))" E--
/&
/.
&5&5$"
&)7%54$&P"N&0)
7%7%))$&&&0
2*)*) /,-
7% /5 " "
"
&M
7%"/$0
N ,F,G
)=N*/&""0
conso
. to
tale
du
TH
SA
perte
m
oteu
r
perte
ire
ver
seur
perte
r
duct
eur
perte
vis
-c
rou
perte
No
back
puis
s. re
cu du
TH
S
puis
s. fo
urn
ie au
TH
S
mon
te
25
0 n
uds
acc
lra
tion
mon
te
30
0 n
uds
croi
sir
e
desc
ente
300
nud
s
dc
lra
tion
desc
ente
250
n
uds
0
10
20
30
40
50
60
70
80
90
100
%co
nsom
mat
ion
tota
le du
TH
SA
02(@1/.?,%
,.
%"5M")=N*5&N&4$&P
&M
&0(
-
I'7%&K/&
&54))" E-E
N -
conso
. to
tale
du
TH
SA
perte
m
oteu
r
perte
ire
ver
seur
perte
r
duct
eur
perte
vis
-c
rou
perte
No
back
puis
s. re
cu du
TH
S
puis
s. fo
urn
ie au
TH
S
mon
te
25
0 n
uds
acc
lra
tion
mon
te
30
0 n
uds
croi
sir
e
desc
ente
300
n
uds
dc
lra
tion
desc
ente
250
nuds
0
10
20
30
40
50
60
70
80
90
100%
cons
omm
atio
n to
tale
du
TH
SA
02(A1/.?,%
-.
&&
7% " "$ "
$ " ) =NG0 " $ &
4$&P&&"&
&7%7%0&.
& ]
& 7% 7%
,*V5
4$&P&7%0
/.>1
5
/&"
&&
&M
& 7% " /5 &
"
'
N 4$&P & 5 &
&&
&" $"G;V/
& "
7%5
N
&7%7%/
:$&
&&0"$&
&
&
7%7%"'"*V/
&
7%0%&
&""E*5
&5
7%$
">5M&)
&$7%
&"))$5&"
S&7%0
-
I'7%&K/&
&54))" E-,
N
)
&&
&M
&
&
&M 0
"5&&
7%
&
"N&$"
0
& " &
7%5 "N&
&
7%0
&
&&&5
"
/
""$&&
&
7%)?&)&0
050
100150200250300350400450500
mo
nt
e
250
n
uds
acc
ele
ratio
n
mo
nt
e
300
n
uds
cro
isir
e
desc
en
te
300
n
uds
Dc
lra
tion
desc
en
te
250
n
uds
Puis
san
ce (W
att)
THSA hydraulique Vol turbulent
N>*V
N>;V
N>*V
N>HV
NH>V
N>;VN>HV
02(B1 ,,/
,,%,,
./
) =NH5 & & $ & &
&7%/&7%!6.
&0
"" $"&5 7%"&
&/
>IV5)?&)&0
4")""&&7%&
/&7%!60&
)&/5&&7%7/
!6 & =-- e " $0
".)&
&7%0
!,1
/
) &
""
&0!&&&)&&
&
&5& "$/
&
7%&0
-
I'7%&K/&
&54))" E-=
0 2 0 4 0 6 0 8 0 1 0 0 1 2 0 1 4 0 1 6 0 1 8 0- 2 0 0
0
2 0 0
4 0 0
6 0 0
8 0 0
1 0 0 0
1 2 0 0
1 4 0 0
1 6 0 0
1 8 0 0
P o w e r _ h y d r a u lic . y [ 1 ] P o w e r _ e le c t r ic a l. y [ 1 ] T H S A 1 . P o w e r _ T H S . y [ 1 ]7%/ 7%& 7%!
&C
7%/ 7%&
!
&"7%
02(C1 ,D0,D,,
./
) =N>5 & & &0 )
& 7%
&$&&U
&""0
2*2 %,
/
S & 7% /5
)&S
0
N #,
0 ,00
0 ,02
0 ,04
0 ,06
0 ,08
0 ,10
0 ,12
0 ,14
Pic
de la
pu
issa
nce
in
sta
nta
ne
(Wa
tt)
Mon
te
25
0N
uds
Acc
lra
tion
Mot
e
300
Nud
s
Croi
sir
e
Desc
ente
300
Nud
s
Dc
lra
tion
Desc
ente
250
Nud
s
60 s10 s
5 s1 s
0,05 s
%,
:I
-
I'7%&K/&
&54))" E-I
N #-
0,00
0,05
0,10
0,15
0,20
0,25
Pic
de la
pu
issa
nce
in
sta
nta
ne
(W
att)
Mo
te
250
N
uds
Acc
lra
tion
Mo
te
300
N
uds
Cro
isi
re
De
sce
nte
300
N
uds
Dc
lr
atio
n
De
sce
nte
250
N
uds
60 s10 s
5 s1 s
0,05 s
%,
:I1
/5 $*V &
/
/ .
&5 /
>;V "
$0 & && & $&
& ""0
-
I'7%&K/&
&54))" E-;
&&&5/)&
""&5&&&)&
&
&7%&04"&
S
/)$&
7%/&
&0 $ S &&
&&&
7%/0
-
;("K5$
&54))" E-*
CHAPITRE 5 : IRREVERSEUR MODELISATION ET CONCEPTION DU BANC DESSAI
1 OBJECTIF & && " &&
&& $
& "
&0 3
&&$
&)$0$
&&"5&
0&&
1 0")?&
"
%PQR5
/ / &
"$0 &
&&5&$
&"0
2 DESCRIPTION DE LIRREVERSEUR ET DE SON FONCTIONNEMENT
)*+
(&&
&&
-
;("K5$
&54))" E-G
$
$
&$)$L$
&
&
1
1
0)(+1 0
&/
2
)
&&
)
$
%)
+
)
.)&
0)()1 (
&$$
&$$
&
!.
"
&7%
$
$
*W
*W
0)(21 "("
-
;("K5$
&54))" E-H
)*)
,
&
5)E,),N,&&)&5
&"),N,0"
$5$
.
),N,
"
$&))&&)&&M$
&$0 & $ )?& .& *R0
-
;("K5$
&54))" E->
E
$?I3
1?.
gL`-
E
&&
&)
%
)(
)
E
)
('
&
E
$
$
'( &
-
&&'
-
&&'
-
'
&&
-'
02(+1>".,&,
$&)5 )
& &
"&&)&&&
&))0
2*+*+ ,
% $
7: QR Q%7(>*R5 $
-
;("K5$
&54))" EE-
&
&)
)
)&&
"
6
>
$
-
?-
>%
"%
6%?00
(
02()10-
% )5 && & 6%
%"
%
$'
,E = ;0E
&&&
"'
55,
(
$?
+= ;0,
"&' A
&.5
A(
&Q1R5
&&&L&N05 &$&)S" $)
&"0
)
6")=N,&'
5##
6"
= ;0=
&5 6"( (( += ;0I
&
&
,
,
+
==
?
;0;
-
;("K5$
&54))" EEE
&
&.?0A?-.&&&))?&
7:&0-)&"
&
&0)
6"5"
& 0 - ) &
) &&$$0
!
5&)&.&
&"
&
&06 "
$&)
).0
2*) ,,/,
&)
5 $ " && N&
.
&)
&&
0
S&)
5&&N&&
" &)M
&
$
"
6&)
&)
)&&
02(21%,0&
& & / ! )
+
)
&"&&5
&)=N=0(S&S&
6"$&0))"&&
-
;("K5$
&54))" EE,
&5 &&7:" /
" /0 5 " &
/ &
/ $0! " $ &
$ 5 " * & &
&")&&&&;0*0
=
-
3
3**
;0*
"&' *=? $45 3 ")&"L5
3> ")$L5
? .&40
?& . " " ) S
'
N $
& ]
&& "& & &5
&/5$AA
6"5
)&&"&&6)&&
"&&
)
0N &&"&&
&&)"&&"&
&& .&&?0N &&"&&
&)&&"&&"0
N &&
"&&&
)&&
"&&&5$
$ "
-
;("K5$
&54))" EE=
)5
& )0 &5
-
;("K5$
&54))" EEI
Couple et puissance entre le rducteur et l'irreversseur Points de performance
Noback non oprationnel (irreverseur cadran moteur et frein)
Charge rsistante Charge aidante Effort
vertical sur la vis (N)
Vitesse du THS (/s)
Vitesse moteur (tr/min) Couple (Nm) Puis. (Watt) Couple (Nm) Puis. (Watt)
487500 0 0 87,37 0,00 55,92 0,00 189400 0,2 493 33,95 1752 21,73 1121 169500 0,5 1232 30,38 3920 19,44 2508
0 1,2 2957 0,00 0,00 0,00 0,00
-,40
N ." I;5EH40
" S
&$ &
)0"&&&)5
&)S&$"&EIG5>4 5
"&&$&.7%/EI5I4
&&&E5;G;LEE&"N7%
L&"N"0
&&
-
;("K5$
&54))" EE;
;5 &
&
.,5,;40
3/&& &$&);*4 &
,5,;4&S"0
-
;("K5$
&54))" EE*
)INE5!".&48H*-B+&"
)&& &0 ""&
&
&"5
&P&5"& )&
)!"..Q!2R0
-
;("K5$
&54))" EEG
) " & &
&)
&)5"& & /&
/&$5"&)=-40
!
5 " &
&&0
" ) " 5
&/D&&0
!"
&")&&M$
&0
-
;("K5$
&54))" EEH
3/T"
'
N
5 & )& !". . ! ) ) &
&) "
&0 ! )
"
%P "&)1.&0
N )&
"&
.
."
-
;("K5$
&54))" EE>
5 DESCRIPTION DES ESSAIS A REALISER 4"/
"$
&"&
5
&
-
;("K5$
&54))" E,-
, &) &
'
&
&)
&
0
1
&)
5&)&&"$M
&
" . &
&0 && " )) $& "
&
0 ! / " )
& &0 &&
& & . &
&$)$
&$
0
&)
5 & " 5 $&) &)
$&) E && ) ) "$ $0
) S && " "
$)&)0
! & " $ "
"
$$L%PL8&))$. M E0 ) ;N,5 &
&"&"$E&"$"&&)5)&
&T)&$0
B
E
!5!(5!(
"0"DF-,G
%
F,;E
P0G
05()1.09P0,?,
6 CONCLUSION $
-
;("K5$
&54))" E,E
$& "5 "
$
&
"/0
-
&54) " E,,
CONCLUSION FINALE " .
&
& )
&& !60 ( ,--E $ &
& &
I
0 $
-
&54) " E,=
& 7% $&
0"&
""".)& ) . &&7%04
"&$&&'
N
&&M
&7%5
N
&)5
N &
&
0
%$&"5"
/.
&
&M
7%&
0
/5
& $
& &&7%
" / & &" )
&
""0
& & 7%/ )
""))0!"&&/
&5 " )
&
&
-5; 5 E 5 ; 5 E- 5 *- 0 ( & &"$
&/
"$&
)
*- 5 & & &&
& $
/"0
/ &
&7% &
&M
&"$
&&
7% &0 & &
. 0
/ 5 " &
$ && $ 7% & $ $5
&&5&&0(
& & &" 4$&P &
"$ &N
$
-
&54) " E,I
&& 7:
"
$&)0/"&&
&
0 %
%P " & & &&&0&&&5&&$
&
$
& &7%04"
e"$
&'
N ) $
& && & $&) &
"5"&&$5
N &&&N&&)5
N &"&"$
&
&
7%0
& "5 )) &0
7% $ &
& " 0 3
U . &
&&
")$.$0(
S&)))
&
&"
0
. & " )&QR5
/N&&&&)
&0 && " $ N&&
&
$&) L $&)
/5& 0
&"&&&"0
-
.E1 1 $&54) " E,;
ANNEXE 1 : LE FORMALISME BOND GRAPH ET LE BOND GRAPH BICAUSAL
.$
-
.E1 1 $&54) " E,*
1 & ) . &
//N&
&")
&0N&&."$.
&0% )
&5
&"
"$
&&)EE0
0++1 ,,"0.
$EE.&
&0
N .N
&
&
4
B
BL
&
4
B
)
L
&
3B
(
(
7/!
!!
$
F=L
-++1#-&:::D,
&
1
-
.E1 1 $&54) " E,G
&
$.E,&NQ2>=R0
%/$ / & .
% & = &5
Z
% &. = &&
5$Z
% & A => &'$5Z
2
& A => 55
&&
&& A# => 5&&5&000
( A => &
&
E ,
0=--=0 ))5"N&5
000
E ,
)/ 0=--=0 &/5
/5)&
&/000
E ,
0= -
-= 0
&5"5
&/"$000
AE ,
)/
0= -
-= 0
&5&)000
-E ,
=
0=-=@
&
.
-+)1,".
-
.E1 1 $&54) " E,H
3 La causalit $& ) .
1 5&&&$E,0
$E = $ &
&.0
2 `) 2 `)NE
$
% `) `)
NE
&"
%
E`,
E`,
E ,
E ,
E`EL
,`EL
E`,
,`E
AE ,
E ,
E`,L
,`EL
&)&
`)&NE
`
E - +
`)NE
` (
E - +
&)&
-E ,
=
EE ,
=
E`,`=
=`EN,
E`,`=
=`EN,
&)&
) &=
=
(
(
) =
(=
-+21,".
-
.E1 1 $&54) " E,>
4 Le Bond Graph bicausal 1) $& 9 Q C>;R "
"/0&/
$
S &$
&
&01 $&&
&0 5 $& &
)5$&
5.N$'
N &.&.
5
N &&
&T&)E,0
0 -
0 -
0 -
0 -
%/,%/E
%/,%/E
$
0+)1".-
&)E,05 /E
. /,0
&
)E,0$5&/,
./E0
1 $&S1
0$E
= & N$ & )
&)0
-
.E1 1 $&54) " E=-
$
(
2
(2 (2
( &
2
(2
"
%%
A
A
'
!
*
6'
!!
!
2N
- E
'
!
>
'
!
#0
-+
-
.,&54) " E=E
ANNEXE 2 : MODELICA 1 Introduction &
"0 & 5 "
&"
& & "
& 0 4 " ) "
&
& ) 0 &
$& & & $
Q(-ER0
&
5 )& $& &
"5&&S"0&)&
/;5%5%P&0Z )
&
&5&5&%&&5%!4
!&&0Z 0)&)
&5&
&
&0"&
)))
&
5$
-
.,&54) " E=,
&
&
&&
7/
&
&
1&P
2
(
*
+
(,-.
/
+
0)+1--.>/,
&&&/T'
N )5 S && ) / ]
&T&5&
)&0&
_&L&&
&
$$0
N .5
&&S/
)0
),E"&
"
/5
&0
Inertia1
J=1 IdealGear1=1
Inertia2
J=1
)
1$
&
&&.'0
L&
"&
! "# $
&&
%
&X
0))1,/,
-
.,&54) " E==
)*) ,>/,
3 & / & &
")
.."&
.),=0
E
&
.
&
&
, =
0)21&,>/,
&&
& "$.&&
&
&
.0 &
. . &
) "$
&0 & & &
."$ &0),I &
c2d
& & & & &
&0
R=1
Resistor12Y(&&Y
.(&06!@
%(02
&2`EY2
&Y@
2[`"@
2@
0),&
) , I5 &
c2d & . &
&
&5
&)&"0
)*2 $
,--.>/,
"&&
&&
)&
0&&
& &."$ .
&&
)'
N )"$"$
5
N &"$"$&0
!
