实现流体系统数字化的新思想

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1 Hz 95dB 10m 3 /h m 3 RMB28 10m 3 /h m 3 10 /min 5m 3 /h; 20Mpa; 30kW 0.5m; 8.6 /min 1

2 ( SMC ) 1. dt dp RT V G = 2

3 CPU RS232 CAN USB 1 MFI-2 CPLD FIFO 3 2 3

4 % 50% 4

5 ( ) : [1],

6 MATLAB N P Q P N Q = r N P, Q Q r Q Q L = 2 AZn x ( Q L A Z n x ) Q L x Q L = Q Q x P Q N = PQ MATLAB 6

7 1, 2 2 ( ) ( ) { } ( e) [ ] ( e) {} ( e) (e) P = K δ { P } [ K] (e) ( e) T [ K ] = [ B][ D][ B] {} δ (e) { ( )} [ (, z) ]{ δ } (e) {} ε = [ B] {} δ (e ) [B] { σ } [ ] {} ε δ x, y, z = N x, y = D [ ~ 1 u ~ u i j ε + ij = i, j = x, y, z 2 x x j i [ D] e1 v v e1 v D E e = e v ( 1+ v) e e = 1 2 e 3 0 e3 e2 = 1 2v e 3 = e 2 2 {} δ (e) { U} { V} { W} = [ A] [ A] { C } [ A] [ A] 1 1 = 1 1 ){ } 0 x x x (e) i m l 0 0 y y m l zl D] (a) (b) 1 N( x, y, z) = φ( x, y, z δ φ ANSYS 1(a) 1(b) 30 MPa 10 (SOLID 92) Smart GPa kg/m 3 2 (a) (b) 2 7

8 ( ) N F3 Fq N3 B F1 N1 Fd N a Fk Fc Fg C Fz N2 E F2 A Fh Fs

9 ( ) (1) (2) (3) (4) (5) 9

10 LL5151TYL 1 1, 2 ( ) LL5151TYL 1 M1 G1 G2 G3 G4 V8 V9 V10 G5 G6 G 7 G 8 M2 M3 K 1-3 K4-6 M 6 V11 V 12 V 13 V 14 V 15 K 7 K8 V7 V16 M 4 V2 V3 V4 M5 V5 V6 V1 B 1 B2 M 3~ P V17 V18 L1 L2 L4 L3 V 2 1 M4M5 V3V4 V3V4 M4M5 M 4 M 5 V 3 V 4 V 19 V 5 V 6 2 M 4 M 5 V 18 V 3 V 4 V 5 V

11 1, 2 2 ( ) (Infranet) 4-20 ma LonMark Profibus IEASAE IAONA IEC ISO E 1 Ethernet Internet 2 OPC OLE for Process Control FCSDCS PLC 2 OPC 1 2 M OPC OPC OPC N

12 HOPSAN MATLAB /SIMULINK 12 3 Jonas Larsson 4 ( ; ; 4. SE ) MATLAB SIMULINK MATLAB/SIMULINK C FORTRAN Me MATLAB C FORTRAN HOPSAN 1979 HOPSAN MATLAB/SIMULINK HOPSAN MATLAB /SIMULINK, HOPSAN MATLAB/SIMULINK HOPSAN MATLAB/SIMULINK MATLAB/SIMULINK S- MATLAB/SIMULINK MATLAB/SIMULINK MATLAB/SIMULINK HOPSAN HOPSANMATLAB/SIMULINK 12

13 ( )

14 1, ( ) (AFH-Alternating Flow Hydraulics) AFH AFH AFH AFH AFH AFH AFH AFH ( ) AFH AFH AFH (AFH ) (AFH ) AFH M 3~ 10 M 3~ AFH AFH AFH AFH ( ) AFH AFH O 1 O 2 A f 3 AFH 4 AFH p 2 A = mx & 2 + fx& 2 + kx2 p2 A m x 2 f k = A& p 2 Q 2 x 2 m k q2 x2 q 2 q1 ( t) = q10 sinωt p1 ( t) = p10 sin( ω t + ϕ1) p t) = p sin( ω t + ϕ ) ϕ1 p 2( 20 p q2( t) = q20 sin( ω t + ϕq) p 1 q 1 p 10 q 10 p 20 q 20 q [ ( a) ] ϕ ϕ q 1( t) ηmax = exp 2Re jωβl AFH AFH 14

15 n m2 n m n r e u u - - e n m2 n m1 n m n r 1 1 ) ( 0 ) ( 0 to t t p p lm to t t p p lp m e D p C e D p C n + = λ λ µ µ δ V/F ) ( 0 ) ( 0 ) / ( 40 f U m p D R e D p C e D p C n p p p to t t p p lm to t t p p lp m + + = π µ µ δ λ λ 15

16 ( ) 80 CT MRPET RP STL RP m~mm, : 16

17 ( ) 1 m m or or or or a b 1 Matlab m m m m m m 250 Displacement /mm m m 210m m closed-center ; m eter-in exhausted-center ; m eter-in closed-center ; m eter-out exhausted-center ; m eter-out stop position t /s 2 17

18 GOP HMPT500 18

19 303, DPG500 PLC VC++ S7PLC HAWE - PLC PLC / PLC VC++ ActiveX VC++6.0 MSComm MSComm MSComm OnComm CommEvent RThreshold OnComm OnComm OnComm CommEvent PLC PPI SMB30 0 SMB130 1 PPI PLC PLC 19

20 ( ) 1 ER14250 CR14250HR-EX mm25mm / 85g 1.5psi V 1200mAh 28mA 1.4mA 0.7mA Microchip CM0S PIC12F675 nrf (ms) ( A) mAh, ( ) ( ) 1 20

21 ( ) PID 1 2 F/V D/A V/I A/D n - + PID + + u1 un u D n(s) n1 n n n2 n/rpm n n(r/min) n t/s t(s) r/min (1) 090ml/min 0.2A~0.6A 23ml/min (2) a b 20kW 2630V 40V c r/min V 2V r/min 2 00r/min 28V 4V 40V 21

22 ( ) CTI/DS(Center Tire Inflation/Deflation System) CTI/DS CTI/DS Cygnal C8051F CTI/DS 1 CTI/DS 2 3 1L 6R / A/D kPa R14LT 500kPa 50kPa kPa 150kPa 20kPa 79 10kPa 10kPa 22

23 6-UPS Stewart 16-UPS 6-UPS 1 {B} O Z {O} P 1 ~P 6 B 1 ~B 6 26-UPS Stewart Cartesian {P} L i θ pi θ bi D i L L θ θ Max Min pmax bmax O' O' x, y, z, θ, θ, θ 6 [ ] x y z l1, l2, l3, l4, l5, l6, P R 3 0R 1 γ 2 γ 1 γ 2 γ 1 [ 0 60 ) 1 ' ( ) x, y, z, θ, θ, θ x y z Y B 3 Y P 2 B 2 B 4 Z P 4 O O ' P 5 Z ' B 1 X P 1 X ' P 6 B 5 1 B

24 ( ) BOSCH REXROTH A4VSO180 Real Time Windows Target Matlab/Simulink 24

25 (010) N.m CPU A/D D/A 25

26 () PV 26

27 MPa 0.3mm 1 / 2 3 PH

28 010062,, 1 1, 2,,,, 2 1, 2,, , ,

29 ( ) 1 2 USB USB A/D D/A 0 10v 3 Delphi7.0 Windows 1,

30 ( ) 1,, 1,, / / / / / / % ( 4) F-350 TONKA ( 5)

31 ( ) MSC.Easy5 PID Fortran EASY5 31

32 # 1000 Stefan-Boltzman C ο ( ) ANSYS PREP7 SOLUTIO N POST1POST26 1/4 PLANE55 % 0.19C1.43Mn0.62Si0.021P0.021S 20MnSi MnSi 20 mm 20 φ s m / C ο h m / C ο 45 C ο s R = 8 C ο 20MnSi C ο 640 C ο C ο 632 ANSYS ANSYS 32

33 / 90 ο ο CATIA MPa s mm / / 2 φ φ Kw ο ο 90 ο ο

34 Q P PQ 1 (a)q (b)p (c)pq I 2 Q P PQ Q P PQ 3 P Q PQ Q P Q 34

35 VQ35 1 K = K '' 1+ x P 1+ x P 2 / k 2 / k 1 0 P 1 / k 1 1/ k '' 1 0 P K / k K '' =1660Mpa [2] K P P k = 1. 4 V 0 V f 0 2 dp 1 K dv 1 = dϕ P dk V dt ω 1 K dp 1 a0 x =0.25%0.5%1.0% 3 q vsh q v2 qv = qvsh + 2qv 1 + 2qv2 qv = qvsh ( 0 ϕ ϕ) ( ϕ ϕ 2π / z) 0.25%0.5%1.0% 2 4 x % ϕ q v1 35

36 (TPMS) ( ) (TPMS) Microchip PIC nrf V MCU TX RX MCU 1 CRC bar 1.8bar 1.8bar2.8bar TPMS 36

37 Y ( s) 2Ac G( s) = = θ 3 F s 2ξ k n q1d 2 + s + s + 2 ω ω 2D kq d kv Dm 2 kqd 1 = < < 4ξ nϖ n d 2ξ ϖ 2ξ ϖ D n n n n m d d D m n k q D m p 7 p k q (1) k v k v k q d k v k q d k v (2) n n EV t A c M p n (3) n n k c1 n k c1 C B C tp C tp n k v k q d n k c k q k c dk q dk q MATLAB Simulink n n k q1 d m 37

38 LabVIEW NI []LabVIEW NI-PCI6014 NI LabVIEW7.0 NI-MOTION6.2 NI-PCI6014 OP SFD-3B MHT32 GSD J 79.1 LabVIEW NI-6014 D/A 2 14 PCI-6014 D-I/O Fuzzy_PID, E Ec PD PI PI Fuzzy Fuzzy_PID, () Kv Ka 1-z -1 /T, 1/T []NI LabVIEW Developer Suite NI-Motion Motion AssistantSoft-motion / /

39 Microchip PIC A/D PWM G ( s) == c s( T 2 h s 2 K + 2T ξ s + 1) h h PID PID PID PID PID PID PID PID Kp KI KD PID 1. Ts 2. Tp=0.1Ts Ti=0.5Ts Td=0.125Ts Tp TI TD Uk ( ) = K[2.45 ek ( ) 3.5 ek ( 1) ek ( 2)] p PID 39

40 / ( SMC ) SMC / ITV BS m & x v = p Af A p k ( ) s1 xv + x0 bx& v F sgn( x& ) 0 c v & p + ks2( xv + x0) bx& v F sgn( x& ) m xv = p Af A0 c v / 2 / SMC ITV BS PCL812 SMC PSE L 0.007L L 0.007L

41 ( ) 1 MULTI-HANDY 1620 PT( ) ma 4 20mA 14,4 30 VDC 2 q6.66zm 2 Bvn fzn 6.66 m 2 B v qf z m B f n f q 3 63MPa

42 MatlabAccess Matlab Access ODBC, Windows,, SQL ODBC Matlab ACCESS MATLAB MATLAB Matlab B 42

43 / / / B MATLAB, Q p ( T) ( n) /, Qp Tn / B Berzier B B Matlab 43

44 ( ) CAT CAT CAT NI 44

45 Vickers PODS , 45

46 ( SMC ) 50mm/s 1, 2 1 k + 1 k 2 1 d e d ( ) k 4 G = S P RT d k dpd k = ( RTdGd + SdPu d ) dt Vd du M PS s u PS d d Fc Cu dt = , 1 dpu dpd Su Sd = 0 4 dt dt 2 S k + 1 k 1 e u0 = krta ( ) k + 1 S d 5 * * * * * *2 * u ( τ ) = 1+ µ exp( ζ τ )sin( 1 ζ τ α) 6 * * * 2 * * kt * ( λ ζ ) * F *2 s τ = * µ = 1+ λ = 1 1 ζ *2 * α = tg T f 1 ζ Tf k * * λ ζ 1 * ζ * * min [ τ = π + tg λ ] *2 2 *2 1 ζ 1 ζ 9 1 * ζ * * max [ τ = π + tg λ ] *2 2 *2 1 ζ 1 ζ 10 *2 * * 2 *2 * 1 ξ + ( λ ξ ) exp( ξ τmin ) 1 11 *2 * * 2 *2 * *2 * 1 1 ξ + ( λ ξ ) (exp( ξ τmax ) + exp( ξ τmin )) >

47 PIV PIV 3D-PIV PIV 3D-PIV PVC (PIV ),, PIV 4 Visualc x(32,32) 6464 I y(32 + k, 32 +l) k = 0,1, L,32 = 0,1 L,32 y(32 + k,32 +l) l x(32,32) k l k l ( ) x y x z

48 AGC (AGC) : --, e dv v P c bv av h = 2 2 / 1 v d h ] AGC, (MRA), MRA,,,,,. AGC 4 7 5/ = v v P v v h (2) 48

49 (, ), 2000kN 1000kN 260cm100cm 180cm Mpa, 200mm 140/180mm A/D D/A A/D PCL818L, 1 12 A/D 16 D/A PCL D/A 8 IPC610H PCA6003V/PIII 1G/128M/40G/CDROM DA mm <0.30 SPX-5 50 <

50 (, ) ( ) [1][2] M2 M3 HMPT GOP-900 ( ) Navier-Stokes ( ) 50

51 PID PID PID PID PID PID 1 PID BP u n J = e u p 2 d u u( k) = u ( k) u ( k) n + 2 ( ) / 2 / 2 = u u n p Matlab PID 2 PID 1 BP PID (a) PID (b) Hz PID PID PID PID PID 51

52 SCADA SCADASystem of Supervisory Control And Data Acquisition 52

53 ( 55, ) 20MPa MPa 650Pa,, 2MPa, CaOH 2 CO 2,,, 1/4 50.5MPa,,, 53

54 ( ) D/A ( ) A/D TTL q q / N N, A/D 54

55 ( SMC ) PI PID PID ØÖÆÆ Î r ØÖ Ô u y Pressure/MP Time/S CARMA A( q 1 ) y( t) q B( q ) u( t) + C( q ) ε( t) d 1 1 = A ( q 1 ) = 1+ a1q + a2q + a3q B ( q ) = b0 + b1q + b2q + b3q C ( q 1 ) = 1+ c1q + c2q + c3q 1 q d u(t)y(t) (t { ε ) } u(t), y(t),y(t-1) u(t-1),u(t-2) J = E{ y 2 ( t + d)} /

56 r min 2000NM 35KN 70KN 800mm

57 % Bingham MATLAB Simulink 57

58 H PID PID H 1981 Zames 1984 Francis Zames H 1987 H H H H H W1 (s) W 2 ( s ) W 2 ( s) Matlab H PID PID 58

59 ABS ABS AMESIM ABS AMESIM ABS ABS AMESim (Advanced Modeling Environment for performing Simulations of engineering system), AMESim AMESim AMESim d d d8mm17mm 25mm d17mm ABS ECU ABS AMESim AMESet x z y 1 Z 2 2ECU ABS ABS km/h Z

60 ( ) CCD 60

61 ( ) * Γ = CRs LCs P ch P IN OUT C L R ) 2 ( ) 4( Ey l d op op ρ ξ υ = υ l d y E op ξ

62 CAN 8, CAN CANOpen CANOpen ( ) T-S PID PID T-S PID T-S PID T-S PID PID 62

63 ; ) 80%90% NB NB3-D32F Q s Q Q Q s 75%~80% 15%~20% 63

64 PLC 30% PLC I/O PLC 64

65 AMESim ESP ( ) ESPElectronic Stability Program ESP ESP ESP AMESim ESP ESP ESP 65

66 RP Lyapunov 66

67 ( SMC ) ISO/DIS6358 C b s Ae ISO 5% ISO ISO M5 1/8 20mm ISO ISO ISO Otis 1970 ISO6358 ISO6358 C b ISO/DIS6358 ISO, 67

68 ( ) / / ) / / / 68

69 SMC C b ISO/DIS6358 [1] 20mm 75KW [1] [2] ISO % -12% = 1 ) ( 1) ( n n s s P P T T Rt n V C ρ = 1 ) ( P P T T Rt V C s s ρ C 0 ρ T0 Ps TsP V R PsTs P [3] T

70 ( ) / ANSYS 70

71 ( ) Danfoss Hauhinc Fenner % Microarc Oxidation AlTi Ta GPC4-32 LC

72 NXQ-L100/315-A SCY14-1B P=25MPa Q=250L/min 40L

73 fluent ( ) 73

74 n =η = 1 n = 10 < η < 1 0 < n < 1 η = 1 0 < n < 10 <η <

75 ( ) GB/T Fn Fbt

76 ( ) 1997 Innas Noax Innas 76

77 1, ( ) ( ) Control-Relevant Identification, CRID L.Ljung [1] 77

78

79 * ( ) FLUENT 8 mm 1~3 mm 0.01 mm 79

80 PID ( SMC ) PID PID PID PID PID PID (1) (2) PID PID E EC PID K,, P K I K D PID PID, : (1) PID KP,KI,KD, (2) PID, (3), (4),, 80

81 MATLAB Simulink [1],,. [J]., 2003,(2):12-13 [2],. [J]., 2004,40(5):77-81 [3]. Simulink4 [M].,

82 CAN DPG500 ( ) CANController Area Network DPG500 CAN CANOPEN DPG500 5 CAN CAN USBCAN CAN Visual C++6 CAN DPG500 CAN 1) 2) 3) USB_CAN IPC CAN Visual C++6.0 USB CAN 82

83 (1., , ) 12MPa 50L/min Y1 83

84 q Ps P 1 z(t), 84

85 Adams ADAMS ADAMS ADAMS MATLAB ADAMS 0 1/ s S ADAMS ADAMS ADMAS MATLAB 5Hz PID 85

86 % 20% 40% PID P Q K sv K a K c A Ksv P LC P LC 86

87 ( ) % %~45% - VxD (VxD) Windows9x (DAQ ) VC LabVIEW Win32 (WM_TIMER) 1 VxD I/O 87

88 VxD VxD Windows9x Windows9x VxD Windows9x VxD DDVC PID PID 88

89 BP 1 ( ) PID 89

90 PID

91 TRT TRT PID PID PID Simulink PID PID 91

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