比例伺服阀(力士乐)
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G
a X
… –3X … E …
0 P T A B
b Y
G
a
0 P T A B
b Y
G
… –3X … ET …
a
0 P T A B
b
… –3X … T …
G
a X
0 P T
b
= E= ET = T=
x x x x
= = = =
y y y y
= = = =
X
Y ቢ ባ X Y
P T -
X
/ Y
RC 29 086/01.03
2
10 16
25
32 (50)
RC 29 086/01.03
10/16
4WRL 10...32
279
10 mm
2
10 DIN 24 340 A CETOP-RP 121 H 14 RE 45 055
ISO 4401
4WRL 10...32
11/16
RC 29 086/01.03
280
16 mm
2
40%
4WRL
10
4WRL
16
0 811 404 093 0 811 404 391 0 811 404 392 0 811 404 094 0 811 404 393 0 811 404 390 0 811 404 394 0 811 404 095 0 811 404 395
V / V1 4WRL 10 V –55M 3X/G24 Z4/M 4WRL 10 V –55M 3X/G24T Z4/M 4WRL 10 V –55M 3X/G24ET Z4/M 4WRL 10 V –85M 3X/G24 Z4/M 4WRL 10 V –85M 3X/G24T Z4/M 4WRL 10 V –85M 3X/G24ET Z4/M 4WRL 10 V1–85M 3X/G24 Z4/M 4WRL 10 V –70P 3X/G24 Z4/M 4WRL 10 V1–70P 3X/G24 Z4/M
H /G24
Z4 /
M
*
1)
10 16 25 32 Z4 =
M= HL HLP DIN 51 524
2
DIN 43 560-AM2
= V, V1
x = E= ET = T= G24 = H =1) 2X = 30 39 x x x x = = = = y y y y
y = = = =
V1 P → A: qv B → T: qv/2 A → T: qv P → B: qv/2
RC 30 064 RC 30 070
4WRL 10...32
3/16
RC 29 086/01.03
272
10, 25, 32
16
X
Y
13 +0,5
Pv
Tv
Tv Y
Pv X
2
P
T
6 +1
10 … 25 1 813 464 007 SW 3 32 1 813 464 001 SW 4
… –3X …
A B
P-A B-T (2:1)
100 80 60 40 20 -10 -8 -6 -4 -2 2 -20 -40 -60 -80 100 Q [%] 4 6 8
P-A B-T (2:1)
10% QN 10 +UE [V]
2
4WRL 10...32
9/16
RC 29 086/01.03
278
HLP 46 υoil = 40˚C 5˚C
RC 29 086/01.03
2/16
4WRL 10...32
271
4WRL 10 ... 32
2
AB a PT 0 b
M
P
40%
4 x M 6 x 40, DIN 912-10.9 2 x M 6 x 45, DIN 912-10.9 4 x M 10 x 50, DIN 912-10.9 25 6 x M 12 x 60, DIN 912-10.9 32 6 x M 20 x 90, DIN 912-10.9 VT-VRRA1-527-20 / V0/2STV , see RE 30 045 VT-VRRA1-527-20 / V0/K40-AGC-2STV , see RE 30 043
32
0 811 404 560
V / V1 4WRL 16 V –120M 3X/G24 Z4/M 4WRL 16 V1–120M 3X/G24 Z4/M 4WRL 16 V –200M 3X/G24 Z4/M 4WRL 16 V –200M 3X/G24T Z4/M 4WRL 16 V1–200M 3X/G24 Z4/M 4WRL 16 V –100P 3X/G24 Z4/M 4WRL 16 V1–100P 3X/G24 Z4/M 4WRL 16 V –150P 3X/G24 Z4/M 4WRL 16 V1–150P 3X/G24 Z4/M V / V1 4WRL 25 V –370M 3X/G24 Z4/M 4WRL 25 V1–370M 3X/G24 Z4/M 4WRL 25 V –300P 3X/G24 Z4/M V / V1 4WRL 32 V –1000M 3X/G24 Z4/M
ISO 4401
10 RE 45 055 16 RE 45 057 25 RE 45 059 32 RC 45 060 DIN 43 560-AM2 4P/Pg 7 M RC 30 045 P 40% RC 30 043 0 811 405 068 2P PE/Pg 11 RC 08 008 0 811 405 063
0 811 404 206 0 811 404 239 0 811 404 207 0 811 404 221 0 811 404 240 0 811 404 241 0 811 404 242 0 811 404 243 0 811 404 244
25
0 811 404 405 0 811 404 495 0 811 404 496
Lvdt DC/DC 10 V 4WRL 10...32
10 3X 315 bar 1000 L/min ∆p 10 bar
4WRL ... 3X/G24...
2
16
25 32
10 1 2 2 3 3 4 6 8 10 14 16 6
32
Lvdt DC/DC
5 7 9 11 15
M= P= L=
DIN 24 340 A CETOP-RP 121 H
277
HLP 46 Q = f (U E)
M: 1:1, 2:1
Q [%] 100 80 60 40 20 -10 -8 -6 -4 -2 2 -20 -40 -60 -80 100 Q [%] 4 6 8 10 +UE [V] 10% QN
υoil = 40˚C
5˚C
L:
1:1, 2:1
Q [%]
1)
50 mm 35 RR P A B pmax = 350 bar 2) H 25 25 mm PABT P A B pmax = 350 bar 32 mm P A B pmax = 280 bar 3) q P N
32
+24 V DC
M= P= 70 bar
101)= 161)= 251)= 321)= 55, 703) or 85 l/min 1003), 120, 1503) or 200 l/min 3003), 370 or 4302) l/min 1,0001) l/min
2
20 … 100 mm2/s 10 … 800 mm2/s –20 … +80 °C
ISO ISO 4406(C) [L/min] ∆p = 5 bar * 10 18/16/13 1) 16 25 32 (50)
55
70
85 100 120 150 200
300
370
1,000
P, A, B: 350 bar T, X, Y: 250 bar qmax. [L/min] qN [L/min] [cm3/min] 100 bar [cm3/min] 100 bar
X =100 bar X =10 bar
1...6% P-B/A-wenku.baidu.com <1%
1)
∆T = 40˚C 5%
RE 50 070
RC 50 076
RC 50 081
*
p
qx = qnom. ·
Ί ∆5p
x
4WRL 10...32
5/16
RC 29 086/01.03
274
100 %
24 V DCnom. IP65 DIN 40 050
16 DIN 24 340 A CETOP-RP 121 H 14 RE 45 057
ISO 4401
RC 29 086/01.03
12/16
4WRL 10...32
281
25 mm
2
25 DIN 24 340 A CETOP-RP 121 H 14 RE 45 059
ISO 4401
4WRL 10...32
269
Industrial Hydraulics Electric Drives and Controls Linear Motion and Assembly Technologies Service Automation Mobile Hydraulics
Pneumatics
RC 29 086/01.03
DIN 43 650/ISO 4400 Pg 11 2P+PE Pg 7 4P
2
100%
2.7 A max.
R20
2.5 Ω
40 VA max.
DC/DC 0 811 405 063
+ 15 V/35 mA – 15 V/25 mA
0 … +10 V ( RL м10 )
/
RC 29 086/01.03
16
ISO 4401
1) 2)
*(
1.5 x ∅* 2x∅ 10 min. 10.5 mm)
X Y
л
P 50 14.3 201)
A 34.1 55.6 201)
T 18.3 14.3 201)
B 65.9 55.6 201)
L 0 34.9 6.3
X 76.6 15.9 6.3
Y 88.1 57.2 6.3
170
450
900
3500
4
12
24
40
Ͻ180 Ͻ400 Ͻ600
min. 10 bar
Ͻ300 Ͻ1,000
Ͻ500 Ͻ1,000
Ͻ900 Ͻ6,000
max.
/ <0.1% qmax.
250 bar
Ϲ10 %
0 … 100 % 25 15 85 50 40 18 90 40 45 20 150 80 130 60 500 200 0 … 10 % 0 … 100 % 0 … 10 %
4/16
4WRL 10...32
52
12
72 +1
273
4WREH
6-OBE 10...32 ISO 4401 CETOP-RP 121 H
–20 … +50 °C
10 8.35 kg 25 g HLP 46 ϑoil = 40˚C ±5˚C DIN 51 524...535 3 16 10 kg 24 h 25 18 kg 32 80 kg
л
X Y
P 27 6.3 10.51)
A 16.7 21.4 10.51)
T 3.2 32.5 10.51)
B 37.3 21.4 10.51)
F1 0 0 M 62)
F2 54 0 M 62)
F3 54 46 M 62)
F4 0 46 M 62)
X –8 11 6.3
Y 62 11 6.3
R 50.8 32.5 10.51)
6/16
4WRL 10...32
275
M /
0 V
2
-0-
-0-
RC 30 043 p/Q RE 30 058
4WRL 10...32
7/16
RC 29 086/01.03
276
P /
2
0 V
-0-
-0-
RC 30 045 p/Q RE 30 058
RC 29 086/01.03
8/16
40%
4WRL 10...32
13/16
RC 29 086/01.03
282
32(50) mm
2
32 DIN 24 340 A CETOP-RP 121 H 14 RC 45 060
ISO 4401
RC 29 086/01.03
14/16
4WRL 10...32
283
mm
10 ISO 4401
2
1) 2)
*(
1.5 x ∅* 2x∅ 10 min. 10.5 mm)
40g 7P
© 2003 by Bosch Rexroth AG, Industrial Hydraulics, D-97813 Lohr am Main
4WRL 10...32
1/16
RC 29 086/01.03
270
4WRL
= 10 16 25 32 = = = =
AB a 0 PT b
-3X
10 16
2 910 151 209 2 910 151 211 2 910 151 301 2 910 151 354 2 910 151 532 0 811 405 063 0 811 405 068
2P+PE Pg 11 4P Pg 7 RC 08 008
2P + PE 4P
VT-PE-TB2 VT-PA-3
a X
… –3X … E …
0 P T A B
b Y
G
a
0 P T A B
b Y
G
… –3X … ET …
a
0 P T A B
b
… –3X … T …
G
a X
0 P T
b
= E= ET = T=
x x x x
= = = =
y y y y
= = = =
X
Y ቢ ባ X Y
P T -
X
/ Y
RC 29 086/01.03
2
10 16
25
32 (50)
RC 29 086/01.03
10/16
4WRL 10...32
279
10 mm
2
10 DIN 24 340 A CETOP-RP 121 H 14 RE 45 055
ISO 4401
4WRL 10...32
11/16
RC 29 086/01.03
280
16 mm
2
40%
4WRL
10
4WRL
16
0 811 404 093 0 811 404 391 0 811 404 392 0 811 404 094 0 811 404 393 0 811 404 390 0 811 404 394 0 811 404 095 0 811 404 395
V / V1 4WRL 10 V –55M 3X/G24 Z4/M 4WRL 10 V –55M 3X/G24T Z4/M 4WRL 10 V –55M 3X/G24ET Z4/M 4WRL 10 V –85M 3X/G24 Z4/M 4WRL 10 V –85M 3X/G24T Z4/M 4WRL 10 V –85M 3X/G24ET Z4/M 4WRL 10 V1–85M 3X/G24 Z4/M 4WRL 10 V –70P 3X/G24 Z4/M 4WRL 10 V1–70P 3X/G24 Z4/M
H /G24
Z4 /
M
*
1)
10 16 25 32 Z4 =
M= HL HLP DIN 51 524
2
DIN 43 560-AM2
= V, V1
x = E= ET = T= G24 = H =1) 2X = 30 39 x x x x = = = = y y y y
y = = = =
V1 P → A: qv B → T: qv/2 A → T: qv P → B: qv/2
RC 30 064 RC 30 070
4WRL 10...32
3/16
RC 29 086/01.03
272
10, 25, 32
16
X
Y
13 +0,5
Pv
Tv
Tv Y
Pv X
2
P
T
6 +1
10 … 25 1 813 464 007 SW 3 32 1 813 464 001 SW 4
… –3X …
A B
P-A B-T (2:1)
100 80 60 40 20 -10 -8 -6 -4 -2 2 -20 -40 -60 -80 100 Q [%] 4 6 8
P-A B-T (2:1)
10% QN 10 +UE [V]
2
4WRL 10...32
9/16
RC 29 086/01.03
278
HLP 46 υoil = 40˚C 5˚C
RC 29 086/01.03
2/16
4WRL 10...32
271
4WRL 10 ... 32
2
AB a PT 0 b
M
P
40%
4 x M 6 x 40, DIN 912-10.9 2 x M 6 x 45, DIN 912-10.9 4 x M 10 x 50, DIN 912-10.9 25 6 x M 12 x 60, DIN 912-10.9 32 6 x M 20 x 90, DIN 912-10.9 VT-VRRA1-527-20 / V0/2STV , see RE 30 045 VT-VRRA1-527-20 / V0/K40-AGC-2STV , see RE 30 043
32
0 811 404 560
V / V1 4WRL 16 V –120M 3X/G24 Z4/M 4WRL 16 V1–120M 3X/G24 Z4/M 4WRL 16 V –200M 3X/G24 Z4/M 4WRL 16 V –200M 3X/G24T Z4/M 4WRL 16 V1–200M 3X/G24 Z4/M 4WRL 16 V –100P 3X/G24 Z4/M 4WRL 16 V1–100P 3X/G24 Z4/M 4WRL 16 V –150P 3X/G24 Z4/M 4WRL 16 V1–150P 3X/G24 Z4/M V / V1 4WRL 25 V –370M 3X/G24 Z4/M 4WRL 25 V1–370M 3X/G24 Z4/M 4WRL 25 V –300P 3X/G24 Z4/M V / V1 4WRL 32 V –1000M 3X/G24 Z4/M
ISO 4401
10 RE 45 055 16 RE 45 057 25 RE 45 059 32 RC 45 060 DIN 43 560-AM2 4P/Pg 7 M RC 30 045 P 40% RC 30 043 0 811 405 068 2P PE/Pg 11 RC 08 008 0 811 405 063
0 811 404 206 0 811 404 239 0 811 404 207 0 811 404 221 0 811 404 240 0 811 404 241 0 811 404 242 0 811 404 243 0 811 404 244
25
0 811 404 405 0 811 404 495 0 811 404 496
Lvdt DC/DC 10 V 4WRL 10...32
10 3X 315 bar 1000 L/min ∆p 10 bar
4WRL ... 3X/G24...
2
16
25 32
10 1 2 2 3 3 4 6 8 10 14 16 6
32
Lvdt DC/DC
5 7 9 11 15
M= P= L=
DIN 24 340 A CETOP-RP 121 H
277
HLP 46 Q = f (U E)
M: 1:1, 2:1
Q [%] 100 80 60 40 20 -10 -8 -6 -4 -2 2 -20 -40 -60 -80 100 Q [%] 4 6 8 10 +UE [V] 10% QN
υoil = 40˚C
5˚C
L:
1:1, 2:1
Q [%]
1)
50 mm 35 RR P A B pmax = 350 bar 2) H 25 25 mm PABT P A B pmax = 350 bar 32 mm P A B pmax = 280 bar 3) q P N
32
+24 V DC
M= P= 70 bar
101)= 161)= 251)= 321)= 55, 703) or 85 l/min 1003), 120, 1503) or 200 l/min 3003), 370 or 4302) l/min 1,0001) l/min
2
20 … 100 mm2/s 10 … 800 mm2/s –20 … +80 °C
ISO ISO 4406(C) [L/min] ∆p = 5 bar * 10 18/16/13 1) 16 25 32 (50)
55
70
85 100 120 150 200
300
370
1,000
P, A, B: 350 bar T, X, Y: 250 bar qmax. [L/min] qN [L/min] [cm3/min] 100 bar [cm3/min] 100 bar
X =100 bar X =10 bar
1...6% P-B/A-wenku.baidu.com <1%
1)
∆T = 40˚C 5%
RE 50 070
RC 50 076
RC 50 081
*
p
qx = qnom. ·
Ί ∆5p
x
4WRL 10...32
5/16
RC 29 086/01.03
274
100 %
24 V DCnom. IP65 DIN 40 050
16 DIN 24 340 A CETOP-RP 121 H 14 RE 45 057
ISO 4401
RC 29 086/01.03
12/16
4WRL 10...32
281
25 mm
2
25 DIN 24 340 A CETOP-RP 121 H 14 RE 45 059
ISO 4401
4WRL 10...32
269
Industrial Hydraulics Electric Drives and Controls Linear Motion and Assembly Technologies Service Automation Mobile Hydraulics
Pneumatics
RC 29 086/01.03
DIN 43 650/ISO 4400 Pg 11 2P+PE Pg 7 4P
2
100%
2.7 A max.
R20
2.5 Ω
40 VA max.
DC/DC 0 811 405 063
+ 15 V/35 mA – 15 V/25 mA
0 … +10 V ( RL м10 )
/
RC 29 086/01.03
16
ISO 4401
1) 2)
*(
1.5 x ∅* 2x∅ 10 min. 10.5 mm)
X Y
л
P 50 14.3 201)
A 34.1 55.6 201)
T 18.3 14.3 201)
B 65.9 55.6 201)
L 0 34.9 6.3
X 76.6 15.9 6.3
Y 88.1 57.2 6.3
170
450
900
3500
4
12
24
40
Ͻ180 Ͻ400 Ͻ600
min. 10 bar
Ͻ300 Ͻ1,000
Ͻ500 Ͻ1,000
Ͻ900 Ͻ6,000
max.
/ <0.1% qmax.
250 bar
Ϲ10 %
0 … 100 % 25 15 85 50 40 18 90 40 45 20 150 80 130 60 500 200 0 … 10 % 0 … 100 % 0 … 10 %
4/16
4WRL 10...32
52
12
72 +1
273
4WREH
6-OBE 10...32 ISO 4401 CETOP-RP 121 H
–20 … +50 °C
10 8.35 kg 25 g HLP 46 ϑoil = 40˚C ±5˚C DIN 51 524...535 3 16 10 kg 24 h 25 18 kg 32 80 kg
л
X Y
P 27 6.3 10.51)
A 16.7 21.4 10.51)
T 3.2 32.5 10.51)
B 37.3 21.4 10.51)
F1 0 0 M 62)
F2 54 0 M 62)
F3 54 46 M 62)
F4 0 46 M 62)
X –8 11 6.3
Y 62 11 6.3
R 50.8 32.5 10.51)
6/16
4WRL 10...32
275
M /
0 V
2
-0-
-0-
RC 30 043 p/Q RE 30 058
4WRL 10...32
7/16
RC 29 086/01.03
276
P /
2
0 V
-0-
-0-
RC 30 045 p/Q RE 30 058
RC 29 086/01.03
8/16
40%
4WRL 10...32
13/16
RC 29 086/01.03
282
32(50) mm
2
32 DIN 24 340 A CETOP-RP 121 H 14 RC 45 060
ISO 4401
RC 29 086/01.03
14/16
4WRL 10...32
283
mm
10 ISO 4401
2
1) 2)
*(
1.5 x ∅* 2x∅ 10 min. 10.5 mm)
40g 7P
© 2003 by Bosch Rexroth AG, Industrial Hydraulics, D-97813 Lohr am Main
4WRL 10...32
1/16
RC 29 086/01.03
270
4WRL
= 10 16 25 32 = = = =
AB a 0 PT b
-3X
10 16
2 910 151 209 2 910 151 211 2 910 151 301 2 910 151 354 2 910 151 532 0 811 405 063 0 811 405 068
2P+PE Pg 11 4P Pg 7 RC 08 008
2P + PE 4P
VT-PE-TB2 VT-PA-3