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CDH2

Series H2.
Component series 3X.
Nominal pressure 250 bar.
Piston Ø 40 … 320 mm.
Piston rod Ø 25 … 220 mm.
Stroke length up to 6000 mm.

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Standards: DIN 24333, ISO 6022
6 types of mounting
Self-adjusting and adjustable end position cushioning

Ordering code

01	02	03		04		05		06	07	08		09	10	11	12	13	14	15	16
CD	H2		/		/		/		A	3X	/

01	Single rod cylinder		CD
02	Series		H2
Types of mounting
03	Swivel eye at cylinder base		MP3
	Self-aligning clevis at cylinder base		MP5
	Round flange at the cylinder head		MF3
	Round flange at the cylinder base		MF4
	Trunnion		MT4²⁾
	Foot mounting		MS2¹⁸⁾
04	Piston Ø (ØAL) 40 \u2026 320 mm		...
05	Piston rod Ø (ØMM) 25 \u2026 220 mm		...
06	Stroke length in mm³⁾		...
Design principle
07	Head and base flanged		A
08	Component series 30 ... 39 (30 ... 39: unchanged installation and connection dimensions)		3X
Line connection / version
09	According to ISO 1179-1 (pipe thread ISO 228-1)		B
	According to ISO 9974-1 (metric thread ISO 261)		M³³⁾
	Flange connection according to ISO 6162-1 tab. 2 type 1 (≙ SAE 3000 PSI)		F^{4; 21)}
	Flange connection according to ISO 6162-2 tab. 2 type 1 (≙ SAE 6000 PSI)		D^{4; 9)}
	Flange connection according to ISO 6164 tab. 1		K^{1; 4)}
	Flange connection according to ISO 6164 tab. 2		H⁴⁾
	according to ISO 1179-1 (pipe thread ISO 228-1) with flat pipe flange		C³¹⁾
	For directional and high-response valves	Subplate NG6	P^{4; 5)}
		Subplate NG10	T^{4; 6)}
		Subplate NG16	U^{4; 7)}
		Subplate NG25	V^{4; 32)}
	For SL and SV valves	Subplate NG6	A^{4; 5; 15)}
		Subplate NG10	E^{4; 6; 15)}
		Subplate NG20	L^{4; 7; 15)}
		Subplate NG30	N^{4; 32; 15)}
Line connection/position at cylinder head
10	View to piston rod³⁰⁾		1
			2
			3
			4
Line connection/position at cylinder base
11	View to piston rod³⁰⁾		1
			2
			3
			4
Piston rod design
12	Hard chromium-plated		C
	Hardened and hard chromium-plated		H²³⁾
	Nickel-plated and hard chromium-plated		N¹⁹⁾
Piston rod end
13	Thread for swivel head CGKD		H
13	With mounted swivel head CGKD		F
End position cushioning
14	Without end position cushioning		U
	Both sides, self-adjusting		D¹⁾
	Both sides, adjustable		E
Seal design
15	For mineral oil HL, HLP and oil-in-water emulsion HFA	Standard seal system	M
		Standard seal system with guide rings	L
		Reduced friction heavy industry	R
	For mineral oil HL, HLP, oil-in-water emulsion HFA and water glycol HFC	Standard seal system HFC	G
		Servo quality/reduced friction	T
		Chevron seal kits	A
	For HDFR phosphate ester and HFDU polyol ester	Servo quality/reduced friction	S
		Standard seal system FKM	V
		Chevron seal kits	B
Option
16	Without additional options, do not fill fields for additional options		W
16	Additional options, fill fields for additional options		Z

Additional options

	Fields for additional options
	17	18	19	20	21	22	23	24
Z

17	Without inductive proximity switches	W
17	Inductive proximity switches without mating connector - separate order	E³⁷⁾
18	Without additional guide rings	W
18	Additional guide rings	F^{10; 28)}
19	Without measuring coupling	W
19	Measuring coupling, on both sides	A
20	Standard conical grease nipple, DIN 71412 Form A	W
20	Flanged grease nipple, DIN 3404 Form A	B
21	Without piston rod extension	W
21	Piston rod extension \u201cLY\u201d, specify in mm in plain text	Y
22	Priming class CP3	W
	Painting class CP4	B¹¹⁾
	Painting class CP5	L¹¹⁾
	Painting class CP6	U¹¹⁾
	Painting class CP7	E¹¹⁾
23	Without oil filling	W
23	With oil filling	F
24	Without test certificate	W
24	With acceptance test certificate 3.1 based on EN 10204	C

¹⁾	Only piston Ø 40 \u2026 200 mm
²⁾	Trunnion position freely selectable. When ordering, always specify the "XV" dimensions in the plain text in mm
³⁾	For max. available stroke length see Technical data and for admissible stroke length (according to the kinking calculation) see Project planning information.
⁴⁾	Not possible with MF4
⁵⁾	Piston Ø 40 \u2026 80 mm, only position 11, subplates only possible in combination with line connection \u201cB\u201d at the head
⁶⁾	Piston Ø 63 \u2026 200 mm, only position 11, subplates only possible in combination with line connection \u201cB\u201d at the head
⁷⁾	Piston Ø 125 \u2026 200 mm, only position 11, subplates only possible in combination with line connection \u201cB\u201d at the head
⁹⁾	Only piston Ø 80 \u2026 320 mm
¹⁰⁾	Seal designs A, B not possible; piston Ø 220 \u2026 320 mm standard
¹¹⁾	Specify RAL color in the plain text
¹⁵⁾	Subplates for SL and SV valves (isolator valves) Note: Seal designs T, G, L, R, S and V are not designed for the static holding function!
¹⁸⁾	Not standardized
¹⁹⁾	Only piston rod Ø 40 \u2026 160 mm
²¹⁾	Only piston Ø 63 \u2026 200 mm
²³⁾	Only piston rod Ø 25 \u2026 140 mm
²⁸⁾	With seal design "L" standard
³⁰⁾	All graphical representations in the data sheet show position 1
³¹⁾	With MS2, only position 11 is possible
³²⁾	Piston Ø 180 \u2026 200 mm, only position 11, subplates only possible in combination with line connection \u201cB\u201d at the head
³³⁾	Version does not comply with ISO 6022
³⁷⁾	Min. stroke length = 20 mm.
	Order examples:
	Without additional options:
	CDH2MT4/63/45/350A3X/B11CHDMW, XV = 300 mm
	With additional options:
	CDH2MF3/80/56/500A3X/B11CHDMZ EWAWW
	With order-relevant information:
	CDH2MT4/63/45/350A3X/B11CHDMW-P, XV = 300 mm
	CDH2MF3/80/56/500A3X/B11CHDMZ EWAWW-P

01	Single rod cylinder	CD
02	Series	H2
Types of mounting
03	Swivel eye at cylinder base	MP3
Self-aligning clevis at cylinder base	MP5
Round flange at the cylinder head	MF3
Round flange at the cylinder base	MF4
Trunnion	MT4²⁾
Foot mounting	MS2¹⁸⁾
04	Piston Ø (ØAL) 40 \u2026 320 mm	...
05	Piston rod Ø (ØMM) 25 \u2026 220 mm	...
06	Stroke length in mm³⁾	...
Design principle
07	Head and base flanged	A
08	Component series 30 ... 39 (30 ... 39: unchanged installation and connection dimensions)	3X
Line connection / version
09	According to ISO 1179-1 (pipe thread ISO 228-1)	B
According to ISO 9974-1 (metric thread ISO 261)	M³³⁾
Flange connection according to ISO 6162-1 tab. 2 type 1 (≙ SAE 3000 PSI)	F^{4; 21)}
Flange connection according to ISO 6162-2 tab. 2 type 1 (≙ SAE 6000 PSI)	D^{4; 9)}
Flange connection according to ISO 6164 tab. 1	K^{1; 4)}
Flange connection according to ISO 6164 tab. 2	H⁴⁾
according to ISO 1179-1 (pipe thread ISO 228-1) with flat pipe flange	C³¹⁾
For directional and high-response valves	Subplate NG6	P^{4; 5)}
Subplate NG10	T^{4; 6)}
Subplate NG16	U^{4; 7)}
Subplate NG25	V^{4; 32)}
For SL and SV valves	Subplate NG6	A^{4; 5; 15)}
Subplate NG10	E^{4; 6; 15)}
Subplate NG20	L^{4; 7; 15)}
Subplate NG30	N^{4; 32; 15)}
Line connection/position at cylinder head
10	View to piston rod³⁰⁾		1
2
3
4
Line connection/position at cylinder base
11	View to piston rod³⁰⁾		1
2
3
4
Piston rod design
12	Hard chromium-plated	C
Hardened and hard chromium-plated	H²³⁾
Nickel-plated and hard chromium-plated	N¹⁹⁾
Piston rod end
13	Thread for swivel head CGKD	H
With mounted swivel head CGKD	F
End position cushioning
14	Without end position cushioning	U
Both sides, self-adjusting	D¹⁾
Both sides, adjustable	E
Seal design
15	For mineral oil HL, HLP and oil-in-water emulsion HFA	Standard seal system	M
Standard seal system with guide rings	L
Reduced friction heavy industry	R
For mineral oil HL, HLP, oil-in-water emulsion HFA and water glycol HFC	Standard seal system HFC	G
Servo quality/reduced friction	T
Chevron seal kits	A
For HDFR phosphate ester and HFDU polyol ester	Servo quality/reduced friction	S
Standard seal system FKM	V
Chevron seal kits	B
Option
16	Without additional options, do not fill fields for additional options	W
Additional options, fill fields for additional options	Z

general

Installation position		any
Priming		Gentian blue (RAL 5010), see Table Corrosivity categories
Minimum layer thickness of the priming ¹⁾	µm	40
Painting ²⁾		in four corrosivity categories in the RAL colors, see Table Corrosivity categories

¹⁾	Other colors upon request. With cylinders and attachment parts, the following surfaces are not primed: ▶ All fit diameters to the customer side ▶ Sealing surfaces for line connection ▶ Sealing surfaces for flange connection ▶ Connection surface for valve mounting ▶ Inductive proximity switches ▶ Position measurement system ▶ Measuring coupling ▶ Spherical / plain bearing ▶ Lubricating nipples
²⁾	With cylinders and attachment parts, the following surfaces are not painted: ▶ All fit diameters and connection surfaces to the customer side ▶ Sealing surfaces for line connection ▶ Sealing surfaces for flange connection ▶ Connection surface for valve mounting ▶ Inductive proximity switches ▶ Position measurement system ▶ Measuring coupling ▶ Spherical / plain bearing ▶ Lubricating nipples
	The areas that are not primed or painted are protected by means of a solvent-free corrosion protection agent.
	Accessories that are ordered as separate order item are not primed or painted by default. Corresponding priming and/or painting on request.

hydraulic

Nominal pressure ¹⁾	bar	250
Operating pressure, min. (without load) ²⁾	bar	10
Static test pressure	bar	375
Reduced test pressure	bar	315
Operating viscosity range	mm²/s	12 \u2026 380
Optimum viscosity at operating temperature	mm²/s	20 \u2026 100
Maximum admissible degree of contamination of the hydraulic fluid, cleanliness class according to ISO 4406 (c) ³⁾		Class 20/18/15 according to ISO 4406 (c)
Bleeding		By default secured against screwing out

¹⁾	The maximum operating pressures must be less than or equal to the applicable nominal pressures and apply to applications with shock-free operation with reference to excess pressure and/or external loads. With extreme loads like e. g. high sequence cycle, mounting elements and threaded piston rod connections must be designed for durability.
²⁾	Depending on the application, application conditions and technical design, a certain minimum pressure (approx.10 bar) is required in order to guarantee technically unobjectionable functioning of the hydraulic cylinder.
³⁾	The cleanliness classes specified for the components must be adhered to in hydraulic systems. Effective filtration prevents faults and simultaneously increases the life cycle of the components. For the selection of the filters, see www.boschrexroth.com/filter.

Hydraulic fluid	Classification	Suitable sealing materials	Standards	Data sheet
Mineral oils	HL, HLP	FKM, NBR	DIN 51524	90220
Oil-in-water emulsion	HFA	FKM, NBR	ISO 12922	90223
Water glycol	HFC	upon request		90223
Phosphate ester	HFDR	FKM	ISO 12922	90222
Polyol ester	HFDU	FKM	ISO 12922	90222

Weight

Piston	Piston rod	with 0 mm stroke length				per 100 mm stroke length
ØAL	ØMM	MP3/MP5	MF3/MF4	MT4	MS2
mm	mm	kg	kg	kg	kg	kg
40	25	7	9	9	9	0.9
40	28	7	9	9	9	1
50	32	12	14	13	13	1.3
50	36	12	14	13	14	1.5
63	40	20	21	21	21	2.3
63	45	20	21	21	21	2.6
80	50	32	35	34	35	3.2
80	56	32	35	34	36	3.6
100	63	51	54	54	55	5.2
100	70	51	55	54	56	5.7
125	80	95	96	99	98	8.2
125	90	96	97	100	99	9.2
140	90	131	132	136	137	10.7
140	100	132	133	137	138	11.9
160	100	185	184	197	206	12.6
160	110	186	186	199	207	13.9
180	110	255	253	264	274	14.7
180	125	258	256	267	277	16.8
200	125	349	332	350	363	19
200	140	352	335	353	366	21.5
220	140	527	512	546	518	27.1
220	160	527	512	546	518	30.9
250	160	673	640	677	650	32.7
250	180	673	640	677	650	36.9
280	180	976	966	1020	918	44.2
280	200	976	966	1020	918	48.8
320	200	1251	1172	1223	1174	55.2
320	220	1251	1172	1223	1174	60.4

Selection criteria for seals

	Work and environmental conditions	Seal versions
	Work and environmental conditions	M	G	V	L	A	B	T	R	S
Medium/temperature	Medium HL, HLP/operating temperature of medium \u201220 \u2026 +80 °C	++	++	++	++	++	++	++	++	++
	Medium HFA/operating temperature of medium +5 \u2026 +55 °C	+/\u2012	+/\u2012	+/-	+/-	+	+/\u2012	++	+/-	+/\u2012
	Medium HFC/operating temperature of medium \u201220 \u2026 +60 °C	\u2012	++	\u2012	\u2012	+/\u2012	\u2012	++	\u2012	\u2012
	Medium HFDR/operating temperature of medium \u201215 \u2026 +80 °C	\u2012	\u2012	++	\u2012	\u2012	++	\u2012	\u2012	++
	Medium HFDU/operating temperature of medium \u201215 \u2026 +80 °C	\u2012	\u2012	++	\u2012	\u2012	++	\u2012	\u2012	++
	Ambient and rod temperature in the area of the piston rod \u201220 \u2026 +80 °C¹⁾	++	+	+²⁾	++	++	+²⁾	+	++	++²⁾
	Extended ambient and rod temperature in the area of the piston rod +80 \u2026 +120 °C	\u2012	\u2012	++	\u2012	\u2012	+	\u2012	\u2012	++
Function/velocity \u2026	Static holding function more than 10 minutes: Attention! Application- and temperature-dependent	++	+	+	+	++	++	+	+	+
	Static holding function short-time < 1 minute	++	++	++	++	++	++	++	++	++
	Robust application conditions: steel works, mining, thin ice	++	++	++	++	++	++	\u2012	++	\u2012
	Zero point control, hardly any amplitude, frequency ≤ 5 Hz, max. 5 minutes	\u2012	\u2012	\u2012	+/\u2012	\u2012	\u2012	++	+	++
	Cylinder velocity ≥ 0.001 m/s stick-slip behavior	++	+	+	++	\u2012	\u2012	++	++	++
	Cylinder velocity 0.01 \u2026 0.5 m/s³⁾	++	+	+	++	+	+	++	++	++
	Cylinder velocity > 0.5 \u2026 ≤ 0.8 m/s³⁾	\u2012	+/\u2012	+/\u2012	++	\u2012	\u2012	++	+	++
	Stroke length > 1.0 m	+/\u2012	++	++	++	++	++	++	++	++
	Standstill period (wear)	++	+/\u2012	+/\u2012	++	+/\u2012	\u2012	++	++	++
	Undissolved air in the oil⁴⁾	\u2012	+	+	+	\u2012	\u2012	+	+	+

	++ = very good + = good +/\u2013 = conditional, depending on the application parameters \u2013 = inappropriate General technical data in corresponding data sheets will remain valid! See table on hydraulic fluids! Generally, a medium temperature of approx. 40 °C is recommended. The specified values are to be regarded as guidelines; depending on the case of application, it may be necessary to check the suitability of the seal system.
¹⁾	Moreover, observe the corresponding medium temperature range
²⁾	Lower temperature limit \u201315 °C
³⁾	Standard line connections not designed for that velocity
⁴⁾	\u2012 = Seal is destroyed, + = Seal is not directly destroyed, leakage may occur

Stroke velocity

Piston Ø	Line connection	Maximum stroke velocity ¹⁾
mm		m/s
40	G1/2	0.31
40	G1/2	0.31
50	G1/2	0.2
50	G1/2	0.2
63	G3/4	0.28
63	G3/4	0.28
80	G3/4	0.18
80	G3/4	0.18
100	G1	0.2
100	G1	0.2
125	G1	0.13
125	G1	0.13
140	G1 1/4	0.16
140	G1 1/4	0.16
160	G1 1/4	0.12
160	G1 1/4	0.12
180	G1 1/4	0.1
180	G1 1/4	0.1
200	G1 1/4	0.08
200	G1 1/4	0.08
220	G1 1/2	0.09
220	G1 1/2	0.09
250	G1 1/2	0.07
250	G1 1/2	0.07
280	G1 1/2	0.06
280	G1 1/2	0.06
320	G1 1/2	0.04
320	G1 1/2	0.04

¹⁾

Please observe the guideline on max. stroke velocities (with recommended flow velocity of 5 m/s in the line connection) in the table. Higher stroke velocities upon request. If the extension velocity is considerably higher than the retraction velocity of the piston rod, drag-out losses of the medium may result. If necessary, please consult us.

Notices:

Boundary and application conditions:

The mechanical alignment of the movement axis and thus the mounting points of hydraulic cylinder and piston rod must be ensured. Lateral forces on the guides of piston rod and piston are to be avoided. It may be necessary to consider the own weight of the hydraulic cylinder (MP3/MP5 or MT4) or the piston rod.

The kinking length/kinking load of the piston rod and/or the hydraulic cylinder must be observed (see Kinking).

The maximum admissible stroke velocities with regard to the suitability/load of seals must be observed as must their compatibility with the properties of the fluid type (see seals).

The maximum admissible velocities/kinetic energies when moving into the end positions, also considering external loads, must be observed.
Danger: Excess pressure

The maximum admissible operating pressure must be complied with in any operating state of the hydraulic cylinder. Possible pressure intensification resulting from the area ratio of annulus area to piston area and possible throttling points are to be observed.

Detrimental environmental influences, like e. g. aggressive finest particles, vapors, high temperatures, etc. as well as contamination and deterioration of the hydraulic fluid are to be avoided.

Standards:

The installation dimensions and types of mounting of the cylinders comply with the standards ISO 6020/1 and VW 39 D 920.

Acceptance:

Each cylinder is tested according to Bosch Rexroth standard and in compliance with ISO 10100: 2001.

Safety instructions:

For assembly, commissioning and maintenance of hydraulic cylinders, observe the operating instructions 07100-B!

Service and repair work has to be performed by Bosch Rexroth AG or by personnel especially trained for this purpose. No warranty is accepted for damage as a consequence of assembly, maintenance or repair work not performed by Bosch Rexroth AG.

Check lists for hydraulic cylinders:

Cylinders the characteristics and/or application parameters of which deviate from the values specified in the data sheet can only be offered as a special version upon request. For offers, the variations of the characteristics and/or application parameters must be described in the check lists for hydraulic cylinders (07200).

Minimum strokes:

When using end position cushioning, the minimum stroke must also be observed, see "End position cushioning".

This list does not claim to be complete. In case of questions regarding the compatibility with the medium or exceedance of the boundary or application conditions, please contact us.

All graphical representations in the data sheet are examples. The product supplied may therefore differ from the figure.

Project planning software ICS (Interactive Catalog System)

The ICS (Interactive Catalog System) is a selection and project planning help for hydraulic cylinders. The ICS allows designers for machines and systems to quickly and reliably find the perfect hydraulic cylinder solution through logic-guided type key enquiries. This software helps to solve design and project planning tasks more quickly and efficiently. After having been guided through the product selection, the user quickly and reliably gets the exact technical data of the selected component as well as 2D and 3D CAD data in the correct file format for all common CAD systems.

This allows users to reduce costs while increasing their competitiveness.

www.boschrexroth.com/ics

Diameters, areas, forces, flow

Piston	Piston rod	Area ratio	Areas			Force at 250 bar			Flow at 0.1 m/s			Maximum available stroke length
Piston	Piston rod	Area ratio	Piston	Rod	Ring	Pressure	Differential	Traction	Off	Differential	On	Maximum available stroke length
ØAL	ØMM	φ A₁/A₃	A₁	A₂	A₃	F₁	F₂	F₃	q_V1	q_V2	q_V3
mm	mm		cm²	cm²	cm²	kN	kN	kN	l/min	l/min	l/min	mm
40	25	1.64	12.56	4.9	7.65	31.4 ¹⁾	12.25	19.12	7.5 ²⁾	2.9	4.6	2000
40	28	1.96	12.56	6.16	6.4	31.4 ¹⁾	15.4	16	7.5 ²⁾	3.7	3.8	2000
50	32	1.69	19.63	8.04	11.59	49.1 ¹⁾	20.12	28.98	11.8 ²⁾	4.8	7	2000
50	36	2.08	19.63	10.18	9.45	49.1 ¹⁾	25.45	23.65	11.8 ²⁾	6.1	5.7	2000
63	40	1.67	31.17	12.56	18.61	77.9 ¹⁾	31.38	46.52	18.7 ²⁾	7.5	11.2	2000
63	45	2.04	31.17	15.9	15.27	77.9 ¹⁾	39.75	38.15	18.7 ²⁾	9.5	9.2	2000
80	50	1.66	50.26	19.63	30.63	125.65 ¹⁾	49.07	76.58	30.2 ²⁾	11.8	18.4	2000
80	56	1.96	50.26	24.63	25.63	125.65 ¹⁾	61.55	64.1	30.2 ²⁾	14.8	15.4	2000
100	63	1.66	78.54	31.16	47.38	196.35 ¹⁾	77.93	118.42	47.1 ²⁾	18.7	28.4	3000
100	70	1.96	78.54	38.48	40.06	196.35 ¹⁾	96.2	100.15	47.1 ²⁾	23.1	24	3000
125	80	1.69	122.72	50.24	72.48	306.75 ¹⁾	125.62	181.13	73.6 ²⁾	30.1	43.5	3000
125	90	2.08	122.72	63.62	59.1	306.75 ¹⁾	159.05	147.7	73.6 ²⁾	38.2	35.4	3000
140	90	1.7	153.94	63.62	90.32	384.75 ¹⁾	159.05	225.7	92.4 ²⁾	38.2	54.2	3000
140	100	2.04	153.94	78.54	75.4	384.75 ¹⁾	196.35	188.4	92.4 ²⁾	47.1	45.3	3000
160	100	1.64	201.06	78.54	122.5	502.5 ¹⁾	196.35	306.15	120.6 ²⁾	47.1	73.5	3000
160	110	1.9	201.06	95.06	106	502.5 ¹⁾	237.65	264.85	120.6 ²⁾	57	63.6	3000
180	110	1.6	254.47	95.06	159.43	636.17 ¹⁾	237.65	398.52	152.7 ²⁾	57	95.7	3000
180	125	1.93	254.47	122.72	131.75	636.17 ¹⁾	306.8	329.37	152.7 ²⁾	73.6	79.1	3000
200	125	1.64	314.16	122.72	191.44	785.25 ¹⁾	306.8	478.45	188.5 ²⁾	73.6	114.9	3000
200	140	1.96	314.16	153.96	160.2	785.25 ¹⁾	384.9	400.35	188.5 ²⁾	92.4	96.1	3000
220	140	1.68	380.1	153.96	226.2	950.3 ¹⁾	384.9	565.5	228.1 ²⁾	92.4	135.7	6000
220	160	2.12	380.1	201	179.1	950.3 ¹⁾	502.6	447.7	228.1 ²⁾	120.7	107.4	6000
250	160	1.69	490.8	201	289.8	1227.2 ¹⁾	502.6	724.5	294.5 ²⁾	120.7	173.8	6000
250	180	2.08	490.8	254.4	236.4	1227.2 ¹⁾	636.2	590	294.5 ²⁾	152.7	141.8	6000
280	180	1.7	615.7	254.4	361.3	1539.4 ¹⁾	636.2	903.2	369.4 ²⁾	152.7	216.7	6000
280	200	2.04	615.7	314.1	301.6	1539.4 ¹⁾	785.4	753.9	369.4 ²⁾	188.5	180.9	6000
320	200	1.64	804.2	314.1	490.1	2010.6 ¹⁾	785.4	1225.2	482.5 ²⁾	188.5	294	6000
320	220	1.9	804.2	380.1	424.2	2010.6 ¹⁾	950.3	1060.3	482.5 ²⁾	228.1	254.4	6000

¹⁾	Theoretical static cylinder force (without consideration of the efficiency and admissible load for attachment parts such as swivel heads, plates, or valves, etc.)
²⁾	Stroke velocity

Tolerances according to DIN ISO 6022

Installation dimensions	WC	XC²⁾	XO²⁾	XS^1;2)	XV²⁾	ZP²⁾
Mounting type	MF3	MP3	MP5	MS2	MT4	MF4
Stroke length in mm	Tolerances in mm						Stroke tolerances in mm ³⁾
≤ 1250	±2	±1,5	±1,5	±2	±2	±1,5	+2
> 1250 \u2013 ≤ 3150	±4	±3	±3	±4	±4	±3	+5
> 3150 \u2013 ≤ 6000	±8	±5	±5	±8	±8	±5	+8

¹⁾	Not standardized
²⁾	Including stroke length
³⁾	Stroke tolerances must not be added to the tolerances listed in this table.

Type of mounting MP3: Swivel eye at cylinder base

Type of mounting MP5: Self-aligning clevis at cylinder base

Type of mounting MF3: Round flange at the cylinder head

Type of mounting MF4: Round flange at the cylinder base

Type of mounting MT4: Trunnion

Type of mounting MS2: Foot mounting

Bleeding / measuring coupling

By default, a patented safety vent against unintended screwing out in head and base is delivered for all cylinders.

The port allows for the installation of a measuring coupling with check valve for pressure measurement or contamination-free bleeding. Measuring coupling with check valve function, i.e. the measuring or bleeding hose can also be connected when the system is pressurized.

¹⁾	Bleeding: with view to the piston rod, the position is always offset by 90° in relation to the line connection (clockwise)

Scope of delivery: Measuring coupling G1/4

MESSKUPPLUNG AB 20-11/K1 G1/4 with seal ring made of NBR

Material no. R900009090

MESSKUPPLUNG AB 20-11/K1V G1/4 with seal ring made of FKM

Material no. R900001264

Proximity switch

Inductive proximity switches are used as reliable end position control for hydraulic cylinders. They are an important element for the safe and exact monitoring of safety equipment, locks and/or other machine functions in their end position by means of the output of signals. The proximity switch which is high-pressure resistant up to 500 bar works in a contactless manner. Consequently, it is wear-free. The proximity switch has been set at the factory. The switching distance must not be adjusted. The lock nut of the proximity switch is marked at the factory using sealing wax. On versions with proximity switch, the cylinders are equipped with proximity switches on both sides.

Technical data proximity switch

Function type			PNP normally open contact
Admissible pressure		bar	500
Operating voltage		V DC	10 ... 30
Operating voltage	including residual ripple	%	≤ 15
Voltage drop		V	≤ 1.5
Rated operating voltage		V DC	24
Rated operating current		mA	200
Idle current		mA	≤ 8
Residual current		μA	≤ 10
Repetition accuracy		%	≤ 5
Hysteresis		%	≤ 15
Ambient temperature range		°C	-25 \u2026 +80
Temperature drift		%	≤ 10
Switching frequency		Hz	1000
Protection class	active area		IP68 according to DIN 40050
Protection class	Proximity switch		IP67 according to DIN 40050
Housing material			Material no. 1.4104

Pin assignment

Corrosivity categories

In this connection, observe the information on the color set-up in table general.

The specified resistances of the individual Bosch Rexroth classes only refer to the primed / painted cylinder areas, not, for example, to piston rods, trunnions, etc.

In this connection, special measures may be necessary.

	Class	Properties	Applications
	Class	Properties	Inside	Outside
Priming	CP3 (C3, short ¹⁾)	240 h salt spray test SST (DIN EN ISO 9227) 240 h condensation water test KKT (DIN EN ISO 6270-2) Layer thickness: min. 40 μm	Field of application e.g. hall atmosphere, air humidity ≤ 60%, no thermal load.	Not suitable for outdoor exposure.
Painting	CP4 (C3, medium ¹⁾)	480 h salt spray test SST (DIN EN ISO 9227) 480 h condensation water test KKT (DIN EN ISO 6270-2) Nominal layer thickness: 120 μm	Unheated buildings in which there may be condensation (production rooms, storage and sport halls).	Urban and industrial atmosphere with little salt or sulfur dioxide load.
	CP5 (C4, medium ¹⁾)	720 h salt spray test SST (DIN EN ISO 9227) 480 h condensation water test KKT (DIN EN ISO 6270-2) Nominal layer thickness: 140 μm	Silo and debris facilities, chemical plants, boathouses above seawater, laundries, breweries with high humidity and medium contamination.	Industrial and coastal areas with medium salt load.
	CP6 (C5I, medium ¹⁾)	1000 h salt spray test NSS (DIN EN ISO 9227) 480 h condensation water test KKT (DIN EN ISO 6270-2) Nominal layer thickness: 220 μm	Buildings or areas with almost permanent condensation and serious contamination.	Industrial areas with large humidity and aggressive atmosphere.
	CP7 (C5M, medium ¹⁾)	1440 h salt spray test NSS (DIN EN ISO 9227) 720 h condensation water test KKT (DIN EN ISO 6270-2) Nominal layer thickness: 320 μm	Buildings or areas with almost permanent condensation and serious contamination.	Coastal and offshore areas with high salt load.

¹⁾	according to DIN EN ISO 12944-2

Installation position	any
Priming	Gentian blue (RAL 5010), see Table Corrosivity categories
Minimum layer thickness of the priming ¹⁾	µm	40
Painting ²⁾	in four corrosivity categories in the RAL colors, see Table Corrosivity categories

Hydraulic fluid	Classification	Suitable sealing materials	Standards	Data sheet
Mineral oils	HL, HLP	FKM, NBR	DIN 51524	90220
Oil-in-water emulsion	HFA	FKM, NBR	ISO 12922	90223
Water glycol	HFC	upon request	90223
Phosphate ester	HFDR	FKM	ISO 12922	90222
Polyol ester	HFDU	FKM	ISO 12922	90222

Piston	Piston rod	with 0 mm stroke length	per 100 mm stroke length
40	25	7	9	9	9	0.9
28	7	9	9	9	1
50	32	12	14	13	13	1.3
36	12	14	13	14	1.5
63	40	20	21	21	21	2.3
45	20	21	21	21	2.6
80	50	32	35	34	35	3.2
56	32	35	34	36	3.6
100	63	51	54	54	55	5.2
70	51	55	54	56	5.7
125	80	95	96	99	98	8.2
90	96	97	100	99	9.2
140	90	131	132	136	137	10.7
100	132	133	137	138	11.9
160	100	185	184	197	206	12.6
110	186	186	199	207	13.9
180	110	255	253	264	274	14.7
125	258	256	267	277	16.8
200	125	349	332	350	363	19
140	352	335	353	366	21.5
220	140	527	512	546	518	27.1
160	527	512	546	518	30.9
250	160	673	640	677	650	32.7
180	673	640	677	650	36.9
280	180	976	966	1020	918	44.2
200	976	966	1020	918	48.8
320	200	1251	1172	1223	1174	55.2
220	1251	1172	1223	1174	60.4

	Work and environmental conditions	Seal versions
Medium/temperature	Medium HL, HLP/operating temperature of medium \u201220 \u2026 +80 °C	++	++	++	++	++	++	++	++	++
Medium HFA/operating temperature of medium +5 \u2026 +55 °C	+/\u2012	+/\u2012	+/-	+/-	+	+/\u2012	++	+/-	+/\u2012
Medium HFC/operating temperature of medium \u201220 \u2026 +60 °C	\u2012	++	\u2012	\u2012	+/\u2012	\u2012	++	\u2012	\u2012
Medium HFDR/operating temperature of medium \u201215 \u2026 +80 °C	\u2012	\u2012	++	\u2012	\u2012	++	\u2012	\u2012	++
Medium HFDU/operating temperature of medium \u201215 \u2026 +80 °C	\u2012	\u2012	++	\u2012	\u2012	++	\u2012	\u2012	++
Ambient and rod temperature in the area of the piston rod \u201220 \u2026 +80 °C¹⁾	++	+	+²⁾	++	++	+²⁾	+	++	++²⁾
Extended ambient and rod temperature in the area of the piston rod +80 \u2026 +120 °C	\u2012	\u2012	++	\u2012	\u2012	+	\u2012	\u2012	++
Function/velocity \u2026	Static holding function more than 10 minutes: Attention! Application- and temperature-dependent	++	+	+	+	++	++	+	+	+
Static holding function short-time < 1 minute	++	++	++	++	++	++	++	++	++
Robust application conditions: steel works, mining, thin ice	++	++	++	++	++	++	\u2012	++	\u2012
Zero point control, hardly any amplitude, frequency ≤ 5 Hz, max. 5 minutes	\u2012	\u2012	\u2012	+/\u2012	\u2012	\u2012	++	+	++
Cylinder velocity ≥ 0.001 m/s stick-slip behavior	++	+	+	++	\u2012	\u2012	++	++	++
Cylinder velocity 0.01 \u2026 0.5 m/s³⁾	++	+	+	++	+	+	++	++	++
Cylinder velocity > 0.5 \u2026 ≤ 0.8 m/s³⁾	\u2012	+/\u2012	+/\u2012	++	\u2012	\u2012	++	+	++
Stroke length > 1.0 m	+/\u2012	++	++	++	++	++	++	++	++
Standstill period (wear)	++	+/\u2012	+/\u2012	++	+/\u2012	\u2012	++	++	++
Undissolved air in the oil⁴⁾	\u2012	+	+	+	\u2012	\u2012	+	+	+

Piston Ø	Line connection	Maximum stroke velocity ¹⁾
40	G1/2	0.31
G1/2	0.31
50	G1/2	0.2
G1/2	0.2
63	G3/4	0.28
G3/4	0.28
80	G3/4	0.18
G3/4	0.18
100	G1	0.2
G1	0.2
125	G1	0.13
G1	0.13
140	G1 1/4	0.16
G1 1/4	0.16
160	G1 1/4	0.12
G1 1/4	0.12
180	G1 1/4	0.1
G1 1/4	0.1
200	G1 1/4	0.08
G1 1/4	0.08
220	G1 1/2	0.09
G1 1/2	0.09
250	G1 1/2	0.07
G1 1/2	0.07
280	G1 1/2	0.06
G1 1/2	0.06
320	G1 1/2	0.04
G1 1/2	0.04

Piston	Piston rod	Area ratio	Areas	Force at 250 bar	Flow at 0.1 m/s	Maximum available stroke length
40	25	1.64	12.56	4.9	7.65	31.4 ¹⁾	12.25	19.12	7.5 ²⁾	2.9	4.6	2000
28	1.96	12.56	6.16	6.4	31.4 ¹⁾	15.4	16	7.5 ²⁾	3.7	3.8	2000
50	32	1.69	19.63	8.04	11.59	49.1 ¹⁾	20.12	28.98	11.8 ²⁾	4.8	7	2000
36	2.08	19.63	10.18	9.45	49.1 ¹⁾	25.45	23.65	11.8 ²⁾	6.1	5.7	2000
63	40	1.67	31.17	12.56	18.61	77.9 ¹⁾	31.38	46.52	18.7 ²⁾	7.5	11.2	2000
45	2.04	31.17	15.9	15.27	77.9 ¹⁾	39.75	38.15	18.7 ²⁾	9.5	9.2	2000
80	50	1.66	50.26	19.63	30.63	125.65 ¹⁾	49.07	76.58	30.2 ²⁾	11.8	18.4	2000
56	1.96	50.26	24.63	25.63	125.65 ¹⁾	61.55	64.1	30.2 ²⁾	14.8	15.4	2000
100	63	1.66	78.54	31.16	47.38	196.35 ¹⁾	77.93	118.42	47.1 ²⁾	18.7	28.4	3000
70	1.96	78.54	38.48	40.06	196.35 ¹⁾	96.2	100.15	47.1 ²⁾	23.1	24	3000
125	80	1.69	122.72	50.24	72.48	306.75 ¹⁾	125.62	181.13	73.6 ²⁾	30.1	43.5	3000
90	2.08	122.72	63.62	59.1	306.75 ¹⁾	159.05	147.7	73.6 ²⁾	38.2	35.4	3000
140	90	1.7	153.94	63.62	90.32	384.75 ¹⁾	159.05	225.7	92.4 ²⁾	38.2	54.2	3000
100	2.04	153.94	78.54	75.4	384.75 ¹⁾	196.35	188.4	92.4 ²⁾	47.1	45.3	3000
160	100	1.64	201.06	78.54	122.5	502.5 ¹⁾	196.35	306.15	120.6 ²⁾	47.1	73.5	3000
110	1.9	201.06	95.06	106	502.5 ¹⁾	237.65	264.85	120.6 ²⁾	57	63.6	3000
180	110	1.6	254.47	95.06	159.43	636.17 ¹⁾	237.65	398.52	152.7 ²⁾	57	95.7	3000
125	1.93	254.47	122.72	131.75	636.17 ¹⁾	306.8	329.37	152.7 ²⁾	73.6	79.1	3000
200	125	1.64	314.16	122.72	191.44	785.25 ¹⁾	306.8	478.45	188.5 ²⁾	73.6	114.9	3000
140	1.96	314.16	153.96	160.2	785.25 ¹⁾	384.9	400.35	188.5 ²⁾	92.4	96.1	3000
220	140	1.68	380.1	153.96	226.2	950.3 ¹⁾	384.9	565.5	228.1 ²⁾	92.4	135.7	6000
160	2.12	380.1	201	179.1	950.3 ¹⁾	502.6	447.7	228.1 ²⁾	120.7	107.4	6000
250	160	1.69	490.8	201	289.8	1227.2 ¹⁾	502.6	724.5	294.5 ²⁾	120.7	173.8	6000
180	2.08	490.8	254.4	236.4	1227.2 ¹⁾	636.2	590	294.5 ²⁾	152.7	141.8	6000
280	180	1.7	615.7	254.4	361.3	1539.4 ¹⁾	636.2	903.2	369.4 ²⁾	152.7	216.7	6000
200	2.04	615.7	314.1	301.6	1539.4 ¹⁾	785.4	753.9	369.4 ²⁾	188.5	180.9	6000
320	200	1.64	804.2	314.1	490.1	2010.6 ¹⁾	785.4	1225.2	482.5 ²⁾	188.5	294	6000
220	1.9	804.2	380.1	424.2	2010.6 ¹⁾	950.3	1060.3	482.5 ²⁾	228.1	254.4	6000

Installation dimensions	WC	XC²⁾	XO²⁾	XS^1;2)	XV²⁾	ZP²⁾
Stroke length in mm	Tolerances in mm	Stroke tolerances in mm ³⁾
≤ 1250	±2	±1,5	±1,5	±2	±2	±1,5	+2
> 1250 \u2013 ≤ 3150	±4	±3	±3	±4	±4	±3	+5
> 3150 \u2013 ≤ 6000	±8	±5	±5	±8	±8	±5	+8

Function type		PNP normally open contact
Admissible pressure	bar	500
Operating voltage		V DC	10 ... 30
including residual ripple	%	≤ 15
Voltage drop	V	≤ 1.5
Rated operating voltage	V DC	24
Rated operating current	mA	200
Idle current	mA	≤ 8
Residual current	μA	≤ 10
Repetition accuracy	%	≤ 5
Hysteresis	%	≤ 15
Ambient temperature range	°C	-25 \u2026 +80
Temperature drift	%	≤ 10
Switching frequency	Hz	1000
Protection class	active area		IP68 according to DIN 40050
Proximity switch		IP67 according to DIN 40050
Housing material		Material no. 1.4104

	Class	Properties	Applications
Priming	CP3 (C3, short ¹⁾)	240 h salt spray test SST (DIN EN ISO 9227) 240 h condensation water test KKT (DIN EN ISO 6270-2) Layer thickness: min. 40 μm	Field of application e.g. hall atmosphere, air humidity ≤ 60%, no thermal load.	Not suitable for outdoor exposure.
Painting	CP4 (C3, medium ¹⁾)	480 h salt spray test SST (DIN EN ISO 9227) 480 h condensation water test KKT (DIN EN ISO 6270-2) Nominal layer thickness: 120 μm	Unheated buildings in which there may be condensation (production rooms, storage and sport halls).	Urban and industrial atmosphere with little salt or sulfur dioxide load.
CP5 (C4, medium ¹⁾)	720 h salt spray test SST (DIN EN ISO 9227) 480 h condensation water test KKT (DIN EN ISO 6270-2) Nominal layer thickness: 140 μm	Silo and debris facilities, chemical plants, boathouses above seawater, laundries, breweries with high humidity and medium contamination.	Industrial and coastal areas with medium salt load.
CP6 (C5I, medium ¹⁾)	1000 h salt spray test NSS (DIN EN ISO 9227) 480 h condensation water test KKT (DIN EN ISO 6270-2) Nominal layer thickness: 220 μm	Buildings or areas with almost permanent condensation and serious contamination.	Industrial areas with large humidity and aggressive atmosphere.
CP7 (C5M, medium ¹⁾)	1440 h salt spray test NSS (DIN EN ISO 9227) 720 h condensation water test KKT (DIN EN ISO 6270-2) Nominal layer thickness: 320 μm	Buildings or areas with almost permanent condensation and serious contamination.	Coastal and offshore areas with high salt load.

Type of mounting MP3: Swivel eye at cylinder base

¹⁾	Bleeding: with view to the piston rod, the position is always offset by 90° in relation to the line connection (clockwise)
²⁾	Throttle valve only with end position cushioning "E" (180° for bleeding)
³⁾	Standard version \u201cW\u201d Lubricating nipple, cone head form A according to DIN 71412
⁴⁾	Related bolt Ø f8

MP3: with seal design \u201cA\u201d, \u201cB\u201d, and AL Ø 160 \u2026 320 mm

ØAL	ØMM	L	L1	MR	M1	ØCD		EW		ØRA ³⁾	VE ³⁾	ØRA ⁴⁾	VE ⁴⁾
mm	mm	mm	mm	mm	mm	mm		mm		mm	mm	mm	mm
40 ¹⁾	25 / 28	53	8	32	32	25	H9	25	h12	52	29	88	-
50	32 / 36	61	8	40	40	32	H9	32	h12	63	29	102	-
63	40 / 45	74	8	50	50	40	H9	40	h12	75	32	120	-
80	50 / 56	90	10	63	63	50	H9	50	h12	90	36	145	-
100	63 / 70	102	12	71	71	63	H9	63	h12	110	41	170	-
125	80 / 90	124	16	90	90	80	H9	80	h12	132	45	206	-
140	90 / 100	149	16	100	100	90	H9	90	h12	145	45	226	-
160	100 / 110	150	16	112	112	100	H9	100	h12	160	50	200	50
180	110 / 125	180	20	129	129	110	H9	110	h12	185	55	220	55
200	125 / 140	206	20	145	145	125	H9	125	h12	200	61	235	61
220 ¹⁾	140 / 160	253	20	179 ²⁾	187 ²⁾	160	H9	160	h12	235	71	270	71
250	160 / 180	253	24	179 ²⁾	187 ²⁾	160	H9	160	h12	250	71	300	71
280 ¹⁾	180 / 200	320	30	230 ²⁾	240 ²⁾	200	H9	200	h12	295	88	325	88
320	200 / 220	320	30	231 ²⁾	241 ²⁾	200	H9	200	h12	320	88	365	88

¹⁾	Piston Ø not standardized
²⁾	The specified dimensions are maximum values, tolerance classes 342 according to ISO 9013 Thermal cutting
³⁾	Dimensions for cylinders with seal design M, T, G, L, R, S and V
⁴⁾	Dimensions for cylinders with seal design A and B

Type of mounting MP5: Self-aligning clevis at cylinder base

¹⁾	Bleeding: with view to the piston rod, the position is always offset by 90° in relation to the line connection (clockwise)
²⁾	Throttle valve only with end position cushioning "E" (180° for bleeding)
³⁾	Standard version \u201cW\u201d Lubricating nipple, cone head form A according to DIN 71412
⁴⁾	Related bolt Ø f8

MP5: with seal design \u201cA\u201d, \u201cB\u201d, and AL Ø 160 \u2026 320 mm

ØAL	ØMM	LT	L1	MS	M1	ØCX		EP	EX		ØRA ⁴⁾	VE ⁴⁾	ØRA ⁵⁾	VE ⁵⁾	Z
mm	mm	mm	mm	mm	mm	mm		mm	mm		mm	mm	mm	mm	°
40	25 / 28 ¹⁾	53	8	32	32	25 ³⁾	H7	22	25	h12	52	29	88	-	2
50	32 / 36	61	8	40	40	32 ³⁾	H7	27	32	h12	63	29	102	-	4
63	40 / 45	74	8	50	50	40 ³⁾	H7	32	40	h12	75	32	120	-	4
80	50 / 56	90	10	63	63	50 ³⁾	H7	40	50	h12	90	36	145	-	4
100	63 / 70	102	12	71	71	63 ³⁾	H7	52	63	h12	110	41	170	-	4
125	80 / 90	124	16	90	90	80 ³⁾	H7	66	80	h12	132	45	206	-	4
140	90 / 100	149	16	100	100	90 ³⁾	H7	72	90	h12	145	45	226	-	4
160	100 / 110	150	16	112	112	100 ³⁾	H7	84	100	h12	160	50	200	50	4
180	110 / 125	180	20	129	129	110 ³⁾	H7	88	110	h12	185	55	220	55	4
200	125 / 140	206	20	145	145	125 ³⁾	H7	102	125	h12	200	61	235	61	4
220	140 / 160 ¹⁾	253	20	179 ²⁾	187 ²⁾	160 ³⁾	H7	130	160	h12	235	71	270	71	4
250	160 / 180	253	24	179 ²⁾	187 ²⁾	160 ³⁾	H7	130	160	h12	250	71	300	71	4
280	180 / 200 ¹⁾	320	30	230 ²⁾	240 ²⁾	200 ³⁾	H7	138	200	h12	295	88	325	88	4
320	200 / 220	320	30	231 ²⁾	241 ²⁾	200 ³⁾	H7	162	200	h12	320	88	365	88	4

¹⁾	Piston Ø not standardized
²⁾	The specified dimensions are maximum values, tolerance classes 342 according to ISO 9013 Thermal cutting
³⁾	Related bolt Ø f8
⁴⁾	Dimensions for cylinders with seal design M, T, G, L, R, S and V
⁵⁾	Dimensions for cylinders with seal design A and B

Type of mounting MF3: Round flange at the cylinder head

¹⁾	Bleeding: with view to the piston rod, the position is always offset by 90° in relation to the line connection (clockwise)
²⁾	Throttle valve only with end position cushioning "E" (180° for bleeding)

ØAL	ØMM	ØRD		WC	VD	NF		ZB	ØFB		ØFC		ØUC
ØAL	ØMM	ØRD		WC	VD	NF		max.	ØFB		ØFC		ØUC
mm	mm	mm		mm	mm	mm		mm	mm		mm		mm	mm
40	25 / 28 ¹⁾	52	f8	22	4	25	js13	230	11	H13	115	js13	138	0 - 1
50	32 / 36	63	f8	22	4	25	js13	244	13.5	H13	132	js13	155	0 - 1
63	40 / 45	75	f8	25	4	28	js13	274	13.5	H13	150	js13	175	0 - 1
80	50 / 56	90	f8	28	4	32	js13	305	17.5	H13	180	js13	210	0 - 1
100	63 / 70	110	f8	32	5	36	js13	340	22	H13	212	js13	250	0 - 1
125	80 / 90	132	f8	36	5	40	js13	396	22	H13	250	js13	290	0 - 1
140	90 / 100	145	f8	36	5	40	js13	430	26	H13	285	js13	330	0 - 1
160	100 / 110	160	f8	40	5	45	js13	467	26	H13	315	js13	360	0 - 1
180	110 / 125	185	f8	45	5	50	js13	510	33	H13	355	js13	410	0 - 1
200	125 / 140	200	f8	45	5	56	js13	550	33	H13	385	js13	440	0 - 1
220	140 / 160 ¹⁾	235	f8	50	8	63	js13	637	39	H13	435	js13	500	0 - 1
250	160 / 180	250	f8	50	8	63	js13	650	39	H13	475	js13	540	0 - 1
280	180 / 200 ¹⁾	295	f8	56	8	80	js13	752	45	H13	555	js13	630	0 - 1
320	200 / 220	320	f8	56	8	80	js13	760	45	H13	600	js13	675	0 - 1

¹⁾	Piston Ø not standardized

Type of mounting MF4: Round flange at the cylinder base

¹⁾	Bleeding: with view to the piston rod, the position is always offset by 90° in relation to the line connection (clockwise)
²⁾	Throttle valve only with end position cushioning "E" (180° for bleeding)

MF4: with seal design \u201cA\u201d, \u201cB\u201d and AL Ø 160 \u2026 320 mm

ØAL	ØMM	ZP	NF		VA	ØBA		ØFB		ØFC		ØUC		ØRA ²⁾	VE ²⁾	ØRA ³⁾	VE ³⁾
mm	mm	mm	mm		mm	mm		mm		mm		mm	mm	mm	mm	mm	mm
40	25 / 28 ¹⁾	250	25	js13	5	52	H8	11	H13	115	js13	138	0 - 1	52	29	88	-
50	32 / 36	265	25	js13	4	63	H8	13.5	H13	132	js13	155	0 - 1	63	29	102	-
63	40 / 45	298	28	js13	4	75	H8	13.5	H13	150	js13	175	0 - 1	75	32	120	-
80	50 / 56	332	32	js13	5	90	H8	17.5	H13	180	js13	210	0 - 1	90	36	145	-
100	63 / 70	371	36	js13	5	110	H8	22	H13	212	js13	250	0 - 1	110	41	170	-
125	80 / 90	430	40	js13	6	132	H8	22	H13	250	js13	290	0 - 1	132	45	206	-
140	90 / 100	465	40	js13	5	145	H8	26	H13	285	js13	330	0 - 1	145	45	226	-
160	100 / 110	505	45	js13	7	160	H8	26	H13	315	js13	360	0 - 1	160	50	200	50
180	110 / 125	550	50	js13	10	185	H8	33	H13	355	js13	410	0 - 1	185	55	220	55
200	125 / 140	596	56	js13	10	200	H8	33	H13	385	js13	440	0 - 1	200	61	235	61
220	140 / 160 ¹⁾	690	63	js13	10	235	H8	39	H13	435	js13	500	0 - 1	235	71	270	71
250	160 / 180	703	63	js13	10	250	H8	39	H13	475	js13	540	0 - 1	250	71	300	71
280	180 / 200 ¹⁾	822	80	js13	10	295	H8	45	H13	555	js13	630	0 - 1	295	88	325	88
320	200 / 220	830	80	js13	10	320	H8	45	H13	600	js13	675	0 - 1	320	88	365	88

¹⁾	Piston Ø not standardized
²⁾	Dimensions for cylinders with seal design M, T, G, L, R, S and V
³⁾	Dimensions for cylinders with seal design A and B

Type of mounting MT4: Trunnion

¹⁾	Bleeding: with view to the piston rod, the position is always offset by 90° in relation to the line connection (clockwise)
²⁾	Throttle valve only with end position cushioning "E" (180° for bleeding)
³⁾	Observe the minimum stroke length \u201cX_min.\u201c
⁴⁾	Trunnion nut with ØAL ≥ 125 mm either at head or at base side depending on the position of the trunnion (XV).

MT4: with seal design \u201cA\u201d, \u201cB\u201d, and AL Ø 160 \u2026 320 mm

¹⁾	Trunnion nut with ØAL ≥ 125 mm either at head or at base side depending on the position of the trunnion (XV).

Dimensions for cylinder with piston rod extension \u201cLY\u201c in retracted condition

ØAL	ØMM	ZB	X	XV	XV	XV	BD	UV	ØTD		TL		TM		r	ØRA	VE	ØRA	VE
ØAL	ØMM	max.	min.	average	min.	max.	BD	UV	ØTD		TL		TM		r	ØRA	VE	ØRA	VE
mm	mm	mm	mm	mm	mm	mm	mm	mm	mm		mm		mm		mm	mm	mm	mm	mm
40 ¹⁾	25 / 28	230	22	143 + X/2 ²⁾	154 ³⁾	140 + X ³⁾	38	97 ⁴⁾	25	f8	20	js16	95	h12	0.8	52 ⁵⁾	29 ⁵⁾	88 ⁶⁾	- ⁶⁾
50	32 / 36	244	32	158 + X/2 ²⁾	174 ³⁾	151 + X ³⁾	38	111 ⁴⁾	32	f8	25	js16	112	h12	0.8	63 ⁵⁾	29 ⁵⁾	102 ⁶⁾	- ⁶⁾
63	40 / 45	274	47	178.5 + X/2 ²⁾	202 ³⁾	167 + X ³⁾	48	129 ⁴⁾	40	f8	32	js16	125	h12	1	75 ⁵⁾	32 ⁵⁾	120 ⁶⁾	- ⁶⁾
80	50 / 56	305	58	197.5 + X/2 ²⁾	226.5 ³⁾	180.5 + X ³⁾	58	163 ⁴⁾	50	f8	40	js16	150	h12	1	90 ⁵⁾	36 ⁵⁾	145 ⁶⁾	- ⁶⁾
100	63 / 70	340	79	219.5 + X/2 ²⁾	259 ³⁾	195 + X ³⁾	78	188 ⁴⁾	63	f8	50	js16	180	h12	1.2	110 ⁵⁾	41 ⁵⁾	170 ⁶⁾	- ⁶⁾
125	80 / 90	396	91	255.5 + X/2 ²⁾	301 ³⁾	210 + X ³⁾	98	234 ⁴⁾	80	f8	63	js16	224	h12	1.2	132 ⁵⁾	45 ⁵⁾	206 ⁶⁾	- ⁶⁾
140	90 / 100	430	121	275.5 + X/2 ²⁾	336 ³⁾	215 + X ³⁾	118	257 ⁴⁾	90	f8	70	js16	265	h12	1.5	145 ⁵⁾	45 ⁵⁾	226 ⁶⁾	- ⁶⁾
160	100 / 110	467	142	302.5 + X/2 ²⁾	373 ³⁾	231.5 + X ³⁾	128	287 ⁴⁾	100	f8	80	js16	280	h12	1.5	160 ⁵⁾	50 ⁵⁾	200 ⁶⁾	50 ⁶⁾
180	110 / 125	510	158	326 + X/2 ²⁾	405 ³⁾	247 + X ³⁾	138	328 ⁴⁾	110	f8	90	js16	320	h12	1.5	185 ⁵⁾	55 ⁵⁾	220 ⁶⁾	55 ⁶⁾
200	125 / 140	550	204	359 + X/2 ²⁾	461 ³⁾	257 + X ³⁾	178	343 ⁴⁾	125	f8	100	js16	335	h12	1.5	200 ⁵⁾	61 ⁵⁾	235 ⁶⁾	61 ⁶⁾
220 ¹⁾	140 / 160	637	200	407 + X/2 ²⁾	507 ³⁾	307 + X ³⁾	180	393 ⁴⁾	160	f8	125	js16	385	h12	1.5	235 ⁵⁾	71 ⁵⁾	270 ⁶⁾	71 ⁶⁾
250	160 / 180	650	210	420 + X/2 ²⁾	525 ³⁾	315 + X ³⁾	180	433 ⁴⁾	160	f8	125	js16	425	h12	1.5	250 ⁵⁾	71 ⁵⁾	300 ⁶⁾	71 ⁶⁾
280 ¹⁾	180 / 200	752	241	477.5 + X/2 ²⁾	598 ³⁾	357 + X ³⁾	220	486 ⁴⁾	200	f8	160	js16	480	h12	2	295 ⁵⁾	88 ⁵⁾	325 ⁶⁾	88 ⁶⁾
320	200 / 220	760	245	477.5 + X/2 ²⁾	600 ³⁾	355 + X ³⁾	220	536 ⁴⁾	200	f8	160	js16	530	h12	2	320 ⁵⁾	88 ⁵⁾	365 ⁶⁾	88 ⁶⁾

¹⁾	Piston Ø not standardized
²⁾	XV_cent. Recommendation: Trunnion position in cylinder center
³⁾	When ordering, always specify the "XV" dimension in the plain text. Preferred XV dimension: Observe trunnion position in cylinder center XV_min. and XV_max.
⁴⁾	The specified dimensions are maximum values, tolerance classes 342 according to ISO 9013 Thermal cutting
⁵⁾	Dimensions for cylinders with seal design M, T, G, L, R, S and V
⁶⁾	Dimensions for cylinders with seal design A and B

Important installation information:

During installation, it must be ensured that the trunnion bearings are installed up to the trunnion shoulders. Any variation may reduce the product's service life.

Type of mounting MS2: Foot mounting

¹⁾	Bleeding: with view to the piston rod, the position is always offset by 90° in relation to the line connection (clockwise)
²⁾	Throttle valve only with end position cushioning "E" (180° for bleeding)
³⁾	Observe the minimum stroke length \u201cX_min.\u201c
⁴⁾	Recess 2 mm deep, for hexagon socket head cap screws; ISO 4762 \u2012 The screws must not be subjected to shear force. Force distribution via additional external fitting strip.

MS2: with seal design \u201cA\u201d, \u201cB\u201d, and AL Ø 160 \u2026 320 mm

ØAL	ØMM	XS	ZB	SS	X	S	S1	ØSB		ST	TS		US	LH	L1	ØRA	VE	ØRA	VE
ØAL	ØMM	XS	max.	SS	min.	S	S1	ØSB		ST	TS		US	LH	L1	ØRA	VE	ØRA	VE
mm	mm	mm	mm	mm	mm	mm	mm	mm		mm	mm		mm	mm	mm	mm	mm	mm	mm
40 ¹⁾	25 / 28	118	230	50	1 ²⁾	30	15	11	H13	32	110	js13	140 ³⁾	45	93	52 ⁴⁾	29 ⁴⁾	88 ⁵⁾	- ⁵⁾
50	32 / 36	135.5	244	45	1 ²⁾	35	17.5	11	H13	37	130	js13	161 ³⁾	55	110	63 ⁴⁾	29 ⁴⁾	102 ⁵⁾	- ⁵⁾
63	40 / 45	154	274	49	1 ²⁾	40	20	13.5	H13	42	150	js13	183 ³⁾	65	129	75 ⁴⁾	32 ⁴⁾	120 ⁵⁾	- ⁵⁾
80	50 / 56	171.5	305	52	2 ²⁾	50	25	17.5	H13	47	180	js13	220 ³⁾	75	149	90 ⁴⁾	36 ⁴⁾	145 ⁵⁾	- ⁵⁾
100	63 / 70	189	340	61	3 ²⁾	60	30	22	H13	57	210	js13	260 ³⁾	90	181	110 ⁴⁾	41 ⁴⁾	170 ⁵⁾	- ⁵⁾
125	80 / 90	218	396	75	1 ²⁾	70	35	26	H13	67	255	js13	313 ³⁾	105	215	132 ⁴⁾	45 ⁴⁾	206 ⁵⁾	- ⁵⁾
140	90 / 100	240.5	430	70	19 ²⁾	85	42.5	30	H13	72	290	js13	359 ³⁾	115	235	145 ⁴⁾	45 ⁴⁾	226 ⁵⁾	- ⁵⁾
160	100 / 110	270	467	65	44 ²⁾	105	52.5	33	H13	77	330	js13	402 ³⁾	135	277	160 ⁴⁾	50 ⁴⁾	200 ⁵⁾	50 ⁵⁾
180	110 / 125	291.5	510	69	50 ²⁾	115	57.5	40	H13	92	360	js13	445 ³⁾	150	305	185 ⁴⁾	55 ⁴⁾	220 ⁵⁾	55 ⁵⁾
200	125 / 140	322.5	550	73	56 ²⁾	125	62.5	40	H13	97	385	js13	471 ³⁾	160	322	200 ⁴⁾	61 ⁴⁾	235 ⁵⁾	61 ⁵⁾
220 ¹⁾	140 / 160	369.5	637	75	100 ²⁾	155	77.5	45	H13	102	445	js13	541 ³⁾	185	373	235 ⁴⁾	71 ⁴⁾	270 ⁵⁾	71 ⁵⁾
250	160 / 180	382.5	650	75	100 ²⁾	155	77.5	52	H13	112	500	js13	610 ³⁾	205	414	250 ⁴⁾	71 ⁴⁾	300 ⁵⁾	71 ⁵⁾
280 ¹⁾	180 / 200	415.5	752	124	51 ²⁾	155	77.5	52	H13	142	550	js13	661 ³⁾	235	469	295 ⁴⁾	88 ⁴⁾	325 ⁵⁾	88 ⁵⁾
320	200 / 220	435	760	85	125 ²⁾	190	95	62	H13	142	610	js13	732 ³⁾	255	512	320 ⁴⁾	88 ⁴⁾	365 ⁵⁾	88 ⁵⁾

¹⁾	Piston Ø not standardized
²⁾	Observe the minimum stroke length \u201cX_min.\u201c
³⁾	The specified dimensions are maximum values, tolerance classes 342 according to ISO 9013 Thermal cutting
⁴⁾	Dimensions for cylinders with seal design M, T, G, L, R, S and V
⁵⁾	Dimensions for cylinders with seal design A and B

Important notice:

Piston Ø 40, piston Ø 220 and piston Ø 280 not standardized

Flange ports

Dimensions for rectangular flange according to ISO 6162-1 tab. 2 type 1 and ISO 6162-2 tab. 2 type 1

Dimensions for square flange according to ISO 6164 tab. 1 and ISO 6164 tab. 2

Version \u201cF\u201d
ISO 6162-1 tab. 2 type 1 (200 \u2026 350 bar)(≙ SAE 3000 PSI)

ØAL	Y	PJ	X1	Ød₃	Ød₃ ¹⁾	c		w		d₁	t₁ ²⁾	t₁ ³⁾	p ⁴⁾
mm	mm	mm	mm	mm		mm	mm	mm	mm		mm	mm	bar
63	111	135	55	13	1/2\u2033	38.1	± 0.25	17.5	± 0.25	M8	16	16	350
80	123.5	148	68	13	1/2\u2033	38.1	± 0.25	17.5	± 0.25	M8	16	16	350
100	133	173	79	19	3/4\u2033	47.6	± 0.25	22.3	± 0.25	M10	20	20	350
125	153	205	97.5	25	1\u2033	52.4	± 0.25	26.2	± 0.25	M10	20	20	350
140	162	227	107	32	1 1/4\u2033	58.7	± 0.25	30.2	± 0.25	M10	20	20	250
160	181.5	242	127	32	1 1/4\u2033	58.7	± 0.25	30.2	± 0.25	M10	20	20	250
180	193	266	139	38	1 1/2\u2033	69.9	± 0.25	35.7	± 0.25	M12	24	24	200
200	219	280	146.5	38	1 1/2\u2033	69.9	± 0.25	35.7	± 0.25	M12	24	24	200

¹⁾	Flange connection according to ISO 6162-1 tab. 2 type 1 corresponds to flange connection according to SAE 3000 PSI
²⁾	Thread depth for seal design M, T, G, L, R, S and V
³⁾	Thread depth for seal design A and B
⁴⁾	Max. operating pressure for related flanges in bar

Version \u201cK\u201d
ISO 6164 tab. 1 (250 bar)

ØAL	Y	PJ	X1	Ød₃	w		d₁	t₁ ¹⁾	t₁ ²⁾	p ³⁾
mm	mm	mm	mm	mm	mm	mm		mm	mm	bar
40	82	122	40.5	10	24.7	± 0.25	M6	12.5	10	250
50	97	122	48	10	24.7	± 0.25	M6	12.5	12.5	250
63	111	135	57	13	29.7	± 0.25	M8	16	16	250
80	123.5	148	69.5	13	29.7	± 0.25	M8	16	16	250
100	133	173	81.5	19	35.4	± 0.25	M8	16	16	250
125	157	197	100	19	35.4	± 0.25	M8	16	16	250
140	162	227	109	25	43.8	± 0.25	M10	20	20	250
160	181.5	242	128.5	25	43.8	± 0.25	M10	20	20	250
180	194	264	142	32	51.6	± 0.25	M12	24	24	250
200	220	278	148.5	32	51.6	± 0.25	M12	24	24	250

¹⁾	Thread depth for seal design M, T, G, L, R, S and V
²⁾	Thread depth for seal design A and B
³⁾	Max. operating pressure for related flanges in bar

Version \u201cD\u201d
ISO 6162-2 tab. 2 type 1 (400 bar) (≙ SAE 6000 PSI)

ØAL	Y	PJ	X1	Ød₃	Ød₃	c		w		d₁	t₁	t₁	p
mm	mm	mm	mm	mm		mm	mm	mm	mm		mm	mm	bar
80	120	155	67	13	1/2\u2033 ¹⁾	40.5	± 0.25	18.2	± 0.25	M8	16 ²⁾	14 ³⁾	400 ⁴⁾
100	134	171	80.5	13	1/2\u2033 ¹⁾	40.5	± 0.25	18.2	± 0.25	M8	16 ²⁾	16 ³⁾	400 ⁴⁾
125	153	205	97	19	3/4\u2033 ¹⁾	50.8	± 0.25	23.8	± 0.25	M10	20 ²⁾	20 ³⁾	400 ⁴⁾
140	162	227	107	25	1\u2033 ¹⁾	57.2	± 0.25	27.8	± 0.25	M12	24 ²⁾	24 ³⁾	400 ⁴⁾
160	181.5	242	127	25	1\u2033 ¹⁾	57.2	± 0.25	27.8	± 0.25	M12	24 ²⁾	24 ³⁾	400 ⁴⁾
180	194	264	139.5	32	1 1/4\u2033 ¹⁾	66.6	± 0.25	31.8	± 0.25	M14	26 ²⁾	26 ³⁾	400 ⁴⁾
200	220	278	147	32	1 1/4\u2033 ¹⁾	66.6	± 0.25	31.8	± 0.25	M14	26 ²⁾	26 ³⁾	400 ⁴⁾
220	244	326	168	38	1 1/2\u2033 ¹⁾	79.3	± 0.25	36.5	± 0.25	M16	30 ²⁾	30 ³⁾	400 ⁴⁾
250	257	326	189	38	1 1/2\u2033 ¹⁾	79.3	± 0.25	36.5	± 0.25	M16	30 ²⁾	30 ³⁾	400 ⁴⁾
280	290	375	215	38	1 1/2\u2033 ¹⁾	79.3	± 0.25	36.5	± 0.25	M16	30 ²⁾	30 ³⁾	400 ⁴⁾
320	282	391	236	51	2\u2033 ¹⁾	96.8	± 0.25	44.5	± 0.25	M20	30 ²⁾	36 ³⁾	400 ⁴⁾

¹⁾	Flange connection according to ISO 6162-2 tab. 2 type 1 corresponds to flange connection according to SAE 6000 PSI
²⁾	Thread depth for seal design M, T, G, L, R, S and V
³⁾	Thread depth for seal design A and B
⁴⁾	Max. operating pressure for related flanges in bar

Version \u201cH\u201d
ISO 6164 tab. 2 (400 bar)

ØAL	Y	PJ	X1	Ød₃	w		d₁	t₁	t₁	p
mm	mm	mm	mm	mm	mm	mm		mm	mm	bar
40	82	122	40.5	10	24.7	± 0.25	M6	12.5 ¹⁾	10 ²⁾	400 ³⁾
50	97	122	48	10	24.7	± 0.25	M6	12.5 ¹⁾	12.5 ²⁾	400 ³⁾
63	111	135	57	13	29.7	± 0.25	M8	16 ¹⁾	16 ²⁾	400 ³⁾
80	123.5	148	69.5	13	29.7	± 0.25	M8	16 ¹⁾	16 ²⁾	400 ³⁾
100	133	173	81.5	19	35.4	± 0.25	M8	16 ¹⁾	16 ²⁾	400 ³⁾
125	157	197	100	19	35.4	± 0.25	M8	16 ¹⁾	16 ²⁾	400 ³⁾
140	162	227	109	25	43.8	± 0.25	M10	20 ¹⁾	20 ²⁾	400 ³⁾
160	181.5	242	128.5	25	43.8	± 0.25	M10	20 ¹⁾	20 ²⁾	400 ³⁾
180	194	264	142	32	51.6	± 0.25	M12	24 ¹⁾	24 ²⁾	400 ³⁾
200	220	278	148.5	32	51.6	± 0.25	M12	24 ¹⁾	24 ²⁾	400 ³⁾
220	244	326	171	38	60.1	± 0.25	M16	30 ¹⁾	30 ²⁾	400 ³⁾
250	257	326	192	38	60.1	± 0.25	M16	30 ¹⁾	30 ²⁾	400 ³⁾
280	290	375	218	38	60.1	± 0.25	M16	30 ¹⁾	30 ²⁾	400 ³⁾
320	282	391	240	51	69.3	± 0.25	M16	30 ¹⁾	30 ²⁾	400 ³⁾

¹⁾	Thread depth for seal design M, T, G, L, R, S and V
²⁾	Thread depth for seal design A and B
³⁾	Max. operating pressure for related flanges in bar

Subplates for valve mounting
SL and SV valves

Installation situation with MT4

NG6

NG10 and 20

NG30

Notice:

Porting pattern according to DIN 24340 form A and ISO 4401 (NG6) and form D and ISO 5781 (NG10; NG20 and NG30)

Note:

Valves, fittings and piping are not included in the scope of delivery!

Important notice:

Subplates for SL and SV valves (isolator valves)

Please note:

Seal designs T, G, L, R, S and V are not designed for the static holding function!

Subplates for valve mounting
SL and SV valves

							Plate dimensions							Port size, porting pattern						Position point Valve
ØAL	Valve size	PJ	EE	Minimum stroke	Minimum stroke for MT4	X0	L1	L4	L5	LG	b1	h1	h9	h2	A	X	Y	X3	X4	X1	X2
mm		mm		mm	mm	mm	mm	mm	mm	mm	mm	mm	mm	mm				mm	mm	mm	mm
40	6	121	G1/2	50	50	40.5	90	20	4	110	55	40	10	20	G1/2	G1/4	G1/4	21.5	21.5	65.5	15.5
50	6	121	G1/2	50	50	48	90	20	4	110	55	40	10	20	G1/2	G1/4	G1/4	21.5	21.5	65.5	15.5
63	6	134	G3/4	64	64	57	100	25	5	125	55	47	20	23.5	G3/4	G1/4	G1/4	21.5	21.5	70.5	15.5
63	10	134	G3/4	64	64	57	105	25	5	130	85	47	20	23.5	G3/4	G1/4	G1/4	21.4	21.4	73	33.3
80	6	151.5	G3/4	58	58	69.5	100	25	5	125	55	47	20	23.5	G3/4	G1/4	G1/4	21.5	21.5	70.5	15.5
80	10	151.5	G3/4	58	58	69.5	105	25	5	130	85	47	20	23.5	G3/4	G1/4	G1/4	21.4	21.4	73	33.3
100	10	172	G1	50	79	81.5	102	28	5	130	85	50	20	25	G1	G1/4	G1/4	21.4	21.4	70	33.3
125	10	201	G1	50	91	100	102	28	5	130	85	50	20	25	G1	G1/4	G1/4	21.4	21.4	70	33.3
125	20	201	G1	50	91	100	137	28	5	165	100	50	20	25	G1	G1/4	G1/4	20.8	39.7	92	39.7
140	10	223	G1 1/4	50	121	109	115	35	5	150	85	60	30	30	G1 1/4	G1/4	G1/4	21.4	21.4	80	33.3
140	20	223	G1 1/4	50	121	109	140	35	5	175	100	60	30	30	G1 1/4	G1/4	G1/4	20.8	39.7	95	39.7
160	10	238.5	G1 1/4	30 ¹⁾	142	128.5	115	35	5	150	85	60	30	30	G1 1/4	G1/4	G1/4	21.4	21.4	80	33.3
160	20	238.5	G1 1/4	30 ¹⁾	142	128.5	140	35	5	175	100	60	30	30	G1 1/4	G1/4	G1/4	20.8	39.7	95	39.7
180	10	264	G1 1/4	30 ¹⁾	158	142	120	40	5	160	85	60	30	30	G1 1/4	G1/4	G1/4	21.4	21.4	90	33.3
	20	264	G1 1/4	30 ¹⁾	158	142	135	50	5	185	100	60	30	30	G1 1/4	G1/4	G1/4	20.8	39.7	105	39.7
	30	264	G1 1/4	30 ¹⁾	158	142	160	50	5	210	125	60	30	30	G1 1/4	G1/4	G1/4	24.6	59.6	130	48.4
200	10	278	G1 1/4	30 ¹⁾	204	148.5	120	40	5	160	85	60	30	30	G1 1/4	G1/4	G1/4	21.4	21.4	90	33.3
	20	278	G1 1/4	30 ¹⁾	204	148.5	135	50	5	185	100	60	30	30	G1 1/4	G1/4	G1/4	20.8	39.7	105	39.7
	30	278	G1 1/4	30 ¹⁾	204	148.5	160	50	5	210	125	60	30	30	G1 1/4	G1/4	G1/4	24.6	59.6	130	48.4

¹⁾	For type of mounting \u201cMS2\u201d, observe the X_min values of the dimension tables

ØAL	=	Piston Ø

The minimum stroke only applies to the following connection situation!

Subplates for valve mounting
Directional and high-response valves

Installation situation with MT4

NG6

Size 10

NG16

NG25

Notice:

Porting pattern according to DIN 24340 form A and ISO 4401

With larger stroke lengths and depending on the piston diameter, the pipeline is mounted at the cylinder pipe using pipe supports. A maximum of two sandwich plates is admissible.

Subplates for valve mounting
Directional and high-response valves

					Plate and piping dimensions																	Port size, porting pattern																Position point Valve
ØAL	Valve size	PJ	EE	Minimum stroke	L1	L4	L5	H1	H2	H2 for MT4	SW1	ØRa	b1	h1	LG	HG	HG for MT4	b2	X0	h7	h9	P	X3	h3	T	X4	h4	X	X5	h5	Y	X6	h6	MA	MB	X8	h8	X1	X2
							max.
mm		mm		mm	mm	mm	mm	mm	mm	mm	mm	mm	mm	mm	mm	mm	mm	mm	mm	mm	mm		mm	mm		mm	mm		mm	mm		mm	mm			mm	mm	mm	mm
40	6	121	G1/2	242	90	20	4	96	60.5	70.5	30	16 x 2.5	65	40	110	80.5	90.5	32.5	40.5	20	10	-	21.5	20	G1/2	21.5	20	-	-	-	-	-	-	-	-	-	-	25	15.5
50	6	121	G1/2	242	90	20	4	103.5	68	78	30	16 x 2.5	65	40	110	88	98	32.5	48	20	10	-	21.5	20	G1/2	21.5	20	-	-	-	-	-	-	-	-	-	-	25	15.5
63	6	134	G3/4	276	100	25	5	121.5	80.5	100.5	36	20 x 3	75	47	125	104	124	37.5	57	23.5	20	G3/4	21.5	23.5	G3/4	21.5	23.5	-	-	-	-	-	-	-	-	-	-	30	15.5
63	10	134	G3/4	301	125	25	5	121.5	80	100	36	20 x 3	90	70	150	127	147	45	57	23	20	G3/4	27	33	G3/4	3.5	33	G1/4	18	47	G1/4	65	47	G1/4	G1/4	60	17	45	21.4
80	6	151.5	G3/4	259	100	25	5	134.5	93	113	36	20 x 3	75	47	125	116.5	136.5	37.5	69.5	23.5	20	G3/4	21.5	23.5	G3/4	21.5	23.5	-	-	-	-	-	-	-	-	-	-	30	15.5
80	10	151.5	G3/4	284	125	25	5	134.5	92.5	112.5	36	20 x 3	90	70	150	139.5	159.5	45	69.5	23	20	G3/4	27	33	G3/4	3.5	33	G1/4	18	47	G1/4	65	47	G1/4	G1/4	60	17	45	21.4
100	10	172	G1	317	132	28	5	155	111.5	131.5	46	25 x 4	90	80	160	161.5	181.5	45	81.5	30	20	-	27	30	G1	3.5	40	G1/4	18	57	G1/4	65	57	G1/4	G1/4	58	20	52	21.4
125	10	201	G1	288	132	28	5	173.5	130	150	46	25 x 4	90	80	160	180	200	45	100	30	20	-	27	30	G1	3.5	40	G1/4	18	57	G1/4	65	57	G1/4	G1/4	58	20	52	21.4
125	16	201	G1	318	162	28	5	173.5	140	160	46	25 x 4	115	90	190	190	210	57.5	100	40	20	-	50	26	G1	17	25	G1/4	76.5	60	G1/4	88	70	G1/4	G1/4	88	35	37	37.5
140	10	223	G1 1/4	315	135	35	5	188	144	174	50	30 x 5	105	95	170	204	234	52.5	109	35	30	G1 1/4	27	35	G1 1/4	3.5	45	G1/4	20	72	G1/4	65	72	G1/4	G1/4	55	25	55	21.4
140	16	223	G1 1/4	355	175	35	5	188	154	184	50	30 x 5	120	100	210	209	239	60	109	45	30	G1 1/4	52	32	G1 1/4	15	32	G1/4	76.5	75	G1/4	88	80	G1/4	G1/4	88	40	45	40
160	10	238.5	G1 1/4	300	135	35	5	208	163.5	193.5	50	30 x 5	105	95	170	223.5	253.5	52.5	128.5	35	30	G1 1/4	27	35	G1 1/4	3.5	45	G1/4	20	72	G1/4	65	72	G1/4	G1/4	55	25	55	21.4
160	16	238.5	G1 1/4	340	175	35	5	208	173.5	203.5	50	30 x 5	120	100	210	228.5	258.5	60	128.5	45	30	G1 1/4	52	32	G1 1/4	15	32	G1/4	76.5	75	G1/4	88	80	G1/4	G1/4	88	40	45	40
180	10	264	G1 1/4	289	150	40	5	222	177	207	50	30 x 5	105	95	190	237	267	52.5	142	35	30	G1 1/4	27	35	G1 1/4	3.5	45	G1/4	20	72	G1/4	62	72	G1/4	G1/4	55	25	60	21.4
	16	264	G1 1/4	319	180	40	5	222	192	222	50	30 x 5	125	105	220	247	277	62.5	142	50	30	G1 1/4	57	35	G1 1/4	15	34	G1/4	76.5	80	G1/4	86	85	G1/4	G1/4	86	45	50	40
	25	264	G1 1/4	339	200	50	0	222	197	227	50	30 x 5	155	110	250	252	282	77.5	142	55	30	G1 1/4	77	42	G1 1/4	29.4	32	G1/4	17.5	90	G1/4	112.7	90	G1/4	G1/4	110	50	50	52.1
200	10	278	G1 1/4	275	150	40	5	229	183.5	213.5	50	30 x 5	105	95	190	243.5	273.5	52.5	148.5	35	30	G1 1/4	27	35	G1 1/4	3.5	45	G1/4	20	72	G1/4	62	72	G1/4	G1/4	55	25	60	21.4
	16	278	G1 1/4	305	180	40	5	229	198.5	228.5	50	30 x 5	125	105	220	253.5	283.5	62.5	148.5	50	30	G1 1/4	57	35	G1 1/4	15	34	G1/4	76.5	80	G1/4	86	58	G1/4	G1/4	86	45	50	40
	25	278	G1 1/4	325	200	50	0	229	203.5	233.5	50	30 x 5	155	110	250	258.5	288.5	77.5	148.5	55	30	G1 1/4	77	42	G1 1/4	29.4	32	G1/4	17.5	90	G1/4	112.7	90	G1/4	G1/4	110	50	50	52.1

ØAL	=	Piston Ø

Throttle valve

ØAL	mm	40	50	63	80	100	125	140	160	180	200	220	250	280	320
Protrusion A ¹⁾	mm	1	0									9.5	0
Nominal width	mm	4			5		8					20

¹⁾	Throttle valve only with end position cushioning "E" (180° for bleeding) Protrusion A in closed condition

ØAL	=	Piston Ø

¹⁾	Throttle valve only with end position cushioning "E" (180° for bleeding) Protrusion A in closed condition

Proximity switch

¹⁾	The proximity switch is always located opposite of the line connection

Installation space for mating connector

¹⁾	Piston Ø 220 ... 320 mm Angled mating connector not possible

Proximity switch

ØAL	ØMM	PL	L7	X3	X4	X5
mm	mm	mm	mm	mm	mm	mm
40	25 / 28	112	87	94	170	125
50	32 / 36	110	103	98	175	130
63	40 / 45	125	116	103	180	135
80	50 / 56	138	128.5	108	185	140
100	63 / 70	161	139	116	195	150
125	80 / 90	189	161	126	205	160
140	90 / 100	209	171	146	225	180
160	100 / 110	228	188.5	151	230	185
180	110 / 125	254	199	159	235	190
200	125 / 140	264	227	166	245	200
220	140 / 160	310	252	177 ¹⁾	255	-
250	160 / 180	310	265	187 ¹⁾	265	-
280	180 / 200	369	293	199 ¹⁾	275	-
320	200 / 220	375	290	209 ¹⁾	285	-

¹⁾	Piston Ø 220 ... 320 mm Proximity switch not protruding

Kinking

For the admissible stroke length with flexibly guided load and a factor of 3.5 for safety against kinking, please refer to the relevant table. For other installation positions of the cylinder, the admissible stroke length must be interpolated.

Admissible stroke length for non-guided load on request.

Kinking calculations are carried out according to the following formulas:

1. Calculation according to Euler

if λ > λ_g

2. Calculation according to Tetmajer

if λ ≤ λ_g

Explanation

E	=	module of elasticity in N/mm²
E	=	2.1 x 105 for steel
l	=	Geometrical moment of inertia in mm⁴
l		for circular cross-section
v	=	3.5 (safety factor)
L_K	=	free kinking length in mm (dependent on type of mounting; see sketches A, B, C)
d	=	Piston rod Ø in mm
λ	=	Slenderness ratio
λ	=
R_e	=	Yield strength of the piston rod material

Influence of the type of mounting on the kinking length:

Admissible stroke length
Type of mounting MP3, MP5

ØAL	ØMM	admissible stroke length with
		100 bar			160 bar			250 bar
		0°	45°	90°	0°	45°	90°	0°	45°	90°
mm	mm	mm	mm	mm	mm	mm	mm	mm	mm	mm
40	25	195	200	215	130	135	140	40	45	55
40	28	385	400	445	295	300	320	215	220	225
50	32	380	390	430	280	285	300	195	200	205
50	36	505	525	595	395	405	430	290	295	305
63	40	480	500	550	365	370	385	255	260	265
63	45	640	660	750	505	515	550	380	385	395
80	50	590	615	690	455	465	495	330	335	345
80	56	765	800	930	615	630	385	470	475	495
100	63	750	780	910	595	610	660	445	455	470
100	70	940	985	1195	775	800	885	605	615	650
125	80	970	1015	1200	780	805	880	595	605	635
125	90	1235	1300	1610	1030	1070	1200	825	840	895
140	90	1075	1130	1360	875	905	1000	675	685	725
140	100	1335	1405	1770	1120	1165	1325	900	920	985
160	100	1175	1230	1480	955	985	1085	735	750	785
160	110	1430	1500	1875	1195	1240	1400	955	975	1040
180	110	1250	1310	1570	1010	1045	1150	775	790	830
180	125	1620	1710	2160	1365	1420	1620	1100	1125	1205
200	125	1435	1510	1860	1180	1220	1365	915	935	990
200	140	1795	1900	2450	1525	1590	1840	1240	1270	1370
220	140	1620	1710	2180	1360	1415	1630	1090	1120	1200
220	160	2075	2200	3000	1810	1890	2280	1510	1560	1730
250	160	1805	1910	2490	1520	1590	1850	1220	1250	1360
250	180	2250	2395	3300	1960	2060	2500	1630	1690	1880
280	180	2075	2200	2900	1775	1880	2170	1450	1490	1620
280	200	2510	2670	3700	2200	2310	2820	1850	1920	2140
320	200	2135	2270	3030	1820	1900	2260	1470	1510	1660
320	220	2550	2720	3820	2230	2340	2880	1860	1930	2170

Installation position

¹⁾	Adm. stroke length

Admissible stroke length
Type of mounting MF3

ØAL	ØMM	admissible stroke length with
		100 bar			160 bar			250 bar
		0°	45°	90°	0°	45°	90°	0°	45°	90°
mm		mm	mm	mm	mm	mm	mm	mm	mm	mm
40	25 mm / -	895	915	980	730	735	760	440	450	510
40	28 mm / -	1400	1415	1630	1180	1205	1275	970	980	1010
50	32 mm / -	1440	1490	1670	1210	1230	1300	985	995	1025
50	36 mm / -	1760	1830	2000	1510	1545	1675	1255	1270	1320
63	40 mm / -	1735	1800	2000	1475	1510	1620	1215	1230	1270
63	45 mm / -	2000	2000	2000	1830	1880	2080	1540	1560	1640
80	50 mm / -	2000	2000	2000	1810	1850	1995	1495	1515	1570
80	56 mm / -	2000	2000	2000	2000	2000	2000	1870	1900	2000
100	63 mm / -	2580	2690	3000	2235	2300	2550	1875	1910	2010
100	70 mm / -	3000	3000	3000	2690	2780	3000	2300	2350	2520
125	80 mm / -	3000	3000	3000	2840	2930	3000	2400	2450	2590
125	90 mm / -	3000	3000	3000	3000	3000	3000	3000	3000	3000
140	90 mm / -	3000	3000	3000	3000	3000	3000	2700	2760	2950
140	100 mm / -	3000	3000	3000	3000	3000	3000	3000	3000	3000
160	100 mm / -	3000	3000	3000	3000	3000	3000	2920	2980	3000
160	110 mm / -	3000	3000	3000	3000	3000	3000	3000	3000	3000
180	110 mm / -	3000	3000	3000	3000	3000	3000	3000	3000	3000
180	125 mm / -	3000	3000	3000	3000	3000	3000	3000	3000	3000
200	125 mm / -	3000	3000	3000	3000	3000	3000	3000	3000	3000
200	140 mm / -	3000	3000	3000	3000	3000	3000	3000	3000	3000
220	140 mm / -	5400	5680	6000	4800	4980	5780	4120	4220	4560
220	160 mm / -	6000	6000	6000	5820	6000	6000	5150	5330	6000
250	160 mm / -	5850	6000	6000	5270	5500	6000	4600	4740	5250
250	180 mm / -	6000	6000	6000	6000	6000	6000	5650	5850	6000
280	180 mm / -	6000	6000	6000	6000	6000	6000	5270	5420	5970
280	200 mm / -	6000	6000	6000	6000	6000	6000	6000	6000	6000
320	200 mm / -	6000	6000	6000	6000	6000	6000	5950	6000	6000
320	220 mm / -	6000	6000	6000	6000	6000	6000	6000	6000	6000

Installation position

¹⁾	Adm. stroke length

Admissible stroke length
Type of mounting MF4

ØAL	ØMM	admissible stroke length with
		100 bar			160 bar			250 bar
		0°	45°	90°	0°	45°	90°	0°	45°	90°
mm	mm	mm	mm	mm	mm	mm	mm	mm	mm	mm
40	25	325	340	370	245	250	260	105	110	140
40	28	565	590	695	465	475	520	365	370	385
50	32	600	625	715	485	495	530	370	375	390
50	36	755	790	950	630	650	715	505	515	540
63	40	730	765	905	600	615	675	470	480	500
63	45	920	965	1190	780	805	905	630	645	685
80	50	910	950	1130	750	775	845	595	605	630
80	56	1125	1185	1470	960	990	1120	785	800	850
100	63	1120	1175	1460	945	980	1105	770	785	835
100	70	1350	1430	1860	1175	1220	1420	980	1000	1090
125	80	1430	1510	1910	1225	1270	1450	1000	1025	1100
125	90	1750	1855	2490	1540	1610	1910	1300	1340	1470
140	90	1585	1675	2170	1370	1425	1650	1135	1165	1260
140	100	1895	2010	2750	1675	1755	2110	1425	1470	1630
160	100	1725	1820	2340	1490	1545	1780	1230	1260	1360
160	110	2030	2150	2900	1785	1870	2230	1510	1560	1720
180	110	1855	1960	2510	1595	1660	1910	1315	1350	1450
180	125	2300	2440	3350	2040	2130	2580	1735	1790	1990
200	125	2105	2230	2950	1830	1910	2250	1530	1570	1715
200	140	2535	2700	3000	2260	2370	2920	1940	2010	2255
220	140	2250	2400	3350	1990	2090	2550	1685	1740	1950
220	160	2800	2990	4500	2530	2680	3480	2220	2310	2700
250	160	2600	2770	3900	2310	2430	3000	1975	2040	2300
250	180	3130	3350	5050	2840	3000	3910	2500	2600	3040
280	180	2850	3050	4400	2550	2680	3370	2190	2270	2600
280	200	3370	3610	5550	3070	3250	4300	2700	2820	3330
320	200	3070	3270	4750	2750	2890	3650	2150	2460	2810
320	220	3560	3820	5850	3250	3430	4550	2860	2980	3530

Installation position

¹⁾	Adm. stroke length

Admissible stroke length
Type of mounting MT4

ØAL	ØMM	admissible stroke length with
		100 bar			160 bar			250 bar
		0°	45°	90°	0°	45°	90°	0°	45°	90°
mm		mm	mm	mm	mm	mm	mm	mm	mm	mm
40	25 mm / -	340	345	365	250	255	260	130	135	145
40	28 mm / -	590	605	665	470	480	500	365	370	375
50	32 mm / -	600	615	670	470	480	495	355	360	365
50	36 mm / -	770	795	890	625	635	670	485	490	505
63	40 mm / -	740	765	845	590	600	630	450	455	465
63	45 mm / -	940	975	1115	770	790	845	610	620	640
80	50 mm / -	920	950	1055	735	750	790	570	575	590
80	56 mm / -	1155	1195	1375	950	975	1045	755	765	790
100	63 mm / -	1145	1190	1365	940	960	1030	740	750	775
100	70 mm / -	1400	1460	1740	1180	1210	1330	955	970	1015
125	80 mm / -	1470	1530	1780	1220	1250	1350	970	985	1020
125	90 mm / -	1820	1910	2320	1550	1600	1780	1275	1300	1370
140	90 mm / -	1640	1710	2020	1370	1410	1540	1100	1120	1170
140	100 mm / -	1980	2080	2570	1700	1755	1970	1400	1430	1515
160	100 mm / -	1780	1850	2180	1485	1520	1660	1190	1210	1260
160	110 mm / -	2110	2210	2710	1800	1860	2080	1480	1510	1595
180	110 mm / -	1910	1990	2340	1590	1635	1780	1275	1295	1350
180	125 mm / -	2405	2530	3000	2065	2130	2400	1710	1740	1850
200	125 mm / -	2180	2280	2740	1840	1890	2090	1490	1510	1590
200	140 mm / -	2660	2800	3000	2300	2380	2720	1915	1960	2100
220	140 mm / -	2490	2510	3150	2050	2120	2400	1685	1720	1835
220	160 mm / -	3000	3170	4230	2640	2750	3260	2240	2310	2530
250	160 mm / -	2730	2870	3640	2350	2440	2790	1950	1990	2140
250	180 mm / -	3320	3520	4720	2940	3060	3650	2500	2570	2830
280	180 mm / -	3040	3210	4140	2640	2750	3170	2210	2260	2440
280	200 mm / -	3620	3840	5210	3210	3360	4040	2750	2830	3140
320	200 mm / -	3250	3430	4455	2820	2930	3410	2360	2420	2620
320	220 mm / -	3800	4030	5500	3370	3530	4250	2880	2970	3290

Installation position

¹⁾	Adm. stroke length

Admissible stroke length
Type of mounting MS2

ØAL	ØMM	admissible stroke length with
		100 bar			160 bar			250 bar
		0°	45°	90°	0°	45°	90°	0°	45°	90°
mm		mm	mm	mm	mm	mm	mm	mm	mm	mm
40	25 mm / -	825	840	885	645	650	665	370	375	410
40	28 mm / -	1305	1350	1535	1085	1110	1180	875	885	910
50	32 mm / -	1330	1375	1560	1095	1120	1190	875	885	910
50	36 mm / -	1645	1715	2030	1395	1430	1560	1140	1160	1210
63	40 mm / -	1610	1670	1950	1345	1380	1490	1085	1100	1145
63	45 mm / -	1980	2000	2000	1700	1750	1950	1410	1435	1510
80	50 mm / -	1980	2000	2000	1665	1710	1850	1350	1370	1425
80	56 mm / -	2000	2000	2000	2000	2000	2000	1730	1760	1860
100	63 mm / -	2420	2535	3000	2080	2140	2390	1720	1750	1850
100	70 mm / -	2880	3000	3000	2530	2630	3000	2140	2190	2360
125	80 mm / -	3000	3000	3000	2660	2750	3000	2220	2270	2410
125	90 mm / -	3000	3000	3000	3000	3000	3000	2810	2890	3000
140	90 mm / -	3000	3000	3000	2970	3000	3000	2490	2550	2740
140	100 mm / -	3000	3000	3000	3000	3000	3000	3000	3000	3000
160	100 mm / -	3000	3000	3000	3000	3000	3000	2690	2750	2950
160	110 mm / -	3000	3000	3000	3000	3000	3000	3000	3000	3000
180	110 mm / -	3000	3000	3000	3000	3000	3000	2890	2960	3000
180	125 mm / -	3000	3000	3000	3000	3000	3000	3000	3000	3000
200	125 mm / -	3000	3000	3000	3000	3000	3000	3000	3000	3000
200	140 mm / -	3000	3000	3000	3000	3000	3000	3000	3000	3000
220	140 mm / -	5090	5370	6000	4490	4670	5470	3820	3910	4260
220	160 mm / -	6000	6000	6000	5510	5800	6000	4850	5020	5750
250	160 mm / -	5520	5860	6000	4940	5170	6000	4270	4410	4920
250	180 mm / -	6000	6000	6000	6000	6000	6000	5320	5520	6000
280	180 mm / -	6000	6000	6000	5700	5960	6000	4930	5070	5630
280	200 mm / -	6000	6000	6000	6000	6000	6000	6000	6000	6000
320	200 mm / -	6000	6000	6000	5890	6000	6000	4750	5310	6000
320	220 mm / -	6000	6000	6000	6000	6000	6000	6000	6000	6000

Installation position

¹⁾	Adm. stroke length

With longer strokes, an extended guide and/or the use of guide rings may be reasonable for increasing the service life, depending on the respective case of application and installation position. Recommendation upon request.

ØAL	=	Piston Ø
ØMM	=	Piston rod Ø

Product Category

CDH2

Ordering code

Additional options

Ordering code

Additional options

general

Weight

Selection criteria for seals

Stroke velocity

Notices:

Project planning software ICS (Interactive Catalog System)

Diameters, areas, forces, flow

Tolerances according to DIN ISO 6022

Type of mounting MP3: Swivel eye at cylinder base

Type of mounting MP5: Self-aligning clevis at cylinder base

Type of mounting MF3: Round flange at the cylinder head

Type of mounting MF4: Round flange at the cylinder base

Type of mounting MT4: Trunnion

Type of mounting MS2: Foot mounting

Bleeding / measuring coupling

Proximity switch

Technical data proximity switch

Corrosivity categories

general

Weight

Selection criteria for seals

Stroke velocity

Notices:

Project planning software ICS (Interactive Catalog System)

Diameters, areas, forces, flow

Tolerances according to DIN ISO 6022

Type of mounting MP3: Swivel eye at cylinder base

Type of mounting MP5: Self-aligning clevis at cylinder base

Type of mounting MF3: Round flange at the cylinder head

Type of mounting MF4: Round flange at the cylinder base

Type of mounting MT4: Trunnion

Type of mounting MS2: Foot mounting

Bleeding / measuring coupling

Proximity switch

Technical data proximity switch

Corrosivity categories

Type of mounting MP3: Swivel eye at cylinder base

Type of mounting MP5: Self-aligning clevis at cylinder base

Type of mounting MF3: Round flange at the cylinder head

Type of mounting MF4: Round flange at the cylinder base

Type of mounting MT4: Trunnion

Type of mounting MS2: Foot mounting

Flange ports

Version \u201cF\u201dISO 6162-1 tab. 2 type 1 (200 \u2026 350 bar)(≙ SAE 3000 PSI)

Version \u201cK\u201dISO 6164 tab. 1 (250 bar)

Version \u201cD\u201dISO 6162-2 tab. 2 type 1 (400 bar) (≙ SAE 6000 PSI)

Version \u201cH\u201dISO 6164 tab. 2 (400 bar)

Subplates for valve mountingSL and SV valves

NG6

NG10 and 20

NG30

Subplates for valve mountingSL and SV valves

Subplates for valve mountingDirectional and high-response valves

NG6

Size 10

NG16

NG25

Subplates for valve mountingDirectional and high-response valves

Throttle valve

Proximity switch

Installation space for mating connector

Proximity switch

Type of mounting MP3: Swivel eye at cylinder base

Type of mounting MP5: Self-aligning clevis at cylinder base

Type of mounting MF3: Round flange at the cylinder head

Type of mounting MF4: Round flange at the cylinder base

Type of mounting MT4: Trunnion

Type of mounting MS2: Foot mounting

Flange ports

Version \u201cF\u201dISO 6162-1 tab. 2 type 1 (200 \u2026 350 bar)(≙ SAE 3000 PSI)

Version \u201cK\u201dISO 6164 tab. 1 (250 bar)

Version \u201cD\u201dISO 6162-2 tab. 2 type 1 (400 bar) (≙ SAE 6000 PSI)

Version \u201cH\u201dISO 6164 tab. 2 (400 bar)

Subplates for valve mountingSL and SV valves

Version \u201cF\u201d
ISO 6162-1 tab. 2 type 1 (200 \u2026 350 bar)(≙ SAE 3000 PSI)

Version \u201cK\u201d
ISO 6164 tab. 1 (250 bar)

Version \u201cD\u201d
ISO 6162-2 tab. 2 type 1 (400 bar) (≙ SAE 6000 PSI)

Version \u201cH\u201d
ISO 6164 tab. 2 (400 bar)

Subplates for valve mounting
SL and SV valves

Subplates for valve mounting
SL and SV valves

Subplates for valve mounting
Directional and high-response valves

Subplates for valve mounting
Directional and high-response valves

Version \u201cF\u201d
ISO 6162-1 tab. 2 type 1 (200 \u2026 350 bar)(≙ SAE 3000 PSI)

Version \u201cK\u201d
ISO 6164 tab. 1 (250 bar)

Version \u201cD\u201d
ISO 6162-2 tab. 2 type 1 (400 bar) (≙ SAE 6000 PSI)

Version \u201cH\u201d
ISO 6164 tab. 2 (400 bar)

Subplates for valve mounting
SL and SV valves

Subplates for valve mounting
SL and SV valves

Subplates for valve mounting
Directional and high-response valves

Subplates for valve mounting
Directional and high-response valves

Admissible stroke length
Type of mounting MP3, MP5

Admissible stroke length
Type of mounting MF3

Admissible stroke length
Type of mounting MF4

Admissible stroke length
Type of mounting MT4

Admissible stroke length
Type of mounting MS2

Admissible stroke length
Type of mounting MP3, MP5

Admissible stroke length
Type of mounting MF3

Admissible stroke length
Type of mounting MF4

Admissible stroke length
Type of mounting MT4

Admissible stroke length
Type of mounting MS2