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ENGINEERING YOUR SUCCESS.
aerospaceclimate controlelectromechanicalfiltrationfluid & gas handlinghydraulicspneumaticsprocess controlsealing & shielding
Pneumatic Actuator ProductsCylinders, Guided Cylinders and Rotary Actuators
Catalog 0900P-E
! WARNINGFAILURE OR IMPROPER SELECTION OR IMPROPER USE OF THE PRODUCTS AND/OR SYSTEMS DESCRIBED HEREIN OR RELATED ITEMS CAN CAUSE DEATH, PERSONAL INJURY AND PROPERTY DAMAGE.This document and other information from Parker Hannifin Corporation, its subsidiaries and authorized distributors provide product and/or system options for further investigation by users h aving technical expertise. It is important that you analyze all aspects of your application including consequences of any failure, and review the information concerning the product or system in the current product catalog. Due to the variety of operating conditions and applications for these products or systems, the user, through its own analysis and testing, is solely responsible for making the final selection of the products and systems and assuring that all performance, safety and warning requirements of the application are met.The products described herein, including without limitation, product features, specifications, designs, availability and pricing, are subject to change by Parker Hannifin Corporation and its subsidiaries at any time without notice.
Offer of SaleThe items described in this document are hereby offered for sale by Parker Hannifin Corporation, its subsidiaries or its autho-rized distributors. This offer and its acceptance are governed by the provisions stated on the separate page of this document entitled “Offer of Sale”.
Z-Profile Piston Seal Dynamic piston seal features two rounded micro sealing edges for maximum wear compensation and rounded grooves for retaining lubrication.
SensorsRecessed, flush position sensors available in PNP, NPN or REED styles.
ConstructionInnovative 3-piece bolted design.
PortsOptional NPTF or BSPP ports at no extra charge.
BumpersOptional bumpers provide noise reduction and impact resistance. Urethane for 12-25mm bore sizes, Hytrel® for 32-100mm bore sizes.
Unique Internal Transfer TubeProvides a passage that can be used for remote porting.
Rounded Lip Rod Wiper Seal Non-lube urethane rod seal provides dual function as rod seal and rod wiper to eliminate leakage and prevent contamination from entering the cylinder.
Piston RodStainless steel or hard chrome plated carbon steel piston rods (stainless steel standard on 25mm bore and under).
Mounting HolesCounter bored tapped or through holes for mounting.
Rod EndsFour standard piston rod ends to meet a variety of requirements.
Piston MagnetLocated behind the piston in a separate magnet carrier, the piston magnet is used for electronic piston sensing. (Increases cylinder body length.)
High Strength Rod BearingMultilayer PTFE with steel backing.
Extra Low Profile VersionThe Extra Low Profile Bearing Version allows us to provide the most compact cylinder possible. This bearing version is recommended for applications that require shorter stroke lengths or that are light duty. It is available in stroke lengths up to 50mm in the smaller bore sizes and 150 mm in the larger bore sizes.
Long Bearing VersionThe Long Bearing Version provides additional rod bearing and piston bearing support and also includes a magnetic piston with bearing strip for greater piston bearing support. This Long Bearing version is required for stroke lengths beyond the Extra Low Profile maximum stroke length and is recommended for higher duty applications.
BoreELP Bearing Version Long Bearing Version Single Acting Version
Min. Stroke* Max. Stroke Min. Stroke* Max. Stroke Standard Stroke
12 3 50 4 200 5,10
16 3 50 4 200 5,10
20 3 50 8 200 5,10
25 3 50 8 200 5,10
32 3 100 9 320 5,10
40 3 100 7 320 5,10
50 3 100 13 320 10, 20, 25
63 3 100 18 500 10, 20, 25
80 3 150 23 500 10, 20, 25
100 3 150 18 500 10, 20, 25
* Minimum Stroke for Double Rod cylinders: 12-63mm Bores is 5mm 80 &100mm Bores is 10mm
Piston Rod & Bearings
Extra Low Profile Rod Bearing
P Chrome Plated Steel Rod Not Available on 12-25mm Bores
Y Stainless Steel Rod Standard on 12-25mm Bores and Spring Extend Models
Long Rod Bearing 2
C Chrome Plated Steel Rod Not Available on 12-25mm Bores
A Stainless Steel Rod Standard on 12-25mm Bores and Spring Extend Models
Stroke in mm
Rod Threads
Inch 4 Male
9 Female
Metric 5 Male
6 Female
3 Special Rod End
Ports
BSPP
G Ported Each End
H Both Ports Head
J Both Ports Cap
K Both Ports Cap Face 3
NPTF(Not available on 12-25mm Bores)
N Ported Each End
M Both Ports Head
L Both Ports Cap
P Both Ports Cap Face 3
NOTES:1 Fitted with Mounting Accessory2 Magnetic Piston Option must be
specified along with Long Rod Bearing option to achieve Long Bearing Version
3 Porting Options ‘K’ and ‘P’ (Both ports cap face) not available with rear mountings
4 Single Acting Spring Extend available with stainless steel rod only.
5 For information regarding sensors, please refer to Electronic Sensors section.
6 Spring return is short bearing version only.
7 Bumper only available on head end for spring extend. Bumper only available on cap end for spring return.
For ordering purposes, when special options or common modifications are requested, the factory will assign a sequential part number in place of the model number.
Piston Rod 12mm to 25mm bores: Stainless Steel 32mm to 100mm bores: Chrome Plated Carbon Steel Std., Optional Stainless Steel (Stainless Steel std. on single-acting spring extend)Piston Rod Seal PolyurethanePiston Rod Bearing 2 Multilayer PTFE with Steel BackingEnd Covers Anodized Aluminum AlloyAssembly Cap Screws Stainless Steel / Zinc-Plated SteelO-Rings Nitrile Rubber, NBRCylinder Body Anodized Aluminum AlloyPiston Aluminum AlloyPiston Seal Nitrile Rubber, NBRMagnetic Piston Bearing 3 Brass (12-25mm) Nylon (32-100mm)Magnet Plastic Coated Magnetic MaterialBumpers PolyurethaneReturn Spring Chrome Silicon Wire
High Temperature OptionO-Rings Fluorocarbon, FPMPiston Rod Seal Fluorocarbon, FPMPiston Seal Fluorocarbon, FPM
Additional Data
Working Pressure Max.10 Bar AirStandard Temperature -20°C to +80°C -4°F to +176°FHigh Temperature Service -10°C to +121°C +14°F to 250°F
1 Dimensions not otherwise noted are listed in millimeters (mm) 2 Excludes 12-25mm bore Rod Style Y3 Magnetic Piston option is not available on Spring Extend models.
Spring Return Spring Extend
Single Acting CylindersBore(mm)
Return Loads Extend Loads Standard Stroke
Lengths(mm) 2
Max (lbs)
Min(lbs)
Max(lbs)
Min(lbs)
12 2.8 1.0 2.5 1.1 5,10
16 3.5 1.5 4.0 2.0 5,10
20 3.5 1.5 5.0 2.5 5,10
25 4.7 2.5 6.0 2.5 5,10
32 6.0 3.5 6.5 4.0 5,10
40 7.2 4.7 7.0 4.0 5,10
50 14.3 6.0 18.0 8.0 10, 20, 25
63 14.3 6.0 18.0 8.0 10, 20, 25
80 26.0 14.0 25.0 10.0 10, 20, 25
100 26.0 14.0 25.0 10.0 10, 20, 25
NOTES:1 Overall Length to be the same as double-acting models with
comparable bearing, piston and porting configuration.
2 Single-acting cylinders are available in standard stroke lengths. Custom stroke lengths are available upon request.
3 Spring Extend cylinders available with stainless steel rod only.
4 Magnetic Piston Option is not available on Spring Extend Models.
BoreDouble Acting* Single Acting**
Single Rod Double Rod
Spring Return
Spring Extend
12 1.4 2.0 – 1.0
16 1.6 2.0 0.6 1.0
20 2.2 3.0 0.7 1.5
25 2.2 3.0 0.7 1.5
32 1.0 1.0 – –
40 1.0 1.0 – –
50 0.8 0.8 – –
63 1.0 1.0 – –
80 0.8 0.8 – –
100 1.0 1.0 – –
* Bumpers at both ends** Bumpers at end opposite of spring only.
*Theoretical cylinder force at 600 kPa (6 bar).** Free air consumption per 10mm stroke length for an extend and retract stroke at 600 kPa (6 bar)
Front Profiles by Bore Size
To retract cylinder apply air to port #2To extend cylinder apply air to port #4For a double rod cylinder, pressurize port #2 to retract the piston rod into the head containing the ports.
*For 12mm to 16mm bores, although the location of ports #2 and #4 are reversed, porting functions shown above apply.
Bores 32-50mm Bores 63-100mmBores 12-25mm
Porting Configurations
Both Ports Cap Both Ports Head* Both Ports Cap Face
* For strokes less than ‘Min. Stroke’, only one bracket will be supplied at rod end.** Dimensions shown apply only for Rod End Styles 4, 6 and 9. For Rod End Style 5, please include the above length adjustment.Note: Foot Bracket mounting is not available with cap face porting
ELP Version Non-Magnetic ELP Version Magnetic Long Bearing VersionStyle 5 RodEnd LengthAdjustment
Both Ports Head ZF1*
Optional Porting
ZF2*
Both Ports Head ZF3*
Optional Porting
ZF4*
Both Ports HeadZF5*
Optional Porting
ZF6*
12 26 31 37 42 42.5 47.5 1.5
16 27.5 32.5 38.5 43.5 44.5 49.5 2
20 32 36.5 42 46.5 48 52.5 2
25 35.5 41.5 45.5 51.5 49.5 55.5 2.5
32 43.5 51.5 52.5 60.5 55 63 1
40 44.5 52.5 54.5 62.5 56.5 64.5 1
50 49.5 55.5 58.5 64.5 60.5 66.5 -0.5
63 51 57.5 63 68.5 66 71.5 -0.5
80 64 73 74.5 83.5 74.5 83.5 1
100 71.5 80 86 94.5 86 94.5 -1
Catalog 0900P-E
Dimensions – Style H Mounting
ZF1-6* + StrokeMF
E R
TF
UF
(4) ØFBE
TF
UF
(2) ØFB
Bores 32-100mm Bores 12-25mm
Rear Flange Mounting – Style H
Please note bearing, piston and porting configuration for selecting proper dimensions.
Note: Rear Flange mounting is not available with cap face porting.* Dimensions shown apply only for Rod End Styles 4, 6 and 9.For Rod End Style 5, please include the above length adjustment.
Please note bearing, piston and porting configuration for selecting proper dimensions.
* Dimensions shown apply only for Rod End Styles 4, 6 and 9. For Rod End Style 5, please include the above length adjustment.** Single Clevis Kit can be used as mounting bracket for double clevis cylinders. Double Clevis Kit can be used as mounting kit for single clevis cylinders.Note: Rear Clevis mounts are not available with cap face port.
Heads Ported at Each End or One EndRefer to “Single Rod” (pages E6-E9) for dimensions not listed below. Both rods will be supplied with same rod ends unless called out as special.
Style J
Bore
Basic Cylinder – Style C
ELP Version Non-Magnetic ELP Version Magnetic Long Bearing Version
BoreELP Version Non-Magnetic ELP Version Magnetic Long Bearing Version
SA7 XH3Min.*
Stroke SA8 XH4Min.*
Stroke SA9 XH5Min.*
Stroke
12 10 49 5 28 67 5 33.5 72.5 5
16 11.5 50.5 5 28 67 5 34.5 73.5 5
20 12 53 8 26 67 8 34.5 75.5 8
25 13.5 58.5 8 23.5 68.5 5 31.5 76.5 8
32 20.5 70.5 8 29.5 80 5 34.5 84.5 9
40 21.5 71.5 7 31.5 81.5 5 35.5 85.5 12
50 15.5 74.5 12 24.5 83.5 10 28.5 87.5 20
63 13.5 75.5 20 25.5 87.5 10 31.5 93.5 20
80 22 92 23 32.5 102.5 15 32.5 102.5 25
100 23 101 23 37.5 115.5 15 37.5 115.5 25
Please note bearing, piston and porting configuration for selecting proper dimensions.
Bore
Rod End Dimensions
WF WH
Styles4, 6, 9
Style 5
Styles4, 6, 9
Style5
12 13.5 15 3.5 5
16 13.5 15.5 3.5 5.5
20 14.5 16.5 4.5 6.5
25 15 17.5 5 7.5
32 17 18 7 8
40 17 18 7 8
50 18 17.5 8 7.5
63 18 17.5 8 7.5
80 20 21 10 11
100 22 21 12 11
WF WF + Stroke
SA7-9*+ Stroke
XH3-5* + 2x Stroke
* Note: Please consult factory for cylinders that require shorter than minimum stroke length listed above.
Foot Mounting – Style F
Heads Ported at Each End or One EndRefer to “Single Rod” (pages E6-E9) for dimensions not listed below. Both rods will be supplied with same rod ends unless called out as special.
Dimensions ................................................................ E28-E31Mounting Dimensions ................................................ E32-E33Double Rod Style Dimensions ................................... E34-E35Mounting and Service Kits .................................................E36
Flush Sensor Grooveprovides protection anda “clean” design.
Three piece bolted constructionallows for quick servicing.
Internal Transfer Tube allows forflexible porting, providing space savings.
NPT, BSPP, or BSPT Portsoffer flexibility.
Standard and custommounting hole configurationavailable.Anodized, smooth aluminum construction
provides superior corrosion resistance.
“Long Bearing” and Magnetic Piston providemaximum bearing support for increasedload carrying capability.
P1M Series Tooling Plate Flexible Porting Options
Double Rod, Both Ports Cap (Radial)
Both Ports Head* Head and Cap Ported (Radial)
Double Rod, Both Ports Head*
Double Rod, Head and Cap Ported (Radial)
To retract cylinder, apply air to port #2.
To extend cylinder, apply air to port #4.
* Both Ports Head [BSPP ports (M5) for 12-25mm bores and 1/8" NPTF ports for 32-50mm bores] is the standard porting configuration for the P1M Tooling Plate Cylinder. Alternate porting options are available at an additional cost.
1 Porting options K, P, and T are not available with rear mountings.
2 When selecting the mount, stroke lengths below 10mm will not receive a head foot bracket.
3 Special Tooling Pate configuration.
4 When ordering double rod style cylinders, please be clear as to which end of the cylinder the tooling plate is to be incorporated as related to porting. The standard rod end configuration for Rod End # 2 (Non Tooling Plate end) is a designator # 6, metric female. Alternate rod ends are available and please consult Section A, P1M Cylinders for how to order.
5 Bumpers for this option are polyurethane. Piston, rod, and body end seals are fluorocarbon. Please review the following specification page for additional information.
6 For information regarding sensors, please refer to Electronic Sensors section.
7 Not available for 12-25mm bores.
Minimum / Maximum Stroke Lengths (mm)
Bore Size
Minimum Stroke Maximum Stroke
Single Rod Double Rod Single or Double Rod
12 5 5 60
16 5 5 70
20 5 8 85
25 5 8 85
32 5 9 100
40 5 12 100
50 5 20 100
C F D M A 6 N
Cylinder Style
C Basic, no mountings
H Rear Flange 1
F Foot Mount 2
Cylinder Option
F Guided Tool Plate
G Special MTO Tooling Plate 3
B Blank Tooling Plate
Function
D Double Acting
K Double Acting, Double Rod 4
Stroke in mm
Port Type & Location
BSPP
G Head & Cap Radial
H Both in Head
J Both in Cap Radial
K Both in Cap Axial
NPTF 7
N Head & Cap Radial
M Both in Head
L Both in Cap Radial
P Both in Cap Axial
BSPT 7
Q Head & Cap Radial
R Both in Head
S Both in Cap Radial
T Both in Cap Axial
Rod Threads
6 Metric Female
3 Special 4
Piston Rod & Bearings
A Long Bearing Stainless Steel Rod (standard for 12-25mm bores)
C Long Bearing Chrome Plated Rod (N/A for 12-25mm bores)
• Bumpers: Polyurethane (12-25mm bores) or Hytrel® (32-50mm bores)
High Temperature/Chemical CompatibilitySeal Option Material*• O-Rings: Fluorocarbon, FPM
• Piston Rod Seal: Fluorocarbon, FPM
• Piston Seal: Fluorocarbon, FPM
• Bumpers: Polyurethane (12-25mm bores) or Hytrel® (32-50mm bores)* Option intended for limited exposure to elevated temperatures over
80°C, or 176°F. Option is primarily for applications which subject the cylinder to fluids and or chemicals that have an adverse effect on external seals. If continued exposure to elevated temperatures is required, please consult the Actuator Division for alternative options.
The following graphs represent maximum loading capacities for the standard piston option. Use of the standard piston option provides space savings by reducing the piston thickness, thus reducing overall length. Please review the following graphs to determine if the application load falls into acceptable operating
ranges. In the event that the induced load falls out of the acceptable operating range, you may either increase the bore size or incorporate a magnetic piston for increased load capacity. For information regarding magnetic piston load carrying capability, please review the following page.
Catalog 0900P-E
Performance Data
(SIDE LOAD)
P1M Series Tooling Plate Performance Data – Standard Piston
The following graph represents typical tooling plate deflection for P1M Tooling Plate Cylinders. The amount of tooling plate deflection is dependent on induced application load and the working stroke length of the
cylinder. Depicted deflection is typical of a cylinder operating within the allowable side load and maximum allowable moment ranges per a given bore size and piston option.
Catalog 0900P-E
Performance Data
P1M Series Tooling Plate Performance Data – Tooling Plate Deflection
* Both Ports Head [BSPP ports (M5) for 12-25mm bores and 1/8" NPTF ports for 32-50mm bores] is the standard porting configuration for the P1M Tooling Plate Cylinder. Alternate porting options are available at an additional cost.
Note: Stroke lengths below 10mm do not receive a head foot bracket. Corner thru holes cannot be used with Foot Mount if fasteners are inserted from Tooling Plate inside face (interference).
Rear Flange Mounting Kits can be ordered assembled to the cylinder or separately as needed. Please refer to the How To Order Code section to order the rear flange assembled to the cylinder. For separate mounting kits, please refer to page E36 for the proper kit per bore size.
Rear Flange Mount
Bore E FB MF R S TF U UF W WH
12 25 4.5 5.5 — 6 45 25.4 55 14 3.5
16 30 4.5 5.5 — 6 45 28.6 55 20 3.5
20 39 6.5 8 — 6.9 50.5 34.9 62 27 4.5
25 42 6.5 8 — 8.3 53 39 65 27 5
32 48 5.5 8 34 8.3 58 44.5 68 30 7
40 54 5.5 8 40 8.3 66 50.8 76 30 7
50 67 6.5 9 50 12.1 79 63.5 90 42.8 8
Bore
Both Ports Head Hand and Cap Ported (Radial) Both Ports Cap (Radial)
Standard Piston Magnetic Piston Standard Piston Magnetic Piston Standard Piston Magnetic Piston
The double rod dimensions differ from, or are in addition to, those for single rod cylinders depicted on previous pages.
To determine dimensions for a double rod cylinder, first refer to the desired single rod porting style cylinder configuration you wish to incorporate on preceding pages of this catalog. After selecting the necessary dimensions from that drawing, return to this page and supplement the single rod dimensions with those shown on these dimensional tables.
Note: Double rod end 2 will have a Short Bearing head as standard.
Style F - Foot Mount 2 12mm 12mm 18mm 18mm 20mm 20mm 25mm
Style H - Rear Flange Mount 2 12mm 12mm 18mm 18mm 20mm 20mm 25mm
Ported Cap (Ports G, J, K, N, L, P Q, S, T)
Style F - Foot Mount 2 20mm 20mm 23mm 23mm 30mm 30mm 30mm
Style H - Rear Flange Mount 2 20mm 20mm 23mm 23mm 30mm 30mm 30mm
*Use cylinder assembly fasteners to assemble front foot mount options.
Short = Stroke lengths <10mm and without magnet.Std. = Stroke lengths longer than or equal to 10mm or with magnet option.
1. Determine the bore size, stroke, porting and mounting configuration of the cylinder.2. Select the appropriate thread length fastener for both the head and cap (end cover)3. Use a quantity of (2) each to assemble mounts to the respective end covers.4. Ensure sufficient thread length engagement (1-1.5 x thread diameter) into mating thread.
Example:40mm bore, 15mm stroke, M porting, foot mount Head assembly fastener = 30mm thread length Cap assembly fastener = 20mm thread length (use quantity of 2 each)
ContentsFeatures and Benefits .......................................................E38Ordering Information..........................................................E39Cylinder Specifications ......................................................E40Performance Data ..............................................................E41
* Both Ports Head (NPT) is the standard porting configuration for the P1M Swing Clamp Cylinder. Alternate porting options are available at an additional cost.
To retract cylinder, apply air to port #2. To extend cylinder, apply air to port #4.
1 Cylinder with mounting fitted2 Designator #3 should be selected for special rod ends only. When selecting this option, please provide rod style (male or female), thread pitch, thread depth, and wrench flat dimension.3 Both Ports Head NPT is the standard porting arrangement for this cylinder. Alternate porting arrangements are available at an additional cost. 4 Bumpers for this option are polyurethane. Piston, rod and body end seals are fluorocarbon. Please review the following specification page for additional information. 5 Designator J should be selected for cylinders that require a special option not covered in catalog. 6 See specification table for stroke lengths available per a given bore size. Note: For sensor specifications and part numbers, please refer to the Electronic Sensors section.
P1M 032 C H F M C 6 M 020
Cylinder Style
C Basic, no mounting
H Rear Flange 1
K Clamp Arm 1
L Rear Flange & Clamp Arm 1
Cylinder Option
H Swing Clamp
J Swing Clamp Special (MTO) 5
Function
F Right Hand Rotation
L Left Hand Rotation
Stroke in mm 6
Port Type & Location
BSPP “G” Threads
G Head & Cap Radial
H Both in Head
J Both in Cap Radial
K Both in Cap Axial
NPT Threads
N Head & Cap Radial
M Both in Head 3
L Both in Cap Radial
P Both in Cap Axial
BSPT “R” Threads
Q Head & Cap Radial
R Both in Head
S Both in Cap Radial
T Both in Cap Axial
Rod Threads
6 Metric Female
3 Special 2
Piston Rod & Bearings
C Chrome Plated Carbon Steel
Bumpers, Magnets & Seals
B No Magnet, Bumpers, Standard Seals
F No Magnet, Bumpers, Fluorocarbon Seals 4
M Magnetic Piston, Bumpers, Std. Seals
V Magnetic Piston, Bumpers, Fluorocarbon Seals 4
Bore Size
032 32mm
040 40mm
050 50mm
Catalog 0900P-E
Ordering Information
Service kits of expendable parts for fluid power cylinders are stocked in principal industrial locations across the U.S.A. and other countries. For prompt delivery and complete information, contact your nearest distributor.
Cylinder Specifications• Bore Sizes: 32, 40 and 50mm• Maximum Operating Pressure: 10 Bar or 145 PSI• Standard Operating Temperature: -20°C to +80°C or -4°F to +176°F• Optional High Temperature: -10°C to +121°C or +14°F to +250°F
Material Specifications• Piston Rod: Hard Chrome Plated Steel, 100,000 PSI Yield• Piston Rod Bearing: Stress Proof Steel• Piston Rod Seal: Polyurethane• Outboard Rotating Mechanism Cover: 2011 T3 Aluminum• End Covers: Black Anodized Aluminum• End Cover Fasteners: Zinc Plated Carbon Steel• Cylinder Body: Clear Anodized Aluminum• O-Rings: Nitrile Rubber, NBR• Piston: Aluminum Alloy• Piston Seal: Nitrile Rubber, NBR• Magnet: Plastic Coated Magnetic Material• Bumpers: Polyurethane
High Temperature Seal Option Material*• End Cover O-Rings: Fluorocarbon, FPM• Piston Rod Seal: Fluorocarbon, FPM• Piston Seal: Fluorocarbon, FPM* Option intended for limited exposure to temperatures over 80°C, or 176°F.
Option is primarily for applications which subject the cylinder to fluids and or chemicals that have an adverse effect on external seals. If continued exposure to elevated temperatures is required, please consult the Cylinder Division for alternative options.
The following graph represents maximum clamp arm lengths per a given bore and operating pressure. Care should be taken not to exceed maximum operating limits outlined in this graph.
Guidelines for Custom Clamp Arms
0
25
50
75
100
125
150
175
200
225
250
0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0
Arm
Len
gth
(m
m)
32mm & 40mm Bores
50mm Bore
Pressure (MPa)
0.000
0.005
0.010
0.015
0.020
0.025
0.030
20 40 60 80 100 120 140 160 180 200
32mm & 40mm Bores
50mm Bore
Cylinder Speed (mm/s)
Mo
men
t o
f In
erti
a (k
g-m
2 )
The following graph represents maximum operating speeds per a given inertia moment when incorporating a custom clamp arm. Exceeding the parameters outlined in the graph will lead to internal cylinder component damage. Please refer to the following page for examples and formulas when designing the clamp arm to be applied.
* Both Ports Head (NPT) is the standard porting configuration for the P1M Swing Clamp Cylinder. Alternate porting options are available at an additional cost.
Head Ported Only Head and Cap Ported Cap Radial Ported
Non-Magnetic Magnetic Non-Magnetic Magnetic Non-Magnetic Magnetic
ZF2 ZF3 ZF2 ZF3 ZF2 ZF3
32 100.5 109.5 108.5 117.5 108.5 117.5
40 100.5 110.5 108.5 118.5 108.5 118.5
50 122 131 128 137 128 137
Catalog 0900P-E
Dimensions – Rear Flange Mount
R
TF
UF
MF
4X ØFB
ZF2 (ZF3) + 2X CLAMP STROKE
RE
Rear Flange Mounting Kits can be ordered assembled to the cylinder or separately as needed. Please refer to page E49 for proper rear flange mounting kits associated with a given bore size.
To disassemble the front end cover, the rod cover must first be removed. To do this the ring nut must be unscrewed (right-hand thread) using the spanner and gland wrench shown to the left. Order each component separately.
Rear Flange and Clamp Arm Mount DimensionsBore A B C D E F G H FB MF R TF UF
32 18 67 20 45 48 25 M8x1.25 39 5.5 8 34 58 68
40 18 67 20 45 54 25 M8x1.25 46 5.5 8 40 66 76
50 22 88 22 63 67 40 M10x1.5 58 6.5 9 50 79 90
Bore
Head Ported Only Head and Cap Ported Cap Radial Ported
Non-Magnetic Magnetic Non-Magnetic Magnetic Non-Magnetic Magnetic
Note: To remove or install the arm on the piston rod, use a wrench to secure the arm while loosening or tightening the socket head cap screw. Do not secure any other part of the cylinder.
Piston Rod SealBuna-N quad seal provides positive sealing to keep pressure in and dirt out for less maintenance and trouble free performance.
Piston RodHigh strength steel, hard chrome plated for reliable smooth performance, long life, and extended seal life.
Cylinder BodyHard coated heavy wall aluminum alloy. The tube I.D. coating has extreme hardness, excellent wear and seizure resistance, low coefficient of friction, and high corrosion resistance. This provides excellent wear qualities and quick break-a-ways.
PistonAttached securely to the rod to provide maximum strength and durability.
Rod BearingHigh density iron provides maximum support for longer life.
Heads and CapsAnodized aluminum alloy for solid, lightweight, high strength performance. This provides excellent corrosion resistance, durability, and a long lasting quality appearance.
Piston SealBuna-N quad seal provides positive sealing with air.
To sense piston position, mount sensor along tie rod using 2 each small set screws.
Size A
Piston Travel at
Midstroke (in ±0.01) (Sensor
On)
Minimum Activation Distance from End of
Stroke (in)
Head Cap
9/16 0.32 0.20 0.13 0.13
3/4 0.25 0.23 0.13 0.13
1-1/8 0.20 0.32 0.13 0.13
1-1/2 0.10 0.32 0.07 0.07
2 0.10 0.35 0.06 0.06
2-1/2 0.03 0.42 0.06 0.06
3 0.03 0.47 0.12 0.12
4 0.00 0.47 0.12 0.12
Sensor Mounting Data
.86
A
SET SCREWS
Catalog 0900P-E
Bumpers / Sensor Mounting
Noise Dampening BumpersBumpers both ends – B Bumpers rod end – R Bumper cap end – C*
Bumpers are available at either or both ends of the cylinder to reduce noise for quieter operation. Bumper material is a 70 durometer nitrile.
The table shows the distance the stroke is re-duced when incorporating bumpers. This varies with operating pressure as indicated in the table. Example: 1.50 NL PB9 x 0.50" stroke. Bumpers both ends cylinder will have a working stroke of 0.43" instead of 0.50" operating at 80 psi. For special applications call the factory.
NOTES:
Bumpers shorten actual strokes and are not practical on short stroke with low operating pressure.
Bumpers on Cap End or Both Ends will add the “BC” length in chart to “C” dimension (rod extension).
Bumpers on Double End Cylinders will add the “BR” length in chart to the “C” dimension (rod extension).
Cylinders, type C05 and C05SCompact short stroke cylinders available in single and double acting versions. Ideally suited for clamping and locking operations, the range includes bores from 8 to 63 mm, providing thrust forces of up to 3000 N.
The design has been optimized to include the following features:
InstallationThe compact design (with mounting holes through the cylinder body) makes the unit easy to install in confined spaces.
Clean designThe main body is machined from one piece, thus providing an easy to clean unit. Stainless steel piston rods are standard for corrosion resistance.
Maintenance freeThe units are pre-lubricated for use without additional lubrication, reducing maintenance costs and providing an improved working environment.
Piston rod with internal thread.
Compact installation dimensions.
Simple attachment with 2 or 4 through-going tapped attachment holes.
Clean external design.
Short Stroke Pneumatic CylindersC05 and C05S Series
NoteAll technical data in this catalog is typical data only.
NoteAir quality is essential for maximum cylinder service life (see ISO 8573).
ImportantBefore attempting any external or internal work on the cylinder or any connected components, make sure the cylinder is vented and dis connect the air supply in order to ensure isolation of the air supply.
Performance SpecificationsWorking pressure Max 10 bar (145 PSI)Working temperature -20°C to +70°C (-4°F to +158°F)
Pre-lubricated, further lubrication is not normally necessary.If additional lubrication is introduced it has to be continued.
Material SpecificationsCylinder housing Black anodized aluminiumFront end cover BrassFront end cover, single action Ø50-63 Black anodized aluminiumPiston rod bearing single action Ø50-63 Brass/PTFE/leadPiston, Ø8-32 mm Stainless steelPiston, Ø50-63 mm AluminiumPiston rod Stainless steelSeals Nitrile, NBRCirclip Steel springReturn spring Surface treated steel spring
Before selecting or using Parker (The Company) cylinders or related accessories, it is important that you read, understand and follow the following safety informa-tion. Training is advised before selecting and using The Company’s products.
1.0 General Instructions 1.1 Scope – This safety guide provides instructions for selecting and using
(including assembling, installing, and maintaining) cylinder products. This safety guide is a supplement to and is to be used with the specific Company publications for the specific cylinder products that are being considered for use.
1.2 Fail Safe – Cylinder products can and do fail without warning for many reasons. All systems and equipment should be designed in a fail-safe mode so that if the failure of a cylinder product occurs people and property won’t be endangered.
1.3 Distribution – Provide a free copy of this safety guide to each person responsible for selecting or using cylinder products. Do not select or use The Company’s cylinders without thoroughly reading and understanding this safety guide as well as the specific Company publications for the products considered or selected.
1.4 User Responsibility – Due to very wide variety of cylinder applications and cylinder operating conditions, The Company does not warrant that any particular cylinder is suitable for any specific application. This safety guide does not analyze all technical parameters that must be considered in selecting a product. The hydraulic and pneumatic cylinders outlined in this catalog are designed to The Company’s design guidelines and do not necessarily meet the design guideline of other agencies such as American Bureau of Shipping, ASME Pressure Vessel Code etc. The user, through its own analysis and testing, is solely responsible for:
• Making the final selection of the cylinders and related accessories.
• Determining if the cylinders are required to meet specific design requirements as required by the Agency(s) or industry standards covering the design of the user’s equipment.
• Assuring that the user’s requirements are met, OSHA requirements are met, and safety guidelines from the applicable agencies such as but not limited to ANSI are followed and that the use presents no health or safety hazards.
• Providing all appropriate health and safety warnings on the equipment on which the cylinders are used.
1.5 Additional Questions – Call the appropriate Company technical service department if you have any questions or require any additional information. See the Company publication for the product being considered or used, or call 1-800-CPARKER, or go to www.parker.com, for telephone numbers of the appropriate technical service department.
2.0 Cylinder and Accessories Selection 2.1 Seals – Part of the process of selecting a cylinder is the selection of
seal compounds. Before making this selection, consult the “seal information page(s)” of the publication for the series of cylinders of interest.
The application of cylinders may allow fluids such as cutting fluids, wash down fluids etc. to come in contact with the external area of the cylinder. These fluids may attack the piston rod wiper and or the primary seal and must be taken into account when selecting and specifying seal compounds.
Dynamic seals will wear. The rate of wear will depend on many operating factors. Wear can be rapid if a cylinder is mis-aligned or if the cylinder has been improperly serviced. The user must take seal wear into consideration in the application of cylinders.
2.2 Piston Rods – Possible consequences of piston rod failure orseparation of the piston rod from the piston include, but are not limited to are:
• Piston rod and or attached load thrown off at high speed.
• High velocity fluid discharge.
• Piston rod extending when pressure is applied in the piston retract mode.
Piston rods or machine members attached to the piston rod may move suddenly and without warning as a consequence of other conditions occurring to the machine such as, but not limited to:
• Unexpected detachment of the machine member from the piston rod.
• Failure of the pressurized fluid delivery system (hoses, fittings, valves, pumps, compressors) which maintain cylinder position.
• Catastrophic cylinder seal failure leading to sudden loss of pressurized fluid.
• Failure of the machine control system.
Follow the recommendations of the “Piston Rod Selection Chart and Data” in the publication for the series of cylinders of interest. The suggested piston rod diameter in these charts must be followed in order to avoid piston rod buckling.
Piston rods are not normally designed to absorb bending moments or loads which are perpendicular to the axis of piston rod motion. These additional loads can cause the piston rod to fail. If these types of additional loads are expected to be imposed on the piston rod, their magnitude should be made known to our engineering department.
The cylinder user should always make sure that the piston rod is securely attached to the machine member.
On occasion cylinders are ordered with double rods (a piston rod extended from both ends of the cylinder). In some cases a stop is threaded on to one of the piston rods and used as an external stroke adjuster. On occasions spacers are attached to the machine member connected to the piston rod and also used as a stroke adjuster. In both cases the stops will create a pinch point and the user should consider appropriate use of guards. If these external stops are not perpendicular to the mating contact surface, or if debris is trapped between the contact surfaces, a bending moment will be placed on the piston rod, which can lead to piston rod failure. An external stop will also negate the effect of cushioning and will subject the piston rod to impact loading. Those two (2) conditions can cause piston rod failure. Internal stroke adjusters are available with and without cushions. The use of external stroke adjusters should be reviewed with our engineering department.
The piston rod to piston and the stud to piston rod threaded connections are secured with an anaerobic adhesive. The strength of the adhesive decreases with increasing temperature. Cylinders which can be exposed to temperatures above +250°F (+121°C) are to be ordered with a non studded piston rod and a pinned piston to rod joint.
2.3 Cushions – Cushions should be considered for cylinder applications when the piston velocity is expected to be over 4 inches/second.
Cylinder cushions are normally designed to absorb the energy of a linear applied load. A rotating mass has considerably more energy than the same mass moving in a linear mode. Cushioning for a rotating mass application should be review by our engineering department.
2.4 Cylinder Mountings – Some cylinder mounting configurations may have certain limitations such as but not limited to minimum stroke for side or foot mounting cylinders or pressure de-ratings for certain mounts. Carefully review the catalog for these types of restrictions.
Always mount cylinders using the largest possible high tensile alloy steel socket head cap screws that can fit in the cylinder mounting holes and torque them to the manufacturer’s recommendations for their size.
2.5 Port Fittings – Hydraulic cylinders applied with meter out or deceleration circuits are subject to intensified pressure at piston rod end.
The rod end pressure is approximately equal to:
operating pressure x effective cap end area
effective rod end piston area
Contact your connector supplier for the pressure rating of individual connectors.
3.0 Cylinder and Accessories Installation and Mounting
3.1 Installation
3.1.1 – Cleanliness is an important consideration, and cylinders are shipped with the ports plugged to protect them from contaminants entering the ports. These plugs should not be removed until the piping is to be installed. Before making the connection to the cylinder ports, piping should be thoroughly cleaned to remove all chips or burrs which might have resulted from threading or flaring operations.
Safety Guide for Selecting and Using Hydraulic, Pneumatic Cylinders and Their Accessories
WARNING: FAILURE OF THE CYLINDER, ITS PARTS, ITS MOUNTING, ITS CONNECTIONS TO OTHER OBjECTS, OR ITS CONTROLS CAN RESULT IN: • Unanticipated or uncontrolled movement of the cylinder or objects connected to it. • Falling of the cylinder or objects held up by it. • Fluid escaping from the cylinder, potentially at high velocity.THESE EVENTS COULD CAUSE DEATH OR PERSONAL INjURY BY, FOR EXAMPLE, PERSONS FALLING FROM HIGH LOCATIONS, BEING CRUSHED OR STRUCK BY HEAVY OR FAST MOVING OBjECTS, BEING PUSHED INTO DANGEROUS EQUIPMENT OR SITUATIONS, OR SLIPPING ON ESCAPED FLUID.
3.1.2 – Cylinders operating in an environment where air drying materials are present such as fast-drying chemicals, paint, or weld splatter, or other hazardous conditions such as excessive heat, should have shields installed to prevent damage to the piston rod and piston rod seals.
3.1.3 – Proper alignment of the cylinder piston rod and its mating component on the machine should be checked in both the extended and retracted positions. Improper alignment will result in excessive rod gland and/or cylinder bore wear. On fixed mounting cylinders attaching the piston rod while the rod is retracted will help in achieving proper alignment.
3.1.4 – Sometimes it may be necessary to rotate the piston rod in order to thread the piston rod into the machine member. This operation must always be done with zero pressure being applied to either side of the piston. Failure to follow this procedure may result in loosening the piston to rod-threaded connection. In some rare cases the turning of the piston rod may rotate a threaded piston rod gland and loosen it from the cylinder head. Confirm that this condition is not occurring. If it does, re-tighten the piston rod gland firmly against the cylinder head.
For double rod cylinders it is also important that when attaching or detaching the piston rod from the machine member that the torque be applied to the piston rod end of the cylinder that is directly attaching to the machine member with the opposite end unrestrained. If the design of the machine is such that only the rod end of the cylinder opposite to where the rod attaches to the machine member can be rotated, consult the factory for further instructions.
3.2 Mounting Recommendations
3.2.1 – Always mount cylinders using the largest possible high tensile alloy steel socket head screws that can fit in the cylinder mounting holes and torque them to the manufacturer’s recommendations for their size.
3.2.2 – Side-Mounted Cylinders – In addition to the mounting bolts, cylinders of this type should be equipped with thrust keys or dowel pins located so as to resist the major load.
3.2.3 – Tie Rod Mounting – Cylinders with tie rod mountings are recommended for applications where mounting space is limited. The standard tie rod extension is shown as BB in dimension tables. Longer or shorter extensions can be supplied. Nuts used for this mounting style should be torqued to the same value as the tie rods for that bore size.
3.2.4 – Flange Mount Cylinders – The controlled diameter of the rod gland extension on head end flange mount cylinders can be used as a pilot to locate the cylinders in relation to the machine. After alignment has been obtained, the flanges may be drilled for pins or dowels to prevent shifting.
3.2.5 – Trunnion Mountings – Cylinders require lubricated bearing blocks with minimum bearing clearances. Bearing blocks should be carefully aligned and rigidly mounted so the trunnions will not be subjected to bending moments. The rod end should also be pivoted with the pivot pin in line and parallel to axis of the trunnion pins.
3.2.6 – Clevis Mountings – Cylinders should be pivoted at both ends with centerline of pins parallel to each other. After cylinder is mounted, be sure to check to assure that the cylinder is free to swing through its working arc without interference from other machine parts.
4.0 Cylinder and Accessories Maintenance, Troubleshooting and Replacement
4.1 Storage – At times cylinders are delivered before a customer is ready to install them and must be stored for a period of time. When storage is required the following procedures are recommended.
4.1.1 – Store the cylinders in an indoor area which has a dry, clean and noncorrosive atmosphere. Take care to protect the cylinder from both internal corrosion and external damage.
4.1.2 – Whenever possible cylinders should be stored in a vertical position (piston rod up). This will minimize corrosion due to possible condensation which could occur inside the cylinder. This will also minimize seal damage.
4.1.3 – Port protector plugs should be left in the cylinder until the time of installation.
4.1.4 – If a cylinder is stored full of hydraulic fluid, expansion of the fluid due to temperature changes must be considered. Installing a check valve with free flow out of the cylinder is one method.
4.1.5 – When cylinders are mounted on equipment that is stored outside for extended periods, exposed unpainted surfaces, e.g. piston rod, must be coated with a rust-inhibiting compound to prevent corrosion.
4.2 Cylinder Trouble Shooting
4.2.1 – External Leakage
4.2.1.1 – Rod seal leakage can generally be traced to worn or
damaged seals. Examine the piston rod for dents, gouges or score marks, and replace piston rod if surface is rough.
Rod seal leakage could also be traced to gland wear. If clearance is excessive, replace rod bushing and seal. Rod seal leakage can also be traced to seal deterioration. If seals are soft or gummy or brittle, check compatibility of seal material with lubricant used if air cylinder, or operating fluid if hydraulic cylinder. Replace with seal material, which is compatible with these fluids. If the seals are hard or have lost elasticity, it is usually due to exposure to temperatures in excess of 165°F. (+74°C). Shield the cylinder from the heat source to limit temperature to 350°F. (+177°C.) and replace with fluorocarbon seals.
4.2.1.2 – Cylinder body seal leak can generally be traced to loose tie rods. Torque the tie rods to manufacturer’s recommendation for that bore size.
Excessive pressure can also result in cylinder body seal leak. Determine maximum pressure to rated limits. Replace seals and retorque tie rods as in paragraph above. Excessive pressure can also result in cylinder body seal leak. Determine if the pressure rating of the cylinder has been exceeded. If so, bring the operating pressure down to the rating of the cylinder and have the tie rods replaced.
Pinched or extruded cylinder body seal will also result in a leak. Replace cylinder body seal and retorque as in paragraph above.
Cylinder body seal leakage due to loss of radial squeeze which shows up in the form of flat spots or due to wear on the O.D. or I.D. – Either of these are symptoms of normal wear due to high cycle rate or length of service. Replace seals as per paragraph above.
4.2.2 – Internal Leakage
4.2.2.1 – Piston seal leak (by-pass) 1 to 3 cubic inches per minute leakage is considered normal for piston ring construction. Virtually no static leak with lipseal type seals on piston should be expected. Piston seal wear is a usual cause of piston seal leakage. Replace seals as required.
4.2.2.2 – With lipseal type piston seals excessive back pressure due to over-adjustment of speed control valves could be a direct cause of rapid seal wear. Contamination in a hydraulic system can result in a scored cylinder bore, resulting in rapid seal wear. In either case, replace piston seals as required.
4.2.2.3 – What appears to be piston seal leak, evidenced by the fact that the cylinder drifts, is not always traceable to the piston. To make sure, it is suggested that one side of the cylinder piston be pressurized and the fluid line at the opposite port be disconnected. Observe leakage. If none is evident, seek the cause of cylinder drift in other component parts in the circuit.
4.2.3 – Cylinder Fails to Move the Load
4.2.3.1 – Pneumatic or hydraulic pressure is too low. Check the pressure at the cylinder to make sure it is to circuit requirements.
4.2.3.2 – Piston Seal Leak – Operate the valve to cycle the cylinder and observe fluid flow at valve exhaust ports at end of cylinder stroke. Replace piston seals if flow is excessive.
4.2.3.3 – Cylinder is undersized for the load – Replace cylinder with one of a larger bore size.
4.3 Erratic or Chatter Operation
4.3.1 – Excessive friction at rod gland or piston bearing due to load misalignment – Correct cylinder-to-load alignment.
4.3.2 – Cylinder sized too close to load requirements – Reduce load or install larger cylinder.
4.3.3 – Erratic operation could be traced to the difference between static and kinetic friction. Install speed control valves to provide a back pressure to control the stroke.
4.4 Cylinder Modifications, Repairs, or Failed Component – Cylindersas shipped from the factory are not to be disassembled and or modified. If cylinders require modifications, these modifications must be done at company locations or by The Company’s certified facilities. The Cylinder Division Engineering Department must be notified in the event of a mechanical fracture or permanent deformation of any cylinder component (excluding seals). This includes a broken piston rod, tie rod, mounting accessory or any other cylinder component. The notification should include all operation and application details. This information will be used to provide an engineered repair that will prevent recurrence of the failure.
It is allowed to disassemble cylinders for the purpose of replacing seals or seal assemblies. However, this work must be done by strictly following all the instructions provided with the seal kits.
1. TermsandConditions. Seller’s willingness to offer Products, or accept an order for Products, to or from Buyer is subject to these Terms and Conditions or any newer version of the terms and conditions found on-line at www.parker.com/saleterms/. Seller objects to any contrary or additional terms or conditions of Buyer’s order or any other document issued by Buyer.2. Price Adjustments; Payments. Prices stated on Seller’s quote or other documentation offered by Seller are valid for 30 days, and do not include any sales, use, or other taxes unless specifically stated, Unless otherwise specified by Seller, all prices are F.C.A. Seller’s facility (INCOTERMS 2010). Payment is subject to credit approval and is due 30 days from the date of invoice or such other term as required by Seller’s Credit Department, after which Buyer shall pay interest on any unpaid invoices at the rate of 1.5% per month or the maximum allowable rate under applicable law.3. DeliveryDates;TitleandRisk;Shipment. All delivery dates are approximate and Seller shall not be responsible for any damages resulting from any delay. Regardless of the manner of shipment, title to any products and risk of loss or damage shall pass to Buyer upon placement of the products with the shipment carrier at Seller’s facility. Unless otherwise stated, Seller may exercise its judgment in choosing the carrier and means of delivery. No deferment of shipment at Buyers’ request beyond the respective dates indicated will be made except on terms that will indemnify, defend and hold Seller harmless against all loss and additional expense. Buyer shall be responsible for any additional shipping charges incurred by Seller due to Buyer’s acts or omissions.4. Warranty. Seller warrants that the Products sold hereunder shall be free from defects in material or workmanship for a period of twelve months from the date of delivery to Buyer or 2,000 hours of normal use, whichever occurs first. The prices charged for Seller’s products are based upon the exclusive limited warranty stated above, and upon the following disclaimer: DISCLAIMER OF WARRANTY: THIS WARRANTYCOMPRISESTHESOLEANDENTIREWARRANTYPERTAININGTOPRODUCTSPROVIDED HEREUNDER. SELLER DISCLAIMS ALL OTHER WARRANTIES,EXPRESSANDIMPLIED,INCLUDINGDESIGN,MERCHANTABILITYANDFITNESSFORAPARTICULARPURPOSE.5. Claims;CommencementofActions. Buyer shall promptly inspect all Products upon delivery. No claims for shortages will be allowed unless reported to the Seller within 10 days of delivery. No other claims against Seller will be allowed unless asserted in writing within 30 days after delivery. Buyer shall notify Seller of any alleged breach of warranty within 30 days after the date the defect is or should have been discovered by Buyer. Any action based upon breach of this agreement or upon any other claim arising out of this sale (other than an action by Seller for an amount due on any invoice) must be commenced within 12 months from the date of the breach without regard to the date breach is discovered.6. LIMITATIONOFLIABILITY.UPON NOTIFICATION, SELLER WILL, AT ITS OPTION, REPAIR OR REPLACE A DEFECTIVE PRODUCT, OR REFUND THE PURCHASE PRICE. INNOEVENTSHALLSELLERBELIABLETOBUYERFORANYSPECIAL,INDIRECT,INCIDENTALORCONSEQUENTIALDAMAGESARISINGOUTOF,ORASTHERESULTOF,THESALE,DELIVERY,NON-DELIVERY,SERVICING,USEORLOSSOFUSEOFTHEPRODUCTSORANYPARTTHEREOF,ORFORANYCHARGES OR EXPENSES OF ANY NATURE INCURRED WITHOUT SELLER’SWRITTEN CONSENT, EVEN IF SELLER HAS BEEN NEGLIGENT, WHETHER INCONTRACT,TORTOROTHERLEGALTHEORY.INNOEVENTSHALLSELLER’SLIABILITYUNDERANYCLAIMMADEBYBUYEREXCEEDTHEPURCHASEPRICEOFTHEPRODUCTS.7. User Responsibility. The user, through its own analysis and testing, is solely responsible for making the final selection of the system and Product and assuring that all performance, endurance, maintenance, safety and warning requirements of the application are met. The user must analyze all aspects of the application and follow applicable industry standards and Product information. If Seller provides Product or system options, the user is responsible for determining that such data and specifications are suitable and sufficient for all applications and reasonably foreseeable uses of the Products or systems.8. Loss to Buyer’s Property. Any designs, tools, patterns, materials, drawings, confidential information or equipment furnished by Buyer or any other items which become Buyer’s property, may be considered obsolete and may be destroyed by Seller after two consecutive years have elapsed without Buyer ordering the items manufactured using such property. Seller shall not be responsible for any loss or damage to such property while it is in Seller’s possession or control.9. SpecialTooling. A tooling charge may be imposed for any special tooling, including without limitation, dies, fixtures, molds and patterns, acquired to manufacture Products. Such special tooling shall be and remain Seller’s property notwithstanding payment of any charges by Buyer. In no event will Buyer acquire any interest in apparatus belonging to Seller which is utilized in the manufacture of the Products, even if such apparatus has been specially converted or adapted for such manufacture and notwithstanding any charges paid by Buyer. Unless otherwise agreed, Seller shall have the right to alter, discard or otherwise dispose of any special tooling or other property in its sole discretion at any time.10. Buyer’s Obligation; Rights of Seller. To secure payment of all sums due or otherwise, Seller shall retain a security interest in the goods delivered and this agreement shall be deemed a Security Agreement under the Uniform Commercial Code. Buyer authorizes Seller as its attorney to execute and file on Buyer’s behalf all documents Seller deems necessary to perfect its security interest.11. Improper use and Indemnity. Buyer shall indemnify, defend, and hold Seller harmless from any claim, liability, damages, lawsuits, and costs (including attorney fees), whether for personal injury, property damage, patent, trademark or copyright
infringement or any other claim, brought by or incurred by Buyer, Buyer’s employees, or any other person, arising out of: (a) improper selection, improper application or other misuse of Products purchased by Buyer from Seller; (b) any act or omission, negligent or otherwise, of Buyer; (c) Seller’s use of patterns, plans, drawings, or specifications furnished by Buyer to manufacture Product; or (d) Buyer’s failure to comply with these terms and conditions. Seller shall not indemnify Buyer under any circumstance except as otherwise provided.12. Cancellations and Changes. Orders shall not be subject to cancellation or change by Buyer for any reason, except with Seller’s written consent and upon terms that will indemnify, defend and hold Seller harmless against all direct, incidental and consequential loss or damage. Seller may change product features, specifications, designs and availability with notice to Buyer.13. LimitationonAssignment. Buyer may not assign its rights or obligations under this agreement without the prior written consent of Seller.14. ForceMajeure. Seller does not assume the risk and shall not be liable for delay or failure to perform any of Seller’s obligations by reason of circumstances beyond the reasonable control of Seller (hereinafter “Events of Force Majeure”) Events of Force Majeure shall include without limitation: accidents, strikes or labor disputes, acts of any government or government agency, acts of nature, delays or failures in delivery from carriers or suppliers, shortages of materials, or any other cause beyond Seller’s reasonable control.15. WaiverandSeverability. Failure to enforce any provision of this agreement will not waive that provision nor will any such failure prejudice Seller’s right to enforce that provision in the future. Invalidation of any provision of this agreement by legislation or other rule of law shall not invalidate any other provision herein. The remaining provisions of this agreement will remain in full force and effect.16. Termination. Seller may terminate this agreement for any reason and at any time by giving Buyer thirty (30) days written notice of termination. Seller may immediately terminate this agreement, in writing, if Buyer: (a) commits a breach of any provision of this agreement (b) appointments a trustee, receiver or custodian for all or any part of Buyer’s property (c) files a petition for relief in bankruptcy on its own behalf, or by a third party (d) makes an assignment for the benefit of creditors, or (e) the dissolves or liquidates all or a majority of its assets.17. Governing Law. This agreement and the sale and delivery of all Products hereunder shall be deemed to have taken place in and shall be governed and construed in accordance with the laws of the State of Ohio, as applicable to contracts executed and wholly performed therein and without regard to conflicts of laws principles. Buyer irrevocably agrees and consents to the exclusive jurisdiction and venue of the courts of Cuyahoga County, Ohio with respect to any dispute, controversy or claim arising out of or relating to this agreement. 18. IndemnityforInfringementofIntellectualPropertyRights. Seller shall have no liability for infringement of any patents, trademarks, copyrights, trade dress, trade secrets or similar rights except as provided in this Section. Seller will defend and indemnify Buyer against allegations of infringement of U.S. patents, U.S. trademarks, copyrights, trade dress and trade secrets (“Intellectual Property Rights”). Seller will defend at its expense and will pay the cost of any settlement or damages awarded in an action brought against Buyer based on an allegation that a Product sold pursuant to this Agreement infringes the Intellectual Property Rights of a third party. Seller’s obligation to defend and indemnify Buyer is contingent on Buyer notifying Seller within ten (10) days after Buyer becomes aware of such allegations of infringement, and Seller having sole control over the defense of any allegations or actions including all negotiations for settlement or compromise. If a Product is subject to a claim that it infringes the Intellectual Property Rights of a third party, Seller may, at its sole expense and option, procure for Buyer the right to continue using the Product, replace or modify the Product so as to make it noninfringing, or offer to accept return of the Product and return the purchase price less a reasonable allowance for depreciation. Notwithstanding the foregoing, Seller shall have no liability for claims of infringement based on information provided by Buyer, or directed to Products delivered hereunder for which the designs are specified in whole or part by Buyer, or infringements resulting from the modification, combination or use in a system of any Product sold hereunder. The foregoing provisions of this Section shall constitute Seller’s sole and exclusive liability and Buyer’s sole and exclusive remedy for infringement of Intellectual Property Rights.19. Entire Agreement. This agreement contains the entire agreement between the Buyer and Seller and constitutes the final, complete and exclusive expression of the terms of sale. All prior or contemporaneous written or oral agreements or negotiations with respect to the subject matter are herein merged.20. CompliancewithLaw,U.K.BriberyActandU.S.ForeignCorruptPracticesAct. Buyer agrees to comply with all applicable laws and regulations, including both those of the United Kingdom and the United States of America, and of the country or countries of the Territory in which the Buyer may operate, including without limitation the U. K. Bribery Act, the U.S. Foreign Corrupt Practices Act (“FCPA”) and the U.S. Anti-Kickback Act (the “Anti-Kickback Act”), and agrees to indemnify and hold harmless Seller from the consequences of any violation of such provisions by Buyer, its employees or agents. Buyer acknowledges that they are familiar with the provisions of the U. K. Bribery Act, the FCPA and the Anti-Kickback Act, and certifies that Buyer will adhere to the requirements thereof. In particular, Buyer represents and agrees that Buyer shall not make any payment or give anything of value, directly or indirectly to any governmental official, any foreign political party or official thereof, any candidate for foreign political office, or any commercial entity or person, for the purpose of influencing such person to purchase products or otherwise benefit the business of Seller. 02/12