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Parker Industrial Cylinder Latest Product ReleasesNational Sales Meeting 2014

Series 2H & 3H Tie Rod Style with Threaded Jewel Gland Traditional Parker threaded Jewel gland construction with proven TS2000 rod sealing system. Industrial cylinder standard tie rod construction ensures head and cap remain in contact with tube ends to ensure leak free performance.

AdvantagesRod gland serviceable, using gland and spanner wrenches, without

disturbing tie rod torque

High strength tie rod material with rolled thread for added strength

Series 2HD & 3HD Tie Rod Style with Bolt-On Gland Bolt-on gland with robust Tri-Lip rod sealing system. Industrial cylinder standard tie rod construction ensures head and cap remain in contact with tube ends to ensure leak free performance.

AdvantagesRod gland serviceable, using a common hex wrench, without disturbing tie rod torque

High strength tie rod material with rolled thread for added strength

Series 2HB & 3HB Non-Tie Rod Style with Bolt-On Gland Non-tie rod style with bolt-on gland and robust Tri-Lip rod sealing system. Head and cap are bolted to threaded body flanges.

AdvantagesImproved fatigue life compared to welded flange construction

Easier to service than tie rod styles in long strokes

Clean appearance improves machine aesthetics

Lower weight in long strokes

Design improvements increase reliability■ Polyurethane rod wiperseals and o-rings

as body end seals and rod gland static seal offer superior abrasion and extrusion resistance for longer Class 1 seal life.

■ High compressive strength nonmetallic piston wear rings, that minimize tube scoring, are standard on all configured piston selections.

■ Piston-to-rod connection is pre-stressed to maximize fatigue life. An o-ring on the piston ID ensures a leak free joint and anaerobic adhesive further secures the threaded connection.

Series 2H/3H – Gen II One Common Platform – Three Construction Choices

One Common Piston for 4 Seal Styles

Standard HP style with poly urethane piston seal – excellent for most cycling and load holding applications.

Optional KP style with filled PTFE piston seal – low friction, high heat resistance for cycling and load holding service.

Optional RP style with thermo plastic piston seal – superior extrusion resistance to extreme pressure spikes with drift-free performance.

Optional WP style mixed media piston seal – low friction primary seal with redundant elastomer delivers superior per for mance with dissimilar media on either side of the piston.

Universal Optical ReaderNo need to stock multiple probes, reader is standard across all stroke lengths.Quick change out, non-pressurized housing allows for easy replacement without cylinder removal. Absolute position monitoring, upon power up will provide actual position, no homing required. Cylinder

ConstructionNFPA Standard cylinder dimension, only require addition of reader block.

ConnectivityUp to 300 feet cable length between Cylinder and Electronics. Deutsch Style Connector with M12 circular adapter cable for cylinder ID tag and Bus termination.

Electrical Specifications (Sensor)

Input Power 8-32VDC, <2W

Data I/O Generic CAN, 250 KBaud, 29-bit ID

Networking Up to 8 sensors per CAN network (Separate PGNs)

ConnectorDeutsch 8-Pin (DTM06-8S), M12 5 Pin male (adapter cable assembly)

Update Rate 1-100 Hz (10-1,000 ms)

Temperature Operating: -40° F to 221° F (SAE J1455)

IngressionImmersion: IP 68 (10m, 30 min)Pressure wash: IP65

Electrical

EMI EN61000-6-2 (Radiated susceptibility)

EN 61000-6-4 (Radiated Emission)Overvoltage to +36 VDCReverse Polarity to -36VDCShort to GND, Short to 32VDCESD: ±8kV

Analog Output Modules

Input Power 9-60 VDC

Current Draw Single Axis: 29 mA at 24 VDC, 4 axis: 160 mA at 24 VDC

Outputs 0-10V, ±10 V, 4-20 mA

ConnectorDeutsch 8-Pin (DT06-8S), M12 5 Pin female (adapter cable assembly)

Update Rate 100 Hz (10 ms)Output Resolution .015%

Output Accuracy .5%

TemperatureOperating: -40° F to 185° FStorage: -67° F to 257° F

Protection IP67 Scale & Offset

Factory set, adjustable with Intellinder MD3 accessory.

Resolution 0.0013 in (0.03 mm)*Hysteresis 0.0038 in (0.10 mm)Repeatability 0.0014 in (0.036 mm)Linearity 0.0026 in (0.0027% FS)Maximum Velocity 40 in/s (1 m/sec)

Bore Diameter No LimitRod Diameter 1" to 10"Stroke Length up to 240 in (6100 mm)

Rod MaterialChrome plated 1045Chrome plated 17-4 PH Stainless

MechanicalVibration: 12g, 25Hz-2KHzShock: 100g

Null Zone NoneDead Zone None

Cable Length

300 feet between Cyl and module **

1 foot between reader and Y junction

General Specifications (Sensor)

* On cylinder stroke lengths greater than 65", (1651 mm) analog resolution is 0.004" (0.1 mm).** Above 130 feet terminating resistor values need to be evaluated, consult factory for values.

HydroPower Electric Generation Dams

Civil Lock and Flood Control Dams

Metal Fabrication Conveyor/Table Lifts

for Material Handling Oil and Gas*

Electric Power Generation*

*ATEX Pending

Intellinder Absolute Position Sensor is ideal for applications such as:

Intellinder™ Absolute Position Sensor for Industrial Application

RedundancyMultiple Readers can be installed for redundant position measurement requirements.

(single and 4 axis units)

This breakthrough proprietary technology, owned and manufactured by Parker Hannifin Corporation, has been thoroughly tested in the lab and in the field to validate performance in the areas of corrosion and dynamic wear resistance. Cylinders protected with Parker’s Global Shield coating have demonstrated resistance to corrosion up to eight times longer than conventional coatings. Comprehensive testing data is available from your Parker technical representative.

Performance Validated in the Lab and in the Field

Environmentally Safe – the Global Shield™ edge• No Chromium in the coating

or process• RoHS Compliant

(Directive 2011/65/EU)• No Hexavalence and no hazardous

waste stream• No PEL (Personal Exposure Limits) concerns

Availability• Rod Diameters from 1/2" to 15" (12 to 380mm)• Rod Lengths to 13′ (3.96m)• Standard thickness − .001" (25µ)

Up to 0.020" (500µ) available; corrosion protection increases as the thickness increases

• Standard substrate − 1045/1050 carbon steel• Other substrates available• Cylinder barrel inside diameters − Consult Factory

Parker’s Global Shield coating features a sub-micron structure (shown here magnified 4000 times) that eliminates surface micro-cracks and delamination.

Parker’s Global Shield™ rod coating technology was specifically designed to address corrosion resistance requirements of challenging industrial applications.Combined with our internal rod coating capabilities, Global Shield is immediately available to upgrade your Parker cylinder performance.

Parker Hannifin CorporationIndustrial Cylinder DivisionDes Plaines, Illinois

Phone (847) 298-2400Fax (800) 892-1008www.parker.com/cylinder

© 2014 Parker Hannifin Corporation HY08-1710-B2/NA September, 2014

Global Shield™ Rod Coating Technology

Indentation / Delamination TestingWhen compared to Hard Chrome and using the Rockwell “C” Indentation Test protocol, Parker’s Global Shield coating exhibited exceptional interfacial adhesion and outstanding impact resistance, with almost nomicro-cracking, chipping, spalling and delamination.

Hard Chrome

Global Shield Coating

Although a superior rod coating on its own, it may also be an economic alternative to corrosion resistant steels (i.e. stainless steel) when applied to carbon steel. However, like all coatings, rod end machining would expose the carbon steel substrate, so additional measures would be necessary for protection of the exposed section. In addition, some cylinder applications require high strength stainless steel (ASTM A564 Type 630, or 17-4 PH stainless steel) for tensile strength and fatigue resistance, so please contact us for guidance on material substitution.