Parker… BLADDER PRODUCTS HAcydcruamuulilca tor your most complete source Products for Hydraulic Accumulators and related products. Parker’s Accumulator Products are Catalog HY10-1630/US designed to optimize the performance BLADDER PRODUCTS of your hydraulic system, while adding safeguards that prolong equipment life. Reduced operating costs and savings from less downtime and maintenance are the benefits. H Parker Accumulators specifically… y d • Provide an auxiliary power source by holding r supplemental power to be used during peak periods. a This allows the use of smaller pumps, motors, and Piston Accumulators Bladder Accumulators u reservoirs reducing installation and operating costs. l i • Protect hydraulic systems and circuit components from c damage due to thermal expansion and contraction in a A closed system. c • Reduce costly damage to piping systems, fittings, and c gauges by absorbing hydraulic line shocks. u • Supply emergency fail-safe power to complete a work m safety cycle in the event of a pump or electric power u failure. l a • Hold necessary high pressure for long periods of time t while preventing oil overheating, reducing pump wear, o and saving energy. r P Diaphragm Accumulators KleenVent Reservoir r Isolators o d u c BLADDER PRODUCTS t s Inline Pulse-Tone™ SurgeKushons Shock Suppressors Parker Hannifin Corporation Catalog HY10-1630/US Hydraulic Accumulator Division 3M 5/06 DBH 10711 N. Second Street Printed in U.S.A. Rockford, IL 61115 BLADDER PRODUCTS (815) 636-4100 Fax: (815) 636-4111 Web site: http://www.parker.com/accumulator Parker Hannifin Corporation 6035 Parkland Blvd. Parker… Cleveland, Ohio 44124-4141 Parker Hannifin Corporation Telephone: (216) 896-3000 Your Best Source Fax: (216) 896-4000 www.parker.com for Hydraulic Accumulators! About Parker Hannifin Corporation Parker’s Charter Parker is the leading Parker Hannifin is a leading global motion-control To be a leading worldwide manufacturer of components manufacturer of hydro- company dedicated to delivering premier customer and systems for the builders and users of durable goods. pneumatic accumulators service. A Fortune 500 corporation listed on the New More specifically, we will design, market and manufac- for industrial and mobile York Stock Exchange (PH), our components and ture products controlling motion, flow and pressure. applications in North New products are designed utilizing the Modern machining centers ensure highest systems comprise over 1,400 product lines that We will achieve profitable growth through premier America. With over 50 latest software technologies. quality accumulator parts. control motion in some 1,000 industrial and aero- customer service. years experience and one space markets. Parker is the only manufacturer to of the world’s broadest offer its customers a choice of hydraulic, pneumatic, Product Information accumulator product and electromechanical motion-control solutions. North American customers seeking product infor- offerings, Parker has the Our Company has the largest distribution network in mation, the location of a nearby distributor, or repair products and application its field, with over 7,500 distributors serving nearly services will receive prompt attention by calling the expertise to be your best 400,000 customers worldwide. Parker Product Information Center at our toll-free source for your next number: 1-800-C-PARKER (1-800-272-7537). In Europe, accumulator solution. call 00800-C-PARKER-H (00800-2727-5374). Parker’s capabilities include: The Aerospace Group is The Climate & Industrial (cid:127) Expanded product line to a leader in the development, Controls Group designs, meet any application design, manufacture and ser- manufactures and markets vicing of control systems and system-control and fluid- (cid:127) In-house manufacturing components for aerospace and handling components and capabilities related high-technology mar- systems to refrigeration, air- kets, while achieving growth conditioning and industrial (cid:127) Exclusive in-house through premier customer customers worldwide. service. bladder molding facility Accumulator parts are manufactured in high-tech manufacturing cells. (cid:127) ASME approved and CE audited manufacturing The Fluid Connectors The Seal Group designs, plant Group designs, manu- manufactures and distributes factures and markets rigid industrial and commercial (cid:127) UL and FM approved and flexible connectors, sealing devices and related manufacturing plant and associated products products by providing used in pneumatic and superior quality and total (cid:127) Quick delivery response fluid systems. customer satisfaction. (cid:127) National distribution network with factory trained sales representatives The Hydraulics Group The Filtration Group designs, produces and markets designs, manufactures and (cid:127) Localized factory sales Large bore piston accumulators are State-of-the art assembly cells allow for fast a full spectrum of hydraulic markets quality filtration support machined on large capacity lathes. response to customer demands. components and systems and clarification products, to builders and users of providing customers with (cid:127) Application and industrial and mobile the best value, quality, engineering support machinery and equipment. technical support, and global availability. (cid:127) Worldwide capabilities (cid:127) ISO 9001 Certified The Automation Group The Instrumentation is a leading supplier of pneu- Group is a global leader matic and electromechanical in the design, manufacture and components and systems to distribution of high-quality automation customers world- critical flow components for wide. worldwide process instrumen- tation, ultra-high-purity, medi- cal and analytical applications. Parker’s in-house designed pre-charge Every accumulator is cycle tested prior to machine ensures proper pre-charge shipment. regardless of ambient temperature. Hydraulic Accumulators Catalog HY10-1630/US PCaognetents Introduction 0 0 Introduction ............................................................................................................................................................ 2 0 3 Certifications .......................................................................................................................................................... 3 n Accumulator Selection Guide (Making the Right Choice) ............................................................................... 4-15 o 0 t 0 inPHorm™ Software............................................................................................................................................. 16 is 40 P Application Data Sheet ........................................................................................................................................ 17 0 Piston Accumulators – A & B Series .............................................................................................................. 19-64 0 0 • Series 3000 Piston Accumulators and Gas Bottles (3000 PSI & 207 Bar Metric) ..............................................................22-39 5 (cid:127) Series 3000 Non-ASME (7” Bore) .....................................................................................................................................32-33 (cid:127) 2000 PSI (12” Bore) ..........................................................................................................................................................34-35 er (cid:127) Series 4000 Piston Accumulators and Gas Bottles (4000 PSI & 276 Bar Metric) ..............................................................40-49 d d (cid:127) Series 5000 Piston Accumulators and Gas Bottles (5000 PSI & 345 Bar Metric) ..............................................................50-64 a l Bladder Accumulators – BA, BG, & BT Series ............................................................................................... 65-80 B (cid:127) Dimensions ........................................................................................................................................................................... 68 (cid:127) Options .............................................................................................................................................................................74-76 m (cid:127) Ordering Information......................................................................................................................................................... 78-79 g a Diaphragm Accumulators – AD Series ........................................................................................................... 81-86 r h (cid:127) Dimensions ........................................................................................................................................................................... 83 p (cid:127) Options .................................................................................................................................................................................. 84 a i (cid:127) Ordering Information.............................................................................................................................................................. 85 D Inline Pulse-Tone™ Hydraulic Shock Suppressors ..................................................................................... 87-100 ™ (cid:127) Dimensions ...................................................................................................................................................................... 92-96 e (cid:127) Ordering Information.............................................................................................................................................................. 97 en (cid:127) Accessories ...................................................................................................................................................................... 98-99 nTo i l- Gas Bottles – GB Series ............................................................................................................................. 101-104 ne Is Accumulator Accessories........................................................................................................................... 105-114 ul P (cid:127) Charging & Gauging Assemblies .................................................................................................................................. 106-111 (cid:127) Unloading Valves ................................................................................................................................................................. 111 s (cid:127) Bladder Accumulator Repair Tools ....................................................................................................................................... 112 astle (cid:127) Port Adaptors ...................................................................................................................................................................... 112 Gt o (cid:127) Mounting Accessories & Brackets................................................................................................................................. 113-114 B KleenVent Reservoir Isolators – KV Series ................................................................................................ 115-118 s Pulse-Tones ........................................................................................................................................................ 119 e i r SurgeKushons – SK Series......................................................................................................................... 121-128 o s (cid:127) Dimensions .................................................................................................................................................................. 126-127 s e (cid:127) Options & Ordering Information ........................................................................................................................................... 128 c Sizing Data .................................................................................................................................................. 129-135 c A Applications ................................................................................................................................................ 136-138 Application Data Sheet ...................................................................................................................................... 139 nt en Installation and Maintenance Instructions ................................................................................................. 141-158 ee KlV (cid:127) Hydraulic Piston Accumulators ..................................................................................................................................... 141-146 (cid:127) Hydraulic Piston Accumulators – CE Marking ............................................................................................................... 147-156 s (cid:127) Bladder Accumulators .................................................................................................................................................. 157-164 n (cid:127) Bladder Accumulators – CE Marking ............................................................................................................................ 165-178 o h (cid:127) Diaphragm Accumulators ............................................................................................................................................. 179-182 s (cid:127) Inline Pulse-Tone™ ...................................................................................................................................................... 183-185 u K (cid:127) Gas Chucks......................................................................................................................................................................... 186 e Model Number Cross Reference................................................................................................................. 187-200 g r u Offer of Sale........................................................................................................................................................ 208 S g n i z i S ! WARNING FAILURE 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. nt 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 ai having 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 M 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. e The products described herein, including without limitation, product features, specifications, designs, availability and pricing, are subject to change by Parker Hannifin Corporation and c its related companies at any time without notice. sn se © Copyright 2003, Parker Hannifin Corporation. All rights reserved. or re Cf e 1 Parker Hannifin Corporation R Hydraulic Accumulator Division Rockford, Illinois USA Catalog HY10-1630/US Hydraulic Accumulators nAtepnptlsications Introduction Parker Accumulators are designed to optimize the performance of your hydraulic system, while adding safeguards that prolong equipment life. Reduced operating costs and savings from less downtime and maintenance are the benefits. Parker Accumulators… Typical Applications (cid:127) Provide an auxiliary power source by (cid:127) Construction & Mining Equipment – holding supplemental power to be emergency backup for steering, brake, used during peak periods. This allows and pilot circuits. the use of smaller pumps, motors, and (cid:127) Hydrostatic Drives – shock absorption reservoirs reducing installation and when changing directions. operating costs. (cid:127) Injection Molding & Die Casting – high (cid:127) Protect hydraulic systems and circuit pressure and flows in a short time components from damage due to period. thermal expansion and contraction in (cid:127) Plunger & Diaphragm Pumps – a closed system. reduces pump pulsations. (cid:127) Make up changes in fluid volume to (cid:127) Fork Lifts & Cherry Pickers – pressure assure a positive pressure. spike dampening. (cid:127) Reduce costly damage to piping (cid:127) Machine Tools – maintains pressure, systems, fittings, and gauges by reduces pump size. absorbing hydraulic line shocks. (cid:127) Transportation Vehicles – suspension (cid:127) Supply emergency fail-safe power to systems and braking systems. complete a work safety cycle in the event of a pump or electric power (cid:127) Turbine Engines – oil supply for failure. lubrication. (cid:127) Hold necessary high pressure for long (cid:127) Winches – maintaining line tension. periods of time while preventing oil overheating, reducing pump wear, and saving energy. (cid:127) Dispense lubricants in a slow, constant rate to critical equipment wear areas. 2 Parker Hannifin Corporation Hydraulic Accumulator Division Rockford, Illinois USA Hydraulic Accumulators Catalog HY10-1630/US PCaegrteifications Introduction Accumulators and Gas Bottles are pressure vessels which are accumulators and gas bottles. Similar laws, regulations, and/or subject to safety laws, regulations, and/or ordinances which ordinances apply in other countries as well. Other particular are valid in the state or country of set-up. For example, in the regulations must be observed in certain industries such as US most states require ASME Certification on larger bore ship building, aircraft, mining, etc. ASME Certification ASME (American Society of Mechanical Engineers) is an Appendix 22 permits that organization that regulates the design and manufacture of accumulators manufac- pressure vessels in the United States. Accumulators are tured with “forged” shells, categorized as unfired pressure vessels and fall under the with openings of a jurisdiction of ASME Code when required by state law. In 48 specified maximum size, states, ASME Certification is required on pressure vessels may be Certified with a used within their boundaries. Accumulators specifically fall design factor of 3:1 in the under the section of the code referred to as Section VIII, ratio of burst pressure to Division 1. This section requires certification on vessels with rated pressure. internal diameters of 6" or greater and that certified vessels ASME requires that each carry the “U” symbol on them as evidence that they were vessel be marked with designed and manufactured in accordance with the Code. The the design pressure at “U” symbol is an internationally recognized symbol of design the Minimum Design and manufacturing quality. Metal Temperature The essential criteria of ASME Certification is a requirement (MDMT) for the vessel. of strength and material traceability. Accumulators must be ASME Certification manufactured from materials that meet ASME specifications requires third party and require a design factor of 4:1 in the ratio of burst pressure surveillance of an approved quality system and requires to rated pressure. This 4:1 requirement is mandatory for all witness by a third party of all hydrostatic testing. And at accumulators with ASME Certification with the exception present, unlike many other standards around the world, there ofthose that comply with a specific rule within the Code called is no ASME national requirement for periodic inspection of “Appendix 22”. accumulators after installation. However, local laws would dictate such inspections. Pressure Equipment Directive (PED) The Pressure Equipment Directive is one of the series of The PED applies in the member states of the European technical harmonization directives covering subjects such as Union (EU) and the European Economic Area (EEA). machinery, simple pressure vessels, gas appliances, etc., Similar requirements to the PED have been adopted by which were identified by the European Community’s program many other countries, which have applied to join the Euro- for the elimination of technical barriers to trade. The purpose pean Union. of the PED is to harmonize national laws of Member States The EU member regarding the design, manufacture, testing and conformity states are: assessment of pressure equipment and assemblies of Austria pressure equipment. Belgium Denmark The program aims to ensure the free placing on the market Finland and putting into service of relevant equipment within the France European Union and the European Economic Area. Germany The Directive requires that all pressure equipment and Greece assemblies within its scope must be safe when placed on the Ireland market and put into service. Italy Luxembourg The Pressure Equipment Directive applies to the design, Netherlands manufacture and conformity assessment of pressure Portugal equipment and assemblies of pressure equipment with Spain maximum allowable pressure greater than 0.5 bar above Sweden atmospheric pressure (i.e.: 1.5 bar of absolute pressure). United Kingdom The PED Conformity Assessment Modules apply to all The European Economic accumulators using fluids in Group 2 (i.e.: non-hazardous), Area (EEA) includes the with a volume greater than 1 liter and a product of service 15 EU countries listed pressure (PS) and volume (V) which is greater than 50 above, plus Iceland, Liechtenstein, Norway, and Switzerland. bar.liter, or for any pressure vessel where PS exceeds 1000 bar. 3 Parker Hannifin Corporation Hydraulic Accumulator Division Rockford, Illinois USA Catalog HY10-1630/US Hydraulic Accumulators nAtcecnutsmulator Selection Guide Introduction Making the Right Choice Hydro-pneumatic accumulators are the most widely used type of accumulator in industrial and mobile hydraulic systems. They use compressed gas to apply force to hydraulic fluid. Identical in their operating principle, Parker’s piston, bladder and diaphragm accumulators use different mechanisms to sepa- rate the gas from the fluid. It is this difference – and the result- ing performance characteristics – which determines their suit- ability for different applications. The correct selection and application of different style accumulators is examined in the following pages. Piston Advantages Parker’s hydro-pneumatic accumulators regulate the performance of a hydraulic (cid:127) extremely high flow rates system by providing an additional volume of system fluid, pressurized by an external gas supply. (cid:127) high/low temperature tolerance (cid:127) high compression ratios A correctly specified accumulator can: (cid:127) withstands external forces (cid:127) reduce shock effects in a system resulting from inertia or (cid:127) unlimited sizes/mounting external mechanical forces (cid:127) work well with gas bottles (cid:127) maintain system pressure by compensating for pressure loss due to leakage (cid:127) fully serviceable (cid:127) provide a back-up supply of hydraulic energy to maintain a Bladder Advantages constant flow when system demand is greater than pump delivery. (cid:127) dirt tolerant In industrial applications, three types of hydro-pneumatic accumulators are widely (cid:127) universal application used – the piston type, bladder type and diaphragm type. Each has particular (cid:127) safety advantages and limitations which should be considered when selecting an accumulator for a specific application. (cid:127) quick response (cid:127) works well on water, Piston accumulators offer greater efficiency and flexibility in most applications, due low lubricity fluids to their wider range of sizes. Parker’s piston accumulators feature a patented five-blade V-O-ring which maintains full contact between the piston and the bore, (cid:127) fully serviceable without rolling. Sealing remains effective even under rapid cycling at high operating pressures. Diaphragm Advantages Bladder/Diaphragm accumulators are generally preferred for applications where (cid:127) lightweight, compact rapid cycling, high fluid contamination and fast response times are required. They (cid:127) simple, cost effective provide excellent gas/fluid separation. (cid:127) dirt tolerant (cid:127) quick response 4 Parker Hannifin Corporation Hydraulic Accumulator Division Rockford, Illinois USA Hydraulic Accumulators Catalog HY10-1630/US PAacgceumulator Selection Guide Introduction Design Features and Construction Piston Accumulators Bladder Accumulators Diaphragm Accumulators Parker piston accumulators consist of Greer bladder accumulators feature a Parker diaphragm accumulators a cylindrical body, sealed by a gas cap non-pleated, flexible rubber bladder feature a one piece molded and charging valve at the gas end, and housed within a steel shell. The open diaphragm which is mechanically by a hydraulic cap at the hydraulic end. end of the bladder is attached to the sealed to the high strength metal shell. A lightweight piston separates the gas precharging valve at the gas end of the The flexible diaphragm provides side of the accumulator from the shell. A poppet valve, normally held excellent gas and fluid separation. hydraulic side. open by spring pressure, regulates A button molded to the bottom of the fluid flow through the hydraulic port. diaphragm prevents the diaphragm As with the bladder/diaphragm Greer’s bladder accumulators are from being extruded out the hydraulic accumulator, the gas side is charged available as either top or bottom port. The non-repairable electron- with nitrogen to a predetermined repairable units, for optimum flexibility. beam welded construction reduces pressure. Changes in system pressure size, weight, and ultimately cost. cause the piston to rise and fall, allowing fluid to enter or forcing it to be The bladder/diaphragm is charged with discharged from the accumulator body. a dry inert gas, such as: nitrogen, to a set precharge pressure determined by the system requirements. As system pressure fluctuates, the bladder/ diaphragm expands and contracts to discharge fluid from, or allow fluid into, the accumulator shell. Fig. 1 Typical bladder, diaphragm and piston accumulators Charging Charging Valve Valve Charging Valve Gas Cap Shell Shell Bladder Body Poppet Piston Diaphragm Button Spring Hydraulic Fluid Port Hydraulic Cap Port BLADDER DIAPHRAGM PISTON Gas 5 Parker Hannifin Corporation Hydraulic Accumulator Division Rockford, Illinois USA Catalog HY10-1630/US Hydraulic Accumulators nAtcecnutsmulator Selection Guide Introduction Operation Stage (a) Stage (c) Stage (e) The accumulator is empty, and The hydraulic system is pressurized. System pressure falls. Precharge neither gas nor hydraulic sides are System pressure exceeds precharge pressure forces fluid from the accumu- pressurized. pressure, and fluid flows into the lator into the system. accumulator. Stage (b) Stage (f) The accumulator is precharged. Stage (d) Minimum system pressure is reached. System pressure peaks. The accumu- The accumulator has discharged its lator is filled with fluid to its design design maximum volume of fluid back capacity. Any further increase in into the system. hydraulic pressure would be prevented by a relief valve in the system. Fig 2 Operating conditions of bladder, piston and diaphragm accumulators (A) (B) (C) (D) (E) (F) Gas 6 Parker Hannifin Corporation Hydraulic Accumulator Division Rockford, Illinois USA Hydraulic Accumulators Catalog HY10-1630/US PAacgceumulator Selection Guide Introduction Accumulator Selection Table 1: Relative Outputs of a 40 litre Accumulator When selecting an accumulator for a particular application, both system and performance criteria should be considered. Compression System Recommended Fluid Output Ratio Pressure, Precharge, GPM To ensure long and satisfactory service life, the following PSI PSI factors should be taken into account. (cid:127) (cid:127) max min Bladder Piston Bladder Piston Failure mode Output volume (cid:127) (cid:127) 1.5 3000 2000 1800 1900 2.79 3.00 Flow rate Fluid type (cid:127) Response time (cid:127) Shock suppression 2 3000 1500 1350 1400 4.23 4.41 (cid:127) (cid:127) High frequency cycling Mounting position 3 3000 1000 900 900 5.70 5.70 (cid:127) (cid:127) External forces Sizing information 6 3000 500 ❋ 400 ❋ 6.33 (cid:127) (cid:127) Certification Safety ❋ Below required minimum operating ratio of 4:1. (cid:127) Temperature effect Flow Rate Failure Modes Table 2 shows typical maximum flow rates for Parker’s accumulator styles in a range of sizes. In certain applications, a sudden failure may be preferable to a gradual failure. A high-speed machine, for example, where The larger standard bladder designs are limited to 220 GPM, product quality is a function of hydraulic system pressure. although this may be increased to 600 GPM using a highflow Because sudden failure is detected immediately, scrap is port. The poppet valve controls flow rate, with excessive flow minimized, whereas a gradual failure might mean that causing the poppet to close prematurely. Flow rates greater production of a large quantity of sub-standard product could than 600 GPM may be achieved by mounting several occur before the failure became apparent. accumulators on a common manifold – see Large/Multiple Accumulators, page 11. A bladder/diaphragm accumulator would be most suitable for this application. For a given system pressure, flow rates for piston accumula- tors generally exceed those for bladder designs. Flow is Conversely, where continuous operation is paramount and limited by piston velocity, which should not exceed 10 ft/sec. sudden failure could be detrimental as, for example, in a to avoid piston seal damage. In high-speed applications, braking or steering circuit on mobile equipment, a progres- high seal contact temperatures and rapid decompression of sive failure mode is desirable. In this application, a piston nitrogen that has permeated the seal itself, can cause accumulator would be appropriate. blisters, cracks and pits in the seal surface. In this type of Output Volume application a bladder style accumulator would be better The maximum sizes available of each type of accumulator suited. determine the limits of their suitability where large output volumes are required. There are, however, several methods Table 2: Maximum Recommended of achieving higher output volumes than standard accumula- Accumulator Flow Rates tor capacities suggest - see Large/ Multiple Accumulators, page 11. GPM at 3000 PSI Table 1 compares typical fluid outputs for Parker’s 10 gallon Bladder Piston Bladder Diaphragm Piston Bladder High Diaphragm piston and bladder accumulators operating isothermally as Bore Capacity Capacity Std. Flow auxiliary power sources over a range of minimum system 2 1 qt. .5-10 cu. in. 100 40 11 pressures. The higher precharge pressures recommended for piston accumulators result in higher outputs than from 3 1 gal. 20-85 cu. in. 220 150 26 comparable bladder accumulators. Also, bladder accumula- 4 2.5 gal. 120-170 cu. in. 397 220 600 42 tors are not generally suitable for compression ratios greater than 4:1, as these could result in excessive bladder deforma- 6 and 818 220 600 tion. 7 Larger 1199 220 600 Piston accumulators have an inherently higher output 9 1982 220 600 relative to their overall dimensions, which may be critical in locations where space is limited. Piston accumulators are 12 3450 available in a choice of diameters and lengths for a given capacity, whereas bladder and diaphragm accumulators are frequently offered in only one size per capacity, and fewer sizes are available. Piston accumulators can also be built to custom lengths for applications in which available space is critical. 7 Parker Hannifin Corporation Hydraulic Accumulator Division Rockford, Illinois USA Catalog HY10-1630/US Hydraulic Accumulators nAtcecnutsmulator Selection Guide Introduction Fluid Type Bladder/Diaphragm accumulators are more resistant to 4000 damage caused by contamination of the hydraulic fluid than piston types. While some risk exists from contaminants trapped between the bladder and the shell, a higher risk of failure exists from the same contaminants acting on the piston seal. PSI – Bladder accumulators are usually preferred to piston type ure 2000 accumulators for water service applications. Water systems s s No accumulator in circuit e tend to carry more solid contaminants and lubrication is poor. Pr Piston accumulator Both the piston and bladder type units require some type of preparation to resist corrosion on the wetted surfaces. Bladder accumulator Piston accumulators are preferred for systems using exotic fluids or where extremes of temperature are experienced as, 0 0 1000 2000 compared to bladders. Piston seals are more easily molded Time – ms in the required special compounds, and may be less expensive. Fig.4 Shock wave test results – Example 1 Response Time In theory, bladder and diaphragm accumulators should Installing a Greer 1 gallon piston accumulator at the valve respond more quickly to system pressure variations than reduces the transient to 100 PSI over relief valve setting piston types. There is no static friction to be overcome as (medium trace). with a piston seal, and there is no piston mass to be acceler- Substituting a 1 gal. bladder accumulator further reduces the ated and decelerated. In practice, however, the difference in transient to 80 PSI over relief valve setting (dark trace), an response is not great, and is probably insignificant in most improvement of only 20 PSI and of little practical signifi- applications. cance. This applies equally in servo applications, as only a small percentage of servos require response times of 25ms or Example 2 less. This is the point where the difference in response A second, similar test using 0.625 in. tubing and a relief between piston and bladder accumulators becomes signifi- valve setting of 2650 PSI (Fig. 5) results in a pressure spike cant. Generally, a bladder accumulator should be used for of 2011 PSI over relief valve setting without an accumulator applications requiring less than 25ms response time, and (light trace). either accumulator type for a response of 25ms or greater. A Parker piston accumulator reduces the transient to 107 PSI over relief valve setting (medium trace), while a bladder Shock accumulator achieves a transient of 87 PSI over relief valve Suppression setting (dark trace). The difference between accumulator types in shock suppression is again negligible. Shock control does not necessarily demand a bladder/diaphragm accumulator. Example 1 4000 A test circuit (Fig.3) includes a control valve situated 118 ft. from a pump supplying fluid at SI P 29.6 GPM. The circuit – uses 1.25 in. tubing and Tmuabkinegs length ure 2000 tohpee nre aliet f2 7va5l0v eP iSsI .set to psdeuisrmtvaopnv-ctaoel-v 3e6m. Press NPios taocnc aucmcuulmatuolra itno rcircuit Shutting the control valve Bladder accumulator (Fig.4) produces a pressure spike of 385 PSI over relief valve setting 0 0 1000 2000 (light trace). Time – ms Fig.3 Test circuit to generate and measure shock waves in Fig.5 Shock wave test results – Example 2 a hydraulic system 8 Parker Hannifin Corporation Hydraulic Accumulator Division Rockford, Illinois USA