Return-Suction Filters E 8 E 98 Tank top mounting Connection up to G½ / - SE and SE Nominal flow rate up to 6 l/min / 8. gpm Description pplication For operation in units with hydrostatic drives, when the return flow is under all operating conditions higher than the oil flow of the feed pump. Performance features Protection against wear: y means of filter elements that even in full-flow filtration meet the highest demands regarding cleanliness classes. Suction filter function: ecause of the %-filtration of the suction flow, no dirt can get into the feed pump. Return filter function: y means of full-flow filtration in the system return, the pumps above all are protected from dirt particles remaining in the system after assembly, repairs, or which are generated by wear or enter the system from outside. Return Suction Filter E 98 Page
Description Function (schematic): Functional characteristics The hydraulic oil returning from the circuit () passes the filter element (), is pressurized by three. bar / 7. psi check valves () and supplied to the feed pump (). The surplus oil flows filtered over the integral check valve into the reservoir. s the feed pump is always fed with pressurized oil, the risk of cavitation is minimized and full performance is available even during the critical cold start phase. n integral pressure relief valve () prevents too high back pressure and protects the shaft seals against damages. s this valve leads the oil directly into the tank there is no direct connection between the return line () and the connection of the feed pump () (no by-pass valve function). Two emergency-suction valves () with µm protection strainer () supply the feed pump in case of a short term of lack of oil. During normal operation, a lack of oil may definitely not occur (refer to Design section). Start-up / De-aeration For units with emergency-suction valve and protection strainer the start up set E 8.7 can be used to de-aerate the hydraulic system at first start-up or at start up after repair; hereby the immediate supply of the feed pump with hydraulic oil is guaranteed. For all other types, deaerating instructions published by the manufacturers of hydraulic drives must be observed. Emergency-suction (schematic): Filter maintenance y using a clogging indicator the correct moment for maintenance is indicated and guarantees therefore the optimum utilization of the filter elements. Filter elements Flow direction from center to the outside. The star-shaped pleating of the filter material results in: large filter surfaces low pressure drop high dirt-holding capacities long service life ccessories Electrical and / or optical clogging indicators are available. Dimensions and technical data see catalog sheet 6.. Page
Layout General In machines with a hydrostatic drive and combined working hydraulic system, return-suction filters replace the suction or pressure filters previously required for the feed pump of the closed-loop hydrostatic drive circuit as well as the return filter for the open-loop working hydraulic circuit. While each circuit operates independently with separate filters, the combination of the two circuits via the return-suction filter causes interaction between the circuits. If the design criteria described below are taken into account, you can take full advantage of the benefits provided by the return-suction filter concept, thus making sure that your system performs reliably even under extreme operating conditions. Required return flow in the system In order to maintain a pre-charge pressure of approx.. bar / 7. psi at the intake of the feed pump, the return flow must exceed the suction flow under any operating conditions: Versions with hole (Ø 8 mm /. inch) in the pressurizing valve: at least l/min / 7.9 gpm of excess flow Permitted feed pump flow rate at operating temperature (ν < 6 mm /s / 8 SUS, rpm = max): feed pump flow rate <. x rated return flow according to column of selection table at cold start-up (ν < mm /s / 6 SUS, rpm= min - ): feed pump flow rate <. x rated return flow according to column of selection table Please contact us if your system operates with higher flow rates than stated above. Flow velocity in the connecting lines Flow velocity in the return lines. m/s /.8 ft/s Flow velocity in the suction lines. m/s /.9 ft/s Permitted pressure in the suction lines t cold start up (ν < mm /s / 6 SUS, rpm = min - ): feed pump flow rate. x rated return flow. The pressure loss in the suction lines must not exceed. bar /.8 psi. Filter fineness grades With the filter fineness grades available, the following oil cleanliness according to ISO 6 can be achieved: EX: 8//... //7 6EX: /7/... 7// Even with the 6EX filter fineness grade, the requirements specified by manufacturers of hydrostatic drives are sometimes exceeded significantly. If components requiring a still better oil purity are used, we recommend the EX filter fineness grade. Suggested circuit layouts ) The leakage oil of the hydrostatic drive is routed across the filter. Drain oil to filter Working hydraulics The entire dirt produced in the hydrostatic drive by abrasion is filtered out immediately and is thus not taken in by the pump of the open-loop circuit. This circuit layout is always recommended if the return flow only slightly exceeds the suction flow, i.e. if there is a risk that the. / 7. psi bar pre-charge pressure cannot be maintained. ) The drain oil of the hydrostatic drive is not routed across the filter but is discharged directly into the tank Working hydraulics P ackpressures in system return lines If drain oil from the hydrostatic drive is routed across the filter in addition to the flow of the open-loop circuit, the following has to be observed in order to protect the shaft seals: permitted leakage oil pressure for a given viscosity and speed (manufacturer s specifications!) pressure loss caused by the leakage oil pipes pressure loss caused by the oil cooler used backpressure of the filter for a given flow rate or kinematic viscosity (refer to pressure loss diagrams) Drain oil to tank P Depending on the application, the use of a cooler by-pass valve is recommended. Generously sized drain oil pipes are also of advantage. This circuit layout has the advantage that drain oil pressures are comparatively low. Page
Characteristics Nominal flow rate Up to 6 l/min / 8. gpm in return line (see Selection Chart, column ). Up to l/min / 79. gpm feed pump flow rate (see Layout). The nominal flow rates indicated by RGO-HYTOS are based on the following features: closed by-pass valve at ν mm /s / 97 SUS element service life > operating hours at an average fluid contamination of.7 g per l/min /.7 g per gpm flow volume flow velocity in the return lines. m/s /.8 ft/s flow velocity in the suction lines. m/s /.9 ft/s Connection Threaded ports according to ISO 8 or DIN SE standard J and SE flange ( psi). Sizes see Selection Chart, column 6 (other port threads on request). Please consider the connection size regarding max. flow volumes. Filter fineness µm(c)... 6 µm(c) β-values according to ISO 6889 (see Selection Chart, column and diagram Dx). Dirt-holding capacity Values in g test dust ISO MTD according to ISO 6889 (see Selection Chart, column ). Temperature range - C... + C (temporary - C... + C) - F... + F (temporary - F... +8 F) Viscosity at nominal flow rate at operating temperature: ν < 6 mm /s / 8 SUS as starting viscosity: ν max = mm /s / 6 SUS at initial operation: The recommended starting viscosity can be read from the diagram D (pressure drop as a function of the kinematic viscosity) as follows: Find the 7% p of the cracking pressure of the by-pass valve on the vertical axis. Draw a horizontal line so that it intersects the p curve at a point. Read this point on the horizontal axis for the viscosity. Operating pressure Max. bar / psi Materials Screw-on cap: Filter head: Filter bowl: Seals: Filter media: luminum alloy luminum alloy Steel NR (FPM on request) EXPOR MX - inorganic multi-layer microfiber web Fitting position Up to from the vertical, preferably vertical. Even under unfavorable operating conditions (min. oil level, max. sloping) the oil outlet resp. emergency suction has to be below the oil level. Hydraulic fluids Mineral oil and biodegradable fluids (HEES and HETG, see info sheet.). Page
Diagrams p-curves for complete filters in Selection Chart, column ( % of the nominal flow volume via connection ) D Pressure drop as a function of the flow volume at ν = mm /s / 6 SUS ( = casing empty) Pressure drop as a function of the kinematic viscosity at nominal flow p [bar] 6..8 79..7. 8.., 9..,.,., E 8 Q [gpm] 6 Q [l/min].8. 7. p [psi] p [bar] ν [SUS] 97 8 78 78 6 7. 8.. 9. +. 6 8 ν [mm /s] p [psi] D Pressure drop as a function of the flow volume at ν = mm /s / 6 SUS ( = casing empty) Pressure drop as a function of the kinematic viscosity at nominal flow p [bar] 6..8 79..7. 8.., 9. E 98.,.8.,.., 7. Q [gpm] p [psi] p [bar] ν [SUS] 97 8 78 78 6 7. 8.. + 9.. p [psi] 6 Q [l/min] 6 8 ν [mm /s] Filter fineness curves in Selection Chart, column Dx Filtration ratio β as a function of particle size x obtained by the Multi-Pass-Test according to ISO 6889 The abbreviations represent the following β-values resp. finenesses: Filtration ratio β for particles > x µm Efficiency [%] For EXPOR MX and Paper elements: EX = β (c) = EXPOR MX 7EX = β 7 (c) = EXPOR MX EX = β (c) = EXPOR MX 6EX = β 6 (c) = EXPOR MX P = β (c) = Paper ased on the structure of the filter media of the P paper elements, deviations from the printed curves are quite probable. For special applications, finenesses differing from these curves are also available by using special composed filter material. Particle size x [µm] (for particles larger than the given particle size x) Page
Selection Chart Part No. Nominal return flow rate Pressure drop see diagram D/curve no. Dirt-holding capacity Filter fineness see Diagr. Dx Connection / SE ( psi) Cracking pressure of CV Cracking pressure of PRV Symbol Suction valve l/min g bar bar kg Replacement filter element Part No. Weight 6 7 8 9 E 8-6 6 D/ EX G½ / SE + G.. V.-6 8.6 + Remarks E 8-8 7 D/ 6EX G½ / SE + G.. V.-7 8.6 + E 98-6 8 D/ EX G½ / SE + G.. V.6-6. + E 98-8 6 D/ 6EX G½ / SE + G.. V.6-7. + The individual flow rates must be matched to the connections Cracking pressure of check valve Cracking pressure of pressure relief valve With hole Ø 8 mm /. inch in the check valve for oil drain when opening the filter cover With emergency-suction valves and protection strainers (mesh size µm) ll filters are delivered with plugged clogging indicator connections M x.. s clogging indicators on the return side (P ) either manometers or electrical pressure switches can be used. The monitoring of the vacuum on the suction side (P ) is additionally possible. Order example: The filter E 8-6 has to be supplied with x connections (...,... ). Order description: E 8-6 Connections: various options are available: x connections ( und, und ) - G½ / SE + G (with locking screw) x connections (...,... ) - x G¼ / SE ½, G¾ + G (SE on request) For the appropriate clogging indicator see catalog sheet 6.. Remarks: The start of the red area respectively the switching pressure of the electrical pressure switch has always to be lower than the cracking pressure of the pressure relief valve (see Selection Chart, column 9). Clogging indicators are optional and always delivered detached from the filter. The filters listed in this chart are standard filters. If modifications are required, we kindly ask for your request. For de-aeration a bleed screw (for connecting P ) with Part No. SV. is available. Page 6
Selection Chart Part No. Nominal return flow rate Pressure drop see diagram D/curve no. Dirt-holding capacity Filter fineness see Diagr. Dx Connection / SE ( psi) Cracking pressure of CV Cracking pressure of PRV Symbol Suction valve gpm g SE psi psi lbs Replacement filter element Part No. Weight 6 7 8 9 E 8-76 9. D/ EX - / SE + -6 7. 6 V.-6 9. 6+7 Remarks E 8-78. D/ 6EX - / SE + -6 7. 6 V.-7 9. 6+7 E 98-76 6.8 D/ EX - / SE + -6 7. 6 V.6-6.9 6+7 E 98-78 8. D/ 6EX - / SE + -6 7. 6 V.6-7.9 6+7 The individual flow rates must be matched to the connections Cracking pressure of check valve Cracking pressure of pressure relief valve Corresponds to 7 /8- UN Corresponds to /6- UN 6 With hole Ø. inch / 8 mm in the check valve for oil drain when opening the filter cover 7 With emergency-suction valves and protection strainers (mesh size µm) ll filters are delivered with plugged clogging indicator connections M x. mm. s clogging indicators on the return side (P ) either manometers or electrical pressure switches can be used. The monitoring of the vacuum on the suction side (P ) is additionally possible. Order example: The filter E 8-76 has to be supplied with x connections (...,... ). Order description: E 8-86 Connections: various options are available: x connections ( und, und ) - - SE / SE + -6 SE (with locking screw) 7 x connections (...,... ) - x - SE / SE ½, - SE + -6 SE 8 (SE on request) For the appropriate clogging indicator see catalog sheet 6.. Remarks: The start of the red area respectively the switching pressure of the electrical pressure switch has always to be lower than the cracking pressure of the pressure relief valve (see Selection Chart, column 9). Clogging indicators are optional and always delivered detached from the filter. The filters listed in this chart are standard filters. If modifications are required, we kindly ask for your request. For de-aeration a bleed screw (for connecting P ) with Part No. SV. is available. Page 7
Dimensions Version with x connections Version with x connections When using SE-flanges consider size F or F I I R U H / H P Connections G plugged with locking screw F G F G F F F Z X Ø E Ø D Ø C Ø E Ø D Ø C Dia hole in reservoir K K P 9º P 9º W Connections M x. for clogging indicator standard (Mounting holes for differential pressure switches on request P L P S Port sizes and mounting surface (O-ring area of support hatched) C L T xm V N P P N Y Y S Q N M S Q O Tank surface sealing with O-ring N7.7 (included in basic equipment) Measurements in mm Type C D E F * F * F * F F G H H I I E 8 s. Selection Chart s. Selection Chart. 8 9.9 6. 6. 6 8 6 E 98 s. Selection Chart s. Selection Chart. 8 9.9 6. 6. 6 8 7 78 Type K K L M N N O Q R S S T U V W X Y Z E 8 8 86. 6 89 M 8 M 99 9 6 F 7 6 7 98 E 98 6 6 8 86. 6 89 M 8 M 99 9 6 F 7 6 7 98 Measurements in inch Type C D E F * F * F * F F G H H I I E 8 s. Selection Chart s. Selection Chart......6.8.96. 6. 7.8.6. E 98 s. Selection Chart s. Selection Chart......6.8.96. 6. 7.8 9..7 Type K K L M N N O Q R S S T U mm V W X Y Z E 8 6.7.87 7.8..7. M.7 M.9.9 6. F7.7..76.86.7 E 98.8.8 7.8..7. M.7 M.9.9 6. F7.7..76.86.7 *For use of SE-flanges see this measurement Page 8
Symbols P P P P P P Spare Parts Pos. Designation Part. No. Cover E. O-ring N7..76 x. mm.98 x. inch Replacement filter element see Chart / col. O-ring 6. x. mm.7 x. inch N7.7 The functions of the complete filters as well as the outstanding features of the filter elements assured by RGO-HYTOS can only be guaranteed if original RGO-HYTOS spare parts are used. Quality ssurance Quality management according to DIN EN ISO 9 To ensure constant quality in production and operation, RGO-HYTOS filter elements undergo strict controls and tests according to the following ISO standards: ISO 9 ISO 9 ISO 9 ISO 968 ISO 6889 ISO 8 Verification of collapse / burst pressure rating Verification of fabrication integrity (ubble Point Test) Verification of material compatibility with fluids Evaluation of pressure drop versus flow characteristics Multi-Pass-Test (evaluation of filter fineness and dirt-holding capacity) Determination of resistance to flow fatigue using high viscosity fluid Various quality controls during the production process guarantee the leakfree function and solidity of our filters. Illustrations may sometimes differ from the original. RGO-HYTOS is not responsible for any unintentional mistake in this specification sheet. Page 9