IPH Catalog High-pressure internal gear pumps

Voith Turbo IPH Catalog High-pressure internal gear pumps Benefits that impress Internal gear pumps from Voith Turbo are working reliably in hundreds of thousands of machines around the world. Sophisticated technology, robust design and costefficient operation have convinced thousands of customers to trust Voith. Based on that trust, we have become the world market leader for high-pressure internal gear pumps with gap compensation. Features that count Compact dimensions, low operating noise levels, minimal pressure and volume pulsation and a high degree of efficiency have always been important customer requirements when it comes to using hydraulic pumps. IPH high-pressure pumps with radial and axial sealing gap compensation have been meeting these requirements extremely reliably for many years now. Machines that run Rarely seen, but hard at work in countless machines, Voith Turbo internal gear pumps reliably provide high pressures. They are mainly used in the plastic and sheet-metal processing sectors, presses as well as conveying and lifting equipment. The pumps are also in demand for shipbuilding, municipal vehicles, power plants and special machine building.

Contents Page High-pressure pumps in hydraulic units with accumulator charging circuits Design and function 3 Performance data 4 IPH 4 IPH 5 8 IPH SAE suction and pressure flange 2 Type code 3 Order designation Multi-flow pumps 4 Pump combinations Designs 5 2

Design and function Pinion shaft 2 Internal gear 3 Filler pin 4 Filler piece 5 Axial disc Control piston 7 Radial pressure field 8 Axial pressure field 9 Housing End cover with bleeder screw 85 2958 2 7 4 7 3 Suction chamber Pressure chamber Design features Internal gear principle Plain bearings Radial and axial sealing gap compensation Product characteristics Long service life High volumetric efficiency High overall efficiency Very low flow and pressure pulsation Low noise levels Compact dimensions Low weight Wide speed range Excellent suction properties High permitted viscosity Simple maintenance Multiple pumps and pump combinations are possible Suitable for variable-speed drives (variable volume flow) Motor operation possible (energy recovery) Function Rotation of the gears within the pump draws in the pressure fluid (usually hydraulic oil) into the space between the pinion and internal gear. The two smooth running gears help to ensure excellent suction behavior. In the radial direction, the gears chambers are sealed by gear meshing and the filler piece. In the axial direction, the axial plates seal the pressure chamber with the minimal possible gap. This design minimizes volume losses and increases efficiency. When the gears rotate, the pinion teeth enter the gaps between the internal gear teeth and displace the pressure fluid. Combinations IPH pumps can be combined to form dual or multi-flow pumps. Combinations with other Voith Turbo pump series are also possible. Used in conjunction with pumps from the medium and low-pressure series, Voith equipment can handle a wide range of potential applications. For further information on possible combinations, see page 4 and our brochure No. G74 (Voith multiflow pumps). Combinations with third-party products are generally possible. Please contact your Voith Turbo representative for more information. Variable volume flow We supply complete hydraulic units with IPH pumps, asynchronous motors and frequency converters (EPA/ EPAF system) to generate variable volume flows. For further information, see our brochure No. G42 (Voith EPA System). 3

Performance data Technical data Calculations Design Internal gear pump with radial and axial sealing Delivery Q = V g th n η v -3 [l/min] gap compensation Type Mounting types IPH SAE hole flange; ISO 39/ Power P = Q p η g [kw] Line mounting Rotation direction Mounting position SAE suction and pressure flange J 58 C code clockwise or anti-clockwise any V g th n Pump volume per revolution [cm 3 ] Speed [min - ] Shaft load Input pressure For details of radial and axial drive shaft loads, please contact your Voith Turbo representative.8 3 bar absolute pressure η v η g Volumetric efficiency Overall efficiency Pressure fluid (at start, briefly. 3 bar) HLP mineral oils DIN 5524, part 2 or 3 p Differential pressure [bar] Viscosity range of the pressure fluid 3 mm 2 s - (cst) Permissible start viscosity max. 2 mm 2 s - (cst) Permissible temperature of the pressure -2 + C fluid Necessary purity of the pressure fluid in accordance with NAS 38 Class 8 Filtration Filtration quotient min. β 2 75, recommended β (longer service life) Permissible ambient temperature - + C 4

Characteristics Type, sizedelivery Displacement per revolution [cm 3 ] min. [min - ] Speed max. [min - ] Delivery at 5 min - [l/min] Pressures within the range n min n max Continuous pressure [bar] Peak pressure [bar] IPH 4 2 2.7 3 3 3. 3 33 IPH 4 25 25.7 3 3 38. 25 35 IPH 4 32 32.3 3 3 48.5 25 3 IPH 5 4 4.8 3 3.2 3 33 IPH 5 5 5.3 3 3 75.4 25 35 IPH 5 4 3.9 3 3 95.8 25 3 IPH 8.3 3 25 2.9 3 33 IPH. 3 25 52.4 25 35 IPH 25 25. 3 25 88.8 25 3 The values given apply for: Pumping of mineral oils with a viscosity of 2 4 mm 2 s - An input pressure of.8 3. bar absolute pressure Notes: Peak pressures apply to 5% of operating time and a maximum cycle time of minute. Please enquire about pressures at speeds lower than n min. Due to production tolerances, the pump volume may be approx..5% lower. 5

IPH 4 Standard designs Design and dimensions.3 ±.5 77 73 3 22 Mx5 72 4.3 8 28 8 h9 25 h7 8.7 37 g * 47.5 3.5 2 c/2 c/2 e M8x Z ø. h8 c k l h Z i * The plug screw must be closed during operation. Ensure the Mx plug screw, hexagon socket SW5, is tightened to a torque of Nm. Depending on the pump position, filling or ventilation is possible with the Mx plug screw prior to commissioning. Design Dimensions Weight SAE flange no. c e g h i k I m Thread [kg] IPH 4 2 2 3 9 3 58.7 3.2 Mx5 3.5 3 IPH 4 25 8 3 2 3 58.7 3.2 Mx5 4.2 3 IPH 4 32 3 24 32 58.7 3.2 Mx5 5. 3 A B Permitted input torques: Input shaft A: 45 Nm Secondary shaft B: 3 Nm Delivery Q 5 Efficiency η v and η g 45 95 η v Delivery Q in l/min 4 35 3 Efficiency in % 9 85 75 η g 25 5 5 2 25 3 35 5 5 2 25 3 35

Type Pump sizes Rotation, suction connection Mounting flange Shaft end Standard IPH 4 2 Clockwise rotation, radial suction port SAE 2-hole flange, dimensions on left Parallel shaft with keyway connection, dimensions on left 2 4.5 25 4.5 72.5 72.5 32 Variants Anti-clockwise rotation, radial suction port Involute gearing with 2-hole SAE flange 4 ANSI B92.a 3T /32 DP 3 72 SAE 4-hole flange 4.5 2 3 ø. h8 8 h9 42.5 ø78 24 9 28 42.5 5 9 22 25 h7 Involute gearing with 2-hole SAE flange 4.5 42 ANSI B92.a 3T /32 DP 3 4 Designation according to type code Type code/order designation, see page 3 Input power P Power P in kw 3 25 2 5 5 5 5 2 25 3 35 Airborne noise level Airborne noise level in db(a) 5 55 5 5 5 2 25 3 35 Measurement site m axial Measurement conditions: Speed: 5 min - Viscosity of pressure fluid: 4 mm 2 s - Operating temperature: 4 C Characteristic curves: IPH 4 2 IPH 4 25 IPH 4 32 Note: Measurement taken in a low-noise room. In an anechoic room, the measurements are approx. 5 db(a) lower. 7

IPH 5 Standard designs Design and dimensions.3 ±.2 95 98 8 2.2 Mx5 2 8 8.8 9 35 h9 32 h7.2 44 g * 52.3 7.5 22 c/2 c/2 e M2x25 Z ø 27 h8 c l h Z k i * The plug screw must be closed during operation. Ensure the Mx plug screw, hexagon socket SW5, is tightened to a torque of Nm. Depending on the pump position, filling or ventilation is possible with the Mx plug screw prior to commissioning. Design Dimensions Weight SAE flange no. c e g h i k I m Thread [kg] IPH 5 4 38 35 24 35 3 M2x9 2.8 2 3 IPH 5 5 45 35 27 42 3 M2x9 28.3 2 3 IPH 5 4 55 35 29 42 3 M2x9 3 2 3 A B Permitted input torques: Input shaft A: Nm Secondary shaft B: 54 Nm Delivery Q Efficiency η v and η g Delivery Q in l/min 9 Efficiency in % 95 9 85 75 η v η g 5 5 5 2 25 3 35 5 5 2 25 3 35 8

Type Pump sizes Rotation, suction connection Mounting flange Shaft end Standard IPH 5 4 Clockwise rotation, radial suction port SAE 2-hole flange, dimensions on left Parallel shaft with keyway connection, dimensions on left 22 5 89 89 4 Variants Anti-clockwise rotation, radial suction port Involute gearing with 2-hole SAE flange ANSI B92.a 4T 2/24 DP 3 89 SAE 4-hole flange ø 27 h8 5 h9 ø 89 ø2 35 5 55 89 7.5 32 h7 Involute gearing with 2-hole SAE flange 5 ANSI B92.a 4T 2/24 DP 3 Designation according to type code Type code/order designation, see page 3 Input power P Power P in kw 5 4 3 2 5 5 2 25 3 35 Airborne noise level Measurement site m axial Measurement conditions: 75 Speed: 5 min - Viscosity of pressure fluid: 4 mm 2 s - Operating temperature: 4 C Airborne noise level in db(a) 5 55 5 5 2 25 3 35 Characteristic curves: IPH 5 4 IPH 5 5 IPH 5 4 Note: Measurement taken in a low-noise room. In an anechoic room, the measurements are approx. 5 db(a) lower. 9

IPH Standard designs Design and dimensions.3 ±.2 2 2 5.5 2.5 3 M2x2 24 228..3 35 43 2 h9 4 h7 3.7 g 2.5 c/2 c/2 e * 22 M2x25 Z ø 52.4 h8 c l h k Z i * The plug screw must be closed during operation. Ensure the Mx plug screw, hexagon socket SW5, is tightened to a torque of Nm. Depending on the pump position, filling or ventilation is possible with the Mx plug screw prior to commissioning. Design Dimensions Weight SAE flange no. c e g h i k I m Thread [kg] IPH 7 49 32.5 5 77.8 42.9 M2x23 5.5 4 5 IPH 8 49 3 5 77.8 42.9 M2x23 54 4 5 IPH 25 93 47 39 5 77.8 42.9 M2x23 58 4 5 A B Permitted input torques: Input shaft A: 35 Nm Secondary shaft B: Nm Delivery Q 2 Efficiency η v and η g 9 95 η v Delivery Q in l/min 5 3 Efficiency in % 9 85 75 η g 5 5 2 25 3 35 5 5 2 25 3 35

Type Pump sizes Rotation, suction connection Mounting flange Shaft end Standard IPH Clockwise rotation, radial suction port SAE 2-hole flange, dimensions on left Parallel shaft with keyway connection, dimensions on left 2.5 4 4 2.5 2 25 Variants Anti-clockwise rotation, radial suction port Involute gearing with 2-hole SAE flange 4 ANSI B92.a 3T 8/ DP 3 2.5 SAE 4-hole flange 4 2 ø 52.4 h8 75.5 2 h9 ø3 24 ø228. 43 75.5 3 22 24 4 h7 Involute gearing with 2-hole SAE flange 4 75.5 ANSI B92.a 3T 8/ DP 3 4 Designation according to type code Type code/order designation, see page 3 Input power P Power P in kw 2 4 2 5 5 2 25 3 35 Airborne noise level Measurement site m axial Measurement conditions: Speed: 5 min - Viscosity of pressure fluid: 4 mm 2 s - 75 Operating temperature: 4 C Airborne noise level in db(a) 5 5 5 2 25 3 35 Characteristic curves: IPH IPH IPH 25 Note: Measurement taken in a low-noise room. In an anechoic room, the measurements are approx. 5 db(a) lower.

C A i SAE suction and pressure flanges according to SAE J 58 C code SAE flange, single-piece S 2) E ) k B D SAE flange no. A B C D E ) i k S 2) max. pressure Thread Seal ring Thread [bar] G /2 4 54 3 8. 3.53 38. 7.5 M 8 345 G 3 /4 5 5 3 24.99 3.53 47. 22.2 M 345 2 G 55 38 32.92 3.53 52.4 2.2 M 345 3 G - /4 8 79 4 37.9 3.53 58.7 3.2 M 27 4 3) G - /2 82 98 5 47.22 3.53 3 M 2 345 3) 3 G - /2 78 93 45 47.22 3.53 3 M 2 27 5 G 2 9 2 45 5.74 3.53 77.8 42.9 M 2 27 G 2- /2 5 4 5 9.44 3.53 89 5.8 M 2 72 7 G 3 24 34 5 85.32 3.53.3 2 M 38 8 G 4 4 2 48.72 3.53 3 77.8 M 34 ) Round seal ring (O-ring) ISO-R 29 NBR 2) Machine screw EN ISO 472 3) Special design, deviating from SAE J 58 C code 2

Type code Order designation IPH 5 5 Example: IPH 5 5 Shaft end Splined gear shaft ANSI B92.a Parallel shaft with keyway Mounting flange SAE 2-hole SAE 4-hole Rotation, suction port Clockwise rotation, radial suction port Anti-clockwise rotation, radial suction port 4 Clockwise rotation, special design 9 Anti-clockwise rotation, special design Delivery Sizes Available deliveries 4 2 25 32 5 4 5 4 25 Sizes 4 5 Type of internal gear pump IPH 3

Multi-flow pumps Pump combinations IPC 7 IPV 7 IPH IPC IPV IPH 5 IPN IPC 5 IPV 5 IPH 4 IPN 5 IPC 4 IPV 4 IPN 4 IPM 4 IPV 3 Pump combinations in order of type and size Combinations of IPH pumps IPH pumps of identical or different sizes can be combined to form multi-flow pumps. All sizes with each displacement are available as two or three-flow pumps; four-flow pumps must be designed by Voith Turbo. The pumps are arranged in increasing order according to size and delivery. Combination of IPH/IP -pumps It is possible to combine IPH pumps with other Voith Turbo pump series (e.g. medium-pressure pumps IPC/IPM or low-pressure pumps IPN). The pumps are arranged by type and size, as shown in the illustration above. If identical types or identical sizes follow each other, the pump with the higher pump flow is placed closer to the drive. Selection. Identify the pressure ranges and then choose the appropriate pump series. 2. Identify the deliveries, and then select the appropriate size(s). 3. Define the sequence of the pumps. 4. Check the torque. 5. Determine the direction of rotation and suction.. Specify the mounting flange and shaft end. Connection, assembly As a rule, multi-flow pumps are mounted to the drive using a flange. All information on flange designs and shaft ends is contained in the relevant pump series catalog. For further relevant information, such as how to determine the adapter housing, see brochure No. G 74 (Voith Multi-Flow Pumps). 4

Designs Rotation and suction Mounting flange Shaft end clockwise anti-clockwise 3 8 3 8 For designs and dimensions, see catalog of the relevant pump series. For designs and dimensions, see catalog of the relevant pump series. Special design 4 9 Special design SAE 2- hole flange SAE 4-hole flange 5

Voith Turbo GmbH & Co. KG Hydrostatics Alexanderstr. 2 89522 Heidenheim, Germany Tel. +49 732 37-4573 Fax +49 732 37-79 hydrostatik@voith.com www.voithturbo.com/hydrostatics.htm Voith internal gear pumps used around the world Plastics injection molding machine Folding press Punching press Hydraulic unit Lifting platform Marine applications Additional applications: Die-casting machines Packing presses Shears Ground drilling machines Test rigs Hydraulic presses Crane building Lifting devices Garbage collection vehicles G 89 en 4.25 KO/WF Dimensions and illustrations without obligation. Subject to modifications.