Instruction Manual Progressive Lubrication Divider Serie JPQ Copyright of Lubmann GmbH, Version 03.2022-GB 2 U s e rs ’ In s tr u c ti o n M a n u a l - D iv id e r J P Q S e ri e s Overview 3 Working Principle 4 Assembly and Components 5-13 Combination Principle 14-16 Divider Monitoring Sensor / Indication Pin 17-18 Standard Package for Divider Elements 19 Divider Accessories 19-20 Order Key 21 Index Index 3 The progressive piston dividers are divider devices with a hydraulic sequence control, the pistons of which are regulated by the supplied lubricant in a way that the lubricant inevitably…

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RU 093 ROTATING UNIONS water steam air hydraulic hot oil vacuum coolant custom applications M a in C a ta lo g u e GB 2 Please unfold for DEUBLIN Selection Chart Our aim: “To make every effort toward producing the best product of its kind on the Market”. This tenet serves as an incentive and an obligation in equal measure. Adherence to this policy has been responsible for our growth from a small garage shop to the world’s largest manufacturer of Rotating Unions with a world-wide sales and service network. Wherever water, steam, oil, coolant lubricants or other media have to be conveyed into or…

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FLB Series 104 Common specifications Descriptions Standard specifications Optional specifications Voltage Model no. FLB2 FLB3/4/5 3mA or less 6mA or less 1.5mA or less 3mA or less 1mA or less 2mA or less 100 VAC 200 VAC 24 VDC 12 VDC Le ak ag e cu rre nt Working fluid Working pressure differential range Withstanding pressure (water pressure) Fluid temperature Ambient temperature Heat proof class Atmosphere Valve structure Valve seat leakage Installation attitude Protective structure AC: -10 to 60 DC: -10 to 40 (no freezing) -10 to 90 (no freezing) AC: -20 to 60 DC: -20 to 40 -20 to 60 B H or…

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FLB Series 104 Common specifications Descriptions Standard specifications Optional specifications Voltage Model no. FLB2 FLB3/4/5 3mA or less 6mA or less 1.5mA or less 3mA or less 1mA or less 2mA or less 100 VAC 200 VAC 24 VDC 12 VDC Le ak ag e cu rre nt Working fluid Working pressure differential range Withstanding pressure (water pressure) Fluid temperature Ambient temperature Heat proof class Atmosphere Valve structure Valve seat leakage Installation attitude Protective structure AC: -10 to 60 DC: -10 to 40 (no freezing) -10 to 90 (no freezing) AC: -20 to 60 DC: -20 to 40 -20 to 60 B H or…

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FLB Series 104 Common specifications Descriptions Standard specifications Optional specifications Voltage Model no. FLB2 FLB3/4/5 3mA or less 6mA or less 1.5mA or less 3mA or less 1mA or less 2mA or less 100 VAC 200 VAC 24 VDC 12 VDC Le ak ag e cu rre nt Working fluid Working pressure differential range Withstanding pressure (water pressure) Fluid temperature Ambient temperature Heat proof class Atmosphere Valve structure Valve seat leakage Installation attitude Protective structure AC: -10 to 60 DC: -10 to 40 (no freezing) -10 to 90 (no freezing) AC: -20 to 60 DC: -20 to 40 -20 to 60 B H or…

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T M P T M 2 P P M P M T T Denomination Diagram Solenoid 12V DC 12 V RAC 24V DC 220V RAC24 V RAC EV08-2B EV08-2A MV08-2B-A -20p[bar] 1.0cc/rev 1.25 1.6 2.0 2.5 3.15 3.65 4.2 5.0 5.7 6.1 110V RAC Material: Aluminium Hydraulic scheme M Central block Pressure range Solenoid valve Pump MPPF- 240 7.4 8.0 1 3 4 . . N [ kW ] [ V ] U 0.8 12 121.5 122.0 122.5 240.8 241.5 242.0 243.0 o D L 3.0 2.2 1.5 1.1 0.75 3.0 2.2 1.5 22 0 /3 8 0 1.1 0.75 0.55 2.2 n = 1 5 0 0 r p m 2.2 1.5 1.1 0.75 1.5 1.1 0.75 0.55 2 2 0 [V] UN [kW] n = 3 0 0 0 r p m AC [mm] L AD 122233 154 122233 154 170270 126 126270 170 126295…

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T M P T M 2 P P M P M T T Denomination Diagram Solenoid 12V DC 12 V RAC 24V DC 220V RAC24 V RAC EV08-2B EV08-2A MV08-2B-A -20p[bar] 1.0cc/rev 1.25 1.6 2.0 2.5 3.15 3.65 4.2 5.0 5.7 6.1 110V RAC Material: Aluminium Hydraulic scheme M Central block Pressure range Solenoid valve Pump MPPF- 240 7.4 8.0 1 3 4 . . N [ kW ] [ V ] U 0.8 12 121.5 122.0 122.5 240.8 241.5 242.0 243.0 o D L 3.0 2.2 1.5 1.1 0.75 3.0 2.2 1.5 22 0 /3 8 0 1.1 0.75 0.55 2.2 n = 1 5 0 0 r p m 2.2 1.5 1.1 0.75 1.5 1.1 0.75 0.55 2 2 0 [V] UN [kW] n = 3 0 0 0 r p m AC [mm] L AD 122233 154 122233 154 170270 126 126270 170 126295…

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1 1.145 Conversion ratio: inch = ; pounds = = g Kg 25.4 453.6 0.4536 mm CUPS BASed On BeRnOULLI’S THeOReM Bernoulli’s theorem explains many phenomena, such as the lifting of a plane’s wing or of a light disc in front of a tube end from which air flows out quickly. This apparently paradoxical phenomenon is exploited for manufacturing vacuum gripping systems (vacuum cups) and handling, with no contact, fragile objects, such as semiconductor plates, silica discs, solar cells, precious metal foils, films and whatever needs to be handled with the greatest care. Our cups based on Bernoulli’s…

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16 100/117 ED 1/32 VPPM VARIABLE DISPLACEMENT AXIAL-PISTON PUMPS HYDRAULIC SYMBOL OPERATING PRINCIPLE TECHNICAL SPECIFICATIONS 16 100/117 ED — The VPPM pumps are variable displacement axial-piston pumps with variable swash plate, suitable for applications with open circuits. — They are available in three different frame sizes with maximum displacements up to 29, 46, 73 and 87cm3/rev. — The pump flow rate is proportional to the rotation speed and to the angle of the swash plate, which can be continuously modulated. The maximum and minimum angle can be limited mechanically via suitable…

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16 100/117 ED 1/32 VPPM VARIABLE DISPLACEMENT AXIAL-PISTON PUMPS HYDRAULIC SYMBOL OPERATING PRINCIPLE TECHNICAL SPECIFICATIONS 16 100/117 ED — The VPPM pumps are variable displacement axial-piston pumps with variable swash plate, suitable for applications with open circuits. — They are available in three different frame sizes with maximum displacements up to 29, 46, 73 and 87cm3/rev. — The pump flow rate is proportional to the rotation speed and to the angle of the swash plate, which can be continuously modulated. The maximum and minimum angle can be limited mechanically via suitable…

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