© blue graphics concept sauer-danfoss design closed circuit introduction, may 2012
TRANSCRIPT
© Blue Graphics Concept Sauer-Danfoss
© Blue Graphics Concept Sauer-Danfoss
Design Closed Circuit
Introduction, May 2012
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MENU
Main Menu
Basic Hydrostatic (closed circuit)
System Overview
Functionality of
components
Hydraulic Fluids
Filtration Reservoir Heat Exchanger
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MENU
Main Menu
Basic Hydrostatic (closed circuit)
System Overview
Functionality of
components
Hydraulic Fluids
Filtration Reservoir Heat Exchanger
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MENU
1. System Overview
Hydrostatic Transmission
• Continuously variable speed w/o loss of traction
A
B
Speed [km/h]
Tra
cti v
e F
orc
e [
N]
Pump Ratio Motor Ratio
Installed Engine Power
hydrostatic transmission
- source 1 -
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1. System Overview
Hydrostatic Transmission
• Motor output torque and speed depends on pump and motor displacement
• Speed of hydrostatic transmission is reciprocal to displacements
• Torque is proportional to displacements
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MENU
Main Menu
Basic Hydrostatic (closed circuit)
System Overview
Functionality of
components
Hydraulic Fluids
Filtration Reservoir Heat Exchanger
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MENU
2. Functionality of Components
Integrated Charge Pump
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2. Functionality of Components
Integrated Charge Pump
• Charge pump is a fixed displacement pump (gerotor-type) which is directly connected to the pump input shaft
• Charge pump displacement should be sized to approximately 10% of whole system displacement (pump and motor(s) displacements) in most applications
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2. Functionality of Components
Charge Pump - Functions
Charge Pump flow rate functions:• Replenish leakage oil of pump and motor• Replenish loop flushing oil through the flushing valve• Provide flow for the servo control systems• Provide flow for auxiliary circuit functions e.g. parking brake
release
Charge Pump pressure functions: • Maintain low loop pressure• Provide sufficient pressure to activate the servo control
systems
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2. Functionality of Components
Charge Pressure Relief Valve
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2. Functionality of Components
Charge Pressure Relief Valve
• Charge pressure relief valve is necessary to maintain low loop pressure
• Protects the charge pump by limiting the charge pressure
• Excess charge pump output flow is directed into the pump case
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2. Functionality of Components
Charge Check Valve
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2. Functionality of Components
Charge Check Valve
• It protects the charge pressure system (charge pump), otherwise a backflow from high pressure side will damaged the charge pump
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2. Functionality of Components
Loop Flushing System
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2. Functionality of Components
Loop Flushing System
• Loop Flushing is necessary because of cooling requirements and contamination removal of system circuit
• The LF-system removes fluid from the low pressure side of the closed circuit system
• Loop Flushing valves are available with different flow rates to optimize flush flow requirements in all system operating conditions
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2. Functionality of Components
High Pressure Relief Valve (HPRV)
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2. Functionality of Components
High Pressure Relief Valve (HPRV)
• High pressure relief valves are needed in hydrostatic transmission systems to limit maximum pressures– Pressures above the product ratings will damage the
transmission– HPRV protect pumps, motors, hoses and other system
components
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2. Functionality of Components
Pressure Limiter
• Pressure Limiter is a non dissipative high pressure control
• Limits the heat generated in the system when pressures are too high
• PL changes the displacement of the pump in response to high system pressure
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2. Functionality of Components
Bypass
• Bypass function allows an internal connection to be made between the two loops in the hydrostatic transmission
• Function allows the vehicle to be moved without the engine running– Allows for disabled vehicles to be loaded onto a trailer or moved
off the road– Intended to be for slow, short durations otherwise the
hydrostatic transmission can be damaged
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Main Menu
Basic Hydrostatic (closed circuit)
System Overview
Functionality of
components
Hydraulic Fluids
Filtration Reservoir Heat Exchanger
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3. Hydraulic Fluids
What do you know about Hydraulic Fluids?
Dirt
Blood
SunWater
Air
Alcohol
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3. Hydraulic Fluids
Overview Hydraulic Fluid Groups
1. Mineral oil based hydraulic fluids
2. Biogradeable hydraulic fluids• Syntetic ester (HEES) • Rape oil alkaline (HETG)
3. Fire resistance fluids• ATEX Regulation
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3. Hydraulic Fluids
Recommended Hydraulic Fluids
• Find recommended Hydraulic Fluids for Sauer-Danfoss hydrostatic components in Technical Literature*
• Fluids meeting the technical literature requirements will very likely provide acceptable unit life
• field testing is the only truly indication of fluid performance
• Sauer-Danfoss warranty claim policies do not apply for fluid related damage
*: “Hydraulic Fluids and Lubricants Technical Information”; page 20
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3. Hydraulic Fluids
Physical Behavior
1. Viscosity• Viscosity grade (VG)• Depends on temperature and pressure• Compromise between flow losses and leakage
2. Density• Depends on temperature and pressure
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3. Hydraulic Fluids
Physical Behavior
Temperature-Behavior Pressure-Behaviour
Temperature Temperature
kin
em
ati
c V
isco
sity
kin
em
ati
c V
isco
sity
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3. Hydraulic Fluids
Viskosity and Temerature Limits
• Viscosity and temperature limits in the table “Viscosity and temperature limits” in technical information* are to be observed
• Under normal operating condition it is recommended to keep the temperature in the range of 30 °C to 60 °C
• Rule of thumb: fluid temperature increase from 80 °C [176 °F] to 90 °C [194 °F] may reduce fluid life by 50 %
*: “Hydraulic Fluids and Lubricants Technical Information”; page 19
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3. Hydraulic Fluids
Additives
Improvement of oil attributes
• Viscosity-temperature behavior
• Wear protection
• Corrosion protection
• Ageing resistance
• Foam prevention
• Bond to dirt particles
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3. Hydraulic Fluids
Selection Criteria
• Manufacturer‘s instructions • Release of diverse oils
• Depends on system• Application (vehicle, temperature conditions) • Fill rate
• Application environment• Climate• Area of application (i.e. environmental, flammability regulations, etc.)
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3. Hydraulic Fluids
Additional Information
• Technical Information “Hydraulic Fluids and Lubricants” (520L0463)
• Technical Information “Experience with Biodegradable Hydraulic Fluids” (520L0465)
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Main Menu
Basic Hydrostatic (closed circuit)
System Overview
Functionality of
components
Hydraulic Fluids
Filtration Reservoir Heat Exchanger
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4. Filtration
Contamination
Sources of contamination:– Installation– System components– Fill oil– Repair of a unit
Types of contamination:– Metal– Synthetic materials– Organic materials– Plastic– Water– Etc.
Scratches on Piston Shoe
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4. Filtration
Cleanliness Classes
ISO 4406 1999:• Specification of three cleanliness
classes correlated to particle size ≥4; ≥6; ≥14 [μm]
• Example:ISO 18/16/13
number of particles 1/ml
cleanliness classes (ISO 4406)
0,01-0,02 1
0,02-0,04 2
0,04-0,08 3
0,08-0,16 4
0,16-0,32 5
0,32-0,64 6
etc. etc.
40-80 13
80-160 14
160-320 15
320-640 16
640-1300 17
1300-2500 18
2500-5000 19
5000-10000 20
10000-20000 21
20000-40000 22
40000-80000 23
80000-160000 24
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4. Filtration
Cleanliness Classes
Sauer-Danfoss recommends the cleanliness classes below for different applications*
Product Required cleenliness class ISO 4406-1999
Steering components with open center 22/20/17Orbital motors 22/20/16
Steering components with LS and closed center21/19/16
Proportional spool valvesAxial + radial piston pumps and motors
22/18/13Gear pumps and motorsCartridge and electrohydraulic valves 18/16/13
Maximum class at machine start up 25/22/17
*: “Design Guideline for Hydraulic Fluid Cleanliness Technical Information” (520L0467), p. 13, Spreadsheet: “Fluid cleanliness requirements according to product“
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4. Filtration
Kind of Filtration
Partial flow filtration+ Small filter- Partial backflow of oil w/o filtration - Charge pump unprotected (pre-filtration
necessary)
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4. Filtration
Kind of Filtration
Full flow filtration+ Complete oil filtration + Small filter- Charge pump unprotected ( pre-filtration necessary)
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4. Filtration
Kind of Filtration
Suction filtration+ Charge pump protected- Large filter surface necessary- Disadvantageous at low temperature
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MENU
Main Menu
Basic Hydrostatic (closed circuit)
System Overview
Functionality of
components
Hydraulic Fluids
Filtration Reservoir Heat Exchanger
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5. Reservoir
Overview
Art der FilterungTasks:
• Fluid reservoir
• Ensures there is enough oil for hydraulic system
• Cooling
• Separates dirt, water and air
• Assures smooth fluid flow (laminar flow) at suction
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MENU
Main Menu
Basic Hydrostatic (closed circuit)
System Overview
Functionality of
components
Hydraulic Fluids
Filtration Reservoir Heat Exchanger
40
MENU
6. Heat Exchanger
Function and Type
Removal of hydraulic-system heat• Prevents overheating of oil• Ideal oil-temperature should be 60 to 80°C
Construction type in mobile hydraulic• Oil-air-heat exchanger
Oil-air heat exchanger
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6. Heat Exchanger
Design Criteria
vehicle engine cooler fan SD FD system
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6. Heat Exchanger
Sauer-Danfoss Fan Drive
example: closed circuit
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The EndMENU
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Many Thanks for YOUR Attention!
When Chuck Norris says “420 bar" he is not quoting the pressure rating of the H1B motor, he is telling you how much pressure his foot will apply to your face.
The three things that make hydraulics work:
1. Flow
2. Pressure
3. Chuck Norris
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Overview Literature SourcesMENU
- Source 1 - Ölhydraulik – Handbuch für die hydrostatisch Leistungsübertragung in der
Fluidtechnik; Findeisen, D.; Springer