Excavator. Main hydraulics: Boom cylinders, swing and trackdrive.

All-hydraulic drill unit for blast hole drilling. Main hydraulics: Rock drill, feed, boom cylinders, dustcollector fan and trackdrive.

Hydraulic machinery are machines and tools which use fluid power to do work. Heavy equipment is a common example. Image File history File links Size of this preview: 800 × 584 pixel Image in higher resolution (948 × 692 pixel, file size: 150 KB, MIME type: image/jpeg) Kettenbagger CAT 325C LN auf einer Baustelle im Juli 2004 selbst fotografiert von LosHawlos Erstversion de. ... Image File history File links Size of this preview: 800 × 584 pixel Image in higher resolution (948 × 692 pixel, file size: 150 KB, MIME type: image/jpeg) Kettenbagger CAT 325C LN auf einer Baustelle im Juli 2004 selbst fotografiert von LosHawlos Erstversion de. ... Image File history File links Download high resolution version (2592x1944, 2305 KB) Yhteenveto Drilling blast holes in E75 near Lahti, Finland, Photo by Timo Halén Licensing File links The following pages link to this file: Rock blasting ... Image File history File links Download high resolution version (2592x1944, 2305 KB) Yhteenveto Drilling blast holes in E75 near Lahti, Finland, Photo by Timo Halén Licensing File links The following pages link to this file: Rock blasting ... Fluid power is the technology that deals with the generation, control, and transmission of pressurized fluids. ... An excavator. ...

In this type of machine, high pressure hydraulic fluid is transmitted throughout the machine to various hydraulic motors and hydraulic cylinders. The fluid is controlled directly or automatically by control valves and distributed through hoses and tubes. Hydraulic fluids are a large group of mineral oils, water-based or water used as the medium in hydraulic systems. ... Control valves are valves used within industrial plants and elsewhere to control operating conditions such as temperature, pressure, flow, and liquid level by fully or partially opening or closing in response to signals received from sensors that monitor changes in such conditions. ... Excavator. ... Excavator. ...

The popularity of hydraulic machinery is due to the very large amount of power that can be transferred through small tubes and flexible hoses, and the high power density and wide array of actuators that can make use of this power. An actuator is a mechanical device for moving or controlling a mechanism or system. ...

Hydraulic Machinery Manufacturers

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hydraulic power

Hydraulics used to increase force and torque.

The science of Fluid pressure provides some of the theory of hydraulics. Image File history File links No higher resolution available. ... Image File history File links No higher resolution available. ... Fluid pressure is the pressure on an object submerged in a fluid, such as water. ...

1. A force acting on a small area can create a much larger force by acting on a larger area by virtue of hydrostatic pressure.
2. A large amount of energy can be carried by a small flow of highly pressurized fluid.

Hydraulic machinery offers a very large amount of power and force with relatively small components. A typical hydraulic cylinder with a 75 mm (3 inch) bore, for example, can supply 89 000 N (20,000 lbf). The power transmission in a hydraulic system is easily controlled with valves. Hydrostatic pressure is the pressure exerted by a fluid due to its weight. ... For other uses, see Newton (disambiguation). ... The pound-force is a non-SI unit of force or weight (properly abbreviated lbf or lbf). The pound-force is equal to a mass of one pound multiplied by the standard acceleration due to gravity on Earth (which is defined as exactly 9. ...

Some parts of a hydraulic system will operate at about 2000 kPa (300 psi) (pilot controls, vehicle brakes). The main hydraulic actuators (for example, cylinders or fluid motors) will typically operate in the range of 7000 - 42000 kPa (1000 - 6000 psi). With advances in materials and design, there is a trend toward higher pressure, with some systems operating to 100 000 kPa (15,000 psi) and some exotic systems with titanium hardware operating at over 350 000 kPa (50,000 psi). The pascal (symbol: Pa) is the SI derived unit of pressure or stress (also: Youngs modulus and tensile strength). ... A pressure gauge reading in PSI (red scale) and kPa (black scale) The pound-force per square inch (symbol: lbf/in²) is a non-SI unit of pressure based on avoirdupois units. ... General Name, symbol, number titanium, Ti, 22 Chemical series transition metals Group, period, block 4, 4, d Appearance silvery metallic Standard atomic weight 47. ...

Force Multiplication

An interesting thing about hydraulic systems is the ability to apply force multiplication. Imagine if cylinder one (C1) is one inch in diameter, and cylinder two (C2) is ten inches in diameter. If the force exerted on C1 is 10 lbs, the force exerted by C2 is 1000 lbs because C2 is a hundred times larger in area (S=pi*radius*radius) as C1. The downside to this is that you have to move C1 a hundred inches to move C2 one inch.

Hydraulic circuits

A simple open center hydraulic circuit.

The equivalent circuit schematic.

For the hydraulic fluid to do work, it must flow to the actuator and or motors, then return to a reservoir. The fluid is then filtered and re-pumped. The path taken by hydraulic fluid is called a hydraulic circuit of which there are several types. Open center circuits use pumps which supply a continuous flow. The flow is returned to tank through the control valve's open center; that is, when the control valve is centered, it provides an open return path to tank and the fluid is not pumped to a high pressure. Otherwise, if the control valve is actuated it routes fluid to and from an actuator and tank. The fluid's pressure will rise to meet any resistance, since the pump has a constant output. If the pressure rises too high, fluid returns to tank through a pressure relief valve. Multiple control valves may be stacked in series[1]. This type of circuit can use inexpensive, constant displacement pumps. Wikipedia does not have an article with this exact name. ... Wikipedia does not have an article with this exact name. ... Wikipedia does not have an article with this exact name. ... Wikipedia does not have an article with this exact name. ... A schematic of the Washington Metro. ... Spin-on oil filter beneath the engine of a Saab 9-5 (2005) Cartridge oil filter for use on a 2006 Volvo S40 An oil filter is a device used to decontaminate oil that contains suspended impurities. ... A hydraulic circuit is an interconnected set of components that convert pressurized liquid (usually oil) into mechanical work. ... Relief Valve A relief valve opens to release excess pressure when the pressure is too high to protect the vessel or other equipment from overpressurization. ...

Closed center circuits supply full pressure to the control valves, whether any valves are actuated or not. The pumps vary their flow rate, pumping very little hydraulic fluid until the operator actuates a valve. The valve's spool therefore doesn't need an open center return path to tank. Multiple valves can be connected in a parallel arrangement and system pressure is equal for all valves.

Constant pressure system versus load-sensing system

The closed center circuits exist in two basic configurations, normally related to the regulator for the variable pump that supplies the oil:

Constant pressure systems (CP-system), standard. Pump pressure always equals the pressure setting for the pumpregulator. This setting must cover the maximum required load pressure. Pump delivers flow according to required sum of flow to the consumers. The CP-system generates large power losses if the machine works with large variations in load pressure and the average system pressure is much lower than the pressure setting for the pump regulator. CP is simple in design. Works like a pneumatic system. New hydraulic functions can easily be added and the system is quick in response.

Constant pressure systems (CP-system), unloaded. Same basic configuration as 'standard' CP-system but the pump is unloaded to a low stand-by pressure when all valves are in neutral position. Not so fast response as standard CP but pump life time is prolonged.

Load-sensing systems (LS-system) generates less power losses as the pump can reduce both flow and pressure to match the load requirements, but requires more tuning than the CP-system with respect to system stability. The LS-system also requires additional logical valves and compensator valves in the directional valves, thus it is technically more complex and more expensive than the CP-system. The LS-system system generates a constant power loss related to the regulating pressure drop for the pump regulator:

Power loss = Δp_LS · Q_tot; The average Δp_LS is around 20 bar (290 psi). If the pump flow is high the extra loss can be considerable. The power loss also increase if the load pressures varies a lot. The cylinder areas, motor displacements and mechanical torque arms must be designed to match in load pressure in order to bring down the power losses. Pump pressure always equals the maximum load pressure when several functions are run simultaneously and the power input to the pump equals the (max. load pressure + Δp_LS) x sum of flow.

There exists basically 4 type of load-sensing system:

(1) Load sensing without compensators in the directional valves. Hydraulically controlled LS-pump.

(2) Load sensing with up-stream compensator for each connected directional valve. Hydraulically controlled LS-pump.

(3) Load sensing with down-stream compensator for each connected directional valve. Hydraulically controlled LS-pump.

(4) Load sensing with a combination of up-stream and down-stream compensators. Hydraulically controlled LS-pump.

System type (3) gives the advantage that activated functions are synchronized, flow relation remains independent of load pressures even if pumps reach the maximum swivel angle. This feature is important for machines that often run with the pump at maximum swivel angel and with several activated functions, such as with excavators. With type (4) system, the functions with up-stream compensators have priority. Example: Steering-function for a wheel loader.

Open & closed circuits

Open loop and closed loop circuits.

Open-loop: Pump-inlet and motor-return (via the directional valve) are connected to the hydraulic tank.The term loop applies to feedback; the more correct term is open versus closed "circuit". Image File history File links No higher resolution available. ... Image File history File links No higher resolution available. ...

Closed-loop: Motor-return is connected directly to the pump-inlet. To keep up pressure on the low pressure side, the circuits have a charge pump (a small gearpump) that supplies cooled and filtered oil to the low pressure side. Closed-loop circuits are generally used for hydrostatic transmissions in mobile applications. Advantages: No directional valve and better response, the circuit can work with higher pressure. The pump swivel angle covers both positive and negative flow direction. Disadvantages: The pump cannot be utilized for any other hydraulic function and cooling can be a problem due to the limited exchange of oil flow. Closed loop systems generally have a 'flush-valve' assembled in the hydraulic motor in order to exchange more flow than the basic leakage flow from the pump and the motor, for increased the cooling and filtering effects. The leakage flow as well as the extra flush flow must be supplied by the charge pump. Closed loop systems in mobile equipment are generally used for the transmission as an alternative to mechanical and hydrodynamic (converter) transmissions. The advantage is a stepless gear ratio ('hydrostatic' gear ratio) and a more flexible control of the gear ratio depending on load and operating conditions.

Hydrostatic transmissions for earth moving machines, such as large wheel loaders, are often equipped with a separate 'Inch pedal' that is used to temporarily increase the diesel engine rpm while reducing the vehicle speed in order to increase the available hydraulic power output for the working hydraulics at low speeds and increase the tractive effort. The function is similar to stalling a converter gearbox at high engine rpm. The Inch-function affects the preset characteristics for the 'hydrostatic' gear ratio versus diesel engine rpm. Inch pedal is a standard pedal used in mobile machinery with a hydraulic pilot pressure output proportional to the pedal position or an electronic pedal with a proportional electric signal output. ...

Hydraulic pump

An exploded view of an external gear pump.

Hydraulic pumps supply fluid to the components in the system. Pressure in the system develops in reaction to the load. Hence, a pump rated for 5,000 psi is capable of maintaining flow against a load of 5,000 psi. Gear pump. ... Gear pump. ... Exploded view of an aircraft. ... A Hydraulic pump is a pump that is used in Hydraulic/hydrostatic drive systems. ...

Pumps have a power density about ten times greater than an electric motor (by volume). They are powered by an electric motor or an engine, connected through gears, belts, or a flexible elastomeric coupling to reduce vibration. The term elastomer is often used interchangeably with the term rubber, and is preferred when referring to vulcanisates. ...

Common types of hydraulic pumps to hydraulic machinery applications are;

• Gear pump: cheap, durable, simple. Less efficient, because they are constant displacement, and mainly suitable for pressures below 200 bar (3000 psi).
• Vane pump: cheap and simple, reliable (especially in g-rotor form). Good for higher-flow low-pressure output.
• Axial piston pump: many designed with a variable displacement mechanism, to vary output flow for automatic control of pressure. There are various axial piston pump designs, including swashplate (sometimes referred to as a valveplate pump) and checkball (sometimes referred to as a wobble plate pump). The most common is the swashplate pump. A variable-angle swash plate causes the pistons to reciprocate.
• Radial piston pump A pump that is normally used for very high pressure at small flows.

Piston pumps are more expensive than gear or vane pumps, but provide longer life operating at higher pressure, with difficult fluids and longer continuous duty cycles. Piston pumps make up one half of a hydrostatic transmission. An exploded view of an external gear pump. ... A rotary vane pump is a positive displacement pump that consists of variable-length, tensioned vanes mounted to a rotor that rotates inside of a cavity. ... An axial piston pump (also known as a circumfrential piston pump) is one where the pistons are arranged in a circular housing that is driven by a integral shaft that is, more or less, aligned with the pistons. ... An axial piston pump (also known as a circumfrential piston pump) is one where the pistons are arranged in a circular housing that is driven by a integral shaft that is, more or less, aligned with the pistons. ... “Gearbox” redirects here. ...

Control valves

Directional control valves route the fluid to the desired actuator. They usually consist of a spool inside a cast iron or steel housing. The spool slides to different positions in the housing, intersecting grooves and channels route the fluid based on the spool's position. For other uses, see Iron (disambiguation). ... For other uses, see Steel (disambiguation). ...

The spool has a central (neutral) position maintained with springs; in this position the supply fluid is blocked, or returned to tank. Sliding the spool to one side routes the hydraulic fluid to an actuator and provides a return path from the actuator to tank. When the spool is moved to the opposite direction the supply and return paths are switched. When the spool is allowed to return to neutral (center) position the actuator fluid paths are blocked, locking it in position.

Directional control valves are usually designed to be stackable, with one valve for each hydraulic cylinder, and one fluid input supplying all the valves in the stack.

Tolerances are very tight in order to handle the high pressure and avoid leaking, spools typically have a clearance with the housing of less than a thousandth of an inch. The valve block will be mounted to the machine's frame with a three point pattern to avoid distorting the valve block and jamming the valve's sensitive components. Leakage in narrow clearance, spool valve Hydraulic clearance. ...

The spool position may be actuated by mechanical levers, hydraulic pilot pressure, or solenoids which push the spool left or right. A seal allows part of the spool to protrude outside the housing, where it is accessible to the actuator. Various solenoid actuators from Trombetta Motion Technologies A solenoid is a loop of wire, often wrapped around a metallic core, which produces a magnetic field when an electrical current is passed through it. ... Typical O-ring and application An O-ring is a loop of elastomer with a round (o-shaped) cross-section used as a mechanical seal. ...

The main valve block is usually a stack of off the shelf directional control valves chosen by flow capacity and performance. Some valves are designed to be proportional (flow rate proportional to valve position), while others may be simply on-off. The control valve is one of the most expensive and sensitive parts of a hydraulic circuit.

Pressure relief valves are used in several places in hydraulic machinery; on the return circuit to maintain a small amount of pressure for brakes, pilot lines, etc... On hydraulic cylinders, to prevent overloading and hydraulic line/seal rupture. On the hydraulic reservoir, to maintain a small positive pressure which excludes moisture and contamination. Relief Valve A relief valve opens to release excess pressure when the pressure is too high to protect the vessel or other equipment from overpressurization. ...

Pressure reducing valves reduce the supply pressure as needed for various circuits.

Sequence valves control the sequence of hydraulic circuits; to insure that one hydraulic cylinder is fully extended before another starts its stroke, for example.

Shuttle valves provide a logical or function. OR logic gate. ...

Check valves are one way valves, allowing an accumulator to charge and maintain its pressure after the machine is turned off, for example. this siamese clappered inlet allows one or two inputs into a deluge gun A check valve is a mechanical device, a valve, that normally allows fluid or gas to flow through it in only one direction. ...

Pilot controled Check valves One way valve that can be opened (for both directions) by a foreign pressure signal. For instance if the load should not be hold by the chack valve anymore. Often the foreign pressure comes from the other pipe that is connected to the motor or cylinder.

Counterbalance valves A counterbalance valve is in fact a special type of pilot controlled checkvalve. Whereas the checkvalve is open or closed, the counterbalance valve acts a bit like a pilot controlled flow control.

Cartridge valves is in fact the inner part of a check valve; they are off the shelf components with a standardized envelope, making them easy to populate a proprietary valve block. They are available in many configurations; on/off, proportional, pressure relief, etc. They generally screw into a valve block and are electrically controlled to provide logic and automated functions.

Hydraulic fuses are in-line safety devices designed to automatically seal off a hydraulic line if pressure becomes too low, or safely vent fluid if pressure becomes too high. In hydraulic systems, a fuse is a component which prevents the sudden loss of hydraulic fluid pressure. ...

Auxiliary valves. Complex hydraulic systems will usually have auxiliary valve blocks to handle various duties unseen to the operator, such as accumulator charging, cooling fan operation, air conditioning power, etc... They are usually custom valves designed for the particular machine, and may consist of a metal block with ports and channels drilled. Cartridge valves are threaded into the ports and may be electrically controlled by switches or a microprocessor to route fluid power as needed.

Actuators

• Hydraulic cylinder
• Rotary actuator (hydraulic)
• Motor (a pump plumbed in reverse)
• hydrostatic transmission
• Brakes

This page is a candidate for speedy deletion. ... “Gearbox” redirects here. ... For the type of ferns known as brakes, see brake (fern). ...

Reservoir

The hydraulic fluid reservoir holds excess hydraulic fluid to accommodate volume changes from: cylinder extension and contraction, temperature driven expansion and contraction, and leaks. The reservoir is also designed to aid in separation of air from the fluid and also work as a heat accumulator to cover losses in the system when peak power is used. Design engineers are always pressured to reduce the size of hydraulic reservoirs, while equipment operators always appreciate larger reservoirs.

Some designs include dynamic flow channels on the fluid's return path that allow for a smaller reservoir.

Hydraulic Jacks Manufacturers

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Accumulators

Accumulators are a common part of hydraulic machinery. Their function is to store energy by using pressurized gas. One type is a tube with a floating piston. On one side of the piston is a charge of pressurized gas, and on the other side is the fluid. Bladders are used in other designs. A hydraulic accumulator is an energy storage device. ...

Examples of accumulator uses are backup power for steering or brakes, or to act as a shock absorber for the hydraulic circuit.

Hydraulic fluid

Also known as tractor fluid, hydraulic fluid is the life of the hydraulic circuit. It is usually petroleum oil with various additives. Some hydraulic machines require fire resistant fluids, depending on their applications. Hydraulic fluids are a large group of mineral oils, water-based or water used as the medium in hydraulic systems. ...

In addition to transferring energy, hydraulic fluid needs to lubricate components, suspend contaminants and metal filings for transport to the filter, and to function well to several hundred degrees Fahrenheit or Celsius. Lubrication occurs when opposing surfaces are completely separated by a lubricant film. ... Spin-on oil filter beneath the engine of a Saab 9-5 (2005) Cartridge oil filter for use on a 2006 Volvo S40 An oil filter is a device used to decontaminate oil that contains suspended impurities. ... For other uses, see Fahrenheit (disambiguation). ... Celsius is, or relates to, the Celsius temperature scale (previously known as the centigrade scale). ...

Filters

Filters are an important part of hydraulic systems. Metal particles are continually produced by mechanical components and need to be removed along with other contaminants.

Filters may be positioned in many locations. The filter may be located between the reservoir and the pump intake. Blockage of the filter will cause cavitation and possibly failure of the pump. Sometimes the filter is located between the pump and the control valves. This arrangement is more expensive, since the filter housing is pressurized, but eliminates cavitation problems and protects the control valve from pump failures. The third common filter location is just before the return line enters the reservoir. This location is relatively insensitive to blockage and does not require a pressurized housing, but contaminants that enter the reservoir from external sources are not filtered until passing through the system at least once. Cavitating propeller model in a water tunnel experiment Cavitation is a general term used to describe the behavior of voids or bubbles in a liquid. ...

Tubes, Pipes and Hoses

Hydraulic tubes are seamless steel precision pipes, specially manufactured for hydraulics. The tubes have standard sizes for different pressure ranges, with standard diameters up to 100 mm. The tubes are supplied by manufacturers in lengths of 6 m, cleaned, oiled and plugged. The tubes are interconnected by different types of flanges (especially for the larger sizes and pressures), welding cones/nipples (with o-ring seal), several types of flare connection and by cut-rings. In larger sizes, hydraulic pipes are used. Direct joining of tubes by welding is not acceptable since the interior cannot be inspected. Tubing refers to a flexible hose or pipe used in plumbing, irrigation, and other industries. ...

Hydraulic pipe is used in case standard hydraulic tubes are not available. Generally these are used for low pressure. They can be connected by threaded connections, but usually by welds. Because of the larger diameters the pipe can usually be inspected internally after welding. Black pipe is non-galvanized and suitable for welding. Pipe is a tube or hollow cylinder for the conveyance of fluid. ... Galvanization or galvanisation refers to any of several electrochemical processes named after the Italian scientist Luigi Galvani. ... Welding is a fabrication process that joins materials, usually metals or thermoplastics, by causing coalescence. ...

Hydraulic hose is graded by pressure, temperature, and fluid compatibility. Hoses are used when pipes or tubes can not be used, usually to provide flexibility for machine operation or maintenance. The hose is built up with rubber and steel layers. A rubber interior is surrounded by multiple layers of woven wire and rubber. The exterior is designed for abrasion resistance. The bend radius of hydraulic hose is carefully designed into the machine, since hose failures can be deadly, and violating the hose's minimum bend radius will cause failure. Hydraulic hoses generally have steel fittings swaged on the ends. The weakest part of the high pressure hose is the connection of the hose to the fitting. Another disadvantage of hoses is the shorter life of rubber which requires periodic replacement, usually at five to seven year intervals. Look up hose in Wiktionary, the free dictionary. ... Swaging is a metal forming technique in which the metal is plastically deformed to its final shape. ...

Tubes and pipes for hydraulic applications are internally oiled before the system is commissioned. Usually steel piping is painted outside. Where flare and other couplings are used, the paint is removed under the nut, and is a location where corrosion can begin. For this reason, in marine applications most piping is stainless steel.

Seals, fittings and connections

In general, valves, cylinders and pumps have female threaded bosses for the fluid connection, and hoses have female ends with captive nuts. A male-male fitting is chosen to connect the two. Many standardized systems are in use. Compression seal example A mechanical seal is a device which helps join systems or mechanisms together by preventing leakage (e. ... A compression fitting 15 mm isolating valve // Compression fittings are used in plumbing to join two tubes or thin-walled pipes together. ... These water valves are operated by handles. ... Cylinder with piston in a steam engine A cylinder in the central working part of a reciprocating engine, the space in which a piston travels. ... This article is about a mechanical device. ... In electrical and mechanical trades and manufacturing, each of a pair of mating connectors or fasteners is conventionally assigned the designation male or female. ...

Fittings serve several purposes;

1. To bridge different standards; O-ring boss to JIC (hydraulic), or pipe threads to face seal, for example.
2. To allow proper orientation of components, a 90°, 45°, straight, or swivel fitting is chosen as needed. They are designed to be positioned in the correct orientation and then tightened.
3. To incorporate bulkhead hardware.
4. A quick disconnect fitting may be added to a machine without modification of hoses or valves

A typical piece of heavy equipment may have thousands of sealed connection points and several different types: O-Ring boss seal is a technique for joining two fluid-carrying pipes, hoses or tubing. ... A threaded pipe plug; note that the threaded portion is slightly conical and so touches the calipers at only two points. ... This article is about angles in geometry. ...

• Pipe fittings, the fitting is screwed in until tight, difficult to orient an angled fitting correctly without over or under tightening.
• O-ring boss, the fitting is screwed into a boss and orientated as needed, an additional nut tightens the fitting, washer and o-ring in place.
• Flare seal, a metal to metal compression seal with a cone and flare mating.
• Face seal, metal flanges with a groove and o-ring are fastened together.
• Beam seal, a costly metal to metal seal used primarily in aircraft.
• Swaged seals, tubes are connected with fittings that are swaged permanently in place. Primarily used in aircraft.

Elastomeric seals (O-ring boss and face seal) are the most common types of seals in heavy equipment and are capable of reliably sealing 6000+ psi (41368+ kPa) of fluid pressure. O-Ring boss seal is a technique for joining two fluid-carrying pipes, hoses or tubing. ... Typical O-ring and application An O-ring is a loop of elastomer with a round (o-shaped) cross-section used as a mechanical seal. ... Swaging is a metal forming technique in which the metal is plastically deformed to its final shape using high pressures. ... A pressure gauge reading in PSI (red scale) and kPa (black scale) The pound-force per square inch (symbol: lbf/in²) is a non-SI unit of pressure based on avoirdupois units. ... The pascal (symbol: Pa) is the SI derived unit of pressure or stress (also: Youngs modulus and tensile strength). ...

Oil cooler

See section below.

Calculation of the required diesel engine power, mobile machinery

Calculation of the required max. power output for the diesel engine, rough estimation:

(1) Check the max. powerpoint, i.e. the point where Pressure x Flow reach the max. value.

(2) E_diesel = (P_max · Q_tot) ÷ η.

Q_tot = calculate with the theoretical pumpflow for the consumers not including leakages @ max. power point.

P_max = actual pumppressure @ max. power point.

Note: η is the total efficiency = (output mechanical power ÷ input mechanical power). For rough estimations, η = 0.75. Add 10-20% (depends on the application) to this power value.

(3) Calculate the required pumpdisplacement from required max. sum of flow for the consumers in worst case and the dieselengine rpm in this point. The max. flow can differ from the flow used for calculation of the diesel engine power. Pump volumetric efficiency average, piston pumps: η_vol= 0.93.

Pumpdisplacement V_pump= Q_tot ÷ n_diesel ÷ 0.93.

(4) Calculation of prel. cooler capacity: Heat dissipation from hydraulic oiltanks, valves, pipes and hydraulic components is less than a few percent in standard mobile equipment and the cooler capacity must include some margins. Minimum cooler capacity, E_cooler = E_diesel· 0.25

At least 25% of the input power must be dissipated by the cooler when peak power is utilized for long periods. In normal case however, the peak power is used for only short periods, thus the acual cooler capacity required might be considerably less. The oilvolume in the hydraulic tank is also used as a heat accumulator when peak power is used. The system efficiency is very much dependant on the type of hydraulic pumps and motors used and powerinput to the hydraulics may vary a lot. Each circuit must be evaluated and the load cycle estimated. New system designs and system modifications must always be tested in practice and the tests must cover all type of load cycles.

See also

• Automatic transmission
• Brake fluid
• Hydraulics
• Hydraulic press
• Hydraulic fluid
• Hydraulic brake
• National Fluid Power Association

The automatic gear selector in a Ford Five Hundred vehicle An automatic transmission (commonly abbreviated as AT) is an automobile gearbox that can change gear ratios automatically as the vehicle moves, thus freeing the driver from having to shift gears manually (similar but larger devices are also used for railroad... Brake fluid is a type of hydraulic fluid used in brake applications in automobiles and light trucks. ... Table of Hydraulics and Hydrostatics, from the 1728 Cyclopaedia. ... Hydraulic force increase. ... Hydraulic fluids are a large group of mineral oils, water-based or water used as the medium in hydraulic systems. ... The hydraulic brake is an arrangement of braking mechanism which uses hydraulic fluid, typically some type of light-viscosity petroleum oil, to transfer pressure from the controlling unit, which is usually near the operator of the vehicle, to the actual brake mechanism, which is usually at or near the wheel... The National Fluid Power Association is an association based in the United States of America. ...

External links

• 'Hydraulic Press Systems
• Facts worth knowing about hydraulics, Danfoss Hydraulics, 1.4Mb pdf file
• Hydraulic Hints & Trouble Shooting Guide General Product Support, Eaton Corporation, 300Kb pdf file
• On-line re-print of U.S. Army Field Manual 5-499
• Information about Fluid Power is also available on the National Fluid *Power Association web-site nfpa.com
• Different types of hydraulic Motors and Pumps
• Different types of hydraulic Motors and Pumps
• Basic Hydraulic Systems and Components Free pdf download