Introduction To Hydraulics - Part A

Question 1

What is a Prime Mover?

Answer 1

The source of energy. Example a electric motor.

Question 2

Output units are refered to as __________

Answer 2

Actuators

Question 3

What principles do hydraulics work on?

Answer 3

Pressure and flow

Question 4

Pressure is created by ________

Answer 4

Resistance to flow

Question 5

How much does hydraulic oil compress when 1000 psi is applied?

Answer 5

1/2%

Question 6

How is flow produced?

Answer 6

By pump or a pressure drop across a orifice.

Question 7

How is pressure produced?

Answer 7

By a resistance to flow.

Question 8

There is only ______ across an orifice if there is a __________.

Answer 8

• Flow
• Pressure Drop

Question 9

How is flow expressed?

Answer 9

• Feet/minute
• Feet/second
• gallons/minute
• cubic inches/minutes

Question 10

Give the flow triangle

Answer 10

V/t = flow rate = cubic inches/minute
S = Speed = inches/minute
A = Area = square inches

Question 11

What is a regenerative circuit designed to do?

Answer 11

Provide equal speed and equal force when the cylinder extends and retracts

Question 12

Is an increase in speed because of pipe size good for the hydraulics or bad?

Answer 12

Bad, it wastes a lot of energy, robs pressure and wears out components.

Question 13

What are the recommended maximum velocities for hydraulic pipe lines?

Answer 13

• Pump Inlet Velocity = 2 to 4 feet/second
• Pressure Line Velocity = 7 to 20 feet/second

Question 14

Increase in Friction in laminar flow is proportional to its _________ doubled.

Answer 14

• Velocity Increase

Ex.
Velocity feet/second x 2 = Laminar Friction x 2

Question 15

Increase in Friction in Turbulent Flow is
proportional to the square of its ____________ .

Answer 15

• Velocity Increase

Ex. Velocity feet/second x2 = Turbulent Friction x 4

Question 16

What prevents Turbulent Flow?

Answer 16

Question 17

What is this?

Answer 17

Cavitation

Question 18

What is Cavitation?

Answer 18

• The violent collapse of entrained vapour bubbles:

When gases dissolved in hydraulic oil boils out from the fluid because of low pressure or agitated by turbulence. And then moves from low pressure to high pressure causing the bubbles to emplode.

Question 19

What is the purpose of pressurizing a reservoir?

Answer 19

To provide a positive charge to the pump and keep dirt out.

Question 20

Cavitation is immediately recognized by what?

And confirmed by what?

Answer 20

• A rattling sound
• Abnormal low pressure at the pump inlet.

Question 21

What are the side effects of Cavitation?

Answer 21

Question 22

What are some causes of cavitation?

Answer 22

• Clogged inlet filters
• Pump mounted too high above resevoit
• Fluid is too thick
• Clogged breathers
• Too many bends or fittings
• Inlet pipes are too small

Question 23

What is Aeration?

Answer 23

When air becomes mixed in the fluid resulting in imploding of air bubbles.

Question 24

What identifies Aeration from cavitation?

Answer 24

Abnormal and inconsistent sounds from the pump with inlet pressure being normal and not lower.

Question 25

Is aeration more violent then cavitation?

Answer 25

No, aeration is not as violent as cavitation.

Question 26

Which causes more damage, Aeration or Cavitation?

Answer 26

Cavitation

Question 27

What are the causes of aeration?

Answer 27

-Low fluid levels allows air to enter the inlet to the pump.
- Plugged breathers cause the air in the reservoir to be forced into the fluid.
- Leaky Inlet fittings
- Shaft seal on the pump is leaking
- Connections at the cylinder are leaking
- Air became trapped in a component when disconnected for maintenance.
- Gas-charged accumulators are leaking

Question 28

What is power efficiency?

Answer 28

% that tells how much power is obtained from the actuators compared to the power you put into the system through the prime mover.

Question 29

What is the equation for Power Efficiency?

Answer 29

(Output Horsepower /Input Horsepower) x 100

Question 30

What is the biggest power waster in a hydraulic system?

Answer 30

Relief Valve

Question 31

What are Tandem Cylinders?

Answer 31

Cylinders that use two piston surfaces to create higher forces without increasing the fluid pressure.

Question 32

What are these?

Answer 32

• Single-acting telescopic cylinders
• Double-acting telescopic cylinders

Question 33

What does this symbol mean?

Answer 33

Controlled by a reversing electric motor

Question 34

What is a detent?

Answer 34

After activated the spools may be held in position by means of a detent. A spring loaded mechanism which fits into grooves on the periphery of the spool extensions.

Question 35

What is an infinite positioning DCV?

What is another name for them?

What is the opposite?

Answer 35

• A DCV spool the switches poistions at any rate.
• Throttling DCV
• Non throttling

Question 36

What does this mean?

Answer 36

Throttling directional control

Question 37

What type of centre is this?

What does it do?

What is a benefit?

Answer 37

• Tandem Centre
• Flow from the pump is directed right back to the tank.
• The tandem position can hold the actuator in poisiton.

Question 38

What type of centre is this?

What does it do?

Answer 38

• Float centre
• Both A line and B line connect to tank allowing actuators to be moved manually.
  Pump is closed off.

Question 39

What type of centre is this?

What does it do?

Answer 39

• Regenerative Center
• Both A line and B line connect to pump. Maintains constant pressure on both sides of the actuator.

Question 40

What is this?

Answer 40

Pressure releif valve

Question 41

What is this?

Answer 41

Pilot Operated Relief Valve

Question 42

What is this?

Where do you find these?

What does it do?

Answer 42

• Counter Balance Valve
• Exhaust side of an Actuator

Used to maintain a set pressure in part of a circuit. This controlled pressure is required to keep a weight or rotating load from falling/running away.

Question 43

What is this?

What does it do?

Where is it found?

Answer 43

• Brake Valve
• Stops rotation of a motor as the DCV shifts to its centre position.
• Exhaust side of a motor.

Question 44

What are the signs of a throttle valve and a shut-off valve?

Answer 44

Question 45

What is this?

Answer 45

Flow Meter

Question 46

What is this?

Answer 46

Integrating Flow Meter

Question 47

What is this?

Answer 47

Pressure Electric Switch

Question 48

What is this?

Answer 48

Heater

Question 49

What is this?

Answer 49

Temperature Controller

Question 50

What is this?

Answer 50

Air Dryer

Question 51

What is this?

Answer 51

Filter with automatically drained water trap

Question 52

What is this?

Answer 52

Automatically drained water trap

Question 53

What is this?

Answer 53

Electrical Line

Question 54

What is this?

Answer 54

Heat Engine

Question 55

What is this?

Answer 55

Heat Engine

Question 56

What is this?

Answer 56

Flow Dividing Valve

Question 57

What is this?

Answer 57

Manually controlled throttle valve

Question 58

What is this?

Answer 58

Three-way rotary connection

Question 59

What is this?

Answer 59

One-way rotary connection

Question 60

What is this?

Answer 60

Weighted Accumulator

Question 61

What is this?

Answer 61

Gas Charged Accumulator

Question 62

Where is a pressure line filter usually installed in a hydraulic system?

Answer 62

Before the direction control valve.

Question 63

Answer.

Answer 63

B)