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Escalators

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Title: Escalators


1
Escalators
2
Defintion
  • An escalator is a moving staircase a conveyor
    transport device for carrying people between
    floors of a building.

3
History
  • In 1889, Leamon Souder successfully patented the
    "stairway", an escalator-type device that
    featured a "series of steps and links jointed to
    each other". No model was ever built.
  • In November, 1898, Piat installed its "stepless"
    escalator in Harrods Knightsbridge store in
    England.

4
Benefits
  • The capacity to move large numbers of people.
  • Can be placed in the same physical space as one
    might install a staircase.
  • No waiting interval (except during very heavy
    traffic).
  • They can be used to guide people toward main
    exits or special exhibits.

5
Concept
6
Main components
  • Landing Platforms.
  • Truss.
  • Steps and Tracks.
  • Handrail.
  • Wheel track step chain.
  • Driving control unit.

7
Landing Platforms
8
Landing Platforms
  • The top platform contains the motor assembly and
    the main drive gear.
  • Each platform contains a floor plate and a
    combplate.
  • The floor plate provides a place for the
    passengers to stand before they step onto the
    moving stairs.
  • The combplate is the piece between the stationary
    floor plate and the moving step.

9
Truss
10
Truss
  • Assembly of structural steel that supports the
    weight and load of an escalator.
  • A Control Panel, Drive Units for Steps and Moving
    Handrails and other components are housed inside
    the structure.
  • Main parts
  • - Top Machine Room/Bottom Machine
    Room.
  • - Main Track.
  • - Trailing Track.
  • - Moving Handrail Drive Unit.

11
Truss
12
Top Machine Room/Bottom Machine Room
  • 1) Control Panel Controls stop/start operation
    and also supplies electric power to the Drive
    Unit.
  • 2) Drive Unit A unit to drive the escalator,
    comprised of electric motor, decelerator,
    electromagnetic brake, V belt, Sprocket, and
    other components.
  • 3) Drive Chain A chain that transmits the Drive
    Unit's power to the drive wheel (Sprocket).
  • 4) Sprocket (top/bottom) Drive wheels installed
    at top and bottom to drive the Steps. The top
    Sprocket drives the moving Steps, while the
    bottom sprocket turns the Steps.

13
Steps Tracks
  • The track system is built into the truss to guide
    the step chain, which continuously pulls the
    steps from the bottom up and the other way
    around.
  • Every step has 4 wheels 2 step-wheels and 2
    trailing-wheels.
  • For both type of wheels theres a separate track
    the step-wheel track (on the outer side) for the
    step wheels and the trailing wheel track (on the
    inner side) for the trailing wheels.

14
Steps Tracks
15
Steps Tracks
  •  The wheels on the step-wheel track are the ones
    that are connected to the rotating step chain and
    so are pulled by the main drive gear at the top
    of the escalator. The other set of wheels just
    glide along its track, following the other ones.

16
Steps Tracks
  • The steps themselves are solid, one piece,
    die-cast aluminum or steel.
  • Yellow demarcation lines may be added to clearly
    indicate their edges.

17
Step Chain
  • A chain, located on both sides of an escalator,
    connecting the Steps and driven by the Step Chain
    Sprocket.

18
Handrails
  • The handrail provides a convenient handhold for
    passengers while they are riding the escalator.
  • Moves along the top of the Balustrade in
    synchronization with the Steps.

19
Handrail Driver
  • The handrail drive system is directly driven by
    the step drive system by adding an extra belt
    around the main drive gear that also drives the
    steps.
  • Like this, both the steps and the handrail move
    at the same speed, making the ride for the
    passengers on the escalator more comfortable.

20
Driving Unit
  • The motor is a three phase squirrel cage AC
    induction motor specifically developed for
    escalator service.
  • High starting torque.
  • Minimal vibration.
  • Reversing Type.

21
Motor starting
  • Direct-on-line.
  • Star-Delta starter.
  • Soft-starter(variable source voltage).
  • VVVF Control (Variable Voltage, Variable
    Frequency)

22
VVVF energy optimizer Controller
  • Its soft starting feature also lowers excessive
    starting current and prevents wearing of
    mechanical gears, chains, belts etc. So it
    prevents mechanical shocks.
  • Reduces losses in AC induction motors by way of
    voltage reduction and soft starting capability.
  • It provides the required motor operating voltage
    to suit various loading conditions, resulting in
    higher power factor (i.e. better power
    efficiency) and reduced motor losses.

23
On demand operation
24
Braking
  • An intelligent braking system would require a
    brake that can be proportionally controlled.
  • The most widely used brake types on escalators
    are either hydraulic or electromagnetic.

25
Electromagnetic Braking
  • The problem with electromagnetic brakes is that
    they can either be set in the on or off
    positions, and it is not possible to keep them in
    intermediate positions in order to vary the
    pressure.

26
Hydraulic Braking
  • Hydraulic brakes on the other hand can be
    controlled by varying the oil pressure that acts
    against the springs.
  • So modern escalators and intelligent braking
    systems use hydraulic brakes.

27
Hydraulic Braking
  • The pressure applied by the hydraulic brake is
    the result of the interaction between the spring
    force (trying to apply the brake pads on the
    disk) and hydraulic pressure (trying to keep the
    brake pads off the disk).
  • The spring pressure is constant and cannot be
    varied, as it is a characteristic of the spring.

28
Hydraulic Braking
  • By controlling the hydraulic pressure, the exact
    braking effort can be applied. The hydraulic
    pressure is varied by controlling the valves that
    control the flow of the oil. Such a control can
    be done via two methods 
  •  Proportional valves.
  •  Pulse width modulation (PWM) control of on/off
    valves.

29
Case Study
  • Swafyyeh Mall (Avenue)

30
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34
General Specifications
Model 08JSB35-141
Speed0.5M/sec
Capacity1000 P/H
35
Motor Specifications
36
Motor Specifications
7.5 KW 380V 15A
50Hz 1450 rpm 78 Kg
37
Brake
38
Brake
39
Brake
40
Brake
140 N.m 200 V DC 0.3 A
41
Main Wheel
Main Chain
Step chain
Main Wheel
42
References
  • Wikipedia.
  • www.mitsubishielectric.com
  • www.howstuffworks.com
  • buckylab.blogspot.com
  • Intelligent Braking Systems for Public Service
    Escalators by Dr. Lutfi Al-Sharif.

43
  • Thanks for your attention.
  • Done by
  • Ahmad Alammouri
  • 0094295
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