HYTROL 190-E24EZ Manual
Effective February 2015
(Supercedes May 2014)
Bulletin #669
Installation
and
Maintenance
Manual
with Safety Information
and Parts List
RECOMMENDED SPARE PARTS HIGHLIGHTED IN GRAY
Model 190-E24EZ, 190-E24EZC
Model 190-E24, 190-E24C
Manual
de Instalación
y
Mantenimiento
con Información sobre Seguridad
y Lista de Refacciones
LAS REFACCIONES RECOMENDADAS SE RESALTAN EN GRIS
IMPORTANT!
DO NOT DESTROY
© COPYRIGHT PENDING–HYTROL CONVEYOR CO., INC.
¡IMPORTANTE!
NO DESTRUIR
Hytrol Conveyor Co., Inc.
Jonesboro, Arkansas
PRESS OPTIMIZED FOR THE ENVIRONMENT
(IMPRESIÓN OPTIMIZADA PARA PROTEGER EL MEDIO AMBIENTE)
E24 / E24CE24EZ / E24EZC
INTRODUCTION
This manual provides guidelines and procedures for installing,
operating, and maintaining your conveyor. A complete parts list
is provided with recommended spare parts highlighted in gray.
Important safety information is also provided throughout the manual.
For safety to personnel and for proper operation of your conveyor, it
is recommended that you read and follow the instructions provided
in this manual.
• Receiving and Uncrating
1. Check the number of items received against the bill of lading.
2. Examine condition of equipment to determine if any damage
occurred during shipment.
3. Move all crates to area of installation.
4. Remove crating and check for optional equipment that may be
fastened to the conveyor. Make sure these parts (or any foreign
pieces) are removed.
• How to Order Replacement Parts
Included in this manual are parts drawings with complete replacement
parts lists. Minor fasteners, such as nuts and bolts, are not
included.
When ordering replacement parts:
1. Contact Dealer from whom conveyor was purchased or nearest
HYTROL Integration Partner.
2. Give Conveyor Model Number and Serial Number or HYTROL
Factory Order Number.
3. Give Part Number and complete description from Parts List.
4. Give type of drive. Example—8” End Drive, 8” Center Drive, etc.
5. If you are in a breakdown situation, tell us.
HYTROL Serial Number
(Located near Drive on Powered Models).
NOTE: If damage has occurred or freight is missing,
Contact your Hytrol Integration Partner.
JONESBORO, ARKANSAS
Model
XX
Hytrol Conveyor
Company, Inc.
SERIAL # 123456
Model
TABLE OF CONTENTS
INTRODUCTION
Receiving and Uncrating ....................2
How to Order Replacement Parts .............2
SAFETY INFORMATION
Installation Safety Precautions ...............3
Operation Safety Precautions ................3
Maintenance .............................3
INSTALLATION
Support Installation ........................4
Ceiling Hanger Installation ..................4
Conveyor Set-Up..........................4
Electrical Equipment .......................4
Racked Sections . . . . . . . . . . . . . . . . . . . . . . . . . .5
OPERATION
Conveyor Start-Up.........................5
Lubrication ...............................5
Sequence of Operation .....................5
SPECIFICATIONS
E24i Motor Card Requirements...............6
MAINTENANCE
EZLogic System ........................6, 7
Motor Control Board .....................7, 8
Zone Controller (EZLogic) ...................7
IOP (EZLogic) ............................8
Power Suppy (Motors)....................8, 9
Maintenance Checklist .............back cover
5 AMP Power Supply Wiring Diagram ........10
20 AMP Power Supply Wiring Diagram .......11
40 AMP Power Supply Wiring Diagram .......12
SPECIFICATIONS
E24 Motor Card Requirements . . . . . . . . . . . . . .13
The Motor Control Board................14, 15
MAINTENANCE
Trouble Shooting E24 .....................15
Trouble Shooting E24EZ ...................15
REPLACEMENT PARTS
190-E24EZ Final Assembly & Parts List .......16
190-E24EZ Section Assembly & Parts List.....17
190-E24EZ Reflector Kit & Parts List .........17
190-E24EZ Accumulation Kit & Parts List......18
190-E24EZC Parts Drawing ................18
190-E24EZC Parts List ....................19
190-E24 Parts Drawing & List ...............20
190-E24C Parts Drawing & List .............21
Spanish Version ..................22
2
SAFETY INFORMATION
• Installation
GUARDS AND GUARDING
Interfacing of Equipment. When two or more pieces of equipment are
interfaced, special attention shall be given to the interfaced area to
insure the presence of adequate guarding and safety devices.
Guarding Exceptions. Whenever conditions prevail that would require
guarding under these standards, but such guarding would render the
conveyor unusable, prominent warning means shall be provided in
the area or on the equipment in lieu of guarding.
Guarded by Location or Position. Where necessary for the protection
of employees from hazards, all exposed moving machinery parts
that present a hazard to employees at their work station shall be
mechanically or electrically guarded, or guarded by location or
position.
Remoteness from frequent presence of public or employed•
personnel shall constitute guarding by location.
When a conveyor passes over a walkway, roadway, or work•
station, it is considered guarded solely by location or position if all
movingpartsareatleast8ft.(2.44m)abovetheoororwalking
surface or are otherwise located so that the employee cannot
inadvertently come in contact with hazardous moving parts.
Although overhead conveyors may be guarded by location, spill•
guards, pan guards, or equivalent shall be provided if the product
may fall off the conveyor for any reason and if personnel would
be endangered.
HEADROOM
When conveyors are installed above exit passageways, aisles,•
or corridors, there shall be provided a minimum clearance of 6
ft.8in.(2.032m)measuredverticallyfromtheoororwalking
surface to the lowest part of the conveyor or guards.
Where system function will be impaired by providing the minimum•
clearance of 6 ft. 8 in. (2.032 m) through an emergency clearance,
alternate passageways shall be provided.
It is permissible to allow passage under conveyors with less•
than6ft.8in.(2.032m)clearancefromtheoorforotherthan
emergency exits if a suitable warning indicates low headroom.
• Operation
A) Only trained employees shall be permitted to operate conveyors.
Training shall include instruction in operation under normal conditions
and emergency situations.
B) Where employee safety is dependent upon stopping and/or
starting devices, they shall be kept free of obstructions to permit
ready access.
C) The area around loading and unloading points shall be kept clear
of obstructions which could endanger personnel.
D) No person shall ride the load-carrying element of a conveyor
underanycircumstancesunlessthatpersonisspecicallyauthorized
by the owner or employer to do so. Under those circumstances, such
employee shall only ride a conveyor which incorporates within its
supportingstructureplatformsorcontrolstationsspecicallydesigned
for carrying personnel. Under no circumstances shall any person ride
on any element of a vertical conveyor.
E) Personnel working on or near a conveyor shall be instructed as to
the location and operation of pertinent stopping devices.
F) A conveyor shall be used to transport only material it is capable of
handling safely.
G) Under no circumstances shall the safety characteristics of the
conveyor be altered if such alterations would endanger personnel.
H) Routine inspections and preventive and corrective maintenance
programs shall be conducted to insure that all safety features and
devices are retained and function properly.
I) Personnel should be alerted to the potential hazard of entanglement
in conveyors caused by items such as long hair, loose clothing, and
jewelry.
J) Conveyors shall not be maintained or serviced while in operation
unless proper maintenance or service requires the conveyor to be in
motion. In this case, personnel shall be made aware of the hazards
and how the task may be safely accomplished.
K)Ownersofconveyorshouldinsurepropersafetylabelsareafxed
to the conveyor warning of particular hazards involved in operation of
their conveyors.
• Maintenance
All maintenance, including lubrication and adjustments, shall be•
performedonlybyqualiedandtrainedpersonnel.
It is important that a maintenance program be established to•
insure that all conveyor components are maintained in a condition
which does not constitute a hazard to personnel.
When a conveyor is stopped for maintenance purposes, starting•
devices or powered accessories shall be locked or tagged out
in accordance with a formalized procedure designed to protect
all persons or groups involved with the conveyor against an
unexpected start.
Replace all safety devices and guards before starting equipment•
for normal operation.
Whenever practical, DO NOT lubricate conveyors while they are•
in motion. Only trained personnel who are aware of the hazard
of the conveyor in motion shall be allowed to lubricate.
Safety Guards
Maintain all guards and safety devices IN POSITION and IN SAFE
REPAIR.
Safety Labels
In an effort to reduce the possibility of injury to personnel working
around HYTROL conveying equipment, safety labels are placed at
various points on the equipment to alert them of potential hazards.
Please check equipment and note all safety labels. Make certain
your personnel are alerted to and obey these warnings. See Safety
Manual for examples of warning labels.
CAUTION!
Because of the many moving parts on the conveyor, all
personnel in the area of the conveyor need to be warned
that the conveyor is about to be started.
CAUTION!
Only trained personnel should track a conveyor belt which must be done
while conveyor is in operation. DO NOT attempt to track belt if conveyor is
loaded.
REMEMBER
Do not remove, reuse or modify material handling equipment for any
purpose other than it’s original intended use.
3
INSTALLATION
• Support Installation
1. Determine primary direction of product flow. Figure 4A
indicates the preferred flow as related to the drive.
2. Refer to “Match-Mark” numbers on ends of conveyor
sections. (Figure 4A) Position them in this sequence near
the area of installation.
3. Attach supports to both ends of drive section and to one
end of intermediate or tail sections (Figure 4A and 4C).
Hand tighten bolts only at this time.
4. Adjust elevation to required height.
• Ceiling Hanger Installation
If conveyors are to be used in an overhead application,
ceiling hangers may have been supplied in place of floor
supports.
Figure 4B shows how a ceiling hanger mounts to a conveyor section. Ceiling
hangers should be mounted at section joints. For safety information concerning
conveyors mounted overhead, refer to “Installation Safety Precautions” on Pg 3.
• Conveyor Set-Up
1. Mark a chalk line on the floor to locate the center of the conveyor.
2. Place the infeed section in position.
3. Place the remaining sections on the extended support of the previous section
(figure 4A).
4. Fasten the sections together with splice plates and pivot plates (figure 4C).
Hand tighten the bolts only at this time.
5. Insure that all bed sections are square. Refer to page 5 for instructions on how
to square the beds.
6. Tighten all splice plate and support mounting bolts and lag the conveyor to the
floor.
7. Connect the power wires and the EZLogic® zone controller cordsets (where
applicable) at the sections joints.
8. Mount the power supply (for the motor) and IOP (for the EZLogic® System
- where applicable) to the conveyor, near the center. Connect AC power to
both. Connect E24 wiring harness to the power supply, and from the IOP to the
EZLogic® System (where applicable). See page 6 for more information about
these connections
NOTE: See the EZLogic® GEN3 Component Manual for more information
about the IOP power connections and for more information about EZLogic®
components.
9. Install and wire any auxiliary cables or I/O modules. Refer to pages 6 and 7 for
more information about auxiliary connections.
• Electrical Equipment
CONTROLS
Electrical Code: All motor controls and wiring shall conform to the National
Electrical Code (Article 670 or other applicable articles) as published by the
National Fire Protection Association and as approved by the American Standards
Institute, Inc.
CONTROL STATIONS
A) Control stations should be so arranged and located that the operation of the
equipment is visible from them, and shall be clearly marked or labeled to indicate
the function controlled.
B) A conveyor which would cause injury when started shall not be started until
employees in the area are alerted by a signal or by a designated person that the
conveyor is about to start.
When a conveyor would cause injury when started and is automatically
controlled or must be controlled from a remote location, an audible device shall
be provided which can be clearly heard at all points along the conveyor where
personnel may be present. The warning device shall be actuated by the controller
device starting the conveyor and shall continue for a required period of time
before the conveyor starts. A flashing light or similar visual warning may be used
in conjunction with or in place of the audible device if more effective in particular
circumstances.
Where system function would be seriously hindered or adversely affected by
the required time delay or where the intent of the warning may be misinterpreted
(i.e., a work area with many different conveyors and allied devices), clear, concise,
and legible warning shall be provided. The warning shall indicate that conveyors
and allied equipment may be started at any time, that danger exists, and that
personnel must keep clear. The warnings shall be provided along the conveyor at
areas not guarded by position or location.
C) Remotely and automatically controlled conveyors, and conveyors where
operator stations are not manned or are beyond voice and visual contact from drive
areas, loading areas, transfer points, and other potentially hazardous locations on
the conveyor path not guarded by location, position, or guards, shall be furnished
with emergency stop buttons, pull cords, limit switches, or similar emergency stop
devices.
All such emergency stop devices shall be easily identifiable in the immediate
vicinity of such locations unless guarded by location, position, or guards. Where
the design, function, and operation of such conveyor clearly is not hazardous to
personnel, an emergency stop device is not required.
The emergency stop device shall act directly on the control of the conveyor
concerned and shall not depend on the stopping of any other equipment. The
emergency stop devices shall be installed so that they cannot be overridden from
other locations.
D) Inactive and unused actuators, controllers, and wiring should be removed from
control stations and panel boards, together with obsolete diagrams, indicators,
control labels, and other material which serve to confuse the operator.
NOTE: When installing ceiling hanger rods in an existing building, all methods
of attachment must comply with local building codes.
CEILING HANGER ROD
(VARILLA COLGADA
DEL TECHO)
SPACER
(ESPACIADOR)
JAM NUT
(CONTRA TUERCA)
SUPPORT PIPE
(SOPORTE ESTACIONARIO)
JAM NUT
(CONTRA TUERCA)
MOUNTING BOLTS
(TORNILLOS DE MONTAJE)
SIDE CHANNEL
(CANAL LATERAL)
PIPE RETAINER
(ABRAZADERA)
LOCK BOLT
(TORNILLO CANDADO)
SPLICE PLATE
(SPLICE PLATE)
SIDE CHANNEL
(CANAL LATERAL)
MOUNTING BOLT
(TORNILLO DE MONTAJE)
SIDE CHANNEL
(CANAL LATERAL)
SPLICE PLATE
(PLACA DE EMPALME)
PIVOT PLATE
(PLACA PIVOTE)
STATIONARY SUPPORT
(SOPORTE ESTACIONARIO)
CONVEYOR
ITEM TO
HYTROL CONVEYOR CO. INC.
JONESBORO, AR
A
12
CONVEYOR
ITEM TO
HYTROL CONVEYOR CO. INC.
JONESBORO, AR
A
21
FIGURE 4A
4”
Adjust to Desired
Elevation
(Ajuse La Elevacion
A La Altura Requerida)
Match-Mark Numbers
(Etiquetas De Secuencia La De Armado)
FIGURE 4B
FIGURE 4C
4
• Racked Sections
It is important that each bed section be checked for an out-of-square
condition. If conveyor is not square, tracking problems will result. Figure 5A
indicates a racked section.
TO CORRECT AN OUT-OF-SQUARE SECTION
1. Locate points on corners of section and measure distance “A” & “B”. If the
dimensions are not equal, the section will need to be squared. (Figure 5B).
2. Use crossbracing supplied on underside of conveyor to square each
section. Adjust turnbuckle until Dimensions “A” & “B” are equal.
3. After all bed sections have been checked and corrected for “racked
condition”, tighten all butt couplings and pivot plate bolts.
4. Make final check to see that all conveyor sections are level
across width and length. If entire conveyor is level, supports
can be lagged to floor.
“Racked” conveyor sections will cause package to travel
toward side of conveyor.
OPERATION
• Conveyor Start-Up
Before conveyor is turned on, check for foreign objects that
may have been left inside conveyor during installation. These
objects could cause serious damage during start-up.
After conveyor has been turned on and is operating, check all moving parts to
make sure they are working freely.
• Lubrication
BEARINGS
STANDARD: Supplied sealed and pre-lubricated. No Lubrication required.
• Sequence of Operation
EZLOGIC® EQUIPPED VERSIONS
The Model 190-E24EZ is made up of a series of accumulation zones, each zone
having an EZLogic® Zone Controller, a E24™ motor to drive the zone, idler rollers
driven from the E24™ motor with o-rings, and a motor control board that controls
and protects the E24™ motor.
The EZLogic Accumulation System provides two modes of accumulation which are
user-selectable: Singulation mode and Slug mode. The sequences of “loading” and
“unloading” the conveyor in the two modes are as follows:
LOADING THE CONVEYOR - SINGULATION MODE
1. Beginning with the conveyor empty, and the zone stop signal to the discharge
controller “active”, a carton placed on the conveyor continues forward until it
reaches the discharge zone (Zone #1).
2. If two or more cartons are placed on the conveyor with a space of less than one
zone length between them, the cartons will singulate (separate) during the first few
f
eet of travel on the conveyor, until a space approximately equal to one zone length
exists between all cartons.
3. When carton #1 activates controller “A”, Zone #1 stops driving. A signal is sent
to Zone #2 indicating that Zone #1 is occupied (Figure 5C).
4. When carton #2 activates
controller
“B”, Zone #2 stops driving. A signal is sent to
Zone #3 indicating that Zone #2 is occupied.
5. The above sequences are repeated until the conveyor is fully loaded.
UNLOADING THE CONVEYOR-SINGULATION MODE
1. Releasing carton #1 is accomplished by “de-activating” the zone stop signal to
the discharge zone (Refer to the “Auxiliary Connections” section on pages 6 and
7). This restores power to the tread rollers in Zone #1. Carton #1 will then move
forward, causing a gap between itself and carton #2 (Figure 5D).
2. When carton #1 clears controller “A”, carton #2 will then move forward, creating
a gap between itself and carton #3.
3. This sequence will continue as long as the preceeding carton continues to move
forward.
LOADING THE CONVEYOR-SLUG MODE
1.Beginning with the conveyor “empty,” and the zone stop signal to the discharge
controller “active,” a carton placed on the conveyor continues forward until it
reaches the discharge zone (Zone #1).
2.If two or more cartons are placed on the conveyor with a space of less than one
zone length between them, the cartons will not singulate (separate) while traveling
down the conveyor.
3. When carton #1 activates controller “A”, Zone #1 stops driving. A signal is sent
to Zone #2 indicating that Zone #1 is occupied.
4. When carton #2 activates controller “B”, Zone #2 stops driving. A signal is sent to
Zone #3 indicating that Zone #2 is occupied.
5. The above sequences are repeated until the conveyor is fully loaded.
UNLOADING THE CONVEYOR-SLUG MODE
1. Releasing all cartons is accomplished by “de-activating” the zone stop signal to
the discharge zone (Refer to the “Auxiliary Connections” section). This causes all
occupied zones to drive and restores power to the tread rollers. All cartons then
move forward (Figure 5D).
2. All cartons will continue to move forward without singulation as long as the zone
stop signal is de-activated.
JAM PROTECTION - SLUG MODE ONLY
This feature, when enabled, helps prevent product pile-up and/or damage if a
carton should become jammed on the conveyor. The sequence of operation when
a jam occurs is as follows:
If a carton becomes jammed at any point along the conveyor for a period of 6
seconds or longer, cartons on the upstream side of the jammed carton will stop in
sequence until the jammed carton is dislodged or removed. The zone containing
the jammed carton will continue to drive, in many cases dislodging the jammed
carton without additional help. The accumulated zones will return to normal once
the jam is cleared.
"
A
"
"B"
SIDE CHANNEL
(CANAL LATERAL)
(LONG ROD)
CROSSBRACING
([VARILLA LARGA]
TIRANTE TENSOR)
FRAME SPACER
(ESPACIADOR
DE CAMA)
(SHORT ROD)
(VARILLA CORTA)
TURNBUCKLE
(TENSOR)
SIDE CHANNEL
(CANAL LATERAL)
FIGURE 5B
SIDE CHANNEL
(CANAL LATERAL)
ROLLERS NOT
SQUARE WITH
SIDE CHANNELS
(RODILLOS
DESCUADRADOS
CON CANALES
LATERALES)
FIGURE 5A
IMPORTANT! Being out of level across this width of conveyor
can cause package drift on long conveyor lines.
CAUTION! Because of the many moving parts on the conveyor, all personnel in the
area of the conveyor need to be warned that the conveyor is about to be started.
CONTROLLER "C"
(CONTROLADOR "C") CONTROLLER "B"
(CONTROLADOR "B") CONTROLLER "A"
(CONTROLADOR "A")
ZONE #3
CARTON
#3
CARTON
#2
CARTON
#1
(ZONA) ZONE #2
(ZONA)
(FLUJO)
ZONE #1
(ZONA)
FLOW
FIGURE 5C
GAP UNCHANGED
(ESPACIO SIN CAMBIO)
GAP UNCHANGED
(ESPACIO SIN CAMBIO)
FLOW
CARTON
#3
CARTON
#2
CARTON
#1
(FLUJO)
CONTROLLER "C"
(CONTROLADOR "C")
CONTROLLER "B"
(CONTROLADOR "B")
CONTROLLER "A"
(CONTROLADOR "A")
FIGURE 5D
5
SPECIFICATIONS
• E24i™ Motor with Integrated Card
Requirements
Power Requirements
Power In•
24.0 VDC nominal @ 1.5 A maximumo
Normal operation from 22.0 – 28.0 VDC
Will allow operation above 28.0 VDC but control will get hotter.
Will allow operation below 22.0 VDC but full speed will be
unattainable.
29.0 + 0.2 VDC over-voltage detection (unit will cease normalo
operation)
19.0 + 0.2 VDC under-voltage detection (unit will cease normalo
operation)
Polarity protection is providedo
Note that the control’s ground does not attach to the metal
chassis; doing so assures a solid ground but then if the power
supply is reversed it’s positive output
Fuse non-replaceable 5 AMP. Fuse located under the cover.o
PNP Inputs•
PNP Input Signal Levelso
Active when pulled up above 18.0 VDC
Need to be able to source 3 mA
Two input signalso
Motor Run
Motor Reverse
Analog Speed Input•
Allow the speed to be controlled from a single point
Voltage range: 0-10 VDC
Minimum impedence presented to input: 5K
PNP Output•
Signal Levelso
Sources current when active
Maximum current for this unprotected output is 50mA.
A150ΩseriesresistorhelpsthePNPoutputlimitcurrentdraw
for most situations; voltage out is thus lower as current draw
increases.
Voltage dependent on input power and current draw.
One output signalo
Motor Running
Environmental Requirements
Temperature•
The unit shall operate within specified limits over the range of -20 too
40 °C (-4 to 120 °F).
The unit can be stored in the range of -40 to 85 °C (-40 to 185 °F).o
Humidity•
The unit shall operate within specified limits in relative humidity in theo
range of 20 to 90% (non-condensing).
The unit can be stored in the range of 5 to 95% (non-condensing).o
Safety – Unintended Use Considerations
Installer•
This product is intended for installation by qualified personnel only;o
although of relatively low voltage there are dangerous levels of current
controlled on the board that are not protected from misplaced fingers.
Note that the cover makes it difficult to touch any power.
A tool will be required to move the DIP switches; a plastic-tip
screwdriver is recommended.
User•
Product shall be located away from the user such that touching of theo
control is not possible.
MAINTENANCE
• EZLogic®System
EZLogic® Accumulation System Connections
The Model 190-E24EZ is equipped with the EZLogic® Accumulation System. The
following basic information may be used as a guide during the installation and
initial setup of the conveyor. For detailed information about EZLogic® system
components, options, functions, and programming, please refer to the EZLogic®
GEN3 Component Manual.
Each EZLogic® zone controller is equipped with sealed connectors for zone-to-
zone communication, solenoid output, and zone stop connections (Figure 7A).
These connections are described in the following sections.
ZONE CONNECTIONS
Each zone has a cordset terminated with a female micro-connector and a male
micro-connector. This cordset provides power to all the controllers on the conveyor
as well as communication between controllers. All controllers are mounted and
connected at the factory within each conveyor section. Connections between
sections are made at installation. (See Conveyor Set-Up, page 4). The cordset
from one controller is always connected to the cordset on the upstream side of it.
This is the way the controllers know which direction product is flowing. The cordset
on the infeed end of the conveyor is simply bundled and tied in the accumulation
channel and is not connected. The infeed cordset may be replaced with an infeed
zone terminator (P/N 032.550). Protective caps are provided to seal unused
connectors.
An optional conveyor-to-conveyor connector is required when two conveyors are
joined end-to-end. Please refer to the EZLogic® GEN3 Component Manual for
more information.
6 1/2
ZONE LENGTH
Zone Controller Cordset
Wiring Harness W/Drops
Wiring Harness W/Drops
6 1/2
Unidrive Motor
Figure 6B
• E24 Connections
Figure 6A
• E24EZ Connections
6
EZLOGIC CONTROL CONNECTIONS
Each zone controller has a built-in cable to provide a zone drive/no drive output to
the motor control board operating the zone. This cable is terminated with a female
Pico-style sealed snap-lock connector. Connection is made by pushing the cable
connector onto the corresponding male connector of the motor control board until
it snaps in place.
Please note that this output is only to be used to operate the zone mechanism of
the conveyor. It is not to be used as an output signal to other control devices. If a
control output is needed, an optional auxiliary I/O module should be used. Please
refer to the EZLogic® GEN3 Component Manual for more information.
AUXILIARY CONNECTIONS
Every EZLogic® zone controller is equipped with an auxiliary port to accept a zone
stop signal, a slug input signal, or a zone wake-up signal by simply connecting
an auxiliary input cable to the auxiliary port of the controller and then wiring the
two wires of the cable to any “dry contact” type switching device, such as a toggle
switch or relay. No other components are required. The default setting is for a
zone stop signal. To use the signal for slug input or zone wake-up, program the
zone controller as detailed in the EZLogic® GEN3 Component Manual.
NOTE: Do not apply a voltage to these wires, or wire more than one controller to
any one contact.
SLUG MODE CONNECTIONS
The EZLogic® accumulation system provides two modes of accumulation which
are user-selectable: Singulation mode and Slug mode. (For descriptions of the
sequence of operation for each mode, refer to the “Sequence of Operation” section
on pages 5.) The desired mode of operation may be programmed into the zone
controllers at installation (refer to the EZLogic® GEN3 Component Manual for
details). If the user wishes to be able to alternate between singulation mode and
slug mode “on-the-fly,” an optional Auxiliary Input Cable (Hytrol P/N 032.563) may
be used. The default mode is singulation mode. If the user desires to operate the
conveyor in slug mode, or if the user wishes to be able to alternate between the
two modes as needed, the following procedures should be used.
SLUG MODE ONLY
Program the zone controllers to operate in “slug mode only” as detailed in the
EZLogic® GEN3 Component Manual.
SELECTABLE SINGULATION/SLUG
1. Install an auxiliary input cable (Hytrol P/N 032.563) on any zone controller of the
conveyor. The cable attaches to the auxiliary port on the controller. (see Figure
7A).
2. Program the zone controller to accept a slug signal. (Refer to the EZLogic®
GEN3 Component Manual for details.)
3. Connect the two wires of the Auxiliary Input Cable to any “dry contact” type
switching device, such as a toggle switch or relay.
4. With the switch contacts open, the conveyor will be in singulation mode. When
the switch is closed, the conveyor is in slug mode.
NOTE: Do not apply a voltage to these wires, or wire more than one controller
to any one contact.
• Motor Control Board Connections
+24VDC Input, DC (-) Terminals
These terminals provide power to the control board and motor. The two pin
connector from the wiring harness supplies power to this location.
EZLogic® Controller Connector
This connector accepts a drive/no drive signal from an EZLogic® zone controller
(when used). The connector is a male 8mm push-type connector that mates with
the female connector of the EZLogic® zone controller. When the control board
receives a “run” signal from the EZLogic® zone controller, it turns on the E24™
motor.
Motor Run Terminal
This terminal is used to provide a “run” signal to the motor control board when
EZLogic® is not being used, such as on the 190-E24 conveyor. The type of signal
used PNP type. This connection is OR’ed with the EZ-Logic® input. When either is
active, or when both are active, the motor will run.
Motor Direction Terminal
This terminal is used to provide a “reverse” signal to the motor control board. The
type of signal used is a PNP type. The actual definition of “forward” and “reverse”
is determined by the position of the motor rotation selector switch (switch 1). When
this input is active and either the PNP Run input or the EZ-Logic® input is also
active, the motor will run in the opposite direction from the setting on switch 1.
Analog Speed Input Terminal
This terminal may be used to override the speed set by switches 3, 4, 5 and 6.
If the input is below 0.5 VDC, the speed defaults to that set by the switches.•
If the input is 9.0 VDC or higher, the speed will be the maximum speed.•
If in the range of 1.0 to 9.0 VDC, the speed will be proportional to the input.•
If the input is in the 0.5 to 1.0 VDC range, the speed will be the minimum•
speed.
Motor Running Output Terminal
This terminal is used to provide a “motor running” signal from the motor control
board. The output is a PNP type output and is active as long as the motor
controlled by the control board is running. This output is not used on standard
configurations of the E24™ family of conveyors, but may be used in special
applications, such as when two E24™ motors are required in one conveyor zone
to handle heavier loads.
Power Indicator LED (Green)
This LED will be illuminated at all times if input power is connected to the controller
with the proper polarity and the fuse is not blown.
Current Limiting Indicator LED (Amber)
Four Flashes in 4 seconds:• Components have overheated and the circuit is
limiting the power to the motor to about half (50%) of normal. This problem
corrects itself when the motor has adequately cooled. Check for mechanical
obstructions.
Constantly ON:• Motor current is at the maximum allowed and is being
electronically limited. Check for mechanical obstructions.
Flickering: • If the motor starts under significant load, the current may be
limited briefly causing the LED to flicker. If the LED flickers constantly, this
is an indication that the motor is operating at its upper limit and may never
TRANSDUCER
MOUNTING BASE
AUXILIARY PORT
ZONE CONTROLLER
SOLENOID OUTPUT CABLE
CORDSET
(CONECTOR DE CABLE)
(BASE DE MONTAJE)
(SENSOR)
(CABLE DE SALIDA SELENOIDE)
(CONTROLADOR DE ZONA)
(PUERTO AUXILIAR)
FIGURE 7A
• Zone Controller for GEN3 EZLogic®
1
2
3
4
5
6
P1 P2 P3 P4 1 2
EZLOGIC CONTROLLER CONNECTOR
(CONECTOR DEL CONTROLADOR EZLOGIC)
ON
L1 L2 L3 L4
L1 AMBER LED (CURRENT LIMITING)
INDICADOR LED NARANJA (INDICA CORRIENTE LIMITADA)
L2 RED LED (FAULT)
INDICADOR LED ROJO (FALLA)
L3 GREEN LED (POWER)
INDICADOR LED VERDE (POTENCIA)
L4 RED LED (BLOWN FUSE)
INDICADOR LED ROJO (FUSIBLE FUNDIDO)
P1 MOTOR RUN INPUT
ENTRADA DE ARRANQUÉ DEL MOTOR
P2 MOTOR DIRECTION INPUT
ENTRADA DE DIRECCION DEL MOTOR
P3 ANALOG SPEED INPUT
SALIDA DE VELOCIDAD ANALÓGICA
P4 MOTOR RUNNING OUTPUT
SALIDA DE MOTOR EN MARCHA
124 VDC INPUT
ENTRADA DE CORRIENTE DIRECTA +24V DC
2 DC (-) CORRIENTE DIRECTA DC (-)
FIGURE 7B
7
reach the full speed. This is not a cause for concern and no corrective action
is required.
Fault Indicator LED (Red)
This LED is off under normal circumstance. If a problem is detected, it provides
one of the following signals:
One (1) flash in 4 seconds:• The motor has a hardware problem. Return it
to your supplier.
Two (2) flashes in 4 seconds:• The input voltage is too low. Increase the
voltage.
Three (3) flashes in 4 seconds:• The input voltage is too low.
Increase the voltage.
Four (4) flashes in 4 seconds:• There is a problem with the motor
or commutation sensors.
Five (5) flashes in 4 seconds:• Control over temperature.
Six (6) flashes in seconds:• Extreme over current.
Constantly ON:• The motor is stalled or the sensor is continuously
blocked. Check for mechanical obstructions.
Blown Fuse Indicator LED (Red)
This LED will be illuminated if the 5.0 amp internal fuse is blown and
power is applied with the proper polarity. If the blown fuse LED is
illuminated, return the motor to your Integration Partner or supplier for
analysis or repair. The 5.0 amp fuse is not user-accessible.
Setup Selection Switches
There are six dipswitches on the control board that are used to configure the board
for specific applications. The switches are numbered 1 through 6, with 1 being the
top switch when viewing the motor as shown in the figure. Switch 1 and 2 are read
only at power-up, meaning that any changes to switches will not take effect until
the power is cycled to the E24™ system. Switches 3-6 are read dynamically. The
functions of the switches are as follows:
Switch 1 - Motor Rotation Selector Switch
This switch determines the default or “forward” direction of rotation of the E24™
motor. When the switch is in the “ON” (right) position the motor rotates clockwise
when viewed from the back of the motor. When the switch is in the “OFF” (left)
position the motor rotates counter-clockwise when viewed from the back of the
motor.
Switch 2 - Dynamic Braking Enable Switch
This switch is used to enable the dynamic braking feature. When the switch is in
the “OFF” (left) position the dynamic braking feature acts to stop motor rotation
quickly when the motor is turned off. When the switch is in the “ON” (right) position
the motor will coast to a stop when it is turned off.
Switches 3 through 6 - Speed Control Switches
These switches determine the operating speed, making it simple to match speeds
in multiple zones. The speed switches are read dynamically allowing the user to
change speeds while powered up.
RPM
Out
Speed, FPM DIP SWITCH SETTINGS
STD
SPOOL
SPEED UP
SPOOL SW3 SW4 SW5 SW6
350 174 254 OFF OFF OFF OFF
330 164 240 ON OFF OFF OFF
310 154 225 OFF ON OFF OFF
290 144 211 ON ON OFF OFF
270 134 196 OFF OFF ON OFF
250 124 182 ON OFF ON OFF
230 114 167 OFF ON ON OFF
210 104 153 ON ON ON OFF
190 95 138 OFF OFF OFF ON
170 85 123 ON OFF OFF ON
150 75 109 OFF ON OFF ON
130 65 94 ON ON OFF ON
110 55 80 OFF OFF ON ON
90 45 65 ON OFF ON ON
70 32 51 OFF ON ON ON
50 25 36 ON ON ON ON
• IOP Unit (Power Suppy for GEN3 EZLogic®)
The model 190-E24EZ is equipped with an IOP unit (power supply.) The IOP
unit provides DC power for the EZLogic® system and provides a wiring hub for
advanced features (if I/O boards are present). The IOP unit connects to the
EZLogic® system by way of an IOP Tee Cable mounted in line with the zone
controller cordsets (see Figure 9A).
Note: See EZLogic® GEN3 Component Manual and IOP Solutions Manual for
more information.
• Power Supply Unit for Motor
The E24™ family of conveyors is equipped with a 24 volt DC power suppy unit
for providing power to the drive card and motor combination. Each power supply
provided is a high efficiency DC power supply in a sealed industrial enclosure.
(Figure 10A)
The various wiring connections, adjustments and settings, and electrical
specifications of the power supply unit are described in this section.
Electrical Connections
Input power connections are made inside the enclosure. Wiring harness power
connections are made to connector on the outside of the enclosure.
AC Input
AC power for the power supply unit is connected directly to the disconnect switch,
and the ground wire is connected to the grounding terminal block. (Figure 10B and
10C)
The dual voltage single phase input powered units will automatically adjust to the
115 VAC or the 230 VAC input power.
DC Output
Connect the wiring harness to a connector on the side of the enclosure.
NOTE: Based on standard O-rings used, no more than 20 cards and motors
can be connected to one side of a power supply unit. When more than 20
amps is required, you must use a 40 amp power supply unit and make sure
that no more than 20 amps is required from each side of the power supply
unit.
Mount the power supply unit near the center of the conveyors and connect the
wiring harnesses to each side of the power supply.
A gender changer cable is supplied for one side of the power supply.
Main Power Disconnect Switch
The main power disconnect switch handle is located on the front door. The switch
can be used to turn the conveyor on and off to perform maintenance. It may be
“locked out” in the off position if desired/required.
EZLOGIC® ZONE CONTROLLER CORDSET
EZLOGIC® ZONE CONTROLLER
IOP TEE CABLE
IOP
(CABLES DEL CONTROLADOR DE ZONA DEL EZLOGIC®)
(CONTROLADOR DE ZONA DEL EZLOGIC®)
(CABLE TEE DEL IOP)
(IOP)
FIGURE 9A
Output Power Receptacle
On/Off Switch
Conduit Plugs
AC Power
Indicator Light
DC Power
Indicator Light
Mounting Holes
FIGURE 9B
8
Left Side View
16"
8"
6.37"
6" 6"
1"
14.5" Sub
2"
Right Side View
Top of Enclosure
FIGURE 10A
CUSTOMER CONNECTION
INCOMING POWER
1PH, 100-240V (+10%)
2.6 / 1.4 AMPS (3 AMPS INRUSH PEAK)
GND
NEU
L1
Terminals Seperated to
Clarify Wiring Details
NOTE:
SINGLE PHASE
FIGURE 10B
Terminals Seperated to
Clarify Wiring Details
NOTE:
CUSTOMER CONNECTION
INCOMING POWER
3PH, 380-480V (-15%, +20%)
0.9 AMPS (4 AMPS INRUSH PEAK)
GND
L1
L3
L2
THREE PHASE
FIGURE 10C
9
MODEL E24 AND E24EZ POWER SUPPLY
PART NO. INPUT
VOLTAGE PHASES INPUT
AMPS
INRUSH
AMPS
OUTPUT
VOLTAGE
OUTPUT
AMPS
EB-000007 100-240 1 2.6/1.4 3 24 5
EB-000008 380-480 3 0.9 4 24 5
• 5 AMP Power Supply Wiring Diagram
CUSTOMER CONNECTION
INCOMING POWER
1PH, 100-240V ( +10%)
2.6 / 1.4 AMPS (3 AMPS INRUSH PEAK)
GND
NEU
L1
24VDC FAN
BLU
WHT/BLU
ORG
YEL
BLU
WHT/BLU
ORG
YEL
BLU
BLU
WHT/BLU
WHT/BLU
ORG
ORG
YEL
YEL
RED (+24VDC)
BLK (COM)
BLK
WHT
GRN
BLK
WHT
GRN
BLU
WHT/BLU
BLU
BLU
GRN
BLU
Terminals Seperated to
Clarify Wiring Details
NOTE: 115-230 VAC
5AMP
A run contact must be
used to control starting
and stopping of an E24
transportation type
conveyor.
Un contacto de
marcha debe ser
utilizada para controlar
el arranque y la parada
de un E24 tipo de transporte
del transportador.
Terminals Seperated to
Clarify Wiring Details
NOTE:
BLK
CUSTOMER CONNECTION
INCOMING POWER
3PH, 380-480V (-15%, +20%)
0.9 AMPS (4 AMPS INRUSH PEAK)
GND
L1
L3
L2
BLK
BLK
GRN
BLK
BLK
GRN
BLU
BLU
WHT/BLU
GRN
BLU
BLU
24VDC FAN
BLU
WHT/BLU
ORG
YEL
BLU
WHT/BLU
ORG
YEL
BLK (COM)
RED (+24)
BLU
BLU
WHT/BLU
WHT/BLU
ORG
ORG
YEL
YEL
BLU
WHT/BLU
BLK
460VAC
5AMP
A run contact must be
used to control starting
and stopping of an E24
transportation type
conveyor.
Un contacto de
marcha debe ser
utilizada para controlar
el arranque y la parada
de un E24 tipo de transporte
del transportador.
NOTE: Only turn off incoming power to the power supply unit under E-
Stop conditions or maintenance reasons. A run contact must be used to
control starting and stopping of an E24 transportation type conveyor.
NOTA: Sólo se apague la alimentación de entrada a la unidad de sumi-
nistro de energía en condiciones de parada de emergencia o por ra-
zones de mantenimiento. Un contacto de marcha debe ser utilizada
para controlar el arranque y la parada de un E24 tipo de transporte del
transportador.
FIGURE 11A
FIGURE 11B
For PNP Control Operation
Funcionamiento del Control PNP
For PNP Control Operation
Funcionamiento del Control PNP
10
MODEL E24 AND E24EZ POWER SUPPLY
PART NO. INPUT
VOLTAGE PHASES INPUT
AMPS
INRUSH
AMPS
OUTPUT
VOLTAGE
OUTPUT
AMPS
EB-000003 100-240 1 4.56/2.48 9/7 24 20
EB-000005 380-480 3 .9/.65 4 24 20
• 20 AMP Power Supply Wiring Diagram
115-230 VAC
20AMP
CUSTOMER CONNECTION
INCOMING POWER
1PH, 100-240V (+
-15%)
4.56 / 2.48 AMPS (9 / 7 AMPS INRUSH PEAK)
GND
NEU
L1
24VDC FAN
BLU
WHT/BLU
ORG
YEL
BLU
WHT/BLU
ORG
YEL
BLU
BLU
WHT/BLU
WHT/BLU
ORG
ORG
YEL
YEL
RED (+24VDC)
BLK (COM)
BLK
WHT
GRN
BLK
WHT
GRN
BLU
WHT/BLU
BLU
BLU
GRN
BLU
A run contact must be
used to control starting
and stopping of an E24
transporation type conveyor.
NOTE:
Terminals Seperated to
Clarify Wiring Details.
Un contacto de
marcha debe ser
utilizada para controlar
el arranque y la parada
de un E24 tipo de transporte
del transportador.
NOTE: Only turn off incoming power to the power supply unit under E-
Stop conditions or maintenance reasons. A run contact must be used to
control starting and stopping of an E24 transportation type conveyor.
NOTA: Sólo se apague la alimentación de entrada a la unidad de sumi-
nistro de energía en condiciones de parada de emergencia o por ra-
zones de mantenimiento. Un contacto de marcha debe ser utilizada
para controlar el arranque y la parada de un E24 tipo de transporte del
transportador.
Terminals Seperated to
Clarify Wiring Details
NOTE:
BLK
CUSTOMER CONNECTION
INCOMING POWER
3PH, 380-480V ( +15%)
0.9 / 0.65 AMPS (4 AMPS INRUSH PEAK)
GND
L1
L3
L2
BLK
BLK
BLK
GRN
BLK
BLK
BLK
GRN
BLU
BLU
WHT/BLU
GRN
BLU
BLU
460VAC
20AMP
24VDC FAN
BLU
WHT/BLU
ORG
YEL
BLU
WHT/BLU
ORG
YEL
BLK (COM)
RED (+24)
BLU
BLU
WHT/BLU
WHT/BLU
ORG
ORG
YEL
YEL
BLU
WHT/BLU
BLK
BLK
A run contact must be used
to control starting and
stopping of an E24
transporation type conveyor.
Adjust
DC ok
Overload
+ + - - 13
DC
14
ok
Un contacto de
marcha debe ser
utilizada para controlar
el arranque y la parada
de un E24 tipo de transporte
del transportador.
FIGURE 12A
FIGURE 12B
For PNP Control Operation
Funcionamiento del Control PNP
For PNP Control Operation
Funcionamiento del Control PNP
11
MODEL E24 AND E24EZ POWER SUPPLY
PART NO. INPUT
VOLTAGE PHASES INPUT
AMPS
INRUSH
AMPS
OUTPUT
VOLTAGE
OUTPUT
AMPS
EB-000004 100-240 1 8.6/4.5 16/9 24 40
EB-000006 380-480 3 1.65/1.35 4.5 24 40
• 40 AMP Power Supply Wiring Diagram
120VAC
40AMP
24VDC FAN
BLU
WHT/BLU
ORG
YEL
BLU
WHT/BLU
ORG
YEL
CUSTOMER CONNECTION
INCOMING POWER
1PH, 100-240V (-15%/+10%)
8.6 / 4.5 AMPS (16/9 AMPS PEAK INRUSH)
GND
BLK (COM)
RED (+24)
GRN
GRN
BLK
GRN
BLU
WHT/BLU
BLU
WHT/BLU
BLU
BLU
BLU
BLU
WHT/BLU
WHT/BLU
ORG
ORG
YEL
YEL
BLU
BLU
WHT/BLU
WHT/BLU
GRN
BLU
BLU
BLU
Terminals Seperated to
Clarify Wiring Details
NOTE:
BLK
WHT
WHT
NEU
L1
A run contact must be
used to control starting
and stopping of an E24
transportation type
conveyor.
Parallel Use
Single Use
24-
24V
DC ok
Overload
Un contacto de
marcha debe ser
utilizada para controlar
el arranque y la parada
de un E24 tipo de transporte
del transportador.
460VAC
40AMP
24VDC FAN
BLU
WHT/BLU
ORG
YEL
BLU
WHT/BLU
ORG
YEL
CUSTOMER CONNECTION
INCOMING POWER
3PH, 380-480V (-15%/+20%)
1.65 / 1.35 AMPS (4.5 AMPS PEAK INRUSH)
GND
L1
L3
L2
BLK (COM)
RED (+24)
GRN
GRN
BLK
BLK
BLK
GRN
BLU
WHT/BLU
BLU
WHT/BLU
BLU
BLU
BLU
BLU
WHT/BLU
WHT/BLU
ORG
ORG
YEL
YEL
BLU
BLU
WHT/BLU
WHT/BLU
GRN
BLU
BLU
BLU
Terminals Seperated to
Clarify Wiring Details
BLK
BLK
BLK
Parallel Use
Single Use
Adjust
DC ok
Overload
L1 L2 L3
13
14
15
16
DC ok
Shut-
Down
A run contact must be used
to control starting and
stopping of an E24
transporation type conveyor.
Un contacto de
marcha debe ser
utilizada para controlar
el arranque y la parada
de un E24 tipo de transporte
del transportador.
NOTE: Only turn off incoming power to the power supply unit under E-
Stop conditions or maintenance reasons. A run contact must be used to
control starting and stopping of an E24 transportation type conveyor.
NOTA: Sólo se apague la alimentación de entrada a la unidad de sumi-
nistro de energía en condiciones de parada de emergencia o por ra-
zones de mantenimiento. Un contacto de marcha debe ser utilizada
para controlar el arranque y la parada de un E24 tipo de transporte del
transportador.
FIGURE 13A
FIGURE 13B
For PNP Control Operation
Funcionamiento del Control PNP
For PNP Control Operation
Funcionamiento del Control PNP
12
SPECIFICATIONS
• E24 Motor Card Requirements
Power Requirements
Power In•
24.0 VDC nominal @ 3 A maximumo
Limited to 1.5 A when DIP switch 4 is OFF (see page 15)
Normal operation from 22.0 – 28.0 VDC
Will allow operation above 28.0 VDC but control will get hotter.
Will allow operation below 22.0 VDC but full speed will be
unattainable.
29.0 + 0.2 VDC over-voltage detection (unit will cease normalo
operation)
19.0 + 0.2 VDC under-voltage detection (unit will cease normalo
operation)
Polarity protection is providedo
Note that the control’s ground does not attach to the metal
chassis; doing so assures a solid ground but then if the power
supply is reversed it’s positive output
Fuse to only be replaced with a 5A Slo-Blo Littlefuse 0454005 oro
equivalent.
NPN/PNP Selectable Inputs• – can be either an NPN or PNP input
(see page 14) PNP is recommended.
NPN Input Signal Levels (When switch 2 is OFF)o
Active when pulled down below 2.0 VDC
Need to be able to sink 3 mA
PNP Input Signal Levels (When switch 2 is ON)o
Active when pulled up above 18.0 VDC
Need to be able to source 3 mA
Two input signals (See page 14)o
Motor Run
Motor Reverse
Analog Speed Input•
Allow the speed to be controlled from a single point
Voltage range: 0-10 VDC
Minimum impedence presented to input: 5K
PNP Output•
Signal Levelso
Sources current when active
Maximum current for this unprotected output is 50mA.
A150ΩseriesresistorhelpsthePNPoutputlimitcurrentdraw
for most situations; voltage out is thus lower as current draw
increases.
Voltage dependent on input power and current draw.
One output signal (See Page 14)o
Motor Running
Environmental Requirements
Temperature•
The unit shall operate within specified limits over the range of -20o
to 40 °C (-4 to 120 °F).
The unit can be stored in the range of -40 to 85 °C (-40 to 185 °F).o
Humidity•
The unit shall operate within specified limits in relative humidity ino
the range of 20 to 90% (non-condensing).
The unit can be stored in the range of 5 to 95% (non-condensing).o
Safety – Unintended Use Considerations
Installer•
This product is intended for installation by qualified personnelo
only; although of relatively low voltage there are dangerous levels
of current controlled on the board that are not protected from
misplaced fingers.
Note that the cover makes it difficult to touch any power other
than the fuse.
A tool will be required to tweak the pot or move the DIP
switches; a plastic-tip screwdriver is recommended.
Should the on-board fuse require replacement always use only thato
detailed in this specification.
User•
Product shall be located away from the user such that touching ofo
the control is not possible.
Should the on-board fuse require replacement always use only thato
detailed in this spec.
6 1/2
Unidrive Motor Control
Unidrive Motor
Wiring Harness W/Drops
Figure 13B
• E24 Connections
6 1/2
ZONE LENGTH
Zone Controller
Unidrive Motor Control Cordset
Figure 13A
Wiring Harness W/Drops
• E24EZ Connections
13
EZLOGIC® CONTROLLER CONNECTOR
(CONECTOR DEL CONTROLADOR EZLOGIC)
SPEED CONTROL POTENTIOMETER
(CONTROLADOR DE VELOCIDAD)
RED L.E.D. (BLOWN FUSE INDICATOR
)
(INDICADOR LED ROJO (INDICADOR DE FUSIBLE FUNDIDO)
DC (-)
(CORRIENTE DIRECTA DC (-)
+24V DC INPUT
(ENTRADA DE CORRIENTE DIRECTA +24V DC)
MOTOR RUNNING OUTPUT
(SALIDA DE MOTOR EN FUNCIONAMIENTO)
ANALOG SPEED INPUT (SALIDA DE VELOCIDAD ANALÓGICA)
MOTOR DIRECTION (DIRECCION DEL MOTOR)
MOTOR RUN
(ARRANQUE DEL MOTOR)
MOTOR CABLE
(CABLE DEL MOTOR)
MOTOR CONNNECTOR
(CONECTOR DEL MOTOR)
REPLACEABLE FUSE
(LITTEL FUSE 0454005 OR EQUIVALENT)
[(FUSIBLE REEMPLAZABLE (FUSIBLE LITTLE
0454005 O EQUIVALENTE)]
RED L.E.D. (FAULT)
[INDICADOR LED ROJO (FALLA)]
AMBER L.E.D. (INIDCATES CURRENT LIMITING)
[INDICADOR LED NARANJA (INDICA CORRIENTE LIMITADA)]
GREEN L.E.D.
(POWER CONNECTED)
INDICADOR LED VERDE (POTENCIA CONECTADA)
SW1
SW2
SW3
SW4
ON
(PRENDIDO)
FIGURE 14A
• The Motor Control Board
The motor control board is an integral part of the E24™ system. The control
board performs the following functions:
1. Provides power to the motor.
2. Allows the motor to be operated by an EZLogic® zone controller or other
control device.
3. Limits the current to the motor to protect the motor from damage in the case
of an overload or stall condition.
4. Provides optional dynamic braking.
5. Allows the default direction of rotation to be selected.
6. Provides speed control for the motor.
7. Provides LED’s to indicate when the board is receiving power and when
certain fault conditions occur.
The parts of the motor control board are shown in Figure 14A. Each of these
parts and their function are described below.
Plug the motor connec-
tor into the 8-pin header
(item 1) on the board,
oriented as shown in
Figure 14B: Orientation
of Motor Connector and
Plug. The notch in the
bottomoftheplugts
securely over the black
bar on the pin header.
NOTE: Incorrect as-
sembly of the motor
plug to the control
card will result in a
damaged motor and card.
+24VDC Input, DC (-) Terminals
These terminals provide power to the control board and motor. The two pin
connector from the wiring harness supplies power to this location.
Replaceable Fuse
The replaceable fuse protects the motor and control board from damage
due to electrical shorts and overloads. Replacements must be 5A slow blow
Littelfuse #0454005 or equivalent.
EZLogic® Controller Connector
This connector accepts a drive/no drive signal from an EZLogic® zone
controller (when used). The connector is a male 8mm push-type connector
that mates with the female connector of the EZLogic® zone controller. When
the control board receives a “run” signal from the EZLogic® zone controller,
it turns on the E24™ motor.
Motor Run Terminal
This terminal is used to provide a “run” signal to the motor control board
when EZLogic® is not being used, such as on the 190-E24 conveyor. The
type of signal used may be NPN type or PNP type and is determined by the
position of the input type selector switch (switch 2). For the 190-E24 conveyor
the switch is set to PNP mode. This means that each time this terminal is
connected to 24DC(+), or ground the motor will run.
Motor Direction Terminal
This terminal is used to provide a “reverse” signal to the motor control board.
The type of signal used may be NPN type or PNP type and is determined by
the position of the input type selector switch (switch 2). The actual definition
of “forward” and “reverse” is determined by the position of the motor rotation
selector switch (switch 1). This input is not used on standard configurations of
the E24™ family of conveyors, but may be used in special applications.
Analog Speed Input
This terminal is used to send an analog speed input to the motor control
boards. The signal may range from 0 to 10 VDC. As the input voltage
increases, the speed of the motor will increase in 16 increments. If the signal
is not present or drops below 1 VDC, the board reverts back to the on board
speed potentiometer. Maximum speed is acquired at or above 9 VDC.
Motor Running Output Terminal
This terminal is used to provide a “motor running” signal from the motor control
board. The output is a PNP type output and is active as long as the motor
controlled by the control board is running. This output is not used on standard
configurations of the E24™ family of conveyors, but may be used in special
applications, such as when two E24™ motors are required in one conveyor
zone to handle heavier loads. Input and output can be set independently of
signal from EZLogic® module.
Power Indicator LED (Green)
This LED will be illuminated at all times if input power is connected to the
controller with the proper polarity.
Current Limiting Indicator LED (Amber)
This LED will be illuminated if the board is in current limiting mode. This
8-PIN MOTOR
CONNECTOR
(8-PIN MOTOR
CONNECTOR)
CABLE
CONNECTOR
PLUG
(CABLE
CONECTOR
ENCHUFE)
ITEM 1
FIGURE 14B
14
• Trouble Shooting Model E24
The following charts list possible problems that may occur in the operation of an E24 conveyor.
TROUBLE SHOOTING DRIVES
TROUBLE CAUSE SOLUTION
No motors on the conveyor will run. 1) No AC power to the power supply unit.
2) Main power disconnect on the power supply unit is “off.”
3) Main fuses blown.
4) No lights on motor/control board.
5) Board not receiving run signal
1) Check AC power.
2) Set disconnect to “on.”
3) Replace fuses.
4) Check output power of power supply.
5) Check connections and insure run signal is active
Individual zone will not run. 1) Motor/Control Board power pins not connected to wiring harness.
2) Motor power connector not connected to Control Board. (E24™ motor
only.)
3) Blown fuse indicator “ON”. (E24i™)
4) Defective control board.
5) Defective motor.
1) Connect wiring harness and pin connector to power pins
on Motor/Control Board.
2) Connect motor power connector to Motor Control Board.
3) Replace motor.
4) Replace fuse.
5) Replace control board.
Zone will not restart after accumulation. 1) O-ring band(s) stretched or worn. 1) Replace o-ring(s).
• Trouble Shooting Model E24EZ
The following charts list possible problems that may occur in the operation of an E24EZ conveyor.
TROUBLE SHOOTING DRIVES
TROUBLE CAUSE SOLUTION
No zones on the conveyor
will run.
1) No AC power to the power supply unit.
2) Main power disconnect on the power supply unit is “off.”
3) Main fuses blown.
4) No lights on Motor/Control Board.
5) No power to EZLogic® Zone Controller
1) Check AC power.
2) Set disconnect to “on.”
3) Replace fuses.
4) Check output power of power supply.
5) Check EZLogic® connections and IOP.
Individual zone will not run. 1) Motor/control board power pins not connected to wiring harness.
2) EZLogic® zone controller output cable not connected to motor/control board.
3) Motor power connector not connected to control board. (E24 motor only.)
4) Zone controller lens is dirty.
5) Reflector missing or damaged.
6) Defective EZLogic® zone controller.
7) Blown fuse indicator “ON”.
8) Blown fuse indicator “ON”. (E24™)
9) Defective control board.
10) Defective motor.
1) Connect wiring harness and pin connector to power pins
on Control Board.
2) Connect cables.
3) Connect motor power connector to motor control board.
4) Clean lens.
5) Replace reflector.
6) Replace EZLogic® zone controller.
7) Replace motor.
8) Replace fuse.
9) Replace control board.
10)Replace motor.
Zone will not restart after
accumulation.
1) Zone controller lens is dirty.
2) O-ring band(s) stretched or worn.
1) Clean lens.
2) Replace o-ring(s).
Zone will not “sleep.” 1) Sleep feature disabled.
2) Upstream zone is blocked.
1) Enable sleep feature.
2) Unblock upstream zone.
Product will not accumulate
from the discharge zone back.
1) No zone stop signal to discharge zone. 1) Check input cable and signal source.
occurs when the motor load current requirement exceeds the selected
maximum current value. When the current requirement drops below this
value, the indicator will turn off.
Fault Indicator LED (Red)
This LED indicates information about various faults, either by flashing or by
remaining in a steady “ON” state. Flash patterns are repeated at four-second
intervals. The indicated faults are as follows:
One flash - Board hardware problem•
Two flashes - Over-Voltage•
Three flashes - Under-Voltage•
Four flashes - Internal motor fault•
Five flashes - Control Board over temperature shut down•
Six flashes - Extreme over current shut down•
On steady - Stalled motor•
Blown Fuse Indicator LED (Red)
This LED will be illuminated if the replacement fuse is blown.
Motor Connector
This connector accepts the connector on the E24™ motor’s cable. The
connection provides power to the motor and allows the control board to
monitor the motor’s load status. Note: See Figure 14B for correct orientation.
Speed Control Potentiometer
The speed control potentiometer is used to vary the speed of an individual
E24™ motor. Speed-up and slow-down areas may be created to gap product,
provide more accurate positioning, etc.
Setup Selection Switches
There are four dipswitches on the control board that are used to configure the
board for specific applications. The switches are numbered 1 through 4, with
1 being the top switch when viewing the control board as shown in the figure.
They are read only at power-up, meaning that any changes to switches will
not take effect until the power is cycled to the E24™ system. The functions of
the switches are as follows:
Switch 1 - Motor Rotation Selector Switch
This switch determines the default or “forward” direction of rotation of the
E24™ motor. When the switch is in the “ON” (right) position the motor rotates
clockwise when viewed from the back of the motor. When the switch is in the
“OFF” (left) position the motor rotates counter-clockwise when viewed from
the back of the motor.
Switch 2 - Input Type Selector Switch
This switch is used to set the type of input accepted by the “motor-run” input
terminal and the “motor direction” input terminal. It does NOT affect the
EZLogic® controller connector input. When the switch is in the “OFF” (left)
position the inputs are “NPN” type; that is , an input is activated by connecting
the terminal to DC(-) terminal using a jumper wire or through a switch. When
the switch is in the “ON” (right) position the inputs are “PNP” type; that is, an
input is activated by connecting the terminal to the +24VDC terminal using a
jumper wire or through a switch. PNP is recommended.
Switch 3 - Dynamic Braking Enable Switch
This switch is used to enable the dynamic braking feature. When the switch
is in the “OFF” (left) position the dynamic braking feature acts to stop motor
rotation quickly when the motor is turned off. When the switch is in the “ON”
(right) position the motor will coast to a stop when it is turned off.
Switch 4 - Current Limit Selector Switch
This switch selects the maximum current that the control board will allow the
E24™ motor to use. When the switch is in the “OFF” (left) position the current
limit is set at 1.5 amps. When the switch is in the “ON” (right) position the
current limit is set at 3.0 amps. For most applications the switch should be
set to the “OFF” position to prevent drawing too much current from the motor
power supply.
15
1
3
15
14
13
28
6
5
7
4
9
1011
12
• Model 190-E24EZ Final Assembly
Asamblea Final del Modelo 190-E24EZ
REF NO. PART NO. DESCRIPTION
1
2
3
4
---
---
---
---
---
---
EB-000003
EB-000004
Section Assembly (See Page 17)
Accumulation Kit (See Page 18)
ReectorKit(SeePage17)
Power Supply For E24 TM Motors (Specify Size)
20 Amp 120/230 VAC
40 Amp 120/230 VAC
5
6
7
8
9
032.582
032.563
032.599
032.011
032.010
IOP - Power Supply
Auxiliary Input Cable - 3 ft. Long
Power Supply T Cable - 2M
Downstream Connector Cover - for Sealed
Upstrean Connector Cover - for Sealed
10
---
---
11
12
---
036.090
036.0902
036.091
032.70199
Wiring Trough Cover
Gray Styrene
Smoke
End Cap for Wiring Trough Cover (Optional)
Wiring Harness, 1 ft. Long Gender Changer
13
---
---
B-00913
MS Pivot Plate - 1-1/2 in. Flange
3-11/16 in. High
REF NO. PART NO. DESCRIPTION
---
14
---
B-02112
---
B-00914
1-9/16 in. High
Floor Support Frame
6 in. High (Specify OAW)
---
---
---
---
---
B-12777
B-12778
B-00915
B-00916
B-00917
7 in. High (Specify OAW)
8 in. High (Specify OAW)
9 in. High (Specify OAW)
11-1/2 in. High (Specify OAW)
14-1/2 in. High (Specify OAW)
---
---
---
---
---
B-02098
B-00919
B-00921
B-00923
B-00925
18-1/2 in. High (Specify OAW)
22-1/2 in. High (Specify OAW)
32-1/2 in. High (Specify OAW)
44-1/2 in. High (Specify OAW)
56-1/2 in. High (Specify OAW)
---
---
---
15
B-02107
B-02109
B-02111
B-00911
68-1/2 in. High (Specify OAW)
78-1/2 in. High (Specify OAW)
90-1/2 in. High (Specify OAW)
Adjustable Foot Assembly
16
114
9
7
Section Length
Zone Length
8 2
3
10
6
1
5
1 1/2”
• Model 190-E24EZ Section Assembly
Asamblea Sección Modelo 190-E24EZ
1
2
3
4
LENGTH
2 15/16 1 1/2
ZONE LENGTH TYP
3
FLOW
• Model 190-E24EZ Reflector Kit
Kit Reflector del Modelo 190-E24EZ
REF NO. PART NO. DESCRIPTION
1
2
3
4
B-20508
032.218
041.802
042.1018
ReectorChannel(SpecifyLength)
Reector-2.18in.Dia.
#10-24 NC2B Hex Locknut, Nylon Insert, ZP
#10-24 x 5/8 in. Rd. Hd. Mach. Screw, ZP
REF NO. PART NO. DESCRIPTION
1
2
3
4
5
P-01489
B-23689
B-03916
SA-039353
090.2558
Side Channel (Specify Length)
Large splice Plate - Straight to Straight
Bed Spacer (Specify BR)
1.9 Dia. Double Groove Roller (Specify BR)
O-Ring - .177 in. Thick
6
-
7
8
9
10
11
033.09022
033.09001
094.41501
B-22629
B-20601
PT-107299
PT-104688
E24i TM Unidrive Motor
E24 TM Unidrive Motor (Optional)
Drive Spool - Double Groove, 1.9 in. OD
Accum Channel Mounting Block Kit
MountingAngle-ReectorChannel
Unidrive Mounting Bracket
Nip Point Guard
17
• Model 190-E24EZC Parts Drawing Dibujo de Partes del Modelo 190-E24EZC
10
1 1
12 5
7
17
18
6
3
36
4
2
13
14
9
36
18
VIEW A-A 35
31
34
32 33
24
26
25
28
29
BR
O A W 30
END VIEW
90° CURVE SHOWN
LENGTH
1
2
6 1/2
REF
2 15/16
8 15/16
6
ZONE LENGTH TYP
3
4
ZONE LENGTH TYP
5
9
10
8
7
• Model 190-E24EZ Accumulation Kit
Kit de Acumulación del Modelo 190-E24EZ
REF NO. PART NO. DESCRIPTION
1
2
3
4
---
B-20507
032.501
032.517
---
032.551
Accumulation Channel (Specify Length)
UnitizedZoneCtrl-PolReexTransducer
Base for EZLogic Gen3 Controller
Cordset
12 in. Zone Length
---
---
---
---
5
032.552
032.553
032.554
032.555
033.09002
18 in. Zone Length
24 in . Zone Length
30 in . Zone Length
36 in . Zone Length
Unidrive Motor Control (Optional)
6
7
8
---
---
090.108
094.1143
---
032.70502
032.71003
Alum. Pop Rivet - 5/32 in. Dia.
EZ Twist Lock - for 13/32 in. Dia. Hole
Wiring Harness - 12 in. Zones (Specify Length)
24 in. OAL
36 in. OAL
---
---
---
---
---
032.71004
032.71005
032.70606
032.70808
032.70808
48 in. OAL
60 in. OAL
72 in. OAL
84 in. OAL
96 in. OAL
---
---
---
032.71010
---
032.70201
108 in. and 120 in. OAL
Wiring Harness - 18 in. Zones (Specify Length)
18 in. OAL
REF NO. PART NO. DESCRIPTION
---
---
032.70502
032.71003
36 in. OAL
54 in. OAL
---
---
---
---
---
032.71004
032.71005
032.70906
---
032.70201
72 in. OAL
90 in. OAL
108 in. OAL
Wiring Harness - 24 in. Zones (Specify Length)
24 in. OAL
---
---
---
---
---
032.70502
032.71003
032.71004
032.71005
---
48 in. OAL
72 in. OAL
96 in. OAL
120 in. OAL
Wiring Harness - 30 in. Zones (Specify Length)
---
---
---
---
---
032.70401
032.70502
032.71003
032.71005
---
30 in. OAL
60 in. OAL
90 in. OAL
120 in. OAL
Wiring Harness - 36 in. Zones (Specify Length)
---
---
9
10
032.70401
032.71003
042.10336
041.801
36 in. OAL
72 in. thru 108 in. OAL
#8-32 x 1/2 in. lg. Rd. Hd. Mach. Screw, ZP
#8-32 Hex Locknut - Nylon Insert, ZP
18
• Model 190-E24EZC Parts List Lista de Partes del Modelo 190-E24EZC
REF
NO. PART NO. DESCRIPTION
1
-
-
2
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
0257-90SX260
0257-90SX384
-
0258-90S380
0258-90S396
0258-90S412
0258-90S428
0258-90S444
0258-90S460
0258-90S476
PT-091272-031
PT-091741-031
PT-091272-033
PT-091741-033
PT-091272-037
PT-091741-037
PT-091272-039
PT-091741-039
90° Inside Side Channel
15 in. thru 27 in. BR (32-1/2 in. IR)
31 in. thru 39 in. BR (48 in. IR)
90° Outside Side Channel (Specify BR)
15 in. BR
17 in. BR
19 in. BR
21 in. BR
23 in. BR
25 in. BR
27 in. BR
31 in. BR (Long)
31 in. BR (Short)
33 in. BR (Long)
33 in. BR (Short)
37 in. BR (Long)
37 in. BR (Short)
39 in. BR (Long)
39 in. BR (Short)
190-E24EZC 90°
1
-
-
2
-
-
-
-
-
-
-
-
-
-
-
-
0257-60SX260
0257-60SX384
-
0258-60S380
0258-60S396
0258-60S412
0258-60S428
0258-60S444
0258-60S460
0258-60S476
0258-60S632
0258-60S648
0258-60S680
0258-60S696
60° Inside Side Channel
15 in. thru 27 in. BR (32-1/2 in. IR)
31 in. thru 39 in. BR (48 in. IR)
60° Outside Side Channel
15 in. BR
17 in. BR
19 in. BR
21 in. BR
23 in. BR
25 in. BR
27 in. BR
31 in. BR
33 in. BR
37 in. BR
39 in. BR
190-E24EZC 60°
1
-
-
2
-
-
-
-
-
-
-
-
-
-
-
-
0257-45SX260
0257-45SX384
-
0258-45S380
0258-45S396
0258-45S412
0258-45S428
0258-45S444
0258-45S460
0258-45S476
0258-45S632
0258-45S648
0258-45S680
0258-45S696
45° Inside Side Channel
15 in. thru 27 in. BR (32-1/2 in. IR)
31 in. thru 39 in. BR (48 in. IR)
45° Outside Side Channel
15 in. BR
17 in. BR
19 in. BR
21 in. BR
23 in. BR
25 in. BR
27 in. BR
31 in. BR
33 in. BR
37 in. BR
39 in. BR
190-E24EZC 45°
1
-
-
2
-
-
-
-
-
-
-
-
-
-
-
-
0257-30SX260R
0257-30SX384
-
0258-30S380
0258-30S396
0258-30S412
0258-30S428
0258-30S444
0258-30S460
0258-30S476
0258-30S632
0258-30S648
0258-30S680
0258-30S696
30° Inside Side Channel
15 in. thru 27 in. BR (32-1/2 in. IR)
31 in. thru 39 in. BR (48 in. IR)
30° Outside Side Channel
15 in. BR
17 in. BR
19 in. BR
21 in. BR
23 in. BR
25 in. BR
27 in. BR
31 in. BR
33 in. BR
37 in. BR
39 in. BR
190-E24EZC 30°
REF
NO. PART NO. DESCRIPTION
3
4
5
-
6
7
8
B-03916
SA-039963
033.09022
033.09001
033.09002
094.41501
090.2557
Bed Spacer (Specify BR)
Tapered Roller, Double Grooved (Specify BR)
E24i Motor
E24 Motor (Optional)
Control Card for E24 Motor for use with 033.09002 only
Drive Spool - Double Groove, 1.9 in. Dia.
O-Ring - 3/16 in. Thick
9
10
11
12
13
090.25582
040.201
PT-097895
049.528
040.302
O-Ring - 3-3/16" ID x 3/16" Thick, Green Trans.
5/16-18 x 3/4 " LG Hex Hd. Cap Screw, ZP
Spacer Plate - 2-1/2 x 6 in.
5/16-18 Small Flange Locknut, ZP
3/8-16 x 3/4 " LG Hex Hd. Cap Screw, ZP
14
15
16
17
18
049.5285
094.1143
032.70502
042.10336
041.801
3/8-16 in. Small Flange Locknut, ZP
EZ Twist Lock Cable Tie (Not Shown)
Wiring Harness (Not Shown)
#8-32 x 1/2" LG Round Hd. Mach. Screw, ZP
#8-32 Hex Locknut - Nylon Insert
19
-
-
20
21
-
EB-000003
EB-000004
B-23681
-
Power Supply for E24 Motors (Not Shown)
20 AMP
40 AMP
Power Supply Mounting Kit(Specify BR), (Not Shown)
MS Pivot Plate - 1-1/2 in. Flange (Not Shown)
-
-
22
-
-
B-00913
B-02112
-
B-00914
B-12777
3-11/16 in. High
1-9/16 in. High
Floor Support Frame (Not Shown)
6 in. High (Specify OAW)
7 in. High (Specify OAW)
-
-
-
-
-
B-12778
B-00915
B-00916
B-00917
B-02098
8 in. High (Specify OAW)
9 in. High (Specify OAW)
11-1/2 in. High (Specify OAW)
14-1/2 in. High (Specify OAW)
18-1/2 in. High (Specify OAW)
-
-
-
-
-
B-00919
B-00921
B-00923
B-00925
B-02107
22-1/2 in. High (Specify OAW)
32-1/2 in. High (Specify OAW)
44-1/2 in. High (Specify OAW)
56-1/2 in. High (Specify OAW)
68-1/2 in. High (Specify OAW)
-
-
23
24
25
B-02109
B-02111
B-00911
PT-091268
032.501
78-1/2 in. High (Specify OAW)
90-1/2 in. High (Specify OAW)
Adjustable Foot Assbly (Specify Height) (Not Shown)
Photo-Eye Mounting Plate
UnitizedZoneController-PolorizedReexTransducer
26
27
-
-
-
-
032.517
-
032.552
032.553
032.554
032.555
Base for EZ-Logic Gen3 Controller
Cordset (Not Shown)
18 in. LG Zones
24 in. LG Zones
30 in. LG Zones
36 in. LG Zones
-
28
29
30
31
032.556
090.108
PT-099274
032.218
040.301
48 in. LG Zones
Aluminum Pop Rivet - 5/32" Dia. X 1/4" LG Grip
Mounting Angle - 1-1/4" x 2" x 3-1/2" x 7GA
Reector-2.18"Dia.
3/8-16 x 5/8" LG Hex Head Screw
32
33
34
35
36
041.802
042.1018
049.5285
B-21901
B-23689
#10-24 NC2B Hex Locknut Nylon Insert
#10-24 x 5/8" LG Round Head Mach. Screw
3/8-16 Small Flange Hex Locknut
ReectorBracket
Large Splice Plate
19
• Model 190-E24 Parts Drawing Dibujo de Partes del Modelo 190-E24
SECTION LENGTH
6 1/2
1 1/2 3
4
17
5
15
16
12
1 1 762
18
19
20
8
1
10
9
3
14
13
REF NO. PART NO. DESCRIPTION
1
2
3
P-01489
B-23689
B-03916
Side Channel (Specify Length)
Large Splice Plate - Straight to Straight
Bed Spacer (Specify BR)
4
5
6
-
7
8
SA-039353
090.2558
033.09022
033.09001
094.41501
033.09002
1.9 Dia. Double Groove Roller (Specify BR)
O-Ring - 3/16 in. Thick
E24i Unidrive Motor
E24 Unidrive Motor (Optional)
Drive Spool - Double Groove, 1.9 in. OD
Control Card for Optional E24 Motor
9
10
11
12
040.302
049.5285
040.201
049.528
3/8-16 x 3/4 in. Lg. Hex Hd. Cap Screw, ZP
3/8-16 Small Flange Locknut, ZP
5/16-18 x 3/4 in. Lg. Hex HD. Cap Screw, ZP
5/16-18 Small Flange Locknut, ZP
13
14
-
-
-
15
094.1143
-
032.70201
032.70502
032.71003
042.10336
EZ Twist Lock Cable Tie
Wiring Harness (Specify Length)
24 in. Thru 48 in. OAL
54 in. Thru 60 in. OAL
66 in. Thru 120 in. OAL
#8-32 x 1/2 in. Lg. Rd. Hd. Mach. Screw, ZP
16
17
-
-
-
-
-
-
041.801
-
EB-000003
EB-000004
EB-000005
EB-000006
EB-000007
EB-000008
#8-32 Hex Locknut - Nylon Insert, ZP
Power Supply for E24 Motors (Specify Size)
20 AMP - 120/230 VAC
40 AMP - 120/230 VAC
20 AMP - 380/460 VAC
40 AMP - 380/460 VAC
5 AMP - 115/230 VAC
5 AMP - 460 VAC
REF NO. PART NO. DESCRIPTION
18
-
-
19
-
-
-
B-00913
B-02112
-
B-00914
B-12777
MS Pivot Plate - 1/2 in. Flange
3-11/16 in. High
1-9/16 in. High
Floor Support Frame
6 in. High (Specify OAW)
7 in. High (Specify OAW)
-
-
-
-
-
B-12778
B-00915
B-00916
B-00917
B-02098
8 in. High (Specify OAW)
9 in. High (Specify OAW)
11-1/2 in. High (Specify OAW)
14-1/2 in. High (Specify OAW)
18-1/2 in. High (Specify OAW)
-
-
-
-
-
B-00919
B-00921
B-00923
B-00925
B-02107
22-1/2 in. High (Specify OAW)
32-1/2 in. High (Specify OAW)
44-1/2 in. High (Specify OAW)
56-1/2 in. High (Specify OAW)
68-1/2 in. High (Specify OAW)
-
-
20
B-02109
B-02111
B-00911
78-1/2 in. High (Specify OAW)
90-1/2 in. High (Specify OAW)
Adjustable Foot Assembly
20
This manual suits for next models
3
Table of contents
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