Honeywell ML7420 Manuel de l'utilisateur

ML6420, ML7420

Non-Spring Return

Electric Linear Valve Actuators

PRODUCT DATA

FEATURES

•

Quick and easy installation.

No separate linkage required.

Conduit connector is standard.

No adjustments required.

Low power consumption.

High close-off ratings.

Force-limiting end switches.

Manual operator.

Synchronous motor.

Corrosion resistant design.

Maintenance free.

APPLICATION

Direct/reverse acting with ML7420.

Position feedback signal included with ML7420.

The ML6420 Non-Spring Return Electric Linear Valve

Actuators are floating control actuators used with controllers

that provide a switched or floating single-pole double-throw

(spdt) output. These actuators operate standard Honeywell

valves in heating, ventilating, and air conditioning (HVAC)

applications.

Selectable 0 to 10 Vdc or 2 to 10 Vdc signal input with

ML7420.

The ML7420 Non-Spring Return Electric Linear Valve

Actuators are modulating control actuators used with

controllers that provide an analog output of 0 to 10 Vdc or 2 to

10 Vdc. These actuators operate standard Honeywell valves

in HVAC applications. An internal selector plug can be used to

reverse the direction of action.

Contents

Application ........................................................................

Installation ........................................................................

Ordering Information ........................................................

Operation ..........................................................................

Checkout ..........................................................................

63-2533-03

ML6420, ML7420 NON-SPRING RETURN ELECTRIC LINEAR VALVE ACTUATORS

Table 1. Close-off ratings for ML6420, ML7420 Electric Linear Valve Actuators and Honeywell Valves (psi).

Type

Valve

1/2 in.

3/4 in.

1 in. 1-1/4 in. 1-1/2 in. 2 in. 2-1/2 in. 3 in.

Flange

V5011A

—

V3350/3351/3450/3451

—

V5013B,C; V3360/3361/3460/3461

NPT

V5011F,G

V5011H,J

150

230

100

150

163

100

150

134

145

104

100

126

—

V5011N1xxx, V5011N3xxx, V5013N 230

V5011N2xxx

V5013F

100

150

Represents maximum pressure difference between the outlet and either of the two inlets.

Do not exceed 100 psi with V5011G valves used in steam applications.

CAUTION

5-5/15 6-5/16

12-11/16 (322)

MINIMUM

CLEARANCE

Electrical Shock or Equipment Damage Hazard.

Can shock individuals or short equipment circuitry.

Disconnect power supply before installation.

(135)

(161)

2-11/16 (67)

Location

Install the actuator in a location that allows enough clearance

for mounting accessories and for servicing.

9-3/16

(233)

9-9/16

(242)

CAUTION

Equipment Damage Hazard.

5-9/16

(141)

1/2 (13) FPT

YOKE

Can damage actuator due to condensation or a

valve gland leak.

Install the actuator in a position above horizontal.

DIAMETER

1-3/8 (35)

Mounting

1. Place the actuator on the valve with the U-bolt around

the valve collar. See Fig. 2.

M17419

2. Place the U-bolt against the valve collar and secure the

actuator to the valve by turning each U-bolt nut clock-

wise.

Fig. 1. Approximate dimensions of ML6420, ML7420

Electric Linear Valve Actuator in in. (mm).

NOTE: To assure even pressure on the collar, first

tighten the nuts finger-tight and then alternate

turning each U-bolt nut until both are snug.

INSTALLATION

When Installing this Product...

3. Push aside the stem button retaining clip and hold. See

Fig. 3.

4. Lift valve stem until the head of the valve stem button is

inside the large slot of the stem button retaining clip on

the actuator.

5. Release the stem button retaining clip to secure the stem

button. Check to make certain the stem button is secured

by the retaining clip.

1. Read instructions carefully. Failure to follow them could

damage the product or cause a hazardous condition.

2. Check ratings and description given in the specifications

to make sure the product is suitable for your application.

3. Installer must be a trained, experienced service

technician.

4. After installation is complete, check out product

operation as provided in these instructions.

6. Remove the cover from the actuator using a Phillips or

crosspoint screwdriver. See Fig. 4.

63-2533—03

ML6420, ML7420 NON-SPRING RETURN ELECTRIC LINEAR VALVE ACTUATORS

All wiring must comply with local electrical codes, ordinances

and regulations. Voltage and frequency of the transformer

used with the actuator must correspond with the power supply

and actuator characteristics. See Fig. 6 through 11 for typical

wiring hookups.

1. Feed power and control wires through the conduit

connector located on the bottom of the actuator case.

See Fig. 5.

CAUTION

Equipment Damage Hazard.

Conduit connection or removal can break an

unsupported connector.

When removing or attaching conduit, use a wrench to

support the motor connector.

2. Using the wiring diagram in Fig. 6, connect power and

control wires. Make sure that all wiring is correct.

3. For ML7420 only: Check the selector plugs for proper

settings. See Signal Input Failure section for details.

4. When wiring is complete, replace the actuator cover. See

Fig. 7.

M6632

Fig. 2. Attaching actuator to valve collar.

5. Apply power and control signals to the actuator.

M6630

M6633

Fig. 5. Connecting power and control wiring.

Fig. 3. Securing actuator to valve.

ML6420A,B

WIRING

T6984 (FLOATING CONTROLLER)

STRIP

MOTOR OPEN

MOTOR CLOSE

24 Vac

COMMON

POWER SUPPLY. PROVIDE DISCONNET MEANS

AND OVERLOAD PROTECTION AS REQUIRED.

ALL WIRING BLOCKS HAVE THE SAME

NUMBER OF TERMINALS (8), BUT THE ONLY

TERMINALS THAT ARE ACTIVE ON THIS

BLOCK ARE T1, T2, W, AND B.

M17420

THE T-Y-G TERMINALS ARE A THREE TERMINAL

WIRING BLOCK SEPARATE FROM THE MAIN

BLOCK. THEY DO NOT APPEAR ON ALL MODELS

BECAUSE THEY ARE FOR A SINGLE FEEDBACK

POTENTIOMETER (10K OR 220 OHMS). THE

REQUIRED WIRING BLOCKS ARE PART OF

THE POTENTIOMETER ACCESSORY KITS.

Fig. 4. Removing actuator cover.

(HOT)

Wiring

MOTOR OPEN SIGNAL DRAWS VALVE STEM

UPWARDS. MOTOR CLOSE SIGNAL DRIVES

VALVE STEM DOWNWARDS.

M32766

CAUTION

Electrical Shock or Equipment Damage Hazard.

Can shock individuals or short equipment circuitry.

Disconnect power supply before installation.

Fig. 6. ML6420 wiring.

63-2533—03

ML6420, ML7420 NON-SPRING RETURN ELECTRIC LINEAR VALVE ACTUATORS

ML7420

WIRING

STRIP

ML7420

SENSOR

WIRING

STRIP

INPUT

(FEEDBACK)

OUTPUT

(HOT)

–

DUAL

TRANSFORMERS

500 OHM

RESISTOR

(HOT)

T775

(WITH 4-20 MA OUTPUT)

POWER SUPPLY. PROVIDE DISCONNECT MEANS AND

OVERLOAD PROTECTION AS REQUIRED.

(HOT)

2-10 Vdc FEEDBACK SIGNAL. SEE OUTPUT SIGNAL

FEEDBACK SECTION.

POWER SUPPLY. PROVIDE DISCONNECT MEANS

AND OVERLOAD PROTECTION AS REQUIRED.

M17425

0-10 Vdc OR 2-10 Vdc CONTROL SIGNAL. SEE SIGNAL

INPUT (+) SECTION.

M17422

Fig. 10. ML7420 wiring using a 4 to 20 mA

control signal and separate transformers.

Fig. 7. ML7420 wiring using feedback output from

a controller with a common transformer.

SENSOR

ML7420

SENSOR

WIRING

STRIP

WIRING

STRIP

(HOT)

–

SINGLE

TRANSFORMER

40 VA 24 VAC

DUAL

TRANSFORMERS

500 OHM

RESISTOR

T775

(WITH 2-10 VDC OUTPUT)

(WITH 4-20 MA OUTPUT)

(HOT)

POWER SUPPLY. PROVIDE DISCONNECT MEANS

AND OVERLOAD PROTECTION AS REQUIRED.

M17426

POWER SUPPLY. PROVIDE DISCONNECT MEANS

AND OVERLOAD PROTECTION AS REQUIRED.

M17423

Fig. 11. ML7420 wiring using a 4 to 20 mA

control signal and a common transformer.

Fig. 8. ML7420 wiring using a 2 to 10 Vdc

control signal and separate transformers.

ML7420

SENSOR

WIRING

STRIP

50% 100%

(HOT)

–

SINGLE

TRANSFORMER

40 VA 24 VAC

T775

(WITH 2-10 VDC OUTPUT)

POWER SUPPLY. PROVIDE DISCONNECT MEANS

AND OVERLOAD PROTECTION AS REQUIRED.

M32767

M17424

Fig. 12. Location of W1, W2, and W3 selector plugs.

Fig. 9. ML7420 wiring using a 2 to 10 Vdc

control signal and a common transformer.

63-2533—03

ML6420, ML7420 NON-SPRING RETURN ELECTRIC LINEAR VALVE ACTUATORS

M17428

Fig. 13. Replacing actuator cover.

63-2533—03

ML6420, ML7420 NON-SPRING RETURN ELECTRIC LINEAR VALVE ACTUATORS

Auxiliary Potentiometers

The 43191679 Auxiliary Potentiometers can be used as

feedback potentiometers and to provide remote indication of

valve position. See the Installation Instructions packed with the

potentiometers.

Auxiliary Switches

The 43191680 Dual Auxiliary Switch can be used on both the

ML6420 and ML7420 Electric Linear Valve Actuators. Switching

points are adjustable over the full length of the actuator stroke;

for example, the switch can be used to switch pumps or to

provide remote indication of any stroke position. See the

Installation Instructions packed with the auxiliary switch.

CAUTION

Equipment Damage Hazard.

Improper voltage damages the auxiliary switch

beyond repair.

Use the 43191680 Dual Auxiliary Switch only with

M6640

24 Vac applications.

Fig. 14. Manual operator knob.

OPERATION

ML7420

General

Signal Input (+)

In the actuator, the drive of a synchronous motor is converted

into the linear motion of the actuator stem by using a spur gear

transmission. A button retainer clip connects the actuator stem

to the valve stem.

The analog input signal (+) range is set at the factory to 0 to 10

Vdc. Changing the position of the W2 selector plug sets the

range to 2 through 10 Vdc. Selector plugs W1, W2, and W3 are

positioned on the back side of the printed circuit board. See

Fig. 12 for location of the selector plugs.

Manual Operation

Signal Input Failure

The ML6420 and ML7420 are equipped with a manual

operator knob (see Fig. 14) to open or close the valve in the

event of power failure:

Using the potentiometer, the actuator can be set to run to any

position in event of a signal failure (ML7420/25 only). ML6420

does not have any input signal failure jumpers or

potentiometers.

1. Turn off or disconnect the power supply before manually

operating the actuator.

2. Push down on the manual operator knob and turn the

knob:

Output Signal Feedback (F)

a. Counterclockwise to drive the stem downward.

b. Clockwise to draw the stem upward.

An analog output signal (2 to 10 Vdc) that represents the actual

actuator stem position is available at terminal F. It can be used

for remote indication of the stem position. When the actuator

stem is fully downward, the output signal is 10 Vdc.

IMPORTANT

Manual operation allows very high closing force that

can jam the actuator spindle, exceed the force switch

ratings, and stop the motor. After a manual valve

close-off operation, release the spindle one turn by

turning the manual operator knob. This will ensure

automatic disengagement of the manual operator

upon power resumption.

When the valve stem is up, the output signal is 0 or 2 Vdc. The

output of the signal does not change when the action of the

actuator is reversed using W3. See Direction of Action.

Actuator Override

To override the control signal (for freeze protection or similar

applications), connect the 24 Vac common (T2) to either

terminal O1 or O2. Connecting to terminal O1 fully extends the

actuator stem. Connecting to O2 fully retracts the actuator

stem.

NOTE: If the manual operator knob is not pushed in while

turned, it will rotate only a short distance before

disengaging without power resumption.

The control signal (+) is ignored when the override signal is

applied to terminal O1 or O2. This override can be achieved

with a switch or a relay. See Fig. 15.

63-2533—03

ML6420, ML7420 NON-SPRING RETURN ELECTRIC LINEAR VALVE ACTUATORS

Direction of Action (ML7420/25 only)

ML7420

The direction of the actuator action can be changed using the

pushbutton and LED, which is factory set so that the actuator

drives the valve stem down on increasing signal and draws

the valve stem up on decreasing signal. With the valve stem

up, the output signal from the feedback (F) function is either 0

or 2 Vdc. The output of the signal does not change when W3

is used to reverse the actuator action. See Fig. 12.

WIRING

STRIP

INPUT

(FEEDBACK)

OUTPUT

–

SP3T

OVERRIDE

SWITCH

(HOT)

POWER SUPPLY. PROVIDE DISCONNECT MEANS

AND OVERLOAD PROTECTION AS REQUIRED.

2-10 Vdc FEEDBACK SIGNAL. SEE OUTPUT SIGNAL

FEEDBACK SECTION.

0-10Vdc OR 2-10 Vdc CONTROL SIGNAL. SEE SIGNAL

INPUT (+) SECTION.

SEE OVERRIDE SECTION FOR DETAILS ON

OVERRIDE OPERATION.

M17429

Fig. 15. Connections for overriding control signal

to drive ML7420 to a specific position.

CHECKOUT

The actuator can be checked out either directly or by using a controller.

Direct Checkout

Controller Checkout

1. Mount the actuator for the required application; see

Installation section.

1. Adjust the setpoint of the controller to call for opening

the valve. Observe the actuator.

2. Check the valve position and make sure that 24 Vac is

2. If the valve is closed, it should begin to open.

3. If the valve remains closed, move the setpoint further

toward the open setting.

correctly applied to the actuator.

3. Apply the power to the appropriate leadwires to move

the valve.

4. If the valve does not move, check for 24 Vac in the

4. If the actuator does not move, make sure the actuator is

properly installed/wired.

5. If the actuator installation and wiring are both correct

actuator power input.

5. If 24 Vac is present and the actuator does not operate,

check the voltage across the controller leadwires to

determine if the device is miswired.

and the actuator does not run, replace the actuator.

6. If the wiring is correct, 24 Vac is present on the power

input terminals, and the actuator does not run, replace

the actuator.

Automation and Control Solutions

Honeywell International Inc.

1985 Douglas Drive North

® U.S. Registered Trademark

63-2533—03 M.S. Rev. 07-11

Printed in U.S.A.

Golden Valley, MN 55422

customer.honeywell.com