Page 1
USER INSTRUCTIONS
NORBRO Series 40R Pneumatic Actuator
FCD NBENIM0002-03-A4 07/15
Installation
Operation
Maintenance
Page 2
STOP!
Contents
1 Safety
2 Health and Safety
3 Description
4 Actuator markings
5 Installation
6 Fitting indicators
7 Air supply and installation
8 Air Consumption
9 Installation of accessories
10 Operation
10.1 Basic Actuator
10.2 Actuator With Solenoid
10.3 Standard Stroke Times
10.4 Manual Operation
11 Maintenance
12 Spare Parts
13 Troubleshooting
14 Rebuilding instructions
14.1 Actuator disassembly
14.2 Actuator reassembly
15 Spring-return actuator
16 Size 05 Exploded view/parts/materials
17 Size 10-50 Exploded view/parts/materials
1 SAFETY SYMBOLS
The safety terms DANGER, WARNING, CAUTION
and NOTE are used in these instructions to
highlight particular dangers and/or to provide
additional information on aspects that may not
be readily apparent.
WARNING: indicates that death, severe personal
CAUTION: indicates that minor personal injury
NOTE: indicates and provides additional technical
DANGER: indicates that death, severe personal
injury and / or substantial property damage will
occur if proper precautions are not taken.
injury and / or substantial property damage can
occur if proper precautions are not taken.
and / or property damage can occur if proper
precautions are not taken.
information, which may not be very obvious even
to qualified personnel. Compliance with other,
not particularly emphasised notes, with regard to
transport, assembly, operation and maintenance
and with regard to technical documentation (e.g.
in the operating instruction, product documentation or on the product itself) is essential, in order
to avoid mistakes, which, in themselves, might
directly or indirectly cause severe personal injury
or property damage.
2 HEALTH AND SAFETY
When installing or maintaining actuators:
2.1 Conduct a risk assessment and eliminate or
reduce hazards to an acceptable level.
2.2 Work in accordance with Safe Systems of
Work.
2.3 Observe all site Health and Safety Rules in
particular Permit to Work and Hot Work procedures.
2.4 Wear all necessary Personal Protective Equipment.
2.5 Never remove or maintain an actuator or joint
unless the supply has been fully de-pressurised, drained and where necessary, purged
of toxic / explosive / flammable media. Always
operate the actuator to ensure that no trapped
pressure exists.
2.6 Never handle actuators that have been used
on harmful substances unless they have been
completely decontaminated and certified safe
to handle.
2.7 Never use an actuator on a duty, which exceeds
its prescribed operating parameters. Refer to
Flowserve Flow Control Technical Sales for
further information.
2.8 Never modify or alter actuators unless the
manufacturer has been consulted and/or
recommends such changes.
2.9 Due to the large physical size and weight of
some sizes of this product, always use correct
lifting methods and equipment when installing,
Page 3
STOP!
removing and maintaining the product, and
that it is correctly supported in its final operating location.
2.10 Due to the variety of duties on which this
product can be employed, it is the end users
responsibility to ensure the compatibility of the
product with the specific application (i.e. air
supply, torque, corrosion, which may effect it's
suitability).
2.11 Before equipment is installed in areas which
may be subject to seismic activity or extreme
climatic conditions consult Flowserve Flow
Control Technical Sales.
2.12 If the processes or environments that the products are used in are likely to cause temperatures
(high or low) that may cause injury to personnel
if touched, then adequate insulation/protection
must be fitted.
2.13 If the equipment is to be used on unstable gas
duty, ensure that the operational parameters
as indicated on the product label cannot be
exceeded.
2.14 This equipment should be protected by other
devices to prevent over-pressurisation. (i.e.
caused by external fire etc).
2.15 This equipment must be installed in a system
that is designed to prevent excessive forces
acting on the mounting kit, switch box/positioner, connections etc.
2.16 Care must be taken when removing the actuator or accessing the valve that the actuator
does not unex- pectedly operate due to the
stored failsafe spring torque, causing personal
injury.
2.17 This equipment is not a safety device and must
be controlled / guarded by other devices.
used to control the rotation of actuator via
externally mounted stroke adjustment screws.
In double-acting units, both pistons are pressurized on both strokes of the actuator.
Standard units feature an extended top shaft for
manual override capabilities and a completely
modular design which allows simple attachment of a variety of accessories. All units allow
the direct mounting a solenoid control block
which properly directs supply air to the actuator.
WARNING:
Series 40R actuators are electro-mechanical devices subject to normal wear and
tear. Actuator life is dependent upon application and environmental conditions. If applied
in hazardous services such as, but not limited
to, media temperature extremes, toxins, flammables, or other services where improper or
incomplete operation could produce a safety
hazard, it is incumbent upon the system
designer and the user to provide proper
warning devices such as temperature sensors,
oxygen sensors and flow sensors. Flowserve
also recommends that the optional auxiliary
limit switches be used for monitoring and/or
electrical interlock.
CAUTION: When actuator is installed in outdoor
conditions, water can enter the exhaust holes
of the double-acting solenoid block, and then
freeze. Flowserve suggests a cover be used,
or mount the actuator such that the solenoid
block is upside down.
Do not install spring-return models with air
connection in end cap or with integral solenoid vertical, without proper precautions to
eliminate the ingress of water spray or rainfall.
Exposed end cap or solenoid vent port will
allow water to accumulate in spring chambers.
2.18 Do not rub actuator with a dry cloth as this can
cause a build up of static charge. Only clean
with a damp cloth.
3 DESCRIPTION
NORBRO Series 40R actuators are pneumatic
quarter-turn valve actuators. The design utilizes
a double-rack, single pinion concept, with each
rack integrally cast to a piston. On sizes 10-50,
both pistons are supported and centered by
large, stainless steel guide rods that are also
Flowserve recommends that all products which
must be stored prior to installation be stored
indoors, in an environment suitable for human
occupancy. Do not store product in areas where
exposure to relative humidity above 85%, acid
or alkali fumes, radiation above normal
background, ultraviolet light, or temperatures
above 50 °C
or below 4 °C may occur. Do not
store within 50 feet of any source of ozone.
Page 4
4 ACTUATOR MARKINGS
Each actuator has the following identification information on the product label attached to the side of
the body:
Product Series
CE Mark
Atex Directive
94/9/EC
PNEUMATIC ACTUATOR
IMPORTANT: Dismantle only in accordance with Installation,
Operation & Maintenance notes. Refer to notes to ensure proper
use of actuator. Maximum Working Pressure see below.
PRODUCT CODE
YEAR
WORKS ORDER
II2GDcX
BAR
Flowserve Flow Control (UK) Ltd.
Tel: +44(0)1444 314400 Fax: +44(0)1444 314401
Website: www.flowserve.com UK & Foreign Patents
ATEX Directive: If the product label carries the ATEX
Directive number '94/9/EC' followed by the Explosion Protection Symbol and codes identifying the
equipment group and category, the zone suitability
and protection type beside the CE mark, the product
complies with the ATEX Directive and The Equipment
and Protective Systems Intended for Use in Potentially Explosive Atmospheres Regulations 1996.
Definition of product label marking above:
'II' = Equipment Group.
'2' = Equipment Category.
'G' = Gas Zone suitability (Zones 1 & 2).
'D' = Dust Zone suitability (Zones 21 & 22).
Explosion Protection Symbol,
Equipment Group & Category,
{
Zone Suitability and Protection Type
Maximum Working Pressure
Works Order Number
Year of Manufacture
Flowserve Flow Control (UK) Ltd
Product Code
5 INSTALLATION
NOTE:
Sizes 10-35 actuators may come with an ISO
Size 40-50 actuators have an integral ISO
5.1 Determine mode of operation desired
The Series 40R actuator is normally
installed with its major axis parallel to the
pipe line. The actuator can be oriented above,
beside or beneath the valve without affecting
its operation.
locating ring, used for optional ISO mounting.
location ring.
(normally open or normally closed) of the
valve.
'c' = type of protection i.e. constructional safety (prEN
13463-5).
'X' = Special temperature reference (Surface
Temperature: As per BS EN 13463-1:2001 paragraph
14.2g, the temperature class or maximum surface
temperature cannot be marked on the product as it is
dependent on the operating conditions).
The operational temperature range is as follows:
(S) = Standard -20 °C to +100 °C.
(L) = Low Temperature variant -40 °C to +85 °C.
(H) = High Temperature variant -20 °C to +150 °C.
NOTE:
Under constant use the surface temperature of expose parts may rise by a maximum
20 °C above the operating media temperature.
5.2 Determine desired quadrant for bracket
attachment and direction of mounting of actuator (in-line or cross-line).
5.3 Attach mounting bracket to actuator using four
(4) cap screws and lock washers provided in
mounting kit. To avoid any damage to the
Series 40R actuator body, ONLY the proper
length screws supplied with the mounting kit
should be used.
5.4 If an ISO locating ring is used, insert ISO
locating ring into groove on bottom of actuator before attaching to bracket. Ring can
be permanently held in groove by applying
Loctite
®
638 to ring before inserting in groove.
Page 5
NOTE:
Size 40R, if furnished with factory solenoid, shall be “cross-line” mounted (i.e. at 90
degrees to the pipe run) to ensure adequate
clearance for air connections.
5.5 Prepare valve for actuation:
CAUTION: Ball valves can trap pressurized
media in the cavity. If it is necessary to remove
any valve body bolts, stem nuts, or remove
valve from the line, and if the valve is or has
been in operation, make sure there is NO pressure to or in the valve and operate valve one
full cycle.
FO R“FA IL-O PEN ” but with Clockwise to close
operation, the pistons in the actuator will
need to be removed and reasembled from
the opposite ends of the actuator (keeping
the guide rods the same sidesrelative to the
body). This will result in a slight offset of
pinion position on some sizes. See following:
Position of pinion
flats and groove
(60º approx.)
Blank support rod
(without cross hole)
NOTE:
It is not normally necessary to remove
any valve body bolts or remove valve from line
in order to mount actuator.
5.5.1 Rotate valve ball and stem to position necessary to achieve desired operation.
5.6 Attach bracket/actuator assembly to valve as
follows:
5.6.1 Center coupling on valve stem.
5.6.2 Lower mounting bracket/actuator assembly
over coupling and onto valve, making sure that
female star drive or NORBRO square actuator
shaft engages in the correct orientation with
the coupling.
5.6.3 Secure bracket to valve using cap screws and
lockwashers, or bolts and nuts provided in
mounting kit. Tighten securely.
5.6.4 Install set screws (if any) in coupling and
tighten securely.
Inlet support rod
(with cross hole)
Inlet
End Cap End Cap
Inlet port
Label
Foolproof pin
Label
Foolproof pin
location holes
Bores containing
bearings only
#
Bores containing
bearings and
0-rings
Limit Stop
Foolproof pin
5.6.5 Determine if mode of operation (air to open or
close/fail open or closed) is as desired; if not:
Air to Open or Close - On all sizes of 40R
double-acting and spring-return actuators,
the female drive shaft is either a NORBRO
square or a star drive This allows selection
of either mode of operation by indexing the
coupling (including valve ball and stem)
90° to the actuator shaft, while keeping the
actuator in an in-line orientation.
Fail Open or Fail Close - The normal method
of mounting is to have the actuator in line
with the pipe line and the valve and actuator
in the “FAIL-CLOSED” (Clockwise to close)
position. “FAIL-OPEN” can be achieved using
the method above but the actuator will then
work as Clockwise to open).
Actuator
Size
Pinion Offset Angle #
05 0°
10 10°
15 2°
20 2°
25 2°
30 2°
33 2°
35 2°
40 0°
42 0°
45 0°
50 12°
Page 6
6 FITTING INDICATORS
White Plugs
STOP!
Actuator sizes 10, 15, 20
White Plugs White PlugsRed Plugs Red Plugs
Fig.: 1 Fig.: 2
As supplied Alternative Indicating Position
Red Plugs White Plugs Red Plugs
NOTE: Indicator is set up to show pistons
together on
actuator, i.e. valve closed when
in-line mounting - See Fig. 1.
6.1 Check which visual indication is required.
6.2 Check that indicator when located on pinion
will show correct indication.
6.3 To change indication, push out red and white
buttons and reassemble in alternative position.
6.4 Locate indicator on pinion flats. Press firmly
until location nibs fit into recess on pinion.
Actuator sizes 25, 30, 33, 35, 40, 42, 45, 50
White Plugs
White Plugs
7
AIR SUPPLY AND INSTALLATION
7.1 Air Supply:
The Series 40R actuator is factory lubricated.
For optimum operation, the use of filtered and
lubricated air is recommended.
7.2 Air Supply Pressure:
Standard double-acting actuators require 2–8
bar supply air. Spring-return actuators require
2.5–7 bar supply air. Spring-return actuators
can also be set up to operate on supply air
pressures ranging from 2.5–5.5 bar by using
fewer springs. See “Rebuilding Instructions”,
Spring-Return Actuator, paragraph 1 on page
13 for proper number and location of springs
for reduced supply air pressures.
WARNING: Air pressure greater than the maximum
on the label must not be applied.
7.3 Air Supply Connections:
6.5 Check which visual indication is required.
6.6 Locate indicator on pinion flats. Press firmly
until location nibs fit into recess on pinion.
Double-Acting – Connect air supply lines to
both BSPP (
1
/8” on size 05/10: ¼” on sizes
15–50) ports.
Spring-Return Models – Connect air supply
line to the outboard BSPP (
1
/8” on size 05/10:
¼” on sizes 15–50) port.
For sizes 10–50, the ports are on the solenoid
end cap. The solenoid end cap is the one on
the left end of the actuator when looking at the
nameplate. For 05 size only, the ports are on
the solenoid block interface plate on back of
actuator when looking at the nameplate. For
size 05 spring-return it is on the back and near
center of actuator.
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7.4 Recommended Tubing Sizes:
In order to provide sufficient flow of supply
air to the Series 40R actuator, the following
tubing sizes are recommended:
Actuator Size
05, 10, 15, 20, 25
30, 33, 35, 40, 42,
45
Runs Up To
1.5 m Long
1
8
/
¼
Runs Over
1.5 m Long
¼
3
8
/
50 ¼ ½
8 AIR CONSUMPTION
The following chart shows the amount of
pressurized (5 bar) air consumed per stroke
in litres. To determine the total amount of air
consumed per complete cycle for doubleacting actuators, simply add the volumes for
both the opening and closing strokes together;
for spring return units, the total volume of
air consumed is the volume shown for the
opening stroke.
9
For details of installation of accessories refer
INSTALLATION ACCESSORIES
to the installation instructions contained in
respective accessory kit.
3° overtravel at each end of travel (limit stop
version). Rotation is accomplished by feeding
supply air into the center chamber, forcing
the two opposing pistons apart, resulting in
a counter-clockwise rotation of the drive shaft
to the “open” position. For double-acting actuators, closure is obtained by feeding supply
air into the end cap chambers, which forces
the pistons together, resulting in a clockwise
rotation of the drive pinion. For spring-return
actuators, closure is accomplished by means
of springs contained within the end caps which
force the pistons together when the supply air
to the center chamber has been interrupted.
If rotation opposite to that described above is
required, refer to the section on Installation for
the proper procedure to reverse the rotation.
The accurate rotation of the actuator pinion
is controlled through the adjustment of two
hexagon headed bolts on the end cap. Each
bolt will control either the open or closing
stroke (based on how the actuator has been
orientated on the valve). The adjustment of
each bolt is shown on the end cap. Actuators
are factory set to provide a 90˚ operation. If
adjustment needs to be made the lock nut
will need to be backed off, the adjustment
screw rotated to provide correct positioning
10 OPERATION
10.1 Basic Actuator
The Series 40R actuator drive shaft rotates
through a full 90° segment with approximately
Actuator
Size
05 0.05 0.05
10 0.17 0.22
15 0.35 0.39
20 0.69 0.74
25 1.22 1.31
30 1.86 2.05
33 3.39 4.79
35 3.93 5.54
40 7.73 8.19
42 12.0 13.89
Air consumption litres
Opening Stroke Closing Stroke
45 13.51 20.0
50 23.87 30.5
Page 8
and the lock nut retightened. For size 10 to
STOP!
35 turn screw clockwise to decrease rotation
and counterclockwise to increase rotation. For
size 40 to 50 the reverse applies. It is critical
to retighten to ensure an effective seal of the
washer.
Care should be taken to secure travel stop
setting when tightening lock nut.
10.2 Actuator With Solenoid
Double-Acting – Air is supplied to the one
BSPP port on the bottom of the block. When
the solenoid is energized, the spring-loaded
plunger is withdrawn, allowing the supply
air to shift the spool within the block, which
opens the supply path to the center chamber
of the actuator. Air from the end chambers of
the actuator is allowed to pass through the
block and exhaust to atmosphere.
When the solenoid is de-energized, the spring-
loaded plunger blocks the flow of air to the
center chamber of the actuator. The supply air
now shifts the spool within the block to a position which opens the supply path to the end
chambers of the actuator. Air from the center
chamber of the actuator is allowed to pass
through the block and exhaust to atmosphere.
The double-acting solenoid assembly is elec-
trically fail-safe. That is, it will return to its
de-energized position upon electrical failure
and cycle the actuator to the closed position
provided the air supply is not interrupted.
Spring-Return – Air is supplied to the one
BSPP port on the bottom of the block. When
the solenoid is energized, the spring-loaded
plunger is withdrawn, which opens the supply
path to the center chamber of the actuator.
Air from the end chambers of the actuator is
allowed to pass directly through the block and
exhaust to atmosphere.
When the solenoid is de-energized, the
spring-loaded plunger blocks the flow of air
to the center chamber of the actuator. The
springs in the end cap of the actuator, which
were compressed on the opening stroke, now
relax, forcing the air contained in the center
chamber of the actuator to exhaust through its
supply port in the solenoid block. The exhaust
air passes through the block and the solenoid
where it exhausts to atmosphere.
10.3 Standard Stroke Times
Standard stroke times of the Series 40R actu-
ator are shown in the following table. Times
shown are in seconds and represent average
times under 50% load conditions with an air
supply pressure of 5 bar. Times shown are
per stroke for double acting actuators. For
spring-return actuators, the opening stroke
times may be slightly longer; stroke times
for the closing (spring) stroke are dependent
upon the number of springs used.
The figures shown below are meant as an
indication of obtainable speeds only. Faster or
slower speeds are obtainable, if required, by
using additional control equipment.
Actuator Size Stroke Time (sec.)
05 1
10 1
15 1
20 1
25 2–3
30 3–4
33 4–5
35 4–5
40 5–6
42 6–7
45 10–12
50 12–14
10.4. Manual Operation
In the event of air failure, the Series 40R
actuator can be cycled manually. This is
accomplished by applying a wrench to the
exposed top shaft of the actuator and turning
it in the desired direction.
WARNING: Care must be taken to ensure that
the actuator is not operated automatically
while manual operation is being performed.
Page 9
11 MAINTENANCE
STOP!
CAUTION: The actuator must be isolated
both pneumatically and electrically before any
maintenance activity is begun.
13
TROUBLESHOOTING
WARNING:
ACTUATOR FOR ANY REASON, CONSULT
REBUILDING INSTRUCTIONS CONTAINED IN
FOLLOWING SECTION.
BEFORE DISASSEMBLING
Periodic checks should be performed to make
certain that all fasteners remain tight.
Actuator
All actuators are supplied with sufficient lubri-
Depending upon the conditions under which
On spring-return actuators, the springs may
12
The following are recommended spare parts
size
05 M5 4Nm
10 M6 9Nm
15 M6 9Nm
20 M8 19Nm
25 M8 19Nm
30 M10 35Nm
33 M10 35Nm
35 M12 49Nm
40 M12 49Nm
42 M16 98Nm
45 M16 98Nm
45 M20 216Nm
cation for their normal working life. If required,
recommended lubrication for all standard
actuators is a Rocol Sapphire Lo-Temp 2
grease. Consult Flowserve for lubricants used
for high or low temperature applications.
the actuator must work, such as extended duty,
non-compatible operating media or abnormal
operating conditions, periodic replacement
of internal seals is recommended. Repair kits
containing all necessary seals can be obtained
through any authorized Flowserve distributor.
need replacement after extended duty since
springs may fatigue and break. SPRINGS
SHOULD ALWAYS BE REPLACED IN
COMPLETE SETS.
SPARE PARTS
which should be kept on hand for Series 40R
pneumatic actuators:
Fastener size Torque
For solenoid controlled actuators:
13.1 If actuator does not function, check to ascertain:
13.1.1 That valve is free to rotate.
13.1.2 That actuator is the correct size.
13.1 3 Any speed control screws are loose (if screws
are tightened all the way, actuator will not
operate).
13.1.4 That correct voltage is supplied to solenoid.
13.1.5 That sufficient air supply is available at inlet to
control block. Inlet pressure to control block
should be at least 2.5 bar for double-acting, 5
bar for spring-return (unless a reduced spring
complement is installed (fewer springs)).
When checking supply pressure, place gauge
in line at control block inlet and monitor gauge
for unexpected pressure drops.
13.2 If proper voltage and air pressure have been
verified and valve is free, proceed as follows:
13.2.1 Turn on signal voltage. Check solenoid for
clicking sound.
13.2.2 If no sound is detected, remove air pressure
and turn off signal voltage.
• Carefully unscrew solenoid and solenoid
stem from block.
• Reapply signal voltage and observe solnoid
plunger. If it does not retract, replace solenoid.
13.2.3 If solenoid functions, remove solenoid valve
block and place on bench. Connect to reduced
air supply (4 bar) and correct voltage. Switch
signal voltage and check air flow. Air should
flow out only one output port when solenoid
is energized. The flow should occur only at the
other port when de-energized. (Slight back
pressure may be required to shift the valve
spool. This may be generated by obstructing
the outlet ports.)
Repair Kit(s) – Kits contain all necessary seals,
bearings and instructions.
Page 10
13.2.4 If control block and solenoid are operating
correctly, proceed to Section 13.3.2 below.
13.3 If the actuator functions but exhibits leakage,
or power loss accompanied by leakage,
proceed as follows:
13.3 .1 Check voltage. Voltage must be within 10% of
the specified voltage (low voltage will cause
leakage out of the back of the solenoid and
burn out the coil).
13.3.2 Check air supply. Be certain that no sharp air
pressure drops occur as unit is cycled. Loss
of air pressure can cause incomplete shifting
of the spool valves used in all double-acting
units, which results in bypass leakage and
substantial actuator torque losses.
13.4 If air supply and voltage are adequate, proceed
as follows:
13.4.1 If leak is at solenoid exhaust port, replace the
solenoid.
13.4.2 If leak occurs at exhaust ports in the block
itself, the trouble will be in either the spool
valves in the block, or at one of the piston
seals of the actuator. A leaking piston seal will
usually leak on either cycle.
On spring-return actuators, piston seal leakage
will show at the breather port of the end cap, or
for 05 size, the solenoid block interface plate.
The recommended procedure in the cases
above is to replace the spool valve O-rings. If
the leakage persists, rebuild the actuator using
a factory-supplied repair kit.
13.5 For actuators without the solenoid control
block, or if block and solenoid are operating
correctly, remove the actuator from the valve,
disassemble (per Rebuilding Instructions) and
check the following:
13.5.1 Make sure that all internal porting is free and
clear of any obstructions. End caps, guide rods
and pistons are air transporting components.
NOTE: The most common problem encoun-
tered on 40R actuators is the improper
replacement of the piston guide rod assembly
with the hole in it, relative to the nameplate on
the body (see section 14.2.7 on page 12).
13.5.3 Verify that actuator pinion shaft and/or
pistons are not bound. If bound, reassemble
per Rebuilding Instructions.
13.5.4 If unit exhibits excessive amounts of backlash,
check teeth on piston racks for wear. If worn,
replace piston assemblies.
13.5.5 In spring-return actuators, check for
misplaced or broken springs. If springs are
broken, check body bore for scoring:
• If springs are broken, replace springs.
SPRINGS SHOULD ALWAYS BE REPLACED
IN COMPLETE SETS.
• If body bore is scored,replace it. Also, replace
piston O rings (contained in repair kit).
13.5.6 If actuator is free, valve is free and control
block (if used) is shifting air properly, reassemble the actuator and retest. If unit still fails
to operate, consult Flowserve.
14 REBUILDING INSTRUCTIONS
NOTE: For identification of all numbered parts
discussed below, consult exploded view of
actuator (see pages 14/15)
After actuator has been repaired, mark rebuild
label accordingly and apply to actuator.
14.1 Actuator disassembly
14.1.1 Disconnect the air supply and electrical service
to the actuator.
14.1.2 Remove the actuator and its mounting bracket
from the valve. If the actuator uses a positioner, loosen the set screws in the coupling
between the valve and actuator. (See Caution
note below.)
CAUTION: Ball valves can trap pressur-
ized media in the cavity. Isolate the piping
system in which the actuator/valve assembly
is mounted and relieve any pressure on the
valve. To remove the actuator bracket from
a three-piece non-top-mount style valve, the
two top valve body bolts must be removed.
14.1.3 Remove the actuator bracket (and actuator
positioner) from the actuator to begin repair.
(Note mounting of removed bracket and positioner for easy reassembly.)
13.5.2 Make certain that the actuator has lubrication,
and that there is no solidified grease between
the pinion and the piston racks:
• If actuator has no lubriction, apply generous
amountof grease. If actuator is prepared for
high or low temperature operation, consult
Flowserve for proper lubricants.
• If solidified grease betweenthe pinion and the
piston racks is present, clean, dry, re-grease
and reassemble.
14.1.4 It is not necessary to remove solenoid control
block (if so equipped) to rebuild actuator.
However, if it becomes necessary to remove
the block, begin by removing the solenoid
block bolts. Use care to retain the solenoid
block gasket.
For 05 size only, also remove the solenoid
block interface plate (20) and the interface
gasket (19) by removing the three screws
(21).
Page 11
For sizes 10 to 35 it is not necessary to remove
STOP!
the limit stop bolts from the end cap.
CAUTION: For sizes 40 to 50 the limit stop
bolts will need to be removed to facilitate
disassembly. On these sizes remove the air
inlet end cap. Then remove the limit stop
lock nuts and unscrew the limit stop bolts
through the guide rods. This should be done
in conjunction with the instructions below.
14.1.5 For sizes 10–50, each end cap (5A and 5B)
is aligned onto the body (1) over a “foolproof
pin”. This ensures that the end caps can only
be assembled to their respective end of the
actuator. Remove all four metric screws (5C)
from, and remove, both end caps, remove
the two bearings (6) and O-rings (15A and
15B) from each end cap. Note that for models
with top-hat style bearings, the bearings and
particularly the retaining washers (16) in each
end cap should not be disturbed during O-ring
seal replacement, as they are not included in
the rebuilding kit. For size 05, remove all four
metric screws (5C) from both end caps (5).
Remove O-ring (15A) from each end cap.
WARNING: Spring return actuators contain
energized springs. The following section must
be followed to ensure safe disassembly of the
actuator.
If the actuator is a spring-return model, first
remove two end cap screws diagonally opposite each other, then lubricate the threads
and under the head. Replace the screws and
repeat the procedure for the other two screws.
Do this for each end cap as this will aid reassembly. Now uniformly loosen all four end cap
screws on each end cap two to three turns at
a time, in sequence, to relieve preload of the
springs. On larger actuators with springs use
caution when removing end caps. End cap
screws are long enough to allow springs to
relieve before disengaging.
After the screws are removed, gently pry off
each end cap, being careful not to damage the
end cap O-Rings.
14.1.6 The two piston guide rod (4) assemblies can
now be removed from each end of the body.
Do not disassemble the piston from the guide
rod. (To assist reassembly, mark the body
with a line on the side from which the guide
rod using the thru-hole is removed). Remove
all O-rings (15B and 15C) and bearings (6B)
from pistons (3). For size 05, the two pistons
(3) can now be removed from each end of the
body. Remove O-rings (15C) from pistons (3).
14.1.7 The shaft (2A) can only be removed after the
piston assemblies are taken out. Remove the
position indicator (17) (if any), the shaft clip
(15F) (not a reusable part!) (see Note below)
and the stainless steel washer from the top
of shaft. Then remove the shaft through the
larger opening in the bottom of the body. The
top bearing (15G) and the O-ring (15D) can
now be removed. Remove the two stainless
steel washers (10–35 sizes only) and thrust
bearing (10) from the top of the shaft, the
O-ring (15E), and the bearing (15H) (10–42
sizes only) from the bottom end.
NOTE: On later models only a single stainless
steel washer is used and thrust bearing (10) is
not used.
NOTE: Some actuators
may be using a spiralring type shaft clip as
shown at right.
To remove this clip, engage the lower end of
the ring with a flat blade screwdriver. Using
another flat blade screwdriver push the top
end of the clip in the opposite direction. As
the clip I.D. expands, lift the clip from the
shaft. The installation of a new clip would be
the above steps in reverse and ensuring that
the edges of the clip are properly seated in the
shaft groove.
Sizes 25 through 42, have an anti-ejection ring
(15J). The anti-ejection ring does not have to
be removed and may or may not be included
in repair kits.
14.2 Actuator reassembly
14.2.1 Be sure the actuator surfaces are clean and
free of grit and scratches. If the inside walls
of the body are scored, or the guide rod
surfaces are scratched, the actuator will leak
after rebuilding. New parts should be obtained
from the factory. Light tracking, barely detectable to touch, is acceptable.
14.2.2 All rebuilding kit O-Rings and bearings may
now be installed. Lubricate the standard actuator thoroughly with grease. Apply a light film
of grease to all O-Rings.
14.2.3 If converting over to a “high-temperature”
actuator, or rebuilding an existing one, lubricate thoroughly with high temperature silicone
or graphite based grease.
NOTE: Some older style actuators, sizes
10–35, use flanged bearings in the end caps.
They resemble a “top hat”, and are installed
with the brim of the hat facing out, and are
retained by “star washers”. These bearings
and star washers should not be removed for
O-Ring seal replacement.
For sizes 10–50 replace the two split-ring style
bearings (6) and one guide rod O-ring (15B)
in each end cap.
Page 12
Replace the split-ring style bearing (6) and
guide rod O-ring(s) (15B) into I.D. groove(s)
in each piston (3). Install O-Rings (15C) onto
pistons.
For size 05 actuators, install O-rings (15C)
onto the pistons.
14.2.4 Replace O-ring (15E) and bearing (15H)
(10–42 sizes only) on the bottom of shaft. On
the top of the shaft add the two stainless steel
washers (10–35 sizes only) with the thrust
bearing (10) between them. NOTE: On later
models only a single stainless steel washer
is used and thrust bearing (10) is not used.
Locate the top bearing (15G) and O-ring (15D)
into the body. Insert the shaft through the
larger opening in the bottom of the body.
14.2.5 Replace the stainless steel washer over the
top shaft extension.
14.2.6 For sizes 10–50, very carefully align the piston
guide rod assemblies inside the body. Keep
the pistons square to the body. (This is very
important in the 30, 40R actuator where steel
set screws can cause internal body damage if
the piston assemblies “cock” inside the actuator body).
IMPORTANT:
One piston guide rod assembly
has a through hole drilled in it. It can be easily
located by looking down the ends of both
guide rods. This piston assembly must be
reassembled, with its respective guide rod,
opposite the nameplate on the body, as it was
removed.
Nameplate
°
Figure 1
Pistons at End of Body
IMPORTANT: Note the relative location of the
shaft teeth and the piston assembly's rack
teeth. The above figure is viewed when looking
at the top of the actuator.
For size 05, align the pistons inside the body.
Keep the pistons square to the body.
VERY IMPORTANT: Install the NEW shaft clip
(15F) into its mating groove on the top shaft
extension. (The removed shaft clip is not to be
reused).
Place the numbered side up on the shaft clip
and be certain the clip is fully seated in its
groove. See Note at bottom of page 10 for
installation of spiral-ring type shaft clip (which
newer rebuilding kits will contain).
14.2.7 Align the shaft so that the teeth on the shaft
will “pick-up” the piston assembly’s rack teeth
when turning the
top extension of the shaft
clockwise (CW). (See Figure 1).
IMPORTANT: Proper 90° rotation can only
be ensured if the shaft teeth begin to mesh
with the piston assembly’s teeth at the “proper
tooth” between these meshing gear pairs.
(See Figure 1).
14.2.8 To ensure proper meshing of teeth, move
the shaft 15 to 20 degrees counter-clockwise
(CCW) from its normal position when the
piston assemblies are located at the body
ends. (See Figure 2.) NOTE: The “normal position” of the shaft on the 05–20 sizes is when
the top flats are parallel to the main axis of the
actuator body. On the 25– 50 sizes the teeth of
the shaft will be on the left side of the actuator
when viewed from the ends of actuator. (See
Figure 1).
14.2.9
With the piston assemblies in the body, gently
push each piston into the body. Turn the top
shaft extension clockwise (CW). Do not allow
the pistons to “cock”.
At the proper point of engagement between
the shaft and piston assemblies, both piston
assemblies will move toward the center of the
body when turning the top shaft extension of
the actuator clockwise (CW).
14.2.10
Once the shaft and pistons are properly
engaged, ensure that smooth movement
and 90 degree operation can occur without
moving the pistons out of the actuator body.
This is important!
CAUTION: For sizes 40 to 50 limit stop variant,
the limit stop end cap must be assembled
first. Once assembled, feed the limit stop bolts
through the guide rods and screw into the end
cap. Add the sealing washer, backing washer
and lock nut and then attach the air inlet end
cap. This should be done in conjunction with
the instructions below.
Page 13
15˚ - 20˚
15˚ - 20˚
Size 05 - 20 Size 25 - 50
Figure 2
Alignment of Shaft at Reassembly
IMPORTANT:
14.2.11
Align gear teeth on the shaft as per Figure 1.
Install O-Ring (15A) into and replace the
actuator end caps, (5 or 5A and 5B), noting
that the “foolproof” pin between the body and
end cap mates properly (10–50 sizes only).
NOTE: For spring return actuators, see
spring installation section on page 13 before
installing end caps.
NOTE: When installing the end cap O-Rings,
use a small amount of a general purpose lubricant, such as petroleum jelly, to hold them in
place for ease of assembly and to avoid having
them drop down and get pinched.
On Rev. R2 and earlier actuators, be sure
O-Ring is installed in groove on end cap.
15.3 When replacing the springs in a spring-return actuator, place the springs in the end
cap pocket after thoroughly lubricating each
spring. Be generous with lubricant!
15.4 With the springs pointing up and the end cap
on a solid surface, place the actuator body
over the springs and the proper end cap. (Each
end cap can only be mounted to just one end
of the actuator body, as there is a “foolproof”
pin in the end cap, which aligns with a hole in
the body).
15.5 Force the body down and begin by engaging
two end cap screws (5C) by hand through
the end cap. Take each end cap screw up in
SMALL and EQUAL turns. Once the end cap is
temporarily secured to the body, turn the actuator over to its normal position and uniformly
take up the four end cap screws. Uniformly
load all the springs to prevent any spring from
buckling.
IMPORTANT: Locating nibs are cast into the
piston face on sizes 25 to 50. The actuator
springs must fit over these locating nibs on
the piston face. Care in following the above
instructions will ensure the proper alignment
of the spring in the actuator body — proper
contact with the piston face and end cap.
14.2.12 Replace position indicator (17). See Section 6.
15 SPRING-RETURN ACTUATOR
15.1 When replacing springs in a spring-return
actuator, ensure that the springs are replaced
in their identical position in the end cap from
where they were removed.
IMPORTANT: When less than the standard
number of springs are used in each end cap,
these springs should be positioned according
to the air supply figures below.
The values listed below are for standard and
less than the standard air pressure as required
per the ordering code.
NOTE: Maximum operating pressure does not
change.
15.2 If a spring-return actuator is being repaired
due to a failed spring, REPLACE all the springs
in this actuator, as well as any other parts
which may have been damaged.
15.6 In a similar manner, as written in the previous
steps, replace the springs in the other end of
the actuator body.
NOTE: On sizes 40 to 50 limit stop, only
encapsulated springs (pre-compressed) can
be used with this design.
Series 40R Sizes 10 - 42
4.5 bar - 8 springs - 4 per end cap. Remove center spring.
4.0 bar - 8 springs - 4 per end cap. Remove center spring.
3.5 bar - 6 springs - 3 per end cap. Use three on a diagonal.
3.0 bar - 4 springs - 2 per end cap. Use two in opposite corners.
Series 40 Sizes 45 - 50
4.5 bar - 20 springs - 10 per end cap.
4.0 bar - 20 springs - 10 per end cap.
3.5 bar - 16 springs - 8 per end cap.
3.0 bar - 12 springs - 6 per end cap.
The size 05 spring-return actuator operating at 5.5 bar has four
springs (two per end cap). For air supplies of 4.5, 4.0 or 3.0, remove
inner spring of each end cap.
Remove required number of
springs starting in the center.
Remaining springs should be
evenly spaced as possible.
Page 14
16 Size 05 Exploded view/parts/materials
(Spring return)
(Double acting)
14A
14A
S. S. Washer
15G
15D
10
2
7A
19
20
21
15C
3
3
18
15F
1
14A
5
5
14B
15A
5C
17
15C
5
(Spring return)
5C
15A
8E
8B
8D
5
(Double acting)
15E
8E
18C
Item Qty. Description Item Qty. Description
1 1 Body 14A 2 Inner Springs (See Table Page 13)
2 1 Shaft 14B 2 Outer Springs (See Table Page 13)
3 2 Pistons 15A 2 End Cap O-Rings
4 2 Guide Rods 15C 2 Piston O-Rings
5 2 End Caps 15D 1 Top Shaft O-Ring
5A 1 Solenoid Block (Inlet) End Cap 15F 1 Shaft Clip
5B 1 Limit Switch End Cap 15G 1 Top Pinion Bearing
5C 8 End Cap Screws (Metric) 17 1 Position Indicator
10 1 Thrust Bearing 18 1 Indicator Mounting Screw
11 1 Nameplate (Not Shown) 19 1 Interface Gasket
12 2 Piston Set Screws 20 1 Solenoid Block Interface Plate
13 2 Pipe Plugs 21 3 Plate Mounting Screws (Metric)
To order proper parts, please specify the actuator size, model and revision number. Use the standard nomenclature listed above.
The rebuilding kits include Items 15A, 15C through 15G, 10, 19 and stainless steel washer. Color of some
replacement parts, such as bearings, may vary from the parts removed.
Page 15
17 Size 10-50 Exploded view/parts/materials
The rebuilding kit includes
items 15A through 15H, 6,
9, 10, and stainless steel
washers. The color of some
replacement parts, such as
bearings, may vary from the
parts removed.
4
4
REVISION D
9
11
9
Old style
9
New style
21
21
Item Qty. Description Item Qty. Description
1 1 Body 15A 2 End Cap O-Rings
2A 1 Shaft, Size 10 to 20 15B 6 Guide Rod O-Rings
2B 1 Shaft, Size 25 to 50 15C 2 Piston O-Rings
3 2 Pistons 15D 1 Top Shaft O-Ring
4 2 Guide Rods 15E 1 Bottom Shaft O-Ring
5A 1 Inlet End Cap 15F 1 Spiral Retaining Ring
5B 1 Limit Stop End Cap 15G 1 Top Pinion Bearing
5C 8 End Cap Screws (Metric) 15H 1 Bottom Pinion Bearing
6 6 End Cap/Piston Bearing 15J 1
Anti-Ejection Ring
9 1 Thrust Washer, Stainless Steel 17 1 Position Indicator
10 9 Thrust bearing 18 2 Limit Stop screws
11 1 Nameplate 19 2 Limit Stop Nuts
12 2 Piston Set Screws 20 2 Backing Washers (sizes 25 to 50 only)
14 10 Spring 21 2 Sealing Washers
NOTE:
To order proper parts, please specify the actuator size, model and revision number. Use the standard
nomenclature listed above.
Page 16
Flowserve Flow Control (UK)
Burrell Road
Haywards Heath
West Sussex United Kingdom RH16 1TL
Phone: +44 1444 314400
Fax: +44 1444 314401
FCD NBENIM0002-03-A4 07/15
To find your local Flowserve representative:
For more information about Flowserve Corporation.
visit www.flowserve.com
© 2015 Flowserve Corporation. Flowserve a trademark of Flowserve Corporation
Due to continuous development of our product range. we reserve the
right to alter the dimensions and information contained in this leaflet as
required. Information given in this leaflet is made in good faith and based
upon specific testing but does not, however, constitute a guarantee.
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