Emerson Fisher 3570 Data Sheet

2015-03-30

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Fisherr480 Series Yokeless Piston Actuators

Fisher 480 Series actuators are yokeless piston

actuators that are used in either throttling or on-off

applications with ball valves, butterfly valves, louvers,

dampers, and rheostats. They require pneumatic

pressure loading from double-acting positioners

(Fisher 3570) or from on-off loading and unloading

devices.

Features

Actuator Versatility–Actuator with or without

positioners and snubbers is available in an

assortment of sizes, stroking speeds, thrusts, and

travels to handle most control requirements.

Compact Design–Yokeless construction permits a

low-profile assembly by allowing close coupling to

the control device; either through a bracket or, with

some versions, by direct mounting on a bonnet

flange.

Wide Range Supply Pressure Capability–The

cylinder (and 3570 positioner if used) can operate

with supply pressures as low as 2.4 bar (35 psig) or

as high as 10.3 bar (150 psig).

Long Stroke–Actuators have maximum rated

travels of up to 206 mm (8.125 inches).

Positioner Versatility–Positioner/actuator action is

easily reversed in the field with no additional parts.

Positioner sensitivity, travel span, and travel starting

point are factory set and need to be reset only if

operating conditions have changed or if the

positioner has been reversed. See figure 1.

Fisher 480-15 Piston Actuator

W1867

Actuator Frequency

Response

Figure 3 shows how various size actuators respond

when the input supply pressure is cycled at small

amplitude (3 to 5 percent) and increasing frequency.

Assume the cycling supply pressure and the

movement of the actuator rod are represented by sine

waves. As the actuator rod is forced to move faster, its

motion begins to fall behind the input in both time

(shown as phase lag) and amplitude (shown as

normalized gain). Both of these parameters are

affected by the inertia of the actuator and,

consequently, changes are more pronounced in the

larger constructions.

480 Series Actuators

D100091X012

Product Bulletin

61.2:480

February 2013

480 Series Actuators

D100091X012

Product Bulletin

61.2:480

February 2013

480 Series Actuator Specifications

Available Configurations

See the Actuator Configurations section

Cylinder Pressure

Maximum Allowable:(4) 10.3 bar (150 psig)

Required to Produce a Given Thrust: Seefigure2

Minimum Recommended: Valves with low torque

requirements - (2.4 bar [35 psig]); all other valves -

(3.4 bar [50 psig])

Maximum Supply Source Consumption

With Positioner and Constant Input Signal: 0.54

normal m3/hr(1) (20 scfh(1)) of air at 6.9 bar (100 psig)

Without Positioner: Depends on cylinder volume and

supply pressure

Travel Information

Maximum Rated Travels, All 480 Series actuators with

Linear Output: See table 1

Travel Stops Available for 480 Series actuators with

105 mm (4.125 inch ) Maximum Rated Travels: See

table 1

Thrust Information

Seefigure2

Torque Output

480, 480-15, and 480-16 (for butterfly valves):

Contact your Emerson Process Management sales

office

Stroking Speeds

See table 1

Operative Ambient Temperature(2)

With Nitrile O-Rings: -46 to 80_C(-50to175_F)

With Fluorocarbon O-Rings (Optional):(3)

-18 to 149_C(0to300_F)

Actuator Size and Piston Size

See table 1

Pressure Connections

Standard is 1/4 NPT. For larger sizes, contact your

Emerson Process Management sales office.

Construction Materials

Actuator:

Part Material

Cylinder and Piston Aluminum

Piston Rod Extension SST, Chrome Plated

Cylinder Seal Bushings Brass

O-Rings Nitrile or Fluorocarbon

Linkage Connections and Mounting Information

See figures 7, 8, 9, and 10

Options

J376 Series trip valve system to fail actuator

Jup or Jdown or Jlock in last position

JTopWorxtDXP M21GNEB electrical valve stem

position switch

JMicro-Switch limit switches

1. Normal m3/hr.- normal cubic meters per hour (0_C and 1.01325 bar, absolute); Scfh - standard cubic feet per hour (60_Fand14.7psia).

2. These terms are defined in ANSI/ISA Standard S51.1

3. Without snubber. If this actuator has a snubber, the temperature specification is the same for the nitrile version.

4. The pressure limits in this bulletin and any applicable standard or code limitation for actuator should not be exceeded.

480 Series Actuators

D100091X012

Product Bulletin

61.2:480

February 2013

3570 Actuator Specifications

Available Configurations

3570: Valve positioner with two relays and three

pressure gauges for monitoring input signal and

output pressures to the top and underside of the

actuator piston

3570C: Similar to 3570 except that the positioner is

equipped with automotive tire valves instead of

pressure gauges. The valves can be used for clip-on

test pressure gauges. The relay nozzles on these

positioners are locked in place with locknuts to resist

unwanted nozzle movement due to vibration

Input Signal

Standard Ranges: 0.2to1.0bar(3to15psig)or0.4

to 2.0 bar (6 to 30 psig)

Split Ranges: Typically uses one half of standard range

when two control valves are operated by one input

signal from a single controller

Optional Ranges: As required within the limits of the

bellows

Bellows Pressure Rating

Standard Bellows: 3.4 bar (50 psig)

Optional Bellows: 6.2 bar (90 psig)

Supply Pressure

Maximum: 10.3 bar (150 psig)

Minimum: 2.4 bar (35 psig)

Output Signal

Type: Pneumatic pressure as required by the actuator

Action: Field reversible between direct and reverse

(see table 2)

Hysteresis(1,2)

0.15% of total stroke or instrument pressure span

Resolution(1,2)

0.2% of instrument pressure span

Repeatability(1,2)

0.3% of instrument pressure span

Frequency Response(1,2)

Seefigure3

Pressure Connections

Vent: 3/8 NPT

All Others: 1/4 NPT

Pressure Indications

3570C: Tire valves accept standard pressure gauge

chucks

3570: See table below

Type of Indication Number

Used

Standard Gauge Range

bar (psig)

Positioner input signal

gauge 10 to 2.1 (0 to 30) or

0 to 4.1 (0 to 60)

Cylinder supply pressure

gauge 00 to 11.0 (0 to 160)

Static Air Consumption(3)

0.56 normal m3/hr (20 scfh) with 6.9 bar (100 psig)

supply pressure

Operative Ambient Temperature(1,2)

With Nitrile O-Rings: -34 to 79_C(-30to175_F)

With Fluorocarbon O-Rings (Optional):(3) -18 to

149_C(0to300_F)

Construction Materials

Actuator:

Part Material

Base, Cover and Beam

Bellows

Bias and Range Spring

Relay Body

Relay Nozzle(s)

Diaphragm

O-Rings

Aluminum, die cast

Brass

Steel, Plated

Zinc, Die Cast

SST

Nitrile or Fluorocarbon

Options

Fisher SS-52 clip-on chuck (with or without gauge) for

3570C positioners

1. These terms are defined in ANSI/ISA Standard S51.1

2. For actuator with positioner only. Does not apply to other constructions or actuator-valve combination.

3. Normal m3/hr.- normal cubic meters per hour (0_C and 1.01325 bar, absolute); Scfh - standard cubic feet per hour (60_F and 14.7 psia).

480 Series Actuators

D100091X012

Product Bulletin

61.2:480

February 2013

Table 1. Size, Piston, Stroking Speed, and Travel Information

ACTUATOR

SIZE

EFFECTIVE

PISTON AREA

PISTON

DIAMETER

STROKING

SPEED(1)

SINGLE-FLANGE TRAVEL STOPS AVAILABLE FOR

ACTUATORS WITH 105 mm

(4.125 INCHES) MAXIMUM

RATED TRAVEL

–16 Versions All Others Except Fisher 487,

487-1(2)

cm2Inch2mm Inch mm/s Inch/s mm Inch mm Inch mm Inch

30 107 16.5 121 4.75 102 4--- --- 105 4.125 89 3.5

182

258

28.25

55.5

156

216

6.125

8.5

2.05

1.30 206 8.125 105 4.125 89 3.5

1. For actuators with positioners at 6.9 bar (100 psig) supply pressure and all prestroke conditions satisfied. Stroking speeds for actuators without positioners or with snubbers will depend on

the particular construction involved.

2. See 480 Series Actuators Specifications for these travels.

Table 2. Action Under Normal Operating Conditions

ACTUATOR DESCRIPTION DESIRED PISTON MOTION

Down Up

With Positioner Direct-acting Increasing input signal pressure to bellows(1) Decreasing input signal pressure to bellows(1)

Reverse-acting Decreasing input signal pressure to bellows(1) Increasing input signal pressure to bellows(1)

Without positioner Supply pressure loaded on top of piston,

exhausted from bottom

Supply pressure loaded on bottom of piston,

exhausted from top

1. Supply pressure is routed through relays to piston.

Figure 1. Positioner Simplicity

RANGE SPRING

DETERMINES

TRAVEL SPAN

NOZZLE

DETERMINES

SENSITIVITY

BIAS SPRING

ADJUSTING SCREW

DETERMINES CORRECT

TRAVEL STARTING POINT

W0701-1*

ADJUSTMENTS

AJ1880-A

A1283-1

DIRECT-ACTING POSITION REVERSE-ACTING POSITION

REVERSAL

REMOVAL OF FOUR SCREWS

BEAM

BELLOWS

BASE PEDESTAL

BELLOWS

POSTS BEAM

BELLOWS

BASE

PEDESTAL

Actuator Configurations

480: Yokeless piston actuator with positioner.

481: Yokeless piston actuator without positioner.

Other actuators may be obtained without positioner

by adding -1 to the type number.

Theaboveactuatorscomewithstandardmounting

flange, 105 mm (4.125 inch) maximum rated travel,

and threaded piston rod connection with sizes 30

through 60 for mounting on ball valves, louvers, and

dampers with brackets.

Theseactuatorsmaybeobtainedwiththefollowing

alternate universal mounting flange constructions:

-15 Added to Type Number: Allows butterfly valve

mounting for a standard actuator with 105 mm (4.125

inch) maximum travel and threaded piston rod

connection, and comes in sizes 30 through 60.

-16 Added to Type Number: Provides 206 mm (8.125

inch) maximum travel and threaded piston rod

connection, and comes in sizes 40 through 60.

480 Series Actuators

D100091X012

Product Bulletin

61.2:480

February 2013

Figure 2. Supply Pressure and Thrusts

Note:

May be increased by 10% for actuators without positioners. Either this thrust, or the maximum allowable loading for the control device

is the limitin

factor for usable actuator force.

A5961 1

Thrusts in thousands of pounds (in thousands of newtons)

for actuators with positioners.

SIZE 30

ACTUATOR SIZE 40

ACTUATOR

SIZE 60

ACTUATOR

Figure 3. Frequency Response

A5962

1. SIZE 30- 19mm (0.75 INCH) TRAVEL

2. SIZE 40- 38mm (1.5 INCH) TRAVEL

3. SIZE 60- 38mm (1.5 INCH) TRAVEL

FREQUENCY - HERTZ

Principle of Operation

Actuator

These actuators react to a pressure unbalance that is

created by loading supply pressure on one side of the

piston and unloading the opposite side. Some type of

switching device is required to shift the supply

pressurefromonesideofthepistontotheother.For

most actuators in the 480 Series, this device is a 3570

positioner. However, a separate loading device must

be provided for actuators without positioners.

For actuators with positioners (figure 4), the

pneumatic output signal from a controller or

instrument is piped to the positioner bellows. As long

as the bellows receives a constant input signal

pressure, the beam remains motionless and allows

supply pressure to bleed throughbothrelaynozzles

such that a constant pressure is maintained between

thenozzleandthefixedorifice.Therelaysarein

equilibrium with their inlet and exhaust valves closed.

480 Series Actuators

D100091X012

Product Bulletin

61.2:480

February 2013

Figure 4. Operation of Actuator with Positioner

BJ8256-A

A1286

INSTRUMENT PRESSURE

SUPPLY PRESSURE

TOP CYLINDER PRESSURE

BOTTOM CYLINDER PRESSURE

NOZZLE PRESSURE

FIXED RESTRICTION

RANGE SPRING

BIAS

SPRING

RELAY B

SUPPLY BEAM

SUPPLY FIXED RESTRICTION

RELAY A

BELLOWS

REVERSED

POSITION

INSTRUMENT

Assume that a downward piston motion is required

and the bellows receives a corresponding change in

input signal pressure. This causes the beam to pivot so

that it covers the nozzle on relay A. (Beam movement

is accomplished either by increasing the input signal

pressure on a direct-acting positioner to expand the

bellows, or by decreasing the input signal pressure on

a reverse-acting positioner to contract the bellows.)

The nozzle pressure in relay A increases due to the

restriction created by the beam over the nozzle.

Through relay action, the air pressure to the top of the

piston is increased. At the same time, relay B reacts to

thechangeinbeampositiontodecreasethepressure

to the underside of the piston. Due to the resulting

unbalanced forces acting on the piston, it moves

down, changing the valve plug position.

Piston movement is fed back to the beam by means of

arangespringwhichisconnected to the beam and to

the piston rod extension, applying a force to the beam

opposite to that caused by the expanding or

contracting bellows. This feedback arrangement

prevents overcorrection and ensures a definite

position of the piston and valve plug for a given

instrument signal.

Figure 5. Operation of Actuator with Snubber

32A8303-A

A1287

SUPPLY PRESSURE

TOP CYLINDER PRESSURE

BOTTOM CYLINDER PRESSURE

UPPER SNUBBER PRESSURE

LOWER SNUBBER PRESSURE

SNUBBER

CHECK

VALVES

POSITIONER

SWITCHING

DEVICE

If upward piston motion is required, the beam pivots

over the nozzle on relay B. The result is relay, piston,

and feedback action opposite that for downward

piston motion.

Reversal of positioner action is accomplished simply by

removing four screws, inverting the bellows, and

installing two bellows posts for support it the change is

from direct to reverse action. Bellows posts are stored

in the positioner case and are not used if the change is

from reverse to direct.

Actuator with Snubber

As the actuator piston strokes, the snubber piston

moves inside an oil-filled cylinder, forcing oil from one

side of the piston to the other through two check

valves (see figure 5). The resistance to flow created by

the settings of the check valves and the shock

absorbing quality of the oil combine to damp out any

tendency of the valve plug to jump. The plug of each

check valve is held off its seat by the positioning of the

adjusting screws. Thus, with the adjusting screws

backed off all the way, maximum damping will be

obtained.

Installation

The actuator may be installed in any position, but

normal installation is with the actuator vertical above

the valve. Dimensions are given in figures 6, 7, 8, 9,

and 10.

480 Series Actuators

D100091X012

Product Bulletin

61.2:480

February 2013

Ordering Information

When ordering, specify:

1. Type number

a. For actuator, suffix dash numbers of desired

constructions are appropriate.

b. For positioner (if used)

2. Supply Pressure

3. Actuator size and connection size and style desired

4. Input signal range

5. Desired stroking time and direction, if applicable

6. Operative ambient temperature

7. Travel

8. Desired options

9. Application requirements

a. Type, body size, port diameter, stem connection

size,andtheactionofthevalvetobeusedwiththe

actuator.

b. Valve inlet pressure

c. Valve shutoff pressure drop

d. Valve flowing pressure drop

e. Process fluid temperature

480 Series Actuators

D100091X012

Product Bulletin

61.2:480

February 2013

Table 3. Cylinder Diameter and Bolt Center Location, All Actuators

ACTUATOR SIZE CH, DEGREE OF ARC

mm Inch Standard Flange Universal Mounting Flange

30 171 6.75 045

40 206 8.12 45 45

60 267 10.50 22.5 45

Figure 6. Cylinder Diameter and Bolt Center Location, All Actuators (refer to table 3)

BH9452-K

A1290

Figure 7. Dimensions for Actuators with Clevis Connection

1Duplicated on opposite side; each hole is 5/16 inch-18 UNC-2B and tapped 13 (0.50) deep.

BK4109-B

A1295

135

(5.31)

147

(5.81)

155

(6.12)

46 (1.81)

127

(5.00)

(2.88)

(0.44)

(2.25)

(inch)

1/4-18 NPT

SUPPLY CONNECTION

ON BACKSIDE

3/8-18 NPT

VENT CONNECTION

8 (0.31)

DIAMETER BOLT

4-3/8 INCH -16

HOLES TAPPED

22 (0.88) DEEP

480 Series Actuators

D100091X012

Product Bulletin

61.2:480

February 2013

Table 4. Dimensions and Mounting Information for Actuators with Threaded Piston Rod and Standard Mounting

Flange, or Positioner, or Snubber

ACTUATOR

SIZE

A B D F G

Number

Bolt Circle Diameter THREADED PISTON

ROD CONNECTION

UNF-2A

mm Inch mm Inch mm Inch mm Inch mm Inch mm Inch

250

208

211

8.06

8.19

8.31

3.38

3.25

3.12

170

173

203

6.69

6.81

8.00

2.50

1.31

146

181

241

5.75

7.12

9.50

7/8 inch - 14

Figure 8. Dimensions and Mounting Information for Actuators with Threaded Piston Rod and Standard Mounting

Flange, or Positioner, or Snubber (refer to table 4)

1Duplicated on opposite side; each hole is 5/16 inch-18 UNC-2B and tapped 13 (0.50) deep.

This dimension does not exist if no snubber is used.

BL1413-B

A1291

157

(6.19) D

130

(5.13)

310

(12.19)

3/8-18 NPT

VENT

CONN

1/4-18 NPT

SUPPLY CONN

ON BACKSIDE

(2.25)

(1.19)

(1.75)

BOLT CIRCLE

NO. OF STUDS

3/4 INCH-10 UNC-2A

(inch)

480 Series Actuators

D100091X012

Product Bulletin

61.2:480

February 2013

Table 5. Dimensions for Actuators without Positioner, with Long Stroke, or with Threaded Piston Rod and Universal

Mounting Flange

Actuator

Size

A B F G I K

–15

Versions

–16

Versions

–15

Versions

–16

Versions

–15

Versions

–16

Versions

–15

Versions

–16

Versions

Bolt Circle

Diameter Thread

Diameter

Threaded

Piston Rod

Connection

UNF-2A

mm Inch mm Inch mm Inch mm Inch mm Inch mm mm mm Inch mm Inch mm Inch

40, 60

222

8.75

343

13.5

3.56

108

4.25

2.5

1.87

1.31

2.00

3.88

1/2-13

7/8-inch-14

Figure 9. Dimensions for Actuators without Positioner, with Long Stroke, or with Threaded Piston Rod and Universal

Mounting Flange (refer to table 5)

For -16 version only.

Duplicated on opposite side; each hole is 5/16 inch-18 UNC-2B and tapped 13 mm (0.50 inches) deep.

1/4-18 NPT

111

(4.38)

121

(4.75)

4HOLES

TAPPED 22 mm

(0.88 inches) DEEP

(2.25)

(inches)

480 Series Actuators

D100091X012

Product Bulletin

61.2:480

February 2013

Figure 10. Dimensions for Actuators with Rotary Couplings

Duplicated on opposite side; each hole is 5/16 inch-18 UNC-2B and tapped 13 mm (0.50 inches) deep.

Socketed coupling with setscrew adjustment. 6 mm (0.25 inch), 10 mm (0.38 inch), and 13 mm (0.50 inch) inside diameters.

Four holes total on 140 mm (5.5 inch) bolt circle.

154

(6.06)

(inches)

BK6785-B

B0662

340

(13.38)

146

(5.75)

(2.81)

(2.25)

171

(6.75) DIAMETER

3/8 INCH-16

UNC-2B

(0.5)

(3.75)

171

(6.75)

DIA

(0.75) DIA HOLE

(2.81)

480 Series Actuators

D100091X012

Product Bulletin

61.2:480

February 2013

Emerson Process Management

Marshalltown, Iowa 50158 USA

Sorocaba, 18087 Brazil

Chatham, Kent ME4 4QZ UK

Dubai, United Arab Emirates

Singapore 128461 Singapore

www.Fisher.com

The contents of this publication are presented for informational purposes only, and while every effort has been made to ensure their accuracy, they arenot

to be construed as warranties or guarantees, express or implied, regarding the products or services described herein or their use or applicability. All sales are

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