Magnetrol Electric Switch Series B, C, D, F, O, Q, R, S, U, W, X, 8 and 9 Instrukcja obsługi

Marka: Magnetrol

Model: Electric Switch Series B, C, D, F, O, Q, R, S, U, W, X, 8 and 9

Typ: Instrukcja obsługi

Installation and Operating Manual

Series

B, C, D, F,

O, Q, S, U, W,

and X

with

Aluminum,

Carbon Steel,

Cast Iron

Housings

Electric Switch

Mechanisms

ead this Manual Before Installing

his manual provides information on Electric Switch

Mechanisms. It is important that all instructions are read

carefully and followed in sequence. Detailed instructions

are included in the Installation section of this manual.

Conventions Used in this Manual

Certain conventions are used in this manual to convey

specific types of information. General technical material,

support data, and safety information are presented in

narrative form. The following styles are used for notes,

cautions, and warnings.

NOTES

Notes contain information that augments or clarifies

an operating step. Notes do not normally contain

actions. They follow the procedural steps to which

they refer.

Cautions

Cautions alert the technician to special conditions that

could injure personnel, damage equipment, or reduce

a component’s mechanical integrity. Cautions are also

used to alert the technician to unsafe practices or the

need for special protective equipment or specific

materials. In this manual, a caution indicates a

potentially hazardous situation which, if not avoided,

may result in minor or moderate injury.

WARNINGS

Warnings identify potentially dangerous situations or

serious hazards. In this manual, a warning indicates an

imminently hazardous situation which, if not avoided,

could result in serious injury or death.

WARNING! Explosion hazard. Do not connect or

disconnect equipment unless power has been switched off

or the area is known to be non-hazardous.

Low Voltage Directive

For use in Installation Category II, Pollution Degree 2. If

equipment is used in a manner not specified by manu-

facturer, protection provided by equipment may be

impaired.

otice of Copyright and Limitations

agnetrol & Magnetrol logotype are registered trade-

Performance specifications are effective with date of issue

and are subject to change without notice.

Magnetrol reserves the right to make changes to the

products described in this manual at any time without

notice. Magnetrol makes no warranty with respect to the

accuracy of the information in this manual.

Warranty

All Magnetrol mechanical level and flow controls are war-

ranted free of defects in materials or workmanship for five

full years from the date of original factory shipment.

If returned within the warranty period; and, upon factory

inspection of the control, the cause of the claim is

determined to be covered under the warranty; then,

Magnetrol will repair or replace the control at no cost to

the purchaser (or owner) other than transportation.

Magnetrol shall not be liable for misapplication, labor

claims, direct or consequential damage or expense arising

from the installation or use of equipment. There are no

other warranties expressed or implied, except special

written warranties covering some Magnetrol products.

Quality Assurance

The quality assurance system in place at Magnetrol

guarantees the highest level of quality throughout the

company. Magnetrol is committed to providing full

customer satisfaction both in quality products and

quality service.

The Magnetrol quality assurance system is registered to

ISO 9001 affirming its commitment to known

international quality standards providing the strongest

assurance of product/service quality available.

Table of Contents

1.0 Reference Information.....................................................4

1.1 Principle of Operation ..............................................4

1.2 Operating Cycle ........................................................4

1.3 Description ...............................................................5

1.3.1 Dry contact switches B, C, D, O, Q, S and U ...5

1.3.2 Hermetically sealed switches F, W and X........5

2.0 Installation.......................................................................6

2.1 Replacing Switch Mechanism....................................6

2.2 Replacing Dry Contact Switches...............................7

2.2.1 Series B, C, D, F, O, Q, S, U, W and X.........7

2.3 Vibration Service Adjustment ...................................8

3.0 Wiring .............................................................................9

3.1 SPDT Terminal Connections....................................9

3.1.1 Single float with one switch or

single stage displacer.......................................9

3.1.2 Single float with two switches or

dual stage displacer.........................................9

3.1.3 Single float with three switches or

three stage displacer......................................10

3.2 DPDT Terminal Connections.................................11

3.2.1 Single float with one switch or

single stage displacer.....................................11

3.2.2 Single float with two switches or

dual stage displacer.......................................11

3.2.3 Three stage displacer ....................................12

4.0 Preventative Maintenance..............................................13

4.1 Inspect Switch Mechanisms ....................................13

5.0 Switch Specifications .....................................................14

6.0 Replacement Switch Mechanisms.................................15

6.0.1 Magnet strength ...........................................15

6.1 Yellow Dot Magnet Replacement Mechanisms........15

6.1.1 Series B, C, D, F, O, Q, S, U, W and X.......15

6.2 Red Dot Magnet Replacement Mechanisms............16

6.2.1 Series B, C, F, U, W and X ..........................16

7.0 Switch Housing Replacement Assemblies .....................17

7.0.1 Aluminum housings .....................................17

7.0.2 Cast iron housings........................................18

7.0.3 Carbon steel housings...................................18

7.1 Replacement Housing Kits......................................19

7.1.1 Referred by eighth, ninth and tenth digit.....19

7.1.2 Referred by description ................................19

7.1.3 ATEX ...........................................................19

7.2 Replacement Gaskets and Hardware .......................20

8.0 Manual Reset Option....................................................20

8.1 Parts Breakdown and Identification.........................20

8.2 Field Installation Instructions..................................21

9.0 Switch and Housing Model Codes................................22

9.1 Type 4, 4X, 7, 9 and Group B Enclosure Codes .....22

9.2 ATEX Enclosure Codes...........................................32

Electric Switch Mechanisms

42-683 Electric Switch Mechanisms

1.0 Reference Information

1.1 Principle of Operation

Figures 1 & 2 illustrate the simple, reliable operating prin-

ciple of a float level switch. Switching action is obtained

through the use of a magnetic sleeve (4) and a float (3),

displacer or flow sensing element and a switching mecha-

nism (2). These two basic component assemblies are sepa-

rated by a non-magnetic, pressure tight enclosing tube (5).

The switch (2) and magnet (1) are assembled to a mecha-

nism with a swinging arm which operates on precision

stainless steel pivots.

1.2 Operating Cycle

As level of a liquid in a vessel rises (Figure 1), the float

rides on the liquid surface moving the magnetic sleeve

upward in the enclosing tube and into the field of the

switch mechanism magnet. As a result, the magnet is

drawn in tightly to the enclosing tube moving the switch

adjusting screw and allowing the activating arm of the

snap switch to move, making or breaking the electrical

circuit. As the liquid level recedes (Figure 2), the float and

magnetic sleeve moves downward until the switch magnet

releases and is drawn outward, away from the enclosing

tube by a tension spring. This in turn allows the activat-

ing arm of the snap switch to move, thus reversing

switch action.

Switch mechanisms may include a single switch or multi-

ple switches, depending on operational requirements and

switching action desired.

Pivot

Return

Spring

Process

Liquid

Process

Liquid

Rising Level

Falling Level

Figure 1

Rising Level

Figure 2

Falling Level

42-683 Electric Switch Mechanisms

1.3 Description

Magnetrol level controls are available with a range of dif-

ferent switch mechanisms—each designed for specific serv-

ice conditions. A brief description of the individual switch

mechanisms and their applications are given below.

1.3.1 Dry Contact Switches B, C, D, O, Q, S and U

• Series B switches are general purpose with a maximum

liquid temperature rating of +250° F (+121° C), see

Figure 3.

• Series C switches are general purpose with a maximum

liquid temperature rating of +450° F (+232° C), see

Figure 3.

• Series D switches are designed for DC current applica-

tions with a maximum liquid temperature rating of

+250° F (+121° C), see Figure 3.

• Series O switches are general purpose with a maximum

liquid temperature rating of +300° F (+149° C), used only

in model C10 and C15 units, see Figure 3.

• Series Q switches are general purpose with a maximum

liquid temperature rating of +250° F (+121° C), used only

in model C10 and C15 units, see Figure 3.

• Series S switches are general purpose with a maximum liq-

uid temperature rating of +550° F (+288° C), or designed

for DC current applications with a maximum liquid tem-

perature of +250° F (+121° C), used only in model B40

units, see Figure 4.

• Series U switches have gold alloy contacts and are suitable

for applications with a maximum liquid temperature of

+250° F (+121° C).

1.3.2 Hermetically Sealed Switches F, W and X

Hermetically sealed switches are for use in special applica-

tions where hermetically sealed contacts are required.

• Series F switches are well suited for use in process temper-

atures up to +750° F (+399° C), see Figure 5.

• Series W switches are suitable for applications with a

maximum liquid temperature of +450° F (+232° C).

• Series X switches have gold-plated contacts and are suitable

for applications with a maximum liquid temperature of

+450° F (+232° C).

NOTE: See bulletin 42-694 for series HS & H1 hermetically

sealed switches.

Figure 5

Series F

Hermetically Sealed Switch

Figure 4

Series S

Snap Switch

Figure 3

eries B, C, D, O and Q Dry

Contact Switches

42-683 Electric Switch Mechanisms

2.0 Installation

2.1 Replacing Switch Mechanism

Caution: Before attempting to remove a switch mechanism, be cer-

tain to pull disconnect switch or otherwise assure that

electrical circuit through control is de-energized.

1. Disconnect wiring from supply side of terminal block

on switch mechanism. Note and record lead wire

terminal locations.

2. Loosen screw in split mounting clamp until mechanism

slides freely on enclosing tube, refer to Figure 6.

3. Remove small round head screw securing lower switch

mechanism to baffle plate, refer to Figure 7.

4. Slide switch mechanism off of enclosing tube. If mechanism

is to be reused, ensure that it is placed on a clean surface,

free of metallic particles that may be attracted to the

switch magnet.

Caution: Always handle the switch mechanisms about or around

the terminal block. Replacement switch mechanisms are

precision instruments which have been factory-calibrated

to operate with the level control specified. Extreme care

should be taken: 1) when handling the switch mechanism;

2) to assure that the magnet does not come in contact

with any magnetic materials; and, 3) that the switch mech-

anism is always placed on a clean, non-magnetic surface

free of metal particles which may be attracted to the

switch mechanism magnet. DO NOT attempt to make any

adjustments to switch mechanisms.

5. Loosen mounting screw so that switch frame will fit over

e-tube. Install switch mechanism by sliding it over the

enclosing tube. Slide mechanism down until the bottom of

the frame and terminal block are resting on the baffle

plate. The baffle plate should be resting on the hub of the

housing base.

6. Install and tighten baffle plate screw so that the switch

mechanism may not be separated from the baffle plate.

Tighten the mechanism mounting screw so that the mech-

anism is firmly clamped to the enclosing tube.

7. Swing magnet assembly in and out by hand, checking

carefully for any signs of binding.

8. Reattached supply-side wiring to the terminal block and

check switch function by varying liquid level in the vessel.

Figure 6

Mounting Screw

Figure 7

Baffle Plate Screw

42-683 Electric Switch Mechanisms

2.2 Replacing Dry Contact Switches

.2.1 Series B, C, D, F, O, Q, S, U, W and X

1. Disconnect control from power supply.

2. Disconnect switch leads from terminal block. Note and

record terminal connections of switch to be replaced.

3. Remove two mounting screws holding existing switch,

refer to Figure 8.

4. Remove existing switch and install replacement switch in

the same position, tightening mounting screws securely.

NOTE: For proper operation of the replacement switch, it must actu-

ate in the middle portion of the pivoted magnet’s swing.

5. Check switch action and adjust as follows:

a. Slowly rotate the pivoted magnet by hand, back and

forth through its angle of swing, listening closely for the

actuating click of the switch in each direction.

b. Check to see if there is equal overtravel of magnet in its

swing after the switch click in either direction.

c. If switch actuation is not correct, change adjustment of

actuating screw using a

⁄16" hexagon key wrench, refer to

Figure 8.

NOTE: If a single switch is being replaced on a DPDT mechanism,

lever of second switch must be depressed and held to allow

for the audible adjustment of new switch, as described above.

d. With new switch in adjustment, release lever of second

switch and perform fine-tuning of both switches to

provide simultaneous actuation (clicks).

6. Reconnect power supply and test switch action by vary-

ing liquid level in the vessel or by “gently blowing down”

float chamber.

Adjusting

Screw

Mounting

Screws

Figure 8

Dry Contact Switch Mechanism

42-683 Electric Switch Mechanisms

2.3 Vibration Service Adjustment

Level controls are frequently used in applications where

vibration is encountered, such as on scrubbers or com-

pressors. Switch mechanisms may require repositioning to

prevent unwanted magnet movement. This position is

usually best at right angles to the direction of vibration.

The direction of vibration may be determined by the

arrangement of connections to the vessel or the vessels

mounting method. Accordingly, the vibration will tend to

be in one direction only.

Upon determining the vibration direction, switch mecha-

nism(s) may be rotated from an incorrect position (as

shown in Figure 9, illustration is shown as looking at a

control from above), to a correct position as follows:

Caution: Before attempting to remove a switch mechanism, be cer-

tain to pull disconnect switch or otherwise assure that

electrical circuit through control is de-energized.

1. Disconnect control from power supply.

2. Loosen screw in split mounting clamp until mechanism

turns freely on enclosing tube, refer to Figure 6 on page 6.

3. Rotate entire mechanism and bottom baffle plate together

to the correct position.

Caution: Be certain power supply wires retain some slack at new

position. Do not pull wires taut.

NOTE: Amount of rotation required will vary with each installation and

may not be as much as shown in illustration.

4. Check action of switch magnet at new position. When

magnet vibrates from side to side, instead of front to back,

correct position has been attained.

5. Tighten clamp screw on switch mechanism.

6. Reconnect power supply, and test switch action under

operating conditions.

Vessel

Incorrect

Correct

Swing of magnet

Direction of vibration

Direction of

vibration

affle plate

Baffle plate

Frame mounting screw

Figure 9

Rotation of Switch

Mechanism in Vibration

42-683 Electric Switch Mechanisms

3.0 Wiring

Circuits shown are for direct-acting level switches and are

reversed in side mounting float-in-tank models, which

utilize a reversing float pivot.

NOTE: See bulletin 42-694 for wiring diagrams for “HS” Series

hermetically sealed switches.

3.1 SPDT Terminal Connections

3.1.1 Single float with one switch or single stage displacer

1. Rising level closes contacts 5 & 6, see Figure 10.

2. Falling level closes contacts 4 & 5.

3. Wiring Diagram is reversed (high level actuation becomes

low level actuation, etc.) when this switch mechanism is

used on side mounted float switches employing a reversing

pivot (Models B40, T52, T62, T63, etc.).

3.1.2 Single float with two switches or dual stage displacer

1. Rising level closes contacts 5 & 6 and 2 & 3, see Figure 11.

2. Falling level closes contacts 4 & 5 and 1 & 2.

3. Wiring diagram is reversed (high level actuation becomes

low level actuation, etc.) when this switch mechanism is

used on side mounted float switches employing a reversing

pivot (Models B40, T52, T62, T63, etc.).

4. On units with tandem floats, the top float operates the

bottom mechanism while the bottom float actuates the

top mechanism.

Close on Low Level (NC)

Common (C)

Close on High Level (NO)

Internal

Circuit

Load

Close on Low Level (NC)

Common (C)

Close on High Level (NO)

Internal

Circuit

Load

Assem.

Upper stage operates

upper switch mechanism

Lower stage operates

lower switch mechanism

Assem.

Close on Low Level (NC)

Common (C)

Close on High Level (NO)

Internal

Circuit

Load

Figure 11

Single Float with Two Switches

or Dual Stage Displacer

Figure 10

Single Float with One Switch

or Single Stage Displacer

42-683 Electric Switch Mechanisms

3.1.3 Single float with three switches or

three stage displacer:

1. Rising level closes contacts 5 & 6 and 2 & 3, see Figure 12.

2. Falling level closes contacts 4 & 5 and 1 & 2.

3. Unit is shipped with switches positioned for proper

function. Do not change switch spacing.

Middle stage operates

middle switch mechanism

ssem.

Close on Low Level (NC)

Common (C)

Close on High Level (NO)

nternal

ircuit

Load

Assem.

Upper stage operates

upper switch mechanism

Close on Low Level (NC)

Common (C)

Close on High Level (NO)

Internal

Circuit

Load

Assem.

Lower stage operates

lower switch mechanism

Close on Low Level (NC)

Common (C)

Close on High Level (NO)

Internal

Circuit

Load

Figure 12

Single Float with Three Switches

or Three Stage Displacer

42-683 Electric Switch Mechanisms

Internal Circuit

(Right Switch)

Load

Close on high level (NO)

Common (C)

Close on low level (NC)

Internal Circuit

(Left Switch)

Load

Close on high level (NO)

Common (C)

Close on low level (NC)

Figure 13

Single Float with One Switch

or Single Stage Displacer

Upper stage operates upper switch mechanism

Lower stage operates lower switch mechanism

Internal Circuit

(Right Switch)

Load

Close on high level (NO)

Common (C)

Close on low level (NC)

Internal Circuit

(Left Switch)

Load

Close on high level (NO)

Common (C)

Close on low level (NC)

Internal Circuit

(Right Switch)

Load

Close on high level (NO)

Common (C)

Close on low level (NC)

Internal Circuit

(Left Switch)

Load

Close on high level (NO)

Common (C)

Close on low level (NC)

Figure 14

Single Float with Two Switches or Dual Stage Displacer

3.2 DPDT Terminal Connections

.2.1 Single float with one switch or single stage displacer

1. Rising level closes contacts 5 & 6 and 2 & 3, see Figure13.

2. Falling level closes contacts 4 & 5 and 1 & 2.

3. Double pole action is obtained by simultaneous operation

of the right and left side single pole double throw switches.

4. Wiring diagram is reversed (close on high becomes close

on low, etc.) when this switch mechanism is used on side

mounted float switches employing a reversing pivot.

(Models B40, T52, T62, T63, etc.)

3.2.2 Single float with two switches or dual stage displacer

1. Rising level closes contacts 5 & 6 and 2 & 3, see Figure 14.

2. Falling level closes contacts 4 & 5 and 1 & 2.

3. Double pole action is obtained by simultaneous operation

of the right and left side single pole switches.

4. Wiring diagram is reversed (close on high becomes close

on low, etc.) when this switch mechanism is used on side

mounted float switches employing a reversing pivot.

(Models B40, T52, T62, T63, etc.)

5. On units with tandem floats, the top float operates the

bottom mechanism while the bottom float actuates the

top mechanism.

42-683 Electric Switch Mechanisms

3.2.3 Three Stage Displacer

1. Rising level closes contacts 5 & 6 and 2 & 3, see Figure 15.

2. Falling level closes contacts 4 & 5 and 1 & 2.

3. Double pole action is obtained by simultaneous operation

of the right and left side single pole switches.

Middle stage operates

middle switch mechanism

Lower stage operates

lower switch mechanism

Upper stage operates

upper switch mechanism

Internal Circuit

(

Right Switch)

oad

Close on high level (NO)

Common (C)

Close on low level (NC)

Internal Circuit

(

Left Switch)

oad

Close on high level (NO)

Common (C)

lose on low level (NC)

Internal Circuit

(Right Switch)

Load

Close on high level (NO)

Common (C)

Close on low level (NC)

Internal Circuit

(Left Switch)

Load

Close on high level (NO)

Common (C)

Close on low level (NC)

Internal Circuit

(Right Switch)

Load

Close on high level (NO)

Common (C)

Close on low level (NC)

Internal Circuit

(Left Switch)

Load

Close on high level (NO)

Common (C)

Close on low level (NC)

Figure 15

Three Stage Displacer

4.0 Preventative Maintenance

Inspect switch mechanisms, terminals and connections

regularly. Proof test interval to be determined by application

requirements (required reliablity, operating conditions,

site requirements, etc.).

4.1 Inspect Switch Mechanisms, Terminals

and Connections

1. Dry contact switches should be inspected for excessive

wear on actuating lever or misalignment of adjustment

screw at point of contact between screw and lever. Such

wear can cause false switch actuating levels.

2. DO NOT operate your control with defective or mal-

adjusted switch mechanisms.

3. Level controls may sometimes be exposed to excessive

heat or moisture. Under such conditions, insulation on

electrical wiring may become brittle, eventually breaking

or peeling away. The resulting “bare” wires can cause

short circuits.

NOTE: Check wiring carefully and replace at the first sign of brittle

insulation.

4. Vibration may sometimes cause terminal screws to loosen.

Check all terminal connections to be certain that screws

are tight.

NOTE: Spare switches should be kept on hand at all times.

42-683 Electric Switch Mechanisms

5.0 Switch Specifications

SWITCH SWITCH

PROCESS

RATING

SERIES ➀

TYPE

TEMP. RANGE ➁ LOAD Volts AC Volts DC

° F (° C)

120 240 480 24 120 240

Non-Inductive Amp 15.00 15.00 15.00 6.00 0.50 0.25

B Snap Inductive Amp 15.00 15.00 15.00 5.00 0.05 0.03

Horsepower

⁄8

⁄4 ————

Non-Inductive Amp 15.00 15.00 15.00 6.00 1.00 0.50

C Snap Inductive Amp 15.00 15.00 15.00 5.00 — —

Horsepower

⁄10

⁄6 — — ——

Non-Inductive Amp 10.00 ——10.00 10.00

1.50 min.

3.00 max.

D Snap

Inductive Amp 3.80 —— —2.20 —

Horsepower

⁄8 —— —

⁄8 —

(followed Hermetic

Resistive Amp 2.50 ——4.00 ➂ 0.30 —

by letter)

Inductive Amp 2.50 ——2.00 ➂ 0.10 —

(followed Hermetic

Resistive Amp 1.00 ——15.00 ➂ ——

by number)

Inductive Amp 1.00 ——10.00 ➂ ——

Non-Inductive Amp 15.00 15.00 15.00 — 1.00 0.50

O Snap Inductive Amp 15.00 15.00 15.00 ———

Horsepower

⁄10

⁄6 —— ——

Non-Inductive Amp 15.00 15.00 15.00 6.00 0.50 0.25

Q Snap Inductive Amp 15.00 15.00 15.00 5.00 0.05 0.30

Horsepower

⁄8

⁄4 —— ——

Non-Inductive Amp 15.00 15.00 15.00 — 1.00 0.50

Snap

Inductive Amp 15.00 15.00 15.00 — 0.50 —

Horsepower

⁄10

⁄6 —— ——

Non-Inductive Amp 10.00 ——10.00 10.00

1.50 min.

3.00 max.

Snap

Inductive Amp 3.80 ———2.20 —

SO Horsepower

⁄8 ———

⁄8 —

-40 to +250

(-40 to +121)

-40 to +450

(-40 to +232)

-40 to +250

(-40 to +121)

-50 to +750

(-46 to +399)

-50 to +250

(-46 to +121)

-40 to +450

(-40 to +232)

-40 to +250

(-40 to +121)

-40 to +550

(-40 to +288)

-40 to +250

(-40 to +121)

➀ For currents under 100 mA, gold contact switches should be used.

➁ Process temperatures based on +100 °F (+38 °C) ambient temperature.

➂ 28 VDC

➃ On steam applications, temperature down-rated to +400 °F (+204 °C) at +100 °F (+38 °C) ambient.

(X) B

(x=gold

contacts)

Snap

Gold

Contacts

-40 to +250

(-40 to +121)

Non-inductive

Inductive

1.00

—

(X) F

(x=gold

contacts)

Hermetic

Snap Gold

Contacts

-50 to +750

(-46 to +399)

Non-inductive

Inductive

—

1.00

0.25

—

(X) HS

(x=gold

contacts)

Hermetic

Snap Gold

Contacts

-50 to +550

(-46 to +288) ➃

Non-inductive

Inductive

1.00

—

2.00

1.00

—

Snap Gold

Contacts

-40 to +250

(-40 to +121)

Non-inductive Amp

Inductive Amp

Horsepower

1.00

—

1.00

—

Hermetic

Snap

-50 to +450

(-46 to +232)

Non-inductive Amp

Inductive Amp

Horsepower

1.00

—

1.00

0.80

—

3.00 ➂

—

0.50

—

Hermetic

Snap Gold

Contacts

-50 to +450

(-46 to +232)

Non-inductive Amp

Inductive Amp

Horsepower

0.50

0.15

—

0.50

—

0.50

—

0.50

—

0.50

—

42-683 Electric Switch Mechanisms

Switch

Series Contacts Quantity

8th & 9th

Digit

10th Digit

Switch

Only

E, F, Y, M, W, Q, B, S, K

Bottom Mech Middle Mech Top Mech

SPDT

BA, BK

089-7401-104

N/A

089-7101-020

BB, BL

089-7401-103

BC, BM

089-7401-104

DPDT

BD, BN

089-7401-122 N/A

N/A

BE, BO

089-7401-122

SPDT

CA, CK

089-7401-110

N/A

089-7101-022

CB, CL

089-7401-109

CC, CM

089-7401-110

DPDT

CD, CN

089-7401-125 N/A

CE, CO

089-7401-125

SPDT

DA, DK

089-7401-106

N/A

089-7101-024

DB, DL

089-7401-105

DC, DM

089-7401-106

DPDT

DD, DN

089-7401-123 N/A

N/A

DE, DO

089-7401-123

SPDT

FA, FK

089-7401-095 N/A

N/A

089-7101-041

FB, FL

089-7401-096

DPDT

FD, FN

089-7401-098 N/A

N/A

FE, FO

089-7401-098

SPDT 3

OC, OM

089-7401-110 089-7401-109 089-7401-110

089-7101-022

DPDT 3

OE, OK

089-7401-125 089-7401-125 089-7401-125

SPDT 3

QC, QM

089-7401-104 089-7401-103 089-7401-104

089-7101-020

DPDT 3

QE, QK

089-7401-122 089-7401-122 089-7401-122

SPDT 1

SA, SK

089-7401-126

N/A 089-7101-022

DPDT 1

SD, SN

089-7401-128

S (DC volt)

SPDT 1

SB, SL

089-7401-129

N/A 089-7101-024

DPDT 1

SE, SO

089-7401-127

6.1 Yellow Dot Magnet Replacement Mechanisms

6.1.1 Series B, C, D, F, O, Q, S, U, W & X – Yellow

6.0 Replacement Switch Mechanisms

6.0.1 Magnet strength

Switch mechanisms are provided with different strength mag-

nets as determined by the characteristics of the level switch. A

red, red/yellow or yellow dot is visible on each magnet. When

ordering replacement switch mechanisms, be certain to deter-

mine the color dot on the magnet. For these types of switch-

es, the tenth digit of the model number identifies the magnet

used on the control. The correct magnet dot color may be

chosen by finding the tenth digit of your model number at

the top of the chart. Any model numbers preceded with an

“X” are specially modified controls. Contact the factory for

replacement part numbers.

Continued on next page.

42-683 Electric Switch Mechanisms

Switch

Series Contacts Quantity

8th & 9th

Digits

10th Digit

Switch Only

G, H, R, D, V, P, A, T, J

Bottom Mech Middle Mech Top Mech

SPDT

BA, BK

089-7401-102

N/A

089-7101-020

BB, BL

089-7401-101

BC, BM

089-7401-102

DPDT

BD, BN

089-7401-121 N/A

N/A

BE, BO

089-7401-121

SPDT

CA, CK

089-7401-108

N/A

089-7101-022

CB, CL

089-7401-107

CC, CM

089-7401-108

DPDT

CD, CN

089-7401-124 N/A

N/A

CE, CO

089-7401-124

SPDT

FA, FK

089-7401-093

N/A

089-7101-041

FB, FL

089-7401-094

DPDT

FD, FN

089-7401-097

N/A

FE, FO

089-7401-097

SPDT

UA, UK, UU

047-5533-001 N/A N/A

037-4630-001

UB, UL, UV

047-5533-001 047-5536-001 N/A

UC, UM, UW

047-5533-001 047-5536-001 047-5533-001

DPDT

UD, UN, UX

047-6519-001 N/A N/A

UE, UO, UY

047-6519-001 047-6519-001 N/A

6.2 Red Dot Magnet Replacement Mechanisms

6.2.1 Series B, C, F, U, W & X – Red, Red/Yellow

Switch

Series Contacts Quantity

8th & 9th

Digits

10th Digit

Switch Only

E, F, Y, M, W, Q, B, S, K

Bottom Mech Middle Mech Top Mech

SPDT

UA, UK, UU

047-5534-001 N/A N/A

037-4630-001

UB, UL, UV

047-5534-001 047-5535-001 N/A

UC, UM, UW

047-5534-001 047-5535-001 047-5534-001

DPDT

UD, UN, UX

047-6520-001 N/A N/A

UE, UO, UY

047-6520-001 047-6520-001 N/A

SPDT

WA, WK, WU

089-7410-004 N/A N/A

037-9101-001

WB, WL, WV

089-7410-004 089-7410-003 N/A

WC, WM, WW

089-7410-004 089-7410-003 089-7410-004

DPDT

WD, WN, WX

089-7410-005 N/A N/A

WE, WO, WY

089-7410-005 089-7410-005 N/A

SPDT

XA, XK, XU

089-7412-004 N/A N/A

037-9102-001

XB, XL, XV

089-7412-004 089-7412-003 N/A

XC, XM, XW

089-7412-004 089-7412-003 089-7412-004

DPDT

XD, XN, XX

089-7412-005 N/A N/A

XE, XO, XY, X4

089-7412-005 089-7412-005 N/A

6.1.1 Series B, C, D, F, O, Q, S, U, W & X – Yellow (cont.)

Continued on next page.

42-683 Electric Switch Mechanisms

7.0 Switch Housing Replacement

Assemblies

When ordering replacement parts for an existing

Magnetrol instrument, please specify:

1. Model and serial numbers of control.

2. Description and part number of replacement kit.

The proper replacement switch housing kit and parts can

be determined by the last three characters of the model

number. In section 6.1.1 on page 18, locate the eighth and

ninth digits of your model number at the left side of the

chart. Follow the appropriate row across the page while

locating the tenth digit of your model number at the top

of the chart. In section 6.1.2 on page 18, the chart lists the

replacement housing kits according to description.

7.0.1 Aluminum Housings

Die cast aluminum TYPE 4X housing replacements are

available for general purpose or weatherproof installations.

Explosion proof TYPE 4X/7/9 and Class I, Div 1,

Group B housing replacements are available for hazardous

atmosphere locations. Die cast aluminum housings are fin-

ished with a baked-on polyester powder coat paint.

NOTE: Consult your local representative on applications to meet

other codes or approvals not covered in this bulletin.

Figure 16

Aluminum Housing Assembly

Enclosing Tube Assembly

Baffle Plate

Switch Assembly

Set Screw

O-ring

Breather Drain

(optional)

Housing Base

Lockwasher

Ground Screw

Patent Label

Housing Cover

Gasket

Pipe Plug

Enclosing Tube Assembly

Switch

Series Contacts Quantity

8th & 9th

Digits

10th Digit

Switch Only

G, H, R, D, V, P, A, T, J

Bottom Mech Middle Mech Top Mech

SPDT

WA, WK, WU

089-7410-002 N/A N/A

089-7411-001

WB, WL, WV

089-7410-002 089-7410-001 N/A

WC, WM, WW

089-7410-002 089-7410-001 089-7410-002

DPDT

N/A

SPDT

XA, XK, XU

089-7412-002 N/A N/A

089-7413-001

XB, XL, XV

089-7412-002 089-7412-001 N/A

XC, XM, XW

089-7412-002 089-7412-001 089-7412-002

DPDT

N/A

6.2.1 Series B, C, F, U, W & X – Red, Red/Yellow (cont.)

42-683 Electric Switch Mechanisms

7.0.2 Cast Iron Housings

Cast Iron TYPE 7/9 housing replacements are available for

hazardous atmosphere locations. Both Class I, Div. 1,

Groups C&D and Group B versions are available. The

grey iron cover and base are finished with a baked-on poly-

ester powder coat paint.

NOTE: Consult your local representative on applications to meet

NEMA and other codes not covered in this bulletin.

7.0.3 Carbon Steel Housings

Carbon steel TYPE 4X switch housings are available for

general purpose and weatherproof installations. The hous-

ing base is cast from aluminum while the cover is made

from cold rolled steel. The housings are finished with a

baked-on polyester powder coat paint.

NOTE: Consult your local representative on applications to meet

other codes or approvals not covered in this bulletin.

Figure 17

Cast Iron Housing Assembly

Figure 18

Carbon Steel Housing Assembly

42-683 Electric Switch Mechanisms

Lexan Cover Kit

089-6522-001➁

Cover

Height

Housing Material TYPE 1 TYPE 4X TYPE 4X/7/9 TYPE 7/9 Group B

TYPE 4X/7/9

with drain

TYPE 7/9

with drain

Short

CS cover, aluminum base

089-6511-003➁ 089-6509-003➁

N/A

Cast aluminum

N/A

089-6582-023 089-6582-023 089-6582-032 089-6582-028

Cast Iron N/A 089-6582-002 N/A 089-6582-003

Tall

CS cover, aluminum base

089-6512-003➁ 089-6510-003➁

N/A

Cast aluminum

N/A

089-6582-024 089-6582-024 089-6582-033 089-6582-029

Cast Iron N/A 089-6582-005 089-6582-008 N/A 089-6582-006

X-Tall

CS cover, aluminum base

N/A

089-6528-003 N/A

N/A

N/A N/A N/ACast aluminum 089-6582-025 089-6582-025

Cast Iron N/A 089-6578-001

7.1 Replacement Housing Kits ➀

.1.1 Referenced by eighth, ninth and tenth digit

7.1.2 Referenced by description

7.1.3 ATEX Housing Replacements

➀

Housing kits include o-rings and hardware. Baffle plate not included.

➁ Cover kit only. Housing base must be ordered separately by P/N 089-6505-003.

Eighth Digit Ninth Digit

Tenth Digit

E, G, Y, R P, Q S, T F, H, D, M A, B J, K, G V, W

B, C, D,

F, G, H, I, S

A, B, C, D, E

089-6509-003➁

089-6582-023 N/A

089-6510-003➁

089-6582-024 N/A N/A

K, L, M, N, O

089-6582-002 089-6582-023 089-6582-032 089-6582-005 089-6582-024 089-6582-033 089-6582-008

U, V, W, X, Y

089-6582-003 089-6582-028

N/A

089-6582-006 089-6582-029

N/A N/A

O, Q

A, B, C, D, E

N/A N/A

089-6528-003 089-6582-025

K, L, M, N, O

089-6578-001 089-6582-025

Housing

Material

Part Description

Short Tall

XP IS XP IS

Cast Alum

Cover 089-6582-035 089-6582-036 089-6582-037 089-6582-038

Base w/ 1" NPT conduit entry 089-6582-041 089-6582-043 089-6582-041 089-6582-043

Base w/ M20 ¥ 1.5 conduit entry

089-6582-040 089-6582-042 089-6582-040 089-6582-042

Cast Iron

Cover

C/FBase w/

⁄4" NPT conduit entry

Base w/ M20 ¥ 1.5 conduit entry

42-683 Electric Switch Mechanisms

8.0 Manual Reset Option

8.1 Parts Breakdown and Identification

Part No. 089-6507-001, on Boiler Controls Equipped

with Manual Reset (*denotes included in kit)

Fastening screw (or nut)

Clamp screw

Reset actuating assembly*

Switch cover

⁄4" Drilled hole

⁄8"

Switch assembly

Baffle plate assembly*

Reset plunger*

Nameplate and

serial number

Round head screw*

(Baffle Plate to Switch

Mechanism)

Figure 19

Housing Material

Enclosure

Type

9th Digit 10th Digit

3/4"

O-ring

Cover

Gasket

Baffle

Plate➂

Cover

Hardware

CS cover, aluminum base Type 4, 4X

A, B, C, D, E D, E, F, H, R, Y, M, G

012-2201-116

012-1318-001 036-5303-001 089-6508-001

Cast Iron

Type 7/9, 4X/7/9

K, L, M, N, O D, R, Y, M

012-2201-249 036-5303-001

N/A

Cast Iron Group B

K, L, M, N, O V, W

012-2201-222 005-6603-135

Cast Aluminum

Type 4X

A, B, C, D, E A, B, P, Q

012-2201-253 005-6657-001

Type 4X/7/9, 7/9

K, L, M, N, O A, B, P, Q

Group B

K, L, M, N, O J, K, S, T

ATEX XP

A, B, C, D, E, F, G

C, 9

ATEX IS

A, B, C, D, E S, T

Cast Iron ATEX XP

U, V, W, Y, 7 5, 7

N/A 012-1301-005 036-5303-001

7.2 Replacement Gaskets and Hardware

➂

For models with manual reset options, see page 23 for parts.

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Magnetrol Electric Switch Series B, C, D, F, O, Q, R, S, U, W, X, 8 and 9 Instrukcja obsługi

Marka: Magnetrol

Model: Electric Switch Series B, C, D, F, O, Q, R, S, U, W, X, 8 and 9

Typ: Instrukcja obsługi

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English: Magnetrol Electric Switch Series B, C, D, F, O, Q, R, S, U, W, X, 8 and 9 User manual

Magnetrol Electric Switch Series B, C, D, F, O, Q, R, S, U, W, X, 8 and 9 Instrukcja obsługi

Magnetrol Electric Switch Series B, C, D, F, O, Q, R, S, U, W, X, 8 and 9 Instrukcja obsługi

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