external cage float actuated liquid level switches boiler controls installation and operating manual
read this manual before installing this manual provides information on the boiler controls external cage liquid level switches. 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 components 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. notice of copyright and limitations magnetrol, magnetrol logotype are registered trade- marks of magnetrol international. copyright ? 2010 magnetrol international. all rights reserved. performance specifications are effective with date of issue and are subject to change without notice. magnetrol reserves the right to make changes to the product 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 prod- ucts. 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. magnetrols 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.
46-630 boiler external cage liquid level switches table of contents 1.0 installation v0v b3wef6s3. 00000000000000000000000000000000000000000000000000000000000000001 v0d c;sbsfe a e;t ge3fbsu3 000000000000000000000000000000000000000000001 v0c tsws3. 000000000000000000000000000000000000000000000000000000000000000000000001 v01 wqebunn ce fi< nu; bus i; cu3b;u <00000000000000000000000000000o v0o que3bs3.000000000000000000000000000000000000000000000000000000000000000000o v0? ds;s3. 0000000000000000000000000000000000000000000000000000000000000000000000? 2.0 reference information d0v ei d0d aqiu;i un swi;ebsu30000000000000000000000000000000000000000000000000> d0c swi;ebs3. cif i 00000000000000000000000000000000000000000000000000000000l d01 wgsbfq esnni;i3bse ah7e ae3hit g ueb quhi < 000000000000000000000000000000000000000000000vd d0>0v m30d esnni;i3bse ah7e0c uiw efiti3b un g ueb e3h wbit a< 6.0 replacement parts ?0v wbe3he;h bus i; cu3b;u quhi < 00000000000000000000000000000dl ?0v0v te;b< mhi3bsnsfebsu3 000000000000000000000000000000000000000dl ?0v0d wgsbfq e3h lue 4 46-630 boiler external cage liquid level switches optional blow-down or drain valve shutoff valve (i f used) conduit outlet switch actuating level re ference mark optional li quid leg connection to vessel shutoff valve (i f used) figure 1 typical piping arrangement 1.0 installation caution: if equipment is used in a manner not specified by manufacturer, protection provided by equipment may be impaired. 1.1 unpacking unpack the instrument carefully. inspect all units for damage. report any concealed damage to carrier within 24 hours. check the contents against the packing slip and purchase order. check and record the serial number for future reference when ordering parts. caution: do not discard the shipping container until all parts are accounted for. 1.2 critical alarm function note: confirm that the installed unit meets the criteria of the intend- ed application. the most critical parameters are the pressure, temperature, and specific gravity. if there is a question or con- flict between actual parameters and the magnetrol switch nameplate, contact magnetrol for information on the level control (please have the serial number available). it is recommended that for critical alarm functions, an additional level switch be installed as a highChigh or lowClow level alarm for maximum protection. 1.3 piping an instruction tag secured to the control gives dimensional data on switch actuating levels referenced from center line of upper side tank connection. position control so that actuating levels correspond with the desired liquid level trip points in the boiler. caution: refer to boiler manufacturers specifications regarding control levels for piping alignment requirements. use pipe of sufficient strength to support the control. if necessary, provide a stand or hanger to help support its weight. all piping should be straight and free of low spots or pockets so that lower liquid line will drain towards the boiler and upper vapor line will drain toward the control. shut-off valves are recommended for installation between the boiler and the control. refer to figure 1. if control is to be used with a low temperature liquid (one which will boil in the float chamber if outside heat is absorbed),
46-630 boiler external cage liquid level switches 5 the chamber and piping should be insulated. such boiling in the chamber will cause false level indications. caution: do not insulate switch mechanism housing. for controls equipped with pneumatic switch assemblies, consult bulletin on mechanism furnished for air (or gas) piping instructions. see switch and housing reference, section 6.2.2. if the liquid to be controlled has a tendency to leave deposits in the piping, right angle turns should be made with cross type fittings equipped with plugs in unused openings. removal of plugs will permit pipe line to be rodded clean. blow-down connection on boiler installa- tions should be piped in such a manner that the operator will not scald himself when blowing down control. 1.4 shutoff valves for boiler controls when shutoffs are used in pipe connections between boiler and water column or boiler and shutoff valves (required for the gauge glass), they should be either outside-screw- and-yoke, level-lifting type gate valves, or stop cocks with levers permanently fastened; or another type through-flow shutoff valve that prevents blockage by sediment. shutoff valves should be locked or sealed in the open position. when stop cocks are used, they should be the type with the plug held in place by a guard or gland. 1.5 mounting caution: this instrument is intended for use in installation category ii , pollution degree 2 locations. controls used on boiler applications should be mounted as close to the boiler as possible. this will result in a more responsive and accurate level change in the control. water in a long line, will be cooler and more dense than the boil- er water, causing lower level indication in the control than actual level in the boiler. adjust piping as required to bring control to a vertical position. magnetrol controls must be mounted within 3 of vertical in all directions. a 3 slant is noticeable by eye, but installation should be checked with a spirit level on top and/or sides of float chamber. caution: never insulate the switch housing of the level control.
6 46-630 boiler external cage liquid level switches installation and maintenance of tandem float models are accomplished in much the same manner as described for standard models. additional consideration must be given to the piping arrangement to allow for alignment of the two switch actuating level marks on the float chamber with the desired levels in the vessel. caution: operation of all buoyancy type level devices should be done in such a way as to minimize the action of dynamic forces on the float or displacer sensing element. good practice for reducing the likelihood of damage to the con- trol is to equalize pressure across the device slowly. 1.6 wiring caution: all boiler controls are shipped from the factory with the enclosing tube tightened and the switch housing set screw locked to the enclosing tube. failure to loosen the set screw prior to repositioning the conduit connections may cause the enclosing tube to loosen, resulting in possible leakage of the process liquid or vapor. boiler controls are shipped with the conduit entry of the switch housing placed 180 opposite the tank connections to simplify most installations. if this configuration is appropriate to the installation, proceed to step 4 to begin wiring the unit. if another configuration is desired, the switch housing can be easily rotated by first following steps 1, 2, and 3. note: a switch or circuit breaker shall be installed in close proximity to equipment and within easy reach of operator. it shall be marked as the disconnecting device for equipment. 1. loosen set screw(s) at base of switch housing. refer to figure 2. 2. switch housing may be rotated 360 to allow correct positioning of conduit outlet. 3. tighten set screw(s) at base of switch housing. 4. unscrew and remove switch housing cover. the threads have been lubricated to facilitate removal. note: for supply connections, use wire with a minimum rating of +167 f (+75 c) as required by process conditions. use a minimum of 14 awg wire for power and ground field wires. note: housing must be grounded via protective ground screw in the base of the housing. note: on high temperature applications (above +250 f [+121 c] in float chamber), high temperature wire should be used between control and first junction box located in a cooler area. on non-hazardous applications, flexible conduit may be used between the control and the first junction box. 5. the switch terminals are located next to the conduit out- let to facilitate wiring. bring supply wires through conduit outlet. route extra wire around enclosing tube under the set screw screw screw figure 2 switch housing base set screws
46-630 boiler external cage liquid level switches 7 figure 3 placement of supply wires baffle plate. refer to figure 3. connect the supply wires to the proper terminals. refer to figure 4 or your switch bul- letin for this information. see switch and housing reference, section 6.2.2. 6. dress wiring to ensure no interference with actuation of switch, or replacement of switch housing cover. note: it is the responsibility of the customer to comply with applica- ble installation codes and practices. class i , division 1 loca- tions may contain explosive gas mixtures. appropriate pre- cautions must be taken. installation should be performed by qualified personnel. 7. replace housing cover. 8. if control has been furnished with an explosion proof or moisture proof switch housing, it must be sealed at the conduit outlet with a suitable compound or non-harden- ing sealant to prevent entrance of air. 9. test switch action by varying liquid level in float chamber. note: if switch mechanism fails to function properly, check vertical alignment of control housing and consult installation bulletin for additional wiring information on switch mechanism furnished. see switch and housing reference, section 6.2.2. 10. check cover to base fit to be certain gasketed joint is tight. a positive seal is necessary to prevent infiltration of moisture-laden air or corrosive gasses into switch housings. caution: in hazardous areas, do not power the unit until the conduit is sealed and the enclosure cover is screwed down securely. 2.0 reference information 2.1 description boiler controls are completely self-contained units, designed for side mounting to a vessel or tank with threaded or flanged pipe connections. 2.2 theory of operation the design of float operated level switches is based upon the principle that a magnetic field will not be affected by non-magnetic materials such as 316 stainless steel. in this case, the float moves a magnetic attraction sleeve within a non-magnetic enclosing tube and actuates a magnetic switch mechanism. the enclosing tube provides a pressure seal to the chamber and therefore to the process. baffle plate condui t entry switch mechanism run wires under baffle plate t o terminal block. terminal block assembly notches in b affle plate 1 2 3 4 5 6 internal circuit (right) switch load load close on high le vel common close on lo w level line internal circuit (lef t) switch load load close on high le vel common close on lo w level line figure 4 terminal connections dpdt switch mechanism series a, b, c, d, and e
8 46-630 boiler external cage liquid level switches 2.3 operating cycle as the liquid level rises in the chamber the float moves the magnetic attraction sleeve up, within 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, causing the switch to trip making or breaking an electrical circuit. refer to figure 5. as the liquid level falls, the float drops and moves the attraction sleeve out of the magnetic field, releasing the switch mechanism magnet. the tension spring ensures the return of the switch in a snap action. refer to figure 6. 2.4 switch differential adjustment the standard differential of boiler control float models with one switch (except models b24 and c24) may be field adjusted. adjustment may be necessary if a wider differential needs to be set to overcome switch chatter caused by the process. note: this procedure may be applied to single switch models only. the differential, or the amount of level travel between switch-on and switch-off, may be adjusted by repositioning the lower jam nuts on the float stem. this adjustment is different for high level and low level controls. please refer to the appropriate section below for adjustment instruc- tions. note: maximum differential adjustment is 1 inch. caution: differential adjustments should not be made in the field on tandem float models. switch actuation levels have been set at the factory to meet customer specifications. variations in actual conditions from design conditions, usually require special control modifications. consult the factory or your local representative for assistance. pivot tension spring magnet swing in position enclosing tube (non-magnetic) sleeve (magnetic) float normal operating level figure 5 swing in magnet position swing out position low level figure 6 swing out magnet position
46-630 boiler external cage liquid level switches 9 2.4.1 low level controls on low level controls the switch trips on the lower actuation point and resets on the higher actuation point. widening the differential will allow the switch to trip on the original actuation point and reset at a later or higher point. the differential on low level controls may be adjusted by repositioning the lower jam nuts on the float stem. the standard factory setting is for a minimum amount of play (gap) between the top jam nuts and the attraction sleeve. refer to figure 7. 1. determine what change in differential is necessary. note: to widen the differential by one inch, the lower jam nuts must be set proportionately lower on the stem (i.e., in this example by 1 inch). 2. make sure power source is turned off. 3. unscrew and remove switch housing cover. 4. disconnect power supply wires from switch mechanism. pull wires out of conduit connection opening in housing base. refer to figure 9 on page 10. 5. perform system shut-down procedures as required to relieve pressure from float chamber of control. allow unit to cool. 6. close shut-off valves (if so equipped) to isolate control from tank. drain off liquid in float chamber. 7. on installations without shut-off valves, relieve pressure from the tank. drain liquid in tank to a level below the connections of the float chamber. note: level control, connections and pipe lines need not be removed from the tank. 8. loosen enclosing tube nut with a 15 M 16 " wrench. unscrew enclosing tube counterclockwise (switch and housing base will rotate also), until it is free. refer to figure 9 on page 10. 9. lift enclosing tube, switch, and base off float chamber. jam nuts and attraction sleeve are now accessible. 10. measure the distance d from the top edge of the upper jam nuts to the top of the float stem. refer to figure 8. record this measurement. 11. loosen and remove upper jam nuts, guide washer and attraction sleeve. 12. loosen and adjust lower jam nuts to the desired position. tighten lower jam nuts securely. refer to figure 8. 13. replace attraction sleeve on stem. figure 8 differential adjustment figure 7 normal factory setting (minimum differential) for access to bottom jam nuts, remove top jam nuts, washer, and attracting sleeve s light pla y (gap) must be allowed (.03" [.8 mm] typical) p osition of bottom jam nuts (normal factory setting) float sleeve stop strap replace in same position drop bottom j am nu ts to increase g ap setting 1.00 (25 mm) max g ap setting (a pplies to models having a sin gle switch mechanism with a sin g le magnet actuator only) float sleev e stop strap d
10 46-630 boiler external cage liquid level switches 14. replace upper jam nuts and guide washer on the stem in the position previously noted. tighten upper jam nuts securely. refer to figure 8 on page 9. note: use a new enclosing tube gasket when reassembling enclos- ing tube to the chamber. make certain that all gasket surfaces are thoroughly cleaned to allow proper gasket seating. coat enclosing tube threads with anti-seizing compound. 15. replace enclosing tube, switch, and base on chamber. rotate e-tube clockwise until tightened to 200C225 foot-pounds of torque. 16. loosen the set screws at the base of the switch housing. rotate switch housing to correct position and tighten set screws. refer to figure 2 on page 6. caution: after increasing gap setting, be certain to check for proper operation of switch mechanism by raising and lowering float assembly. magnet must snap cleanly, with additional float movement available after magnet snaps. 17. bring supply wires through conduit outlet. follow steps 5 through 10 in wiring, section 1.6. 18. test switch action by varying liquid level in float chamber. note: if switch mechanism fails to function properly, check vertical alignment of control housing and consult installation bulletin on switch mechanism. if the unit still fails to function properly, consult the factory. 2.4.2 high level controls on high level controls, the switch trips on the higher actuation point and resets on the lower actuation point. caution: on high level controls, widening the differential requires raising the trip point a proportional amount. the reset point will remain the same. to widen the differential by raising the trip point, follow steps 1 through 16 in low level controls, section 2.4.1. 2.5 replacement of standard float and stem assembly 1. disconnect wiring or medium lines from control and per- form system shutdown. see low level controls, section 2.4.1, steps 2 through 7. 2. remove switch housing assembly from float chamber at head flange by loosening flange bolting. enclosing tube nut conduit connection switch h ousing cover chamber float enclosing tube refer to figures 6 and 7 housing base figure 9
46-630 boiler external cage liquid level switches 11 3. remove sleeve stop strap from the underside of the head flange and slide the float stem assembly out of the enclosing tube. note: new float and stem kits are supplied unassembled. for stan- dard jam nut settings (dimension a) refer to figure 10 and table 1. 4. check new float and stem assembly to be certain it is the correct replacement unit: 4.1 float should be of same physical size and shape. 4.2 stem length should match closely. 4.3 set attraction sleeve per dimension a as shown in figure 10. note: if differential adjustment has been altered in the field, disregard dimension a and readjust new assembly to the previously determined level differential settings. see switch differential adjustment, section 2.4. 5. replace new float and stem assembly into head flange and install new stop strap with screws included. 6. remount head flange on float chamber, using new gasket provided. tighten flange nuts evenly, using an alternating pattern typical of standard industry practice. note: care must be taken during installation to be certain float stem does not become bent. 7. with control assembly in place, test switch actuation by varying liquid level in float chamber. note: when reassembling the enclosing tube or the upper flange assembly to the control, tighten according to the following torque values in table 2. 0.03" minimum gap setting top jam nuts bottom jam nuts attraction sleeve enclo sing tube (ref.) sto p tube sleeve sto p strap retaining screws flo at and stem assembly head flange (ref.) dim. a figure 10 model a dimension b24, c24 0.75 (19) b25, c25 w24, w25, w29, w60 0.87 (22) table 1 table 2 model flange bolting enclosing tube b24, b25, c24, c25 w24, w25 35-40 ft-lbs 200-225 ft-lbs w29 55-60 ft-lbs w60 150-165 ft-lbs
12 46-630 boiler external cage liquid level switches chamber wall recess chamber projections b a try-cock openings chamber liner 2.6 replacement of chamber liner models b24, b25, w24, and w25 cast float cage level controls, specified for boiler water service, are equipped with self-cleaning brass liners to prevent scale growth in the chambers. since brass has a different coefficient of expansion than scale, any deposits that form will flake off the liners with temperature change and be removed during routine blow-down. brass liners are designed to snap into a special recess provided in the wall of the chambers. replacement liners are designed with a temper to spring out against chamber wall for secure positioning. 1. perform system shut down as required to relieve pressure from float chamber of control and allow unit to cool. caution: failure to disconnect electrical power to the unit during maintenance may result in shock or serious injury 2. disconnect wiring from supply side of switch mechanism(s) and remove electrical conduit of operating medium line connections to switch housing. 3. remove switch housing, along with float and stem assembly, by unbolting unit at head flange. note: old liners are nearly always damaged during removal. do not attempt to reuse old liner. 4. with old liner removed, scrape chamber walls thoroughly to remove all rust and scale deposits. note: new liner must fit snugly against chamber wall. any foreign particles between new liner and chamber will prevent a good fit. 5. check positioning of liner carefully before attempting to insert into chamber. 5.1. try-cock openings on certain water column models are equidistant from both top and bot- tom of recess in chamber wall, as indicated by reference dimensions a and b. refer to figure 11. if wrong end of liner is inserted first, try-cock openings will not line up with holes in liner. 5.2 liner should be rotated to correct position before inserting as it is best to avoid having to turn liner inside the chamber. 6. to install new liner, hold with both hands and carefully squeeze it to a diameter slightly less than the chamber opening, with edges overlapped slightly. 7. when properly inserted, liner will spring out to fit into recess of chamber wall. figure 11 chamber liner position
46-630 boiler external cage liquid level switches 13 8. check edges of liner, which were overlapped during instal- lation, to be certain they now butt firmly together over entire length of liner. 9. water column models have two projections into recess of chamber wall. projections must engage in notches provided in top and bottom of liner to prevent rotation while in service. caution: unless liner edges are butted entire length, holes aligned with chamber openings and ends engaged correctly in chamber wall recess, liner may prevent proper float oper- ation or obstruct water flow. 10. reassemble control and return to service in reverse order of steps 1 through 3. refer to table 2 on page 11 for flange bolting torque specifications.
14 46-630 boiler external cage liquid level switches 2.7 tandem float models models with tandem floats are used on applications where it is advantageous to have two widely spaced high and low switching functions using a single control. the units incorporate two floats which operate independ- ently, and are arranged so that the lower float actuates the upper switch mechanism, and the upper float actuates the lower switch mechanism. the upper float is attached to the lower attraction sleeve by means of a hollow stem. the lower float attaches to the upper attraction sleeve with a solid stem that extends upward, through the upper float and stem assembly. 2.7.1 installation, preventive maintenance, and troubleshooting installation and maintenance of tandem float models is accomplished in much the same manner as for standard models previously described. some additional considera- tion must be given to the piping arrangement to allow for alignment of the two switch actuating level marks on the float chamber with the desired levels in the vessel. when troubleshooting the level sensing portion of the control, additional checks may be made of the following: 1. inspect for binding of solid (lower) float stem within hollow (upper) float stem due to corrosion or possible damage incurred during shipment or blowdown. 2. make certain that retaining (snap) rings, used to locate lower attraction sleeve, are locked in place. an extreme shock or hammer, such as during blow-down on a water column boiler control, may damage a ring causing it to snap out of its retaining groove in the hollow (upper) float stem. 2.7.2 differential adjustment caution: no differential adjustment should be made on tandem float models in the field. switch actuation levels have been set at the factory to meet customer specifications. variations in actual conditions, from design conditions, usually require special control modifications. figure 12 typical tandem float control
46-630 boiler external cage liquid level switches 15 2.7.3 replacement of float and stem assemblies should replacement of either upper or lower float and stem assembly be required, s ee replacement of standard float and stem assembly, section 2.5. 1. new float and stem assemblies are available in separate replacement kits with attraction sleeve parts furnished loose, to allow for field assembly with existing serviceable components. see replacement parts, section 6.0 . 2. dimension a, shown in figure 13 must be determined by direct measurement from old assembly. note: disregard dimension a shown in table 1 on page 11. if in doubt, or unable to get an accurate measurement from old assembly, consult factory or local representative for assistance. 3. lower attraction sleeve locks in place on hollow (upper) float stem with external type snap rings. note: care must be taken to be certain rings are properly installed. if available, use the correct type external snap ring pliers. 3.0 troubleshooting usually the first indication of improper operation is failure of the controlled equipment to function (i.e., pump will not start (or stop), signal lamps fail to light, etc.). when these symptoms occur, whether at time of installation or during routine service thereafter, check the following potential external causes first. fuses may be blown. reset button(s) may need resetting. power switch may be open. controlled equipment may be faulty. wiring leading to control may be defective. if a thorough inspection of these possible conditions fails to locate the trouble, proceed next to a check of the control's switch mechanism. 0.03" minimum gap setting top jam nuts bottom jam nuts attraction sleeve enclo sing tube (ref.) sto p tube sleeve sto p strap retaining screws flo at and stem assembly head flange (ref.) dim. a figure 13
16 46-630 boiler external cage liquid level switches 3.1 check switch mechanism 1. pull switch or otherwise disconnect power to the control. 2. remove switch housing cover. 3. disconnect power wiring from switch assembly. 4. swing magnet assembly in and out by hand to check care- fully for any sign of binding. assembly should require minimal force to move it through its full swing. 5. if binding exists, magnet may be rubbing enclosing tube. if magnet is rubbing, loosen magnet clamp screw and shift magnet position. retighten magnet clamp screw. 6. if switch magnet assembly swings freely and mechanism still fails to actuate, check installation of control to be certain it is within the specified 3 of vertical. 7. check switch continuity with ohmmeter. if damaged, replace immediately. 8. if switch mechanism is operating satisfactorily, proceed to check sensing unit. note: as a matter of good practice spare switches should be kept on hand at all times. 3.2 check sensing unit 1. reconnect power supply and carefully, manually actuate switch mechanism (use a non-conductive tool on electrical switch mechanisms) to determine whether controlled equipment will operate. caution: with electrical power on, care should be taken to avoid contact with switch leads and connections at terminal block. 2. if controlled equipment responds to manual actuation test, trouble may be located in the level sensing portion of the control, float(s), stem(s), and magnetic attraction sleeve(s). 3. check to be certain liquid is entering float chamber. a valve may be closed or piping plugged. caution: be certain to pull disconnect switch or otherwise ensure that electrical circuit(s) through control is deactivated. close operating medium supply valve on controls equipped with pneumatic switch mechanisms. 4. disconnect wiring from supply side of switch mecha- nism(s) and remove electrical conduit or operating medium line connections to switch housing. 5. perform system shutdown to relieve pressure from float chamber of control, and allow unit to cool. optional blow-down or drain valve shutoff valve (i f used) conduit outlet switch actuating level re ference mark optional li qu id leg connec tion to vessel shutoff valve (i f used) figure 14
46-630 boiler external cage liquid level switches 17 6. close shutoff valves (if equipped) to isolate control from vessel. drain off liquid in chamber if necessary 7. on installations without shutoff valves, relieve pressure from vessel and drain off liquid head above control mounting level. note: control chamber, connections, and pipe lines need not be removed from vessel or boiler. 8. remove switch housing assembly by loosening enclosing tube hex nut, which is located immediately below housing base. refer to figure 9 on page 10. 9. with switch housing assembly removed, inspect attraction sleeve(s) and inside of enclosing tube for excessive corro- sion or solids buildup, which could restrict movement, preventing sleeve(s) from reaching field of switch magnet(s). 10. if differential has been changed in the field by reposition- ing the lower jam nuts on the float stem, check tightness and position of the jam nuts. 11. check float to be certain it is buoyant in the liquid (float chamber or vessel must have adequate liquid level). if float is determined to be filled with liquid, or it is collapsed, it must be replaced immediately. caution: do not attempt to repair a float. see replacement of standard float and stem assembly, section 2.5. if all components in the control are in operating condition, the trouble must be (and should be) located external to the control. repeat inspection of external conditions previously described. note: if difficulties are encountered which cannot be identified, consult the factory or your local representative for assistance. a complete description of the trouble should be provided along with information concerning your piping and mounting arrangement, plus a description of your operating sequence. sketches or photographs showing the installation are also beneficial. when communicating about your control, be certain to always specify the complete model and serial numbers.
18 46-630 boiler external cage liquid level switches 4.0 preventive maintenance periodic inspections are a necessary means to keep your level control in good working order. this control is a safety device to protect the valuable equipment it serves. therefore, a systematic program of preventive mainte- nance must be implemented when the control is placed into service. if the following sections on what to do and what to avoid are observed, your control will provide reliable protection of your equipment for many years. 4.1 what to do every 6 months (minimum) 4.1.1 switch corrosion inspection for every 6 months in service, conduct the following maintenance and inspection checks. note: for applications where the switches are exposed to corrosive environments this inspection should be conducted every 3 months. some environments may cause accelerated corrosion on the switch mechanism. in order to identify switch corro- sion prior to failure, use the following procedures: 1. disconnect power to the switch. 2. remove switch housing cover to inspect switch mecha- nisms for visible signs of corrosion on terminals and wires. note: if cover is difficult to remove, secure base to prevent it from moving while loosening it. loosen set screws securing the base to the enclosing tube prior to using a cross-bar or ham- mer to loosen cover. loosening the set screws will prevent the enclosing tube from loosening resulting in possible leaks. 3. switches should be inspected for excessive wear on actuat- ing lever or misalignment of adjustment screw at point of contact between screw and lever. such wear can cause false switch actuating levels. adjust switch mechanism to compensate (if possible) or replace switch.
46-630 boiler external cage liquid level switches 19 4. 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. check wiring carefully and replace at the first sign of brit- tle insulation. 5. vibration may sometimes cause terminal screws to work loose. check all terminal connections to be certain that screws are tight. 6. conduct a continuity test for switch contacts, using a low voltage dc circuit with an indicator. 7. switches that are corroded or that failed the contact conti- nuity test should be replaced. do not operate your con- trol with defective or maladjusted switch mechanisms (refer to bulletin on switch mechanisms furnished for service instructions.) 8. verify that switch housing cover and conduit seal are prop- erly closed after each inspection of the switch mecha- nism(s). note: in applications with presence of salt laden air or corrosive vapors, contact magnetrol for possible alternate switch mechanisms. 4.1.2 switch and wiring inspection the switch mechanism and supply wiring need to be in proper position to assure correct switch operation. 1. remove switch housing cover to inspect the supply wires. 2. check that the supply wires are attached to the terminal block and run under the baffle plate. be certain that excess wire does not interfere with the actuation of the switch and that adequate clearance exists for replacement of switch housing cover. 3. manually push on the magnet of the switch mechanism to confirm that the mechanism pivots freely. if it does not, the switch mechanism should be replaced. switch wires switch mechanism clamping screw snap switch adjustment screw terminal screws supply wires switch wires switch mechanism clamping screw terminal screws supply wires snap switch adjustment screw figure 16 figure 17
20 46-630 boiler external cage liquid level switches 4. make sure the switch mechanism is seated all the way down on the baffle plate. refer to figure 18. additionally, check that the mechanism clamping screw is tightened to assure that the mechanism is secured to the enclosing tube and in proper position on the baffle plate. refer to figure 19. the baffle plate should rest on the housing base casting hub. note: hs series switches use a cylindrical spacer in place of the baffle plate. refer to figure 20. 5. if the above wiring conditions are not met the unit should be rewired. proceed to step 6. 6. disconnect power to the switch. 7. the baffle plate is notched at the front and rear for control wires to pass through. control wires should enter through the conduit entry, pass under the baffle plate to the notch, then proceed through to the terminal block. refer to figure 3 on page 7. 8. control wires must not touch or interfere with the switch or the mechanism wires. refer to figures 16 and 17 on page 19 for wiring with two different terminal block con- figurations. 9. control wires should not touch moving parts in any way. 10. the control wires should be attached to the terminal block so that they run from the terminal block, down through the notch, and under the baffle plate. note: the control wires must not interfere with the switch mecha- nism movement. 11. connect power supply to the control and conduct functional test of unit as described below. 12. replace switch housing cover and place control into service. 4.1.3 functional test of unit this procedure will assure that the complete unit is functioning properly. this test should be conducted after switch and wiring inspections have been completed. 1. adjust piping as required to bring control to a vertical position. control must be mounted within 3 of vertical. installation should be checked with an indicating level on top or sides of float chamber. switch mechanism baffle plate housing base enclosing tube housin g base casting hub mechanism clamping screw hs switch mechanism switch spacer housing base enclosing tube switch washer housin g base casting hub figure 18 figure 20 figure 19
46-630 boiler external cage liquid level switches 21 2. check the chamber mounting within 3 of vertical after the boiler installation. 3. raise level in the vessel sufficient to raise the float and trip the switch. lower level in the vessel sufficient to lower float and reset the switch. confirm switch trips and resets at expected levels (contact magnetrol for specific informa- tion on trip points; please have the serial number of the unit readily available). 4.2 what to do every 12 months (minimum) 4.2.1 switch corrosion inspection for every 12 months in service, conduct the following maintenance and inspection checks in addition to cus- tomer specific or code requirements. note: for applications where the switches are exposed to corrosive environments this inspection should be conducted every 3 months. 1. disconnect power to the switch. 2. remove switch housing cover to inspect switch mecha- nisms for visible signs of corrosion on terminals and wires. note: if cover is difficult to remove, secure base to prevent it from moving while loosening it. loosen set screws securing the base to the enclosing tube prior to using a cross-bar or ham- mer to loosen cover. loosening the set screws will prevent the enclosing tube from loosening resulting in possible leaks. 3. switches should be inspected for excessive wear on actuat- ing lever or misalignment of adjustment screw at point of contact between screw and lever. such wear can cause false switch actuating levels. adjust switch mechanism to compensate (if possible) or replace switch.
22 46-630 boiler external cage liquid level switches 5. 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. check wiring carefully and replace at the first sign of brit- tle insulation. 6. vibration may sometimes cause terminal screws to work loose. check all terminal connections to be certain that screws are tight. refer to figure 21. 7. conduct a continuity test for switch contacts, using a low voltage dc circuit with an indicator. 8. switches that are corroded or that failed the contact continuity test should be replaced. do not operate your control with defective or maladjusted switch mechanisms (refer to bulletin on switch mechanisms furnished for serv- ice instructions.) 9. verify that switch housing cover and conduit seal are prop- erly closed after each inspection of the switch mechanism(s). note: in applications with presence of salt laden air or corrosive vapors, contact magnetrol for possible alternate switch mechanisms. 4.2.2 switch and wiring inspection the switch mechanism and supply wiring need to be in proper position to assure correct switch operation. 1. remove switch housing cover to inspect the supply wires. 2. check that the supply wires are attached to the terminal block and run under the baffle plate. refer to figure 3 on page 4. be certain that excess wire does not interfere with the actuation of the switch and that adequate clearance exists for replacement of switch housing cover. 3. manually push on the magnet of the switch mechanism to confirm that the mechanism pivots freely. if it does not, the switch mechanism should be replaced. 4. make sure the switch mechanism is seated down on the baffle plate. refer to figure 18 on page 20. additionally, check that the mechanism clamping screw is tightened to assure that the mechanism is secured to the enclosing tube and in proper position on the baffle plate. refer to figure 21. the baffle plate should rest on the housing base casting hub. note: hs series switches use a cylindrical spacer in place of the baffle plate. refer to figure 20. mechanism clamping screw terminal screws figure 21
46-630 boiler external cage liquid level switches 23 5. if the above wiring conditions are not met the unit should be rewired. proceed to step 6. 6. disconnect power to the switch. 7. the baffle plate is notched at the front and rear for control wires to pass through. control wires should enter through the conduit entry, pass under the baffle plate to the notch, then proceed through to the terminal block. refer to figure 3 on page 7. 8. control wires should not touch moving parts in any way. 9. the control wires should be attached to the terminal block so that they run from the terminal block, down through the notch, and under the baffle plate. note: the control wires must not interfere with the switch mecha- nism movement. 10. connect power supply to the control and conduct func- tional test of unit as described below. 11. replace switch housing cover and place control into service. 4.2.3 control head removal and installation when inspection of the chamber is required the control head must be removed to provide proper access to the chamber. this procedure will assure that the head assembly is removed and reinstalled properly. 1. allow vessel to get to safe temperature and pressure before opening the pressure boundary. 2. power down all wiring to the unit. 3. remove all wiring and conduit from the unit. 4. remove flange bolts. switch wires switch mechanism clamping screw snap switch adjustment screw terminal screws supply wires switch wires switch mechanism clamping screw terminal screws supply wires snap switch adjustment screw figure 22 figure 23
24 46-630 boiler external cage liquid level switches 5. prepare an area where the head assembly can be placed such that it rests on the flange in it's normal orientation (two 2 4 boards placed across an open drum work well). refer to figure 24. 6. carefully lift the head assembly by holding the sides of the flange. maintain the head assembly as much as possible in the vertical position. note: care must be taken not to place side force on the float which could bend the stem. 7. with the unit resting in its temporary fixture in an upright position, it can now be inspected or repaired. caution: do not place the unit on its side this could result in damage to the stem. 8. conduct a check for float stem straightness as follows: 8.1 remove the stem assembly including attraction sleeve from the head assembly by removing the two screws holding the stop strap to the bottom of the flange. refer to figure 13 on page 15 for assembly schematic. 8.2 check the stem straightness by aligning the stem against a straight edge. stems that are bent in excess of 1 M 8 inch over any 6-inch length should not be used in this condition. replace any bent stems. see replacement parts, section 6.0. figure 24
46-630 boiler external cage liquid level switches 25 8.3 ensure that the components in the stem assembly are in good condition and surfaces are clear of potential obstructions. the stem assembly is reinstalled by securing the stop strap to the flange. ensure that the attraction sleeve moves freely through the enclosing tube and that the stem assembly surfaces are smooth. note: care must be taken during the straightness check to be cer- tain that the attraction sleeve is not removed from the stem and jam nuts settings are not changed. 9. raise the liquid level in the container that the unit is set on sufficient to lift the float and trip the switch mecha- nism. inspect inside of chamber for any obstructions or scale buildup. if excessive buildup is present, the interval between inspections should be shortened. remove old gas- ket such that mating flange surfaces are completely clean. position new gasket on chamber flange before replacing the head assembly. note: the float is restricted from moving laterally by the chamber, in the test configuration the float and stem can move further off center than possible under normal operation. avoid excess movement in this lateral direction during the test. if switch trips, the unit may be reassembled. if not, follow the procedure in troubleshooting, section 3.0. 10. replace the assembly keeping it as vertical as possible. carefully lower the assembly into the chamber making sure that the stem does not become bent during installa- tion. refer to figure 24. 11. tighten flange bolts per torque values in table 2 on page 11. 12. attach wiring and connect power supply as described in switch and wiring inspection, section 4.2.2. 4.2.4 functional test of unit this procedure will assure that the complete unit is functioning properly. this test should be conducted after switch and wiring inspections have been completed. 1. adjust piping as required to bring control to a vertical position. control must be mounted within 3 of vertical. installation should be checked with an indicating level on top or sides of float chamber. 2. check the chamber mounting within 3 of vertical after the boiler installation. 3. raise level in the vessel sufficient to raise the float and trip the switch. lower level in the vessel sufficient to lower float and reset the switch. confirm switch trips and resets at expected levels (contact magnetrol for specific informa- tion on trip points; please have the serial number of the unit readily available). 0.03" minimum gap setting top jam nuts bottom jam nuts attraction sleeve enclo sing tube (ref.) sto p tube sleeve sto p strap retaining screws flo at and stem assembly head flange (ref.) dim. a figure 25
26 46-630 boiler external cage liquid level switches 5.1 agency approvals 5.0 specifications � dual stage units with hs or h1 switches are not atex approved. � iec installation instructions: the cable entry and closing devices shall be ex d certified suitable for the conditions of use and correctly installed. for ambient temperatures above +55 c or for process temperatures above +150 c, suitable heat resistant cables shall be used. heat extensions (between process connection and housing) shall never be insulated. special conditions for safe use: when the equipment is installed in process temperatures higher than +85 c the temperature classification must be reduced according to the following table as per iec60079-0. agency approved model approval classes fm all with an electric switch mechanism and a housing class i , div 1, groups c & d listed as type 4x/7/9 class ii , div 1, groups e, f & g all with an electric switch mechanism and a housing class i , div 1, groups b, c & d listed as type 4x/7/9 class i , div 1, group b class ii , div 1, groups e, f & g csa all with a series hs, h1, f, 8 or 9 electric switch class i , div 2, groups b, c & d mechanism and a housing listed as csa type 4x all with an electric switch mechanism and a housing class i , div 1, groups c & d listed as type 4x/7/9 class ii , div 1, groups e, f & g all with an electric switch mechanism and a housing class i , div 1, groups b, c & d listed as type 4x/7/9 class i , div 1, group b class ii , div 1, groups e, f & g atex / iec ex � all with an electric switch mechanism and an atex ii 2 g eex d ii c t6 atex housing � 94/9/ec iec ex ex d ii c t6 ip 66 ce low voltage directives 2006/95/ec installation category ii per harmonized standard: pollution degree 2 en 61010-1/1993 & amendment no. maximum process temperature temperature classification < 85 c t6 < 100 c t5 < 135 c t4 < 200 c t3 < 300 c t2 < 450 c t1 these units are in conformity with iecex kem 05.0020x classification ex d ii c t6 t ambient -40 c to +70 c
46-630 boiler external cage liquid level switches 27 5.2 physical k k s l g a i i j e b l n p r t m d c m gauge glass tappings plugged t ry cock tappings drum connections q hl ll #>34; ������ � !"$&'()* b24/c24 5.56 n/a 2.81 n/a n/a n/a n/a n/a 1" n/a 5.93 3.78 6.25 16.25 n/a n/a (141) (71) npt (150) (96) (158) (412) b25/c25 7.00 2.00 2.63 n/a n/a n/a n/a n/a 1" n/a 5.93 3.78 8.46 22.12 1 1 M 4 " n/a (177) (51) (66) npt (150) (96) (214) (561) npt w24 16.00 3.00 2.63 3.06 3.50 15.00 3.50 4.00 1 1 M 4 " 3 M 4 " 5.93 3.78 8.46 33.50 3 M 4 " 3 M 4 " (405) (76) (66) (77) (88) (381) (88) (101) npt npt (150) (96) (214) (850) npt npt w25 13.50 2.00 2.63 3.06 2.00 13.50 3.00 3.00 1" 1 M 2 " 5.93 3.78 8.46 28.62 1 1 M 4 " 1 M 2 " (343) (51) (66) (77) (51) (343) (76) (76) npt npt (150) (96) (214) (726) npt npt w29 15.00 4.50 2.83 2.88 4.50 15.00 3.50 4.00 1 1 M 4 " 3 M 4 " 5.93 3.78 8.46 33.50 3 M 4 " 3 M 4 " (381) (114) (71) (73) (114) (381) (88) (101) npt npt (150) (96) (214) (850) npt npt w60 15.00 4.19 3.61 3.66 4.19 15.00 3.50 4.00 1 1 M 4 " 3 M 4 " 5.93 3.78 8.46 34.37 3 M 4 " 3 M 4 " (381) (106) (91) (92) (106) (381) (88) (101) npt npt (150) (96) (214) (872) npt npt allow 10.00 (254) overhead clearance for cover removal. all housings rotatable 360 @ji[odn @jii]zndjim j electrical switches: nema 4x/7/9: 1" npt group b: 1" npt pneumatic switches: nema 1: 1 M 4 " npt low water cutoff point hl ll m n p q k k b c s a m r plugged #>34;a -
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� ll hl plugged m r n p q m k a c k #8= ) � � � #>34; �" "" �" "" b24/c24 0.69 1.56 0.94 1.69 (18) (40) (24) (42) b25/c25 3.69 4.50 4.13 4.88 (94) (114) (105) (124) w24 11.38 12.25 11.88 12.63 (289) (311) (302) (321) w25 9.44 10.25 9.88 10.63 (240) (260) (251) (270) w29 11.00 11.88 11.50 12.25 (279) (302) (292) (311) w60 10.50 11.06 11.19 11.69 (267) (281) (284) (297) :@rs:rflk ibtbip ) ,/(04,104 * single switch mechanism only. consult factory for multiple switches. levels are 0.25" (6 mm) inches (mm)
28 46-630 boiler external cage liquid level switches 1 housing cover 2 housing base 3 switch mechanism 4 enclosing tube 5 enclosing tube gasket 6 head flange 7 studs and bolts 8 hex nuts 9 flange gasket 10 float chamber 11 stop strap 12 screws 13 float and stem assembly 14 jam nuts 15 guide washer 16 attraction sleeve 17 stop tube 18 chamber liner 6.1.1 parts identification 13 12 6 8 5 15 14 4 1 3 16 2 17 6 9 11 10 18 9 7 10 series type bulletin# dry contact b, c, d 42-683 high temperature f, r, 8, 9 42-799 hermetically sealed hs 42-694 bleed type pneumatic j 42-685 non-bleed type pneumatic k 42-686 6.1.2 switch and housing reference important: when ordering, please specify: a. model and serial number of control. b. replacement assembly (kit) part number. 6.0 replacement parts 6.1 standard boiler control models
46-630 boiler external cage liquid level switches 29 6.1.3 models b24, c24, b25, and c25 � housing cover see at left see at left housing base see at left see at left switch mechanism see at left see at left enclosing tube kit 089-5933-001 089-5933-004 � includes items 4 and 5 enclosing tube gasket 012-1204-001 012-1204-001 head flange kit 089-4201-001 089-4202-001 includes items 5, 6, 7, 8, and 9 flange gasket 012-1301-003 012-1301-003 float chamber kit � 089-4601-001 089-4602-002 089-4602-001 includes items 7, 8, 9, 10, and 18 float and stem assembly 089-3201-001 089-3245-001 089-3202-001 � includes items 9, 11, 12, 13, 14, 15, 16, and 17 chamber liner � 005-5524-001 not required 005-5518-001 not required complete control 089-6564-003 089-6565-004 089-6565-003 � less float chamber (10), bolts (7), nuts (8), and liner (18) b24 � c24 b25 � c25 � 6.1.4 models w24, w25, w29 and w60 � housing cover see at left see at left housing base see at left see at left switch mechanism see at left see at left enclosing tube kit 089-5933-004 089-5933-004 includes items 4 and 5 enclosing tube gasket 012-1204-001 012-1204-001 head flange kit 089-4202-001 089-4203-001 089-4206-002 includes items 5, 6, 7, 8, and 9 flange gasket 012-1301-003 012-1301-025 012-1301-024 float chamber kit � 089-4608-001 089-4607-001 089-4609-001 089-4610-001 includes items 7, 8, 9, 10, and 18 float and stem assembly 089-3211-001 089-3210-001 089-3212-001 089-3213-001 includes items 9, 11, 12, 13, 14, 15, 16, and 17 chamber liner � 005-5520-001 005-5522-001 not required complete control 089-6566-005 089-6566-004 089-6566-006 not available less float chamber (10), bolts (7), nuts (8), and liner (18) w24 � w25 � w29 w60 notes: � all replacement assemblies listed are furnished in kit form for standard base models. consult local representative for ordering assistance on all special model replacement parts or accessories not included in above listing. model and serial numbers required. � cast float cage models used on boiler service require brass chamber liner. � consult factory for replacement parts for models with material of construction code -2.
30 46-630 boiler external cage liquid level switches 1 housing cover 2 housing base 3 switch mechanism 4 enclosing tube 5 enclosing tube gasket 6 head flange 7 studs and bolts 8 hex nuts 9 flange gasket 10 stop strap 11 screws 12 upper float and stem assembly 13 lower attraction sleeve 14 spacer washer 15 retaining ring 16 jam nuts 17 upper attraction sleeve 18 lower float and stem assembly 19 safety stop washer 20 float chamber 21 chamber liner (not shown) 6.2.1 parts identification important: when ordering, please specify: a. model and serial number of control. b. replacement assembly (kit) part number. 19 1 8 2 0 11 1 0 9 4 2 1 4 3 1 2 5 8 7 6 1 3 1 1 5 1 7 1 6 6.2 tandem boiler control models
46-630 boiler external cage liquid level switches 31 series type bulletin# dry contact b, c, d 42-683 high temperature f, r, 8, 9 42-799 hermetically sealed hs 42-694 bleed type pneumatic j 42-685 non-bleed type pneumatic k 42-686 6.2.2 switch and housing reference notes: � all replacement assemblies listed are furnished in kit form for standard base models. consult local representative for ordering assistance on all special model replacement parts or accessories not included in above listing. model and serial numbers required. � cast float cage models used on boiler service require brass chamber liner. � special order item. specify model and serial number when ordering. 6.2.3 models w24, w25, w29 and w60 � housing cover see above see above housing base see above see above switch mechanism see above see above enclosing tube kit 089-5909-001 089-5909-001 089-5933-004 includes items 4 and 5 enclosing tube gasket 012-1204-001 012-1204-001 head flange kit 089-4202-001 089-4203-001 089-4206-002 includes items 5, 6, 7, 8, and 9 flange gasket 012-1301-003 012-1301-025 012-1301-024 float chamber kit 089-4608-001 089-4607-001 089-4609-001 089-4610-001 includes items 7, 8, 9, 20, and 21 upper float and stem assembly 089-3225-001 089-3224-001 089-3217-001 see note � includes items 9, 10, 11, 12, 13, 14, and 15 lower float and stem assembly 089-3214-001 089-3216-001 see note � includes items 9, 16, 17, 18, and 19 chamber liner 005-5520-001 005-5522-001 not required w24 � w25 � w29 w60
32 46-630 boiler external cage liquid level switches max. � b24 & c24 only process nema 4x/7/9 aluminum enclosure � switch temp. set class i , div. 1, class i , div. 1, description f ( c) contacts points groups c & d group b spdt 1 bkp bkt series b 250 snap switch (121) dpdt 1 bnp bnt spdt 1 ckp ckt series c 450 snap switch (232) dpdt 1 cnp cnt series f spdt 1 fkp fkt hermetically sealed 750 snap switch (399) dpdt 1 fnp fnt model minimum maximum chamber attraction float trim max. wsp max. pressure try cock code s.g. wsp material sleeve material material rating @ 100 f (38 c) mounting b24-1b10 � 0.85 c24-1b10 � 250 psig cast iron � 400 series b25-1b10 � 0.84 ss 250 psi @ 406 f 400 psi c25-1b10 � 316l ss 316 ss (17 bar @ 207 c) (28 bar) n/a c25-2b10 � 0.84 250 psig cast iron � 316 ss w24-1b10 � 0.84 250 psig cast iron � 400 series right w25-1b10 � ss hand w29-1b10 0.84 300 psig 300 psi @ 422 f 500 psi fabricated 400 series 316l ss 316 ss (21 bar @ 217 c) (34 bar) left w60-1b10 0.75 600 psig steel ss 600 psi @ 489 f 900 psi hand (41 bar @ 254 c) (62 bar) 7.0 model numbers model number code, materials of construction and tank connection � process temperature based on +100 f (+38 c) ambient � uncontrolled housing heater or drain available in nema 4x/7/9. consult factory for standard part numbers. � consult factory for nema 4x/7/9 cast iron housings. consult factory for manual reset switches.
on steam and other condensing applications, temperature down- rated to +400 f (+204 c) process at +100 f (+38 c) ambient. electric switch mechanism and enclosure � � maximum maximum bleed orifice all except code switch description supply pressure process temp. diameter b24, c24 b24, c24 psig bar f c inches mm nema 1 nema 1 series j bleed type 100 7 400 204 .063 1.6 jde 60 4 400 204 .094 2.3 jee jeg series k non-bleed type 100 7 400 204 koe 40 3 400 204 kog kog pneumatic switch mechanism and enclosure � cast iron models limited to maximum service temperature of +406 f (+207 c) or switch mechanism temperature rating if lower. � saturated steam service rating � models b24, b25, w24, and w25 contain brass inner liners. � models c24 & c25 are intended for non-boiler service as they do not contain a chamber liner.
33 46-630 boiler external cage liquid level switches electric switch mechanism and enclosure � switch � description process � temperature range f (c) contacts set points all models except b24, c24 and c25-2b10 model c25-2b10 only type 4x/7/9 aluminum enclosure class i, div 1 groups c&d class i, div 1 group b atex ex ii 2 g eex d iic t6 class i, div 1 groups c&d class i, div 1 group b atex ex ii 2 g eex d iic t6 series b snap switch -40 to +250 (-40 to +121) spdt 1 bka bkj bcc bkb bkk bc9 2 bla blj bdc blb blk bd9 3 bma bmj bec bmb bmk be9 dpdt 1 bna bnj bfc bnb bnk bf9 2 boa boj bgc bob bok bg9 series c snap switch -40 to +450 (-40 to +232) spdt 1 cka ckj ccc ckb ckk cc9 2 cla clj cdc clb clk cd9 3 cma cmj cec cmb cmk ce9 dpdt 1 cna cnj cfc cnb cnk cf9 2 coa coj cgc cob cok cg9 series d dc current snap switch -40 to +250 (-40 to +121) spdt 1 n/a dkb dkk dc9 2 dlb dlk dd9 3 dmb dmk de9 dpdt 1 dnb dnk df9 2 dob dok dg9 series f hermetically sealed snap switch -50 to +750 (-46 to +399) spdt 1 fka fkj fcc fkb fkk fc9 2 fla flj fdc flb flk fd9 dpdt 1 fna fnj ffc fnb fnk ff9 2 foa foj fgc fob fok fg9 series hs hermetically sealed 5-amp snap switch with wiring leads -50 to +550 (-46 to +288) spdt 1 n/a hmj hmk n/a 2 hmn hmp dpdt 1 hms hmt 2 hmy hmz series hs hermetically sealed 5-amp snap switch with terminal block -50 to +550 (-46 to +288) spdt 1 n/a hm3 hm4 ha9 dpdt 1 hm7 hm8 hb9 series h1 hermetically sealed 1-amp snap switch with wiring leads -50 to +750 (-46 to +399) spdt 1 n/a hkj hkk n/a dpdt 2 hkn hkp series r high temperature snap switch -40 to +750 (-40 to +399) spdt 1 n/a rkb rkk rc9 2 rlb rlk rd9 dpdt 1 rnb rnk rf9 2 rob rok rg9 series 8 hermetically sealed snap switch -50 to +750 (-46 to +399) spdt 1 8ka 8kj 8cc 8kb 8kk 8c9 2 8la 8lj 8dc 8lb 8lk 8d9 3 8ma 8mj 8ec 8mb 8mk 8e9 dpdt 1 8na 8nj 8fc 8nb 8nk 8f9 2 8oa 8oj 8gc 8ob 8ok 8g9 series 9 high temperature hermetically sealed snap switch -50 to +750 (-46 to +399) spdt 1 9ka 9kj 9cc 9kb 9kk 9c9 2 9la 9lj 9dc 9lb 9lk 9d9 3 9ma 9mj 9ec 9mb 9mk 9e9 dpdt 1 9na 9nj 9fc 9nb 9nk 9f9 2 9oa 9oj 9gc 9ob 9ok 9g9 switch � description process � temp. range f (c) contacts set points cs/aluminum cast iron cs/aluminum cast iron nema 4x class i, div 1 groups c&d class i, div 1 group b nema 4x class i, div 1 groups c&d class i, div 1 group b series r high temperature snap switch -40 to +1000 (-40 to +538) spdt 1 n/a r1m rkm rkw 2 r3m rlm rlw dpdt 1 rdm rnm rnw 2 rem rom row series 9 high temperature hermetically sealed snap switch -50 to +1000 (-46 to +538) spdt 1 9ad 9kd 9kv 9am 9km 9kw 2 9bd 9ld 9lv 9bm 9lm 9lw 3 9cd 9md 9mv 9cm 9mm 9mw dpdt 1 9dd 9nd 9nv 9dm 9nm 9nw 2 9ed 9od 9ov 9em 9om 9ow
34 46-630 boiler external cage liquid level switches notes
46-630 boiler external cage liquid level switches 35 notes
bulletin: 46-630.2 effective: august 2010 supersedes: january 2009 5300 belmont road ? downers grove, illinois 60515-4499 ? 630-969-4000 ? fax 630-969-9489 ? www.magnetrol.com 145 jardin drive, units 1 & 2 ? concord, ontario canada l4k 1x7 ? 905-738-9600 ? fax 905-738-1306 heikensstraat 6 ? b 9240 zele, belgium ? 052 45.11.11 ? fax 052 45.09.93 regent business ctr., jubilee rd. ? burgess hill, sussex rh15 9tl u.k. ? 01444-871313 ? fax 01444-871317 copyright ? 2010 magnetrol international, incorporated. all rights reserved. printed in the usa. service policy owners of magnetrol may request the return of a control or any part of a control for complete rebuilding or replacement. they will be rebuilt or replaced promptly. controls returned under our service policy must be returned by prepaid transportation. magnetrol will repair or replace the control at no cost to the purchaser (or owner) other than transportation if: 1. returned within the warranty period; and 2. the factory inspection finds the cause of the claim to be covered under the warranty. if the trouble is the result of conditions beyond our con- trol; or, is not covered by the warranty, there will be charges for labor and the parts required to rebuild or replace the equipment. in some cases it may be expedient to ship replacement parts; or, in extreme cases a complete new control, to replace the original equipment before it is returned. if this is desired, notify the factory of both the model and serial numbers of the control to be replaced. in such cases, credit for the materials returned will be determined on the basis of the applicability of our warranty. no claims for misapplication, labor, direct or consequen- tial damage will be allowed. return material procedure so that we may efficiently process any materials that are returned, it is essential that a return material authorization (rma) number be obtained from the fac- tory, prior to the material's return. this is available through magnetrols local representative or by contacting the factory. please supply the following information: 1. company name 2. description of material 3. serial number 4. reason for return 5. application any unit that was used in a process must be properly cleaned in accordance with osha standards, before it is returned to the factory. a material safety data sheet (msds) must accompany material that was used in any media. all shipments returned to the factory must be by prepaid transportation. all replacements will be shipped f.o.b. factory. assured quality & service cost less
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