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9600 CB & HWG Service Manual

Page 13

Boiling noises can occur because of air in the

secondary loop of a heating system (9600 CB
applications) or because of pump failures in either the
9600 CB or 9600 HWG.

Another boiling noise which occurs primarily on

9600 HWG units can result from liming of the primary
heat exchanger. This noise is more pronounced and
may occur at any temperature. If the pump appears to
be operating properly and the unit continues to run
normally except for the knocking sound then liming
should be suspected and the unit should be de-limed
according to the “Routine De-liming Procedure”. If the
knocking is very sever, de-liming may not stop the
noise and the primary heat exchanger will need to be
replaced.

The knocking sound may also exist on 9600 CB

and 9600 HWG units for a very short time followed by
a safety limit trip out. The generally results from total
pump failure (impeller sheared off or motor not
running at all).

1V. Short Cycling

There are two different types of short cycling

1.

System related

2.

Combustion related

The most common cause of system related short

cycling is boiler oversizing (9600 CB). Because the
9600 CB is a low mass boiler with high output it will
short cycle if system load or water flow are insufficient
to accept all of its output. This situation may also
occur with a properly sized boiler when it is installed in
a zoned system and one or more of the zones are very
small. If a small zone causes the problem then it may
be necessary to only allow that zone to
operate when another zone is calling.
This can be accomplished without
repiping in a zone valve system by disconnection the
end switch wire from
the zone valve which controls the small zone(s). If the
boiler is oversized, cycle
time may be reduced by reducing the
boiler input. An orifice kit is available to reduce input
from 200,00 BTU/HR to 150,000 BTU/HR or
175,000 BTU/HR.

System related short cycling can also occur on

9600 HWG Units. It results from very high aquastat
settings on the storage tank. Settings higher than 160°-
170°F (71°-77°C) should be suspected of being the
cause. Many times tank aquastats are set high to
compensate for an undersized system. If they are set
too high and the unit short cycles then the output from
the system will actually be reduced.

Combustion related short cycling occurs when the

burner is incorrectly adjusted. Lean mixtures (low
CO2 or high O2) cause the boiler control to lose the
flame signal. The control then causes a restart and if

the flame signal is sensed on the restart then the
burner will operate again. The intermittent sending and
losing of the flame signal by the boiler control causes it
to short cycle the burner. If combustion related short
cycling is suspected refer to “Checking Combustion”.

1W. Lock Outs (& Trip Outs)

The principal cause of nuisance lockouts are

1.

moisture in the combustion chamber

2.

poor combustion

3.

igniter failure

4.

short cycling

Safety limit trip outs are generally caused by low

flow or recirculation in the primary heat exchanger.

Moisture in the combustion chamber can be

caused by a failure of the thermostatic element in the
diverting valve. If the element fails in the full open
position, it will cause the primary heat exchanger to
operate in the condensing mode by allowing low outlet
temperatures. This condition should be suspected if
boiler outlet temperatures are consistently below 160°F
(71°C). The moisture causes a loss in flame sensing
and the boiler control will shut the unit down.

Poor combustion may cause a boiler control

lockout by transmitting a very weak flame signal to the
boiler control. The boiler control senses a flame using
the flame recertification principle. This principle
utilizes the fact that a flame is not only conductive but
it converts AC voltages to DC. The igniter which
becomes a flame sensor after it is deenergized as an
igniter has an AC voltage applied to it by the control.
If a flame exists the AC is converted to DC and
conducted to ground through the burner or the primary
heat exchanger.

Since natural gas or LP are neither conductive

nor capable or rectifying an AC voltage to DC, the
burner control can determine if a flame exists or not by
the presence of DC or AC current. Poor combustion
can make this decision difficult because of poor
conductivity. There are many causes for poor
combustion. Incorrect burner adjustment is the most
obvious, however, a blocked condensate drain or an
improper flue installation can cause a restriction in the
flue which will cause poor combustion. If there is a
restriction in the flue from condensate or rain water
buildup a gurgling sound can be heard at the vent
terminal.

Igniter failure may also cause a nuisance lockout

but not very often. If igniter failure is the cause there
probably will be an indication of overheating in the
igniter area resulting from gasket failure.

Short cycling may cause either burner control

lockouts or tripouts of the manual reset safety limit.
Generally it will be tripouts, however, in some
instances a lockout will occur and the boiler control

Summary of Contents for HWG-M2-250

Page 1: ...r installation and or operation will void the warranty WARNING If the information in this manual is not followed exactly a fire or explosion may result causing property damage personal injury or loss...

Page 2: ...h 10 1G BoilerControl 10 1H Stack Switch 11 1I Igniter 11 1J Transformer 11 1K Unit Pump 11 1L Blower 11 1M GasValve 11 1N TimeDelayRelay TDR 11 1O OperatingControl 11 1P VentTCO 12 1Q IntakeTCO 12 1R...

Page 3: ...ondensation temperature of the water vapor in the flue gases A circulator is built into the unit to provide enough head to circulate water through the H X s and to a secondary heating loop or separate...

Page 4: ...pical D Combustion Coil Outlet E Hot Water Outlet To Tank or System 160 170 F Typical 160 FTHERMOSTAT Figure 2a Water Flow through a Heatmaker 9600 HWG Before S N 394 068 CB Before S N 795 0014 THERMO...

Page 5: ...urner 8 Secondary Heat Exchanger 9 Primary Heat Exchanger 10 Return From Primary Loop 11 Gas Valve 12 Flow To Primary Loop A Secondary Heat Exchanger Inlet B Secondary Heat Exchanger Outlet C Primary...

Page 6: ...ow Through Heatmaker 9600 43 INTAKE TERMINAL 50 WALL PLATE AIR INTAKE 45 WALL PLATE 44 EXHAUST TERMINAL EXHAUST AIR ORIFICE GAS ORIFICE GAS 1 COMBUSTION COIL 2 ECONOMIZER 7 FLAMEHOLDER 46 EXHAUST ASSE...

Page 7: ...9600 CB HWG Service Manual Page 7 Figure 4 Cut Away View of Heatmaker 9600 Figure 5 Control Box...

Page 8: ...nd input desired Part Description Part 23 Jacket Front Removeable 10 402 24 Jacket Top 10 406 25 Jacket Bottom 10 010 26 Control Boiler Integrated 2400 224 27 Transformer 40 VA 2400 006 28 Time Delay...

Page 9: ...minal and at least 6 152mm into the flue pipe The unit must operate for 5 minutes before taking a sample Take a sample and determine the CO2 or O2 CO2 8 to 8 5 natural gas O2 7 to 6 CO2 9 to 9 8 propa...

Page 10: ...ostatically controlled device which keeps the primary heat exchanger H X from operating in the condensing mode When return water from the storage tank or the system is below 130 F 54 C the diverting v...

Page 11: ...d unplug the power wires from the blower motor Disconnect intake exhaust vents and remove top jacket Remove the six bolts and nuts from the blower discharge flange and the four nuts from the blower in...

Page 12: ...n the gas valve The gas supply to the boiler must be shut off before making this connection The Heatmaker boiler is designed to operate with supply pressures of 4 14 in W C 8 1 oz in2 with the boiler...

Page 13: ...se the flame signal The control then causes a restart and if the flame signal is sensed on the restart then the burner will operate again The intermittent sending and losing of the flame signal by the...

Page 14: ...solution is no longer foamy 7 Shut off pump and disconnect from hose Carefully drain solution from hoses and connect city water to lower hose to flush combustion coil Flush for approximately 5 minutes...

Page 15: ...on and no indicator lights are flashing check for an open vent TCO operating control or safety limit switch For additionaltroubleshootinginformationrefertothe trouble shooting flow charts on the page...

Page 16: ...VOLTAGE 120 VAC BETWEEN BLACK AND WHITE WIRES AT BACK OF 120 VAC CONNECTORON BOILERCONTROL DIDBOILERRUNTHROUGHA COMPLETE CYCLE AS DE SCRIBED IN SEQUENCE OF EVENTS PAGE 20 TESTLIMIT CIRCUIT PAGE 17 PUM...

Page 17: ...OHMSCALE CONTINUITY CONTINUITY CONTINUITY NOCONTINUITY OHMS NOCONTINUITY TESTING LIMIT CIRCUIT YOU MUST COMPLETE PAGE 16 FIRST NOTE AFTER COMPLETEING LIMIT CIRCUIT TESTING PLUG IN CONTROL PLUG AND REC...

Page 18: ...EAVESETC AGAINST VENTTERMINAL CYCLE BOILER MANY TIMES TO TRY TO CREATE A MALFUNCTION CLEAR BLOCKAGE AND RECYCLEBOILER CHECKSTACKSWITCH BLOCKAGE EXISTS NO BLOCKAGE NO YES YES NO RED PURGE LIGHT FLASHIN...

Page 19: ...TSTACKSWITCH TUBES AND CHECK FOR CONTINUITYBETWEENSTACK SWITCHTERMINALSWITH BLOWEROPERATING CHECKFORVENTOBSTRUCTIONS CLEAROBSTRUCTIONS RECONNECTTUBES ELEC TRICALWIRESTOSTACK SWITCH START BOILER RUN TH...

Page 20: ...SSURETAP ON GAS VALVE PRESSURE DURING BLOWER OPERATIONWITHOUTGASFLOW VALVE FLAME LIGHT NOT LIT IS 4 IN W C CHECK FOR VOLTAGE 120 VAC ATBLOWERWIRECONNECTOR WITHIN5MINS AFTERGREEN LIGHT BLOWER O K REPLA...

Page 21: ...G LITE CHECKCOMBUSTION CHECKIGNITER IGNITEROK CHECK FOR GAS FLOW IS METER MOVING REPLACE IGNITER REPLACEINTEGRATEDBOILERCONTROLP N2400 224 INSTALL CORRECT ORIFICES BOILERCYCLESTHROUGHTHREECYCLESAFTER...

Page 22: ...L PLUG CN6 THERE IS 120 VAC AT CIRCULATOR PLUG CN5 TURNUPT STATORAQUASTATOR CORRECTSTATPROBLEM NO YES NO YES SEETROUBLESHOOTING CHART PAGE 16 THERE IS 120 VAC AT PUMP REPLACEBOILER CONTROLP N2400 224...

Page 23: ...23 Figure 9 9600 Ladder Diagram Figure 10 9600 Wiring Diagram Caution Label all wires prior to disconnection when servicing controls Wiring errors can cause improper and dangerous operation Verify pr...

Page 24: ...sure of 9 3 Remove blower and inspect flameholder burner for hole 4 Check that the blower flanges and gas piping are sealed D OCCASIONAL LOCKOUTS Requires interruption of power to re start or reset of...

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