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PART 7

COMPONENTS

7.1

HOT SURFACE IGNITER (GLOW BAR)

The  silicon  carbide  igniter  is  inserted  directly  through  the
fan  flange  and  held  in  place  by  two  screws.  A  hold  down
bracket  as  well  as  sealing  gasket  above  and  below  the
igniter  assures  a  good  seal.  Care  must  be  taken  when
removing  and/or  installing  the  igniter  since  the  silicon
carbide element is brittle. Always remove the igniter prior to
removing the fan assembly for inspection of the burner and
heat exchanger. Properly prepared igniter will have a bead
of silicone sealing the end mounting bracket to the ceramic
shaft.

Figure 31: Hot Surface Igniter

During  trial  for  ignition  a  properly  operating  igniter  will
generate  a  minimum  3.2+/-0.2A  which  is  the  current
required for reliable ignition. It is recommended that the hot
surface  igniter  be  replaced every  4,000  hours of  appliance
operation to maintain peak ignition efficiency.

7.2

FLAME SENSOR

The flame sensor is inserted directly through the fan flange
and  is  screwed  into  the  fan  flange.  Care  must  be  taken,
when installing the flame sensor, to align it perpendicular to
the  fan  flange  and  parallel  to  the  burner  tube  and  not  to
over  tighten.  Always  remove  the  flame  sensor  prior  to
removing the fan assembly for inspection of the burner and
heat exchanger.

Figure 32: Flame Sensor

The ignition module relies on the flame sensor to provide a
flame  rectification  signal.  Oxide  deposits,  improper
placement  or  damaged  ceramic  insulator  will  result  in
insufficient  signal  leading  to  ignition  module  lock  out.  For
proper operation minimum 0.8Vdc must be fed back to the
module. Oxide deposit on the sensor rod must be removed
with  steel-wool.  Do  not  use  sand-paper  since  this  will
contaminate the surface.

7.3 COMBUSTION AIR FAN

Figure 33: Fan, Burner, Hot Surface Igniter and Flame

Sensor Arrangement

DynaFlame®  uses  a  sealed air  fan  to  provide  combustible
air/gas  mix  to  the  burner  and  push  the  products  of
combustion  through  the  heat  exchanger  and  venting
system. The fan assembly consists of a sealed housing and
fan  wheel  constructed from  spark  resistant  cast  aluminum.
The fan is operated by a fully enclosed 230 VAC, 3 Phase
electric motor. The fan housing and motor assembly is fully
sealed  and  SHOULD  NOT  be  field  serviced.  The  power
draw of the motor is proportional to the modulated gas input
rate of the appliance.

7.4

INNER JACKET

The  inner  jacket  assembly  is  constructed  from  a  special
corrosion  resistant  stainless  steel.  This  includes  both  the
primary  heat  exchanger  chamber  and  the  secondary  heat
exchanger  chamber.  All  screws  and  fasteners  used  for
assembly

of the inner jacket and secondary heat exchanger

chamber are also stainless steel.

DO  NOT  mix  stainless  steel  and  standard  plated
fasteners  when  disassembling  and  reassembling  the
inner  jacket  sheet  metal  components.  Standard  plated
fasteners  will  be  damaged  by  the  flue  product
condensate when used on the inner jacket assemblies.

7.5

OUTER JACKET

The outer jacket assembly  is constructed from mirror finish
stainless  Steel.  This  ensures  a  long  life  for  the  jacket
assembly, with full integrity

7.6

VENTING TRANSITION

All  appliances  are  shipped  with  a  rectangular  to  round
stainless  steel  adapter.  Depending  on  the  appliance
category  an  increaser  will  be  required  for  the  proper  vent
configuration.  Please  refer  to  Table  5  dimensions  and
specifications.

When installing Category II or IV appliances care must be
taken to properly seal all joints and provide slope for
drainage of condensate.