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SSuurrggee

CCAAUUTTIIOONN:: DDoo nnoott ooppeerraattee bblloowweerr iinn ssuurrggee ((uunnssttaabbllee llooww

ffllooww rraannggee)).. DDaammaaggee ttoo bblloo wweerr cc aauusseedd bbyy ooppeerraattiinngg iinn

ssuurrggee iiss nnoott ccoovveerreedd bbyy SSppeenncceerr wwaarrrraannttyy..

A bl

ower in surge produces a rush or pulsating rhythmic air

sound caused when airflow into or out of the blower is restricted.

In addition to its characteristic noise, surge may be detected by

power or pressure fluctuations. Surge is destructive because it

is accompanied by excessive temperatures and aerodynamic

forces that will ultimately cause mechanical failure. A surge condi-

tion is simply eliminated by increasing the airflow either into the

system or to a bypass or vent. Various surge control devices

are also available from Spencer—see page 5.

NOTE: If a blower surges violently at startup, avoid recurrences

by leaving the throttling valve open at or near its normal operating

position.

NNoorrmmaall OOppeerraattiinngg LLiimmiittss

NOTE: Use of a Spencer bearing temperature monitor and

vibration monitor is recommended to alert personnel to blower

operation outside the following limits.

• Vibration should not exceed 1.5 mils @ 3500 rpm, 1.8 mils @

2900 rpm or 3.0 mils @ 1750 rpm at each bearing housing.

All of these speeds have a velocity limit of 0.275 in/sec.

• Follow the motor manufacturerʼs recommendations for maxi-

mum motor bearing and winding temperatures.

• Blower bearing temperatures should not exceed the following

values at the bearing housing surface.

SSeerriieess IInnlleett EEnndd DDiisscchhaarrggee EEnndd

°°FF ((°°CC)) °°FF ((°°CC))

OH 150 (66) 150 (66)

4BOB 165 (74) 150 (66)

If abnormal operation is detected, shut the blower down and

refer to the Troubleshooting Guide in the back of this manual or

contact Spencer.

PPeerriiooddiicc OOppeerraattiioonn

CCAAUUTTIIOONN:: AAllll bblloowweerrss sshhoouulldd bbee ooppeerraatteedd ppeerriiooddiiccaallllyy..

multiple blower installations, periodically rotate each blower

from standby to operating status.

PPaarraalllleell IInnssttaallllaattiioonn

CCAAUUTTIIOONN:: AA cchheecckk vvaallvvee mmuusstt bbee iinnssttaalllleedd iinn tthhee ddiisscchhaarrggee

lliinnee ooff eeaacchh bblloowweerr oorr iinnlleett ooff eeaacc

hh vvaaccuuuumm pprroodduucceerr ooppeerr--

aattiinngg iinn ppaarraalllleell ttoo pprreevveenntt rreevveerrssee ffllooww tthhrroouugghh iiddllee uunniittss..

CCAAUUTTIIOONN:: DDoo nnoott ooppeerraattee cceennttrriiffuuggaall bblloowweerrss iinn ppaarraalllleell

wwiitthh ppoossiittiivvee ddiissppllaacceemmeenntt bblloowweerrss.. SSuucchh ooppeerraattiioonn mmaayy

ddaammaaggee tthhee cceennttrriiffuuggaall bblloowweerrss aanndd wwiillll vvooiidd tthhee wwaarrrraannttyy..

When operating two

or more blowers in parallel (typically identical

blowers), each must carry its share of the load. The current

readings of all motors should be approximately the same. It

may be necessary to adjust the individual throttling valve stops

to attain similar readings.

VVIIII.. LLuubbrriiccaattiioonn

WWAARRNNIINNGG:: DDIISSCCOONNNNEECCTT AANNDD LLOOCCKK OOUUTT EELLEECCTTRRIICCAALL

PPOOWWEERR BBEEFFOORREE PPEERRFFOORRMMIINNGG LLUUBBRRIICCAATTIIOONN..

MMoottoorr BBeeaarriinnggss

Follow the motor manufacturerʼs recommendations. Some

motors are equipped with sealed bearings not intended for

relubrication; these motors have no grease or drain plugs.

BBlloowweerr BBeeaarriinnggss ((44BBOOHH && 44BBOOBB))

4BOH and 4BOB blowers are equipped with deep-groove ball

bearings designed to carry the thrust and radial loads. These

bearings are packed at the factory with sufficient grease for

1500 to 8000 hours of continuous operation prior to relubrication.

Lubrication prior to blower operation is not recommended and

should not be attempted.

If, however, the blower has been stored for three months or longer,

remove the bearing caps and check for moisture or hard grease.

Discard any hard or dry grease and relubricate if necessary.

An average lubrication interval should be established based on

existing conditions. Several factors affect the frequency of

lubrication:

1. Operating temperature of the bearing

2. Indoor or outdoor blower location

3. Clean or dusty conditions

4. Ambient temperature

5. Predicted duty cycle

6. Bearing size and speed

Under actual operating conditions, the ideal lubrication interval

of 8000 hours should be adjusted according to the following

table.

NOTE: The higher limit of each range shown is for small bearings

(#308 and smaller); the lower limit is for large sizes. This table

is only a guide. An extremely dirty atmosphere could decrease

the lubrication interval as much as 50%.

OOppeerraattiinngg CCoonnddiittiioonn LLuubbrriiccaattiioonn IInntteerrvvaa

1. 120—150°F bearing temp. 4000—6000 hours

2. Indoor installation

3. Clean atmosphere

4. 40—100°F ambient temp.

5. Continuous operation

II Same conditions as I except 6000—8000 hours

intermittent operation

Ill 1. 120—155°F bearing temp. 3000—5000 hours

2. Outdoor installation

3. All atmospheres

4. 0—104°F ambient temp.

5. Continuous operation

IV Same conditions as Ill except 5000—7000 hours

intermittent operation