Preparing the unit, Unpacking, Unit installation – Winco 2FS Generators 2000 Watt Belt Drive User Manual

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2095-0

60706-230

PREPARING THE UNIT

UNPACKING

CAUTION: EQUIPMENT DAMAGE

When you unpack your new generator be sure to

remove all the information sheets and manuals from

the carton.

. This generator was in good order when shipped.

Inspect the generator-set promptly after receiving

it. If any damage is noted, notify the transportation

company immediately; request proper procedures

for filing a “concealed damage” claim. Title to the

equipment and responsibility for filing a claim rests

with you when a generator-set is sent F.O.B. ship-

ping point. Only you can legally file a claim.

2. Before proceeding with the preparations of

your new generator for operation, take a couple of

minutes to insure the unit you have received is the

correct model and review the specification pages in

this manual to insure that this unit meets your job

requirements.

UNIT INSTALLATION

CAUTION: EQUIPMENT DAMAGE

Before proceeding with the installation, be sure

that you have completely read and understood the

assembly and installation instructions.

An engine with adequate horsepower and a close

regulated (fixed speed) governor is required for sat-

isfactory operation of this generator.

About .4 horsepower is required to produce each

,000 watts of generator output power assuming

100% efficiency of both the engine and the genera-

tor. However, due to engine and generator efficien-

cies of 80 to 90%, the loss of power due to engine

driving accessories such as cooling fans, battery

charging alternators, etc., friction losses and slip-

page in the drive pulleys and belts, the general

conservative rule of thumb allowing approximately

two (2) horsepower for every ,000 watts of genera-

tor output is much more realistic. For example, this

2,000 watt generator output will require a 4 or 5 H.P.

engine for full output, good speed/voltage regulation,

and satisfactory load performance. When determin-

ing the prime mover/generator pulley ratio to drive

the generator at the correct operating speed, bear

in mind that the power rating of most prime mov-

ers (usually an engine) varies with the speed. It

produces more power at higher speeds, less when

slowed. The prime mover must be run fast enough

to reach the desired horsepower for good generator

operation.

The drive belt system must be of adequate size and

must be tight enough to power the generator without

slippage. Be careful not to overtighten to the extent

that it puts excessive strain on the bearings. Do-

ing so can cause bearing failure and other possible

damage to the generator.

Alignment of the generator to the prime mover is

important. Misalignment of the pulleys will cause ex-

cessive belt and pulley wear and unnecessary stress

on the prime mover.

The following table shows the effect of various op-

erating speeds and electrical loads on a typical gen-

erator when matched and mounted to an adequate

prime mover.

Although individual units and models may vary

slightly, the normal voltage and frequency of typical

60 cycle engine-driven generators described in this

manual are approximately as follows when powered

by a typical prime mover (engine) run first with no

load applied, then at half the generator capacity and

finally when loaded to its full capacity as rated on the

nameplate.

LOAD VS. OUTPUT

Generator

Load Applied*

Speed

(RPM)

Fre-

quency

(Hz)

Voltage

(Cold)

None

3690

61.5

129V

Half

3600

60.0

120V

Full

3510

58.5

115V

* NOTE: Required generator speed must be main-

tained at 3600 +/- 90 RPM under all load conditions.

All engines have a tendency to slow down when

a load is applied. The governor on the engine is

designed to hold the engine speed nearly constant.

When the electrical load connected to the genera-

tor is increased, the engine is more heavily loaded

and as a result the speed drops slightly. This slight

decrease in speed together with the natural “voltage

drop” within the generator itself due to load current

and heating of the windings, results in a slightly

lower voltage than when the generator is running

idle.