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mounting a rigid base (footed) motor vertically is the responsibility of
the installer.

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Most standard horizontal motors thru

449 Fr. (excluding brake motors) can be mounted in a vertical shaft
down orientation. For vertical brake motors see section 3.3.6.2.

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Hazardous locations motors must

be mounted

vertically shaft up without approval by the motor manufacturer.
Without proper retaining provisions the rotor may move axially and
contact components, creating a spark hazard.

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: The

following frame sizes / constructions with applied (axial) down
loads within the limit stated are acceptable when mounted vertical
shaft up.

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TEFC &

ODP

Steel

Yes

25 lbs

TEFC

Steel & Cast

Iron

Yes

25 lbs

140

ODP

Steel

Yes

25 lbs

TEFC

All

Yes

35 lbs

180

ODP

Steel

Yes

35 lbs

TEFC

All

Yes

40 lbs

210

ODP

Steel

Yes

40 lbs

TEFC

All

Yes

40 lbs

Steel

Yes

40 lbs

250

ODP

Cast Iron

N/A

320 TTFC

models

Cast Iron

Eng

N/A

All Other

TEFC

Cast Iron &

Aluminum

Yes

30 lbs

ODP

Cast Iron

N/A

280 320

TEFC &

ODP

Steel

Build Up

Only

N/A

TEFC

Cast Iron

Build Up

Only

N/A

ODP

Cast Iron

N/A

360 &

TEFC &

ODP

Steel

Build Up

Only

N/A

Notes:

For TEFC model numbers beginning with 324TTFC or 326TTFC

consult the motor manufacturer to determine if a build up motor
is required.

2 The max applied down load is any applied load external to the

motor, including such things as sheave weight, fan loads, axial
belt force, pump load, etc. If the application is direct drive with
no applied radial load, consult the motor manufacturer.

3 ”Build up only”, refers to motors that are specifically ordered

and built for shaft up applications. It does not imply that all build
up motors are suitable for shaft up applications.

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Do not connect or couple motor to load until correct rotational direction
is established.

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of the motor and

driven equipment minimizes vibration levels, maximizes bearing life,
and extends the overall life of the machinery. Consult the drive or
equipment manufacturer for more information.

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During assembly do NOT force components onto the shaft. Striking
or hammering the component may result in bearing damage.

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Use flexible couplings if possible.

For applications that apply radial, axial or moment loading on the
motor shaft see section 3.3.3.

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Unless approved by the motor manufacturer do

direct couple a

vertical shaft up or roller bearing motor. Direct coupling a vertical
shaft up motor or a motor with a roller bearing may result in bearing
damage.

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Radial

for

direct

connected equipment (gears, fans etc.) must be approved by the
motor manufacturer unless within the maximum overhung load limits
(Table 3 2). Combined loading (axial, radial and/or moments) must
be approved by motor manufacturer. For belted loads see section
3.3.4.

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! #

1 J

4 -

143T

106

166

193

210

145T

109

170

199

218

182T

187

230

261

287

184T

193

237

273

301

213T

319

317

470

510

215T

327

320

480

533

254T

500

631

729

793

256T

510

631

736

820

284T

866

990

1100

286T

871

1005

1107

324T

950

1100

1215

326T

950

1113

1230

364T

1078

1365

1515

365T

1078

1380

1540

404T

1388

1590

1762

405T

1400

1610

1780

444T

1580

1795

2005

445T

1520

1795

1985

447T

1455

1765

1985

449T

1640

1885

2130

Values based on 26,280 hrs B 10 Life
For “End of Shaft” Load multiply value by 0.88
To convert from lbf to N multiply value by 4.4482.

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The goal of any belted system is to efficiently transmit the required
torque while minimizing the loads on the bearings and shafts of the
motor and driven equipment. This can be accomplished by following
four basic guidelines:
1.

Use the largest practical sheave diameter.

Use the fewest number of belts possible.

Keep sheaves as close as possible to support bearings.

Tension the belts to the lowest tension that will still transmit the
required torque without slipping. It is normal for V belts to
squeal initially when line starting a motor

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In general, smaller sheaves produce greater shaft stress and shaft
deflection due to increased belt tension.

See Table 3 3 for

recommended minimum sheave diameters. Using larger sheaves
increases the contact with belts which reduces the number of belts
required. It also increases the belt speed, resulting in higher system
efficiencies.

When selecting sheaves, do not exceed the

manufacturer's recommended maximum belt speed, typically 6,500
feet per minute for cast iron sheaves. Determine belt speed by the
following formula: