Bodine Electric Gearmotor Blog

How to Select and Size Gearmotors for Conveyor Applications

This post provides step-by-step instructions for how to size and select a gearmotor in a belt-driven conveyor application. Before sizing a gearmotor, we must first know the application requirements.

For our example, the conveyor system requirements are as follows:

Industrial automation system with belt conveyor.

Now we must translate these requirements into gearmotor specifications. First, we will determine the required speed and torque, then we review the gearmotor options that best fit with our conveyor specifications, and  last, we select a stock gearmotor and drive.

Belt conveyor with a Bodine 42A-FX PMDC gearmotor and WPM DC motor speed control.

Step 1: Determine speed and torque

In order to size a gearmotor, we need to identify:

Note: TACCEL may be ignored unless acceleration time is critical. TACCEL and TGRAVITY can be calculated using the equations in this paper. TFRICTION and TBREAKAWAY will have to be measured using one of the methods described in this paper. TBREAKAWAY is only a factor during starting. TFRICTION and TGRAVITY will be used to determine continuous torque (TCONT). TGRAVITY is only considered when the belt is not mounted horizontally.

Step 1: Determine speed and torque, contd…

A.    Speed

Equation 1:       N = (9.55 • VLoad ) / r

Where 9.55 has the units sec-rev/min.  From the given system requirements, we know VLoad = 12 in/sec and r = 2 in, therefore N = 57.3RPM.


TACCEL may be ignored unless acceleration time is critical. It will be used in determining if the selected gearmotor has adequate starting capability.

Equation 2:

We know that WLOAD = 200 lbs. x 16 oz/lb. = 3,200 oz., VLOAD = 12 in/sec., ta= 1 sec., r = 2 in. and we will assume that

JMOTOR = WROLLER = WBELT = 0 for our initial calculation. Therefore, TACCEL = 199 oz-in.


The friction torque (TFRICTION) can be estimated through measurements as described in the “Test Motor Method” on page 4 of the PDF or at the end of this blog post.  For our example, we will assume the measured TFRICTION = 100 oz-in.


The reflected breakaway torque can be estimated through measurements as described in the “Spring and Pulley Method”, the “Torque Wrench Method”, or the “Test Motor Method” on page 4 of the PDF or at the end of this blog post.

For our example, we will assume the measured  TBREAKAWAY = 120 oz-in.


Gravity torque only needs to be considered when the belt is not mounted horizontally. It is a positive number when the load is moved upward, and a negative number when the load is moved downward.

Equation 3:        TGRAVITY (oz-in.) = r WLOAD sin φ

In our example, the conveyor is not inclined, therefore  φ= 0°, which means that TGRAVITY = 0.

F.    TCONT  and  HPCONT

Now we can calculated the continuous torque required for the application. This will be the torque value we will use to determine the continuous horsepower required, and these are the values, along with the calculated speed, that we will use to select a gearmotor.

Equation 4: 

Therefore, TCONT = 100 oz-in = 6.25 lb-in.

Equation 5:    

Therefore, HPCONT = .00568 = 1/176.

We have completed all of the initial calculations required to select a gearmotor. Once we have one selected, we must ensure that its starting torque capability is greater than or equal to the sum of all 4 torques above (TACCEL, TFRICTION, TBREAKAWAY, and TGRAVITY).

Step 2: Determine the type of motor/gearmotor that is best for the application.
We can determine what type of motor to use by answering some basic questions:
Is the available power supply AC or DC? AC
If AC, is the power supply 1 phase? YES
If AC, is the power supply 3 phase? NO
If DC, is the power supply low voltage (12/24VDC)? NO
If DC, is the power supply high voltage (90/130VDC)? NO
Does the application require adjustable output speed? YES
Does application require point-to-point positioning? NO
Does application require controlled acceleration and deceleration, even when an overhauling load is present? NO
Would a brush motor be undesirable because of airborne dust, mechanical noise, electrical noise or brush maintenance needs? YES

Based on the above answers a Brushless DC Motor/Gearmotor with AC-Powered Speed Control or a  3-Phase AC Motor/Gearmotor with AC-Powered Speed Control would be the best choice for this application.

Step 3: Select a Gearmotor
Right Angle Gearmotor vs. Parallel Gearmotor
• Does the application have sizing/spacing constraints? (sometimes, right angle is better)
• Does the application require a self-locking gearmotor to prevent backdriving? (choose right angle, high ratio)
• Is gearmotor efficiency important for the application? (choose parallel shaft, more efficient)

In this case, none of the reasons for choosing a right-angle (worm) gearmotor are present, so we will choose a parallel shaft gearmotor.

Step 4: Select a Stock Product
The following Bodine products match the specifications determined above, and the types of gearmotors we decided to use for this application.

Methods for Measuring the Breakaway and Friction Torque of a Machine.  Excerpt from the Bodine Handbook, Chapter 7, and the Bodine Selection Guide (PDF).

The String and Pulley Method

Figure A: Simple “string and pulley” method of torque measure- ment (Torque = Force reading on spring scale mulitplied by radius of the pulley).

Affix a pulley to the shaft of the machine to be driven (see Figure A). Secure one end of a cord to the outer surface of the pulley and wrap the cord around it. Tie the other end of the cord to a spring scale. Pull on the scale until the shaft turns. The force, in pounds indicated on the scale, multiplied by the radius of the pulley (in inches) gives the breakaway torque in pound-inches.

Torque Wrench Method

A simple torque wrench can be applied to the shaft of the machine to be driven. Turn the wrench as you would an ordinary pipe wrench, and when the shaft begins to rotate, read the value for TBREAKAWAY (in ounce-inches or pound-inches) on the torque wrench gauge.

Test Motor Method

Figure B: AC motor or gearmotor with adjustable autotrans- former, and voltmeter connected for load measurement.

Both AC and DC test motors or gearmotors can be used to measure breakaway torque, (TBREAKAWAY), and friction torque, (TFRICTION). This method requires more time and instrumentation, but can be well worth the expense in the long run. It is the best way to optimally match machine and drive unit, and is popularly used for all high volume OEM (original equipment manufacturer) applications. After using these methods, contact the motor manufacturers’ sales engineer for help in interpreting the data.

Test With An AC Drive – Use a torque wrench or “string and pulley” to find the approximate size of the test motor or gearmotor needed. An AC motor or gearmotor whose rated output speed is close to the desired “final” speed of the machine should be obtained. Next, hook up the AC drive, along with a variable autotransformer to the load (See Figure B). With a voltmeter connected to the line, increase the voltage supplied by the autotransformer until it starts and accelerates the load up to speed (to check speed use a tachometer or stroboscope). Record the starting voltage at all possible starting locations of the device. This is proportional to the TBREAKAWAY. Next, back off slowly until the motor stalls. Read the voltage. This is proportional to the TFRICTION.

“Test” With A DC Drive – The DC method requires that both voltage and amperage readings be taken from the armature circuit (See Figure C). Speed of the DC motor is proportional to the voltage while TFRICTION is proportional to the armature amperage.

To download this Application Note as a PDF, please click here. To review our selection of variable speed AC, PMDC, and BLDC (EC) gearmotors, motors, and motor speed controls, click here.

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