NMRV Worm Gearboxes and Speed Reducers
Need to slow a motor down and increase output torque? HankeMotor stocks NMRV worm gearboxes and speed reducers for conveyors, mixers, turntables, hoists, gate drives, workshop machinery and motor gearbox builds.
The most important details to match are the reduction ratio, NMRV frame size, input flange, input shaft size and output shaft size. A gearbox with the right ratio but the wrong flange or shaft size may not fit your motor, even if the kW rating looks correct.
Choose the ratio first based on the output speed you need, then confirm the frame size and motor connection. Motor and gearbox combination packs are available where the motor and gearbox are already matched for direct coupling.
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Need to slow a motor down and increase output torque? HankeMotor stocks NMRV worm gearboxes and speed reducers for conveyors, mixers, turntables, hoists, gate drives, workshop machinery and motor gearbox builds.
The most important details to match are the reduction ratio, NMRV frame size, input flange, input shaft size and output shaft size. A gearbox with the right ratio but the wrong flange or shaft size may not fit your motor, even if the kW rating looks correct.
Choose the ratio first based on the output speed you need, then confirm the frame size and motor connection.
NMRV Frame Size and Shaft Specification
Frame size determines the physical dimensions, torque capacity, and shaft sizes. Select the frame first based on the torque required at the output shaft, then confirm the input shaft matches your motor.
| Frame | Housing | Input Shaft | Ratios Available | Typical Motor | Best For |
|---|---|---|---|---|---|
| NMRV030 | Aluminium | 9mm, 11mm | 10:1, 25:1, 30:1, 50:1 | 0.25–0.37kW | Light conveyor, shutter drives, small agitators |
| NMRV040 | Aluminium | 9mm, 11mm, 14mm | 10:1, 20:1, 40:1, 80:1, 100:1 | 0.37–0.75kW | Gate automation, light conveyor belt take-up |
| NMRV050 | Aluminium | 11mm, 14mm, 19mm | 7.5:1, 10:1, 20:1, 25:1, 40:1, 50:1, 100:1 | 0.75–2.2kW | Cement mixers, conveyor drives, irrigation pumps |
| NMRV063 | Not listed on product page | 14mm, 19mm, 24mm | 7.5:1, 10:1, 30:1, 40:1, 50:1, 80:1 | IEC 71–90 frame motors | Medium conveyor, mixer, packaging line drives |
| NMRV075 | Not listed on product page | 14mm, 19mm, 24mm, 28mm | 7.5:1, 10:1, 25:1, 40:1, 50:1, 80:1, 100:1 | IEC 71–112 frame motors | Medium-duty conveyor, mixer paddle, packaging line |
| NMRV090 | Not listed on product page | 19mm, 24mm, 28mm | 7.5:1, 10:1, 25:1, 80:1, 100:1 | IEC 80–112 frame motors | Heavier conveyor, larger mixer, packaging line drives |
| NMRV110 | Cast iron | 19mm, 24mm, 28mm, 38mm | 10:1, 50:1, 80:1 | 4–7.5kW | Heavy conveyor, large agitator, mixer paddle |
| NMRV130 | Cast iron | 24mm, 28mm, 38mm | 10:1, 80:1, 100:1 | 3–5.5kW | Very slow output applications, winch drives |
B5 flange mount is the standard on all HankeMotor NMRV units — the large round flange that bolts directly to an IEC motor face. If your motor has a B14 face (small square flange), an adaptor plate is required.
How to Calculate the Reduction Ratio You Need
The ratio is your motor speed divided by the output speed required. Most Australian motors run at either 1400rpm (4-pole) or 2800rpm (2-pole) at 50Hz supply.
| Ratio | Output (1400rpm input) | Output (2800rpm input) | Typical Application |
|---|---|---|---|
| 10:1 | 140 rpm | 280 rpm | Slower conveyor, light mixer |
| 20:1 | 70 rpm | 140 rpm | General purpose conveyor |
| 30:1 | 47 rpm | 93 rpm | Slow conveyor, light auger |
| 40:1 | 35 rpm | 70 rpm | Cement mixer drum, gate opener |
| 50:1 | 28 rpm | 56 rpm | Slow paddle mixer, winch |
| 100:1 | 14 rpm | 28 rpm | Very slow output, roll-up door drive |
How to Choose an NMRV Worm Gearbox
Self-Locking: The Property Most Buyers Miss
NMRV worm gearboxes at ratios of 30:1 and above are self-locking (non-back-drivable): the output shaft cannot drive the worm, so the load cannot back-drive the motor when power is off. This is a safety advantage for hoists, gate drives, and vertical lift applications — the load holds position without a brake.
Efficiency Loss at High Ratios: What This Means for Motor Sizing
Worm gearboxes trade efficiency for compactness. Unlike helical gearboxes that maintain 95%+ efficiency at all ratios, worm gearboxes lose efficiency as the ratio increases due to the sliding contact between worm and wheel. At high ratios, the motor must be oversized to compensate:
| Ratio | Approx. Efficiency | Motor Sizing Note |
|---|---|---|
| 10:1 | 85–90% | Standard motor sizing applies |
| 20:1 | 80–85% | Add 15–20% to motor power calculation |
| 40:1 | 70–75% | Size motor up one step from your calculated requirement |
| 50:1 | 65–70% | Significant heat generation under continuous load — ventilation required |
| 100:1 | 50–60% | Not suited for continuous duty at full torque — use two-stage gearbox instead |
For continuous duty at 50:1 or 100:1, pair the gearbox with a motor one power rating above the calculated shaft requirement to manage heat and protect the gearbox oil seal.
Motor Pairing and Ready-to-Run Packs
HankeMotor stocks motor and gearbox combination packs — the motor is already flange-matched to the NMRV input shaft, eliminating the need for a separate coupling or adaptor. The most common combination is a 1400rpm single phase motor with an NMRV050 at 40:1, producing 35rpm output for cement mixer and conveyor applications.
If pairing a motor from the HankeMotor single phase range to an NMRV gearbox independently:
When a Worm Gearbox Is Not the Right Choice
For application advice or to confirm motor-gearbox compatibility: 0401 634 280 | hankemotors@gmail.com | Unit 1, 28 Aristoc Road, Glen Waverley VIC 3150.
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