Best WPA WPS Cast Iron Worm Reducer Australia Manufacturers, suppliers, factory

WPA / WPS Cast Iron Worm Reducer Series | 40-250mm — Ever-power Australia

Series Overview

When Cast Iron Outperforms Aluminium

The WPA/WPS series is a range of cast iron worm gearboxes built for applications where aluminium housings reach their structural and thermal limits. FG260 grey cast iron provides 2-3x higher compressive strength than die-cast aluminium, resists vibration-induced cracking, and maintains dimensional stability at sustained elevated temperatures — critical in mining, heavy manufacturing, and outdoor industrial installations across Australia.

13 frame sizes cover centre distances from 40 mm to 250 mm, with output torques from 26 Nm to 2,745 Nm. Each size is available in multiple shaft direction configurations (A, S, X, O, Z), with optional motor-flange adapters (D variants) and hollow output shafts (K variants) for shaft-mounted installation.

Unlike the EPNMRV aluminium series which uses IEC flanged motor input, the WPA series uses solid shaft input as standard — suited for belt drives, chain drives, and direct coupling via flexible couplings. Motor-flange variants (WPDA, WPDS) are available for direct motor mounting.

Choose Your Size

13 Frame Sizes for Heavy Industrial Applications

Each card links to the full specification page with power/torque tables, dimensional drawings, radial load data, and available configuration variants.

WPA 040

40mm CD | 4kg
26 Nm max

WPA 050

50mm CD | 7kg
43 Nm max

WPA 060

60mm CD | 10kg
75 Nm max

WPA 070

70mm CD | 15kg
113 Nm max

WPA 080

80mm CD | 20kg
163 Nm max

WPA 100

100mm CD | 35kg
291 Nm max

WPA 120

120mm CD | 60kg
413 Nm max

WPA 135

135mm CD | 80kg
707 Nm max

WPA 147

147mm CD | 98kg
848 Nm max

WPA 155

155mm CD | 110kg
848 Nm max

WPA 175

175mm CD | 150kg
1221 Nm max

WPA 200

200mm CD | 215kg
1782 Nm max

WPA 250

250mm CD | 360kg
2745 Nm max

Quick Comparison

WPA Series At-a-Glance

Model	CD (mm)	Ratios	Max Torque (Nm)	Power (kW)	Output LS/S (mm)	Weight (kg)	Specs
WPA 040	40	5:1-60:1	26	0.12-0.48	28/14	4	View
WPA 050	50	5:1-60:1	43	0.20-0.80	40/17	7	View
WPA 060	60	5:1-60:1	75	0.32-1.25	50/22	10	View
WPA 070	70	5:1-60:1	113	0.52-1.95	60/28	15	View
WPA 080	80	5:1-60:1	163	0.75-2.65	65/32	20	View
WPA 100	100	5:1-60:1	291	1.00-4.45	75/38	35	View
WPA 120	120	5:1-60:1	413	1.50-6.15	85/45	60	View
WPA 135	135	5:1-60:1	707	2.30-11.25	95/55	80	View
WPA 147	147	5:1-60:1	848	3.00-14.50	95/55	98	View
WPA 155	155	5:1-60:1	848	3.00-14.50	110/60	110	View
WPA 175	175	5:1-60:1	1221	4.07-21.50	110/65	150	View
WPA 200	200	5:1-60:1	1782	5.58-22.60	125/70	215	View
WPA 250	250	5:1-60:1	2745	8.62-33.20	155/90	360	View

Max torque is the highest output torque achievable across all ratios at 1,500 RPM input. Actual continuous-duty torque depends on ratio, duty cycle, ambient temperature, and service factor. Refer to individual model pages for complete power/torque tables.

Engineering & Materials

What Makes the WPA Series Different from EPNMRV

The following specifications apply across all 13 WPA sizes. Individual model pages do not repeat this information.

FG260 Cast Iron Housing

All WPA housings are cast from FG260 grey cast iron (equivalent to Grade 260 per AS 1831). FG260 provides a tensile strength of 260 MPa — approximately 2.5x higher than ADC12 aluminium. The superior vibration damping characteristics of cast iron reduce transmitted noise and protect bearings in high-vibration environments such as mining conveyors and crushing equipment. CNC-bored bearing seats ensure coaxiality within 0.02 mm.

Solid Shaft Input (Standard)

Unlike the EPNMRV series which uses hollow IEC-flanged input, the WPA uses a solid input shaft with keyway as standard. This makes the WPA suited for belt drives (V-belt, timing belt), chain drives, and direct coupling via flexible couplings — the dominant input configurations in Australian mining and heavy manufacturing. Input shaft diameter ranges from 12 mm (size 40) to 80 mm (size 250).

5 Shaft Direction Options

Every WPA size is available in five shaft direction configurations: A (input below/output horizontal), S (input above/output horizontal), O (output up), X (output down), Z (vertical). This eliminates the need for custom brackets or adapters when the driven machine requires a non-standard output orientation.

P, D, and K Configuration Variants

P (whole housing) = standard one-piece cast iron box with solid input shaft. D (split housing) = two-piece housing with integrated IEC motor flange adapter for direct motor mounting. K (hollow output) = hollow output shaft for direct shaft-mounted installation on the driven machine, eliminating coupling and baseplate. All combinations are available: WPDA, WPDS, WPKA, WPDKA, etc.

Efficiency & Self-Locking

Worm gear efficiency varies by ratio: 76-90% at 10:1, 74-84% at 20:1, 68-70% at 25:1, 65-75% at 30:1, 62-72% at 40:1, 60-70% at 50:1, 60-70% at 60:1. Self-locking is reliably achieved at ratios of 30:1 and above. Temperature correction factor a1: 1.0 for 10-40 degrees C, 1.6 for 41-50 degrees C ambient.

Lubrication Specification

Fill with N220-N320 mineral or synthetic gear oil for ambient temperatures 30-40 degrees C, or N320-N460 for 40-65 degrees C. First oil change after 100 hours of operation, then every 2,500 hours. Compatible oils: Shell Omala 220/320, Mobil DTE Oil BB/600W, Esso Spartan EP220/320. Do not use sulphur-phosphorus EP additives designed for steel-on-steel gears.

Technical Reference

Selection Method & Application Data

Expand each section for detailed selection guidance applicable to all WPA/WPS sizes.

Step 1: Calculate Required Output Torque

Determine the theoretical output torque T1 based on your driven load.

Step 2: Apply Correction Factors

Corrected torque T = T1 x a1 x a2, where a1 = ambient temperature factor (1.0 for 10-40 degrees C, 1.6 for 41-50 degrees C) and a2 = duty cycle factor (0.8 for smooth/under 2h daily, 1.0 for smooth/2-10h, 1.2 for smooth/10-24h, up to 1.75 for heavy shock/10-24h).

Step 3: Calculate Input Power

P = (T x n2) / (9550 x efficiency), where n2 = output speed in RPM, and efficiency is from the ratio-efficiency table (0.60-0.90 depending on ratio).

Step 4: Match to Catalogue

Find the WPA size where both the input power and output torque meet or exceed your calculated values. Both conditions must be satisfied simultaneously.

Overheating

Causes: misalignment between motor and gearbox, overloading, excessive seal friction, incorrect oil level, contaminated oil. Solutions: realign shafts, reduce load, lubricate seal lip, adjust oil to sight glass level, replace oil.

Vibration

Causes: loose mounting bolts, worn worm gear set, worn bearings, misalignment. Solutions: tighten bolts to specified torque, replace gear set, replace bearings, realign.

Abnormal Noise

Causes: bearing damage, poor worm-wheel mesh, insufficient lubricant, foreign objects in housing. Solutions: replace bearings, re-shim worm wheel, top up lubricant, drain and flush housing.

Oil Leakage

Causes: worn seals, over-filled oil, loose drain plug, damaged sight glass. Solutions: replace seals, adjust oil level, apply thread sealant and tighten, replace sight glass.

Rapid Tooth Wear

Causes: overloading, incorrect lubricant, insufficient lubricant, overheating, failure to change oil at scheduled intervals. Solutions: reduce load or upsize gearbox, use correct worm gear oil (not steel-on-steel EP), maintain oil level and change schedule.

Not Sure Which WPA Size You Need?

Send us your output torque, speed, mounting orientation, and operating environment. Our engineers will recommend the correct size and verify the selection within 24 hours.

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