Winch Drive Series — Marine & Offshore Equipment

Winch Drive Planetary Gearbox for Anchor Windlass

The anchor windlass is the single most safety-critical powered mechanism on any vessel — controlling the deployment and retrieval of an anchor chain that may weigh 50 tonnes and reach depths of 100 metres. The 윈치 구동 유성 기어박스 at its heart must deliver massive torque multiplication in a salt-saturated deck environment, hold the chain under full load with zero creep, and restart under the full static load of a hung anchor without hesitation.

Korea Ever-Power planetary winch drive gearboxes for anchor windlass cover output torques from 500 Nm (small coastal craft) to 50,000 Nm (VLCC and large bulk carriers). All models are available with SAE or IEC input flanges, SAHR or SAER holding brake, and marine-grade IP67 or IP68 sealing as specified by the windlass designer or classification society surveyor.

The ZL55 and ZR75 serve smaller vessels with up to 5 stages of reduction and ratios reaching 4,884:1. The 407AW, 414W3, 417W3, and 419W3 cover the medium and heavy ocean-going vessel range, all supplied as standard with IP68 FKM marine sealing, 316L stainless fasteners, and C5-M corrosion protection.

IACS Unified Requirement W1 and W22, together with DNV Rules for Ships Part 4 Chapter 4 and ABS Rules for Steel Vessels Part 4, all impose explicit requirements on anchor windlass holding power — the windlass, with the motor de-energised and relying only on the mechanical holding brake, must hold a specified static chain tension without chain movement. This is the foundation of the holding brake specification for every anchor windlass gearbox Korea Ever-Power supplies.

Spring-Applied, Hydraulically-Released (SAHR) Brake: The standard for hydraulic-motor-driven windlasses. The brake is engaged by compressed springs whenever hydraulic pressure is absent — ensuring the chain is held whenever the hydraulic power unit shuts down or loses pressure. Spring force is calculated to hold the classification society specified chain tension at the brake disc diameter used, with a 1.5 safety factor on required holding torque. Only an active hydraulic signal releases the brake for anchor lowering or retrieval.

Spring-Applied, Electrically-Released (SAER) Brake: Used with electric-motor-driven windlasses. The SAER operates on the same fail-safe principle — springs apply, electromagnet releases — using a 24V or 48V DC electromagnet energised from the vessel control system as the release mechanism. The SAER module integrates into the same gearbox housing position as the SAHR variant, enabling the same gearbox output stage to serve both electric and hydraulic motor configurations by changing only the input brake module.

Manual Override Provision: Classification society rules require that the windlass can be operated manually in the event of total power failure. Korea Ever-Power winch drive gearboxes for anchor windlass applications are available with a manual override shaft provision on the input face, allowing a manual ratchet handle to engage the sun gear directly and operate the windlass at reduced speed during emergency recovery.

Anchor windlass drives use three motor technologies depending on vessel type and age. The winch drive planetary gearbox must interface correctly with each:

Hydraulic Motor (most common on commercial vessels): Variable-displacement hydraulic motors are the dominant drive for commercial vessel anchor windlasses because they provide inherent overload protection — the hydraulic relief valve limits chain pull to the system pressure setting regardless of operator action. The motor mounts to the gearbox via SAE two-bolt or four-bolt flange (SAE A, B, or C depending on motor displacement). Korea Ever-Power winch drive gearboxes for hydraulic motor input include a case drain isolation feature preventing cross-contamination of hydraulic and gear oil circuits at the motor interface.

AC Electric Motor (growing on LNG carriers, cruise vessels): Electric windlass drives use IE3 or IE4 three-phase AC motors controlled by a dedicated VFD, enabling precise chain speed control for delicate manoeuvring in crowded anchorages. IEC B5 flange mounting in frames IEC 132 to IEC 250 covers the power range for most electric windlass applications. Korea Ever-Power WD gearboxes for electric motor input include pre-machined IEC B5 input flanges and integrated speed sensor provisions for chain speed feedback to the VFD controller.

Dual-Drive (Electric and Hydraulic): Some vessel designs specify dual-drive windlasses — an electric motor for normal operations with a hydraulic motor as backup, both capable of driving the same gearbox input shaft. Korea Ever-Power supplies dual-input planetary gearboxes with two input flanges on opposing faces of the input housing, with a selector mechanism preventing simultaneous engagement. This configuration satisfies flag state redundancy requirements for anchor equipment on passenger vessels and DP-rated offshore support vessels.

The reliability of a marine winch drive gearbox across a 25-year vessel life depends on the manufacturing process quality of its internal components. Korea Ever-Power maintains all critical gear manufacturing processes in-house:

Gear Material and Heat Treatment: Sun gears, planet gears, and ring gears are manufactured from case-hardening alloy steel (20CrMnTi or 20CrNiMo depending on torque class), carburised to a case depth of 0.8 to 1.5 mm and quench-hardened to 58 to 62 HRC surface hardness with a tough, ductile core. The compressive residual stress introduced by carburising and quenching significantly extends the surface fatigue life of gear teeth under the cyclic loading of anchor retrieval operations.

Gear Grinding to DIN 5 Tolerance: All marine winch drive gears are finish-ground to DIN 5 tooth profile and lead tolerance after heat treatment, correcting the distortion introduced by carburising and quenching. DIN 5 accuracy reduces gear mesh noise — important for passenger vessel windlass applications where bridge noise is regulated — and ensures consistent load distribution across the full tooth face width, preventing the edge loading that initiates pitting and spalling at tooth ends.

Planet Carrier Precision Machining: Planet carriers are machined on 5-axis CNC machining centres and measured on coordinate measuring machines to verify planet pin position to within ±0.01 mm of the theoretical position — ensuring equal load sharing between all three or four planets. Unequal load sharing concentrates the total torque on one or two planets, reducing the effective gearbox capacity to a fraction of its rated value.

Korea Ever-Power application engineers provide free load case analysis and gearbox sizing for all new vessel and retrofit windlass projects — send us your chain calibre, maximum chain pull, motor type, and wildcat drum diameter to receive a holding brake torque calculation and preliminary gearbox selection within 24 hours.

Source Your Anchor Windlass Winch Drive Gearbox

Whether you are designing a new anchor windlass for a vessel under construction, sourcing a replacement gearbox for a vessel in service, or upgrading an existing windlass to meet current classification society holding requirements — Korea Ever-Power delivers marine-grade, classification-ready winch drive planetary gearboxes from stock and to custom specification. Send us your chain calibre, maximum chain pull, motor type, and wildcat drum diameter for a free application review, holding brake sizing, and dimensional drawing within 48 hours.