{{short description|Gearbox and drive configuration for marine propulsion}} thumb A '''V-drive''' is a power transmission system for boats that consists (usually) of two gearboxes, two drive shafts, and a propeller.

Whereas the conventional arrangement sites the engine with its gearbox aft, driving the propeller shaft directly, in a "V-drive" layout, the engine is reversed, to have the gearbox in front. This primary gearbox typically drives a short shaft forward to a transfer gearbox which reverses the transmission to the main tailshaft which is directed rearwards the propeller, at a "V" angle to the short shaft.

A V-drive system variation is for the tailshaft to drive a saildrive propeller, mounted on a skeg below the hull. This is common on Lagoon catamarans.[[Image:Saildrive-2.jpg|thumb|A Volvo saildrive]]

A variation of the two-shaft V-Drive layout is the "close-coupled V-drive" whereby the engine is still mounted "back-to-front", but the main gearbox incorporates an output flange that has already been reversed. This system obviates the need for any short primary shaft.<ref> "V-drives", by Seaboard Marine [https://www.sbmar.com/articles/all-about-marine-transmission-v-drives/]</ref>

Counter-intuitively, a V-drive system will not necessarily mean that the engine is sited further rearward; the whole engine/transmission may be sited forward than in a conventional arrangement.

== V-drive rationales ==

V-drives are typically fitted to (i) sport motorboats or (ii) cruising yachts and catamarans. The pros and cons tend to be different for each type.

For '''sportboats''', a V-drive may be an alternative to an inboard/outboard (I/O) drive. Here the V-drive will allow the engine to be moved further forwards and the propeller (& rudder) will be under the boat. This can give a flatter ride (getting the boat planing earlier), greater choice of propellers, and a safer stern access for swimmers.

For '''cruising yachts''', the rationale of the V-drive installation may include:<ref>"Boatsgeek" article [https://boatsgeek.com/the-ins-and-outs-of-v-drive-transmissions-guide/]</ref> * the propeller can be mounted further forward in deeper "quieter water". * the engine can be mounted in a more space-efficient position. * the position of the hull's centre of gravity may be optimised,

'''In all cases''', maintenance may be more difficult with a V-drive, since the main propshaft beneath the engine may be somewhat inaccessible. Also, when installing a V-drive, it can be a difficult process to ensure accurate alignment.

== Boats with V-drives == Fred Cooper's 1935 design for Malcolm Campbell's ''Blue Bird'' used a v-drive designed by Reid Railton for its 2,000 bhp engine.<ref name="Fox, 1937:31" />

==See also== *Sterndrive

== References == {{Reflist|refs=

<ref name="Fox, 1937:31" >{{Cite book |title=Racing, Cruising and Design |last=Fox |first=Uffa |author-link=Uffa Fox |year=1937 |publisher=Peter Davies |location=London |isbn=0907069150 |chapter=31: Bluebird |pages=172–174 }}</ref>

}}

Category:Marine propulsion

{{Water-transport-stub}}