A Wells light was a large paraffin-fuelled (
kerosene
Kerosene, paraffin, or lamp oil is a combustible hydrocarbon liquid which is derived from petroleum. It is widely used as a fuel in aviation as well as households. Its name derives from el, κηρός (''keros'') meaning " wax", and was reg ...
)
blowlamp used for engineering work, particularly for illumination, in Victorian times. At a time before widespread electrical lighting, they were the most common form of high-powered portable illumination used for construction work, particularly railways, civil engineering, shipyards and ironworks.
Operation
The Wells light was a typical
blowlamp in principle, consisting of a floor-standing fuel tank with the burner on a tall post above it. It was distinguished by its large size, the more common plumber's blow lamp being a hand-held tool of about a pint in capacity. Wells lights were made in a number of sizes, the smallest Nº1 being of 800
candlepower with a 15 inch flame. Weighing when filled, it was advertised as "can be carried by a boy".
The largest Nº3 produced 2,000 candlepower, weighed 240 lbs, and was available with barrow wheels for portability.
The burner of the Wells light used a vaporiser that heated the oil before it escaped the nozzle, so vaporising immediately.
As the lamp was intended for use with heavy, sooty oils as well, this vaporiser was constructed of a square frame of straight tubes. Each tube was closed with a screwed plug that could be removed for cleaning. For initial lighting, the vaporiser would be preheating by burning a little oil in a tray beneath the burner. The burners were mounted horizontally, although some models were produced with a flexible hose to the burner that allowed it to be rotated vertically.
Pressure was provided by a hand-worked
stirrup pump
A stirrup pump is a portable reciprocating water pump used to extinguish or control small fires. It is operated by hand. The operator places a foot on a stirrup-like bracket at the bottom of the pump to hold the pump steady, the bottom of the suct ...
on the tank. Once pressurised, a large lamp could burn for some hours before the pressure fell enough to require more pumping. A particular feature of the Wells design was that the tank could be refilled whilst the lamp was still burning (i.e. without releasing the pressure in the tank) by using this same pressurisation pump as a fuel pump to suck in oil from another container.
Illumination
The major use of the Wells light was for the illumination of outdoor construction work. They were portable and simple to operate. Their fuel was cheap and commonly available, especially as the Wells' pressure burner could burn a much lower and cheaper grade of oil than the
lamp paraffin that was pure enough to not clog a wick lamp. Oil fuels were still more expensive than
coal gas though, so fixed lighting, such as in factories, remained on town mains gas.
Nottingham Forest played a floodlit match against
Notts Rangers on 25 March 1889 at 7:45pm illuminated by 14 Wells lights.
Comparisons to electric lighting
The Wells light pre-dated
mains electricity but was contemporaneous with early use of the
arc lamp
An arc lamp or arc light is a lamp that produces light by an electric arc (also called a voltaic arc).
The carbon arc light, which consists of an arc between carbon electrodes in air, invented by Humphry Davy in the first decade of the 1800s, ...
.
Electricity had two disadvantages: firstly it required an on-site generating plant. This was expensive and also represented a long-term capital investment that took time simply to build it beforehand. In some cases, the use of a
semi-portable engine could provide a generating plant more quickly. Where the need for lighting was mobile, as for the construction of railways or canals, the Wells light had a clear advantage.
Secondly, although the carbon arc lamp was bright, and relatively economical for the illumination produced, individual lamps were expensive and complicated, although powerful. This encouraged their use as the minimum number of large lamps to cover an entire work site. As the arc lamp also has a very small source of light, this gave a particularly harsh lighting. There was a sudden contrast between the illuminated and shadow areas, especially where a point was only in sight of a single lamp. This was recognised as a trip and obstacle hazard, as well as making even the light areas difficult to work under. The Wells light was specifically contrasted with the point-source of the arc lamp and the relatively shadow-free illumination was cited as an advantage in their adverts.
Because the smaller Wells lights were so portable, they could be carried into the best position to illuminate a deep shaft or inside a ship's hull.
Other uses
As well as illumination, the Wells light was also used where a large portable blowlamp was required for heating. They were sometimes used for heating iron
rivet
A rivet is a permanent mechanical fastener. Before being installed, a rivet consists of a smooth cylindrical shaft with a head on one end. The end opposite to the head is called the ''tail''. On installation, the rivet is placed in a punched ...
s, inserted red hot, during the assembly of
structural ironwork. Although such rivets were normally heated in small portable
coke braziers (which also used a cheaper fuel), the Wells light was favoured for some final assembly work at height, as the smaller lights were considered lighter and easier to lift into place high atop a bridge.
Wells lights were also used in the erection and repair of large
stationary steam engine
Stationary steam engines are fixed steam engines used for pumping or driving mills and factories, and for power generation. They are distinct from locomotive engines used on railways, traction engines for heavy steam haulage on roads, steam c ...
s. Typically this was for the
shrink-fitting of components such as large
crankpins in crankshafts or flywheels. The crankshaft web would be heated to expand it until the pin could be slid or gently hammered into place. On cooling, the pin would be securely held in place.
A. C. Wells & Co.
A. C. Wells & Co. began in
Cheetham, Manchester.
Their first product was a range of
engineer's lamps, simple
cast-iron
Cast iron is a class of iron–carbon alloys with a carbon content more than 2%. Its usefulness derives from its relatively low melting temperature. The alloy constituents affect its color when fractured: white cast iron has carbide impuriti ...
wick lamps that were widely used before electric battery
torches. This type of lamp was not very bright and their limited light has been blamed for several engineering failures and losses of life, where an inspection was poorly carried out, owing to poor light.
The Wells light, with its pressure burner, was an attempt to produce the first really bright portable lighting. It was an immediate success, working well and having no significant competition from other makers. The name "Wells light" soon became a
genericized name for this type of light,
even though almost all were Wells' own, or licensed, products.
Wells lights were also produced
under licence in Canada, by James Cooper of
Montreal
Montreal ( ; officially Montréal, ) is the second-most populous city in Canada and most populous city in the Canadian province of Quebec. Founded in 1642 as '' Ville-Marie'', or "City of Mary", it is named after Mount Royal, the triple- ...
, and sold as 'Wallwork & Wells' patent lights.
In later years, Wells used their knowledge of small pressure vessels and pumps to produce a range of paint spraying equipment. Up to the 1960s, they also produced
waste oil filtration equipment.
References
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Tools
Types of lamp