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The Java bogie (german: Java-Drehgestell, Java-Gestell often in Swiss literature), was a bogie for
The Java bogie (german: Java-Drehgestell, Java-Gestell often in Swiss literature), was a bogie for electric locomotive
An electric locomotive is a locomotive powered by electricity from overhead lines, a third rail or on-board energy storage such as a battery or a supercapacitor. Locomotives with on-board fuelled prime movers, such as diesel engines or ga ...
s manufactured by the Swiss Locomotive and Machine Works
Swiss may refer to:
* the adjectival form of Switzerland
* Swiss people
Places
* Swiss, Missouri
*Swiss, North Carolina
* Swiss, West Virginia
* Swiss, Wisconsin
Other uses
* Swiss-system tournament, in various games and sports
*Swiss Internati ...
(SLM). It contained a driving wheel
On a steam locomotive, a driving wheel is a powered wheel which is driven by the locomotive's pistons (or turbine, in the case of a steam turbine locomotive). On a conventional, non-articulated locomotive, the driving wheels are all coupled to ...
and a trailing wheel
On a steam locomotive, a trailing wheel or trailing axle is generally an unpowered wheel or axle ( wheelset) located behind the driving wheels. The axle of the trailing wheels is usually located in a trailing truck. On some large locomotives, ...
. It got its name because it was first installed in the 3000 series express train locomotives delivered to the ''Electrische Staats Spoorwegen'' (ESS) on Java in 1925.
Technology
The planned increase in the maximum speeds on the electrified main lines in Switzerland beyond 100 km/h prompted the SLM designer Jakob Buchli to improve the cornering of the electric locomotives. TheKrauss-Helmholtz bogie
A Krauss-Helmholtz bogie (''Krauss-Helmholtz-Lenkgestell'') is a mechanism used on steam locomotives and some electric locomotives to improve curve running.
Operation
The bogie comprises a carrying axle connected to a coupled axle via a sha ...
with its relatively light superstructure was not enough on the winding Swiss routes.
As a result of his investigations, the bogie, later called the Java bogie, was created. Its vertical axis of rotation was close to its driven axis, so that the conditions for ''radial adjustment'' in curves were optimal for it: the ''approach angle of'' the wheels against the rails was reduced. In order to be able to drive through even tighter curves without constraint, the running axis in the bogie that is further away from the axis of rotation was designed as an Adams axle
The Adams axle is a form of radial axle for rail locomotives that enable them to negotiate curves more easily. It was invented by William Bridges Adams and patented in 1865. The invention uses axle boxes that slide on an arc in shaped horn blo ...
. The guiding force on the outer rail shifted this axis obliquely inwards, the oblique part of the movement causing the axis to ''adjust'' radially.
Vehicles
SLM and BBC delivered two locomotives 7000–7001 to the Japanese State Railways in a very similar design and the same gauge as the Java locomotives. The larger part of the SBB-CFF-FFS Ae 4/7 was also equipped with Java bogies, which gave them very good running properties. Because the maintenance of the Java bogies was more complex, they were replaced byBissel axles
A Bissell or Bissel truck (also Bissel bogie or Pony truck) is a single-axle bogie which pivots towards the centre of a steam locomotive to enable it to negotiate curves more easily. Invented in 1857 by and usually then known as a ''pony truck'' ...
from 1966 onwards.
The Java bogie was used again in the SBB-CFF-FFS Ae 8/14 double locomotives (1931/32, 1939), with the last one for the first time with pivot pins between the axles. The two outer drive axles and the adjacent running axle of the SBB Ae 4/6 10801-10806 (1941/42) were combined into a Java frame. With the SBB Ae 4/6 10807-10812 (1944/45) a further development of the Java frame was used, in which centering springs and a reset device were supposed to cause stable running on straight stretches and smooth cornering. The mechanical part of the Ae 4/6 was largely modeled on the NS Class 1000
The Dutch State Railways Nederlandse Spoorwegen (NS) Class 1000 was a set of ten electric locomotives (numbered 1001-1010) used in the Netherlands during the latter half of the 20th century. The electrical systems and three completed units were ...
, which was delivered to Holland in 1948. The gas turbine locomotive SBB-CFF-FFS Am 4/6 1101, which was put into operation in 1941, had a similar arrangement of axles, which was converted from 1958–61 to Ae 4/6 III 10851.
Electric locomotive with the bogies with two driven axles was led by the construction of the BLS Ae 4/4 in 1944. The successors of this bogie locomotive broke after the Second World War, instead of rigid-framed electric locomotive.Hans-Peter Bärtschi: ''Elektrolokomotiven aus Schweizer Fabriken.'' In: Verkehrshaus der Schweiz (Hrsg.): ''Kohle, Strom und Schienen: Die Eisenbahn erobert die Schweiz.'' Verlag NZZ, Zürich 1998, ISBN 3-85823-715-9, Seite 278 The Java bogie was no longer required as a result of the technical development of the electric locomotive's drive.
See also
* Rigid-framed electric locomotive#(1A)Bo(A1) and the 'Java bogie'References
Literature
* * {{cite web, title=Zur Entwicklung elektrischer Lokomotiven und Triebwagen in der Schweiz, periodical=, publisher=Schweizerische Bauzeitung, Band 65 (1947), Heft 26, url=http://www.e-periodica.ch/digbib/view?rid=sbz-002:1947:65::345, url-status=, format=PDF 5,7 MB, access-date=2013-12-01, archive-url=, archive-date=, last=K. Sachs, date=, year=, language=, pages=359–366, quote= * Hans Schneeberger: ''Die elektrischen und Dieseltriebfahrzeuge der SBB, Band I: Baujahre 1904-1955;'' Minirex AG, Luzern; 1995; ISBN 3-907014-07-3. * SLM Winterthur (Hrsg.): ''Schweizerischer Lokomotivbau 1871 - 1971. Überblick über die von der Schweizerischen Lokomotiv- und Maschinenfabrik im vergangenen Jahrhundert gebauten Lokomotiven und Triebwagen.'' Winterthur, 1971 Rail technologies