Welcome

Welcome to the Lickey Incline blog devoted to the celebration of the railway and in particular the great days of steam trains both standard and narrow gauge, on the railways of Britain.



Friday, November 20, 2009

Farewell to Steam

Farewell to Steam 1965

Click on the picture to see a variety of steam and diesel locomotives from times past and recent

Hornby Dublo Catalogue Pages on Flickr

Hornby Dublo Book of Trains

See some of the key pages from a selection of Hornby Dublo catalogues - just click on the Book of Trains picture

Thursday, June 25, 2009

Steam Index

Do not miss Steam Index http://www.steamindex.com/ the fantastic web site on steam locomotive history, railway engineers, background stories etc with all the book and magazine refrences you could possibly want. And all done by one man Kevin Jones. He needs your support!

Thursday, June 18, 2009

Sunday, March 08, 2009

Hornby Railway Collectors Association



Just added to the links section is the Hornby Railway Collectors Association. The HRCA is a non-profit-making membership organisation for collectors and operators of Hornby '0' Gauge Trains and accessories and '00' gauge Hornby Dublo and the French Acho ranges manufactured by Meccano Ltd

In 2009, the HRCA celebrated its fortieth anniversary. For more information on the HRCA see http://www.hrca.net/

Lickey Incline pictures by D J Norton

D J Norton - Dennis John Norton - was born in Birmingham in 1930, he suffered ill health throughout his life and sadly it was cut short by an asthma attack at the age of 35 in Ledbury, Herefordshire. He had moved there with his young family hoping that a country location might help alleviate the symptoms of his illness. He left his widow with a son aged 4 and expecting a baby who was born 9 weeks later and named Mark

Mark Norton has developed many interests that were similar to his father's including photography. Mark found several hundred black and white photographs taken by his father in the 1950s and 1960s plus many colour slides from the same period.

Mark has now made these available on an excellent web site at http://www.photobydjnorton.com/ where there are many splendid pictures of steam locomotive working on the Lickey Incline including Big Bertha, the Midland Railway 0-10-0 as well as pictures of other railway and transport subjects around Birmingham and the West Midlands.

D J Norton's pictures can also be found at http://www.blogger.com/www.railaroundbirmingham.co.uk, http://www.blogger.com/www.warwickshirerailways.com, http://fairbourne.fotopic.net/, http://disused-rlys.fotopic.net/, http://narrowperspectives.ukgeeks.co.uk/,

Monday, February 23, 2009

Hornby Dublo Model Railways

A tour around some Hornby Dublo catalogues from the 1930s, 1940s and 1960s.

Thursday, February 19, 2009

Two Moguls on the Lickey Incline

The Stanier Mogul and Collett Mogul made history in November 1997 when they became the first steam locos to climb the Lickey Incline for 31 years.

2968 and 7325 on the Lickey Incline

Sunday, January 25, 2009

Whatever happened to this model railway?

In 1948 British Railways' specialist staff of The Railway Executive Publicity department assembled a Gauge 'O' model railway, with many other departments of British Railways helping to make the model as authentic as possible. The following information and pictures are taken from publicity booklets that were published in the 1950s. The layout and its rolling stock were, it is assumed sold off or disposed of many years ago.

Following its first appearance in 1948 the model was a feature of many exhibitions throughout the country, including the Daily Mail Ideal Home Exhibition and in Department Stores.

The text in the following paragraphs is copied straight from the leaflet

It is assumed that most of the locomotives and rolling stock were from Bassett Lowke. If anyone has any knowledge of where these models eventually found a home please comment.

LAYOUT

Normally measuring 30 ft. by 15 ft. (40 ft. by 21 ft., with the surrounding stand), the model railway is portable. Each table section, which measures 6 ft. by 3 ft., is mounted on independently adjustable legs to give a normal height of 2 ft. 9 in.


The model was so designed and constructed that it could be assembled and dismantled in the shortest possible time, and this has imposed certain limitations on its scenic background. Thus the scenery is made of flexible material and the joints in the embankment are masked by small strips fashioned to resemble stone drainage.

TRACK

On a railway of this kind the track must be very strong and, at the same time, built to scale. The" Three Rail" system was adopted to allow metal sleepers to be used. These have embossed rail plates and carry the latest type of flat bottom rail to a scale length of 60 feet. They are fastened to a ballasted strip which, in turn, is fixed to the baseboards, giving the best possible appear­ance of a correctly ballasted track. The embankments are constructed with timber foundation and gradients are approxi­mately 1 in 50. The bridges are replicas of types now in use.

SIGNALS

The layout is accurately signalled, in accordance with full size practice, both colourlight and semaphore signals being used. The railway is on view for weeks at a time and it has, for this reason, been found impracticable to keep signal lights burning as the life of electric bulbs is too short and replacements difficult. The semaphore signals are operated individually from the control panel.

ELECTRIC WIRING

Coloured and numbered plug and socket joints assist in the rapid assembly of the electric wiring installation which is carried on the underside of the tables. A flexible insulated wire is used to prevent breakages which are liable to occur through vibration in transit. A common return circuit is provided under each· table by a copper bar with a flexible connection to its neighbour, and this is tapped along its length to allow connections to be made thereto.

The locomotives work on 20 volt D.C., the current being supplied from A.C. mains through rectifiers. The D.e. current is fed to the control panel through two 12-volt 36-watt bulbs which act as fuses.

CONTROL
The control box has six separate panels, each equipped with stud type resistance, 12 sections and eight point levers. The number of panels in use depends upon the design of the layout to be worked.
Five panels are used to operate the layout shown on centre pages, divided as follows :-

(1) Up Main Line and Sidings.
(2) Down Main Line and Sidings.
(3) Goods Line.
(4) Locomotive Shed Roads.
(5) Goods Sidings.

Each line is split up into sections, the division being made in the most convenient place for operating purposes.

All points are operated by double solenoid point motors working on 20 volt A.C. Points are normally set for the main line and an automatic lock holds the point in position after the blades have been moved.

The locomotives are operated through a stud-type resistance.

When the handle is at 90° on the quadrant no current is passing to the locomotive which is stationary. To start the train moving, the handle is brought slowly round in a clockwise direction from one stud to the next. The first stud allows only a small amount of current to flow and the locomotive starts moving forward. The next stud increases the current and thus the speed. The movement from one stud to another continues until the locomotive has attained a full scale speed.

The action is reversed back to 90° to stop the locomotive. As the current supply is reduced so the speed decreases until the locomotive is stationary.

Movement of the locomotive in the reverse direction is obtained by reversing the current to the locomotive which is automatically brought about by moving the handle from the 90° position in an anticlockwise direction-the opposite way to that which produced the forward movement.

POINTS (OR SWITCHES)

Points are operated by drawing the appropriate lever forward when a passing electrical contact is made which energises one of the solenoids and the point blade is moved over. When the lever is moved back a similar contact is made which energises the other solenoid and the point blade moves in the reverse direction.

OPERATION

It is possible to have 2 passenger trains running, each on its own circuit, also a freight train on the goods line. An automatic coupling and uncoupling device enables a freight train to be made up or put away in the goods sidings or a passenger train to be drawn from or stabled in 2 passenger sidings.

LOCOMOTIVES












The types now in use on this model are as under :
BR. Standard Class 7 Loco. 70000.
B.R. Standard Class 5 Loco. 73001.

L.M.Region

Pacific," Sir William Stanier."
10,000 Class Diesel.
6P Class.
2-6-2 Tank.

Western Region

King Class.
1,000 Class.
Pannier Tank.

Eastern Region

Pacific, " A. H. Peppercorn."
B1. Class.
L.I. Class Tank.

Southern Region

Pacific, Merchant Navy Class.
Schools Class.

Diesel Shunting Locomotive.

(These are being added to as required.)

ROLLING STOCK

The rolling stock at present in use consists of the following vehicles :-

Passenger.

Train of six Main Line Express passenger coaches representing " The Royal Scot " (L.M.R.).
Train of six Main Line Express passenger coaches representing the" Cornish Riviera Express" (W.R.).
Train of six Main Line Express passenger coaches representing " The Flying Scotsman" (E.R.).
Train of six Main Line Express passenger coaches representing " The Atlantic Coast Express" (S.R.).
Pullman Train, including observation car. Train of five Suburban steam train coaches.
Four-coach set of Main Line electric stock (S.R.). Two-coach set of Suburban electric stock (S.R.).
Horse Box.

Freight.
Ten 10-ton open wagons.
Ten 12-ton open wagons.
Three flat wagons with containers.
Eight covered vans (various types).
One six-wheeled milk churn van.
Three 8-wheeled flat wagons. One brick wagon.
One tar wagon.
One cattle truck.
Three brake vans.