CPR 1980s Car Control Articles, TOSS ... & 1974 Sys Op Ctr Ad

Soylent Green, a dystopian Charlton Heston movie about life in 2022, came out in 1973. 

The CPR ad below came out in 1974 and was clipped by LC Gagnon - probably from the Montreal Gazette. 

My promise to you: LC Gagnon never watched that movie.

The approximately 8x8 inch advertisement was heavily pixilated so I rescued the advertising copy before I blurred the image so you could see as many smoothed details as possible of the Big Board. 

What were they thinking when they used ' X is People ' ? 

First, they were thinking that a headline about CPR's great work managing 'run-through cabooses' would be ignored. 

Some shippers might be forgiven for asking:

'You mean to say that the CPR still has assigned cabooses in 1974 ... 

like ... with the conductor's favourite deer antlers 

and his Masonic Square and Compasses mounted on the cupola?'

... But most shippers would say: 

'I don't care about your cabooses! 

The transport trailers at my dock don't need them!'

The 1980s advertising agency Mad Men didn't say 'Soylent Green is People!' ... you did ... and it attracted you to read through the whole ad. Then you called Albert at 1-800-267-**** to find out about this new 'kind of War Room in the fight for better freight service' because it's 'where the action is'.

... wait! ... a 'caboose' on the Canadian Pacific Railway?? 

*  *  *

Car Control in the 1980s

From 27 February 1980:

From 25 March 1981:

From: 05 February 1986:

CPR Power Control and Car Control articles: 1970s

Here are four articles, in chronological order, describing the creation and evolution of the centralized power and car control systems used by the CPR in the 1970s.

You can imagine that this kind of live, graphic representation of the entire railway had been a dream of railroaders since the CPR was completed. Out of technological necessity, the railways had been segmented into Divisions with a Superintendent overseeing the local physical plant, staff and the rolling stock. 

The early supervisory 'range' of the division superintendent had been determined by the limitations of the early steam locomotives. Every 125 miles or so (a Subdivision), they had to be re-coaled and have their fires cleaned at an ashpit. These dirty operations were incompatible with the clean station waiting rooms, passenger platforms and the travelling public. Over by the roundhouse ('the shop') was where the coal dust and ashes flew. 

Once a fresh, clean engine from the roundhouse Ready Track was coupled to the headend, the train could depart. After it had travelled 125 miles away, the former fresh clean engine was uncoupled, the dust and ashes flew, it was turned on a turntable, and returned to its home roundhouse at the headend of the next appropriately-sized train travelling in that direction.

You can see on the 'planning stage' map, below, that the railway's segmented structure was determined by the range (and speed) of the steam locomotives of the 1880s. Each circle along the top of the map connects with the projected location where a steam locomotive would begin or end its run. At the end of the 125 mile run would be a roundhouse with locomotive maintenance staff, a coaling facility and a plentiful supply of 'good' water which was free of mineral impurities.

A superintendent would reign over the track 125 miles to the east and 125 miles to the west.* 

His 'subjects' would be his: 

• locomotives
• the roundhouses and roundhouse staff
• the running trades crews (engineers, firemen, conductors, trainmen)
• the dispatchers and (their remotely-located hands and eyes) the telegraph operators
• the maintenance of way staff - with the staff sub-divided into handcar-range 'sections'
• yard clerks to document and bill for the railway cars in the various yards and industrial tracks
• personnel and payroll staff
• And experienced, specialized management staff to supervise all these specialized groups of workers

* Note: Divisions often exceeded 250 miles in length (or 2 subdivisions) and there were many other specialties of railway workers. 

This is just a simplified explanation. 

from: Van Horne's Road; Omer Lavallee; 1974; Railfare.

Considering the original technology used by a Canadian wilderness railway, the only method of communicating with Headquarters was by paper (travelling at the speed of the fastest passenger train) ... or by telegraph.

Locomotives became more powerful and dependable and some were operated through/beyond the usual 125 mile change-off points - particularly on fast passenger trains where retaining the same locomotive saved time. The track and roadbed evolved to support faster, heavier trains. Operating rules and signalling improved to accelerate train movements - for example, when a train had to slow down and stop as it cleared the main line for an opposing train. 

The system-wide implementation of telephone communication 1900-1930 (it was probably phased in - based on traffic density) enabled more immediate and more detailed reporting on the location of trains, locomotives and cars ... and on the general condition of the railway. 

Reporting could have been done by telegraph from the earliest times. However, with telephones ... any person without telegraphic skills could pick up the phone and immediately speak to any other person. This facilitated the timely reporting of information (without telegraphic 'translators' on each end) and it allowed for a dialogue when a company officer wanted to direct subordinates toward a particular outcome or to assess their needs for special resources. As Canadian railways were generally conservative in their adoption of new technology, routine reporting of car control information was still largely done by paper.

However, in spite of these significant technological advances ... the steam locomotives still required constant, specialized maintenance by their local divisional roundhouse workers. These engines generally had useful lives of 30-40 years - with regular but conservative rebuilding. The firebox, the high-pressure vessel (the boiler), the pistons, valves and linkages (the transmission), the countless simple curved metal-on-metal bearings greased with different specialty petroleum products ... demanded expert attention. 

... There were many different designs of steam locomotives and some were better suited to particular work in particular geographical territories more than others. So it was still beneficial for the Superintendent and 'his regional roundhouses' to generally have 'their own engines' to control the maintenance challenges and complexity as much as possible. 

In the 1950s, teletype equipment was set up at large freight yards of the CPR so that train consist information (listing every car on a train) could be relayed to a centralized database in Montreal. This was much faster than paper.

Also in the 1950s, diesel-electric locomotives were well on the way to completely displacing steam locomotives. Diesels required much less frequent maintenance. A single engineer could operate an integrated (multiple unit) locomotive consist of almost any power. Motive power could be coupled to a through train and run over distances of 500 to 1000 miles without a change. This was far beyond the practical range of the steam locomotives of the 1880s. The roundhouses and the coaling plants were doomed.

With dieselization, telephones, and 'long distance' computer-facilitated car control it was finally possible to centrally supervise, almost in 'real time', what was happening out on the transcontinental railway. The necessity of entirely delegating the operation of segments of the railway to distant superintendents and their armies of workers was coming to an end. 

... If a train left a yard with 3 locomotives and 80 cars, central supervisory staff at Headquarters knew the identities of each piece of equipment. 

If cars were set off or lifted, or a locomotive was replaced or 'isolated' because of a defect, those details were centrally known no later than the next crew change point ... because the crew going off duty reported these events on paper to the yard office staff. In most cases, however, the motive power information had already been communicated to the dispatcher via a trackside telephone box, or by radio. This information was available to those making decisions about motive power at Headquarters so power problems could be dealt with at the next possible opportunity.

The Operations Centre of the 1970s (articles)

The business of a railway is safely moving railcars for a paying customer, between two points, based on promises of a certain consistent level of service.

The cars are transported by locomotives costing millions of dollars.

In order to meet those service guarantees and to make best use of the new, dependable diesel motive power ... centralized decision makers were finally able to receive timely information on all rolling stock and to quickly communicate their plans, or necessary adaptations when faced with problems.

*  *  *

For the sake of getting things right ...

I think they mixed up the captions for the first two groups of people (one group of 4, one group of 5). Paul Cavanagh appears in the third article (for confirmation) and he resembles the man in the middle of the second photo (a group of 5).

From 25 April 1973:

From 27 June 1973:

From 27 March 1974:

From: 18 April 1979

1967 Confederation Train Power - Mechanical & Electrical Procedures

In 1967 - as I write this it was 50 years ago -  I was about a decade old, and the adults around us were making a big deal about celebrating "the centennial of Canadian confederation". A century prior to that, the three provinces of Canada, Nova Scotia and New Brunswick had confederated themselves as the Dominion of Canada. 

In 1867, the Americans were still tidying up after their Civil War and they were also building railroads from sea to sea. They were making the British North American colonies mighty nervous and they helped precipitate all this confederating.

from: Canada Handbook 1967; Dominion Bureau of Statistics.

In 1867, some other potential provinces were holding out for a better confederation deal. Almost always these provinces wanted money for a money-losing railway ... either existing and over-built ... or non-existing with the explicit understanding that it would be over-built in the future.

*  *  *

With our rich railway history in mind ...

I think this is how the adults figured out that the Confederation Train 

would be the biggest federal Centennial Project of 1967 ...

Canada ... what are we? 

Brainstorm! : ... history ... railways ... losing money ...

Got it! ... Find some railway equipment, put a museum in it, make it FREE !

And paint it PURPLE so the 19 year old Baby Boomer kids 

will feel like they're 'Sticking It to The Man' when they visit.

*  *  *

We saw the Confederation Train at Lachine and again at Dorval. The train was here on the Lachine Wharf Spur, November 24-26, 1967. The tailend is at Notre Dame, just west of 29th Avenue. The headend is facing east, toward Montreal.

... I couldn't calculate carlengths to figure out exactly which street is crossing here ... if I was any good at estimating 'carlengths' I'd probably still be a trainman.

*  *  *

from: Railways of Canada; Nick and Helma Mika; 1978; Mika Publishing.

On the nose of the lead unit is the Centennial logo.
One triangle for each province, one triangle for 'all the territories up north somewhere'.
The stem represents the stem.

The large whistle is designed to play the first four notes of 'O Canada' - a perfect Rule 14 (l).
But safety regulators ultimately required the use of a standard whistle for grade crossings.

*  *  *

The Confederation Train is a very specialized, and now a very obscure, bit of Canadian railway history.
Below is the only coverage I could find in contemporary Canadian Rail or Trains.

Madame Vanier is the spouse of Governor General Georges Vanier -
a Great War veteran of distinguished service, he was ailing and would die a few months later.

from: Canadian Rail, December 1966; Canadian Railroad Historical Association

This blog is a proud purveyor of specialized obscurity.

Many years ago, I purchased a duo-tang full of the blank forms and procedures used to ensure the Confederation Train was properly checked and maintained during its travels on at least the two major railways all across Canada. Unfortunately, there are no forms completed with actual operating data.

Other posts will also fill in details from contemporary sources on the government's perspective on how Canada's centennial celebrations had been planned and organized. Some readers will remember that there were also truck caravans to take similar museum exhibits to communities unable to host the Confederation Train. 

A personal account I read recently regretted the fact that Montreal got Expo 67 but the west only got a dumb train. As you'll see, Expo 67 was not a federal project in the way that the train and other federal celebrations were. A great deal of emphasis was also put on personal centennial projects and local projects to celebrate the centennial.

Getting back to Confederation Train artifacts, the most boring generic items are in this post. Here are the mechanical and electrical checklists used to ensure the reliable operation of the train's motive power. Perhaps they were extracted from standard training or procedure manuals for maintaining motive power at shops. These sheets look as if they were cut, pasted and photocopied under the Confederation Train heading.

 Keep in mind that the headend equipment would idling for days on end at locations away from fully-equipped shops. 'Museum heat' was provided by steam generators. Half of the passenger cars in the consist were used for 'museum support' and staff accommodation. This would not have been a cheap project to set up and operate for a year in all types of Canadian weather.

This particular diesel technology was less than two decades old at the time, and steam locomotives had only been eliminated on major Canadian railways about six years earlier. If nothing else, the sheets following below show the technology of 50 years ago.