Saturday, August 29, 2015

Mt. Eisenhower in Canada??


The train tracks in the foreground of this post card belong to the Canadian Pacific Railroad. The mountain was named "Castle Mountain" by James Hector in 1858 (a Scottish geologist, naturalist, and surgeon who
accompanied the Palliser Expedition as a surgeon and geologist) for its castle-like appearance. From 1946 to 1979 it was known as Mount Eisenhower in honour of the World War II general Dwight D. Eisenhower. Public pressure caused its original name to be restored, but a pinnacle on the southeastern side of the mountain was named Eisenhower Tower.


Located nearby are the remains of Silver City, a 19th-century mining settlement, AND the Castle Mountain Internment Camp in which persons deemed enemy aliens and suspected enemy sympathizers were confined during World War I. The Castle Mountain Internment Camp, located in Banff National Park, Alberta, was the largest internment facility in the Canadian Rockies, housing several hundred prisoners at any one time. Established on July 13, 1915, a total of 660 "enemy aliens" were interned at the facility during its entire operation. It held immigrant prisoners of Ukrainian, Austrian, Hungarian and German descent. Their only crime was that they were not born in Canada.

Despite their civilian status, a great many people were sent to prisoner of war camps located in the Canadian hinterland, to be used as military conscript labour on government work projects. Of particular note was the use of forced labour in Canada’s national parks, where they were introduced there as a matter of policy to improve existing facilities and increase accessibility by developing the park system’s infrastructure. By 1915 several internment camps in and around the Rocky Mountains were in full swing, including a camp at the foot of Castle Mountain, the terminal point of the then uncompleted Banff-Laggan (Lake Louise) road.

Recognizing the value of future tourism, the main purpose of the camp was to push the Banff highway on through to Lake Louise, although, in addition, bridges, culverts and fireguards were also built. The camp consisted of tents within a dual barbed wire enclosure. The tents however proved inadequate during the severe winter climate, forcing the camp to relocate to military barracks built on the outskirts of the town of Banff, adjacent to the Cave and Basin, site of the original Hot Springs.

With the onset of spring, the camp returned once more to the Castle Mountain site. This process of return and relocation would continue until August 1917 when the camp was finally closed when the internees were conditionally released to industry to meet the growing labour shortage. All of the above information was taken from Wikipedia.

The post card was printed and published by Byron Harmon.
Harmon arrived in Alberta in 1903 as an itinerant photographer after leaving his portrait studio in Tacoma, Washington. By 1906 He had become a founding member and official photographer of the Alpine Club of Canada. He took over 6,400 photographs while exploring the Canadian Rockies and the Selkirks. In 1907 Harmon began turning many of these photographs into real photo postcards, which became his principal life’s work. In 1924 he traveled into the Rockies with the photographer Lewis R. Freeman. Some of the real photo postcards produced under Harmon’s name from this trip may actually be the work of Freeman that he published for him. After this trip Harmon mostly produced scenes alongside railway lines.
This particular post card has a white border around it so it is probably from between 1915 to 1930.

Saturday, August 22, 2015

Following the Rabbit Trails...


Colette and I won a trip to Los Angeles through a radio station that we listen to and support. We stayed in a hotel in the financial district about 6 or 8 blocks from the Union Train Station. Across the street from the hotel was the enticing little Caravan Book Store. It had displays in the windows and inside the store, itself that screamed at me, “Come visit!” So we did. We met a nice gentleman who directed me to the train section of the bookstore. It included a few groupings of post cards. As I thumbed through them I realized that I already had most of them in my collection. He even had some Byron Harmon post cards from the Canadian Rockies near Field, British Columbia. We had a discussion about trains and I bought two post cards from his collection to add to mine.
This is one of them. I was attracted to it for two reasons; first, it had a train on the front and, second, it was from Lima, Ohio. My paternal grandfather was born in Lima, Ohio.
I have researched the train station. There were five stations in Lima, but I cannot figure out which one was known as the Union Depot. I found this in Wikipedia: Allen County's first railroad line was built by the Indiana Railroad in 1854 and later subsumed into the Pennsylvania Railroad system. By the early twentieth century, Lima was a transportation center with links to five railroads, and its economy was highly dependent on the industry-leading Lima Locomotive Works.
Then I tried to find out about the publisher: the M. Weixelbaum Co.
Searching the web I found that there have been many Weixelbaums in the United States. The closest I could come to this company was the following. This is the result of me putting together many puzzle pieces; I am not sure of exactly how accurate the picture is, but, here goes… M. Weixelbaum was born on June 19, 1883 as Milton Weixelbaum the son of Jewish parents Adolph and Jennie. He had at least one brother, probably Jesse. Milton married Elnora Betz in 1912; they had no children by 1926. He must have either gone into business with his brother(s) or they inherited the business. In the local paper there is a reference to applying for a job at the Weixelbaum Brothers Co. 20 West High Street.
I found things published by him as early as 1906. They were post cards of Muncie, Indiana. This particular post card is from the Divided Back Era (1907 – 1915). I can date it even more specifically because the postmark on the back says that the card was mailed on August 20, 1910. That makes this post card 105 years old two days ago.

Saturday, August 15, 2015

World's Longest Railroad Tunnel (at the time)

I can tell you with great certainty that the picture on this post card was taken after December 16, 1916. I know that because the Connaught Tunnel was opened on that day. The tracks shown here belong to the Canadian Pacific Railway and they are not very far from the bridge in last week’s blog post. This picture was also taken by the photographer, Byron Harmon.

You will notice that there is a set of double tracks through the tunnel. This is because, according to Gary Backler’s graduate thesis: “The C.P.R.’S Capacity and Investment Strategy in Rogers Pass, B.C., 1882 – 1916” the reason the tunnel was built was to compete with other rail lines to gain the lion’s share of rail traffic and to accommodate the increasing demand on the rails that the CPR already operated between Vancouver and Calgary. According to his thesis, the number crunchers found the combination of elevation and length of tunnel to make the project financially feasible. I recommend that you read this article: http://www.okthepk.ca/dataCprSiding/articles/201111/month00.htm

It is named the Connaught Tunnel because it was named after the person who was the Governor General (the queen’s representative in Canada) at the time, the seventh child of Queen Victoria: Prince Arthur William Patric Albert, the Duke of Connaught (a county in Ireland). Construction on the tunnel was started on April 2, 1914 and completed on December 16, 1916. The tunnel is 5.022 miles long (the longest tunnel at the time of its completion) and 20 feet wide. The grade through the tunnel is a mere .95%. In building this tunnel through the mountain CPR was able to abandon fourteen and a half miles of track and thirty one snow sheds. It also saved countless lives of the workers who could have died clearing avalanches on that 14.5 miles of track in Rogers Pass.
I can tell you with great certainty that the picture on this post card was taken after December 16, 1916. I know that because the Connaught Tunnel was opened on that day. The tracks shown here belong to the Canadian Pacific Railway and they are not very far from the bridge in last week’s blog post. This picture was also taken by the photographer, Byron Harmon.

You will notice that there is a set of double tracks through the tunnel. This is because, according to Gary Backler’s graduate thesis: “The C.P.R.’S Capacity and Investment Strategy in Rogers Pass, B.C., 1882 – 1916” the reason the tunnel was built was to compete with other rail lines to gain the lion’s share of rail traffic and to accommodate the increasing demand on the rails that the CPR already operated between Vancouver and Calgary. According to his thesis, the number crunchers found the combination of elevation and length of tunnel to make the project financially feasible. I recommend that you read this article: http://www.okthepk.ca/dataCprSiding/articles/201111/month00.htm

It is named the Connaught Tunnel because it was named after the person who was the Governor General (the queen’s representative in Canada) at the time, the seventh child of Queen Victoria: Prince Arthur William Patric Albert, the Duke of Connaught (a county in Ireland). Construction on the tunnel was started on April 2, 1914 and completed on December 16, 1916. The tunnel is 5.022 miles long (the longest tunnel at the time of its completion) and 20 feet wide. The grade through the tunnel is a mere .95%. In building this tunnel through the mountain CPR was able to abandon fourteen and a half miles of track and thirty one snow sheds. It also saved countless lives of the workers who could have died clearing avalanches on that 14.5 miles of track in Rogers Pass.

Notice that Mr. Harmon was kind enough to tell us that the mountain in the background is Ross Peak. It was named after James Ross who was the superintendent of the construction efforts in the Selkirks. It is 7,647 feet tall.

Saturday, August 8, 2015

World's Tallest Railroad Bridge (at the time)

You are looking at what was the tallest bridge in the world at the time this picture was taken. This is the Canadian Pacific Railway’s Stoney Creek Bridge, on the eastern side of Rogers Pass in the Selkirk Mountains of British Columbia, Canada.

It was built as part of the Continental Railroad promised to the citizens of British Columbia if they would vote to join the Canadian Federation. The present steel bridge is a 656 foot long truss arch bridge. In 1893 this bridge replaced a wooden trestle that was built in 1885. It stands 295 feet over Stoney Creek. In 1929 a second steel arch was added to handle the train traffic that had become heavier over the decades.

For almost 60 years, until 1988, this bridge handled all of the Canadian Pacific's transcontinental traffic. A second track was built at a lower altitude, so that now this bridge is designated to handle mostly eastbound rail traffic. The "Rocky Mountaineer" and the "Royal Canadian Pacific" tourist trains usually cross this bridge.

It was a great image for rail fan photographers for decades. However, some “graffiti artists” decided to decorate the bridge and vandalize the radio relay tower nearby. Fortunately, the relay tower was alarmed and they were caught. Unfortunately, because of its remoteness, rail fans are not welcomed and the engineers are asked to radio in any leads about any trespassers. One of my dreams that will not be fulfilled!

These two “real photo” post cards are the same image taken by the same photographer: Byron Harmon. He simply produced the image in two renderings. I know it is Byron Harmon because he has stamped the back of the larger post card with his well-known and trademarked stamp.

Harmon arrived in Alberta in 1903 as an itinerant photographer after leaving his portrait studio in Tacoma, Washington. By 1906 He had become a founding member and official photographer of the Alpine Club of Canada. He took over 6,400 photographs while exploring the Canadian Rockies and the Selkirks, where the picture on this post card was taken. In 1907 Harmon began turning many of these photographs into real photo postcards, which became his principal life’s work. In 1924 he traveled into the Rockies with the photographer Lewis R. Freeman. Some of the real photo postcards produced under Harmon’s name from this trip may actually be the work of Freeman that he published for him. After this trip Harmon mostly produced scenes alongside railway lines.

Saturday, August 1, 2015

Celebrating 1776 in Electrical Wonder

These top two street cars are of the PCC variety.
The bottom one is a GG1 built by the Pennsylvania Railroad.
The "PCC" in these cars' name comes from the name of a design committee formed in 1929 as the Presidents' Conference Committee and renamed the Electric Railway Presidents' Conference Committee (ERPCC) in 1931. This group's membership consisted mostly of representatives of some of the larger operators of urban electric street railways in the United States. The ERPCC goal was to design a new and modern type of streetcar that would better meet the needs of the street railways and their customers. The committee prepared a detailed research program, conducted extensive research, built and tested components, made necessary modifications, and, in the end, produced a set of specifications for a complete vehicle of a set design built with standard parts as opposed to a custom designed car body with any variety of different parts added to it depending on the whims and requirements of the individual customer. A significant contribution to the PCC design was Noise Reduction with extensive use of rubber in springs and other components to prevent rattle, vibration, and thus noise and to provide a level of comfort not known before. Wheel tires were mounted between rubber sandwiches and were thus electrically isolated so that shunts were used to complete ground. Resilient wheels were used on most PCC cars with later heftier cousins known as Super-Resilient.
Gears were another source of considerable noise, solved by employing hypoid gears which are mounted at a right angle to the axle, where three of the six teeth constantly engaged the main gear, reducing play and noise. All movable truck parts employed rubber for noise reduction as well. "Satisfactory Cushion Wheel of Vital Importance; Develop New Truck Design; Generous Use of Rubber" are headings within a paper that Chief Engineer Hirshfeld both presented and published.
After a specification document suitable for purchasing cars was generated by TRC orders were placed by 8 companies in 1935 and 1936. First was Brooklyn & Queens Transit Co. (B&QT) for 100 cars, then Baltimore Transit Co. (BTCo) for 27 cars, Chicago Surface Lines (CSL) for 83 cars, Pittsburgh Railways Co. (PRCO) for 101 cars, San Diego Electric Railway (SDERy) for 25 cars, Los Angeles Railway (LARy) for 60 cars, and then Boston Elevated Railway (BERy) for 1 car.
Most PCCs employed three pedals with a dead man's switch to the left, brake in center, and power pedal on the right. Depressing the brake about half way and then releasing the dead man pedal put the PCC in "park". Lifting the dead man alone would apply all brakes, drop sand, and balance the doors so they could be pushed open easily.
The first PCC cars in Canada were operated by the Toronto Transit Commission (TTC) in 1937. By 1954 Toronto had the largest PCC fleet in the world, including many purchased second-hand from U.S. cities that abandoned streetcar service following the Second World War. Although it acquired new custom-designed streetcars in the late 1970s and 1980s, the TTC continued using PCCs in regular service until the mid-1990s, and retains two (#4500 and #4549) for charter purposes.
The Edmonton Radial Railway Society operates TTC 4612 at Fort Edmonton Park and has cars 4349 and 4367 in storage.
The above information was gleaned from the wikipedia site.
The following information is taken from the website http://www.steamlocomotive.com/GG1/
The GG1 was designed by the Pennsylvania Railroad based on the need for a locomotive that could pull more than 12 to 14 passenger cars. The railroad thought it had designed the perfect electric passenger locomotive, the P-5a, but as the P-5a locomotives arrived, it became necessary to double head them on many trains in order to protect schedules. Two other factors were involved in the development of the GG1. The chassis and wheel arrangement were a result of experiments with a leased New Haven EP3a and the streamlined body and center crew cab were an outcome of concern for crew safety. A tragic grade crossing accident in which a box cab P-5a hit a truck killing the engineer, reinforced the need for better protection for the crew. After the accident, a hold was put on further manufacture of the box cab P-5a and the locomotive was redesigned to include a center crew cab. The GG1 was given a sculptured carbody with contoured hoods that were tapered to provide visibility for the enginemen. As a result, a very aesthetically pleasing design evolved. Raymond Loewy, the renowned industrial designer, reviewed the prototype and recommended welding the shell rather than using rivets. He then suggested adding the famous pin stripes, making the design an award winner.

The railroad built 139 units (#4800 through #4938) between the years 1934 and 1943. Many of them were built at the Juniata Locomotive Shop in Altoona, PA.

This streamlined locomotive, designed for bidirectional operation was mainly used for passenger trains, but a few were regeared for freight service. Lasting from 1934 to well into the 1980s it would be hard to find any other American locomotive design that operated for a longer period of time. The 79.5 foot long 230+ ton GG1 was built on an articulated frame which permitted its 2-C+C-2 wheel arrangement to negotiate tight curves even in congested areas. Power was picked up from an overhead 11,000 Volt AC catenary wire by a pantograph and the voltage stepped-down through an on board transformer to feed the 12 single phase 25 cycle traction motors. Each of these motors developed 385 HP giving the GG1 a total of 4620 HP in continuous operation and allowed speeds up to 100 mph. The body of the locomotive also housed large blowers for motor and transformer cooling, a steam boiler for passenger car heat, electric controllers and sanding boxes.

Of the 139 units built, only 16 survive today. Some have been restored superficially and can be visited as shown below. It is not likely that any of these survivors will ever run again because of the prohibitive cost to rebuild or replace the electrical components.