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Westinghouse Air Brake Company - Pittsburgh, Pennsylvania 1872  

Westinghouse Air Brake Company - Pittsburgh, Pennsylvania 1872

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Beautiful check from the Westinghouse Air Brake Company dated 1872. This historic document has a border around it with a vignette of an an old train. This item has the signatures of the Company’s President and its Treasurer. The check is over 142 years old. Pen cancelled.

Westinghouse Air Brake Company

The air brake was invented by George Westinghouse of New York State in 1868. He moved to Pittsburgh, Pa., where he established the Westinghouse Air Brake Company (WABCO).

After having manufactured equipment in Pittsburgh for a number of years, he began to construct facilities and plants eastwards of the city where homes for his employees were built, particularly at East Pittsburgh, Turtle Creek, and Wilmerding.

The straight air brake

The first form of the air brake consisted of an air pump, a main reservoir, and an engineer's valve on the locomotive, and of a train pipe and brake cylinder on each car. The main objection to this first form of the air brake was that braking was applied to the first cars in a train much sooner than to the rear cars, resulting in shocks and damages when the rear cars bunted against the cars ahead of them.

The plain automatic air brake

In 1872, George Westinghouse invented the automatic air brake by inventing the triple valve and by equipping each car with its own air cylinder. Air pressure is maintained in the auxiliary reservoirs and in the train pipe at all times when the brakes are not applied. An equilibrium of air pressure is maintained in the train pipe and in the auxiliary air cylinders.

To apply the brakes to all of the cars at about the same time, pressure is released from the train pipe, causing the triple valve on each car to apply the brakes. To release the brakes on each car, pressure is increased in the train pipe until an excess pressure above that of the pressure in each auxiliary cylinder is reached, which throws the triple valve so as to close the inlet to the brake cylinder and open the inlet to the auxiliary reservoir from the train pipe, thus allowing the equilibrium of the two pressures to be reached.

The quick action triple valve

Although the plain automatic air brake was a great improvement over the straight air brake, in an emergency the system still applied the brakes to the last cars in a train later than to the first cars in a train. To remedy that condition, George Westinghouse invented the quick action triple valve in 1887. It automatically vents air from the brake pipe locally on each car, which applies the brakes more quickly.

Electric railways

For the air brake to be employed on electric railways requires an air compressor that is powered by electricity. Powerful electric locomotives were produced by the Westinghouse Electric & Manufacturing Company and by other companies. The invention of the less troublesome diesel engine has reduced the number of electric railways.




George Westinghouse, Jr. (October 6, 1846 – March 12, 1914) was an American entrepreneur and engineer now best known for the brand of electrical goods that bear his name.

Early years George Westinghouse was born in Central Bridge, New York, on October 6 1846. In the mid-1850s, his father, George Westinghouse, Sr., established a factory in Schenectady, New York, where young George learned about mechanics, manufacturing, management, and business. After the outbreak of the American Civil War in 1861, the 15-year-old George ran away with two of his brothers to fight for the Union cause. One of the brothers was killed in action. George transferred to the Union Navy to become a ship's engineer.

George Westinghouse returned to Schenectady after the end of the war in 1865, where he studied engineering at Union College while he dreamed up new inventions, mostly related to the railroads. At the time, the safety record of the railroads was appalling, and he became interested in designing improvements that would make trains safer and more efficient to operate.

His first major invention was a device to mount railroad cars back on tracks after they had been derailed. After watching a collision between two trains, he invented an improved braking system that could be operated by the locomotive engineer, without the delay of going through a brakeman.

Such systems had been invented before, based on steam or chains, but had not proven effective. Westinghouse invented a new system that used compressed air. This original Westinghouse braking system was not "fail-safe", but he refined the design until it was, and also worked towards standardization of air brake systems to ensure interoperability between different train lines. In 1893, the U.S. Railroad Safety Appliance Act made air brakes mandatory on all trains in the US, and air brakes remain standard on railroads, trucks, and buses even today.

In 1868, Westinghouse went to Pittsburgh, Pennsylvania, where the next year he set up the Westinghouse Air Brake Company (WABCO). His air-brake system established his reputation and fortunes. He moved on to develop a new automatic signal and switching system using electricity and compressed air, as well as improved car couplers.

He then began to expand the scope of his activities. Oil was becoming increasingly important for industrial purposes. Oil drilling tended to release natural gas, which was simply wasted because there was no way to deal with it. Westinghouse developed improved drilling equipment that could handle natural gas, as well as the elements of piping systems needed to distribute the gas.

The invention of the telephone by Alexander Graham Bell in 1877 led Westinghouse into a new domain. At first, all telephone calls were routed through a central switchboard, but this led to a tangle of wiring. In 1879, Westinghouse introduced automated substations that could route calls to a central exchange, greatly reducing the number of connections. Such a "hierarchical" switching system would eventually be expanded into the modern switched telephone network.

Electricity and the "War of Currents" In 1875, Thomas Edison had been a virtual unknown. He had achieved some success with a "multiplex telegraph" system that allowed multiple telegraph signals to be sent over a single wire, but had not yet obtained the recognition he wanted. He was working on a telephone system but was upstaged by Bell. Edison bounced back quickly from the setback to invent the phonograph, which was a public sensation nobody had dreamed possible and made him famous.

Edison's next step, in 1878, was to invent an improved incandescent light bulb, and more the point to consider the need for an electrical distribution system to provide power for light bulbs. On September 4 1882, Edison switched on the world's first electrical power distribution system, providing 110 volts direct current (DC) to 59 customers in lower Manhattan, around his Pearl Street laboratory.

Westinghouse's interests in gas distribution and telephone switching logically led him to become interested in electrical power distribution. He investigated Edison's scheme, but decided that it was too inefficient to be scaled up to a large size. Edison's power network was based on low-voltage DC, which meant large currents and serious power losses. Several European inventors were working on "alternating current (AC)" power distribution. An AC power system allowed voltages to be "stepped up" by a transformer for distribution, reducing power losses, and then "stepped down" by a transformer for use.

A power transformer developed by Lucien Gaulard of France and John Gibbs of England was demonstrated in London in 1881, and attracted the interest of Westinghouse. Transformers were nothing new, but the Gaulard-Gibbs design was one of the first that could handle large amounts of power and promised to be easy to manufacture. In 1885, Westinghouse imported a number of Gaulard-Gibbs transformers and a Siemens AC generator to begin experimenting with AC networks in Pittsburgh.

Assisted by William Stanley, and Franklin Leonard Pope, Westinghouse worked to refine the transformer design and build a practical AC power network. In 1886, Westinghouse and Stanley installed the first multiple-voltage AC power system in Great Barrington, Massachusetts. The network was driven by a hydropower generator that produced 500 volts AC. The voltage was stepped up to 3,000 volts for transmission, and then stepped back down to 100 volts to power electric lights. The problems inherent in the new AC system were highlighted when Mr. Pope was electrocuted by a malfunctioning AC converter in the basement of his home (see) [1]. That same year, he formed the "Westinghouse Electric & Manufacturing Company", which was renamed the "Westinghouse Electric Corporation" in 1889.

Thirty more AC lighting systems were installed within a year, but the scheme was limited by the lack of an effective metering system and an AC electric motor. In 1888, Westinghouse and his engineer Oliver Shallenger developed a power meter, which they designed to look as much like a gas meter as possible. The same basic meter technology is still used today.

An AC motor was a more difficult task, but fortunately a design was already available. The brilliant Serbian-American inventor Nikola Tesla had already dreamed up the basic principles of a polyphase electric motor.

Tesla and Edison did not get along well. Earlier Tesla had worked for the Edison General Electric company in Europe, but was unpaid for his service and had to go into labour for a few years. Later, Edison promised Tesla $50,000 if he could redesign electrical dynamos for AC use. When Tesla did this, Edison told Tesla that he had been joking about the money. Edison and Tesla quickly parted company.

Westinghouse got in touch with Tesla, and obtained patent rights to Tesla's AC motor. Tesla had conceived the rotating magnetic field principle in 1882 and used it to invent the first brushless AC motor or induction motor in 1883. Westinghouse hired him as a consultant for a year and from 1888 onwards the wide scale introduction of the polyphase AC motor began. The work led to the standard modern US power-distribution scheme: three-phase AC at 60 Hz, chosen as a rate high enough to minimize light flickering, but low enough to reduce reactive losses, an arrangement also conceived by Tesla.

Westinghouse's promotion of AC power distribution led him into a bitter confrontation with Edison and his DC power system. The feud became known as "the War of Currents." Edison claimed that high voltage systems were inherently dangerous; Westinghouse replied that the risks could be managed and were outweighed by the benefits. Edison tried to have legislation enacted in several states to limit power transmission voltages to 800 volts, but failed.

The battle went to an absurd, and some would say tragic, level, when in 1887 a board appointed by the state of New York consulted Edison on the best way to execute condemned prisoners. At first, Edison wanted nothing to do with the matter, declaring his opposition to capital punishment.

However, Westinghouse AC networks were clearly winning the battle of the currents, and the ultra-competitive Edison saw a last opportunity to defeat his rival. Edison hired an outside engineer named Harold P. Brown, who could pretend to be impartial, to perform public demonstrations in which animals were electrocuted by AC power. Edison then told the state board that AC was so deadly that it would kill instantly, making it the ideal method of execution. His prestige was so great that his recommendation was adopted.

Harold Brown then sold gear for performing electric executions to the state for $8,000. In August 1890, a convict named William Kemmler became the first person to be executed by electrocution. Westinghouse hired the best lawyer of the day to defend Kemmler and condemned electrocution as a form of "cruel and unusual punishment". The execution was messy and protracted, and Westinghouse protested that they could have done better with an axe. The electric chair became a common form of execution for decades, even though it had proven from the first to be an unsatisfactory way to do the job. However, Edison failed in his attempts to have the procedure named "Westinghousing".

Edison also failed to discredit AC power, whose advantages did in fact well outweigh its hazards. Even General Electric, formed with Edison's backing in Schenectady in 1892, decided to begin production of AC equipment.

Later years In 1893, in a significant coup, the Westinghouse company was awarded the contract to set up an AC network to power the World's Columbian Exposition in Chicago, Illinois, giving the company and the technology widespread positive publicity. Westinghouse also received a contract to set up the first long-range power network, with AC generators at Niagara Falls producing electricity for distribution in Buffalo, New York, 40 kilometers (25 miles) away.

With AC networks expanding, Westinghouse turned his attention to electrical power production. At the outset, the available generating sources were hydroturbines where falling water was available, and reciprocating steam engines where it was not. Westinghouse felt that reciprocating steam engines were clumsy and inefficient, and wanted to develop some class of "rotating" engine that would be more elegant and efficient.

In fact, one of his first inventions had been a rotary steam engine, but it had proven impractical. However, an Irish engineer named Charles Algernon Parsons began to experiment with steam turbines in 1884, beginning with a 10 horsepower (7.5 kW) unit. Westinghouse bought rights to the Parsons turbine in 1885, and began work towards improving the Parsons technology and scaling it up.

Skeptics questioned that the steam turbine would ever be a reliable large-scale power source, but in 1898 Westinghouse demonstrated a 300 kilowatt unit, replacing reciprocating engines in his air-brake factory. The next year he installed a 1.5 megawatt, 1,200 rpm unit for the Hartford Electric Light Company.

Westinghouse then turned his attention to using such large steam turbines to drive big ships. The problem was that such large turbines were most efficient at about 3,000 rpm, while an efficient propeller operated at about 100 rpm. That meant reduction gearing, but building a reduction gear system that could operate at such high rpm and at high power was tricky. Even a slight misalignment would shake the power train to pieces. Westinghouse and his engineers were able to devise an automatic alignment system that made turbine power practical for large vessels.

Westinghouse remained productive and inventive through almost all his life. Like Edison, he had a practical and experimental streak. At one time, Westinghouse began to work on heat pumps that could provide heating and cooling, and even believed that he might be able to extract enough power in the process for the system to run itself.

Any modern engineer would clearly see that Westinghouse was after a perpetual motion machine, and the Irish & British physicist Lord Kelvin, one of Westinghouse's correspondents, told him that he would be violating the laws of thermodynamics. Westinghouse replied that might be the case, but it made no difference. If he couldn't build a perpetual-motion machine, he would still have a heat pump system that he could patent and sell.

With the introduction of the automobile after the turn of the century, Westinghouse went back to earlier inventions and came up with a compressed-air shock absorber scheme to allow automobiles to deal with the wretched roads of the time.

Westinghouse remained a captain of American industry until 1907, when a financial panic led to his resignation from control of the Westinghouse company. By 1911, he was no longer active in business, and his health was in decline.

Death and legacy

The Westinghouse Memorial in Schenley ParkGeorge Westinghouse died on March 12 1914, in New York City, at age 67. As a Civil War veteran, he was buried in Arlington National Cemetery, along with his wife Marguerite. He was mourned. Although a shrewd and determined businessman, Westinghouse was a conscientious employer and wanted to make fair deals with his business associates. In 1918 his former home was razed and the land given to the City of Pittsburgh to establish Westinghouse Park. In 1930, a memorial to Westinghouse, funded by his employees, was placed in Schenley Park in Pittsburgh. George Westinghouse Bridge is near the site of his Turtle Creek plant. The plaque on it reads: IN BOLDNESS OF CONCEPTION, IN GREATNESS AND IN USEFULNESS TO MANKIND THIS BRIDGE TYPIFIES THE CHARACTER AND CAREER OF GEORGE WESTINGHOUSE 1846-1914 IN WHOSE HONOR IT WAS DEDICATED ON SEPTEMBER 10, 1932

History from Wikipedia and OldCompany.com

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