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The Self Winding Clock Company of New York was a major manufacturer of electro-mechanical clocks from 1886 until about 1970. The Self Winding Clock Company(SWCC) clock mechanisms were truly revolutionary because the spring that powers the clock was not wound by hand but with an electric motor. The SWCC of New York was one of the first companies in the United States to successfully employ electric energy to power a clock. The winding motor is attached to, and mounted below, the conventional clock works. The unique feature of their patented clock mechanism is the automatic rewinding of the main spring each hour by the small electric motor. A contact switch mounted on the clock’s center shaft is activated after the clock has run for one hour and the main spring is rewound one revolution. This rewinding occurs each hour. The power for the motor is supplied by batteries and the batteries last about 1 year before needing to be replaced. This clock mechanism never needed to be wound by hand and this eliminated the concern that someone may forget to wind the clock. Hence the company name, The Self Winding Clock Company.

Selling Exact Time---A New Industry
The motivation for establishing the Self Winding Clock Company was early entry into a revolutionary and potentially profitable new industry. The product this new industry was selling -- Exact Time. This became possible following the development of the telegraph. The first marketers of time were observatories. The observatories used their celestial equipment to measure exact time and then transmit a time signal via telegraph lines to subscribers. This was done for a fee! In the 1850’s and 1860’s communication and travel between cities became more common. The practice of observing local time was becoming obsolete and the need for everyone to agree to the exact time became essential. The railroads recognized that safety was related to precise timing and all timepieces in a given area must be set to the same time. The heads of the major railroads met on October 11, 1883, in Chicago to adopt our Standard Time System. The country was divided into four time zones with exactly one hour difference in each zone. The four time zones are part of the world wide system of Standard time ---a set of 24 somewhat equally spaced meridians tied to the daily cycle of daylight and darkness. It is based in Greenwich, England and termed Greenwich Mean Time. Observatories had been selling exact time since the 1850’s and transmitting the noon time signal via telegraph lines to customers, usually nearby cities and railroads. The signals were transmitted to sounders as second ticks and pauses that culminated in a noon time signal. The subscriber’s clock could then be manually adjusted to exactly noon. For providing this exact time service there was a monthly or yearly charge. Observatories were affiliated with colleges or universities with the exception of the United States Naval Observatory (USNO) which is affiliated with the United States government. Competition for customers was keen between observatories but by 1887 the USNO was recognized as the provider of Observatory Standard Time by the General Time Convention that had been convened by the countries railroads. This ended the intense competition for providing exact time. Western Union’s time service distributed the time signal via its telegraph lines. Western Union had years of experience in transmitting USNO time signals and ultimately emerged as the provider of nationwide telegraph lines for the noon time signal.

The competition for selling exact time necessitated developing a reliable master clock and auxiliary clocks. Connecting multiple clocks via electrical wires in a system had proved feasible. Two slightly different master clock-slave clock concepts emerged. The first entailed the use of an electro-mechanical “synchronizer” to forcibly bring the minute hand to the 12 position exactly on the hour. Each of the clocks in this system used a complete clock mechanism with the addition of a synchronizer. A central clock (master clock) sent the synchronizing signal along telegraph lines to each clock assuring that all clocks displayed exactly the same time. The individual clocks in this system had self-contained batteries and required 3 volts direct current (DC) to operate. The batteries for the synchronizing system transmission were located in a central office. The use of the mechanical synchronizer was the design of Chester Pond and his associates as they formed the SWCC in 1886. A second approach to synchronized time transmitted along wires was to connect a master clock to relatively simple secondary clocks (slave clocks). The slave clocks did not have complete clockworks but simply a mechanism that, when energized electrically, would advance the clock hands one unit of time at each electrical impulse. Slave clocks were much less complicated to manufacture and required little or no servicing. Initially they were more prone to failure. Each of the slave clocks had wires that connected to the master clock. The master clock in this system required 24 volts DC to both wind the master clock and as a source of current to advance the hands of the slave clock. These master-slave systems were more suited for individual buildings such as schools or factories rather than locations that were great distances apart. A master-slave clock system was developed and marketed in 1886 by Charles D. Warner and operated as the Standard Electric Time Company. The accuracy of the master-slave system was dictated by the accuracy of the master clock and reliability of the slave clocks. Over the years correction systems were developed for the master-slave systems that rendered the systems very reliable and accurate. In the first three decades of the 20th century many more companies entered the selling time business. When one considers the entire country, the number of synchronized clock systems installed in learning institutions, factories, businesses, government installations, transportation facilities, etc., etc. was enormous. Many hundreds of thousands of slave clocks and probably tens of thousands of master clocks were manufactured, sold, installed and serviced by people involved in the exact time for sale business.

Synchronized time systems were originally powered by batteries and most up through the 1950’s operated on low voltage DC current. Eventually the new systems were designed to operate on alternating current. For many years selling exact time was a major industry. Presently the Global Positioning System (GPS) space-based satellite navigation system now provides our exact location and time information. Slave clocks, which were an integral part of the synchronized time system, now are often replaced with battery operated clocks that are linked to the atomic clock signal for synchronizing. Selling exact time has a fascinating history but its importance as an industry has been superseded.

Founding of the Self Winding Clock Company
The Self Winding Clock Company clock movement was patented by one of the company founders, Chester Henry Pond (1844-1912) in 1884 (Patent No. 308,521). Pond was also a principal in the Gamewell Fire Alarm-Telegraph Company. He was not only an accomplished instrument maker but also a pioneer in the developing field of electricity. With these two skills he successfully designed a small electric motor and matched it with a conventional clock mechanism to create the reliable SWCC movement. In addition to the electric motor to wind the SWCC movement, in 1886, Chester Pond patented a correction device that used an electrical current to activate a mechanical lever attached to the clock movement. This correction attachment would move the clock hands precisely to the hour (Patent No. 339,688). If the clock is not absolutely accurate it would be corrected when receiving a time signal over a telegraph line from a master clock calibrated to the US Naval Observatory. This correction was referred to as synchronizing and many SWCC clocks were fitted with this option. The original SWCC factory was located at 205 Willoughby Avenue in Brooklyn, New York. This site was across from the Pratt Institute and now is part of the Pratt Institute campus. Charles Pratt (1830-1891), the founder of Pratt Institute, was also one of SWCC’s original founders and the company started business in his buildings. The SWCC factory remained in Brooklyn until they moved to 75 Varick Street, New York at some time in the 1950’s, to apparently make room for expansion at the Pratt Institute. In addition to a factory, SWCC had business offices at various locations in New York city throughout its long history.

Self Winding Clock Company Clock Movements
When Self Winding Clock Company started producing clocks the vast majority of the actual clock movements were made by the Seth Thomas Clock Company and the remainder were made by the E. Howard & Co.. The most expensive clocks could be equipped with the higher grade movement made by E.Howard. SWCC then fitted their motor winding components and synchronizing apparatus to the movements. The movements were mounted in cases of various designs, often in case styles similar to those of companies like Seth Thomas and E. Howard. The SWCC appears to have been manufacturing their own clock movements by 1892 for they are all stamped "Self Winding Clock Co". Earlier movements were stamped with Seth Thomas or E. Howard markings. . The unique feature of SWCC clocks was the fact that the clocks were wound electrically. The success of SWCC depended upon the clocks being reliably wound every hour without failure. The hourly winding motor was the one element of the clock that was most likely to fail. Over a span of about 15 years the design of the SWCC movements went thru a series of modifications. All in search of a more reliable winding motor. The first 6 different styles all had the winding motor added to the SWCC movement. The final design,termed the "F" movement or Vibrator movement, was a major improvement. This movement, with minor modifications, was used for the next 60 plus years. The motor proved to be much more reliable and was now an integral part of the movement rather than added on below the clock works. The "F" movement motor employed a vibrating up and down motion rather than rotary motion to re-wind the mainspring. SWCC imprinted all of their movements with serial numbers. The serial numbers were used for inventory purposes and were assigned in ascending order. It is possible to approximately date the time of manufacture of a movement based on the serial number. . The first "F" movements were made in 1898 and were made into the 1940's. It is not however possible to automatically then date a particular clock by the movement serial number because of SWCC's practice of exchanging clock movements rather than servicing a movement and then returning it to the same clock. Identification tag numbers also often do not match movement serial numbers because the tags were not changed when the movement was exchanged. The total number of "F" movements manufactured could be confusing. The lowest serial numbers are in the 33,000 range and the highest is in the 402,000 range. There were large numbering gaps and it has been calculated that probably around 200,000 movements were produced. .

The Self Winding Clock Company and the Western Union Time Service
The relationship between the two separate companies began with an agreement between Self Winding Clock Company and Western Union(WU) being entered into in June 1889. .This agreement was for the transmission of time signals over Western Union telegraph lines to synchronize clocks made by Self Winding Clock Company. SWCC owned the clocks and WU installed and maintained them for a monthly fee, ranging from $1.25 to $2.00 per clock per month. SWCC was paid a percentage of the rental fee for providing clocks for the WU customers. If the clock movements required major repairs they were sent to the SWCC repair facilities and a replacement movement was installed by WU at the customer location. The partnership between SWCC and WU ended in 1963 when, as part of a lawsuit settlement, WU purchased all the rental clocks from SWCC. By the late 1960's the time service business had run its course and ceased to be profitable. Most of the clocks were simply abandoned. These clocks are sought after by many clock collectors.

Notable Clocks Created by the Self Winding Clock Company
The SWCC clock's were usually used in synchronized time systems. Time systems that consisted of many clocks linked electrically to a master clock. The majority of the systems were installed in businesses, factories, banks, schools & universities. Many railroads also relied on SWCC synchronized clock systems. Some clocks were sold as individual timepieces but most clocks were a part of time systems. SWCC offered many very elegant designs for their clocks and the clocks could be purchased to match any decor. These were essentially catalog items. There were however many special one of a kind clocks and clock systems that were installed by SWCC. These were intended to be very important architectural statements. Two of the most significant installations were the clocks in the Grand Central Terminal and the enormous 4 dial clock and lighting system for the Metropolitan Life Insurance building. The 2 pictured clocks of the Grand Central Terminal and the outside clocks on the Metropolitan Life Insurance building were just part of each properties very complex synchronized time systems. Grand Central Terminal had a master clock that controlled all the clocks at the terminal. Metropolitan Life had two separate master clocks. One controlled the motors for the 4 outside clocks, rang the bells in the bell tower and controlled the spectacular and very complex outside lighting system. Another SWCC master clock controlled 184 slave clocks throughout the original building. Complex SWCC synchronized systems were even installed in the London Underground. The underground installation started in 1905 and eventually included about 600 SWCC clocks.

Reference List

Electromechanical Clock
A clock that employs electricity in some form to power a conventional clock mechanism is an electromechanical clock. Any spring or weight driven clock that uses electricity (either AC or DC) to rewind the spring or raise the weight of a mechanical clock then is an electromechanical clock. In electromechanical clocks the electricity serves no time keeping function. The time-keeping function is regulated by the pendulum. Near the end of the nineteenth century, the availability of the dry cell battery made it practical to use electric power in clocks. The use of electricity then led to many variations of clock and motor designs. Electromechanical clocks were made as individual time-pieces but most commonly were used as integral parts of synchronized time installations. Experience in telegraphy led to connecting remote clocks (slave clocks) via wires to a controlling (master clock) clock. The goal was to create a clock system where each clock displayed exactly the same time. The master and the slaves are electromechanical clocks. The master clock has a conventional self-winding clock mechanism that is rewound electrically. The slave clock mechanism is not a conventional clock mechanism as it consists only of a ratchet wheel and time train. Slave clocks rely upon electrical impulses from the master clock to mechanically move the clock hands one unit of time. Synchronized time systems are made up of one master clock and any number of slave clocks. The slave clocks are connected by wires to the master clock. These systems are found in locations where multiple clocks would be used such as learning institutions, businesses, factories, transportation networks, banks, offices and government facilities. These self-winding clock systems were usually low voltage DC. They were installed thru the 1950’s and by then systems with synchronous motor clocks were becoming the clock system of choice.