16.01-4: Leland 1948 Variable Speed Repulsion Motor
HHCC Accession No. 2006.171 | HHCC Classification Code: 16.01-4 |
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Description:
A rarity, a variable speed repulsion motor, with mechanical speed, forward and reverse control lever. A classic, mid 20th century piece of speciality, repulsion induction technology, marking the apogee of the genre - in a period when the genre was still the wonder-boy of single phase, electric motor engineering. Canadian made, it would stand as a special time piece, marking the achievements and sophistication of the Canadian electric motor engineering and manufacturing, part of the ‘golden years’ of the industry in Canada, Leland, 1948.
Image Gallery (2 Images)
Group:
16.01 Electric Motors - Single Phase, Repulsion Induction and Repulsion Motors [Note, classification code No. 16.01-3 is void, a Leland variable speed motor removed from Oliver collection, gifted to HVACR Heritage Centre Canada]
Make:
Leland
Manufacturer:
Leland Electric Canada Limited, Quelph Ont.
Model:
Form BOWJH, Type RV
Serial No.:
11996 ET6838
Size:
12 x 10 x 12’h
Weight:
82 lbs.
Circa:
1948
Rating:
Exhibit, education, and research quality, illustrating the engineering and construction of a Canadian made, classic mid 20th century, mechanically variable speed, repulsion motor,
Patent Date/Number:
Provenance:
From York County (York Region) Ontario, once a rich agricultural hinterlands, attracting early settlement in the last years of the 18th century. Located on the north slopes of the Oak Ridges Moraine, within 20 miles of Toronto, the County would also attract early ex-urban development, to be come a wealthy market place for the emerging household and consumer technologies of the early and mid 20th century.
This artifact was discovered in the 1950’s in the used stock of T. H. Oliver, Refrigeration and Electric Sales and Service, Aurora, Ontario, an early worker in the field of agricultural, industrial and consumer technology.
Used in the service repair shop operated by Howard Oliver, Aurora Ont. for running-in and testing refrigeration compressors.
With original manufacturer’s instructions
Type and Design:
Variable speed Repulsion motor Commutating 110-220 volt I HP 800 to 2400 rpm Brush riding Mechanical speed, forward and reverse control lever Ball bearing Cast housing and four-base
Construction:
Material:
Special Features:
6 inch pressed steel V pulley for B and C-section belts. The pulley, now badly out of alignment, and showing the signs of rusting, as a result of normal ware and tar, marks these pulleys, fabricated in pressed steel, as best for light duty applications
Accessories:
With original manufacturer’s instructions
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Performance Characteristics:
Operation:
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Technological Significance:
Variable speed repulsion motor with mechanical speed, forward and reverse control lever. A classic, mid 20th century piece of speciality, repulsion induction technology, marking the apogee of the genre - in a period when the genre was still the wonder-boy of single phase, electric motor engineering. For it would be another half century before capacitor start, electronic, digital speed control would be popularly available. Canadian made, it would stand as a special time piece, marking the achievements and sophistication of the Canadian electric motor engineering and manufacturing, part of the ‘golden years’ of the industry in Canada, Repulsion induction motor technology was above all a marvel of its time, a technology born of both science and the consumer market place, a classic formula for the innovation and diffusion of popular technology, throughout the balance of the 20th century and on in to the 21st. Scientifically, the work of Faraday and many others laid much of the theoretical foundations for electromagnetic devices, the marvel of the early 20th century [much in the same way digital devices became the marvel of the early years of the 21st]. The wonders made possible by alternating current energised, rotating magnetic fields and the electric and magnetic circuitry that made them possible would soon be exploited by those interested in their application in applied electro-motive technology, including Steinnmetz and others. [See References especially #I, 2, and 5] But paradoxically, by the mid 20th century the market for high torque, repulsion induction motors, for household and commercial refrigeration applications had peaked. A technology of its times, it represented immense achievement by early 20th century engineers and manufactures. Yet, as is typically the case, with the innovation, dissemination and popularization of technology come the seeds of its own demise. The very means by which its high torque performance had been achieved, through the use of an elaborate wound rotor, commentator and electrical brushes, made it costly, clumsy and noisy, as well as unsuitable for many embedded applications, such as hermetic refrigeration and air conditioning systems. Replacing the commentator and complex rotor windings with a ‘solid state, squirrel cage’ rotor represented a giant engineering advancement. The development of capacitor start electric motor technology [see Classification 12.02] would now quickly replace repulsion induction technology for many applications, well before the end of the 20th century.
Industrial Significance:
Well recognized for their performance, reliability and maitainability, the repulsion induction engineering designs employed by Leland Electric, Quelph Ontario, along with Wagner Electric Leaside would in many ways serve to characterizing best Canadian practice through middle and later years of the century. Because of the specialized nature of the technology, engineering and production costs, and the limited market, few companies would be seen as surviving in the popular, repulsion induction market beyond mid century.
Socio-economic Significance:
Socio-cultural Significance:
Not-with-standing a major depression and two world wars the first half of the 20th century was a period of exceptional ferment in the development and popular dissemination of FHP electric motor technology. Associated with the development were a number of driving forces, mutually supporting and interacting: Scientifically, the theoretical ground work for development of an astonishing array of electrical and electro-magnet devices had been laid by the early years of the 20th century, through the efforts of Faraday and Steinnmetz, among many others, Technologically, the work of Thomas Edison, among others, laid the foundation stones on which urban and rural electrification would proceed, enabling an new era in human experience, favoured with consumer goods and services, previously unimagined,
Economically, a favourable climate for capital investment in manufacturing capacity, methods and materials emerged, part of North America’s second industrial revolution, Socially and culturally the consumer society was born, nurtured by a pent up demand for an easier, more comfortable, pleasurable lifestyle, and the sense that 20th century electrical and electro-motive technology might be able to help. The FHP electric motor, engineered for 110 volt, single-phase house current, revolutionized life in the Canadian home. It enabled an astonishing list of appliances and labour saving devices. The revolution would take place in an astonishingly short period of time - for much of urban Canada much less than a decade. The electro-mechanical mechanization of the Canadian home was accomplished for much of urban Canada by the late 1930’s. But the early 20th century wonders of household mechanization would be dependent , in turn, on household ‘electrification’ Between them electrification and electro-mechanical mechanization changed everything. Almost over night it altered what Canadians do in the course of their day, how they live and their expectations of what their world had in store for them - in labour saving devices, devices of convenience, health and safety. The fractional horsepower electric motor [FHP] became an ubiquitous part of the Canadian household by the mid 1930’s. Cyril Veinott reported, December 1938:
‘Practically every electrified home today makes use of one or more fractional horsepower motors. This kind of motor may be used in a washing machine, refrigerator, vacuum cleaner, clock, oil burner, hair drier, room heater, sewing machine, razor, health machine, fan, air conditioner, stoker, ironed, floor waxer, or food mixer. In industrial use, the number of useful tasks performed by fractional horsepower motors is legion. In the United States alone, the value of fractional horsepower motors sold amounts to approximately $50,000,000 annually.’ See reference #1
Similarly, more than half a decade earlier Daniel Braymer had commented on the proliferation of this mind and life changing technology for home electro-mechanization. He observed that what had made it all possible was the invention of single phase alternating current motor, in a number of subtypes, small quiet, self starting, reliable and affordable motors for the home, motors which were compatible with the rapid standardization of single phase, alternating current, electrical distribution systems then spreading across north America. See reference #2 Among the types of single phase alternating current motors which quickly populated the Canadian home were: repulsion induction [see Group 16.01] for heavy duty, high starting torque applications such as refrigeration appliances; capacitor start [see Group 16.02] for advanced high torque applications, requiring quiet operation; split Phase [see Group 16.04] for light duty low starting torque applications; and shaded pole [see Group 16.04] designs for small devices such electric fans. The FHP single phase induction motor, often unobtrusive, out of sight in a dark corner, has, none-the-less, been a principle foundation stone on which Canadian, popular consumer and household technology has evolved, throughout the 20th century and into the 21st - a driving force of profound, typically un-recognized, social, cultural and economic change [See reference 6]. Electro-motive technology [the FHP motor], along with electric and electronic communications technology [the telephone and broadcast radio] would invade the Canadian home starting in the 1920’s. Throughout the balance of the 20th century these technologies would trigger a vast, new, popular consumer culture, a ‘popular technological revolution’. Yet, simply because technology has so shaped the Canadian reality, it has also shaped much profound Canadian though about the technological experience, its meaning and significance for humanity. Included among the works of Canadian writers with an international reputation are: Arthur Kroker, George Grant, Ursala Franklin, Heather Menzies, among many others [See references 7, 8, 9, and 10]. From the vantagepoint of the 21st century noted Canadian writer Jane Jacobs asks, ‘Now we stand at another monumental crossroad, as agrarianism gives way to a technology-based future. How do we make this shift without losing the culture we hold dear’ [See reference 11]
Donor:
G. Leslie Oliver, The T. H. Oliver HVACR Collection
HHCC Storage Location:
Tracking:
Bibliographic References:
‘Fractional Horsepower Electric Motors’, Cyril Veinott, McGraw Hill New York, 1948 ‘Rewinding Small Motors’, Daniel Braymer and C.C. Roe, McGraw Hill, 1932 ‘Theory and Application of Capacitor-Start Induction Motors’, G. L. Oliver, Bachelor Thesis ,University of Toronto, Session 1951-52 ‘Modern Refrigeration and Air Conditioning’, Electric Motors, Chapter 7, Andrew Althouse and Carl Turnquist, Goodheart-Wilcox, 1960 ‘A course in Electrical Engineering, Volume II, Alternating Current’, Chester Dawes, McGraw Hill, 1934, Starting single Phase Induction Motors, P. 362. ‘The Fractional Horsepower Motor and its Impact on Canadian Society and Culture’, G. Leslie Oliver, Material History Review, Vol. 43, Journal National Museum of Science and Technology, 1996. ‘Technology and the Canadian Mind, Innis/ McLuhan/Grant’, Arthur Kroker, New World Perspectives, 1984. ‘Technology and Empire’, George Grant, Anansi, 1969, ‘The Real World of Technology’, Ursula Franklin, Anansi, 1993. ‘Fast Forward and Out of Control’, Heather Menzies, Macmillan, 1989 ‘Dark Ages Ahead’, Jane Jacobs, Random House, 2004