Greenwood and Batley
Greenwood and Batley, a large engineering manufacturer with a wide range of products, including armaments, electrical engineering, printing, of Albion Works, Armley Road, Leeds. Telephone: 20011. Telegraphic Address: "Greenwood, Leeds". (1937)
Development of the Business
1856 May. The partnership of Fairbairn, Greenwood and Batley was dissolved. [4]
1856 Thomas Greenwood and John Batley first set up their business, both having previously worked at Peter Fairbairn and Co in Leeds.
1856 Their first premises, the Albion Foundry, was taken over from T. W. Lord formerly Lord and Brooke. The foundry was located on East Street by the River Aire (Aire and Calder Navigation), however this quickly became too small for their needs.
1856 September. Mention as Greenwood and Batley of Leeds. [5]
1859 They constructed the Albion Works, Leeds.
1861 Employing 270 men and 112 boys [6]
1862 Machine for tensile, compression and torsional testing of materials made for Charles Cammell and Co of Cyclops Works, Sheffield. See illustration.
1873 Thomas Greenwood died and the running of the company was taken over by his sons George Greenwood and Arthur Greenwood, his nephew Henry Greenwood and John Henry Wurtzburg their brother-in-law. [7]
1876 Members of the Iron and Steel Institute visited their machine and tool making works. [8]
1878 Built a tramway locomotive for Brussels tramways.
1881 Employing 670 hands [9]
Early 1880s Supplied nearly 900 machine tools to the Terni Arsenal in Italy.[10]
1885 The company branched out into Flour and Oil Milling Machinery as a result of the acquisition of the business of Joseph Whitham and Son of the Perseverance Iron Works, Kirkstall Road, Leeds.
1888 July. Public company. The company was registered on 7 July, to take over the business of the firm of the same name, engineers and machine makers of Leeds. The four family members remain as managing Directors. Mentions John Batley but not in an active role. [11] [12]
1888 The works covered eleven acres and employed around 1,600 men.
1888 May. The 'Leeds' dynamo with 100 volts at 180 amps for electric lighting. [13]
Late 1880s: Invited to manufacture the torpedo that had been developed by Robert Whitehead, so as to supplement the resources of Woolwich Arsenal.
1889 'Immense' boring machine for Creusot Works. [14]
1890 'HEAVY LATHES. Mr. ARTHUR GREENWOOD (Leeds) read a paper on this subject. He said that since the general adoption of hydrsulic machinery for forging heavy masses of steel, the use of powerful lathes as an adjunct to this system of forging has become a necessity, and it is to this class of lathes in contradistinction to lathes used tor finish turning work that this paper is devoted. For the production of tubes, jackets, and hoops for heavy guns, for cranks, marine, and other shafts, ingots of steel are now cast weighing upwards of 100 tons. These lathes are used to prepare such ingots for the forging press. In many cases it is thought desirable to rough turn the entire outside of the ingots to ascertain if the castings are absolutely and sound and free from fissures previous to the operations being commenced upon them. ..... As illustrating two types of lathe that have been specially designed for this purpose the diagrams exhibited may be found to be of some interest. The sectional elevation of a fast or driving headstock will give an idea of the power and strength of a big lathe recently constructed by the author's firm for the steel works of Messrs. Schneider, Creusot, France, which was exhibited on its way to the last Paris Exhibition. The height of centres is 60 inches. It will admit between the centres of the lathe a steel frging 52ft. 6in. length and 90in. in diameter over the saddles, and is capable of dealing with ingots of upwards of 120 tons in weight. The diameter of the front bearing of the spindle is 20in. by 30in. long. The back bearing of the spindle is 19in.in diameter, and has four collars for resisting the end pressure, similar to the thrust bearings of marine propellor shafts. The face plate is 10ft. in diameter, and is provided with massive gripping jaws for holding the steel ingots. There are four speed cones and four proportions of gearing, giving 16 powers, varying from a proportion of 6 to 1 to 383 to 1,..... The actual weight of this headstock, including gearing, is 40 1/2 tons, the spindle alone weighing 6 tons. bed the lathe •* and is little over 14ft. wide, each bed carrying I«r •addles—two in front the lathe and two behind. these saddh-s provided with two slides, that in taming ingot eight even sixteen cum tools would work. The t cut ttsl it found practical work in this depth ot Ijfin., i.e., one cut a forging would reduced iu diameter. that depth-4 cut advance of about 1 10th of inch u*H. tM depth cut decreased quicker advances are nude n-i coarse 2 to 3 per inch. The surface found most economical for these heavy cu*s is about per minute, but that, course, largely depend-* hardness the steel. When eight cutting tools work at this rate, it will not surprising to hear that ton cuttings may easily removed in hour. T«* lips on tool slides are all cast solid with the alkie* the wear is taken up steel slips, made t-per eud» wise, that the slide may kept very rigid »» stand the jar cuts. Massive steel tools b»-« gene shy been found more useful than carry* lug loose steel cutting tools* The advance feed lour saddles given by two steel screw*. vn« running near the centre e«ch of ilia These screws are driven gearing direct rem the the lathe. For the quick moving "f th«- saddle taef-* tudmally aiong the beds, and also for the u»vet«.ng the tool slides trans vers-lv <>n the saddl-*, a qua* running gearing is provided which will move the sad a rate ten feet per nunute. The abaft wmkic# this quick tunning gear is driven by pulleys and dutches, tout the saddle* may b- moved along bed of the lathe indeuend- ntly when trie hsd rtfl i* at rest. Each of the four saddl«-s entirely and may be sliding transverwf either duectiou or -turning. This lathe for ths purpose of boring ingots w..uld provided with bocmj mounted upon the double bed. this burn* having a traverse about 16 feet, and capable carrying boring bar with diameter of 40 inches. E*d» of the ra*b~S weighs about 23 tons complete, and the weight to* including tfie boring bed, about tons. third diagr m shown represents crua-->*-cti<-n similar type lathe to the one just but ot more ordinary dimensions, the height centres The spindle 13m. diamet-r. The (rearm* this head-stock having maximum purcbave 15" t see-plate «ft. dumber, will admit nig diameter over the aadule. Iq this lathe the Ircnt to* hack tio. holders are arranged on the tame saddle, aoe two or more saddle* may be working upon the same according the leugtti Work required to operate! a being much thao the saddle the larger duplex lathe just described are driven l>* two i>crew*. one «ach aide toe bed, which are cop '* together by gearing with main spindle of A lathe this d—enp with two saddles and a forging 35ft. long, with an extra boring bed. having at.averse 12ft, weight about 100 tons. To* lathe has the same cutting power tf.e heavier lathe, but course working upon smaller diameters the gearing is much reduced. From the samples cutting that are xbibitrd it will easily understood that main powerful lathes much our* valuable than the ordinary light cuttings, •crap may be returned tho furnace, aud seaMQeMM there is much lea* loss. The said that everything that fell F*« Mr. Greenwood such subject must be spec 4* value. had himaelf probably been more indebted Mr. Greenwood than any one else the room, for wts** Yorkshire Post and Leeds Intelligencer - Wednesday 10 September 1890
1890 A rail connection with the Great Northern Railway was installed to bring in raw materials and to deliver finished products.
1891 Exhibited 14 in. torpedoes[15]
1894 An early innovation was the installation of their own electricity generating station, completed in 1894. This allowed machine tools to be electrically driven rather than the traditional common shafts driven by steam. This development was to prove profitable in other ways, as the company was able to provide similar generator stations for both public supplies and industrial applications e.g. tramways, as one of its range of products.
1894 Royal Agricultural Show. Exhibitor of the 'Excel' pneumatic hammer. [16]
1896 A further acquisition saw Greenwood and Batley take over Smith, Beacock and Tannett, Victoria Foundry, Water Lane, Leeds. This company were the successors to the Round Foundry and were principally involved in the manufacture of Machine Tools.
Greenwood and Batley rapidly became a giant of a company, manufacturing an incredible range of products. Their primary business was military equipment both in terms of machinery to make armaments and the production of components such as bullets and shell cases.
By the turn of the century Greenwood and Batley offered the following products:-
- Machine Tool Department: every description of General and Special machine tolls for Railway, Marine and General Engineers, including Hydraulic and other Forging and Stamping Machinery, Lathes, Punching, Shearing, Planing, Milling, Shaping, Drilling and Boring Machines. Bolt, Nut and Screw Machinery. Testing Machines for strength of Material. Wood Working Machinery.
- Special Plants and Machinery for making Armour Plates, Ordnance, Gun Mountings and Ammunition: also for Small Arms Cartridges, Gunpowder, etc., and every description of War Material. Rolling Mills for Metal Coining, Presses and Minting Machinery.
- Oil Mill Machinery Department: The “Albion,” “Leeds, “ and Anglo-American systems for Extraction of every kind of Vegetable Oil including Machinery for Preparing and Decorticating Seeds, Nuts etc. Presses for making Cattle Feeding Cakes, Seed and Grain Elevators and Warehousing machinery. Oil Refineries. Cotton and other Baling Presses.
- Textile Machinery Department: Improved Patented Machines for Preparing and Spinning Waste Silk, China Grass, Rhea, Ramie, and other fibres. Whyte’s patent Cop Winding Machine.
- Engineering Department: Frickart’s Improved Corliss Steam Engines, single compound and triple expansion of the largest powers, for driving Factories, Mills, Electrical Installations, etc. Sole Manufacturers of The Brayton Patent Oil Engine.
- Electrical Department: all kinds of Dynamos and Motors for Lighting or Transmission of Power. Speciality: Motors for electrically driven Machine Tools etc. De Laval’s Patent Steam Turbine Motors, Turbine Dynamos, Turbine Pumps and Fans (for Great Britain and Colonies, China and Japan).
- Ordnance Department: Manufacturers of all kinds of Military Small Arms Ammunition. Self-propelling Torpedoes (Whiteheads’s) for the Navy, and Horse Shoes for the British Government.
- Printing and Sewing Machine Department: Patent Platen Printing Machines. Patent Boot Sewing Machines. Cloth Cutting Machines. Patent Boot Sewing Machines. Cloth Cutting Machines for Wholesale Clothiers, etc.
Greenwood and Batley also manufactured a shaving machine and a splitting machine with fixed oscillating knife for the leather machinery trade.[17]
1901 Moved the Explosives loading work to Abbey Wood, Woolwich, from Greenwich. The company held the UK rights for sale of the De Laval patent steam turbine, dynamos and pumps, for which demand was steadily increasing[18]
1902 The English De Laval Steam Turbine Co was said "to be practically part of Greenwood and Batley's business" but because of the interest of the Swedish parent the accounts were kept separate[19]
1905 Advert for machine tools, oil mill machinery, dynamos and motors. [20]
1914 Manufacturers of Special and General Machinery for Arsenals, Mints, Bolt Factories, Oil Mills, Silk Mills; Electrical Machinery, Steam Turbines, Centrifugal Pumps, Torpedoes, Cartridges etc. Employees 1,500 to 2,000. [21]
WWI Produced some of the first tanks in the First World War.
1919 Advert for Shapers. [22]
1927 See Aberconway for information on the company and its history.
1937 Listed Exhibitor - British Industries Fair. "Greenbat" 1½in. Hot Forging Machine. "Greenbat" 220 tons High-speed Screw Percussion Press. "Greenbat" ⅜in. Open Die Double Stroke Cold Header. "Greenbat" Screw Nicker. "Greenbat" ¼in. Solid Die Header. (Stand Nos. D.413 and D.314) [23]
1961 General engineers and tool and machine makers. [24]
1960s The company became part of the Fairbairn-Lawson Group in the late 1960s, however trading conditions were not favourable and in April 1980 the receivers were called in and 480 employees made redundant. The company was bought by Hunslet Holdings for £1.65M who continued to use the Greenbat name for their battery locomotives.
By 1984 the work had been transferred to Jack Lane and the Albion Works were mothballed.
In 1987 the site was sold and the works demolished.
Locomotive Building
1876 The company built an experimental compressed air tramcar. The vehicle was supplied by a 100 cubic foot reservoir filled at 1000psi. The outcome of this work is not known but lack of evidence would indicate it was not a success.
1878 Similarly, a Loftus Perkins tramway locomotive built. This was fed by a water tube boiler nominally rated at 500psi. Again there is no evidence of its success.
1896 Leeds Corporation placed an order for 25 electric tramcars.
1897 The vehicles entered service, however this work was not repeated.
1901 Listed as Railway Plant Contractors of Albion Works, Leeds. [25]
1920 September. Exhibited at the Machine Tool and Engineering Exhibition at Olympia with 20 kW turbo-generator suitable for lighting ships. Also showed an electric truck to carry 2 tons. [26]
1927 Greenwood and Batley’s first successful venture into locomotive building occurred in July 1927 when five 4hp battery-electric narrow gauge locomotives were completed for Edmund Nuttall’s Mersey Tunnel contract. These locomotives proved very reliable and a total of 31 G and B locomotives were used on the Mersey Tunnel construction. Other work developed rapidly.
1928 Flameproof locomotive were built for the Royal Navy.
1929 The first export order was for seven, pantograph fitted locomotives for the Chinese Engineering and Mining Co Ltd.
1930 The first standard gauge locomotive was built for Luton Power Station. This was a 15hp design and was capable of hauling one hundred tons at 4 mph on the level. This locomotive is preserved at the Armley Mills Industrial Museum, Leeds. A standard gauge passenger-carrying vehicle was constructed in 1933 for use by the Royal Navy at Gosport. This locomotive used two 10hp motors and could run at 20mph up a 1 in 137 gradient. Other products for which they were well known was coke car locomotive for Gas Works and Coking Plants.
1960 Advert for electric mining locomotives. [27]
In their short period of production, Greenwood and Batley built 1,367 electric locomotives which were exported around the world. This company deserves much better recognition for its achievements.
1988 Ceased trading after joining the Hunslet Group.
Engines are exhibited at Armley Mill Museum.
Steam Turbines
Greenwood & Batley built steam turbines under licence from De Laval of Sweden. See also De Laval Steam Turbine Co.
1902 From 14th annual meeting of Greenwood and Batley: 'Steady progress continues to be made with the De Laval steam turbines for electrical generation, pumping, and other purposes. The works of the English De Laval Steam Turbine Company, adjoining Albion Works, in which company Greenwood and Limited are large shareholders, are completed, the plant is installed, and the manufacture of turbines sa now being carried on there. The directors look forward to a steady increase in the sales in this important branch of the engineering business.'[28]
In 1902 The English De Laval Steam Turbine Co was said "to be practically part of Greenwood and Batley's business" but because of the interest of the Swedish parent the accounts were kept separate[29]
1911 From annual meeting of Greenwood & Batley: 'In view of the practical monopoly in the British Empire which the company had of the manufacture of the De Laval Steam Turbine, it had been thought desirable in the interest of their business to acquire the complete control of the English De Laval Steam Turbine Co, and to extinguish the interest which the Swedish De Laval Steam Turbine Company had hitherto held in the English company; also to acquire at par, viz., £180, the price paid for them, eighteen shares, which were originally taken by Greenwood and Batley’s nominees, among whom were some of the present directors, to facilitate the formation of the company. He mentioned this fact, and asked the shareholders’ approval, because those of the directors who owned some of these shares (he, for instance, owned one), were in the position of being both buyers and sellers, but it was to the interest of Greenwood and Batley to obtain the shares, and become the sole owner of the concern. When this transaction had been completed, the whole of the 6,627 issued shares of the English De Laval Steam Turbine Company would be held by Greenwood and Batley, and would represent an integral part of their business.'[30]
De Laval steam turbines were small and simple, having a single row of blades. They ran at very high speeds, and were provided with double-helical rduction gearboxes. Every aspect of the design was carefully thought out.
An example rated at 450 HP and driving a DC generator, was supplied to Griff Colliery, Nuneaton. It was very unusual, each blade having two distinct profiles, one above the other. See illustration. The taller inboard portion was for low pressure steam at about 1 psia, while the smaller outboard portion took live steam at about 80 psi from a boiler, suitable nozzles being provided.[31]
See Also
Sources of Information
- ↑ Modern Power Engineering, Vol 1, by A Regnauld, Caxton Publishing, 1924
- ↑ Modern Power Engineering, Vol 1, by A Regnauld, Caxton Publishing, 1924
- ↑ Modern Power Engineering, Vol 1 by A Regnauld, Caxton Publishing, 1924
- ↑ The Leeds Mercury, Thursday, May 15, 1856
- ↑ The Leeds Mercury, Saturday, September 27, 1856
- ↑ 1861 Census
- ↑ The British Machine Tool Industry, 1850-1914 By Roderick Floud
- ↑ The Engineer of 15th August 1876 p180
- ↑ 1881 Census
- ↑ [1] US Special Agents' Series, Issues 33-40: Machine Tool Trade in Austria-Hungary, Denmark, Russia and Netherlands, 1910. p.169
- ↑ The Stock Exchange Year Book 1908
- ↑ The Times, Saturday, Jul 07, 1888
- ↑ The Engineer of 25th May 1888 p430
- ↑ The Engineer of 10th May 1889 p396. Brief mention, in reference to Paris Exhibition
- ↑ The Engineer 1891/05/22
- ↑ The Engineer of 6th July 1894 p16
- ↑ Leather World, 1911,3,342.
- ↑ The Times, Jun 18, 1901
- ↑ The Times, Jul 07, 1902
- ↑ Mechanical World Year Book 1905. Published by Emmott and Co of Manchester. Advert p377
- ↑ 1914 Whitakers Red Book
- ↑ Mechanical World Year Book 1919. Published by Emmott and Co of Manchester. Advert p71
- ↑ 1937 British Industries Fair Page 370
- ↑ 1961 Dun and Bradstreet KBE
- ↑ White's Directory of Sheffield and Rotherham, 1901 p979
- ↑ The Engineer of 10th September 1920 p244
- ↑ Mining Year Book 1960. Published by Walter E. Skinner. Advert p357
- ↑ Leeds Mercury - Saturday 21 June 1902
- ↑ The Times, Jul 7, 1902
- ↑ Yorkshire Post and Leeds Intelligencer - Monday 10 July 1911
- ↑ Modern Power Engineering, Vol 1, by A Regnauld, Caxton Publishing, 1924
- [2] Wikipedia
- British Steam Locomotive Builders by James W. Lowe. Published in 1975. ISBN 0-905100-816
- Stationary Steam Engines of Great Britain by George Watkins. Vol 10