Wooden toy train | |
Type: | toy train |
Company: | Various |
Materials: | wood, metal, magnet |
Wooden toy trains are toy trains that run on a wooden track system with grooves to guide the wheels of the rolling stock. While the trains, tracks and scenery accessories are made mainly of wood, the engines and cars connect to each other using metal hooks or small magnets, and some use plastic wheels mounted on metal axles. Some trains are made to resemble anthropomorphical, fictional, and prototypical railroad equipment.
Marshal H. Larrabee II founded the Skaneateles Handicrafters in 1936. This toy company made wooden toy trains and wooden tracks.[1] The gauge was very similar to that used by most companies today. However, the connections for the track pieces were of a different design than the jigsaw style "peg and hole" system used today.[2] The trains were made of maple and were often left unpainted and unstained.[3] They are compatible with many brands of modern wooden train track. Playskool took over the sales for Skaneateles Handicrafters in 1956. This company retained the design and track-connecting system into the 1960s.[4] Marshal H. Larrabee sold his company to the German-based Habermaaß GmbH in 1980. The company was renamed T.C. Timber and its products were manufactured in Skaneateles. The production line was closed in 2002.[5]
The Jack-Built Toy Manufacturing Company marketed its own range of wooden toy trains under the brand name "Jack Built Snap Trains" around 1956 to 1962. These were manufactured in Japan and used a snap system to join pieces of rolling stock and tracks. Rolling stock from Jack Built Snap Trains and Skaneateles Handicrafters could ride on either manufacturer's tracks. However, individual pieces of rolling stock and track from the two brands could not be combined. This is because the coupling systems for the tracks and trains were different.
California-based Ben Orel filed U.S. patent #2847798[6] in 1956 and was granted the patent for his "snap coupling" system two years later. He describes how the track could be rotated to create a "rail" and a "road" side in U.S. patent #3013726[7] submitted in 1960 and granted in 1961. This is similar to the idea that Learning Curve later used for their "Thomas & Friends" range. He also submitted a patent for magnetic couplings in 1958.[8] This patent was granted in 1960. It may have been the earliest attempt to use magnets with a wooden toy train system. Production stopped in the mid-1960s and the company disappeared from the toy market.
In 1957, BRIO, based in Osby in southern Sweden, introduced its wooden toy train system with wooden tracks in Europe.[9] It may have been the first company to use the "peg and hole" system to connect the track pieces in mass production. The metal hook system for the rolling stock has since been replaced by magnetic connectors.[10] [11] BRIO was also one of the first companies to use beechwood for such products.
Another Swedish company that started producing a similar toy at about this time was Micki Leksaker in Gemla. It apparently produced its first wooden train sets for a Swedish department store in 1956, thus predating Brio by a year or two. In 1988[12] Micki started manufacturing products for IKEA and was the sole supplier of their wooden toy train line[13] for about ten years.
There was a long tradition of wooden toy-making along the mountain forests surrounding Bohemia. Seiffen made wooden figures and Christmas decorations and Blumenau (today a part of Olbernhau) created building blocks and construction sets. Mass production techniques for polishing and coloring wooden toys were established and perfected in the Bohemian areas.[14] Some of the early sets exhibited train designs that were later used for wooden track trains. In 1949, Hermann Eichhorn, of the Eichhorn family that made the PEWESTI wooden toys in Steinach, Thuringia,[15] founded his company for wooden toys in the Bavarian town of Egglham. In 1961, he started producing his version of a wooden track railway system. Eichhorn claims that his company is the first to have systematically used the "vario system" for the connectors. Eichhorn applied for a U.S. patent[16] for a "battery powered toy train" in 1994. In 1997 the company had to be sold to the Simba-Dickie-Group, which moved production to Unhošť, near Prague in the Czech Republic.[17] By 1998 the company was fully integrated into the Simba-Dickie-Group.[18] In February 1999 two fires totally destroyed the old factory buildings in Egglham and consumed most of the company's archives and work models.[19]
Heros (He+ros), the company of Hermann Rossberg of Lam in the Bavarian Forest near to the border of Bohemia, influenced train design in the Blumenau tradition.[20] He too started a line of wooden trains in 1968 to the same gauge, using bright colors in his train designs. In the 1970s the company experimented with plastic tracks based on the peg and hole design of the wooden tracks, but soon returned to normal wooden tracks.[21] In 2010 the company had to be sold to the Simba-Dickie-Group. The train lines where dropped and the focus shifted to wooden toy blocks and the constructor toy range while Eichhorn became the only supplier of toy trains on a wooden track system within the Simba-Dickie-Group.
John W. Lee founded the company "Learning Curve Toys" in November 1992 with a wooden railway system called "Thomas & Friends Wooden Railway" based on the Thomas the Tank Engine characters. This made the wooden toy trains even more popular than before. Learning Curve introduced some new designs for the track surface, such as the "Clickety Clack" rails patented 1995[22] and the newer tracks in 2002[23] with a relief to supply better traction grip for battery powered four wheel drive trains patented in 1998.[24] The Thomas brand of wooden trains continues to this day and are released by Mattel's Fisher-Price subdivision. The line was also rebranded as "Thomas and Friends Wood" from 2017 to 2021, but reverted to the original "Wooden Railway" branding in 2022 following poor reception and sales.
With the popularity of the toy system rising due to the success of Thomas the Tank Engine and Friends, new markets outside of the traditional groups and countries were opened. While companies such as Mapple Landmark adjusted its existing line of "Name Trains" to the gauge of the vario system in 1993, others such as Whittle Shortline, established in 1997, started producing rolling stock based on the more realistic designs of existing American examples.[25] While Brio and Thomas the Tank Engine and Friends clearly favoured the steam engine era, Whittle Shortline expanded into heavy duty diesel engines of designs hardly known in Europe. In the product line "Trains of the World" shown in the Brio catalog of 1998, Brio presents several historic steam engines, such as the Mallard or the Flying Scotsman along with several modern high speed trains such as the Shinkansen, TGV or ICE. The only diesel unit is from the Santa Fe line.
Other companies such as Nilo and KidKraft concentrated on related items like train tables, among other products. Suretrack sells its track securing clips, and Choo Choo Track & Toy Co., founded in 1999, has concentrated on producing and designing tracks and accessories.
A recent sub-genre has emerged based on real-life prototypes of subway and commuter rail rolling stock. One example is the "New York City Subway Wooden Railway" by the company named "Munipals" which sells units in each of the NYC subway lines colors & markings. They have recently expanded to commuter rail line rolling stock for New Jersey, Metro North, LIRR, and Philadelphia. The Washington DC Metro store sells rolling stock in each of the DC Metro line markings; as does the web store of the Boston T. The London Underground museum store sells rolling stock in the colors of each of the London Underground Lines. Whittle Shortline sells commuter rail line rolling stock for the California and the Chicago transit systems; Bauer & Sohn has rolling stock for Berlin, Munich, and Nuremberg; Lalok, rolling stock for Vienna subway and tram. Make Me Iconic produces W class Melbourne Trams and the Sydney Ferry Sirius. Perhaps the Tokyo, Moscow, and other international subway systems will follow suit.
Although the original push-along trains made mostly of wood still resemble the core idea of this system toy and as of 2006 form the base of all the involved companies' production lines, electronics have gained access to the wooden world. After introducing battery powered engines in the 1990s, remote control had been added by 2002, and so-called smart tracks introduced plastic parts to the wooden track pieces. In 2006 Brio even introduced a theme resembling electronic networking with some electronic gadgets. Altogether this has led to some new track designs allowing better traction for the self powered trains or means of communication between the tracks and trains using some magnetic or electronic gadget.
As with other toys, many wooden trains and track have been manufactured in China and other Asian countries in the twenty-first century. The lead paint problems of 2007[26] brought this to public awareness. Manufacturing in Asia goes back a lot further though: already in the 1950s the Snap-Trains of Ben Orel were made in Japan.
Probably the first major brand that was manufactured in China was the Chicago-based "Thomas and Friends Wooden Railway". Some of the design, such as the character faces and the spoked wheels, have stayed unique to the brand while other attributes, such as the modular build of the units with a rectangular single block chassis holding the wheels and individual buildup on top, have become widespread designs in China and elsewhere. Another major brand is Maxim. Starting with traditional rather plain and abstract designs, Maxim sold products under the name "Tumble Tree Wood" for retail stores. They have since adopted their current design with a winged number on their rolling stock. The main supplier is a factory in Dong Guan, China. The trains with the winged numbers are also sold by other brands such as Babalu in Germany. In 2004,[27] Brio of Sweden moved most of their production to three factories in Guangdong Province, China. A more recent brand is Melissa & Doug that is also produced in China. Smaller projects were the short-lived ventures of Remus and Europlay.
A producer that has sold its products under very many brands including its own name is Mentari Massen, with its main factory founded in 1988 in Surabaya, Indonesia. Their items have been sold as sets or individually bundled under such brand names as elile, FunToys, Toytopia, The Toy Company, Bino, Snap on Tools and Bigjigs, as well as Mentari Toys or Mentari Group.
A quite prolific producer with its own clear design is Plantoys of Thailand. They have been making children's toys and furniture from rubber wood, which has since been adopted by other companies. They have a range of car and city related sets that could be used as accessories for the wooden toy train ranges of other producers. They had a joint venture with Brio in 2001–2002,[28] being present in the Brio catalogs of the time. By 2007 they had started their own line of wooden trains, expanding it in 2008.
In 1985, Bigjigs Toys Ltd started out by selling a large range of wooden jigsaws. Then in the 1990s they moved into the wooden railway market with a small core range of wooden railway system items. In 2007 they re-launched their railway range under the brand Bigjigs Rail, in new blue sky and green hills packaging. There are, as of 2012, over 130 pieces in the Bigjigs Rail range including sets, track and a range of real life engines such as Mallard, Duchess of Hamilton and Bluebell.
3D printing brought new possibilities to many areas where at least some parts are printable. Wooden kind of tracks are well printable so there are numerous creators making their own pieces. They vary in compatibility level with original vendors, some are bound to few, some aim at universal connectability. There are copies of all basic pieces available on shelves and also many new creative track pieces that were never sold by anyone like robust bridge systems using many popular building toys such as Lego. Complex track building systems made as parametric models allow anyone to create the exact length or angle he misses on the market. Examples of these could be Tracklib that aim at planar tracks, or BeamBridge that is focused on robust multilevel bridge building using various building toys as pillars.
The same is true for buildings. There are copies of many original vendor designs and new creative buildings available only as free or paid models for printing.
Although the products of many companies are quite compatible with each other they may vary in make, the wood used and some basic measurements. Popular woods used and advertised thus are beech, maple and rubber tree.
Track grooves are 3 mm deep, 6 mm wide and have 20 mm between them (26 mm center to center). The tracks themselves are 40 mm wide and 12 mm high. To be kept on track the system can be reduced to a shallow groove 30 mm wide, as in some road systems or small ramps that allow the vehicle to get on or off the track from the floor, or to a middle section 20 mm wide and 3 mm high, as in some beginners tracks or double track road systems. Most modern track systems have a somewhat sophisticated profile with varying degrees of slanted sides for the grooves or rounded edges. In the imperial system the tracks have been described as having grooves an eighth of an inch deep, a quarter of an inch wide and with three quarters of an inch between them. The tracks themselves are one and a half inches wide and half an inch high.[29] However, unlike other model railroading gauges, which have been formally defined by enthusiast groups such as the National Model Railroad Association or the Normen Europäischer Modellbahnen, there is no agreed gauge for wooden trains. The actual cross sectional profile of any given manufacturer's track is usually patented, compelling new manufacturers to alter their track design enough to allow compatibility with other brands without committing patent infringement.
Some track pieces such as curves and points have grooves on both sides so that they can be used from both sides. By flipping the piece around one can convert a left-hand curve or point to a right-handed one. Another possibility is to have the two grooves for trains on the one side and the single wide groove for roads on the other side. Ben Orel describes such a system in U.S. patent #3013726, which he submitted in 1960. Learning Curve made such tracks for their "Thomas the Tank Engine" theme.
When trying to document a layout with exact geometry one quickly notices that a lot of layouts one builds with real track do not work using a CAD system or some track layout program.[30] This is due to the so-called "vario system" which allows some play when joining the tracks, so that with some wiggling around one can make layouts line up perfectly with no danger of derailing trains which do not use the exact geometry of the pieces. This is achieved by making the pegs somewhat smaller than the holes. Sometimes the round part of the hole is not an exact circle but rather an ellipse, allowing the tracks to connect with a small gap between them. Also, the neck gap does not have a sharp edge at the end of the track, but is carved round. This may have started as a production loss or to make it easier for small children to join the tracks. Some sources state that Eichhorn was the first to design connections using this system.
Though not all manufacturers use the same system for their track piece designs some principle standards have evolved, as the geometry involved with track systems tends to pose the same problems to everyone. The first question may be how to divide the circle. The standard for wooden tracks is eight pieces. The next important length is the diameter of the circle made of a line along the center of the tracks. This length is useful for figures such as an eight with the crossing at right angles, a simple L-figure, a bulge to one side or a spectacles or Mickey Mouse head, to name the simplest.
A division in two gives a handy piece of straight track. For the figure eight one could use two straight pieces to go underneath and a bridge made to the same length to cross over the other straights. If one wants a crossing on the same level, the diameter can be divided by three and a crossing piece made with straights of that length. Of course one can also produce pieces of a quarter diameter length to put to the left and right of a central bridge piece that is half the length of the diameter. As one can see, it is useful to determine the length of the straight tracks by dividing the diameter of the circle made by the curves. Brio uses lengths of half, quarter and eighth as well as a third and sixth.
To solve problems of offset produced by points that branch out at the same angle producing parallel tracks, it is also useful to design such points and switches so that one of the short straights can compensate the offset. An easy way to design points is by tracing a long and a curved track to the same piece using the same connecting point as the origin. Such a merged piece can thus serve as a curve for one branch and a straight for the other while using the same dimensions as the other pieces.
Several approaches have been made over time to add a road system to the railway tracks. The first and still most widely used level crossings use simple ramps that enable vehicles to cross the thick tracks from whatever underground the tracks are placed on. The simplest way to add roads to this existing solution is to provide a layout printed on a paper or plastic sheet or even a carpet that uses the dimensions of the wooden tracks. Some companies have made thin track pieces out of plastic or other materials that can be joined by some connecting system and have special crossover pieces to allow playing together with a wooden railway system. The next step seems to have been road track pieces of similar thickness as the railway tracks but using some other connecting design. Using the same "peg and hole" system as the railway tracks seems to have come later. The "Thomas the Tank Engine" theme from Learning Curve used track pieces that had the traditional railway design on one side and a new road design on the other using a design invented by Ben Orel in 1960. These roads had the same profile and measurements as the railway tracks, except that the part between the grooves was missing so that the road was a broad "groove" with sidings or curbs. The road vehicles and the railway rolling stock could be used interchangeable on both systems. Brio had introduced a track with wider grooves that was used for trains aimed at a younger age group. These used the same connection system as the other tracks and had the same distance between the grooves. This made it possible for the normal trains to run on the wider tracks. When these wide grooves have the same width as the "Thomas the Tank Engine" road pieces they can be used as a two way road. Other companies went in their own ways and even Brio made a wide two way wooden roadway. External widths of different vendors vary, but internal gauge dimensions are nearly same allowing some level of compatibility.
Early sets such as of Skaneateles,[31] Eichhorn and Brio all seem to have used rather simple and abstract designs. The pieces were not painted, so that trains and tracks had the same surface. The normal early trains had engines and wagons each carved from a single piece of wood and connected by hooks and eyes. Painted sets may have become common in the early 1970s, as did the use of magnets as connectors. Engines carved from a single block were commonly painted black in Europe with bright red funnels and wheels. The early trains made with construction sets and large pull-along trains may have influenced other early train designs that were built of several wood pieces ("cut broomstick design" among others). Normally each wooden piece had its own color, thus an engine, for example, could sport six different colors: one each for the base plate, the cylindrical boiler, the drivers cabin, the cabin roof, the funnels and the wheels. Sets with painted patterns seem to have become more popular in the late 1980s and 1990s. This may have been due to the success of the "Thomas the Tank Engine" series and the wish for more realistic real world designs.
As of 2007 there seem to be several design trends:
Train tables are a popular way to set up trains and railways, with fixed versions often placed in waiting rooms at hospitals, doctors' offices, or other places where some entertainment for children may be offered. This way they stay off the ground and it is not necessary to take apart the track after it is built. Wooden railway layouts based on the wTrak module standard have become part of model railroad shows in the United States - starting in the Pacific Northwest in 2009.
Early Skaneateles sets had rectangular supports that raised the track gradually. Due to the different connection system Skaneateles used at that time, tracks could be easily bent upwards at the connection point. The two-piece bridge with massive, self-supporting, ramps has been common since the 1960s. Provided with supports, this bridge could be easily elongated using normal straights. More modern bridge designs have used large amounts of plastic since the 1980s, reducing the amount of wood needed and thus producing lighter and cheaper designs. A sturdy basic bridge is the three-part bridge with the connections in the ramp section. Such designs seem to be aimed at the youngest players as they do not come apart easily. However, the design is not extendable. The two-part bridge led to the development of some raised track pieces. First versions had viaduct-like designs or sported some sort of gadget like a drawbridge. Later ramps were track bent in an S-shape.[32] As these were not self-supporting, new sorts of elevated track pieces were introduced. These consisted of a short piece of track raised by four legs. These supports were stackable and based on a square design, so that the direction could be changed by a right angle turn on the different levels.
Early buildings had windows and doors made by drawing lines in a single color on simple rectangular blocks. Sometimes they had slanted roofs made with another piece of wood, painted another color, stacked on top. A common early station design consisted of a simple platform with a roof on two or three supports along the longer axis. Later buildings have printed multicolor patterns. There have always been building sets that were similar to the popular wooden building blocks, allowing many individual designs. Since the 1990s building designs have become more sophisticated and interaction with the trains has increased. Learning Curve may have made this approach popular with many designs based on the story plots of the Thomas the Tank Engine series, such as a grain loader accessory[33] or a logging mill.[34]