HAVE A QUESTION ABOUT ANTIQUES OR COLLECTIBLES?

Send me an E-mail
(Please, no questions
 about value.)

Instructions for sending photographs of your pieces with your question.

Who was the person credited with the concept of a world's fair?

Queen Victoria
Robert Moses
Prince Albert
                     To see the answer

World's Fair
by E.L. Doctorow


This novel tells the story of Edgar Altshuler, a 9-year-old boy from the Bronx, and his adventures at the 1939 New York World’s Fair. On his first visit to the fair, Edgar is enthralled by industry's vision of the futuresafe, secure and prosperous cities, speedy and cheap transportation and modern invention to make life easier. On his second visit, he sees that the exhibits are constructed of gypsum whose paint is peeling and that the displays are really toys.
                                   
More Books

 WATCH VIDEOS

1964 NY World's Fair

Travel back in time to the 1964 New York World's Fair and take a tour of the fairgrounds. Though not sanctioned by the World's Fair Committee, it was still a spectacular exposition.
              
And look for other videos in selected articles.

Have Bob speak
 on antiques to your group or organization.

More Information

Can't find what
 you're looking for?

Go to our Sitemap

Find out what's coming in the
2020 Fall Edition

of the
THE ANTIQUES ALMANAC

"A Look at Retro"

COMING IN
October
 

Share pages of this ezine with your friends using the buttons provided with each article.


Download our
Decorative Periods and Styles Chart
 

Read our newest glossary:

Antique Furniture Terminology
 from A to Z

courtesy of AntiquesWorldUK

Videos have
come to


The Antiques
Almanac

Expand your antiques experience.

Look for videos
in various
articles.

Just click on the
arrow to play.

Featured Antique


1939 NY World's Fair Snowglobe
 

Tick Tock Toys
by Bob Brooke


 

Long before video games and battery-powered toys, kids needed to be entertained. Back in the 19th and early 20th centuries, it was clockwork toys that helped keep them amused.

Today, nearly all toys are battery-operated. But before the 1980s, toys relied on windup power and clockwork mechanisms. The earliest clockwork device, known as the Antikythera mechanism, dates from ancient Greece.

In clockwork toys, power is stored in a spring governed by an escapement, a mechanism in a clock that connects and regulates the motive power, originally invented for clocks. The term clockwork has often been used inaccurately to refer to all spring-driven toys. The difference between clockwork in clocks and that in toys is that the pendulum in clocks makes the mechanism turn very slowly while toys need it to turn quickly. The pendulum governor is replaced with a fly fan.

Clockwork escapements allow one tooth at a time to escape from the pallet at regular intervals in order to keep springs from springing. The pallet rocks back and forth, governed by a pendulum or an oscillating piece.

Another form of governor, instead of an oscillating piece, is a fast-moving small weight in cheaper wind-up movements. The pallet, itself, constitutes the rapidly clicking pendulum. In walking figure toys, the toy acts as the oscillating pendulum.

Cheap mass-produced wind-up toys weren’t in any sense clockworks. Simply springs with gears and a crude oscillating pallet for a governor.

Those with rocking hands and beckoning arms are called nodders. Clockwork nodders were basically simple clocks without dials. A nodder uses a horizontal compound pendulum with the head as the weight at one end, a counterweight inside the body at the other end and the pivot at the neck. It’s activated by an ordinary clock escapement.

Like an old-fashioned clock, a clockwork device is completely mechanical and has these essential parts:

―A spiral spring to store the energy added by winding a key.
―A set of gears through which the spring's energy is released. The gears control how quickly (or slowly) a clockwork mechanism can do things.
―In a clock, the mechanism is the set of hands that sweep around the dial to tell the time. In a clockwork car, the gears drive the wheels that
       power it over the floor.

When you turn the key, you're tightening a sturdy metal spring, called the mainspring, and storing up energy; the mainspring is the mechanical equivalent of a battery. Clockwork springs are usually thick twists of steel, so tightening them is hard work. With each turn of the key, the spring is compressed. A cylindrical box called the barrel with gear teeth around its edge contains the tightly wound spring. The longer and thinner the spring, the more energy it can hold inside a barrel of a certain size.

Tightening the mainspring in a windup toy is like pushing a rollercoaster car up a hill. Just as a rollercoaster car regains energy by rolling down a hill, so the energy returns from a mainspring by releasing it to drive a clockwork mechanism. The longer a clockwork toy is to operate, the more energy it needs.

WATCH A VIDEO:  Clockwork Toy Video
 

Virtually all clockwork devices have gears, which are wheels with teeth that mesh together that make a wheel go faster with less force or slower with more force. Clockwork mechanisms use gears in both these ways.

Clockwork toys use the mainspring to generate rotational power—to turn wheels. To make them do something other than turn, roll, or rotate, a cam or crank is needed to transform their rotational motion into back-and-forth motion.

When you see a clockwork robot walking along, it's probably using cranks driven by wheels to power its legs. The wheels rotate on the same shaft, at the same speed, driven by gears powered from the mainspring, and each leg is connected to the leg by a separate crank. One leg will be connected to the top of one of the wheels, while the other leg will be connected to the bottom of the other wheel. As the two wheels turn, the cranks will move around out of step and the two legs will connect with the ground alternately, making the robot shuffle along.

Designers of clockwork toys always need to know beforehand what the they want the toy to do and the surfaces they’ll operate on. Then they have to choose a spring that can store enough energy to keep the mechanism working for a while.

Only a small group of American toys actually operated with clock mechanisms. Generally, keys and cranks, that activated small springs which turned tinplate gears when released, powered wind-up toys.



Mechanical parts were often hidden in the toy’s widest section or base, and extended motion to appendages via wires or springs. For example, a toy carriage typically propelled its miniature horse, rather than the other way around. Some toys made use of weighted flywheels, whereby a pulled string or lever used the inertia of a weighted spring to create movement.

Early Clockwork Toys
Craftsmen made the earliest clockwork toys for wealthy European aristocrats, like the detailed battle scene made for the Dauphin of France around 1660. That toy featured charging cavalry and realistic explosion sounds. These types of clockwork toys became popular after Jacques de Vaucanson exhibited his human automatons in Paris in 1738. Among his more haunting figures was a kid-friendly clockwork duck, which could eat, drink, quack, and swim.

Beginning in the 19th century, toy makers like Lucien Bontemps in Paris began producing affordable versions of these wind-up toys. Bontemps’ wind-up character dolls typically performed demure movements to the tinkling of music boxes hidden beneath their bases. However, he designed these complex toys as adult novelties rather than children’s playthings.

By the late 1800s, toy makers began to create simpler wind-up models, made from painted tin, just for children. These figural toys ran for only a few minutes, but still performed highly specific tasks like climbing a ladder or writing a letter. To make products more cheaply, manufacturers used materials like cardboard, composition, and tin instead of expensive porcelain or wax.

Racing horses, carousels, bicycling figures, and even wobbling drunks suddenly came to life on playroom floors. Many late-Victorian toys reflected the social and political climate of the day, modeling scenes from current events like the Dreyfus Affair. Circus-themed toys were also common, from acrobatic clowns who appeared to walk on their hands to trapeze performers that spun in mid-air. The French firm Fernand Martin and the German company Lehmann became some of the most prolific designers of these miniature automata, cutting figures from sheet iron and assembling them using small tabs and slots.

American clockwork toys first appeared around 1860. Toy makers often fashioned them using the exact same style movements used to turn the hands of clocks.

George Whitfielld Brown, a clockmaker from Forestville, Connecticut, began producing toys as a sideline of clockmaking in 1854. He made the first mass-produced clockwork toy in 1856.

The first American patent, granted on August 6, 1861, was for a toy motor to work feet invented by E.R. Morrison. The clockwork mechanism lifts each foot alternately as the other foot pushes it forward.

The firm of Ives and Blakeslee dominated the American toy scene for several decades.
In 1880, Secor’s Stationery, owned by Jerome Secor, advertised singing birds called American Warblers. His company also made cannon and toy pistols with clockwork movements. Owner Jerome Secor used cast iron for his toys. He designed the first cast-iron clockwork locomotive.

The Secor Bridgeport Toy Company was located in a factory owned by Edward R. Ives, who began making hot air toys in 1866, then moved his operation to Bridgeport, Connecticut four years later.



Ives produced a lithographed tinplate singing bird. Though only the size of a small thrush, it had an internal clockwork drive that drove a remarkable array of mechanisms. A piston and bellows blew a tiny flute similar to a Suwannee Whistle—a 19th-century bird whistle. A cam moved the stop to vary the notes of the song. Other levers made the bird flap its wings and tail, turn its head, and open and close its beak. Ives also made less complicated clockwork toys, including a woman churning butter.

Mass-Production Comes to Toys
The Industrial Revolution turned toy making into big business. Manufacturers began making toys with cheaply produced spring-driven gears with crude escapements instead of elaborate clockwork movements.

Most of the U.S. toy companies were located in the Northeast, especially Connecticut, and included George Brown, E.R. Ives, Blakeslee & Company, Martin & Runyon, Automatic Toy Works, and Louis Marx & Company. Within three decades, they discontinued making clockwork toys as cheaper European wind-ups flooded the U.S. market
.

Back to More Antique Spotlights                                   Next Article >

FOLLOW MY WEEKLY BLOG
Antiques Q&A


JOIN MY COLLECTION
Antiques and More on
Facebook

LIKE MY FACEBOOK PAGE
The Antiques Almanac on Facebook

No antiques or collectibles
are sold on this site.

How to Recognize and Refinish Antiques for Pleasure and Profit

Book: How to Recognizing and Refinishing Antiques for Pleasure and Profit
Have you ever bought an antique or collectible that was less than perfect and needed some TLC? Bob's new book offers tips and step-by- step instructions for simple maintenance and restoration of common antiques.

Read an Excerpt

Auction News
Get up to the minute news of antiques auctions around the country and the world.

Also see
The Auction Directory

Antiques News
Read breaking news stories from the world of antiques and collectibles.

Art Exhibitions
Search for art exhibitions in museums and galleries around the world.

Home | About This Site | Antiques | Collectibles | Antique Tips | Book Shop | Antique Trivia | Antique Spotlight | Antiques News  Special Features | Caring for Your Collections | Collecting | Readers Ask | Antiques Glossaries | Resources | Contact
Copyright ©2007-2019 by Bob Brooke Communications
Site design and development by BBC Web Services