Since the first known fabric flags date back to approximately 2,000 years ago, it can be argued that flagpoles also date that far back since a the flag needs to be attached to a pole of some kind for it to fly freely. What we do know is that the first known flagpoles were made from wood. A woodworker would find a tree that was straight and prune the limbs and suckers from it to produce a pole. The pole was then inserted into the ground and a flag tied to the top.
Over the years, the wood flagpole was improved by shaping and sanding the pole until it was straight and had a smooth finish. More refined wooden posts were made with spruce or pine trees, which normally become straighter than hardwood trees. These trees were stripped of bark and branches and afterward altogether smoothed down with drawknives and planes. They were secured with different layers of creature fat to make them weatherproof before being planted in the ground.
Near the turn of the 20th century, steel flag poles became more popular, although they were often simply the recycled materials that had served other purposes. Ships masts were often repurposed as flag poles. Steel section poles used to house trolley lines were employed to make flag poles and eventually, sectional steel flag poles were manufactured for the purpose of flying flags. Wooden poles became obsolete. In the later 1920s, flag pole producers began constructing the long tapered poles so common today.
Manufacturing advances in aluminum poles drove at last to the quality of aluminum and aluminum blends as the key materials for making flagpoles today. Aluminum is more adaptable as an amassing material, and it has been able to be far less costly than steel.
The pole used to "fly" the flag planted on the moon by the Apollo 11 crew may have been the most engineered flag pole in history. The pole was designed with a telescoping horizontal support to hold a flag out stiffly in the lack of atmosphere, much less wind, on the surface of the moon. It was made very light weight and employed a telescoping design that could be manipulated by astronauts wearing massive space suit gloves. The flag was stored in a shroud that traveled tucked into one of the legs of the lunar lander.
Today, strong, stable flagpoles by The Flagpole Warehouse proved to be the best simple and affordable solutions for the U.S. Army and Navy to serve as lightning rods at the U.S Naval Submarine Base in Kings Bay, GA, and as structures for gun range warning systems at the U.S. Army Strategic Operations installation in Southern California and Fort Bragg, North Carolina.
Flagpoles of 60 ft. and 50 ft. sporting The Flagpole WarehouseĆ¢s perfected solar lighting solutions have also been reconfigured into very effective strobe lighting warning systems. With communication and cell towers popping up somewhere new every day, flagpoles are proving to be economical mounting solutions. From telescoping solutions and other commercial grades hi-tech strong quality construction materials, The Flagpole Warehouse can provide innovative solutions for individual projects.
Over the years, the wood flagpole was improved by shaping and sanding the pole until it was straight and had a smooth finish. More refined wooden posts were made with spruce or pine trees, which normally become straighter than hardwood trees. These trees were stripped of bark and branches and afterward altogether smoothed down with drawknives and planes. They were secured with different layers of creature fat to make them weatherproof before being planted in the ground.
Near the turn of the 20th century, steel flag poles became more popular, although they were often simply the recycled materials that had served other purposes. Ships masts were often repurposed as flag poles. Steel section poles used to house trolley lines were employed to make flag poles and eventually, sectional steel flag poles were manufactured for the purpose of flying flags. Wooden poles became obsolete. In the later 1920s, flag pole producers began constructing the long tapered poles so common today.
Manufacturing advances in aluminum poles drove at last to the quality of aluminum and aluminum blends as the key materials for making flagpoles today. Aluminum is more adaptable as an amassing material, and it has been able to be far less costly than steel.
The pole used to "fly" the flag planted on the moon by the Apollo 11 crew may have been the most engineered flag pole in history. The pole was designed with a telescoping horizontal support to hold a flag out stiffly in the lack of atmosphere, much less wind, on the surface of the moon. It was made very light weight and employed a telescoping design that could be manipulated by astronauts wearing massive space suit gloves. The flag was stored in a shroud that traveled tucked into one of the legs of the lunar lander.
Today, strong, stable flagpoles by The Flagpole Warehouse proved to be the best simple and affordable solutions for the U.S. Army and Navy to serve as lightning rods at the U.S Naval Submarine Base in Kings Bay, GA, and as structures for gun range warning systems at the U.S. Army Strategic Operations installation in Southern California and Fort Bragg, North Carolina.
Flagpoles of 60 ft. and 50 ft. sporting The Flagpole WarehouseĆ¢s perfected solar lighting solutions have also been reconfigured into very effective strobe lighting warning systems. With communication and cell towers popping up somewhere new every day, flagpoles are proving to be economical mounting solutions. From telescoping solutions and other commercial grades hi-tech strong quality construction materials, The Flagpole Warehouse can provide innovative solutions for individual projects.
About the Author:
Eighteen distinct categories of customers can choose from an expansive inventory of over 6,500 items. The Flag Company, Inc. now also partners with a machine and manufacturing company, expanding its capability to provide custom brackets, finials, hardware, etc. for special situations. Additionally, it is collaborating on creating robotic equipment for use in the flagpole industry.
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