Vertizontal Elevators

Metapallet Carry: The One Man Action Plan

Those who study civilizations frequently categorize them according to the means of transporting goods traded between the different societies of their time. The containers found in ship wrecks and archaeological digs characterizes a civilization and its degree of trade efficiency, a key indicator of its success.

Once a standard is established, it is extremely difficult to change, the social and economic inertia is too great to adopt a different one without a major advantage being involved. Trade on the Mediterranean was dependent on the use of low-fire amphoras, each of which held about five gallons of oil or wine. Shipwrecks from Greek and Roman times have been found with hundreds of these amphora lining the cargo holds, their narrow bottom shape allowing a maximum number to stowed for each voyage.

Later the use of wood stave barrels was adopted, but these required the metal bands in order to work, so the development of brass and iron had to precede their widespread use, even though the Celts had them in 300 BC. Little changed in the centuries that followed, wood stave barrels for all manner of goods continued to the beginning of the Industrial revolution, when the use of rail roads and steam engines changed the scale of cargo to what would fit on a railroad flat car, and that was much larger than before.

Although the evolution of technology greatly impacted transportation, the loading of goods into ships and trains change little from the time of horse drawn carts: Strong men muscled the loads into place with the help of winches and ramps. Wooden crates grew larger but were still customized to the shipper whether it was a wagon, railroad or a ship. Steel barrels replace wood stave barrels but were still handled in a similar way. In fact it took almost a hundred years from the time of the introduction of the steam engine to develop the forklift and pallet, and even them the loading of freight relied on the work of men on the loading docks.

Today the words “shipping container” immediately brings to mind the large steel box innovated by Malcolm McLean in the early fifties. All the prior art has been sublimated to its success as crates and barrels are now fragments of the total embraced by containerization, a concept so impacting our civilization that the period since it implementation cannot be characterized any other way. It is the age of containerization of global trade.

Now the steel shipping container has made movement of goods so much cheaper that manufacturing can be done on one side of the world while the markets for them are on the other side. The concept of scale has grown so vast that only very large companies can be involved in the trade of goods around the world.

The greatest advantage of the steel container is said to be that it is intermodal, able to be transported by truck, rail or ship without the cargo being handled at all. The savings from eliminating handling and the subsequent loss due to breakage and theft during transit has reduced the cost of goods everywhere.

The advantages of containerization are well understood today. Every port desires to have the most efficient container handling systems that are coordinated with rail lines and trucking depots.  Indeed the low costs of global shipping continue to drop due to competition on all sides of the market.

The one issue that remains in the context of containerization is the volume required for end to end shipping. A forty or twenty foot container holds far more than a single outlet can distribute to a local area, so these containers end their travel at large warehouses where their contents are unloaded and broken into volumes that can be absorbed by the local markets. In these situations the issue of breakage, theft and  damage are the same as always.

The inefficiencies of distribution are related to the time between the containers arrival and the complete distribution of its contents to local markets.

A solution to the loading and positioning of the Metapallet Carry system can be found here:

https://kronings.com/language/us/home/products/camper-trolley/camper-trolley-ct2500/

 

 

Posted by dancadmin in Containerization, Design a New Civilization, In Earth Urban Design, MetaCity Concept, MetaPallet, New Built Environment, New Urban Logistics, Vertizontal Elevators, 0 comments

ThyssenKrupp’s New Vertizontal Elevator System

Yes, I coined this “Vertizontal” name to make it easier to write about on this blog.  The system lacks a simple way to say what it is and this works for me.

Otherwise known as the world’s first rope-less, horizontal-vertical elevator system, has been installed inside of the ThyssenKrupp purpose-built innovation test tower in Germany. Named Multi, the groundbreaking system has been developed by the elevator manufacturer to address a variety of issues with systems using wire-rope to move elevator cabins in a shaft.

Through the use of multiple maglev adapted cabins, which operate in the same shaft on an electromagnetic track, it makes it possible to travel sideways as well as up and down.

Leveraging the linear motor technology developed for the magnetic levitation Transrapid train, the cabins move up one shaft, travel horizontally, and then come down another in a continuous loop, much like a metro system inside a building.

Exchanger mechanisms like railway switches help to guide the cars, which are mounted with carbon-fibre bearings called slings that allow them to change direction.

Antony Wood, executive director of The Council on Tall Buildings and Urban Habitat has hailed the system as “the biggest development in the elevator industry since the invention of the safety elevator some 165 years ago.”

ThyssenKrupp first unveiled its ambitions to build the system back in 2014.

The company now reports that Multi can achieve up to 50 per cent higher transport capacity and reduce peak power demand by as much as 60 per cent when compared to conventional elevator systems.

“These two factors mean a dramatic improvement for high-rise buildings,” said the brand in a statement. “Additionally, since Multi can move sideways as well as vertically, and without any height limitations, it enables unprecedented possibilities in the architecture and design of buildings.”

Because it runs on magnets and motors, Multi requires fewer and smaller shafts than conventional cable operated elevators. ThyssenKrupp says that the system can increase a building’s usable area by up to 25 per cent.

Currently elevator-escalator footprints can occupy up to 40 per cent of a high-rise building’s floor space, depending on the building height.

In addition, it requires lower peak power permitting a better management of the building’s energy needs.

“We believe Multi is a genuine game-changer that will truly transform the way people move, work and live in our built environment,” said ThyssenKrupp’s chairman of executive board, Andreas Schierenbeck, at the system’s launch.

“It will reduce waiting times for passengers and take up significantly less space within the building. Multi is a key offering that truly represents a landmark revolution in the elevator industry.”

Following the installation of the system across three shafts at ThyssenKrupp’s 246-metre-tall test tower in Rottweil, Germany, the German multinational announced that OVG Real Estate would be Multi’s first customer.

The European real estate business has outlined plans to install the system in the new East Side Tower building in Berlin, which has been touted as the world’s most sustainable office building.

 

Posted by dancadmin in Containerization, Design a New Civilization, In Earth Urban Design, MetaCity Concept, New Built Environment, New Urban Logistics, Vertizontal Elevators, 1 comment