Mitsubishi Electric Corp announced the overview of its ultra-high-speed elevator developed for the 632-meter Shanghai Tower under construction in Shanghai, China.
For the traction motor of the elevator, Mitsubishi Electric employed a parallel drive system that uses two three-phase winding coils for each motor and controls the two three-phases with two control panels. By using two compact control panels, the company enabled to design the layout of a machinery room more freely while increasing output power. The operation of the elevator is scheduled to begin in 2014.
To realize the world's fastest speed of 1,080 m per minute, Mitsubishi Electric used new technologies for higher safety, lifting height and comfort as well as for the motor for the winch. Specifically, to enhance safety, the company employed a two-tiered brake (the company's former product has a one-tiered brake) for emergency stop and used fine ceramic with a heat resistance of up to about 1,000°C for the brake shoe.
The buffer (shock absorber) at the bottom of the elevator shaft is comprised of three tiers (the former product has a one-tiered butter) and has a stroke of 7.3 meters, which is about 30% shorter than the stroke of the former product's buffer.
For the "sfleX-rope," a rope for the winch, Mitsubishi Electric employed a new structure so that it can hold a greater weight of a longer rope. The company improved the density of the rope by using a concentric-layered steel wire and filled the gap between the layers with plastic.
As a result, the company increased breaking load by 85% while increasing mass per unit length only by 18%. The new rope is less extensible. So, when people get in the elevator, it does not shake vertically much.
This time, Mitsubishi Electric newly developed a control cable that is 20% lighter than the one used for the former product.
For the comfort, the new elevator is equipped with the "active roller guide," which detects vibration and applies anti-phase vibration to it so that the vibration of the car is reduced. While two units of the active roller guide are installed in the bottom of the former product, Mitsubishi Electric added two more to the upper side of the new elevator because a different type of vibration is applied to the new product when it is moving at an ultra-high speed. As a result, vibration was reduced to about 1/3 that of the former product.
Furthermore, the new elevator is equipped with a streamlined aerodynamic car cover that reduces air resistance as well as an air pressure control device consisting of an air blower, a duct and a box for switching between air intake and emission. As a result, rapid changes in atmospheric pressure can be prevented, reducing passengers' feeling of fullness in the ear. BD+C
Related Stories
| Jul 1, 2014
Peter Zumthor's LA art museum plan modified with bridge-like section across main thoroughfare
After his design drew concerns about potential damage to LA's La Brea Tar Pits, Peter Zumthor has dramatically revised his concept for the Los Angeles Museum of Art.
| Jul 1, 2014
China's wild circular skyscraper opens in Guangzhou [slideshow]
The 33-story Guanghzou Circle takes the shape of a giant ribbon spool, with the floor space housed in a series of boxes suspended between two massive "wheels."
| Jul 1, 2014
Hyper-speed rendering: How Gensler turns BIM models into beauty shots in seconds
In search of a fast rendering solution, Gensler looked to the gaming and moviemaking industries for the next breakthrough tool: Octane Render.
| Jul 1, 2014
Sochi's 'kinetic façade' may steal the show at the Winter Olympics
The temporary pavilion for Russian telecom operator MegaFon will be wrapped with a massive digital "pin screen" that will morph into the shape of any face.
| Jul 1, 2014
7 ways to cut waste in BIM implementation
Process mapping, split models, and streamlined coordination meetings are among the timesaving techniques AEC firms are employing to improve BIM/VDC workflows.
| Jul 1, 2014
Winning design by 3XN converts modernist bathhouse to university library
Danish firm 3XN's design wins competition for a new educational facility for Mälardalen University in Sweden, which will house a library, communal spaces, and offices for 4,500 students and staff.
| Jul 1, 2014
Zaha Hadid's flowing Heydar Aliyev Center named Design of the Year for 2014
The Design Museum's Design of the Year award has been awarded to Zaha Hadid's Heydar Aliyev Center. Hadid is not only the first woman to win the top prize, but the center is the first architectural project to win the overall competition.
| Jun 30, 2014
Autodesk acquires design studio The Living, will create Autodesk Studio
The Living, David Benjamin's design studio, has been acquired by Autodesk. Combined, the two will create the Autodesk Studio, which will "create new types of buildings, public installations, prototypes and architectural environments."
| Jun 30, 2014
San Antonio green lights multimodal transit center
The new 90,000-sf development will principally service San Antonio’s growing network of city bus and VIA PRIMO bus rapid transit service, including real-time arrival updates, as well as become an iconic public plaza for the city.
| Jun 30, 2014
Philip Johnson’s iconic World's Fair 'Tent of Tomorrow' to receive much needed restoration funding
A neglected Queens landmark that once reflected the "excitement and hopefulness" at the beginning of the Space Age may soon be restored.
