Description
When German Chancellor Mucker inserted an index finger into the mechanical tongs at the Hannover
Messe and insisted on personally testing the intelligence of the robot “Corn”, almost all the audience present held their breath and sweated in their hearts.
But his pliers immediately stayed in place, and everyone breathed a sigh of relief.
Since the establishment of ABB China Research Institute in 2005, ABB China R&D personnel have developed the world”s fastest and most accurate six-axis robot – the “Dragon” IRB 120, and officially launched the world”s first true robot to the market at the Hannover Industrial Fair
in Germany. YuMi (“Corn”), a dual-arm industrial robot that realizes human-machine collaboration.
On the occasion of the tenth anniversary of the establishment of ABB China Research Institute, Mr.
Claes Rytoft, the group”s global chief technology officer, was interviewed by reporters on ABB”s robotics business development and other issues.
Reporter: Is the development of the robot “Corn” targeted at the application needs of specific industries?
Claes Rytoft: Before talking about “corn”, let”s first look at other robots that have been used in industry before.
They are basically industrial arms that do some complex repetitive work. But these robot arms are not safe. They must be placed in a cage and separated from people at a distance because they are not safe enough.
So let”s look back at “Corn”, he can collaborate with others, he can stand next to you and participate in the work together. In the process of your human-machine collaboration, if you accidentally touch it with your arm, it will immediately slow down or even stop. This collaborative robot is an innovation in the entire field of robotics.
Let me tell you a tidbit. At the Hannover Industrial Fair in Germany last week, ABB”s robot “Corn” became the
focus, and it was almost one of the most attractive booths at the expo. At that time, German Chancellor Mucker insisted on personally testing the safety and intelligence of ”
Corn”, so he inserted his index finger into the mechanical tongs on “Corn””s arm. At that time, almost all the
spectators present held their breath and were sweating in their hearts, fearing that something would go wrong
and Mucker would be injured. But as soon as Mukeer put his fingers in, his pliers immediately stopped in place, and everyone breathed a sigh of relief.
This example also shows that “Corn” is a true human-machine collaborative robot, and the users it targets are users who need human-machine collaborative work.
“Corn” can be used in many assembly and manufacturing industries. In terms of human-machine collaboration, there is no compromise in the accuracy of its operation, and it can accurately reach an
accuracy of 0.02 mm, which is equivalent to the smallest gap that can be felt by
the human hand. To put it figuratively, you can use “corn” to “thread the needle”.
Reporter: What is the development direction of ABB Robotics in China? What is the driving force for development?
Claes Rytoft: ABB”s robot business first started in the automotive industry. In the era of mass production in the 1950s
and 1960s, robots were used to perform complex and dangerous operations, such as spraying and welding.
Take welding as an example. To ensure that welding meets standards, it must be operated by very skilled technical
workers, and robots can also meet standards after being programmed. This is why the first robot was born at ABB”s Swedish research institute and was quickly promoted to worldwide.
There is always room for development in this industry, and saturation is relative. China has now become a production
base for electronic consumer products, and most of the production factories still rely on manual labor. Therefore, when ABB established a robot R&D and manufacturing base
in Shanghai in 2005, it began to study which manufacturing industries robots should serve, and finally believed that
it could replace Labor in these factories is also a new development direction. This depends more on the Chinese team.
In 2009, Dr. Gu Chunyuan, chairman and president of ABB (China) Co., Ltd., led a local team to successfully develop the IRB 120 robot, which is specifically designed for small parts assembly in the automotive industry.
As for the driving force of development, it is cost. In 2005, Dr. Gu Chunyuan went to a labor-intensive equipment company
in China for research. At that time, he imagined that if the robot designed by ABB could complete all the operations of human hands on this production line,
it would be able to relieve these young people from these heavy and intensive tasks. Freed from extremely
boring and highly repetitive labor to do other things. This is why ABB Robotics has determined such a development direction in China.
Excitation system ABB module TB825
Excitation system ABB module TB820V2
Excitation system ABB module TB820
Excitation system ABB module TB815
Excitation system ABB module TB811
Excitation system ABB module TB810
Excitation system ABB module TB807
Excitation system ABB module TB806
Excitation system ABB module TB805
Excitation system ABB module TB711F
Excitation system ABB module TB521-ETH
Excitation system ABB module TAS01
Excitation system ABB module TAS.580.0600G00 V01
Excitation system ABB module TAS.580.0560G00
Excitation system ABB module TAS.580.0540G00
Excitation system ABB module TA924F
Excitation system ABB module TA724F
Excitation system ABB module TA526
Excitation system ABB module TA525
Excitation system ABB module TA524
Excitation system ABB module TA523
Excitation system ABB module SYNPOLD CMA132
Excitation system ABB module SYNCHROTACT5 3BHB006713R0217
Excitation system ABB module SYN5202A
Excitation system ABB module SYN5202
Excitation system ABB module SYN5201a-Z,V217 3BHB006714R0217
Excitation system ABB module SY809F
Excitation system ABB module SY809F
Excitation system ABB module SV541
Excitation system ABB module STT02E
Excitation system ABB module STC2BE
Excitation system ABB module STC2AE
Excitation system ABB module STBNIP2311
Excitation system ABB module SS832 3BSC610068R1
Excitation system ABB module SS832
Excitation system ABB module SS832
Excitation system ABB module SS832
Excitation system ABB module SS832
Excitation system ABB module SS822Z
Excitation system ABB module SS822
Excitation system ABB module SR511 3BSE000863R1
Excitation system ABB module SR511 3BSE000863R0001
Excitation system ABB module SPTPS13
Excitation system ABB module SPTKM01
Excitation system ABB module SPSET01
Excitation system ABB module SPSET01
Excitation system ABB module SPSED01
Excitation system ABB module SPNPM22
Excitation system ABB module SPNPM22
Excitation system ABB module SPNPM22
Excitation system ABB module SPNIS21
Excitation system ABB module SPNIS21
Excitation system ABB module SPNIS21
Excitation system ABB module SPNIS21
Excitation system ABB module SPMC2402
Excitation system ABB module SPMC1402
Excitation system ABB module SPIPT800
Excitation system ABB module SPIET800
Excitation system ABB module SPIET800
Excitation system ABB module SPIET800
Excitation system ABB module SPICT13A
Excitation system ABB module SPHSS13
Excitation system ABB module SPHSS13
Excitation system ABB module SPHSS13
Excitation system ABB module SPHSS03 Belica piece
Excitation system ABB module SPHSS03
Excitation system ABB module SPFEC12
Excitation system ABB module SPFEC12
Excitation system ABB module SPFEC12
Excitation system ABB module SPFEC12
Excitation system ABB module SPFCS01
Excitation system ABB module SPER1C1
Excitation system ABB module SPDSO14
Excitation system ABB module SPDSO14
Excitation system ABB module SPDSO14
Excitation system ABB module SPDSO14
Reviews
There are no reviews yet.