Description
hardware flow control. It is an ideal choice in the field of industrial automation.
In June 2018, Yaskawa (China) Robot Co., Ltd. held a completion ceremony for its third factory in Changzhou. In October, Japan”s FANUC Robotics Chongqing base
project started construction and is expected to be completed in the first half of 2019. After reaching capacity, it will achieve an annual output value of more than 200
million yuan. Local areas compete for new opportunities in high-end manufacturing
From government procurement and local industrial policies, we can see that all regions are competing for new opportunities in digital and intelligent transformation,
and high-end manufacturing, represented by robots, has become the focus of local efforts.
At the CIIE, robot companies received intensive orders. Analysts from the 21st Century Economic Research Institute found that high-end manufacturing, smart
and high-end equipment, new energy vehicles, etc. have become the focus of procurement in the procurement lists of multiple provincial trading groups.
Official data shows that of the US$57.83 billion in intended turnover at the CIIE, the smart and high-end equipment exhibition area had the highest turnover, reaching
US$16.46 billion. Some exhibitors at the exhibition said that they had never received so many large customers from state-owned enterprises and local governments in
one day, and the total order volume far exceeded expectations.
The representative city that focuses on high-end manufacturing is Shanghai, where the service industry accounts for more than 70%. In the “Thirteenth Five-Year
Plan for the Transformation and Upgrading of Shanghai”s Manufacturing Industry” released at the end of 2016, high-end manufacturing is regarded as an important
breakthrough for industrial transformation.
In the past two years, Shanghai”s investment promotion in the field of high-end manufacturing has also been fruitful. A number of major projects such as robots,
new energy vehicles, large aircraft, and integrated circuits have been launched one after another. Take robots as an example. As a carrier of intelligent manufacturing,
Shanghai has gathered domestic and foreign leading robot companies including ABB, KUKA, SIASUN and Xinstar. Currently, robot output accounts for more than 20% of the country”s total.
In the first half of 2018, Shanghai”s non-state-owned economic and industrial investment increased by 32.9% year-on-year, with major projects distributed in various
industries such as auto parts, clothing, and robots. High-end manufacturing projects introduced in Shanghai this year include the Tesla Gigafactory, which plans to
produce 500,000 pure electric vehicles per year , and the
ABB Robotics Gigafactory, which plans to produce 100,000 robots per year. The latter will realize “making robots with robots”. After being put into production in 2020,
the total output of high-end industrial robots made in Shanghai will double.
As a manufacturing hub in the central and western regions, Chongqing is also making continuous efforts in high-end manufacturing. In 2018, Chongqing held the first
China Smart Expo, focusing on smart manufacturing and hoping to build a project exchange and docking
platform in the field of smart manufacturing. In November, Chongqing released “Nine Policy Measures to Reduce the Cost of Manufacturing Enterprises”, which will
reduce the cost of manufacturing enterprises by more than 30 billion yuan each year. Chongqing also supports key enterprises to increase their efforts in intelligent
transformation of equipment, with a maximum subsidy of 5 million yuan for a single project.
In terms of project investment, three of the four major robot families have settled in Chongqing to invest, including ABB from Switzerland, KUKA from Germany, and
FANUC from Japan. At present, there are more than 300 robot companies in Chongqing, and the number of industrial robot companies has exceeded 120.
A mature robot market should have 70 robots per 10,000 jobs. Countries with relatively developed robot applications, such as South Korea, Germany, Japan, etc.,
already have 300 robots per 10,000 people, while China is far lower than the previous one. numbers, let alone compared to developed countries. In 2016, China”s
“Robot Industry Development Plan (2016-2020)” proposed that the density of industrial robots (the number of industrial robots used per 10,000 workers) should reach more than 150 by 2020.
How to support high-end industries locally
Analysts from the 21st Century Economic Research Institute combed through the high-end manufacturing support policies in Shanghai, Chongqing,
Shandong and other places and found that most of them focus on industrial land, fiscal and tax support, etc.
Shanghai has proposed seven safeguard measures: reforming the industrial system and mechanism, coordinating industrial land use,
increasing fiscal and taxation support, promoting the integration of industry and finance, building a talent system, implementing an open development
strategy, and improving the planning and implementation system. Jiangsu implements a high-end equipment research and development catch-up project,
focusing on the development of 13 fields such as electronic industry equipment and intelligent complete sets of equipment.
Zhejiang implements special projects for equipment with major shortcomings, focusing on ten major fields such as rail transit, robots and
intelligent manufacturing equipment.
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IC698CPE020-CC | GE | CPU module
IC698PSA350D | GE | Control system power supply
IC693DNM200-BD | GE | Device network main module
IC693DNM200-BD | GE | Motion controller
IC693DSM302-RE | GE | Motion controller
IC693MDR390 | GE | Dc input/output relay module
IC693MDL231 | GE | Relay module
IC693MDR390 | GE | Power module
IC693PCM311 | GE | Relay power output
IC693PWR321 | GE | Digital output module
IC693PWR330G | GE | Power module
IC660ELD100A | GE | Voltage/current analog block
IC670CBL001 | GE | Switch input terminal board
IC670CBL001 | GE | Logic control module
IC670CHS001 | GE | Switch input module
IC670CHS001E | GE | Switch input module
IC670CHS002 | GE | I/O terminal
IC670CHS101 | GE | Digital output card
IC670CPU350 | GE | I/O module
IC670GBI002 | GE | Bus interface unit
IC670GBI102D | GE | Packet input module
IC670MDL240J | GE | Input module
IC670MDL240K | GE | Discrete input module
IC670MDL241J | GE | Network communication card
IC670MDL640 | GE | Safety system module
IC670MDL644 | GE | Protection output module
IC670MDL730 | GE | Digital input module
IC670MDL740 | GE | Control system module
IC670MDL740J | GE | Analog input module
IC670MDL930J | GE | Dual output module
IC670MDL930 | GE | Dual output module
IC670MDL930J | GE | Digital output module
IC670MDL930K | GE | Input module
IC670PBI001 | GE | Module connector
FC-QPP-0002 |HONEYWELL | Quad-core processor
IC697CPX928-CD |GE| Data acquisition module
F8651X |HIMA | Optical fiber interface board
D0C-16C |SAMSUNG | Output module digit
IC695CRU320-BB|GE| Digital output module
IC695CRU320 |GE | CPU module
IS200WNPSH1ABA |GE| Servo terminal board
IS230TVBAH2A |GE | Enhanced intelligent communication module
D138-002-002 | MOOG | License Key
AL81G |ACQUISITIONLOGIC | Network communication module
CG6565/64-2L/8TE |NMS|Control system power supply
85003-0567 |molex| Digital output module
GVC736CE101 |ABB|Control system card
IC698CRE030 |GE| VMIC control board
07AC91D |ABB|Optical isolation module
IS215UCVEM10A |GE| VMIC control board
CI546 3BSE012545R1 |ABB|Analog output module
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