Description
hardware flow control. It is an ideal choice in the field of industrial automation.
In the Internet of Things era, look at the IOT strategic deployment of the “four major families” of industrial robots
When we talk about Industry 4.0 or smart manufacturing, we cannot help but mention the “four major families” of robots – KUKA, ABB, FANUC, and Yaskawa,
because as the industrial robot companies with the highest level of intelligence at present, they are in the industry They have important influence. In the era of the
Internet of Things, what are these four major families doing?
As a relatively mature product, industrial robots are difficult to judge from the perspective of ordinary users. Especially in today”s era, it is impossible to create a
generational gap through technology.
Just like when someone asks about the advantages and disadvantages of the car-making technologies of Mercedes-Benz and BMW, all I can say is, “It doesn”t matter
if you ride in a Mercedes-Benz or drive a BMW.” Comparing industrial robots to car-making, most of the key technologies used in car-making must be shared by Mercedes-Benz
and BMW. The differences in other “marketing technologies” will not affect the technological competition pattern.
So what will industrial robot manufacturers mainly rely on to widen the gap in the future? There is only one answer, the Internet of Things strategy. Without realizing it,
KUKA, ABB, FANUC, and Yaskawa, the four major industrial robot giants, have already been stationed in the field of Internet of Things and are ready to go.
KUKA(Midea)
On December 30, 2016, Midea Group’s tender offer for the shares of Germany’s KUKA Group (KUKA), the world’s leading provider of intelligent automation solutions,
through MECCA InternaTIonal (BVI) Limited, has received approval from all relevant regulatory authorities.
At the annual meeting of Midea Group on January 12, 2017, Fang Hongbo, Chairman of Midea Group, emphasized the industrial significance of Midea’s acquisition
of KUKA: In the future, Midea will build a second industrial segment besides the home appliance industry, namely the robotics and industrial automation industry segment. This is The new growth point of beauty.
The annual meeting invited KUKA CEO TIll Reuter, who has just entered the Midea system, to give a speech. When explaining the core strategic goals for the future,
Reuter mentioned the two concepts of “intelligent machines” and “digital areas”, which are the two concepts that run through the Internet of Things technology in the company”s business:
Intelligent machines: Among the industrial robots manufactured by KUKA, they are equivalent to advanced robots with both autonomy and mobility. Soon a large number
of industrial robots will “step out of the work cage that is isolated from humans” and begin to work closely with humans, further improving their flexibility. Reuter said that as
industrial robots continue to develop, smart machines with better autonomy and mobility will emerge.
Digital area: It is a solution that combines the knowledge related to production processes of various industries that KUKA has cultivated in the past with the
most cutting-edge IT. Reuter said: “We are familiar with the production processes of products such as cars and aircraft. We want to connect our technical experience with IT to provide
customers with intelligent systems.” Reuter said that by optimizing intelligent systems, that is, complex systems based on big data analysis, reducing downtime
and predictive maintenance of various production systems, new business models can be created and a highly integrated value chain can be built.
According to IFR data, in the field of automobile manufacturing, KUKA robots have the largest market share in the world. We might as well start with the automotive industry
and show you how KUKA uses the “Internet of Things box” to construct the Jeep Wrangler”s body-in-white workshop into an IIoT (Industrial Internet of Things) factory.
https://www.xmamazon.com
https://www.xmamazon.com
https://www.plcdcs.com/
www.module-plc.com/
https://www.ymgk.com
UNITROL 1020 ABB 1000 series voltage regulator
UNITROL 1010 ABB Indirect Excitation System
KSD211B101 ABB Input coupling unit
KSD211B ABB Input coupling unit
CI871 3BSE092693R1 ABB AC 800M communication interface
ATCS-15 SCHUMACHER temperature control system
EMERSON A6370D monitor unit
A4H124-24FX Enterasys Ethernet edge switch
0745648E 0745745Q ABB Control substrate
3500/53M Electronic Overspeed Detection System
05701-A0550 HONEYWELL Communication control card
4351B TRICONEX Communication Modules
1394-SJT05-C-RL A-B Servo controller
1394C-SJT22-A A-B Servo controller
5AP920.1505-01 B&R Analog resistive touch screen
XV9738a HEIE450617R1 ABB Programmable control card
VT-HNC100-1-23W-08-P-0 Rexroth Programmable numerical control controller
UTNH23A TOSHIBA Shared fiber hub unit
T8480C ICS TRIPLEX Trusted TMR Analogue Output Module
SCXI-1104C NI SCXI voltage input module
5SHX1060H0003 ABB IGCT module
T8461 ICS TRIPLEX Digital Output Module
PM802F ABB AC 800F Controller module
MVI56E-SIE PROSOFT Ethernet Communication Module
MVI56E-MNET PROSOFT Enhanced network interface module
LYA010A HITACHI Processor Module
KCP2 00-130-547 KUKA Robot teaching device
IS420UCSBH4A GE Mark VIe controller
IS220PTURH1A GE Turbine input/output module
IS215UCVEH2AE GE VME controller card
IC698CMX016-ED GE Control memory exchange module
IC697CPM790 GE GMR Redundancy CPU, 486, 2K Triplex (voted) I/O
FLA6041 LAURENCE solenoid valve
ETT-VGA UNIOP touch screen
DS200LDCCH1ALA GE Drive Control LAN Communications Board Mark V
D136-001-007 MOOG Controller module
CI867K01 3BSE043660R1 ABB Modbus TCP Interface
CI858K01 3BSE018135R1 ABB DriveBus Interface
CI855K01 3BSE018106R1 ABB Ethernet Port Interface
CI854K01 3BSE025961R1 ABB Communication Interface
CI854AK01 3BSE030220R1 ABB Communication Interface
A2H124-24FX ENTERASYS Fast Ethernet Switch
133819-02 BENTLY RTD/TC Temp I/O Module
8851-LC-MT GE SafetyNet Controller
8810-HI-TX GE Safety net analog input module
8502-BI-DP GE Bus Interface Module
Reviews
There are no reviews yet.