Contact person: Mr. Lai
Mobil:17750010683
WeChat:17750010683
WhatsApp:+86 17750010683
KUKA has always been fond of “black technology”. Technical innovation is a daily topic, and continuous improvement is the daily routine of KUKA”s R&D. Andreas
Bauer, Vice President of Marketing Strategy and Operations Department of KUKA and Chairman of the International Federation of Robotics ( IF R), once said that the
detection error defined by KUKA is between plus and minus 0.01 mm.
“This error is thinner than a hair. Only with this arm swing deviation can a large robotic arm
This robotics giant from Germany uses a rigorous attitude to control the accuracy of its robotic arms to within millimeters, and is able to ensure that the error can
still be controlled within a controllable range after tens of thousands of hours of operation. Ball also said, “If it fails, we will find the reasons and make a summary.
Kuka will eliminate these mistakes 100%.”
2. Collaborate with users to grow and increase volume
As the hidden champion of Japan’s manufacturing industry, Fanuc’s growth has also faced obstacles from the United States. At that time, the United States
had the right to speak in the industry, and Fanuc had been unable to enter the U.S. market.
However, Fanuc later entered the U.S. market through cooperation with General Motors. Although it was not smooth at the beginning, with the financial support
of its partners, FANUC completed the “counterattack myth” and surpassed its competitors with technological iterations.
FANUC, which grew up in collaboration with its partners, became the world”s largest supplier of industrial robots in the late 1990s. It is reported that in June 2008,
FANUC robot sales exceeded 200,000 units; in 2015, FANUC”s global installed base of robots exceeded 400,000 units, with its market share firmly at the forefront.
Until now, FANUC’s industry status remains unshakable.
Similarly, ABB, another company from Switzerland among the four major families, has also been pursuing the strategy of “raise high and strike high” and attaches
great importance to cooperation with major customers. In the Chinese market, ABB cooperates with Huawei , Changhong, Fotile and other benchmark companies in
the 3C home appliance industry to customize products and solutions for customers.
Cooperation with industry representative companies means that ABB can grasp the development direction of the industry more quickly. While providing solutions to
customers, ABB has more opportunities to go deep into the market and understand users.
For example, in 2008, ABB cooperated with BMW and provided it with industrial robot solutions many times. In the following years, after gaining a deep insight into
user needs, ABB provided BMW with a package solution for the construction of a spray production line, providing it with 2,400 robots to mainly complete material handling, gluing, and welding .
It is understood that ABB currently has complete possession of the four major automotive manufacturing process technologies (stamping, welding, painting and
final assembly), and has developed a flexible and fully automatic automotive production system.
These customized solutions have attracted more well-known users to cooperate with ABB, and multiple cooperation with industry benchmark companies have
allowed ABB to better understand the needs and pain points of the industry, and develop products and solutions suitable for companies in more industries. It effectively
improves the productivity and highly flexible production requirements of car companies.
The increase in KUKA”s market volume is inseparable from its integration experience in multiple fields. KUKA’s Bauer once made it clear that “cross-industry
collisions can create new sparks.”
Whether it is the pursuit of top-notch technology, adhering to ingenuity and continuous improvement over the years, or in-depth cooperation with users in
actual combat, accumulating a large amount of rich application experience, the respective advantages and areas of expertise of the four major families are being
focused and extended. be perfected to become an important robot supplier in their respective fields over time.
TRICONEX AO3481 Analog Output module TRICON AO3481
TRICONEX EPI3382 simulates the input module TRICON EPI3382
TRICONEX MP6004 Analog output module TRICON MP6004
TRICONEX PI3351 Simulates the input module TRICON PI3351
TRICONEX PM6301A Analog Output module TRICON PM6301A
TRICONEX PI3381 simulates the input module TRICON PI3381
TRICONEX 3708EN Analog input module 3704E TRICON 3708EN
TRICONEX 3706A Thermocouple analog input module TRICON 3706A
5SHY4045L0003 3BHB021400 3BHE019719R0101 GVC736BE101 Diode and grid drive circuits
3500/54-03-00 Electronic Speed Detection System 3500/54
DSTS106 3BSE007287R1 Trigger Pulse regulator Advant main process control system
DSTS105 3BSE007286R1 is used to simulate the standby regulator DSTS105 ramp unit
DI650 3BHT300025R1 Digital input 32 channel DI650
3500/92-02-01-00 Communication Gateway 3500/92-04-01-00
TC515V2 3BSE013284R1 AF100 Twisted-pair repeater Advant Field Bus 100 interface
TC512V1 3BSE018059R1 RS485 Twisted Pair modem Advant Controller
DSAO130A 3BSE018294R1 Analog output board 16-channel S100 I/O module
DSTA155P 3BSE018323R1 Connects Unit 14 thermocouple S100 I/O terminal unit
ABB SYN5202-0277 Synchronous device
DSTA002B 3BSE018317R1 Analog input board connected to the unit S100 I/O module
DSTA135 3BSE018315R1 input board analog long connection unit S100 I/O module
DSTA001B 3BSE018316R1 Analog long connection unit S100 I/O module
DSTD190V1 3BSE018314R1 connects to unit 32 Ch control system Advant
DSTA181 3BSE018312R1 Connection unit S100 I/O module for simulation
DSTA156B 3BSE018310R1 connects unit 32 Ch control system Advant
DSDI120AV1 3BSE018296R1 Digital input pad 32 S100 I/O module
CI522AK04 3BSE018451R1 Communication module AF100 interface kit
CI522AK02 3BSE018449R1 Communication bus module AF100 interface
CI522AK01 3BSE018448R1 Field bus interface module AF100 interface suite
CI522AK01 3BSE018448R1 Field bus interface module AF100 interface suite
DSTD108LP 3BSE018335R1 Connection unit S100 I/O terminal unit with 8 relays
DSTD108P 3BSE018333R1 Connects to the Unit 8 Ch S100 I/O terminal unit
DSTD196P 3BSE018332R1 Connects to the Unit 8 Ch S100 I/O terminal unit
DSTD109P 3BSE018327R1 Connects to Unit 8 Ch S100 I/O terminal unit
DSAI130K18 3BSE019910R1 Analog input 16-channel S100 I/O module
DSBC176 3BSE019216R1 bus expansion board S100 I/O module
DSBC176K01 3BSE019956R1 S100 I/O Connection Kit Bus Coupler Kit
TC561V2 3BSE022179R1 optical modem S100 I/O bus communication interface
DSDI110AK14 3BSE019927R1 Digital Input Kit 32 channel S100 I/O module
DSSX166 5347049-CR Power distribution terminal AC 400 power supply
CI535V24 3BSE022158R1 Main interface module AC 400 Communication module
DSSR170 48990001-PC DC voltage regulator – Input VDC output Input S100 I/O power module
CI545V01 3BUP001191R1 Precision Ethernet submodule AC400 communication module
CI532V09 3BUP001190R1 Submodule Interface AC 400 communication module
DSTX170 57160001-ADK Connection unit S100 I/O terminal unit
ABB DSTA145 57120001-HP Analog Board Connection Device S100 I/O terminal Unit
ABB DSBB188 3BSE005004R1 Power bus Advant controller
ABB DSSS171 3BSE005003R1 Switch Voting unit Advant controller
DSBC174 3BSE012211R1 bus expander S100 I/O bus
133396-01 Overspeed detection I/O module Bently Nevada
F6217 984621702 8-channel analog input module
HIMA F3237 984323702 Channel 16 input module
F3330 984333002 Channel 8 output module
Reviews
There are no reviews yet.