Description
hardware flow control. It is an ideal choice in the field of industrial automation.
In terms of high-end vocational education to train operators and other
professional and technical talents, our country is very inadequate, and this is
also the biggest shortcoming.
On the one hand, the cultivation of such high-end technical talents requires high-level hardware
and software facilities . Currently, only a few 985 universities and some
corresponding top departments of 211 universities can provide such facilities. Other schools
simply do not have the ability. Naturally, we cannot provide enough talents.
On the other hand, our country has not yet established a complete vocational education system
and cannot train enough skilled workers to operate automated equipment such as robots. As for the
so-called vocational high schools and technical schools, it goes without saying what they are like
, and you cannot count on them at all.
The reason why such a vocational education system has not been established is mainly because
there was not enough money before. Take the well-done German vocational education system as an
example. It allows students to directly learn to use the most cutting-edge production technology and e
quipment. Things are piled up with real money, and they need to be updated frequently, which costs
more. At present, some domestic dual-book stores probably have these facilities, but it is a drop in the bucket.
Taken together, my country”s talent shortage in smart manufacturing, including the robotics industry, is
difficult to alleviate in a short period of time. Enterprises need talents. In addition to poaching talents with
high salaries, they can only train them themselves. However, this not only increases costs, but also risks
personnel turnover. , the talents you have worked so hard to cultivate may be immediately poached by other
companies, and it is really too late to cry. This is also the main reason why companies are unwilling to train talents.
Probably only state-owned enterprises that do not settle accounts will train some technical talents. , but that’s all.
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GFD233A103 3BHE022294R0103 ABB Interface Module
GFD233A 3BHE022294R0103 ABB Interface Module
CI871K01 3BSE056767R1 ABB Profinet IO Interface
CAI04 ABB CAI04
DO810 3BSE008510R1 ABB 16 digital outputs
DI04 ABB DI module, 16-CH, 48 VDC
PM864AK01 3BSE018161R1 ABB Processor Unit
9907-164 Woodward 505 Digital microprocessor-based Controllers
GPU/2 GS DEIF Generator paralleling controller
RMP201-8 KONGSBERG DIGITAL INPUT MODULE
1785-ME64/A Allen-Bradley Memory Device
8200-1300 Woodward integrated graphical front panel HMI
1756-RM/A Allen-Bradley ControlLogix enhanced redundancy module
1756-L63/B Allen-Bradley 5560 ControlLogix Programmable Automation Controller (PAC)
1756-L61/B Allen-Bradley standard ControlLogix series controller
1756-EN2T/B Allen-Bradley communication module
1756-CN2R/B Allen-Bradley communication module
1756-A7/B Allen-Bradley small and compact chassis
5X00622G01 Westinghouse Analog Input Card
5X00502G01 Westinghouse Analog output module
5X00500G01 Westinghouse Analog Input Module
5X00499G01 Westinghouse The 32-channel DI card is installed
5X00497G01 Westinghouse Base control unit
5X00226G01 Westinghouse I/O INTERFACE MODULE
5X00226G04 Westinghouse I/O Interface Module
5X00489G01 Westinghouse Power Distribution Module
5X00481G04 Westinghouse Processor Module
5X00106G01 Westinghouse High Speed HART Analog Input
1C31234G01 Westinghouse Compact Contact Input Module
1C31233G04 Westinghouse Analog Input Module
1C31232G02 Westinghouse Digital Input
1C31224G01 Westinghouse Analog Input Module
1C31227G01 Westinghouse 8 Channel Analog Input
1C31222G01 Westinghouse Relay Output Panel
1C31194G03 Westinghouse Control Module
1C31189G03 Westinghouse Speed Detector Module
1C31181G01 Westinghouse Remote I/O Master Unit
1C31179G01 Westinghouse Remote Input Output Master Attachment Unit
TPMC871-10 TEWS TPMC871-10 PMC Interface Module
T8461C ICS TRIPLEX T8461C Trusted TMR 24/48Vdc Digital Output Module
T8403C ICS TRIPLEX T8403C Trusted TMR 24Vdc Digital Input Module
IBA SM128V ABB Controller MODULE
F650BABF2G0LOSHE GE FEEDER MANAGEMENT RELAY
KJ3002X1-BF1 12P1732X042 EMERSON RTD Card
38B5786X132 EMERSON Single-Acting Direct Pneumatic Relay
PU515A 3BSE032401R1 ABB PU515A Real-Time Accelerator Exchange
PM866-2 3BSE050201R1 ABB Processor unit
CP405 A0 1SAP500405R000 ABB Control Panel 7″ TFT touch screen
330130-040-00-00 Bently Nevada 3300 XL Standard Extension Cable
330106-05-30-05-02-05 Bently Nevada 3300 XL 8 mm Reverse Mount Probes
330103-00-06-10-02-00 Bently Nevada 3300 XL 8 mm Proximity Probes
1785-L40C15 Allen-Bradley ControlNet PLC5 Programmable Logic Controller (PLC)
330103-00-04-10-02-00 Bently Nevada 3300 XL 8 mm Proximity Probes
A6110 EMERSON Protection Monitors
6ES7416-2FK02-0AB0 Siemens Processor Module
A6220 EMERSON Machinery Health Monitor
1785-CHBM Allen-Bradley hot-backup type of memory cartridge
CC-TAOX11 51308353-175 HONEYWELL Analog Output Module
CC-TDIL51 51307083-175 HONEYWELL Module
CC-TAIX11 51308365-175 HONEYWELL Analog Input IOTA Redundant
CC-TAIN11 51306515-175 HONEYWELL Redundant Analog Input Terminal Board
CC-PCNTOX 51308307-175 HONEYWELL Analog Output Module
CC-PFB401 51405044-175 HONEYWELL Fieldbus Interface Module
CC-PAOX01 51405039-275 HONEYWELL Analog Output Module
CC-PAON01 51410070-175 HONEYWELL Analog Output Module
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