3500/50 Mechanical vibration monitoring system

ABB will establish a new healthcare research center at the Texas Medical Center in Houston, USA, in October this year to install advanced collaborative robots for medical laboratories and hospitals. The new facility located at the Texas Medical Center Innovation Park will focus on the development of non-surgical medical robots. System, by 2025, the global market for non-surgical medical robots is expected to reach nearly 60,000 units, nearly four times that of 2018.ABB announced that it will introduce collaborative robots into medical laboratories and will set up a new healthcare research center at the Texas Medical Center Innovation Campus in Houston, Texas, USA. The center will be opened in October 2019 and will be ABB”s first research center dedicated to the healthcare field. ABB”s research team will work with medical staff, scientists and engineers on the Texas Medical Center campus to develop non-surgical medical robotic systems, including logistics and next-generation automated laboratory technology.An Shiming, President of ABB Group”s Robotics and Discrete Automation Division, said: “Developing next-generation laboratory processes in Houston will speed up manual workflows in medical laboratories, reduce and eliminate bottlenecks in laboratory work, and improve safety and consistency. “This is especially true for high-tech new treatments, such as the cancer treatment pioneered by the Texas Medical Center, which currently require a labor-intensive and time-intensive testing process.”At this stage, the number of patients who can be treated is limited by the shortage of highly qualified medical experts, who spend a lot of time performing repetitive and simple tasks, such as preparing slides and loading centrifuges. Automating these tasks through the use of robots will allow medical professionals to focus on higher-skilled and more productive work, significantly speeding up the testing process and ultimately helping more people receive treatment.ABB has analyzed the current large number of manual processes in medical laboratories and predicts that through the use of automation, the number of tests performed each year will increase by 50%. Training robots to complete repetitive processes will reduce the need for personnel and reduce repetitive strain injuries on the human body.As the world”s population ages, countries” health expenditures account for an increasing proportion of their gross domestic product. Improving healthcare efficiency through automation will not only improve the quality of patient care but also alleviate a range of social, political and financial challenges arising from the above issues. An internal ABB study shows that the non-surgical medical robot market is expected to reach nearly 60,000 units by 2025, nearly four times that of 2018.ABB collaborative robots can work side by side with humans safely and efficiently without the need for safety fences. Currently, ABB collaborative robots have been used in food and beverage laboratories around the world, and are also very suitable for medical institutions. The robots will be able to perform a range of repetitive, delicate and time-consuming tasks, including dosing, mixing and pipetting tasks, as well as sterile instrument assembly and centrifuge loading and unloading.Houston is an important city for global medical technology research, and the Texas Medical Center innovation ecosystem is an ideal choice for ABB”s new healthcare research center. The 20-person ABB Robotics team will be based in the new 5,300 square foot (500 square meter) research facility, which will include an automation laboratory and robotics training facilities, as well as work with innovative partners to develop solutions. Program meeting space.

176449-02 Mechanical vibration monitoring system
125840-01 BENTLY series: 3500 communication gateway module
129530-0010-02 BENTLY TSI system module
3500/42-01-00 3500 series front card and rear card
60M500-05-00 Mechanical vibration monitoring system
3500/72M Mechanical vibration monitoring system
149992-01 3500 series front card and rear card
126648-01 BENTLY TSI system module
146031-01 Bently State Monitoring Interface System
175794-01 BENTLY TSI system module
3500/44M 176449-03 BENTLY series: 3500 communication gateway module
3500/50 BENTLY series: 3500 communication gateway module
3500/20 125744-01 Mechanical vibration monitoring system
3500/64 3500 series front card and rear card
135489-04 Belonging to the Bently Nevada 3500 series
125720-01 3500 series front card and rear card
3500/92 136180-01 Belonging to the Bently Nevada 3500 series
3500/32M 149986-02 BENTLY series: 3500 communication gateway module
3500/05-01-03-00-00-00 BENTLY TSI system module
3300/75 Belonging to the Bently Nevada 3500 series
3500/61-03-00 Bently State Monitoring Interface System
3300/20-05-03-01-00-00 Belonging to the Bently Nevada 3500 series
3500/61 3500 series front card and rear card
9200-01-05-10-00 Bently State Monitoring Interface System
128229-01 3500 series front card and rear card
3500/22-01-01-00 Bently State Monitoring Interface System
3500/42 3500 series front card and rear card
125840-01 BENTLY TSI system module
330850-50-05 Mechanical vibration monitoring system
128240-01 3500 series front card and rear card
330500-02-04 Bently State Monitoring Interface System
177313-02-02 Bently State Monitoring Interface System
3500/32 125720-01 Mechanical vibration monitoring system
3500/05-01-02-00-00-01 3500 series front card and rear card
125800-01 BENTLY TSI system module
3500/50M PWA-286566-02G Bently State Monitoring Interface System
3500/33 Belonging to the Bently Nevada 3500 series
135613-01-00 3500 series front card and rear card
330730-040-01-00 3500 series front card and rear card
3500/32 125720-01 Bently State Monitoring Interface System
106M1081-01 3500 series front card and rear card
130539-30 Belonging to the Bently Nevada 3500 series