Provide a total solution for cell labs

Committed to the development of intelligent robots that are easy to operate, flexible to use, and highly safe for the cell industry to help users improve work efficiency and technology

Suitable for special cell line operation

Simple control interface, with simple training, operators can easily modify parameters or reprogram according to experimental requirements for any special cell line manipulation or other actions.

Stäubli six-axis robot as the core of the system

Simple control interface, with simple training, operators can easily modify parameters or reprogram according to experimental requirements for any special cell line manipulation or other actions.

CompacT SelecT Drug Screening Automation System

Simple control interface, with simple training, operators can easily modify parameters or reprogram according to experimental requirements for any special cell line manipulation or other actions.

  • For special cell line manipulation

  • Stäubli six-axis robot as the core of the system

  • CompacT SelecT
    Drug Screening Automation System

Focus on medical equipment and smart medical application solutions

Focus on the research and development, design, production and sales of AI intelligent robot medical equipment and smart medical scene application solutions, and create the first brand of intelligent robot medical equipment. Robot365 is committed to developing easy-to-operate, flexible and safe medical robotic equipment to help users improve work efficiency. With a large number of successful application cases of intelligent equipment in the domestic medical stem cell industry laboratory, it is the leader of stem cell cultivation robots.

Lighthouse series Cell Culture System ROBOT-LOT

Its core is a high-precision and clean NXF500 six-axis robot, which is mainly used to replace manual repetitive work. The NX500 robot is compactly integrated into the ROBOT-POT system, which can automate operations such as inoculation, medium exchange, cell harvesting, washing, trypsin treatment, and waste disposal.
Under GMP Class A cleanliness, robot movements need to be very smooth and gentle to ensure that delicate cells are not damaged.

All operating parameters are stored on the computer, including volume, temperature, time and specific robot movements.

Lighthouse series Cell Culture System ROBOT-LOT

Its core is a high-precision and clean NXF500 six-axis robot, which is mainly used to replace manual repetitive work. The NX500 robot is compactly integrated into the ROBOT-POT system, which can automate operations such as inoculation, medium exchange, cell harvesting, washing, trypsin treatment, and waste disposal.
Under GMP Class A cleanliness, robot movements need to be very smooth and gentle to ensure that delicate cells are not damaged.

All operating parameters are stored on the computer, including volume, temperature, time and specific robot movements.

Lighthouse series Cell Culture System ROBOT-LOT

Its core is a high-precision and clean NXF500 six-axis robot, which is mainly used to replace manual repetitive work. The NX500 robot is compactly integrated into the ROBOT-POT system, which can automate operations such as inoculation, medium exchange, cell harvesting, washing, trypsin treatment, and waste disposal.
Under GMP Class A cleanliness, robot movements need to be very smooth and gentle to ensure that delicate cells are not damaged.

All operating parameters are stored on the computer, including volume, temperature, time and specific robot movements.

Applications

Committed to the development of intelligent robots that are easy to operate, flexible to use, and highly safe for the medical industry to help users improve work efficiency, reduce costs and increase efficiency

Cell Lab
With/without toxic gas laboratory
Chemical Lab
High Precision Instrument Laboratory
Lab on a Chip

Cell Lab

NX500 robot is compactly integrated into the ROBOT-POT system, which can automate operations such as inoculation, medium exchange, cell harvesting, washing, trypsin treatment, and waste disposal. in GMP Under the A-level cleanliness level, the robot movement needs to be very smooth and gentle to ensure that the fragile cells are not damaged.

Cell Lab

NX500 robot is compactly integrated into the ROBOT-POT system, which can automate operations such as inoculation, medium exchange, cell harvesting, washing, trypsin treatment, and waste disposal. in GMP Under the A-level cleanliness level, the robot movement needs to be very smooth and gentle to ensure that the fragile cells are not damaged.

Cell Lab

NX500 robot is compactly integrated into the ROBOT-POT system, which can automate operations such as inoculation, medium exchange, cell harvesting, washing, trypsin treatment, and waste disposal. in GMP Under the A-level cleanliness level, the robot movement needs to be very smooth and gentle to ensure that the fragile cells are not damaged.

Cell Lab

NX500 robot is compactly integrated into the ROBOT-POT system, which can automate operations such as inoculation, medium exchange, cell harvesting, washing, trypsin treatment, and waste disposal. in GMP Under the A-level cleanliness level, the robot movement needs to be very smooth and gentle to ensure that the fragile cells are not damaged.

Cell Lab

NX500 robot is compactly integrated into the ROBOT-POT system, which can automate operations such as inoculation, medium exchange, cell harvesting, washing, trypsin treatment, and waste disposal. in GMP Under the A-level cleanliness level, the robot movement needs to be very smooth and gentle to ensure that the fragile cells are not damaged.

Let AI technology create medical value

Committed to the development of intelligent robots that are easy to operate, flexible to use, and highly safe for the medical industry to help users improve work efficiency, reduce costs and increase efficiency

Well-known AI intelligence field and expert team

Li Tao

PhD in Agricultural Biology, University of Tokyo, Japan, Chinese-American. He used to be a researcher at the Iwate Bioengineering Research Center in Japan and Stanford University School of Medicine in the United States. He is currently the director of Shenzhen Stem Cell Engineering Technology Research and Development Center, the director of the R&D Department of Shenzhen Beike Biotechnology Co., Ltd., and the chief scientist of IPS.

Li Tao

PhD in Agricultural Biology, University of Tokyo, Japan, Chinese-American. He used to be a researcher at the Iwate Bioengineering Research Center in Japan and Stanford University School of Medicine in the United States. He is currently the director of Shenzhen Stem Cell Engineering Technology Research and Development Center, the director of the R&D Department of Shenzhen Beike Biotechnology Co., Ltd., and the chief scientist of IPS.

Li Tao

PhD in Agricultural Biology, University of Tokyo, Japan, Chinese-American. He used to be a researcher at the Iwate Bioengineering Research Center in Japan and Stanford University School of Medicine in the United States. He is currently the director of Shenzhen Stem Cell Engineering Technology Research and Development Center, the director of the R&D Department of Shenzhen Beike Biotechnology Co., Ltd., and the chief scientist of IPS.

Li Tao

PhD in Agricultural Biology, University of Tokyo, Japan, Chinese-American. He used to be a researcher at the Iwate Bioengineering Research Center in Japan and Stanford University School of Medicine in the United States. He is currently the director of Shenzhen Stem Cell Engineering Technology Research and Development Center, the director of the R&D Department of Shenzhen Beike Biotechnology Co., Ltd., and the chief scientist of IPS.

Li Tao

PhD in Agricultural Biology, University of Tokyo, Japan, Chinese-American. He used to be a researcher at the Iwate Bioengineering Research Center in Japan and Stanford University School of Medicine in the United States. He is currently the director of Shenzhen Stem Cell Engineering Technology Research and Development Center, the director of the R&D Department of Shenzhen Beike Biotechnology Co., Ltd., and the chief scientist of IPS.

Li Tao

PhD in Agricultural Biology, University of Tokyo, Japan, Chinese-American. He used to be a researcher at the Iwate Bioengineering Research Center in Japan and Stanford University School of Medicine in the United States. He is currently the director of Shenzhen Stem Cell Engineering Technology Research and Development Center, the director of the R&D Department of Shenzhen Beike Biotechnology Co., Ltd., and the chief scientist of IPS.

Li Tao

PhD in Agricultural Biology, University of Tokyo, Japan, Chinese-American. He used to be a researcher at the Iwate Bioengineering Research Center in Japan and Stanford University School of Medicine in the United States. He is currently the director of Shenzhen Stem Cell Engineering Technology Research and Development Center, the director of the R&D Department of Shenzhen Beike Biotechnology Co., Ltd., and the chief scientist of IPS.

Li Tao

PhD in Agricultural Biology, University of Tokyo, Japan, Chinese-American. He used to be a researcher at the Iwate Bioengineering Research Center in Japan and Stanford University School of Medicine in the United States. He is currently the director of Shenzhen Stem Cell Engineering Technology Research and Development Center, the director of the R&D Department of Shenzhen Beike Biotechnology Co., Ltd., and the chief scientist of IPS.

More and more well-known customers choose us

For further intelligent robotic medical device solutions, please contact our sales and technical support team.

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E-mail: robot365robot@163.com

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