ConBotics

Creates modular painting robots weighing 130kg for wall coating. Dismantles into parts for transport; app-controlled for automated spraying in building interiors.

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ConBotics
Bismarckstraße 10-12
Berlin 10625
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HeShan Technology Raises Hundreds of Millions in Series B Funding Amid Fourfold Order Growth

HeShan Technology Raises Hundreds of Millions in Series B Funding Amid Fourfold Order Growth

HeShan Technology, based in Beijing, has successfully completed a Series B funding round, raising hundreds of millions of yuan. The investment comes from a mix of industrial capital and specialized investment firms, including TaiPing Innovation and Junsheng Electronics. This funding marks the third financial boost for the company in six months, with plans for a Series C round already underway. HeShan reported that its total orders in the first half of the year reached four times that of the previous year, with monthly deliveries of tactile sensors stabilizing at tens of thousands. The significance of this funding round lies in the clear investment trends within the robotics sector. Investors like Junsheng Electronics and AUX are focusing on practical technologies that can integrate with existing production lines, moving away from speculative concepts. HeShan has established a comprehensive stack covering chips, sensors, and data simulation, addressing the growing demand for tactile perception in smart healthcare devices, especially as the aging population increases in China. Looking ahead, HeShan Technology's next milestone will be the advancement of its Series C funding efforts. The company is poised to leverage its tactile technology to enhance safety in elderly care scenarios, collaborating with industry partners. No further timeline was disclosed at the time of publication, but the strong order volume and delivery capabilities position HeShan as a leader in the tactile robotics market, addressing the industry's need for mature, scalable solutions.

Tactile Sensors Robotics Industrial Automation AI Technology
Dewalt Launches DALE Downward-Drilling Robot for Data Center Construction

Dewalt Launches DALE Downward-Drilling Robot for Data Center Construction

Dewalt, in collaboration with August Robotics, has launched DALE, the world's first fleet-capable downward-drilling robot, at the World of Concrete event. This innovative robot is designed to enhance efficiency in data center construction, achieving drilling speeds up to ten times faster than traditional methods. During a year-long pilot, DALE drilled over 230,000 holes with 99.97% accuracy, significantly reducing project timelines by 190 weeks across 26 phases. The introduction of DALE is significant for the construction industry, particularly in the rapidly growing data center sector. Dewalt's robot not only accelerates drilling processes but also integrates advanced features such as fast-swap batteries, remote monitoring, and automatic dust extraction. These capabilities allow for enhanced safety and precision, making it a valuable asset for construction teams facing tight deadlines and labor challenges. Looking ahead, DALE is now available for commercial orders, marking a pivotal moment for construction automation. The robot's ability to operate in fleets and drill through rebar positions it as a versatile tool for various construction applications. No further timeline was disclosed at the time of publication regarding additional features or expansions in its deployment.

AI and Robotics
Bessemer Technology Secures Angel Funding for Motor Innovations in Robotics

Bessemer Technology Secures Angel Funding for Motor Innovations in Robotics

Bessemer (Shanghai) Technology, founded by Assistant Professor Zhu Wenjun from Xi'an Jiaotong-Liverpool University, has successfully raised millions in angel funding from the Pudong AI Seed Fund. Established in 2025 with a registered capital of 2 million yuan, the company holds two patents and aims to optimize motor technology and establish mass production lines with the new funding. This funding is significant as it marks a shift in investment focus towards core components like joint motors, which have been underdeveloped in China. While many domestic motor technologies remain in the experimental phase, Bessemer is building a complete chain from electromagnetic simulation to standardized hardware, addressing the gap between laboratory innovations and industrial production. Looking ahead, Bessemer's product line includes the E series and S series motors, designed for humanoid robots and medical devices, which could disrupt the market by offering lighter, more efficient alternatives to traditional motors. No further timeline was disclosed at the time of publication for upcoming product launches or additional funding rounds.

Motor Technology Robotics Angel Investment High-Tech Startups
XSTO Mobility Launches $28,000 X12 Stair-Climbing Robot with AI and LiDAR Technology

XSTO Mobility Launches $28,000 X12 Stair-Climbing Robot with AI and LiDAR Technology

XSTO Mobility has unveiled the X12 all-terrain mobility robot, priced at $27,999, designed to assist wheelchair users in overcoming stairs and other obstacles. Weighing approximately 115 kg and capable of carrying up to 136 kg, the X12 features a hybrid wheel-track chassis that allows it to navigate stairs autonomously, with a climbing speed of 25 steps per minute and descending speed of 30 steps per minute. The robot utilizes LiDAR and AI algorithms for real-time terrain perception, enabling it to adjust its driving mode and power output dynamically. The introduction of the X12 is significant as it addresses mobility challenges faced by individuals with disabilities, particularly in environments lacking accessibility features. With the ability to climb slopes of up to 40 degrees and traverse gaps of 300 mm, the X12 offers a solution that goes beyond traditional mobility aids. XSTO Mobility, based in Zhongshan, Guangdong, has been developing embodied mobile robots for over a decade, and the X12 represents a substantial advancement in this field, emphasizing user independence and safety. Looking ahead, XSTO Mobility has reported that orders for the X12 are already booked until April 2026, indicating strong market demand. The robot is currently available in over 70 countries, and its innovative design has garnered multiple awards. No further timeline was disclosed at the time of publication regarding additional product releases or enhancements.

Mobility Robots Assistive Technology AI Healthcare Innovation
Rollon Launches Magnetic Telescopic Rails to Enhance Railway Maintenance Efficiency

Rollon Launches Magnetic Telescopic Rails to Enhance Railway Maintenance Efficiency

Rollon, a leader in linear motion systems, has introduced the HVC-MG and H1C-MG integrated magnetic telescopic rails. These rails, designed for high-load applications, incorporate magnets into the rail structure to improve control and reduce effort during maintenance tasks. The new technology was unveiled this week and aims to enhance the efficiency and safety of railway maintenance operations by allowing engineers to easily pull out heavy battery compartments weighing hundreds of kilograms. The significance of this innovation lies in its ability to provide a seamless operation under heavy loads, addressing the challenges faced by maintenance personnel in the railway sector. The integrated magnets facilitate a sequential opening of the rail components, which minimizes simultaneous stress and enhances load distribution. This results in smoother operation, reduced manual effort, and extended rail lifespan, making it particularly suitable for the demanding environments of high-speed rail and subway systems. Looking ahead, Rollon plans to expand its magnetic control sequential motion technology across more product lines. The HVC and H1C series rails offer full extension and super extension options, maximizing accessibility while minimizing space usage. No further timeline was disclosed at the time of publication for additional product releases or enhancements.

Railway Maintenance Linear Motion Systems Heavy Equipment Automation Technology
ForSight Robotics Completes First Fully Robotic Cataract Surgery with JASPER Platform

ForSight Robotics Completes First Fully Robotic Cataract Surgery with JASPER Platform

ForSight Robotics has successfully completed the world's first fully robotic cataract surgery using its JASPER platform, led by Dr. Alexey Rapoport in April 2026. This groundbreaking procedure was performed at the Asian Eye Institute in the Philippines, showcasing JASPER's ability to execute the entire surgery autonomously without general anesthesia, adhering to modern cataract surgery standards. The significance of this achievement lies in JASPER's unique design, which empowers surgeons rather than replacing them. By integrating AI algorithms, advanced computer vision, and miniature mechanical technology, JASPER provides enhanced imaging and precision control, allowing surgeons to perform with the accuracy of elite professionals. This innovation also addresses ergonomic concerns, as it enables surgeons to operate seated, potentially extending their careers and improving surgical outcomes. Looking ahead, ForSight Robotics aims to secure FDA approval for JASPER in the United States, with plans to bring this technology to market in the coming years. The company has raised $195 million since its founding in 2020, with significant investments from notable figures and organizations. No further timeline was disclosed at the time of publication.

Robotic Surgery Cataract Surgery AI in Healthcare Ophthalmology Medical Robotics
UC San Diego Team Demonstrates G1 Humanoid Robot 'Surgie' in First Live Surgery

UC San Diego Team Demonstrates G1 Humanoid Robot 'Surgie' in First Live Surgery

On July 8, a research team from the University of California, San Diego, published a groundbreaking study in Nature, showcasing the G1 humanoid robot, nicknamed 'Surgie.' This robot, weighing 27 kg and priced from $13,500, successfully performed two laparoscopic cholecystectomies on live pigs, marking a significant milestone in robotic surgery. The significance of this achievement lies in the G1's affordability and adaptability compared to traditional surgical robots like the da Vinci system, which costs between $500,000 and several million dollars. Surgeon's remote control of the G1 allows for deployment in various settings, including rural areas, battlefields, and potentially space missions, without the need for specialized operating room modifications. Despite the success, the technology still faces challenges before clinical application, such as the need for frequent recalibration during surgery, which increases operation time. The G1's limited arm span of 450 mm also restricts its operational range. No further timeline was disclosed at the time of publication for the next steps in this research.

Humanoid Robots Surgical Robotics Remote Surgery Medical Technology
Jake Laser Transforms Unitree Robot Dog into Wheelchair for Father’s Mobility

Jake Laser Transforms Unitree Robot Dog into Wheelchair for Father’s Mobility

Jake Laser has ingeniously modified a Unitree industrial robot dog into a wheelchair for his father, who has been affected by multiple sclerosis for over 20 years. This innovative device features a hybrid wheeled and walking design, allowing it to navigate various terrains, including stairs and rocky paths, providing newfound mobility for Jake's father. The significance of this transformation lies in its technical ingenuity and emotional impact. By integrating a racing-style seat and recalibrating the robot's software to accommodate his father's weight, Jake ensured that the robot could maintain balance and stability. The project not only enhances mobility but also restores a sense of independence and pride for his father, who can now control the robot using a wireless joystick. Looking ahead, Jake's creation marks a notable advancement in assistive technology, blending robotics with personal mobility solutions. No further timeline was disclosed at the time of publication, but the successful testing of the robot on challenging terrains indicates potential for broader applications in mobility aids for individuals with disabilities.

Assistive Technology Robotics Mobility Solutions Innovation
Unitree G1 Humanoid Robot Achieves Milestone in Live Gallbladder Surgery

Unitree G1 Humanoid Robot Achieves Milestone in Live Gallbladder Surgery

The Unitree G1 humanoid robot has successfully performed a laparoscopic cholecystectomy on a living subject, marking a significant milestone in robotic surgery. This operation represents the first instance of a general-purpose humanoid robot conducting live surgery, showcasing advancements in robotic capabilities and surgical precision. This achievement is noteworthy as it highlights the growing integration of robotics in medical procedures, potentially transforming surgical practices. The successful completion of this surgery could pave the way for broader applications of humanoid robots in healthcare, addressing labor shortages and enhancing surgical outcomes through precision and consistency. Looking ahead, the implications of this surgery could lead to further developments in robotic-assisted procedures. No further timeline was disclosed at the time of publication, but the medical community will be closely monitoring advancements in humanoid robotics and their applications in surgery.

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ForSight Robotics advances JASPER Platform for enhanced cataract surgery assistance

ForSight Robotics advances JASPER Platform for enhanced cataract surgery assistance

ForSight Robotics has developed the JASPER Platform, designed to assist surgeons during cataract surgeries. This platform maintains surgeon control while integrating robotic assistance, marking a significant step in surgical technology. The platform aims to improve precision and efficiency in procedures, although specific metrics on its performance have not been disclosed. The introduction of the JASPER Platform is significant as it represents a shift towards greater automation in ophthalmic surgeries. By providing robotic assistance, ForSight Robotics aims to enhance surgical outcomes and reduce the variability associated with manual techniques. This development could potentially lead to broader adoption of robotic systems in various surgical fields, as the demand for precision in medical procedures continues to grow. Looking ahead, ForSight Robotics is expected to further refine the JASPER Platform and explore its full robotic capabilities. No further timeline was disclosed at the time of publication, but industry watchers will be keen to see how this technology evolves and its impact on surgical practices in the near future.

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Flexible Machining of Large Structures (Part I)

Flexible Machining of Large Structures (Part I)

Why mobile machining still struggles with stiffness, accuracy, and autonomy—and how hybrid robots, AI perception, and digital twins will drive breakthroughs over the next five years.