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Associated Press
a day ago
- Associated Press
Technology Empowers Rescue! The Wheel-Legged Robot of DEEP Robotics Makes Emergency Rescue More Efficient and Safer
HANGZHOU, CN / ACCESS Newswire / June 27, 2025 / With the rapid development of technology, unmanned intelligent emergency rescue equipment is gradually becoming the new favorite in the field of public safety. Such equipment can not only penetrate into dangerous environments, replace rescue personnel in performing high-risk tasks, and significantly improve rescue efficiency, but also safeguard the lives of rescue workers to a certain extent. Driven by policies, ensuring the safety and reliability of emergency robots in complex and changeable environments, as well as achieving their efficient collaborative operations with other rescue equipment and personnel, have become urgent challenges in the development process of unmanned intelligent emergency rescue equipment. Recently, LYNX M20 wheel-legged robot released by DEEP Robotics, with its innovative design and powerful performance, may bring a breakthrough solution to the existing dilemmas in emergency rescue, and promote the further upgrade of the practical combat capabilities of unmanned rescue equipment in real-world scenarios. Upgrading Perception in Harsh Environments to Crack the Dilemma of Disaster Scene Reconnaissance In a fire scene filled with toxic gases, firefighters rely solely on flashlights and protective gear for reconnaissance, with their detection range compressed to within tens of meters, and they also face fatal risks such as poisoning. This requires fire-fighting robots to possess the capabilities of complex environmental perception and operation in extreme environments. LYNX M20 wheel-legged robot from DEEP Robotics is equipped with a 96-line LiDAR, which constructs a 360°×90° 3D perception network through hundreds of thousands of environmental data collections per second. Even in dark environments, it can real-time build a 3D point cloud model of the surrounding environment. Paired with gas sensors and a dual-light pan-tilt, it also enables functions such as real-time transmission of high-definition on-site images, precise detection and feedback of combustible/toxic gas data, heat source tracking, etc. This helps commanders achieve remote visual monitoring, predict potential dangers in advance, and provide intelligent support for search and rescue operations. Meanwhile, LYNX M20 robot dog has an all-weather protection rating of IP66, which means it is completely dustproof and highly waterproof. It can operate continuously and stably in the extreme temperature range of -20°C to 55°C, and is fully capable of withstanding wind and rain. All-Terrain Operation in Complex Terrains Helps Break Through Rescue Access Obstacles In actual rescue scenarios, the dilemma of equipment passage caused by complex terrains is not uncommon. For example, in wild disaster accidents, traditional rescue equipment is limited by the narrowness and tortuosity of mountain roads and needs to take a detour. During urban rescues, the narrow space of stairwells inside buildings and the dense pipelines in underground utility tunnels cause rescue equipment to 'get stuck'. At disaster sites such as earthquakes and collapses, obstacles like gravel and gullies in the ruins hinder rescue tasks due to complex terrain conditions. As a medium-sized industrial-grade all-terrain wheel-legged robot specially designed for complex terrain and hazardous environment applications, LYNX M20 robot dog integrates the speed of wheeled robots with the flexibility of legged robots. It not only has the efficient mobility in wheeled mode but can also break through complex obstacles through its legged configuration. Compared with traditional tracked and wheeled robots in complex environment operations, it has obvious advantages in scenarios such as mountains, ruins, and narrow spaces. With its compact size and 'front elbow-rear knee' front-rear symmetrical mechanical structure, LYNX M20 robot dog can move freely even in old stairwells and underground utility tunnels as narrow as 50cm. This symmetrical design allows it to travel back and forth freely without turning around, and easily achieve flexible traversal by dynamically adjusting the wheel-leg spacing and joint angles. When facing an 80cm vertical obstacle, the anti-slip patterns on its four legs, combined with the 'front elbow-rear knee' structure, provide strong grip and climbing stability; when dealing with 22cm continuous steps, it can precisely control the pace rhythm to complete the crossing, fully covering the dead corners that are difficult to reach by traditional rescue. Accurate Information Collection Enhances Rescue Decision-making Efficiency The real-time data acquisition at disaster sites directly affects rescue efficiency and safety. Traditional reconnaissance methods have problems such as incomplete data and time lag in complex environments, which are difficult to meet the decision-making needs of modern rescues. Modern rescues place higher demands on equipment, requiring fire-fighting robots to have multi-dimensional environmental perception and stable data transmission capabilities to provide more accurate on-site information for command centers. In this regard, DEEP Robotics took the lead in launching the 'Quadruped Robot Fire Emergency Solution' as early as 2022. Robot dogs and drones work together to build a sound air-ground collaborative rescue command system, which was verified in the 'Emergency Mission · 2024" joint rescue drill for super typhoon prevention and extra-heavy flood disasters. Last June, in the 'Emergency Mission・2024" joint rescue drill for super typhoon prevention and extra-heavy flood disasters, the 'Quadruped Robot Emergency Fire Solution' jointly deployed by Zhejiang Fire Brigade and DEEP Robotics demonstrated excellent combat capabilities. X30 robot and drones conducted coordinated operations, not only transmitting key data such as fire scene temperature, radiant heat intensity, and toxic/hazardous gas concentration in real time through dual-light pan-tilt and gas detectors, but also accurately locating the positions of trapped personnel in complex environments and quickly constructing a three-dimensional model of the disaster site. This provided precise decision-making basis for the command center, making rescue operations more scientific and efficient. In addition, DEEP Robotics' 'Quadruped Robot Fire Emergency Solution' has completed scenario verification in various extreme environments, including earthquake ruins, collapse-prone buildings, tunnel accidents, and chemical pollution. The new-generation LYNX M20 wheel-legged robot, with its powerful functions and flexibility, will provide more intelligent support in the field of emergency fire protection, helping to make fire rescue more efficient and safer. Conclusion: Rescue personnel face life-threatening risks such as toxic gas poisoning and building collapse during missions. Against this backdrop, the Ministry of Emergency Management is actively promoting the R&D and application of intelligent equipment, yet combat capabilities in complex environments remain an industry pain point. From the perspective of technical verification, quadruped robot solutions represented by DEEP Robotics' LYNX M20 have demonstrated significant advantages in the field of emergency fire protection, effectively improving rescue efficiency and operational safety. Innovative enterprises represented by DEEP Robotics, through continuous technological iteration and scenario verification, are promoting the comprehensive upgrading of the emergency rescue system and building an intelligent defense line for safeguarding people's lives and property. Company:DEEP Robotics Contact:Vera Huang Email 1: [email protected] Email 2: [email protected] Inquiry Form: SOURCE: DEEP Robotics press release
Associated Press
30-05-2025
- Business
- Associated Press
DEEP Robotics Empowers Intelligent Upgrades Across Industrial Scenarios
According to industry reports, global quadruped robot sales are projected to surpass 560,000 units by 2030, with the market size expected to exceed 1.28 billion US dollarsRMB. Addressing the industry challenge of insufficient penetration of industrial robots in unstructured environments, DEEP Robotics recently launched the medium-sized wheel-legged hybrid robot LYNX M20. Combining both wheeled and legged mobility capabilities, it is designed for demanding operational scenarios, driving intelligent upgrades across various applications including industrial inspection and emergency rescue operations. Currently, manual inspection in substations faces multiple challenges including low efficiency, inconsistent standards, and poor adaptability to harsh environments, with subjective experience compromising assessment objectivity. Handheld devices used in power distribution stations suffer from inadequate real-time performance, insufficient accuracy, and operational complexity. Meanwhile, manual inspections of transmission lines and tunnels present dual risks of compromised precision and safety hazards. The existing operation and maintenance system urgently requires intelligent technological solutions to address these critical shortcomings in efficiency, accuracy, and safety dimensions. Omni-terrain Operational Expertise: Powering Intelligent Transformation in the Energy Sector To address these issues, the application of intelligent unmanned inspection technology in substations has gradually gained widespread attention, as it can effectively improve substation operation and maintenance efficiency, reduce labor costs, and ensure the safe and stable operation of power systems. The LYNX M20 is a new wheel-legged hybrid robot capable of autonomous intelligent inspection, combining the all-terrain obstacle-crossing capability of traditional legged robots with the rapid mobility of wheeled systems, featuring an effective payload of 15kg and a maximum payload of 50kg to meet the requirements for carrying various detection equipment during power inspections. Under effective payload conditions, the LYNX M20 achieves 2.5 hours of runtime with a maximum sustained operating speed of 2 m/s and a maximum range of 15 km. Additionally, the LYNX M20's unique 'front-elbow-rear-knee' symmetrical joint structure (which is directionally agnostic, allowing forward and reverse movement and turning without body rotation)and night fill lights enable it to freely navigate 50cm narrow passages without difficulty in confined spaces like substation equipment rooms and utility tunnels under low-light conditions. Simultaneously, it possesses autonomous charging, environmental perception, and fault diagnosis functions, enabling comprehensive, high-frequency substation inspections. LYNX M20 can be equipped with a variety of advanced sensors, which can monitor the operation status of substation in real time and find potential problems in time. The dual-spectrum pan/tilt it can carry combines visible light imaging and infrared thermal imaging technology. Through visual identification, it can not only visually present the physical damage of the equipment, but also detect the internal heat abnormality of the equipment with the help of infrared radiation imaging differences, such as local overheating of the transformer winding or poor contact of the cable connector, so as to help the operation and maintenance personnel quickly locate the fault and judge the cause. In addition, the robot dog can be equipped with voiceprint and gas sensor, which can identify subtle defects such as abnormal sound and partial discharge of cooler, and monitor the concentration of harmful gas in the air in real time to ensure production safety. At the same time, LYNX M20 equipped with inspection system can analyze the images and data information monitored by sensors, and automatically generate inspection reports to further improve inspection efficiency. IP66 Industrial-Grade Rugged Protection Ensures All-Weather Operation IP66 (International Protection rating) indicates the product is completely protected against foreign object intrusion and dust ingress, and when subjected to powerful water jets or heavy seas, the amount of water entering the equipment shall not reach harmful levels. The industrial-grade IP66 protection emphasizes reliability under dynamic operating conditions, with its technical certification comprising two dimensions: the first digit represents dustproof level, requiring high-density dust protection with zero penetration after 8-hour dust chamber testing; the second digit represents waterproof level, demanding dynamic water resistance capable of withstanding 12.5L/min high-pressure spraying (equivalent to continuous impact from three fire hoses). In real industrial inspection processes, there exist harsh environments with high temperatures, sand, and dust that impose extremely stringent protection requirements on robots. The LYNX M20 possesses an IP66 protection rating, demonstrating exceptional waterproof, dustproof, and impact-resistant capabilities. In adverse conditions such as rainy or dusty weather, it can still operate normally without equipment damage or failure caused by environmental factors. Its operating temperature range extends from -20°C to 55°C, enabling the LYNX M20 to work stably in extreme temperature environments and significantly expanding its applicable regions and seasonal limitations. Whether in substations in cold regions or during inspections of power facilities in hot zones, the LYNX M20 can reliably perform its tasks. Autonomous Navigation Patrol with Intelligent Algorithm Recognition SLAM (Simultaneous Localization and Mapping) is the core technology for robotic autonomous navigation. Simply put, it enables robots to achieve 'trinity' capabilities in unknown environments like humans: 1. Where am I? (Localization) - Using sensors like LiDAR and cameras to perceive the surrounding environment in real-time while simultaneously calculating its own position. 2. What does the surroundings look like? (Mapping) - Continuously creating high-precision (2D/3D) maps of the environment while moving, marking key information such as obstacles and terrain features. 3. How to get there safely? (Navigation) - Planning optimal paths based on map and localization data, with real-time obstacle avoidance and posture adjustment. LYNX M20 collects and processes environmental data hundreds of thousands of times per second, just like 'digital consciousness' with spatial cognition. Even in complex scenes such as tunnels and ruins, it can calculate its posture in real time and reconstruct a three-dimensional environmental model with centimeter-level accuracy. For unstructured terrain such as mountains and steep slopes, this robot, as an industrial robot, has a 96-line laser radar and a large visual field of 360°×90°, which can intelligently perceive the terrain and adjust its motion posture independently according to the terrain with AI motion control algorithm. It can also achieve omni-directional obstacle avoidance independently, easily cope with extreme environments such as rough mountain roads, muddy wetlands and ruins obstacles, and truly become an intelligent mobile platform specially built for complex terrain and dangerous environments. Pioneer in Legged Robotics Industrial Applications As the world's first wheel-legged hybrid robot specifically designed for complex terrains and hazardous environments in industrial applications, the newly launched LYNX M20 breaks operational boundaries with its omnidirectional capabilities, establishing itself as a supremely capable intelligent mobile platform for industries. Currently, the LYNX M20 is penetrating more application scenarios to deliver scalable intelligent solutions. For instance, in emergency firefighting, it overcomes environmental constraints like thick smoke, high temperatures, and oxygen deficiency to enter disaster zones, providing rapid situational feedback for precision rescue decision-making. In logistics delivery, it achieves last-meter precision by flexibly navigating narrow pathways and staircases in residential areas, solving the 'last-mile' delivery challenge. For urban management, it integrates multi-scenario applications including police security, environmental monitoring, and engineering surveying to enhance city management efficiency and comprehensively safeguard urban operational safety. With the grand global launch of the LYNX M20, DEEP Robotics will continue to advance the deployment of legged robotics products across various application environments including factory pipeline inspection, emergency rescue, fire reconnaissance, and future scientific research. Recent online information mentioned the price of LYNX M20, but the official price of LYNX M20 has not been publicly released yet. This price is actually the pre-sale price of the previous generation product, so please pay attention to verification. For detailed quotations of LYNX M20 or partnership inquiries, please feel free to contact DEEP Robotics: Email: [email protected]. Website: LinkedIn: YouTube: Twitter: TikTok: Instagram: Media Contact Company Name: DEEP Robotics Contact Person: Vera Huang Email: Send Email Country: China Website: Source: The China Box
Bloomberg
21-02-2025
- Business
- Bloomberg
DEEP Robotics on Business Outlook
Xiong Junjie, Director for Overseas Business at Chinese Robotics Developer, DEEP Robotics, discusses the company's plans for growth and its technological capabilities, as investors grow more optimistic on Chinese tech innovations after encouraging signs for more policy support, after President Xi's recent meeting with tech sector leaders. He speaks exclusively with Shery Ahn and Haidi Stroud-Watts on "Bloomberg: The Asia Trade". (Source: Bloomberg)
