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China, Chinese 6 Axis Industrial Lean Arc Welding Robot with Walking Track1 Industrial Products Supplier Manufacturer Details, price list catalog:
China Industrial Products Supplier Manufacturer List Catalog
Welding EquipmentArc WelderCollaborative Welding RobotWelding Cobot
Taiyuan Jin Tai Technology Co,.Ltd
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Product Description 6-Axis Collaborative Welding Robots with Tracks: Enabling Digital Collaborative Management for Large-Workpiece WeldingIn the era of smart manufacturing, large-workpiece welding-once a siloed, manual process-faces a new challenge: integrating into digital factory ecosystems. Traditional Welding Robotics Systems operate as isolated tools, with no real-time data sharing or centralized management, making it hard to coordinate multiple robots, track weld quality across shifts, or optimize workflows for complex projects. Meanwhile, manual welding relies on paper-based logs that are error-prone and impossible to sync with other factory systems. This disconnect holds back manufacturers from achieving the efficiency and transparency of digital operations-until the arrival of 6-axis Collaborative Welding Robots with Tracks. By merging the mobility of tracks, the precision of 6-axis Welding Cobots, and the connectivity of digital systems into a unified Cobot Welding System, these robots redefine Robotic Welding Automation as a digitally collaborative process. For industries from smart heavy (heavy equipment) to industrial infrastructure, they have become the linchpin of Automated Welding Solutions that link welding operations to broader factory management platforms.The digital transformation starts with the Cobot Welding System's built-in connectivity, which turns the tracked 6-axis robot into a data hub for welding operations. Unlike fixed Welding Robotics Systems that output limited data (e.g., only cycle time), 6-axis Industrial Welding Cobots with tracks collect and transmit hundreds of real-time metrics: track position, 6-axis arm angles, weld voltage/current, heat input, defect counts, and even energy consumption. This data feeds into a centralized factory management platform, letting managers monitor every aspect of the welding process from a single dashboard. For example, a smart heavy equipment manufacturer uses 10 tracked 6-axis cobots to weld 18-meter excavator frames. The platform displays each robot's track location, weld progress, and quality metrics-if one robot's heat input spikes (indicating a potential defect), the system alerts managers and suggests parameter adjustments in real time. This digital visibility reduces unplanned downtime by 30% and lets the factory optimize robot scheduling to cut overall welding time by 20%.A key strength of 6-axis Welding Cobots with tracks is how they enhance Human-Robot Collaboration Welding through digital tools-turning scattered teams into a coordinated unit. In large factories, welding operators, quality inspectors, and maintenance teams often work across shifts or locations, making communication slow and error-prone. Tracked cobots solve this by enabling digital collaboration: operators can tag inspectors to review weld data via the platform, maintenance teams receive alerts when track components need servicing, and all stakeholders access the same real-time logs. For instance, a manufacturer of industrial boilers uses this feature to coordinate three shifts of operators and two remote quality teams. When a night-shift operator completes a weld on a 12-meter boiler shell, the tracked cobot's data (including 3D weld scans) is automatically shared with a daytime quality inspector, who approves the weld digitally-eliminating 8-hour delays from paper-based handoffs. This collaboration cuts quality check time by 60% and ensures consistent standards across shifts.To amplify digital synergy, manufacturers integrate 6-axis tracked cobots into Collaborative Welding Cells that connect to other factory systems-such as enterprise resource planning (ERP) software, inventory management tools, and digital twins. These cells act as a bridge between welding operations and the broader factory ecosystem: for example, a Collaborative Welding Cell in a wind turbine factory uses a digital twin of the 20-meter turbine tower to simulate the tracked cobot's weld path before physical production. The twin optimizes the track route and 6-axis arm movements to minimize material waste, then sends the approved program to the cobot. During welding, the cell's data feeds into the ERP system, which updates inventory levels (e.g., reducing filler metal stock counts in real time) and schedules the next production step (e.g., painting the tower once welding is complete). Powered by advanced Welding Automation Technology, this integration eliminates data silos, reducing production lead times by 25% and ensuring welding operations align with overall factory goals.6-axis Industrial Welding Cobots with tracks also solve a critical digital challenge: full weld traceability. In regulated industries (e.g., energy, aerospace), every weld must be traceable to the operator, robot, time, and parameters-something paper logs or isolated robots can't guarantee. Tracked cobots store every weld's data in a secure, cloud-based database, linked to the workpiece's serial number. If a defect is found later, managers can pull up the exact track position, 6-axis arm settings, and operator notes for that weld-speeding up root-cause analysis by 70%. For example, a manufacturer of nuclear power plant components uses this traceability to meet strict regulatory requirements: every weld on a 15-meter coolant pipe is logged with 200+ data points, which can be retrieved by regulators in seconds-avoiding costly audits and delays.As Welding Automation Technology advances, 6-axis tracked collaborative robots are becoming even more digitally capable. New features like AI-powered anomaly detection analyze historical weld data to predict defects before they occur, while 5G connectivity enables faster data sharing between robots and the factory platform. Remote programming also lets experts adjust track routes or 6-axis parameters from anywhere, ensuring the robot adapts to digital factory needs even if on-site technical staff are limited.In conclusion, 6-axis Collaborative Welding Robots with tracks are more than just welding tools-they are enablers of digital transformation for large-workpiece manufacturing. By combining 6-axis precision, track mobility, and digital connectivity in a Cobot Welding System, enabling cross-team Human-Robot Collaboration Welding, and integrating into ecosystem-driven Collaborative Welding Cells, these robots redefine Robotic Welding Automation for the smart factory era. For manufacturers aiming to unlock the full potential of digital operations, they are the key to building transparent, efficient, and collaborative Automated Welding Solutions that drive success in the age of Industry 4.0.JRS-Y1400-5 Robot Body With Walking TrackAxes of The Robotic ArmSix-AxisLoad Capacity5KGRepetitive Positioning Accuracyof The Robot (Mm)0.02 MmMaximum Working Range1400 MmFixing Method of The Robotic ArmFixed By lagnetic Attraction And Can BeDetached From The Mobile Car.Human-lachine Interaction SystemWired Connection ls Standard,And Wireless Connection ls Optional.Welding Process Software1,Entirely English Interface2,Independently Developed3,Rich Welding Process Packages4,Simple Operation.Welding Power SupplyThe welding machine's brand, model, and power supply can all be customized to suit your needs.. AirCooling ls Standard And Water Cooling ls Optiona1.Portable Mobile Car0verall Dimensions Are 1200*700*1000Mm The manufacture of this series of welding machines complies with the standard GB15579.1-2004 "Arc welding equipment part 1: welding power supply". The MIG-P series inverter pulse MIG/MAG arc welding machine has two welding modes: P-MIG and conventional MIG.The P-MIG welding mode can achieve carbon steel and stainless steel.For the welding of non-ferrous metals, the MIG welding mode can achieve low spatter welding of carbon steel and CO2 gas shielded welding.The performance characteristics are as follows:Fully digital control system to achieve precise control of the welding process and stable arc length.Fully digital wire feeding control system, accurate and stable wire feeding.The system has a built-in welding expert database and automatic intelligent parameter combination.Friendly operation interface, unified adjustment method, easy to master.Minimal welding spatter and beautiful weld formation.100 sets of welding programs can be stored to save operation time.The special four-step function is suitable for welding metals with good thermal conductivity, and the welding quality is perfect when starting and ending the arc.It has various interfaces for connecting with welding robots and welding machines (optional). PWM inverter technology can improve the reliability of the whole machine, high precision, energy saving and power saving.Precautions for use(1) The equipment number plate should be riveted at the specified position on the upper cover of the casing, otherwise the internal components will be damaged.(2) The connection between the welding cable and the welding machine output socket must be tight and reliable. Otherwise, the socket will burn out and cause instability during welding.(3) Avoid contact between the welding cable and metal objects on the ground to prevent short circuit of the welding machine output.(4) Avoid damage and disconnection of the welding cable and control cable.(5) Avoid deformation of the welding machine by impact and do not pile heavy objects on the welding machine.(6) Ensure smooth ventilation.(7) When used outdoors, the welding machine should be covered in rainy and snowy weather, but ventilation should not be hindered.(8) The maximum cooling water temperature should not exceed 30oC, and the minimum should not be frozen. The cooling water must be clean and free of impurities, otherwise it will block the cooling water circuit and burn the welding gun.2. Regular inspection and maintenance of the welding machine(1) Professional maintenance personnel should use compressed air to remove dust from the welding power supply once every 3 to 6 months, and pay attention to check whether there are loose fasteners in the machine.(2) Check the cable for damage, the adjustment knob for looseness, and the components on the panel for damage.(3) The conductive nozzle and wire feed wheel should be replaced in time, and the wire feed hose should be cleaned frequently.3. Welding machine faults and troubleshootingBefore repairing the welding machine, the following checks should be performed:(1) Whether the status and welding specification display on the front panel of the welding machine are correct, and whether the buttons and knobs are working properly.(2) Whether the line voltage of the three-phase power supply is within the range of 340V~420V; whether there is a phase loss.(3) Whether the connection of the welding machine power input cable is correct and reliable.(4) Whether the grounding wire connection of the welding machine is correct and reliable.(5) Whether the welding cable connection is correct and the contact is good.(6) Whether the gas circuit is good, and whether the gas regulator or proportioner is normal.
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