Application of ATINY Laser Seam Tracking System in Adaptive Welding for Truck Scales

Application of ATINY Laser Seam Tracking System in Adaptive Welding for Truck Scales
27 Jul 2024

  In manufacturing, welding is a critical technology for joining materials, directly affecting the overall performance of products in terms of quality and efficiency. Truck scales, as large weighing equipment, have complex structures and extremely high requirements for welding quality and precision. Traditional manual welding methods are inefficient, and automatic equipment often fails to ensure consistency and precision in welding, making it difficult to meet the high standards of modern manufacturing. To address these challenges, the ATINY laser seam tracking system is applied in adaptive welding for truck scales.   Principle of Laser Seam Tracking System   The laser seam tracking system uses high-precision laser sensors to scan the weld seam position in real-time, acquiring three-dimensional coordinate data of the seam. Through advanced image processing algorithms and intelligent control technologies, the system accurately identifies the weld seam trajectory. It transmits the position data of the weld seam to the welding controller, which then adjusts the position and posture of the welding torch in real-time based on this data. This ensures precise tracking and adaptive welding of the seam, significantly improving welding stability and consistency.   Advantages of Laser Seam Tracking System   High Precision: The laser sensor can detect minute deviations in the weld seam, ensuring the accuracy of the welding path and significantly improving welding quality.   Real-time Capability: The system can capture the position information of the weld seam in real-time and adjust the welding torch accordingly, ensuring accuracy during the welding process.   Efficiency Improvement: The automated welding process reduces manual intervention, resulting in faster welding speeds and greatly enhanced production efficiency.   Cost Reduction: High-precision welding reduces rework and scrap rates, saving material and labor costs.   Challenges in Automated Welding of Truck Scales   As industrial weighing instruments, truck scales involve complex welding processes and stringent quality requirements during manufacturing. Traditional automated welding often faces the follow

Types of Laser Welding Monitoring Systems

Types of Laser Welding Monitoring Systems
25 Jul 2024

  Laser welding technology is an advanced method that uses high-energy laser beams to join materials. It offers advantages such as high precision, high speed, and low deformation, and is widely used in automotive manufacturing, aerospace, electronics, and other industries. As smart manufacturing continues to develop, the demand for welding quality and efficiency keeps increasing. Laser welding monitoring systems have emerged to ensure the stability of the welding process and provide reliable guarantees for welding quality.   Types of Laser Welding Monitoring Systems   Laser welding monitoring systems are mainly divided into the following types:   Vision Monitoring Systems   These systems use cameras and image processing technology to monitor the welding process in real-time, identifying welding defects and anomalies.   Acoustic Monitoring Systems   By analyzing the sound waves generated during the welding process, these systems can quickly identify welding defects such as uneven welds and cracks.   Optical Monitoring Systems   These systems utilize laser scattering and reflection phenomena to monitor the temperature distribution and molten pool state in the welding area, ensuring welding quality.   Electrical Signal Monitoring Systems   By monitoring welding current and voltage, these systems can detect abnormalities in the welding process, such as arc instability.   Vision Monitoring Systems   1. Working Principle   Vision monitoring systems rely on high-resolution cameras to capture real-time images of the welding area. They use image processing algorithms to analyze various phenomena during welding, such as weld shape and defects. The system typically includes cameras, light sources, image processing units, and monitoring software.   2. Main Functions   The main functions of vision monitoring systems in laser welding include:   Real-time Monitoring: Capturing images of the welding process in real-time to monitor welding status.   Defect Detection: Identifying visual defects that may occur during welding.   Weld Tracking: Tracking the welding path to ensure the welding torch moves along the correct path.   Data Recording

How Laser Seam Tracking Systems Reduce Business Costs

How Laser Seam Tracking Systems Reduce Business Costs
23 Jul 2024

  In modern manufacturing, welding is a crucial technology whose efficiency and quality directly impact production costs and market competitiveness. Traditional blind welding methods struggle to ensure consistent weld quality. As an advanced welding technology, the laser seam tracking system offers high precision and efficiency. Today, let's explore how the ATINY laser seam tracking system can help reduce business costs.   Enhancing Welding Precision and Reducing Scrap Rate   In traditional welding processes, errors inherent in blind welding often lead to issues like seam deviation and uneven welding. These problems affect product quality and can result in high rework and scrap costs. The laser seam tracking system continuously monitors the welding position and status, automatically adjusting the welding path to ensure the weld seam is always in the optimal position. This high-precision welding solution significantly reduces welding defects, thereby lowering scrap and rework rates.   Increasing Production Efficiency and Reducing Labor Costs   The laser seam tracking system can significantly speed up the welding process while maintaining consistent weld quality. Traditional welding methods require multiple operators to plan and adjust the welding path. The laser seam tracking system can autonomously handle these tasks, allowing businesses to complete more welding tasks in the same amount of time, thereby improving overall production efficiency.   Easy Integration and Adaptation to Various Conditions   The laser seam tracking system is highly adaptable and scalable. It can automatically adjust the welding path based on different workpieces and environmental requirements, accommodating various complex welding tasks. This flexibility enables businesses to respond swiftly to market demand changes, enhancing the flexibility and adaptability of the production line. Additionally, the laser seam tracking system can be integrated with other automated equipment and systems, achieving comprehensive automation and intelligence in the production process.   Improving Work Environment and Reducing Safety Costs   Traditional welding processes produce fumes, sparks, and

Application of ATINY Laser Seam Tracking Sensor in the Automated Welding of Automotive Air Deflectors

Application of ATINY Laser Seam Tracking Sensor in the Automated Welding of Automotive Air Deflectors
20 Jul 2024

  In modern manufacturing, welding automation has become a crucial means to enhance production efficiency and welding quality. As an advanced welding auxiliary equipment, the laser seam tracking system can significantly improve welding precision and efficiency, reduce manual intervention, and lower production costs. Especially in automotive manufacturing, traditional methods are no longer sufficient to meet the demands for efficient and high-quality production, particularly for welding automotive air deflectors. Today, let's explore the application of the ATINY laser seam tracking sensor in the automated welding of automotive air deflectors.   Principle of Laser Seam Tracking   The laser seam tracking sensor uses laser scanning and image processing technology to detect the weld seam position in real-time. The laser beam emitted by the sensor forms a spot on the surface of the welding piece, and a high-speed camera captures the image of the spot. Image processing algorithms are then used to extract the specific position and shape of the weld seam. Subsequently, the sensor transmits this information to the welding control system, which adjusts the welding torch's trajectory in real-time based on the weld seam position, ensuring precise tracking of the weld seam during the welding process.   The key to laser seam tracking lies in the sensor's high sensitivity and quick response capability, allowing it to handle changes in weld seam positions under complex conditions, thereby ensuring the stability and consistency of welding quality.   Challenges in Welding Automotive Air Deflectors   As an important component of the automotive cooling system, the welding quality of air deflectors directly affects the heat dissipation performance and overall efficiency of the engine. However, air deflectors are usually composed of irregularly shaped metal sheets, and the weld seams of the workpieces are inconsistent. Errors in assembly, fixtures, and material cutting necessitate repeated teaching, resulting in low welding efficiency and quality. Most existing automated welding equipment relies on fixed trajectories, making them poorly adaptable to workpieces with complex

How to Integrate a Laser Seam Tracking System with Existing Welding Equipment

How to Integrate a Laser Seam Tracking System with Existing Welding Equipment
18 Jul 2024

  As industrial technology continues to develop, welding automation is spreading across various industries. Laser seam tracking systems, as an advanced welding auxiliary device, can significantly improve welding precision and efficiency, reduce manual intervention, and lower production costs. Today, let’s follow ATINY’s guide to effectively integrate a laser seam tracking system with existing welding equipment.   1. Evaluate Existing Welding Equipment   Before integrating the seam tracking system, comprehensively evaluate the existing welding equipment. Determine the welding equipment model, system version, controllers, and communication interfaces. Understanding the existing equipment information helps to determine the compatibility and integration requirements of the laser tracking system.   2. Choose an Appropriate Laser Seam Tracking System   Select a laser seam tracking system that meets the welding needs and is compatible with the existing equipment. Consider the following factors:   Tracking Accuracy: Ensure the system can accurately track the seam to meet precision requirements.   Compatibility: Verify if the system can interface with the existing welding equipment and control software. ATINY’s seam tracking system is compatible with most brands of robots and specialized machines available on the market.   Ease of Integration: Choose a system that offers simple integration options, including hardware interfaces and software compatibility.   3. Preparation for Integration   a. Hardware Preparation:   Installation: Determine the optimal installation position for the laser sensor on the welding equipment. The sensor should clearly see the seam and not be obstructed.   Wiring: Plan the cable path from the laser sensor to the control unit to avoid damage and interference.   b. Software Preparation:   Firmware Updates: Ensure both the welding machine and the laser tracking system are running the latest firmware versions.   Software Integration: Verify if the tracking system’s software can communicate with the welding machine’s control software, which may require installing drivers or middleware.   4. Ins

ATINY Teaching-Free Scanning System: More Efficient Fan Blade Automatic Welding

ATINY Teaching-Free Scanning System: More Efficient Fan Blade Automatic Welding
16 Jul 2024

  Fan Blade Scanning System Based on Advantech PAWIN Robot,The system can perform scanning and automatic welding of axial and centrifugal fan blades.  The robot, equipped with a high-distance sensor, scans the entire weld seam to collect point cloud data, which is then uploaded to the industrial PC software for weld seam trajectory calculation and recognition.  Six point positions are output to the robot for welding, and the positioner control allows for cyclic scanning welding.   01.  Advantages of the Fan Blade Scanning System   This system is mainly used for the welding of axial and centrifugal fan blades, offering several advantages over the previous position-tracking welding method:   No teaching required, no programming needed, simple and easy to use.   Automatic detection of welding start and end points to achieve full welding.   Real-time 3D scan image viewing.   Compatible with both axial and centrifugal fans.   Dual-side welding achievable through offset.   No need to consider the impact of arc light.   02.  Problems Solved by the Fan Blade Scanning System   Fans are mainly divided into axial and centrifugal types.  With the continuous upgrade of industrial products and the rapid development of high-tech industries, centrifugal and axial fans are increasingly used for cooling in industrial products.  The principle of centrifugal fans: airflow enters axially into the rotating blade channel, is thrown to the impeller's outer edge by centrifugal force, and is discharged from the outlet.  The principle of axial fans: gas enters axially into the rotating blade channel, is pressurized, and then discharged axially from the other side.   The extensive use of fans has accelerated the process of fan welding automation.  However, the efficiency or quality of mainstream position-tracking welding is not satisfactory.  If using the position-tracking method, the curvature of the fan blade may require multiple point searches to complete the welding.  The welding cycle time for position-tracking is also relatively long.  If using the tracking method, teaching and debugging interference is signi

Application of ATINY Laser Seam Tracking System in Automated Welding of Electrical Cabinet Frames

Application of ATINY Laser Seam Tracking System in Automated Welding of Electrical Cabinet Frames
13 Jul 2024

  As industrial automation and intelligence continue to advance, the manufacturing industry increasingly demands efficient and precise automated welding. Electrical cabinets, as the core components of various industrial control systems, have welding quality that directly affects their overall stability and durability. Today, let's learn about the application of the ATINY laser seam tracking system in the automated welding of electrical cabinet frames.   Laser Seam Tracking   Laser seam tracking is an advanced welding assistance system that integrates laser technology, image processing technology, and robot control technology. It uses laser sensors to detect the weld seam position in real-time and dynamically adjusts the welding head through the control system, making the welding process more precise. Laser sensors can quickly and accurately identify the shape and position of the weld seam, ensuring that the welding gun always moves along the weld seam trajectory. This technology not only improves welding quality but also significantly reduces manual operation errors and labor intensity.   Challenges in Automated Welding of Electrical Cabinet Frames   Welding of electrical cabinet frames faces several challenges:   Manual Welding: Traditional welding methods typically rely on manual operations, which are inefficient and make it difficult to ensure welding quality. Additionally, manual welding is susceptible to the experience and skill level of the operators, resulting in inconsistencies and lack of precision.   Automated Welding: When using welding robots, deviations in weld seam positions caused by errors in previous processes and clamping can lead to blind welding, resulting in welding misalignment.   ATINY Solution   To address the challenges in welding electrical cabinet frames, ATINY has developed an automated welding system based on laser seam tracking technology. This system integrates high-precision laser sensors, an intelligent control system, and advanced welding equipment, enabling efficient and precise automated welding in complex welding environments.   High-Precision Laser Sensor: This sensor can scan the welding area in real-time and

The Benefits of Adding Weld Seam Tracking to Welding Robots

The Benefits of Adding Weld Seam Tracking to Welding Robots
11 Jul 2024

  The development of the industrial era has accelerated the pace of welding automation, bringing welding robots to the forefront of history. However, it is still too early for welding robots to completely replace manual welding in the technical field. The goal of welding robots replacing 90% of batch welding workers is still achievable.   Due to their high efficiency, high quality, and ease of management, welding robots are highly favored by most small and medium-sized enterprises. However, when it comes to welding workpieces that require high precision, welding robots alone may fall short. The weld seam tracking system was born out of this need, enhancing the original robots with an automatic weld seam tracking system, enabling high-precision welding of workpieces.   Why add a weld seam tracking system to welding robots?   Welding robots often encounter various technical situations during the welding process, such as workpiece clamping deviations and thermal deformation of sheet metal parts.   Users' actual needs: Many users weld a variety of workpieces with less batch production, which demands high welding precision and skilled welding technicians. For different workpieces, welding robots also need to be reprogrammed or re-taught, which extends the welding cycle.   High cost of improving workpiece feeding: Updating the existing processing equipment and designing and purchasing high-precision fixtures.   Welding robots often require manual touch-up welding after the initial welding. For small and medium-sized enterprises already struggling to survive, this not only incurs high labor costs but also results in a high product rework rate.   Therefore, based on actual production needs, improving the welding efficiency of welding robots, reducing operation time and difficulty, and enhancing the quality of robotic welding all require the timely addition of a weld seam tracking system.

How Often Should a Six-Axis Welding Robot Be Serviced?

How Often Should a Six-Axis Welding Robot Be Serviced?
09 Jul 2024

  With the development of industrial automation, six-axis welding robots have become an indispensable force in the manufacturing industry, taking on many tasks. To ensure these robots can operate stably over the long term, regular maintenance and servicing are crucial. Today, let's follow the ATINY seam tracking system to understand how often six-axis welding robots should be serviced.   I. Working Principle of Six-Axis Welding Robots   A six-axis welding robot is an automated device with six degrees of freedom, capable of performing complex welding operations. These robots typically consist of a control system, drive system, actuators, and sensors. By pre-programming, six-axis welding robots can accurately complete various welding tasks, such as spot welding and arc welding.   II. Importance of Regular Maintenance   Ensuring Production Efficiency: Regular maintenance can timely identify and address faults and wear in the robots, preventing production downtime and decreases in efficiency.   Extending Equipment Life: Maintenance can extend the service life of the robots, reduce repair costs, and improve production efficiency and product quality.   Improving Welding Quality: Regular maintenance and calibration ensure the precision and stability of the welding robots, enhancing welding quality and reducing the defect rate.   III. Maintenance Intervals for Six-Axis Welding Robots   The maintenance intervals for six-axis welding robots depend on various factors, including the working environment, usage frequency, and the quality of the robots themselves. Generally, the maintenance schedule can be categorized as follows:   Daily Check: Perform simple checks before starting up and after shutting down the robot daily, such as cleaning the equipment surface, checking cable connections, and ensuring fasteners are tight.   Weekly Check: Conduct a more detailed inspection once a week, including lubricating joints, checking the wear of transmission components, and testing sensor sensitivity.   Monthly Maintenance: Perform comprehensive maintenance once a month, such as inspecting the electrical system, cleaning and replacing filters, and calibrating weldin


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