Functional characteristics:
Thanks to its high rigidity structure and high-speed inteligent palletizing process package, the efficiency has been improved by20%, helping customers complete their work more quickly, efficiently, and economically;
integrating multiple industry-specific process packages, combined with soft PLCs and various bus interfaces, to help customerseasily face various process challenges;
The high-performance collision detection function helps improve safety factors.
Applicable scenarios:
It can be widely used in scenarios such as handling, palletizing, loading and unloading.
Applicable industries:
Industries such as automotive parts, photovoltaic, food and beverage, building materials, logistics and warehousing.
Widely used in industriessuch as food, medicine,3C,dailychemicals,e-commerce, etc;
Industrial grade force sensorwith high reliability and safety; Support level 10 collisiondetection and sensor safety detection; Provide 16 safety I/O interfaces,ensuring that safety functions are not lost in the event of a single fault;
Integrated design,light weight and flexible,with a small footprint;The deployment of new tasks on workstations is simple,fast,and efficient;
Visual programming simple and efficient,and ordinary employees can easily manipulate robots without mastering programming languages
Half an hour to master programming methods,and one hour to complete simple programming.
Multiple functional scenarioscan be quickly switched, and flexible production can be achieved through human-machine collaboration, dual machine collaboration, and multi machine collaboration.
On average, it takes6-12 months to recover investment costs.
At the same time, economic development also drives the progress of industry, and industrial robots and automated production lines have gradually replaced traditional employees in various factories. In many areas, industrial robots have also played a far greater role than humans. Today I would like to share with you some common application areas of industrial robots.
At present, handling is still a common application field of robots, accounting for about 40% of the overall robot application. Many automated production lines require robots for loading and unloading, handling, and palletizing. In recent years, with the rise of collaborative robots, the market share of handling robots has been growing.
Palletizing robot
Robot welding applications mainly include spot welding and arc welding used in the automotive industry, although spot welding robots are more popular than arc welding robots, but arc welding robots have developed rapidly in recent years. Many machining workshops are gradually introducing welding robots to automate welding operations.
Assembly robots are mainly engaged in the installation and disassembly of parts, etc. Due to the rapid development of robot sensor technology in recent years, robot applications are becoming more and more diverse.
The application of robots in the machining industry is not high, probably because there are many automation equipment on the market can be competent for the task of machining. Machining robots are mainly used in parts casting, laser cutting and sheet metal bending.
Robot spraying mainly refers to painting, dispensing, painting and other work, 4% of industrial robots engaged in spraying applications.
Palletizing robot
The application of industrial robots in ai manufacturing is gradually changing the traditional production mode and bringing higher benefits and competitiveness to enterprises. By increasing production efficiency, reducing costs and changing the working environment, industrial robots help companies achieve sustainable development. However, in order to meet the challenges of the future, companies need to carefully consider the introduction of industrial robotics technology, while strengthening technology research and development and talent training to promote ai manufacturing towards a more automated and sustainable future.
Functional characteristics
Thanks to the highly rigid structure, with high-speed intelligent palletizing process package, the efficiency is increased by 20%, helping customers to complete the work more quickly and efficiently;
Integrated with multiple industry-specific process packages, with soft PLC and various bus interfaces, to help customers easily face various process challenges;
High performance collision detection helps improve safety.
Application scenario
It can be widely used in spot welding, handling, palletizing, loading and unloading, etc.
Applicable industry
Auto parts, photovoltaic, food and beverage, building materials, logistics warehousing and other industries.
Joint robot is one of the common forms of industrial robot in today's industrial field, which is suitable for mechanical automation operations in many industrial fields. A multi-joint robot is a robot system composed of multiple movable joints, each of which can act cooperatively. The multi-joint robot has the following characteristics
Flexible: The multi-joint robot is composed of multiple movable joints, which can realize complex movement and posture adjustment and adapt to different working environments and task requirements.
High dexterity: The number of movable joints of the multi-joint robot is more, and it can complete more kinds of actions and operations.
Accuracy: By controlling the movement of each joint, multi-joint robots can achieve high-precision position and attitude control, suitable for tasks that require operation.
Action coordination: The various joints of a multi-joint robot can work together to achieve more complex actions and movements through linkage, similar to the joint coordination of humans.
Adaptive: The multi-joint robot can adapt to different working conditions by adjusting parameters such as joint Angle, force and speed according to the environment and task requirements.
Versatility: Multi-joint robots can be applied to many fields and tasks, such as industrial production, education, services, etc., with great application potential and agility.
It should be noted that multi-joint robots also have some challenges, such as complex joint control, high sensor requirements, and large power system requirements, but with the progress and innovation of technology, these challenges have gradually been solved and overcome. Common multi-joint robot Humanoid robot: a robot that mimics the structure of the human body, including multiple joints such as the head, neck, torso, limbs, etc., which can realize various human movements.