Q: What is the origin of robots?
A: The origin of robots can be traced back to the mid-20th century, as early as after World War II, the Argonne National Energy Laboratory in the United States first developed a remote operated robotic arm to handle radioactive materials in order to solve the problem of mechanical operation caused by nuclear pollution. In the following year, another electrically driven master-slave robotic arm was developed. Later in 1959, Dwall teamed up with American inventor Joseph Ingelberg to manufacture and finalize the production of the first industrial robot prototype, Unimate (meaning "universal automation"), thus establishing the world's first industrial robot manufacturing factory, Unimation Company. In the following decades, the commercialization level of industrial robots gradually increased and gradually moved towards industrialization, followed by promotion and use in various process links in large-scale production represented by the automotive manufacturing industry.
Q: What is the name of the world's first programmable robot?
A: The world's first programmable robot was called "Unimet".
In 1954, American George Dewall successfully developed the world's first programmable robot, called "Unimet," and registered a patent.
Q: Does the current factory have artificial intelligence robot ?
A: Artificial intelligence robots can replace humans in repetitive labor and improve production efficiency. For example, an artificial intelligence robot from a factory in Hangzhou is used to replace the production of automotive wheel hub bearing units. Originally, it took about ten minutes to produce, but now it only takes 18.1 seconds. In addition, artificial intelligence robots can also perform tasks that humans cannot perform
Q: What are the characteristics of artificial intelligence robots?
A: The characteristics of artificial intelligence robots are as follows:
1. Motion function: Artificial intelligence robots can freely move and perform various tasks, such as moving, turning, crawling, jumping, etc.
2. Perception function: Artificial intelligence robots can perceive environmental information through sensors and other devices, such as visual sensors, auditory sensors, tactile sensors, etc., to make corresponding reactions and decisions.
3. Thinking function: Artificial intelligence robots can perform autonomous learning and planning, have certain thinking abilities, and can make corresponding decisions based on environmental information.
4. Human machine interaction function: Artificial intelligence robots can interact with humans, such as speech recognition, gesture recognition, facial recognition, etc., in order to better serve humans.
Q: What are the three basic characteristics of robots?
A: The three basic characteristics of robots are:
1. The body has a certain shape. The body shape of robots may vary depending on their application scenarios.
2. The brain is the program that controls robots. Robots are controlled by programs and can make corresponding actions and behaviors based on program instructions.
3. Possess certain actions and behavioral expressions. Robots can perform various actions and behaviors, such as moving, turning, grasping, releasing, etc.
Q: What is the most widely used industrial robot?
A: The most widely used industrial robot is the SCARA robot.
SCARA robots have good spatial positioning accuracy and speed, suitable for applications with light loads, and are often used in fields such as semiconductor manufacturing and electronic assembly. They are one of the most common types of robots in industrial production.
Q: Do you know the types of industrial robots?
A: The types of industrial robots are as follows:
1. Mobile Robot (AGV): With functions such as mobility, automatic navigation, multi-sensor control, network interaction, etc., it can be widely used for flexible handling, transmission, and other functions.
2. Spot welding robot: mainly used for welding production of various automotive components.
3. Arc welding robot: With AC servo drive technology and high-precision and high rigidity RV reducer and harmonic reducer, it has good low-speed stability and high-speed dynamic response, and can achieve maintenance free function.
4. Laser processing robot: Apply robot technology to laser processing to achieve more flexible laser processing operations.
5. Vacuum robot: A robot that works in a vacuum environment, mainly used in the semiconductor industry to achieve the transmission of wafers inside a vacuum chamber.
6. Spraying robot: Generally driven by hydraulic pressure, it has characteristics such as fast action speed and good explosion-proof performance. It can be taught by hand or point display, and is widely used in production departments such as automobiles, instruments, electrical appliances, and enamel.