Pi slide manufacturers, robots, future development

The future of Robotics

Even in the current severe economic situation, there are still robots emerging in various new applications. In the manufacturing sector, although the growth rate is constrained by capital, the number of robots is still increasing. In addition, the market for robots, such as medical, service, space and military fields, is also growing. At the same time, the consumption robot, once the material of science fiction, has come along with the appearance of the cleaning robot and begins to change our daily family life.

The current growth is not just a short-term fanaticism. Many boring, dirty and dangerous jobs will eventually be completed by robots, but how will technology develop to meet this future demand?

To make robots truly ubiquitous in our lives, we must make technological progress in the following areas:

Shorten the total response time of the real-time system (from sensor to actuator) to enhance the performance of the robot.

It has advanced artificial intelligence to enhance the ability of independent decision-making.

Sensors and actuators are more compact and lightweight to reduce the size of robots and improve energy efficiency.

Energy monitoring and power generation to extend autonomous working time.

Shenzhen Rui Jian is a team formed by a group of professionals with decades of experience in the automation industry, professional development, XY Table, XY Stage (Actuator), linear motor module (Linear Motor), industrial robotic arm (Robot) and electronic servo press (Electro Pre). SS) and other automatic transmission elements. At present, our products have been widely used in PC, LCD, PCB, LED, PDP, biotech, semiconductor, automotive, photoelectric, food, medicine, and other related industrial equipment, and have been highly praised by customers.

sensor

In addition to operation procedures, the input of robots is mostly from sensors. Like our own facial features, sensors provide information about the outside world to robots. For example, autonomous walking robots need to understand the surrounding environment for walking, and the robot with the primary goal of perceiving environmental information needs to feed the information to the remote operator (a Martian car is a particularly famous example). In either case, sensors are an important part of robot anatomy.

Many kinds of sensors have been designed for scientific research and engineering implementation. Many sensors can be applied to robots through electronic interfaces. For robots, CMOS imagers, infrared rangefinder, pressure sensors and accelerometers are more common sensors.

On the basis of a large number of existing sensors, the future of robot sensing technology will develop towards smaller, lighter, cost-effective and easier to integrate.

sensor

In addition to operation procedures, the input of robots is mostly from sensors. Like our own facial features, sensors provide information about the outside world to robots. For example, autonomous walking robots need to understand the surrounding environment for walking, and the robot with the primary goal of perceiving environmental information needs to feed the information to the remote operator (a Martian car is a particularly famous example). In either case, sensors are an important part of robot anatomy.

Many kinds of sensors have been designed for scientific research and engineering implementation. Many sensors can be applied to robots through electronic interfaces. For robots, CMOS imagers, infrared rangefinder, pressure sensors and accelerometers are more common sensors.

On the basis of a large number of existing sensors, the future of robot sensing technology will develop towards smaller, lighter, cost-effective and easier to integrate.

sensor

In addition to operation procedures, the input of robots is mostly from sensors. Like our own facial features, sensors provide information about the outside world to robots. For example, autonomous walking robots need to understand the surrounding environment for walking, and the robot with the primary goal of perceiving environmental information needs to feed the information to the remote operator (a Martian car is a particularly famous example). In either case, sensors are an important part of robot anatomy.

Many kinds of sensors have been designed for scientific research and engineering implementation. Many sensors can be applied to robots through electronic interfaces. For robots, CMOS imagers, infrared rangefinder, pressure sensors and accelerometers are more common sensors.

On the basis of a large number of existing sensors, the future of robot sensing technology will develop towards smaller, lighter, cost-effective and easier to integrate.

Actuator

One of the characteristics of a robot system that distinguishes it from other electronic systems is its mobility. Only mobile systems can be classified into robots. To enable robots to move, they must be provided with actuators. The most common actuators are motors (DC, stepper or servomotor), although non electromagnetic (such as pneumatic and hydraulic) actuators are also used.

Future

There is still a lot of innovation to be accomplished in robotics. Pi R & D team has been committed to the development of new robot technology.