Orange Automation & Yamaha Robotics start a global strategic cooperation

First, the components of the robot At the most basic level, the human body consists of five main components: Of course, there are also intangible traits of human beings, such as intelligence and morality, but on a purely physical level, this ...

To calibrate a robot, we first need to understand the factors that may cause the robot to appear wrong. There are many factors that form robot errors, which can be summarized into two main categories, one is kinematics, mainly processing errors, mechanical tolerance/assembly errors, ...

Yamaha Motor Corporation of Japan has launched a new model of the horizontal multi-articulated robot (Scara robot), which can be used for electronic product assembly, etc. Compared to the previous one, the functions have been improved, such as the work time can be reduced by about 10%. In the largest industrial robot shopping mall in China, the rise of local enterprises, ...

Yamaha Motor Intelligent Machine (Gusu) Co., Ltd. (hereinafter referred to as "YIMS") has further integrated the semiconductor-related equipment business in addition to the existing SMT (placement machine) and FA (industrial automation) business. In order to improve the work infrastructure and improve the customer experience ...

Pneumatic actuators: These actuators work with compressed air. With very few moving parts, they are robust and easy to maintain. They lack control over other types of speed, location, and precision, but they are ideal for warehousing tasks such as picking and put-away. ...

According to the national standard GB/T12642-2013 "Performance Specifications and Test Measures for Industrial Robots", it is equivalent to the rules for the performance indicators of industrial robots in the international standard ISO9283: 1998. The rules in the standard ...

Anatomy of a Fault Routine 1 Let's start with a snippet of code: *AA: MOVE P,P101,Z=0.0 WAIT ARM FOR I=1 TO 1000 MOVE P,P102,Z=0.0 WAIT ARM DO2(0)=1 GOTO *TSA // Fault ...

According to different grasping methods and use environments, the robot end gripper can be planned into a variety of structural methods, and the following lists several more common structural methods: 1. Mechanical gripper The mechanical gripper is a very fundamental robot end gripper, which is mainly composed of several mechanical ...

First of all, you have to prepare the software and the network port debugging helper (the debugging helper can be downloaded online by yourself, and you can also reply to the "network port helper" in the background to get it), the software name is RCX-Studio Pro 2020 CL The software can reply to "2020CL" in the background to get it. Install the software ...

1. High precision, the industrial spraying robot adopts a high-precision positioning system, which can easily and accurately control the direction and angle of the spraying of the coating, ensuring higher coating uniformity and accuracy compared with manual spraying. Especially for products with higher gloss and color requirements, such as cars, electrical appliances, etc.

Finished product inspection, touch screen evaluator Functional testing of finished products. Development of software evaluations. Button PUSH quality check. The industry's leading product series with a length of 120mm to 1200mm can support a variety of systems. Space-saving. ...

1. Application scenarios are gradually expanding to new fields. From the perspective of excellent industrial robot application, the field has gradually accelerated from traditional fields such as cars, electronics, and food packaging to new energy batteries, environmental protection equipment, high-end equipment, daily necessities, warehousing and logistics, and lines.

Don't panic when the robot has a problem during the working process, if the fault is not caused by the controller, then the cause of the fault must be the damage to the machine parts. In order to deal with the problem as quickly as possible and in a simple way, the problem should be analyzed. And the need to find out which zero ...

A robotic arm is a mechanical structure made up of multiple joints connected together, similar to a human arm. It generally has rotatable or elastic joints that allow it to perform accurate positioning and manipulation in space. A robotic arm is generally composed of a motor, a sensor, a control system and a fulfillment. ...

The scientific PLC programming steps are actually very simple, but most engineers often think that they are simple and ignore many details. Ignoring the details will inevitably lead to problems in the future. If you want to avoid future problems, you can only abide by the rules well.

Yamaha robots are commonly used in a variety of industrial sectors, including: Car manufacturing: used in welding, painting, testing and other processes on the car production line. Medical devices: used in the production of medical devices and instruments, such as surgical instruments and nursing products. Food & Drink: ...

This article introduces the control strategy of using Siemens PLC to control Yamaha robots, using an external IO port to set command words, so that the PLC can communicate with the robot and instruct the robot to complete the corresponding actions. Siemens S7-300PLC is ...

"***Recently, a background user asked the reason for the overflow problem of the 5.212 warehouse, and the blogger told you here that this is mainly caused by the non-standard writing of the program. ” YAMAHA's industrial robot technology helps you find a way to deal with it. ...

The drive system of industrial robots is divided into three categories according to the power source: hydraulic, pneumatic and electric, and can also be combined into a composite drive system by these three fundamental types according to the needs, each of which has its own characteristics. ...

1. High efficiency: The robot dresspack can carry out comprehensive and efficient inspection and protection operations inside the pipeline. It autonomously traverses the entire piping system, reducing the need for human resources and improving operating power. 2. Precision: Through the cooperation of sensors and control systems, ...