Whether it is from the accelerated influx of funds, the competition of enterprises in the layout, or the introduction of industrial park plans by local governments, it can be seen that the development of the robot industry is extremely hot. However, if China's robot industry wants to develop sustainably, local governments and enterprises must calm down, pay attention to feature positioning and fundamental development, and prevent blind expansion and low-end competition.
In China, which is in the process of transformation and upgrading, the robot market has huge potential. Factors such as the disappearance of the demographic dividend, the increase in labor costs, the large scale of the manufacturing industry, and the difficulty in recruiting workers due to high labor intensity have all become the driving force for large-scale "machine substitution". But the big market does not mean that everyone can get a piece of the pie, and entrants must find their own positioning and advantages. It is understood that there are hundreds of robot enterprises in the country, and dozens of robot industrial parks have been planned or started. Most of the industrial parks are difficult to form a scale set and industrial supporting advantages, enterprises are "scattered, small and chaotic", the differences between each other are not large, the technical content of the products is not high, there is a certain blindness and repetition, and should be paid attention to as soon as possible.
Of course, China's robot industry is not completely without advantages at all. In recent years, China has a good foundation for the development of robots, not only the number of requests in the international market has increased significantly, but also formed a certain number of protection. Our domestic enterprises should make good use of these foundations and advantages, try their best to seek innovation in technology, form, etc., and do every link in the industrial chain. As far as local governments are concerned, they should also manage the visible hand of administrative strength, curb the impulse of improper interference in the market, and put their energy first on industrial chain planning, public research and development platform construction, market supervision, and accelerate the transformation of production, learning and research, so as to guide the healthy development of industry.
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Industrial robots have characteristics – Yamaha robots
Industrial robots are multi-joint manipulators or robots with multiple degrees of freedom for the industrial sector. Industrial robots are machines and equipment that actively perform work, and they are a kind of machines that rely on their own power and control capabilities to achieve various functions.
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Common robotic arms and their functions
Robotic arm refers to a complex system with high precision, multiple input and multiple output, high nonlinearity, and strong coupling. Due to its common operational flexibility, it has been widely used in industrial assembly, safety and explosion protection.
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Yamaha Industrial Robot Error Programming Handling Method
"***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.
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Welding Robot Programming Tips – Yamaha Robot
(1) Choose a reasonable welding sequence. The welding sequence is drawn up by reducing the welding deformation and the length of the torch travel path.
(2) The spatial transition of the welding torch requires a short, smooth and safe movement trajectory.
(3) Optimize welding parameters. In order to obtain the best welding parameters, a working test is made.
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SCARA robot composition and working principle
Composition of the SCARA robot
The SCARA robot is a curved multi-articulated robot, which is generally composed of four joints. The structure of this robot resembles a human arm, but it is capable of carrying things on the end, such as a gripper, suction cup, or laser head. The joints of the SCARA robot are made of electricity...
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Industrial Robot Parts Failure and Solution - Yamaha Robot
The main components of industrial robots include reduction gears, braking equipment, motors, encoders, etc., and reduction gears are frequent failures in component failures, followed by braking equipment, motors and encoders.
When the reduction gear is damaged, it will vibrate or announce abnormal movements. This...
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Yamaha Robot Use Cases
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.
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Robot drive system – Yamaha Robot
1. Electric drive equipment
The energy source of the electric drive equipment is simple, the speed change scale is large, the efficiency is high, and the speed and azimuth accuracy are high. However, they are often associated with deceleration equipment, and direct drive is more difficult.
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Industrial Robot Welding Equipment – Yamaha
1. Cutting line active welding machine: The control system is the main control organization with motor, and the man-machine interface digital control and additional relay control are selected to complete the smooth active control of welding.
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Industrial Robot Calibration Reason – Yamaha
To calibrate a robot, we first need to understand the factors that may cause the robot to appear wrong.
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Yamaha teach pendant repair malfunction
YAMAHA Yamaha Teach Pendant Repair Common Faults: Damaged Keys, Power Board Problems, High Voltage Board Problems, LCD Problems, Motherboard Problems, Black Screen, Flower Screen, Blue Screen, White Screen, No Repercussions When Power On, Burning Baoxian When Powered On, Can't Turn On Normally, Can't Enter the System, Contact Problems, Press ...
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How to Test a Servo Motor – Yamaha Robot
1. First of all, test the motor first, no circuit need to be connected, any two of the three wires of the motor are short-circuited together, and the motor shaft is rotated by hand, and it feels like there is resistance, then OK.
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Yamaha robot repair experience
Based on the many years of Yamaha robot maintenance experience of Yamaha industrial robot engineers, doing a good job in the maintenance of Yamaha industrial robots will effectively extend the service life of the robot and reduce the probability of problems.
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Yamaha Diagnostic System Part Explained
1. FAULTCODE
2. DAIGCODE (Diagnosis Code)
3. CO form maintenance
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Composition of the hydraulic drive of an industrial robot – Yamaha
In the early stage of the presentation of industrial robots, because most of their movements were rod mechanisms such as cranks and guide rods, hydraulic drive and pneumatic drive were mostly used. The hydraulic drive system is usually composed of a hydraulic motor (various cylinders, oil motors), servo valves, oil systems, oil tanks, etc., to tighten the machine.
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Features of Robotic Dresspacks:
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.
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Yamaha Motor Selects Siemens Software Solutions to Build a Digital Enterprise
Yamaha Motor Corporation, a diversified engine manufacturer from Japan, recently announced that it has selected Siemens PLM Software's Product Lifecycle Management (PLM) software to support its digitalization. Yamaha Motor will deploy all R&D divisions in its pillar business, Motorcycles.
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The role of the robot's body and arms
What is the role of the fuselage and the arm? What should I keep in mind when designing?
The fuselage is a component that supports the arm, which generally realizes lifting, reversing and pitching and other movements, and the fuselage design should have sufficient rigidity and stability; The movement should be flexible, and the length of the guide sleeve for the lifting movement should not be too short.
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Components of the Industrial Robot Palletizing System – Yamaha
The industrial robot palletizing system is not operated independently by the robot in practical applications, but cooperates with the automated equipment to perform the system operation. The industrial robot palletizing system is generally composed of 4 subsystems, and the electrical control subsystem controls the operation process and beat of the entire palletizing system. Material transfer ...
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Siemens PLC controls Yamaha robots
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Siemens S7-300PLC is ...
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