Take Off My Aviation Era

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Yes, China Ascendas does have the ability to develop industrial robots. After all, China Ascendas is already world-class in the fields of system control and precision machinery. Coupled with a relatively complete industrial chain, industrial robots are true for China. It’s not difficult.

The key question is whether the things made can be recognized in the market and make money. After all, the cost of some key components is really outrageous.

For example, the harmonic reducer used in the NB-36P industrial robot, the main material is silicon carbide used in helicopter reducers, and the internal wear parts are nickel-based alloys used in aero engines. Materials, and in order to reduce the total structure of the NB-36P industrial robot, and make its movements more flexible, the shell and base are made of carbon fiber and titanium alloy materials.

Even the supporting grippers and cutting tools are high-strength machining tools made of high-strength wear-resistant ceramic composite materials.

This set does not count the huge expenses incurred by the internal use of the execution software and advanced algorithm architecture for the aviation and aerospace control systems, and the convenience of access to China's Ascendas industrial big data.

The cost and processing cost of various advanced materials alone are astronomical figures.

It is precisely because of this that products like the NB-36P industrial robot cannot be made into low-end products by China Ascendas.

Therefore, China's take-off was initially aimed at the NASA space robot arm on the space shuttle, because only such high-end goods are worth so much valuable materials.

What's more, the revised manned space project in China has included the space station, and as the most important part of the space station, a flexible space manipulator is naturally indispensable.

The “Canada” type 2 space manipulator used on the International Space Station has already proved this point, because the space station with this type of manipulator not only has good self-repair capabilities, but more importantly, it faces the docking with itself. Spacecraft and other spacecraft also have safer and more efficient means of receiving.

Of course, occasionally excluding a "space junk" or catching a "scrapped satellite" is nothing to say. All in all, for the space station, this thing is equivalent to its own tentacles, which can swing freely in outer space.

In addition to the space station, in the future manned landing on the moon, even Mars, this kind of space manipulator is also indispensable equipment, and because of this, the development of this kind of space manipulator is important for domestic manned spaceflight, and even the future. Deep space exploration has great practical significance.

Therefore, the National Space Administration conducted a feasibility assessment of this type of equipment as early as 2005, and the results were far from satisfactory.

The essence of a space manipulator is a fully upgraded version of an industrial robot. After all, an industrial robot is simply a manipulator, but the industrial robot is more tall and technologically sound. In fact, the difference is not big on the basis of it. .

But the problem is that the domestic industrial robot industry at that time was not even a budding. There were several start-up companies in related aspects, but at most they were doing DIY or helping companies importing foreign brands to do some control software cracking. Business, as a whole, hovered in a gray area that seemed dark but not dark.

The main reason for this is the lack of a domestic market environment for industrial robots.

Not to mention anything else, but as far as China Ascendas is concerned, the number of industrial robots accounted for 87.25% of all domestic industrial robots.

In other words, the total number of industrial robots that have taken off in China is less than 3,000.

There is no other reason for this at least, the manpower is too cheap.

According to the labor cost at the time, one imported industrial robot could hire workers in three teams. It was all boring and repetitive labor. Not only was the output of the three teams 7*24 hours inferior than that of industrial robots, it had a higher output.

The most important thing is that when you buy an industrial robot, you have to give it electricity, you have to give it oil, and you have to repair it; what about the workers? Except for the meager salary and three meals a day, there is nothing to worry about. As long as you don't die in your own factory, there is no additional burden on the factory.

Under such circumstances, why buy those industrial robots that are the same as their ancestors? That's how it is done with a broken head.

Therefore, China Ascendas, which is equipped with a large number of industrial robots, has become an alternative in the eyes of most domestic manufacturing-related units. It is obvious that China’s Ascendas leader Zhuang Jianye belongs to the one with a broken head. The domestic three-legged toad is hard to find. Are there any people who are?

Why don't you put good people on those high-cost, high-maintenance equipment? Such a waste, isn't the head watt or something?

To be honest, Zhuang Jianye doesn't want to do this, but anyone who can use cheap manpower to do such a complex, but the problem is that aviation and aerospace manufacturing are different from other industrial categories, and the requirements for practitioners are very high.

In China, there are only so many related professionals and skilled workers who graduated in one year, and most of them are directional distribution. Few are left in the hands of China Ascendas.

High-end talents can be recruited with high salaries. What about a large number of ordinary skilled workers? You can't dig all of them with high salaries.

Of course, in the past few years, Zhuang Jianye has been advocating the expansion of university enrollment and the development of technical education in order to fundamentally solve the problem of talent shortage. However, the so-called ten years of trees and a hundred years of talents, although the country has made great efforts in cultivating talents in recent years, But after all, it will take a while to see the effect.

In this long waiting period, UU read www.uukanshu. Does com China take off and stop production? Does the 10th and 20th projects have to lie down and wait for talents and skilled workers to arrive?

Obviously it is impossible. In this case, Zhuang Jianye can only find another way, replacing the severely short-sufficient ordinary skilled workers with high-precision industrial robots, and integrating them into his own aviation and aerospace production lines.

But because of this, China Ascendas has always been the company with the smallest number of employees among similar domestic companies, and it is also the company with the highest production efficiency.

Behind this expensive investment is China Ascendas' continuously improving product quality, as well as a very deep understanding of industrial robots and already deep use experience.

Coupled with China Ascendas’ own years of technology accumulation in outer space such as satellites, launch vehicles, and hypersonic vehicles, experts in manned space engineering finally proposed to hand over domestic space manipulator projects after a feasibility study. Take off for China.

The NB-36P industrial robot is a low-end space manipulator derived from this project...