1504 This Time, I Really Stood Up!

Traditional machining, in the face of this impact, can only rely on a strong bench and tough fixtures to resist this impact.

The impact force will be transferred to the platform body through the clamp, and then transmitted from the platform body to the ground under the feet.

Then it passes through the ground and is conducted to the foundation made of sand below.

The foundation made of this kind of river sand, as well as the bench and fixtures that use special processing technology to eliminate internal stress, will not generate corresponding reaction forces, which will affect the processing accuracy.

Therefore, the entire processing process seems simple, but in fact, the requirements for the preliminary preparation are very high, and the requirements for the working environment are also very harsh.

However, after watching the machining videos of industrial robots circulated from within Xinghuo Technology, many researchers at XXX Institute felt that they were watching a science fiction film.

Because it seems so unreal.

For example, the industrial robot uses two robotic arms as fixtures, and the other robotic arm is in front of a drill bit to drill holes in iron ingots.

During this process, the two arms used as fixtures will continue to vibrate at different frequencies.

This is a subversion of the traditional machining concept, because tradition and machining require stability, which can be said to have reached the point of being picky.

During the processing, any slight vibration is not allowed.

But here, the two mechanical arms are constantly trembling. In this process, the huge impact force brought by the processing is indeed very effectively resolved.

But how can you guarantee the precision of your processing?

Know that your workpiece moves back and forth, which will seriously affect the progress of the drill tool.

In the traditional machining operation, the machining program designed by others will set the forward and backward force of the tool well.

For example, when the tool is processing on an iron ingot, the outer layer has been ground off by 0.3 cm in thickness.

Then at this time, the automatic distance measuring equipment will set the re-advancing route of the tool, as well as the advancing speed and even strength according to the change of the iron ingot.

This seems simple, but it is the most difficult part of industrial control software design.

It's also something we haven't figured out yet.

Because such a simple mechanical action incorporates sophisticated technologies such as industrial control and distance measurement.

So when everyone saw that robot performing flexible processing, the first impression was that this Nima was a pure liar.

How is this possible?

We don't even understand hard machining. Which company are you that actually developed the flexible machining process?

Isn't this nonsense?

During the processing of your workpiece, it moves around. Everyone knows that it can effectively resolve the impact force brought by the drill bit.

But your workpiece moves back and forth, how can your drill bit ensure that it can always work steadily according to the original established procedure, and drill out the set cavity?

How do you control the rotational speed, angle, and strength of your drill when it moves forward?

How can you ensure the accuracy you want?

These are all difficult problems to face during flexible processing.

If we say that writing an ordinary industrial control software may require 10,000 lines of code.

However, writing such industrial control software adapted to flexible processing may require a million lines of code.

The most important thing is that you still have to constantly check and modify these codes during the processing process.

Let alone now, no company in our country has such technical capabilities to write such software.

Just say that the top industrial control software players abroad, such as Germany's Siemens and Sapp, can't write such software!

Therefore, although flexible machining has many advantages, for example, compared with traditional hard machining, flexible machining can greatly reduce the cost of processing.

Because there is no need for expensive special alloys for benches, jigs, or even knives.

Because of the characteristics of flexible processing, it can resolve the impact force brought by processing.

Moreover, the environmental requirements for processing are much lower than those of traditional hard processing.

So in terms of processing costs, it is of great benefit.

The other is flexible processing, which allows many workpieces that could not be formed at one time before to be produced in one step.

These can not only save costs, but also greatly improve the performance of many mechanical equipment.

Therefore, everyone knows the benefits of flexible processing, but it is also very difficult.

Even in the opinion of many people, based on the current technical reserves, it is impossible to realize flexible processing in the next few decades.

Because this kind of processing technology has too high requirements for distance measurement and industrial control software.

But now, when everyone saw with their own eyes that Xinghuo Technology had built an industrial robot, and began to stretch the robotic arm in front of everyone, doing gymnastics-like exercises.

All the researchers present were stunned.

Nima, why does this look so similar to Zentraedi Technology?

No matter how you look at it, it looks like alien technology, not like an invention of earthlings!

Then a scene that surprised everyone even more happened.

Mr. Hu asked someone to take out an iron cube and threw it over the machine tool. To everyone's surprise, when the cube fell, it was caught firmly by two arms.

Afterwards, a scene that surprised everyone even more happened.

Another mechanical arm, with a knife in its hand, went up to meet it.

The long drill bit spins rapidly, but this time the mechanical arm at the tool end is stationary.

The other two mechanical arms are holding the iron cube and turning around on the knife head continuously.

The cremation splashed everywhere, and there was a continuous harsh sound of metal friction in the room, and there was an unpleasant smell of metal friction in the laboratory.

But even in such a bad environment, the group of people in front of the machine was fascinated by it.

This scene is really shocking. It can be said that the robot operated by Mr. Hu has opened up a whole new world for them today.

It turns out that machining can still be played like this?

What's more, in the past, when machining with machine tools, the workpiece was fixed, and then the tools were used to complete various punching, milling and grinding operations on the workpiece.

But luckily now, this machine tool can still play like this.

People fix the tool, and then use the mechanical arm to control the workpiece, continuously rotate on the tool head, and process...

In a short time, the original square iron lump was processed into a big round iron ball.

Although this workpiece is not very brilliant, everyone who has seen the entire processing process knows the processing difficulty contained in this processing process.

This damn, is too heaven-defying!

Even when the machine tool finished the last movement, all the researchers on the scene cheered, and some even clapped their hands.

Because everyone understands that with this thing, our country H military industry has really stood up this time.

The spring of our country H's military industry is really here this time!

In the past, our military products can be said to be the most troublesome three parts.

The first is materials, the second is precision processing, and the third is equipment manufacturing!

In terms of materials, there is no rush, you can only explore, experiment, and learn a little bit...

In the area of ​​finishing, we used to rely on the channels of Rui S and Jie K to support us.

Although we can't get too many high-precision machine tools, we can finally get some to quench our thirst.

Otherwise, why do you think that after the UBS incident two years ago, we didn’t respond and let them continue to make money on our side?

This is all for another reason, this channel cannot be broken...

But now with this device, we no longer have to look at the faces of Europeans.

You can even say to them directly: Go to Nima!

With such a machine tool, many of our problems can be easily solved.

The happiest thing is the equipment manufacturing industry, which will be greatly improved.

This equipment manufacturing industry, many people may not understand what it is.

To put it simply, this thing is the level that we have always wanted to upgrade, but we can't go up anyway.

To put it bluntly, Siemens, General Electric, Japan's Panasonic, and Toshiba all belong to this rank.

The reason why citizens of developed countries can do nothing and enjoy high welfare is because there are many such enterprises in their country, which support their national economy.

The straightforward point of this truth is that you can produce products, but you cannot produce the tools for making products.

For example, we can now produce cars, tablet computers, TVs and other products.

But the production line you use to produce cars, such as rolling machines, automatic welding robots, and automatic painting and other equipment.

You imported these equipment and industrial robots from ABB in Sweden.

There are also your computer production, packaging machines, integrated circuit laminating machines, etc. These equipment and production lines are also imported from abroad.

There are also dust-free workshops used in the production of TV sets, automatic panel packaging equipment, etc., which are also imported from abroad.

This is the equipment manufacturing industry, and it is also the weakest link in our industrial chain.

Because of these equipment, robots, etc., we are not ignorant of the principle, but we are only trapped in the problem of processing accuracy and cannot produce them.

For example, the most widely used bearings in the equipment manufacturing industry, ball bearings, or gear bearings, etc.

These have very high processing precision, because only the precision of these equipment parts is high enough, and the products produced by them can have high enough precision.

This has very high requirements for finishing, and this aspect can be said to have always been the biggest shortcoming that hinders us from making breakthroughs in this field.

And now, this shortcoming has been made up for by the industrial intelligent robot of Xinghuo Technology, which was born out of nowhere!

With this machine tool in front of us, it can be said that our domestic equipment manufacturing industry will usher in an extremely earth-shaking change.

This industrial upgrade will definitely not be empty talk in the future...

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