Brothers, I have opened a new book again: Restart your life: I can call myself ten years ago, brothers, please help me collect it, and give me some recommendations!

*********************

"Chen Cheng quickly delivers the food to Luo Gong and the others."

In the canteen on the boat, Chef Zhang held a few packed lunch boxes and shouted to Chen Cheng.

Luo Gong is a teacher at Harbin Institute of Technology and one of the main leaders of this offshore mining project.

Those technicians who operate underwater robots are the students he led this time.

It is daylight now, and it is the busiest time for mining on the ship every day, and Luo Gong and others have to stay in front of the machine.

They didn't even bother to come to the cafeteria to have dinner because their professional staff were limited, so no one could replace them.

They dare not leave their jobs easily.

Because Chen Cheng was close to them on weekdays, Lao Zhang from the canteen handed over the task of delivering them to Chen Cheng.

And Chen Cheng, who was like a stolen master, naturally couldn't help picking up the task of serving tea and water.

After all, hard work will always pay off. Recently, he became familiar with Teacher Luo.

Teacher Luo and his apprentices have a very good impression of him.

Many operations are not shy away from him, and even when he asks some questions, they will patiently answer him...

Chen Cheng rushed to the operating room in the middle of the hull with a warm meal and a large pot of sour plum soup.

This is the largest studio in the entire boat, with an area of ​​more than 100 square meters.

There are folding beds and fitness equipment on the side.

These are all used to relieve fatigue and relieve stress when employees feel tired.

After all, the staff here are the most core treasures on the ship.

So the treatment they received was naturally the best, and even the captain's cockpit was not as large as their studio space.

At this time, Teacher Luo was taking several of his students to operate the equipment in front of the front workbench.

On the wall facing south between, there is a whole large screen.

In this large screen, many small projectors are divided into pieces, and each projector shows different working areas faced by different robots.

Behind this wall are neatly arranged four and a half-enclosed cockpits.

From the outside, these cockpits are full of technology, and people will remind you of the image of the mobile suit Gundam when you see it.

These cockpits are all three-dimensional and look as cool as robots.

And in the cockpit, there are operators working closely.

These operators are the operating technicians of underwater robots.

At this time, they all wore helmets, and the sunglasses in front of the helmets were their monitors.

The camera connected to the robot can see clearly underwater.

The situation captured by the camera will be immediately fed back to the sunglasses in front of them.

Then they will make their own judgment based on what they see.

Moreover, there are various sensors connected to the operators, hands and feet.

And every move they make will be synchronized to the underwater robot under the sea.

This gives those robots the most flexible operation.

In fact, underwater robots have been available a long time ago.

However, the underwater robots that were born before can only be said to be the simplest robots.

To put it bluntly, it is just a simple small submarine with a searchlight and a camera, plus a plier.

The work task of those robots is quite simple, which is to go under the sea to explore the situation under the sea.

The main job is to prepare for the big boss' shipwreck, and there is basically no other role.

If they use their mining under the sea this time, it is undoubtedly a dream.

Because such a robot does not have the characteristics of working under the water at all.

This time, the famous chef group made a lot of preparations to develop under the water.

The most difficult part of this is how to collect ore sand under the sea.

You should know that the working environment under the sea is different from that on land.

When mining on land, the only headache is to keep digging and drilling holes.

Dig out the ore containing precious metals, load it with trucks and transport it directly to the smelting furnace.

But it is different under the sea because the entire working environment is soaked in water.

So you have to bear a lot of forces from different directions, such as if you discovered an ore vein buried a few meters deep under the seabed.

So how do you dig out these ore veins? You must know that most of these ore veins are solid bottom rocks.

So what you have to do is to drill holes in the ore veins with a drill bit, then bury the explosives in, and break the ore veins.

Then use a drill bit to break the ore and turn it into ore sand, and then suck it up.

In this process, it is impossible to complete with a controllable drill bit alone.

At this time, you will take pictures of the underwater robot and make your debut.

Because sometimes ore veins can be buried under the water surface of more than 20 meters deep, and sometimes they have to be buried under the water surface of one hundred meters, even hundreds of meters, or even thousands of meters deep.

In such a deep water area, humans cannot enter at all, so they can only send robots to go down.

The main job of the robot is to take root in the ore deposits at the bottom of the water.

Then use both hands to hold the drill bit, plow the land back and forth on the mine veins, or drill holes.

This will stabilize the output of the drill bit, and the robot will also have to withstand huge back impact forces, which will resolve these impact forces.

At the same time, don’t forget that there will be undercurrents underwater, and there will be the impact and buoyancy of water.

Under the action of these various forces, the robot can easily move.

Once displacement occurs, the drill bit will not be held firmly.

Therefore, this robot must be built more advanced and more complex.

It is definitely not comparable to the extremely simple underwater detection robot developed in Europe and the United States.

That's why the robot control cockpit that Chen Cheng saw in front of him was like this.

At this time, the four students were in the cockpit, passing sensors tied to their limbs.

Robot under the water surface in a synchronous remote control.

Teacher Luo sat in front of the TV wall in the front of the office, exploring the overall situation.

If you find something wrong there, you will immediately correct the students.

After all, the environment under the water is ever-changing. It is still calm at this moment, but the situation may change suddenly in the next second.

The undercurrent will emerge from somewhere...

"Teacher Luo, the food is here, you can have dinner first!"

Chen Cheng put the food on the table and shouted.

Teacher Luo looked back and greeted: "Okay, during lunch break, everyone stopped, had a meal and had a rest."

Several students immediately stopped at this time, and there was a joystick near their wrists.

Just gently move the joystick and the sensor on the body will be loosened.

At the same time, the robot under the water will stop working and then float up quickly.

Since getting into the water at around 6 a.m., these robots have been working for more than six hours, and it is time to come up and take a break.

These robots are different from ordinary robots. These are the latest human-like robots developed by Spark Technology.

Although they all seem very strong on land, they are working under the water for a long time, and in the deep sea.

Therefore, you must take care of it frequently and will be brought up every day at noon.

Perform erosion, maintenance, oiling and infusion, etc.

After all, a device that costs millions of dollars is needed. If it breaks, it will not only cost a lot of money to repair it.

The most important thing is to delay the mining construction period. This calculation means that both sides lose money.

So it is better to work harder in the early maintenance and would rather work a few hours less to do the best maintenance.

This will also allow the robot to work longer.

These robots were designed by Spark Technology engineers based on the space assistants of their era.

Unfortunately, many space materials on Earth have not been developed yet, and the energy problem has not been solved.
To be continued...