"These models are our Future Warrior series individual protective exoskeleton systems. First of all, the red one on the side is the basic model of our exoskeleton system.
This mechanical exoskeleton weighs 150 pounds. Its main body is made of new titanium-magnesium alloy material, and part of the structure is reinforced with titanium metal.
It adopts a mechanical transmission structure designed and developed by us. It is not only structurally strong but can withstand a weight of 350 kilograms.
And it is very flexible and can keep up with the body movements of our wearer to achieve a perfect fit. And it is very convenient to move, and there is no restriction on movement. "
Wu Hao pointed to the exoskeleton on the side and introduced it to everyone.
"This exoskeleton consists of five major parts, namely the support system, the transmission assist system, the induction following system, the intelligent control system, and the power supply system.
The first is the support system, which is the main component of the exoskeleton. We adopt an ergonomic design that fits the physiological characteristics of the human body so that it can fit our limbs closely.
This not only makes exercise more convenient, but also does not affect our normal body movements. This is especially important when performing some tactical maneuvers. "
As he spoke, Wu Hao picked up a small remote control and controlled a large screen next to the exoskeleton booth. A photo from the test was displayed on the screen.
"As you can see, because it is a perfect carrying case, this exoskeleton can even be put into pants. In other words, if you put on ordinary loose tactical pants, you can't tell that there is an exoskeleton inside.
Because it uses a new type of high-strength and high-toughness material, it has extremely strong load-bearing support and can support a maximum weight of 350 kilograms.
Under this weight, the wearer's movements will not be affected in any way. The wearer feels as if he is carrying ten pounds of weight, which is very light.
Therefore, if used in combat, soldiers wearing this exoskeleton will be able to carry more weapons and ammunition than ordinary soldiers, thereby improving the combat effectiveness of the soldiers and extending the combat cycle.
Even with some brackets, we can equip our warriors with more powerful firepower. For example, carry more missiles, rockets, grenades, machine gun bullets, etc. "
As he spoke, Wu Hao showed some photos, which were concept and test photos, which caused many people to start talking. There were even a few military newspaper reporters who wanted to get their cameras and start taking pictures.
In response, Wu Hao stretched out his hand to stop him and said, "Sorry, you can't take pictures of these!"
Hearing Wu Hao's reminder, General Tang on the side couldn't help but said sternly: "Put away the camera and other interview equipment. Don't you know what should be photographed and what should not be afraid? You have learned the confidentiality regulations in vain."
With that said, General Tang said to Wu Hao: "Xiao Wu, please briefly introduce me."
He knew what General Tang meant. He was simply telling him that the environment here was relatively complex and not suitable for in-depth introduction.
To this, Wu Hao nodded, and then continued: "The main transmission system is actually the various movable mechanisms and transmission devices distributed on this exoskeleton, which are what we commonly call joints.
But unlike human joints, the joints on this exoskeleton have power-assist devices.
As we all know, the power of our human limbs comes from muscles, but mechanical equipment does not, so we concentrated it on the joint device and made a power-assisted transmission device.
Don’t make it sound easy when I say this, but in fact this is one of the most difficult techniques on the entire exoskeleton.
When we exercise, our strength is not balanced, but a process of rapid and slow bursts. Therefore, this requires the same main transmission device on the exoskeleton, which can not only follow and imitate the human body's movement trajectory, but also have super explosive power.
Therefore, it can give the warrior wearing this exoskeleton super jumping ability. According to the data from our experiments, this exoskeleton can easily make our wearer jump to a height of more than three meters. When standing still, it can jump up to five meters, and when in a sprinting mood, its jumping distance can reach fifteen to sixteen meters.
What I'm trying to say is that these numbers come from average testers who have not been specifically trained to perform high jumps. If it were tested by professional athletes or people trained in this area, this data could be improved a lot.
In terms of speed, it is even more amazing. Its sprint speed of 100 meters is within four seconds.
Such speed and jumping ability make it extremely flexible. And for our wearers, there is not much pressure, it is just normal running and jumping, and relaxed. "
With that said, Wu Hao played a video. In the video are various test pictures of this exoskeleton. Through these pictures, everyone also understands the excellent performance of this exoskeleton.
While the video was playing, Wu Hao also continued to introduce: "Although this data is not a big improvement compared to professional athletes and world records, in my opinion, it is enough. At least for now. , is completely sufficient.”
Next is the induction following system. As the name suggests, this system actually senses the wearer's limb activity data and then synchronously transmits it to the exoskeleton to realize the limb following function.
There are two difficulties in the development process of this system. One is how to quickly sense and track the movement of limbs and reduce the processing delay of the system. In this way, the wearer will feel flexible in movement without feeling burdened by weight.
Secondly, this is not only an inductive follow-up of the movement of the body, but also an inductive follow-up of the wearer's power when moving.
The greater the strength of our wearer's limbs, the greater the strength of our exoskeleton will be, and vice versa. This technology may not seem like much, but it is crucial in combat and daily use.
As for the intelligent control system, it is actually the brain of this exoskeleton, which can also be regarded as the CPU, controlling all functions of the entire exoskeleton. This not only requires a specialized control system to support all functions of the entire exoskeleton, but also requires specialized chips to support it.
This combination of software and hardware also involves the chip field, which is also a very difficult problem for us. At this stage, many of the chips used in these exoskeletons come from overseas or overseas OEMs.
If it is put into military use, the chip problem must be solved, which is also one of the problems we are currently facing.
The last thing is the driving power supply. We installed a power backpack on the back of this exoskeleton. It can support up to 110 kilowatt-hours of electricity. This power is enough to support an electric car with a driving range of 700 to 800 kilometers.
