"That's right, this is version 2.0 of our super smart manufacturing factory. The nine very square glass buildings you see are actually the production workshops in our production factory. Don't you feel taller instantly?"
Wu Hao smiled at everyone and said: "The main body of each new production workshop is composed of steel structure and glass.
Both of these are relatively cheap building materials, very easy to obtain, recyclable, and very environmentally friendly.
And as we all know, the characteristics of steel structures are that they are easy to construct and the construction period is very short. In this way, we can complete it and put it into production in a very short time.
Because it is a steel structure, the internal space can be flexibly changed according to actual needs.
As you can see, this building is a huge production workshop. According to needs, various equipment of the production line can be fully installed here from top to bottom, or from bottom to top, or in a spiral upward or downward structure.
Maximize the use of space in the building.
In this way, we achieved our goal of establishing an intelligent production workshop in such a small area.
This only achieves the goal of small footprint and effective use of space. Next, we will carry out a comprehensive intelligent and unmanned upgrade of the factory's production line and the entire production system.
Thereby reducing the demand for labor and even reducing the demand for skilled workers and technicians. For example, the intelligent production workshop you see has actually achieved completely unmanned management.
All equipment in this intelligent production workshop is managed and operated by the workshop's independent intelligent production system.
It can autonomously and flexibly adjust the production speed according to the order quantity and delivery time, thereby ensuring that production tasks are completed on time, in quantity and with quality while consuming the lowest energy.
As we all know, in the process of factory production and operation, the largest expense comes from the wages of production workers.
But this time, there is not a single worker in our entire workshop, which means that this factory will no longer have to bear high monthly salary costs.
So do you really need no one in this production workshop?"
Asked this question, Wu Hao paused for a moment, then looked at everyone and shook his head: "No, it also needs people.
It just requires a small number of people. Under normal circumstances, it does not require people to enter. The entire production workshop runs completely autonomously.
However, just like in many production factories, these production line production equipment also need to be maintained and inspected, so there will be one day of maintenance time every month.
During this day, the production workshop was completely shut down.
Our technicians and maintenance personnel are required to maintain and repair the equipment in the entire production workshop, such as tightening the screws, adding some lubricating oil, adjusting the system, etc.
People can rest, but the machine system does not need to, so it can produce uninterrupted 24 hours a day and can last for a month or even longer.
In this way, its production efficiency can be improved several times or even dozens of times compared with traditional factories that use manual production.
As production efficiency improves, production costs will naturally come down. In this way, the products produced can defeat those labor-intensive traditional manufacturing factories due to their price advantage."
“In our traditional understanding, the more developed the equipment and the more advanced the system, the more likely it is to malfunction.
This has become widely recognized by everyone, and this time, we have focused on solving this problem in this new smart manufacturing workshop. We have equipped the entire production smart manufacturing workshop with an intelligent maintenance system. Under normal circumstances, the entire production line
The workshop and the entire production line are all responsible for this intelligent maintenance system.
Once there is a problem with a certain manufacturing equipment on the production line, the system will know it immediately and start trying to detect and repair it. In addition to the system handling and solving the problem independently, we have also equipped the entire production line with a maintenance and inspection robot in a new production workshop.
It is actually a multi-tentacle robot that uses multiple mechanical arms to maintain and repair faulty production equipment, replace related parts, etc.
Basically, in 80% of cases, this intelligent maintenance system can handle the faults and problems that occur in this production line without affecting the normal operation of the production line.
The remaining 20% are some intractable problems that cannot be solved by intelligent maintenance systems and multi-tentacle robots, and these require our technicians to perform manual maintenance and repairs.
Regarding this part of technical maintenance personnel, we can provide training for each production factory, and these qualified graduates will be responsible for some daily maintenance and repair work. If they encounter problems that cannot be solved, these maintenance and repair technicians can also directly ask us for help.
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For small problems, we can use smart AR glasses to help solve them in real time. If we encounter major problems, we will have a professional team of technical experts on standby 24 hours a day.
After receiving the relevant help call, a team of professional and technical experts will rush to the scene as soon as possible to solve the problem.
In addition, this team of professional and technical experts will regularly inspect each factory to help the factory solve some daily difficult problems so that it can produce better."
“Because it is intelligent system control and unmanned automated production, the production mode can be very flexible and changeable, and product specifications can be changed according to different orders, and two or three products can even be produced at the same time.
This highly flexible production model is more suitable for the current rapidly changing market demand. It can also be manufactured for small quantities of orders, thus more closely matching market demand and keeping up with market development.
In addition, because we adopt a highly intelligent and automated production model, we can very well avoid messy materials and energy waste, thereby better saving resources.
We can recycle many waste residues, waste water, and waste gas discarded by traditional factories.
For example, wastewater is treated and filtered through a real-time wastewater filtration system to achieve a water circulation system in the factory. This wastewater is recollected and purified for secondary use, third use, or even N times.
We can recycle some waste residues in wastewater, such as heavy metals and oil stains, and send them to professional places for reuse.
The same is true for waste residue. Automated production can collect all waste residue and then reuse it, or directly package and transport it to a professional recycling company for secondary recycling and reuse.
This is still the case for waste gas. After filtration and separation, the sulfur dioxide, carbon dioxide and other contents in the waste gas are recovered and reused.
On the one hand, it reduces harmful emissions to the air, and on the other hand, it maximizes the recycling of resources for secondary use.”