Military Technology

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Then there is only one way, and that is to upgrade industrial technology and realize automated production to reduce personnel. In fact, many companies have started this initiative very early, but it is still not enough.

Many factories now urgently need a complete set of automated production technologies to get rid of the dilemma caused by the lack of human resources.

As a technology company, we are also deeply aware of the difficulties of the entire OEM manufacturing industry. In particular, we have been severely affected by the lack of human resources and the serious impact of the increase in labor costs.

Maybe you remember that when our products were selling well, they were unusually out of stock. This was not due to some hunger marketing we engaged in, but because we really encountered problems in production.

Due to the confirmation, the OEM's production capacity could not increase, so the originally scheduled delivery date could only be postponed indefinitely. This also caused our products to be unable to be sold because they were out of stock when sales were extremely hot. According to a statistics we once made, we lost almost 10 to 20 billion US dollars in sales due to shortages.

In addition, the increase in labor costs due to the lack of personnel has also affected the rising cost of OEM. This is why everyone complains about why prices are increasing so rapidly. Because these foundries, including materials, are growing rapidly. We have no choice but to keep growing.

It is against this background that our super intelligent manufacturing factory was born. In fact, we were forced to decide to intervene in this industry.

Because the production capacity of foundries has been seriously affected, and major technology companies are competing for the production capacity of these foundry companies, on the one hand, the foundry costs of foundry companies have been raised, and on the other hand, the share of production capacity we can obtain has also There are fewer and fewer, which has seriously affected our market sales and the experience of the majority of consumers.

Therefore, we were thinking about whether we could build a production factory ourselves to produce these products. In this way, we would not be limited by the production capacity of the foundry.

Although the investment in building a new production plant is huge, thinking that we can solve this problem once and for all, we gritted our teeth and spent a considerable amount of funds to acquire or build an OEM company.

At the beginning, we were planning to learn from the successful experiences of other OEM companies, learn from their technical achievements, or directly purchase relevant technical equipment from them to build an ordinary production factory.

However, after careful study, we found that if we followed their example in building such an ordinary production factory, wouldn't we also be plagued by problems such as lack of human resources and increased labor costs?

This gave us a dilemma: should we continue to build such a production plant, or should we stop here and endure it for a while. Anyway, these technology companies in the industry seem to recognize it this way. This is the norm in the industry. Why invest so much and build a production factory like this?

Is that the end of it? No, we are not willing to do so. Because we don’t want to show off, we have our pursuits. Besides, if the labor shortage continues and labor costs continue to rise, what will happen in the future?

So driven by this series of reasons, we re-examined this project and decided to save personnel investment as much as possible in this new production work, thereby weakening or avoiding us from falling into the quagmire of labor shortage and increased labor costs.

At the beginning, we just planned to automate as much as possible and reduce the number of workers. Later, our technical experts and researchers came up with more and more ideas, and finally formed a complete set of technical theoretical proposals. This is our super intelligent manufacturing. The precursor to factory technology.

In fact, our first-generation super smart manufacturing factory is not completely unmanned. There are still many workers in its production process, but compared with ordinary OEM production factories, the number has been significantly reduced. .

As for the second-generation super manufacturing factory, we will continue to introduce compression on the basis of the first generation, so that the entire production process does not require workers to intervene, and is completely completed by automated equipment and industrial robots.

However, personnel still need to be responsible for other auxiliary links, such as the transfer of goods, the operation of factories and parks, including the maintenance and repair of equipment, etc.

As for the current third-generation super smart manufacturing factory, the entire factory and even the entire park have become intelligent, unmanned, and automated. It is truly realized that the entire factory or even the entire factory area does not require an employee, and everything is left to the factory area and the factory's intelligent management system to realize autonomous operation without human intervention.

At the same time, the third generation of super intelligent manufacturing factories can also produce different products in the same factory or even the same production line. And the production lines can be freely combined according to product orders to adapt to production needs.

To give a simple example, a certain place is suddenly in urgent need of a batch of products, but there is an extreme shortage of them in the market. It takes a long time to transport them from overseas, and it is simply too late. However, domestic production is very small and cannot be provided in a short time.

At this time, our third-generation super smart manufacturing factory can play a role. We only need to input the relevant parameters of this equipment into the control system, and the factory's intelligent control system can autonomously adjust and transform the production line according to the production needs of this product to carry out production. The whole process is very fast. Adjustments and changes to the entire production line can be completed within twelve hours, and mass production can be achieved within twenty-four hours.

Such a production factory may not seem to be of much use in normal times, but in the event of an emergency, it will play a huge role. It can be constantly changed according to needs and can be called a Transformer in the factory.

It can be a super food processing factory that produces hundreds of tons of bread every day, or it can be a medical supplies production factory that produces millions of masks, protective clothing, and protective face shields every day. It can also be a factory that produces emergency clothing, bedding, or other emergency supplies and equipment.

With such a factory, we will have the confidence and confidence to deal with these unexpected problems, and we can also greatly reduce unnecessary losses and sacrifices.

Going back, let’s talk about the boss of the digital foundry company in Guancheng I mentioned earlier. He was one of our earliest partners and purchased two first-generation super smart manufacturing factories directly from us.

These two first-generation super smart manufacturing factories have been completed and have become the main production force of his OEM business. With these two first-generation super smart manufacturing factories, it has grabbed many orders from many famous OEM giants, which has also made him a lot of money.

Please remember the first domain name of this book: . :