IT202100002873U1 - Distributed certification system of production processes for the production of electrical transformers - Google Patents

Description

DESCRIPTION

The present invention relates to a distributed certification system of production processes for the production of electric transformers.

To date ? rather difficult to carry out a punctual and rigorous monitoring of the production processes, starting from the material, from the semi-finished product to the final product (electrical transformer). The same certifying bodies and world players are very demanding today, and spot checks and procedures monitored with paper checklists are not enough. Indeed, ? You can make a post-clearance statement easily. There? does it lose rigor to the production process and increases its competitiveness? of unethical companies.

The advent of the blockchain ? therefore an excellent solution to certify the production processes of electric transformers, monitoring in a certified digital way the phases and controls on the material used, the semi-finished product up to the maintenance carried out on the finished product (electrical transformer). The strength of the block-chain is the multi-device distributed system, which guarantees its integrity, availability and and the time validation of the data. It's all based on ledgers, shared ledgers that are immune to corruption. In the aforementioned context, the object of our invention ? essentially that of carrying out a distributed system of certification of production processes for the production of electrical transformers thanks to the use of the connectivity interface? to the Internet (1) by means of WIFI NETWORK or Internet Gateway which represents the means of communication at the basis of the interconnection of the distributed devices of the block-chain; electronic calculator (2) able to intelligently generate for the user for each type of semi-finished product (3) and material a series of phases and checks to be carried out thanks to an expert system (9), form for certification by registration on ledger (5) in block-chain (distributed system of interconnected computers) of the phases and relevant controls of the production process detected via the HMI interface (4), used by the operator in order to record the phases and related controls proposed by the calculator (2). All relevant process is then mapped to ledger (5) and ? It is possible at any time to reconstruct the entire history of the production of a single transformer (8) starting from the material used and the first operator involved in the production process. The system also makes use of a module (6) for control by means of ?computer vision? of? output product, which carries out the quality control? time-certified on ledger (5).

Said system? also used to correlate all the relative maintenance and faults recorded to the single transformer. There? it is carried out using the form (7) for recording the maintenance carried out on the individual transformers (8) on the ledger (5).

All this allows a synthesis engine present on an external computer (9) called ?process controller? to carry out the control of the certified process using ledgers (5).

The transformer is therefore characterized by a production control that allows the end user to be able to verify the entire history of his product at any time. There? allows you to pursue as a company? transformer manufacturer a significant competitive advantage in terms of compliance with specifications, standards and business ethics.

AND? is it possible, therefore, to define the? reliability? of the transformer T at time t as a function of the contributions ? certification of the correctness of the phases and controls on materials (m(T)), semi-finished products (s(T)) and of the standard maintenance carried out and on the faults recorded (p(T)).

Aff(T,t) = f(?(m(T)) , ?(s(T)) , ?(p(T)))

By means of the analysis of the reliability factor? thanks to distributed ledgers (5), ? is it possible for the controller (9) to make an estimate over time of? reliability? of the company's production processes and the implemented products. This system extended to different producers pu? allow for healthy competition in order to pursue remarkable production standards.

Claims (3)

1. Distributed certification system of production processes for the production of electrical transformers including: - HMI interface (1) equipped with connectivity? to the Internet via WIFI NETWORK or Internet Gateway; - electronic calculator (2) capable of intelligently generating for the user a series of phases and checks to be carried out for each type of semi-finished product (3) and material; - module for certification by means of ledger registration (5) in the blockchain of the relevant phases and controls of the production process; - external computer (9) called ?process controller? to carry out the control of the certified process using ledgers; - module (6) for the control through ?deep learning? of the certified product output; - form (7) for recording maintenance carried out on individual transformers (8) via blockchain optics; 2. System according to claim 1 characterized in that the relevant process is then mapped on ledger (5) and ? It is possible at any time to reconstruct the entire history of the production of a single transformer (8) starting from the material used and the first operator involved in the production process. 3. System according to any one of the preceding claims characterized in that ? is it possible to calculate over time? reliability? of the transformer T at time t as a function of the contributions ? certification of the correctness of the phases and controls on materials (m(T)), semi-finished products (s(T)) and of the standard maintenance carried out and on the faults recorded (p(T)).