3 resultados para RFID-Einsatzpotenziale
em Doria (National Library of Finland DSpace Services) - National Library of Finland, Finland
Resumo:
Työn tavoitteena oli vähentää levyaihioiden hakuun käytettävää aikaa varastossa. Tutkimus perustuu kirjallisuuteen ja tieteellisiin lähteisiin. Fetek Oy:n levyvarastoon soveltuvaksi tunnistusjärjestelmäksi osoittautui viivakooditekniikkaan perustuva QR-koodi. QR-koodien valmistus onnistuu yrityksessä ja koodiin saadaan mahtumaan kaikki tarvittava tieto levyistä. Koodien lukeminen onnistuu työpuhelimella tai erillisellä lukijalla. Koodien käyttöönotto ja päivittäminen oli kustannustehokkain ratkaisu yrityksen tarpeisiin. Olemassa olevaa varastoa myös päätettiin selkeyttää käyttämällä väritunnistusta hyllyissä ja ottamalla käyttöön LEAN 5S. Värikoodaus nopeuttaa tunnistusta huomattavasti ja LEAN 5S puolestaan auttaa pitämään tuotantotilat aina järjestyksessä. Jatkotutkimuksessa tulisi parantaa tuotantotilojen järjestelyä ja miettiä yrityksen käytössä olevan varastonhallintaohjelmiston soveltuvuutta.
Resumo:
At present, in large precast concrete enterprises, the management over precast concrete component has been chaotic. Most enterprises take labor-intensive manual input method, which is time consuming and laborious, and error-prone. Some other slightly better enterprises choose to manage through bar-code or printing serial number manually. However, on one hand, this is also labor-intensive, on the other hand, this method is limited by external environment, making the serial number blur or even lost, and also causes a big problem on production traceability and quality accountability. Therefore, to realize the enterprise’s own rapid development and cater to the needs of the time, to achieve the automated production management has been a big problem for a modern enterprise. In order to solve the problem, inefficiency in production and traceability of the products, this thesis try to introduce RFID technology into the production of PHC tubular pile. By designing a production management system of precast concrete components, the enterprise will achieve the control of the entire production process, and realize the informatization of enterprise production management. RFID technology has been widely used in many fields like entrance control, charge management, logistics and so on. RFID technology will adopt passive RFID tag, which is waterproof, shockproof, anti-interference, so it’s suitable for the actual working environment. The tag will be bound to the precast component steel cage (the structure of the PHC tubular pile before the concrete placement), which means each PHC tubular pile will have a unique ID number. Then according to the production procedure, the precast component will be performed with a series of actions, put the steel cage into the mold, mold clamping, pouring concrete (feed), stretching, centrifugalizing, maintenance, mold removing, welding splice. In every session of the procedure, the information of the precast components can be read through a RFID reader. Using a portable smart device connected to the database, the user can check, inquire and management the production information conveniently. Also, the system can trace the production parameter and the person in charge, realize the traceability of the information. This system can overcome the disadvantages in precast components manufacturers, like inefficiency, error-prone, time consuming, labor intensity, low information relevance and so on. This system can help to improve the production management efficiency, and can produce a good economic and social benefits, so, this system has a certain practical value.
Resumo:
Food safety has always been a social issue that draws great public attention. With the rapid development of wireless communication technologies and intelligent devices, more and more Internet of Things (IoT) systems are applied in the food safety tracking field. However, connection between things and information system is usually established by pre-storing information of things into RFID Tag, which is inapplicable for on-field food safety detection. Therefore, considering pesticide residue is one of the severe threaten to food safety, a new portable, high-sensitivity, low-power, on-field organophosphorus (OP) compounds detection system is proposed in this thesis to realize the on-field food safety detection. The system is designed based on optical detection method by using a customized photo-detection sensor. A Micro Controller Unit (MCU) and a Bluetooth Low Energy (BLE) module are used to quantize and transmit detection result. An Android Application (APP) is also developed for the system to processing and display detection result as well as control the detection process. Besides, a quartzose sample container and black system box are also designed and made for the system demonstration. Several optimizations are made in wireless communication, circuit layout, Android APP and industrial design to realize the mobility, low power and intelligence.