Establishment of a new automated production plant in the field of inverter and solar panel control manufacturing (Q3911974): Difference between revisions
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As part of the project, we aim to create a high-level automated electronic plant unit conforming to IPAR 4.0 principles in our production hall in Siófok, which includes the production line, process control, final inspection, the introduction and certification of quality assurance (ISO 9001) and environmental management (ISO 14001) systems and the necessary works. In addition, 1 forklift will be purchased for the production logistics tasks, and we also want to charge the architect’s expert fee. During the project, we create the necessary conditions for the production of the results of our own research and development activities, the members of the high-quality, up-to-date sinusoidal inverter and solar charge control product lines in the order of tens of thousands of series. The development results in the expansion of our product range.According to the project, an automated production system will be set up, complete automated, built with IoT devices, equipped with sensors and cameras into an automated production line, an electronic production line: 2 SIPLACE installation automatics to check the implanted parts, 2 SAKI BF-3Di-LS2-L 3D Single-Lane AOI equipment and the end control system to perform functional tests. In the spirit of IPAR 4.0, the development includes a production support module: the implanting machine also monitors the weight loss of the parts to be implanted and sends the order to the automatic storage system. Purchase of 1 electric forklift to perform logistical tasks. Real estate conversion: We are planning a complete refurbishment of the 394 nm hall, creating a modern, nearly zero-energy, high-capacity electronics production plant. (appropriate sunshine and charged energy cells for batteries). During the refurbishment of the hall, within the framework of the project, our electronics plant aims to create the conditions of laboratory cleanliness. We can only produce a world-class product by excluding any pollution, electrical charging, etc. from the plant. It is therefore important to provide the floor with ISD protection and to create “clean space” conditions in the plant to create the conditions for SMD implantation. Thanks to SMD technology, our system will operate with higher capacity and a small number of scraps, which will result in significant savings in terms of human and material resources. Further improvements: with the self-developed island energy system, we can switch to our own power supply, solar panels charge the batteries, our inverters turn them into alternating current and supply our production machines. We're building a demonstration-model plant that can be completely “green” and can be independent of electrified networks. E.g. in third world countries it can be “putted” anywhere to grow there. Our plant will meet state-of-the-art energy efficiency requirements and even exceed it by using self-developed, island-powered solar power generation in production, and the manufactured products will also increase the weight of the green economy according to their use. We are currently engaged in the green economy, e.g. we produce and sell charging controllers for solar cell r, sinusoidal inverters, or magnetic production and sale. Thanks to the development, we will be able to produce inverters and controllers in a cost-effective way and compete in quality with the modern tools of the most famous manufacturers (Siemens, ABB, Conrad) and in price with Asian products. Domestic photovoltaic production and installation companies can also design/build high-quality domestic batteries into solar panel systems, which contributes to higher productivity, higher domestic added value. With the new plant, we would like to develop our inverter family in the first time, from 600 to 3600 watts (600-1200-2400-3600). Use: solar panels, wells, insular buildings, motorhomes, houseboats, etc. We will be able to produce about 10e inverter and 10e programmable solar panel control every year, which is based on trends in energy production, the energy strategy of nations and international agreements, decades of market experience and preliminary market survey, not only will it be sold, but will be few. After the establishment of stable supply chains, in the medium term, we plan to expand further capacity by reinvesting revenues. By building up state-of-the-art techn capacities, we will be able to supply even the same percentage of the E-American market as the European market, based on our preliminary surveys, as well as further strengthening in the domestic and European markets. We plan an annual turnover of 3-400 MFt, which is an outstanding 16 % profit margin in the electronics industry, with a return of 6-7 years, but we can only achieve this with tender support. With the development, our total production capacity, efficiency, including competitiveness is increased. (English) | |||||||||||||||
| Property / summary: As part of the project, we aim to create a high-level automated electronic plant unit conforming to IPAR 4.0 principles in our production hall in Siófok, which includes the production line, process control, final inspection, the introduction and certification of quality assurance (ISO 9001) and environmental management (ISO 14001) systems and the necessary works. In addition, 1 forklift will be purchased for the production logistics tasks, and we also want to charge the architect’s expert fee. During the project, we create the necessary conditions for the production of the results of our own research and development activities, the members of the high-quality, up-to-date sinusoidal inverter and solar charge control product lines in the order of tens of thousands of series. The development results in the expansion of our product range.According to the project, an automated production system will be set up, complete automated, built with IoT devices, equipped with sensors and cameras into an automated production line, an electronic production line: 2 SIPLACE installation automatics to check the implanted parts, 2 SAKI BF-3Di-LS2-L 3D Single-Lane AOI equipment and the end control system to perform functional tests. In the spirit of IPAR 4.0, the development includes a production support module: the implanting machine also monitors the weight loss of the parts to be implanted and sends the order to the automatic storage system. Purchase of 1 electric forklift to perform logistical tasks. Real estate conversion: We are planning a complete refurbishment of the 394 nm hall, creating a modern, nearly zero-energy, high-capacity electronics production plant. (appropriate sunshine and charged energy cells for batteries). During the refurbishment of the hall, within the framework of the project, our electronics plant aims to create the conditions of laboratory cleanliness. We can only produce a world-class product by excluding any pollution, electrical charging, etc. from the plant. It is therefore important to provide the floor with ISD protection and to create “clean space” conditions in the plant to create the conditions for SMD implantation. Thanks to SMD technology, our system will operate with higher capacity and a small number of scraps, which will result in significant savings in terms of human and material resources. Further improvements: with the self-developed island energy system, we can switch to our own power supply, solar panels charge the batteries, our inverters turn them into alternating current and supply our production machines. We're building a demonstration-model plant that can be completely “green” and can be independent of electrified networks. E.g. in third world countries it can be “putted” anywhere to grow there. Our plant will meet state-of-the-art energy efficiency requirements and even exceed it by using self-developed, island-powered solar power generation in production, and the manufactured products will also increase the weight of the green economy according to their use. We are currently engaged in the green economy, e.g. we produce and sell charging controllers for solar cell r, sinusoidal inverters, or magnetic production and sale. Thanks to the development, we will be able to produce inverters and controllers in a cost-effective way and compete in quality with the modern tools of the most famous manufacturers (Siemens, ABB, Conrad) and in price with Asian products. Domestic photovoltaic production and installation companies can also design/build high-quality domestic batteries into solar panel systems, which contributes to higher productivity, higher domestic added value. With the new plant, we would like to develop our inverter family in the first time, from 600 to 3600 watts (600-1200-2400-3600). Use: solar panels, wells, insular buildings, motorhomes, houseboats, etc. We will be able to produce about 10e inverter and 10e programmable solar panel control every year, which is based on trends in energy production, the energy strategy of nations and international agreements, decades of market experience and preliminary market survey, not only will it be sold, but will be few. After the establishment of stable supply chains, in the medium term, we plan to expand further capacity by reinvesting revenues. By building up state-of-the-art techn capacities, we will be able to supply even the same percentage of the E-American market as the European market, based on our preliminary surveys, as well as further strengthening in the domestic and European markets. We plan an annual turnover of 3-400 MFt, which is an outstanding 16 % profit margin in the electronics industry, with a return of 6-7 years, but we can only achieve this with tender support. With the development, our total production capacity, efficiency, including competitiveness is increased. (English) / rank | |||||||||||||||
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| Property / summary: As part of the project, we aim to create a high-level automated electronic plant unit conforming to IPAR 4.0 principles in our production hall in Siófok, which includes the production line, process control, final inspection, the introduction and certification of quality assurance (ISO 9001) and environmental management (ISO 14001) systems and the necessary works. In addition, 1 forklift will be purchased for the production logistics tasks, and we also want to charge the architect’s expert fee. During the project, we create the necessary conditions for the production of the results of our own research and development activities, the members of the high-quality, up-to-date sinusoidal inverter and solar charge control product lines in the order of tens of thousands of series. The development results in the expansion of our product range.According to the project, an automated production system will be set up, complete automated, built with IoT devices, equipped with sensors and cameras into an automated production line, an electronic production line: 2 SIPLACE installation automatics to check the implanted parts, 2 SAKI BF-3Di-LS2-L 3D Single-Lane AOI equipment and the end control system to perform functional tests. In the spirit of IPAR 4.0, the development includes a production support module: the implanting machine also monitors the weight loss of the parts to be implanted and sends the order to the automatic storage system. Purchase of 1 electric forklift to perform logistical tasks. Real estate conversion: We are planning a complete refurbishment of the 394 nm hall, creating a modern, nearly zero-energy, high-capacity electronics production plant. (appropriate sunshine and charged energy cells for batteries). During the refurbishment of the hall, within the framework of the project, our electronics plant aims to create the conditions of laboratory cleanliness. We can only produce a world-class product by excluding any pollution, electrical charging, etc. from the plant. It is therefore important to provide the floor with ISD protection and to create “clean space” conditions in the plant to create the conditions for SMD implantation. Thanks to SMD technology, our system will operate with higher capacity and a small number of scraps, which will result in significant savings in terms of human and material resources. Further improvements: with the self-developed island energy system, we can switch to our own power supply, solar panels charge the batteries, our inverters turn them into alternating current and supply our production machines. We're building a demonstration-model plant that can be completely “green” and can be independent of electrified networks. E.g. in third world countries it can be “putted” anywhere to grow there. Our plant will meet state-of-the-art energy efficiency requirements and even exceed it by using self-developed, island-powered solar power generation in production, and the manufactured products will also increase the weight of the green economy according to their use. We are currently engaged in the green economy, e.g. we produce and sell charging controllers for solar cell r, sinusoidal inverters, or magnetic production and sale. Thanks to the development, we will be able to produce inverters and controllers in a cost-effective way and compete in quality with the modern tools of the most famous manufacturers (Siemens, ABB, Conrad) and in price with Asian products. Domestic photovoltaic production and installation companies can also design/build high-quality domestic batteries into solar panel systems, which contributes to higher productivity, higher domestic added value. With the new plant, we would like to develop our inverter family in the first time, from 600 to 3600 watts (600-1200-2400-3600). Use: solar panels, wells, insular buildings, motorhomes, houseboats, etc. We will be able to produce about 10e inverter and 10e programmable solar panel control every year, which is based on trends in energy production, the energy strategy of nations and international agreements, decades of market experience and preliminary market survey, not only will it be sold, but will be few. After the establishment of stable supply chains, in the medium term, we plan to expand further capacity by reinvesting revenues. By building up state-of-the-art techn capacities, we will be able to supply even the same percentage of the E-American market as the European market, based on our preliminary surveys, as well as further strengthening in the domestic and European markets. We plan an annual turnover of 3-400 MFt, which is an outstanding 16 % profit margin in the electronics industry, with a return of 6-7 years, but we can only achieve this with tender support. With the development, our total production capacity, efficiency, including competitiveness is increased. (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 14:12, 8 February 2022
Project Q3911974 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Establishment of a new automated production plant in the field of inverter and solar panel control manufacturing |
Project Q3911974 in Hungary |
Statements
782,597,900 forint
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4,278,659.308 Euro
0.0027336256 Euro
14 December 2021
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1,565,195,800.0 forint
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50.0 percent
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4 January 2021
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30 June 2022
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TRADEFLEX Kereskedelmi és Szolgáltató Korlátolt Felelősségű Társaság
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46°54'25.81"N, 18°3'14.98"E
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A projekt keretében a siófoki gyártócsarnokunkban egy IPAR 4.0 elveknek megfelelő, magas szinten automatizált, mintaüzemnek is beillő elektronikai üzemegység létrehozását kívánjuk megvalósítani, mely magába foglalja a gyártósort, a folyamatirányítást, végellenőrzést, a minőségbiztosítási (ISO 9001) és környezetirányítási (ISO 14001) rendszerek bevezetését és tanúsítását és a szükséges építési beruházást. Ezen felül a gyártási logisztikai feladatok ellátásához 1 db targonca is beszerzésre kerül, ill. az építész tervezői szakértői díjat is el kívánjuk számolni. A projekt során a saját kutatás-fejlesztési tevékenységünk eredményeinek, a kiváló minőségű, korszerű szinuszos inverter- és napelemes töltésvezérlő termékcsaládok tagjainak a tízezres nagyságrendű szériákban való gyártásához szükséges feltételeket teremtjük meg. A fejlesztés a termékkínálatunk bővítését eredményezi.A projekt során kialakításra kerül egy automatizált termelési rendszer, komplett automatizált, IoT eszközökkel kiépített, szenzorokkal, kamerákkal ellátott termelőeszközök automatizált gyártási sorrá történő kiépítésével elektronikai gyártósor: 2 db SIPLACE beültető automata a beültetett alkatrészek ellenőrzésére, 2 db SAKI BF-3Di-LS2-L 3D Single-Lane AOI berendezés, ill. a végellenőrző rendszer beszerzése a funkcionális tesztek elvégzéséhez. Az IPAR 4.0 jegyében a fejlesztés része egy gyártástámogató modul: a beültető automata a beültetendő alkatrészek fogyását is figyeli és leadja a rendelést az automata raktárrendszernek. 1 db elektromos targonca beszerzése a logisztikai feladatok ellátására. Ingatlan átalakítás: 394 nm-es csarnok teljes átalakítását tervezzük, ezáltal egy korszerű, közel nulla energiaigényű, nagy gyártási kapacitású elektronikai gyártóüzem jön létre. (megfelelő napsütés és feltöltött energiacellák, akkuk esetén). A csarnok átalakítás során aprojekt keretén belül az elektronikai üzemünk laboratóriumi tisztaság elvárás körülményeit kívánjuk megteremteni.Csak úgy tudunk világszínvonalú terméket gyártani,ha mindenfajta szennyezést,elektromos töltést stb. kizárunk az üzemből. Ezért fontos a padozatot ISD védelemmel ellátni, és az üzemben megteremteni a „tiszta tér” körülményeket az SMD beültetés feltételeinek megteremtéséhez. Az SMD technológiának köszönhetően nagyobb kapacitással és elenyésző selejtszámmal fog működni a rendszerünk, ami humán- és felhasznált anyag erőforrások tekintetében jelentős megtakarítást fog jelenteni. További fejlesztések: a saját fejlesztésű sziget-üzemű energiarendszerrel át tudjunk kapcsolni saját energiaellátásra, a napelemek feltöltik az akkumulátorokat, az invertereink váltóárammá alakítják és ellátják gyártó gépeinket. Olyan bemutató-minta üzemet építünk, ami teljesen „zöld”, és független tud lenni elekt. hálózatoktól. Pl. a harmadik világ országaiban „letehető” bárhova, hogy ott termelni tudjanak. Üzemünk meg fog felelni a legkorszerűbb energiahatékonysági elvárásoknak, sőt túlszárnyalja azt a saját fejlesztésű, sziget üzemű napelemes r. által termelt áram felhasználásával a termelésben, valamint a gyártott termékek a felhasználásuk szerint szintén a zöldgazdaság súlyát növelik. A zöldgazdaságnak jelenleg is szereplői vagyunk pl. napelemes r-hez töltésvezérlőket, szinuszos invertereket, vagy éppen mágneses gyártunk és értékesítünk. A fejlesztés révén invertereket és vezérlőket leszünk képesek költséghatékonyan gyártani, minőségben felveszik a versenyt a legismertebb gyártók (Siemens, ABB, Conrad) korszerű eszközeivel, árban pedig az ázsiai termékekkel. A hazai napelemgyártó és -telepítő vállalkozások is kiváló minőségű hazai elemeket tervezhetnek/építhetnek a napelemes rendszerekbe, ami hozzájárul a magasabb termelékenység,a magasabb hazai hozzáadott érték eléréséhez. Az új üzemmel szeretnénk első körben az inverter családunkat tovább fejleszteni,600-tól 3600 watt teljesítményig (600-1200-2400-3600) lesz.Jelenleg csak 2000 wattig gyártunk. Felhasználása: napelem, kutak, szigetüzemű épületek, lakóautók, lakóhajók stb. Évente kb. min. 10e invertert és 10e db programozható napelem vezérlést tudunk majd gyártani, ami az energiatermelésre vonatkozó trendek, a nemzetek energiastratégiája és a nemzetközi megállapodások, a több évtizedes piaci tapasztalatunk és előzetes piacfelmérésünk alapján nemhogy értékesíthető, hanem kevés is lesz. A stabil beszállítói láncok kialakítása után középtávon további kapacitásbővítést tervezünk a bevételek visszaforgatásával.A legkorszerűbb techn-i kapacitások kiépítésével képesek leszünk az előzetes felméréseink alapján akár az É-amerikai piacot is azonos százalékban ellátni, mint jelenleg az európait, amellett, hogy a hazai és Európai piacokon tovább erősödünk. Éves szinten 3-400 MFt árbevétellel tervezünk, ami az elektronikai iparban kiemelkedő 16%-os haszonkulccsal, 6-7 éves megtérülést jelent, ám ezt csak pályázati támogatással tudjuk megvalósítani.A fejlesztéssel nő a teljes gyártókapacitásunk,a hatékonyság,így a versenyképesség is. (Hungarian)
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As part of the project, we aim to create a high-level automated electronic plant unit conforming to IPAR 4.0 principles in our production hall in Siófok, which includes the production line, process control, final inspection, the introduction and certification of quality assurance (ISO 9001) and environmental management (ISO 14001) systems and the necessary works. In addition, 1 forklift will be purchased for the production logistics tasks, and we also want to charge the architect’s expert fee. During the project, we create the necessary conditions for the production of the results of our own research and development activities, the members of the high-quality, up-to-date sinusoidal inverter and solar charge control product lines in the order of tens of thousands of series. The development results in the expansion of our product range.According to the project, an automated production system will be set up, complete automated, built with IoT devices, equipped with sensors and cameras into an automated production line, an electronic production line: 2 SIPLACE installation automatics to check the implanted parts, 2 SAKI BF-3Di-LS2-L 3D Single-Lane AOI equipment and the end control system to perform functional tests. In the spirit of IPAR 4.0, the development includes a production support module: the implanting machine also monitors the weight loss of the parts to be implanted and sends the order to the automatic storage system. Purchase of 1 electric forklift to perform logistical tasks. Real estate conversion: We are planning a complete refurbishment of the 394 nm hall, creating a modern, nearly zero-energy, high-capacity electronics production plant. (appropriate sunshine and charged energy cells for batteries). During the refurbishment of the hall, within the framework of the project, our electronics plant aims to create the conditions of laboratory cleanliness. We can only produce a world-class product by excluding any pollution, electrical charging, etc. from the plant. It is therefore important to provide the floor with ISD protection and to create “clean space” conditions in the plant to create the conditions for SMD implantation. Thanks to SMD technology, our system will operate with higher capacity and a small number of scraps, which will result in significant savings in terms of human and material resources. Further improvements: with the self-developed island energy system, we can switch to our own power supply, solar panels charge the batteries, our inverters turn them into alternating current and supply our production machines. We're building a demonstration-model plant that can be completely “green” and can be independent of electrified networks. E.g. in third world countries it can be “putted” anywhere to grow there. Our plant will meet state-of-the-art energy efficiency requirements and even exceed it by using self-developed, island-powered solar power generation in production, and the manufactured products will also increase the weight of the green economy according to their use. We are currently engaged in the green economy, e.g. we produce and sell charging controllers for solar cell r, sinusoidal inverters, or magnetic production and sale. Thanks to the development, we will be able to produce inverters and controllers in a cost-effective way and compete in quality with the modern tools of the most famous manufacturers (Siemens, ABB, Conrad) and in price with Asian products. Domestic photovoltaic production and installation companies can also design/build high-quality domestic batteries into solar panel systems, which contributes to higher productivity, higher domestic added value. With the new plant, we would like to develop our inverter family in the first time, from 600 to 3600 watts (600-1200-2400-3600). Use: solar panels, wells, insular buildings, motorhomes, houseboats, etc. We will be able to produce about 10e inverter and 10e programmable solar panel control every year, which is based on trends in energy production, the energy strategy of nations and international agreements, decades of market experience and preliminary market survey, not only will it be sold, but will be few. After the establishment of stable supply chains, in the medium term, we plan to expand further capacity by reinvesting revenues. By building up state-of-the-art techn capacities, we will be able to supply even the same percentage of the E-American market as the European market, based on our preliminary surveys, as well as further strengthening in the domestic and European markets. We plan an annual turnover of 3-400 MFt, which is an outstanding 16 % profit margin in the electronics industry, with a return of 6-7 years, but we can only achieve this with tender support. With the development, our total production capacity, efficiency, including competitiveness is increased. (English)
8 February 2022
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Siófok, Somogy
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Identifiers
GINOP-1.2.11-20-2020-00055
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