Purchase of precision production equipment for Natura Plan Bt. (Q3920386): Difference between revisions
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The theory of laser radiation was developed by Einstein in the early 20th century. If the atoms of the active substance are excited in a metastable state with an intense beam of light, photons are emitted. The photons radiate in all directions of space and many move in the direction of the axis of the active matter. In the meantime, they collide with atoms that are still in a state of fermentation and can trigger further emissions. This process continues until the photons leave the output end of the laser rod along the optical axis. In the case of laser cutting, the lens in the cutting head focuses the beam. From a radius of 1 kW, 13 mm in diameter, it becomes a nail-symmetric stain of 0.15-0.5 mm with a huge power density — which is why it can be cut with the laser. Laser cutting, one of the pulling sectors of metalworking, is constantly evolving. Thanks to the explosive acceleration of cutting speed, the role of automation solutions is increasing. Laser cutting is very fast and precise — it works with tenth millimeter accuracy — there is no high heat effect during the process, it does not usually act with post-work, and it is a very clean process, minimal waste material is produced, as little material is vaporised by the laser beam, burns. In the early 2000s, laser cutting was still an unicum, now a relatively widespread technology. There is an increasing number of applications where the laser is used for grinding, drilling and microcutting beyond cutting. The variability and flexibility of the laser source allows it to be used in new applications every day. In the full deployment of the production technology to be developed, it will be suitable for the production of energy-saving circulating pumps, switch and mixing valves, expansion tank and safety devices, control and shut-off fittings, buffer tank, domestic hot water tank and heating, cooling divider collector parts. There is a high demand for these parts on the market. In addition to the production of the above new parts, our company will be able to produce spare parts for its servicing activities with short deadlines, thereby increasing the competitiveness of our service services. (English) | |||||||||||||||
Property / summary: The theory of laser radiation was developed by Einstein in the early 20th century. If the atoms of the active substance are excited in a metastable state with an intense beam of light, photons are emitted. The photons radiate in all directions of space and many move in the direction of the axis of the active matter. In the meantime, they collide with atoms that are still in a state of fermentation and can trigger further emissions. This process continues until the photons leave the output end of the laser rod along the optical axis. In the case of laser cutting, the lens in the cutting head focuses the beam. From a radius of 1 kW, 13 mm in diameter, it becomes a nail-symmetric stain of 0.15-0.5 mm with a huge power density — which is why it can be cut with the laser. Laser cutting, one of the pulling sectors of metalworking, is constantly evolving. Thanks to the explosive acceleration of cutting speed, the role of automation solutions is increasing. Laser cutting is very fast and precise — it works with tenth millimeter accuracy — there is no high heat effect during the process, it does not usually act with post-work, and it is a very clean process, minimal waste material is produced, as little material is vaporised by the laser beam, burns. In the early 2000s, laser cutting was still an unicum, now a relatively widespread technology. There is an increasing number of applications where the laser is used for grinding, drilling and microcutting beyond cutting. The variability and flexibility of the laser source allows it to be used in new applications every day. In the full deployment of the production technology to be developed, it will be suitable for the production of energy-saving circulating pumps, switch and mixing valves, expansion tank and safety devices, control and shut-off fittings, buffer tank, domestic hot water tank and heating, cooling divider collector parts. There is a high demand for these parts on the market. In addition to the production of the above new parts, our company will be able to produce spare parts for its servicing activities with short deadlines, thereby increasing the competitiveness of our service services. (English) / rank | |||||||||||||||
Normal rank | |||||||||||||||
Property / summary: The theory of laser radiation was developed by Einstein in the early 20th century. If the atoms of the active substance are excited in a metastable state with an intense beam of light, photons are emitted. The photons radiate in all directions of space and many move in the direction of the axis of the active matter. In the meantime, they collide with atoms that are still in a state of fermentation and can trigger further emissions. This process continues until the photons leave the output end of the laser rod along the optical axis. In the case of laser cutting, the lens in the cutting head focuses the beam. From a radius of 1 kW, 13 mm in diameter, it becomes a nail-symmetric stain of 0.15-0.5 mm with a huge power density — which is why it can be cut with the laser. Laser cutting, one of the pulling sectors of metalworking, is constantly evolving. Thanks to the explosive acceleration of cutting speed, the role of automation solutions is increasing. Laser cutting is very fast and precise — it works with tenth millimeter accuracy — there is no high heat effect during the process, it does not usually act with post-work, and it is a very clean process, minimal waste material is produced, as little material is vaporised by the laser beam, burns. In the early 2000s, laser cutting was still an unicum, now a relatively widespread technology. There is an increasing number of applications where the laser is used for grinding, drilling and microcutting beyond cutting. The variability and flexibility of the laser source allows it to be used in new applications every day. In the full deployment of the production technology to be developed, it will be suitable for the production of energy-saving circulating pumps, switch and mixing valves, expansion tank and safety devices, control and shut-off fittings, buffer tank, domestic hot water tank and heating, cooling divider collector parts. There is a high demand for these parts on the market. In addition to the production of the above new parts, our company will be able to produce spare parts for its servicing activities with short deadlines, thereby increasing the competitiveness of our service services. (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 17:15, 8 February 2022
Project Q3920386 in Hungary
Language | Label | Description | Also known as |
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English | Purchase of precision production equipment for Natura Plan Bt. |
Project Q3920386 in Hungary |
Statements
52,880,000 forint
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289,108.243 Euro
0.0027336256 Euro
14 December 2021
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105,760,000.0 forint
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50.0 percent
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1 July 2017
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29 June 2018
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NATURA-PLAN Mérnökiroda Kereskedelmi és Szolgáltató Betéti Társaság
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A lézersugárzás elméletét a 20. század elején Einstein dolgozta ki. Ha az aktív anyag atomjait metastabil állapotban egy intenzív fénysugárral gerjesztjük, fotonok bocsátódnak ki. A fotonok a tér minden irányába kisugároznak és sok az aktív anyag tengelye irányában mozdul el. Eközben olyan atomokkal ütköznek, amelyek még gerjesztett állapotban vannak és így további emissziót indíthatnak meg. Ez a folyamat addig folytatódik, amíg a fotonok az optikai tengely mentén elhagyják a lézerrúd kimeneti végét. Lézeres vágás esetén a vágófejben lévő lencse fókuszálja a sugarat. Egy 1 kW-os, 13 mm átmérőjű sugárból 0,15-0,5 mm-es, körszimmetrikus folt lesz, óriási teljesítménysűrűséggel – emiatt lehet vágni a lézerrel. A fémmegmunkálás egyik húzóágazata, a lézervágás folyamatosan fejlődik. A vágási sebesség robbanásszerű gyorsulásának köszönhetően az automatizálási megoldások szerepe egyre nő. A lézervágás nagyon gyors és precíz – tized milliméteres pontossággal dolgozik –, az eljárás során nincs nagy hőhatás, általában nem jár utómunkával, és nagyon tiszta folyamat, minimális salakanyag keletkezik, mivel kevés az az anyagmennyiség, amelyet a lézersugár elgőzöl, eléget. A 2000-es évek elején a lézervágás még unikumnak számított, ma már viszonylag elterjedt technológia. Egyre növekszik azon alkalmazások száma, ahol a lézerrel a vágáson túl őrlés, fúrást és mikrovágásokat végeznek. A lézerforrás variálhatósága, rugalmassága teszi lehetővé újabb és újabb alkalmazási területeken való felhasználását nap, mint nap. A fejleszteni kívánt termelési technológia teljes kiépítésében alkalmas lesz az energia takarékos keringtető szivattyúk, váltó- és keverőszelepek, tágulási tartály és biztonsági eszközök, szabályzó és elzáró szerelvények, puffer tartály, használati melegvíz tartály és fűtési, hűtési osztó-gyűjtő egyes alkatrészeinek gyártására. Ezekre az alkatrészekre a piacon nagy igény mutatkozik. A fenti új alkatrészek gyártásán túl, cégünk rövid határidőket vállalva, képes lesz a szervizelési tevékenységéhez szükséges pótalkatrészek gyártására is, ezáltal szervíz szolgáltatásaink versenyképessége is növekszik. (Hungarian)
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The theory of laser radiation was developed by Einstein in the early 20th century. If the atoms of the active substance are excited in a metastable state with an intense beam of light, photons are emitted. The photons radiate in all directions of space and many move in the direction of the axis of the active matter. In the meantime, they collide with atoms that are still in a state of fermentation and can trigger further emissions. This process continues until the photons leave the output end of the laser rod along the optical axis. In the case of laser cutting, the lens in the cutting head focuses the beam. From a radius of 1 kW, 13 mm in diameter, it becomes a nail-symmetric stain of 0.15-0.5 mm with a huge power density — which is why it can be cut with the laser. Laser cutting, one of the pulling sectors of metalworking, is constantly evolving. Thanks to the explosive acceleration of cutting speed, the role of automation solutions is increasing. Laser cutting is very fast and precise — it works with tenth millimeter accuracy — there is no high heat effect during the process, it does not usually act with post-work, and it is a very clean process, minimal waste material is produced, as little material is vaporised by the laser beam, burns. In the early 2000s, laser cutting was still an unicum, now a relatively widespread technology. There is an increasing number of applications where the laser is used for grinding, drilling and microcutting beyond cutting. The variability and flexibility of the laser source allows it to be used in new applications every day. In the full deployment of the production technology to be developed, it will be suitable for the production of energy-saving circulating pumps, switch and mixing valves, expansion tank and safety devices, control and shut-off fittings, buffer tank, domestic hot water tank and heating, cooling divider collector parts. There is a high demand for these parts on the market. In addition to the production of the above new parts, our company will be able to produce spare parts for its servicing activities with short deadlines, thereby increasing the competitiveness of our service services. (English)
8 February 2022
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Bátonyterenye, Nógrád
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Identifiers
GINOP-1.2.2-16-2017-00178
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