Capacity-enhancing investment by Pápateszéri Téglaipari Kft. (Q3914198): Difference between revisions
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The production technologies to be developed are: in the manufacture of heat-insulated bulkhead bricks, the extracted clay is mixed with the addition of additives after shredding, forming the mixture of the product in question. After that, the mixture is pressed through the form of the template of the product, the so-called press mouth opening, the raw ceramic elements thus made are placed on drying wagons and dried in the drying building. After drying, the products are transferred to the kiln wagons by a transshipment machine, then the wagons are driven through the tunnel furnace and the products are burned out. Finished products are packed on pallets. The technology described is highly automated. However, following the start of the production of a new product, the soundproofed bulkhead rectangle, there was a problem with the transfer from the dryer to the kiln truck. The bulkhead bricks lying on their tiles are more vulnerable in this position, they cannot withstand the side wall pressure caused by their own weight. Therefore, a so-called brick-translating machine is needed, which puts the bulkhead bricks on their edges before transhipping, making them less vulnerable. The investment will avoid high scrapping resulting from such problems. The other technology to be developed is to mechanise the production of currently hand-made ceramic slippers stretched reinforced concrete bridges to meet rapidly growing market demands. During the development, a bridging production line would be purchased and installed, which can perform the steps of the technology faster, more precisely, in better quality thanks to the high degree of automation. The production line is able to produce bridges in six rows of 1.3 m width, in the so-called production strips, at any length. The number of production bands may be extended to eight if necessary. The system automatically invests ceramic slippers on the production strips, stretches concrete steel cables into it, performs pouring with concrete. Tailor the manufactured bridges to the desired length, forming a unit pack and packing it. With its productivity, Pápateszéri Téglaipari Kft. will be able to meet the ever-growing market needs. At the company, the preparation was carried out in relation to the investments: the technology to be used in the brick translator and bridging production has been selected. Management has become familiar with the technologies being introduced, so their operation will not cause any problems for the company. The final product of both developed production technologies has an added value. In the case of the bridger, this means stable, high quality and a wider range of products at a higher volume, while in the case of a brick, the product has a significantly better soundproofing capability at the same structural thickness and weight as the conventional bulkhead brick. The forklift to be procured will meet the increased internal handling needs resulting from the increase in production volume. (English) | |||||||||||||||
| Property / summary: The production technologies to be developed are: in the manufacture of heat-insulated bulkhead bricks, the extracted clay is mixed with the addition of additives after shredding, forming the mixture of the product in question. After that, the mixture is pressed through the form of the template of the product, the so-called press mouth opening, the raw ceramic elements thus made are placed on drying wagons and dried in the drying building. After drying, the products are transferred to the kiln wagons by a transshipment machine, then the wagons are driven through the tunnel furnace and the products are burned out. Finished products are packed on pallets. The technology described is highly automated. However, following the start of the production of a new product, the soundproofed bulkhead rectangle, there was a problem with the transfer from the dryer to the kiln truck. The bulkhead bricks lying on their tiles are more vulnerable in this position, they cannot withstand the side wall pressure caused by their own weight. Therefore, a so-called brick-translating machine is needed, which puts the bulkhead bricks on their edges before transhipping, making them less vulnerable. The investment will avoid high scrapping resulting from such problems. The other technology to be developed is to mechanise the production of currently hand-made ceramic slippers stretched reinforced concrete bridges to meet rapidly growing market demands. During the development, a bridging production line would be purchased and installed, which can perform the steps of the technology faster, more precisely, in better quality thanks to the high degree of automation. The production line is able to produce bridges in six rows of 1.3 m width, in the so-called production strips, at any length. The number of production bands may be extended to eight if necessary. The system automatically invests ceramic slippers on the production strips, stretches concrete steel cables into it, performs pouring with concrete. Tailor the manufactured bridges to the desired length, forming a unit pack and packing it. With its productivity, Pápateszéri Téglaipari Kft. will be able to meet the ever-growing market needs. At the company, the preparation was carried out in relation to the investments: the technology to be used in the brick translator and bridging production has been selected. Management has become familiar with the technologies being introduced, so their operation will not cause any problems for the company. The final product of both developed production technologies has an added value. In the case of the bridger, this means stable, high quality and a wider range of products at a higher volume, while in the case of a brick, the product has a significantly better soundproofing capability at the same structural thickness and weight as the conventional bulkhead brick. The forklift to be procured will meet the increased internal handling needs resulting from the increase in production volume. (English) / rank | |||||||||||||||
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| Property / summary: The production technologies to be developed are: in the manufacture of heat-insulated bulkhead bricks, the extracted clay is mixed with the addition of additives after shredding, forming the mixture of the product in question. After that, the mixture is pressed through the form of the template of the product, the so-called press mouth opening, the raw ceramic elements thus made are placed on drying wagons and dried in the drying building. After drying, the products are transferred to the kiln wagons by a transshipment machine, then the wagons are driven through the tunnel furnace and the products are burned out. Finished products are packed on pallets. The technology described is highly automated. However, following the start of the production of a new product, the soundproofed bulkhead rectangle, there was a problem with the transfer from the dryer to the kiln truck. The bulkhead bricks lying on their tiles are more vulnerable in this position, they cannot withstand the side wall pressure caused by their own weight. Therefore, a so-called brick-translating machine is needed, which puts the bulkhead bricks on their edges before transhipping, making them less vulnerable. The investment will avoid high scrapping resulting from such problems. The other technology to be developed is to mechanise the production of currently hand-made ceramic slippers stretched reinforced concrete bridges to meet rapidly growing market demands. During the development, a bridging production line would be purchased and installed, which can perform the steps of the technology faster, more precisely, in better quality thanks to the high degree of automation. The production line is able to produce bridges in six rows of 1.3 m width, in the so-called production strips, at any length. The number of production bands may be extended to eight if necessary. The system automatically invests ceramic slippers on the production strips, stretches concrete steel cables into it, performs pouring with concrete. Tailor the manufactured bridges to the desired length, forming a unit pack and packing it. With its productivity, Pápateszéri Téglaipari Kft. will be able to meet the ever-growing market needs. At the company, the preparation was carried out in relation to the investments: the technology to be used in the brick translator and bridging production has been selected. Management has become familiar with the technologies being introduced, so their operation will not cause any problems for the company. The final product of both developed production technologies has an added value. In the case of the bridger, this means stable, high quality and a wider range of products at a higher volume, while in the case of a brick, the product has a significantly better soundproofing capability at the same structural thickness and weight as the conventional bulkhead brick. The forklift to be procured will meet the increased internal handling needs resulting from the increase in production volume. (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 14:10, 8 February 2022
Project Q3914198 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Capacity-enhancing investment by Pápateszéri Téglaipari Kft. |
Project Q3914198 in Hungary |
Statements
471,951,280 forint
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2,580,276.202 Euro
0.0027336256 Euro
14 December 2021
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943,902,560.0 forint
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50.0 percent
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15 September 2015
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21 July 2017
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Pápateszéri Téglaipari Korlátolt Felelősségű Társaság
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47°22'46.52"N, 17°43'18.95"E
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A fejleszteni kívánt termelési technológiák a következők: a hőszigetelt válaszfal tégla gyártása során a kitermelt agyagot aprítás után adalékanyagok hozzáadásával bekeverik, az adott termékhez tartozó mixtúrát képeznek. Ezt követően az adott termék sablon formáján, az úgynevezett prés szájnyíláson keresztül a mixtúrát átpréselik, az így elkészült nyers kerámia elemeket szárító kocsikra rakják és a szárító épületben szárítják. Szárítás után a termékeket egy átrakó gép a kemence-kocsikra rakja át, majd a kocsikat az alagút kemencén átvezetve a termékeket kiégetik. A kész termékeket raklapra szerelve csomagolják. A leírt technológiai magas fokon automatizált. Ugyanakkor egy új termék, a hangszigetelt válaszfallap tégla gyártásának beindítását követően probléma merült fel a szárító-kocsiról a kemence-kocsira történő átrakásnál. A lapjukon fekvő válaszfallap téglák ebben a pozícióban sérülékenyebbek, saját súlyuk okozta oldalfali nyomást nem bírják. Ezért szükség van egy úgynevezett téglafordító gépre, mely a válaszfal téglákat az átrakás előtt az élükre állítja, így azok kevésbé sérülékenyek. A beruházással elkerülhetővé válik az ilyen jellegű problémákból adódó magas selejtszám. A másik fejleszteni kívánt technológia a jelenleg kézi erővel gyártott kerámia papucsos feszített vasbeton áthidalók gyártásának gépesítése a gyorsan növekedő piaci igények kielégítésére. A fejlesztés során megvásárlásra és beüzemelésre kerülne egy áthidaló gyártó gépsor, mely a technológia lépéseit gyorsabban, pontosabban, jobb minőségben képes elvégezni, a magas fokú automatizálásnak köszönhetően. A gépsor 1,3 m szélességben hat sorban, az úgynevezett termelő sávokban képes gyártani tetszőleges hosszban az áthidalókat. A termelő sávok száma szükség esetén nyolcra bővíthető. A rendszer automatikusan a termelősávokra fekteti a kerámia papucsokat, betonacél kábelt feszít bele, elvégzi a betonnal való kiöntést. A legyártott áthidalókat a kívánt hosszúságúra szabja, egységrakatot képezve belőle és csomagolja. Termelékenységével a Pápateszéri Téglaipari Kft. képessé válik kiszolgálni a folyamatosan növekvő piaci igényeket. A társaságnál az előkészítés a beruházásokkal kapcsolatban megtörtént: a téglafordítónál és az áthidaló gyártásnál az alkalmazásra kerülő technológia kiválasztásra került. A bevezetésre kerülő technológiákat a menedzsment megismerte, így azok üzemeltetése nem fog problémát okozni a társaságnál. Mindkét, fejlesztéssel érintett gyártási technológia végterméke többlet értékkel rendelkezik. Ez az áthidaló esetében nagyobb volumen mellett stabil, kiváló minőséget, és szélesebb termékskálát jelent, míg a hang-gátló válaszfal tégla esetén a termék lényegesen jobb hangszigetelő képességgel rendelkezik ugyanakkora szerkezeti vastagság és súly mellett, mint a hagyományos válaszfal tégla. A beszerzésre kerülő targonca a megnövekedett belső anyagmozgatási igényeket fogja kielégíteni, mely a termelési volumen növekedéséből adódik. (Hungarian)
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The production technologies to be developed are: in the manufacture of heat-insulated bulkhead bricks, the extracted clay is mixed with the addition of additives after shredding, forming the mixture of the product in question. After that, the mixture is pressed through the form of the template of the product, the so-called press mouth opening, the raw ceramic elements thus made are placed on drying wagons and dried in the drying building. After drying, the products are transferred to the kiln wagons by a transshipment machine, then the wagons are driven through the tunnel furnace and the products are burned out. Finished products are packed on pallets. The technology described is highly automated. However, following the start of the production of a new product, the soundproofed bulkhead rectangle, there was a problem with the transfer from the dryer to the kiln truck. The bulkhead bricks lying on their tiles are more vulnerable in this position, they cannot withstand the side wall pressure caused by their own weight. Therefore, a so-called brick-translating machine is needed, which puts the bulkhead bricks on their edges before transhipping, making them less vulnerable. The investment will avoid high scrapping resulting from such problems. The other technology to be developed is to mechanise the production of currently hand-made ceramic slippers stretched reinforced concrete bridges to meet rapidly growing market demands. During the development, a bridging production line would be purchased and installed, which can perform the steps of the technology faster, more precisely, in better quality thanks to the high degree of automation. The production line is able to produce bridges in six rows of 1.3 m width, in the so-called production strips, at any length. The number of production bands may be extended to eight if necessary. The system automatically invests ceramic slippers on the production strips, stretches concrete steel cables into it, performs pouring with concrete. Tailor the manufactured bridges to the desired length, forming a unit pack and packing it. With its productivity, Pápateszéri Téglaipari Kft. will be able to meet the ever-growing market needs. At the company, the preparation was carried out in relation to the investments: the technology to be used in the brick translator and bridging production has been selected. Management has become familiar with the technologies being introduced, so their operation will not cause any problems for the company. The final product of both developed production technologies has an added value. In the case of the bridger, this means stable, high quality and a wider range of products at a higher volume, while in the case of a brick, the product has a significantly better soundproofing capability at the same structural thickness and weight as the conventional bulkhead brick. The forklift to be procured will meet the increased internal handling needs resulting from the increase in production volume. (English)
8 February 2022
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Pápateszér, Veszprém
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Identifiers
GINOP-1.2.1-15-2015-00336
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