Expansion of CAD-CAM metal and zirconium machining capacities at ProCam Kft. (Q3914324): Difference between revisions

From EU Knowledge Graph
Jump to navigation Jump to search
(‎Changed an Item: add summary)
(‎Changed an Item: Adding English translations)
Property / summary
 
At present, we produce and hire our own products on several different CNC machining equipment, partly for affiliated enterprises and partly for export partners. Our current capacity to manufacture parts for medical instruments and to produce implants — a piece of milling machine — is low compared to the demand. The machines to be procured, in total 10, each have 2x5 axis, split workspace milling machines, which can form 3D shapes. Each machine has a working space of 300x800mm, which is important because it can accommodate arrays of different sizes and allows robotic adaptor operation in automated array change. The working space of a traditional dental milling machine is ~100x100mm, usually only for dental technology. Our goal is that not only aids and implants that can be used in dentistry, but also replacements needed in other areas (e.g. hip, skull or other bone prosthesis) can be manufactured on the machines. The larger working space also allows for clustering and robotisation of processes, which are physically unsuitable for smaller equipment that is widespread in dentistry. Currently, equipment with such a technical content is also not available on the market and can only be produced through individual design and individual construction. Our company has the appropriate development capacity and experience to realise the robotisation of the machines — in the phase after the implementation of the project, from sources outside the project — further improving efficiency. The new machines are suitable for the machining of various materials, metals (particularly titanium and its alloys) and ceramics (particularly zirconium dioxide). Precise metalworking — cutting and cutting — makes it possible to replace a very time-consuming and energy-intensive phase of the preparation of the workpieces, metal casting. In the case of ceramics, the machines are suitable for the machining of both pre-sintered (burnt) and isostaticly pressed zirconium, which allows further simplification of the technological process and serves to adapt to specific needs. The production of products with a higher level of processing is achieved by producing aids and implants that can be used in dentistry of titanium and its alloys and ceramics, mostly zirconium, which can be used in high-added-value dentistry with extra properties, as well as replacements for other medical and medical disciplines, e.g. hip, skull or other bone prostheses. Remote control of machining centers with CAD-CAM technology can also be provided, the production process can be easily controlled and changed, depending on the customer’s needs. Machines capable of machining multiple block thicknesses make it possible to meet the demands for different sizes of material workpieces in parallel (English)
Property / summary: At present, we produce and hire our own products on several different CNC machining equipment, partly for affiliated enterprises and partly for export partners. Our current capacity to manufacture parts for medical instruments and to produce implants — a piece of milling machine — is low compared to the demand. The machines to be procured, in total 10, each have 2x5 axis, split workspace milling machines, which can form 3D shapes. Each machine has a working space of 300x800mm, which is important because it can accommodate arrays of different sizes and allows robotic adaptor operation in automated array change. The working space of a traditional dental milling machine is ~100x100mm, usually only for dental technology. Our goal is that not only aids and implants that can be used in dentistry, but also replacements needed in other areas (e.g. hip, skull or other bone prosthesis) can be manufactured on the machines. The larger working space also allows for clustering and robotisation of processes, which are physically unsuitable for smaller equipment that is widespread in dentistry. Currently, equipment with such a technical content is also not available on the market and can only be produced through individual design and individual construction. Our company has the appropriate development capacity and experience to realise the robotisation of the machines — in the phase after the implementation of the project, from sources outside the project — further improving efficiency. The new machines are suitable for the machining of various materials, metals (particularly titanium and its alloys) and ceramics (particularly zirconium dioxide). Precise metalworking — cutting and cutting — makes it possible to replace a very time-consuming and energy-intensive phase of the preparation of the workpieces, metal casting. In the case of ceramics, the machines are suitable for the machining of both pre-sintered (burnt) and isostaticly pressed zirconium, which allows further simplification of the technological process and serves to adapt to specific needs. The production of products with a higher level of processing is achieved by producing aids and implants that can be used in dentistry of titanium and its alloys and ceramics, mostly zirconium, which can be used in high-added-value dentistry with extra properties, as well as replacements for other medical and medical disciplines, e.g. hip, skull or other bone prostheses. Remote control of machining centers with CAD-CAM technology can also be provided, the production process can be easily controlled and changed, depending on the customer’s needs. Machines capable of machining multiple block thicknesses make it possible to meet the demands for different sizes of material workpieces in parallel (English) / rank
 
Normal rank
Property / summary: At present, we produce and hire our own products on several different CNC machining equipment, partly for affiliated enterprises and partly for export partners. Our current capacity to manufacture parts for medical instruments and to produce implants — a piece of milling machine — is low compared to the demand. The machines to be procured, in total 10, each have 2x5 axis, split workspace milling machines, which can form 3D shapes. Each machine has a working space of 300x800mm, which is important because it can accommodate arrays of different sizes and allows robotic adaptor operation in automated array change. The working space of a traditional dental milling machine is ~100x100mm, usually only for dental technology. Our goal is that not only aids and implants that can be used in dentistry, but also replacements needed in other areas (e.g. hip, skull or other bone prosthesis) can be manufactured on the machines. The larger working space also allows for clustering and robotisation of processes, which are physically unsuitable for smaller equipment that is widespread in dentistry. Currently, equipment with such a technical content is also not available on the market and can only be produced through individual design and individual construction. Our company has the appropriate development capacity and experience to realise the robotisation of the machines — in the phase after the implementation of the project, from sources outside the project — further improving efficiency. The new machines are suitable for the machining of various materials, metals (particularly titanium and its alloys) and ceramics (particularly zirconium dioxide). Precise metalworking — cutting and cutting — makes it possible to replace a very time-consuming and energy-intensive phase of the preparation of the workpieces, metal casting. In the case of ceramics, the machines are suitable for the machining of both pre-sintered (burnt) and isostaticly pressed zirconium, which allows further simplification of the technological process and serves to adapt to specific needs. The production of products with a higher level of processing is achieved by producing aids and implants that can be used in dentistry of titanium and its alloys and ceramics, mostly zirconium, which can be used in high-added-value dentistry with extra properties, as well as replacements for other medical and medical disciplines, e.g. hip, skull or other bone prostheses. Remote control of machining centers with CAD-CAM technology can also be provided, the production process can be easily controlled and changed, depending on the customer’s needs. Machines capable of machining multiple block thicknesses make it possible to meet the demands for different sizes of material workpieces in parallel (English) / qualifier
 
point in time: 8 February 2022
Timestamp+2022-02-08T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 14:11, 8 February 2022

Project Q3914324 in Hungary
Language Label Description Also known as
English
Expansion of CAD-CAM metal and zirconium machining capacities at ProCam Kft.
Project Q3914324 in Hungary

    Statements

    0 references
    0 references
    712,482,750 forint
    0 references
    1,970,164.42 Euro
    0.00276521 Euro
    3 December 2021
    0 references
    3,895,322.17 Euro
    0.0027336256 Euro
    14 December 2021
    0 references
    1,424,965,500.0 forint
    0 references
    50.0 percent
    0 references
    20 July 2016
    0 references
    27 September 2017
    0 references
    PROCAM Műszaki és Fejlesztő Korlátolt Felelősségű Társaság
    0 references
    0 references

    47°40'6.24"N, 19°40'27.80"E
    0 references
    Jelenleg több különféle CNC megmunkáló berendezésünkön végzünk saját termék előállítást és bérmunkát részben a kapcsolt vállalkozások, részben export partnerek részére. Az orvosi műszerekhez való alkatrészgyártásra és az implantátumok gyártására alkalmas jelenlegi kapacitásunk – egy darab marógép – a jelentkező igényekhez képest már kevés. A beszerzésre kerülő gépek, összesen 10 db mindegyike 2x5 tengelyes, osztott munkaterű marógép, ami 3D-s forma alakításra képes. A gépek egy-egy munkatere 300x800mm-es, ami azért fontos, mert különféle méretű tömbök helyezhetőek el bennük, és lehetőséget nyújt robot adapteres működésre, automatizált tömbcsere esetén. Egy hagyományos fogászati marógép munkatere ~100x100mm-es, ezekben többnyire csak a fogtechnikában használható gyártmányok készíthetőek. Célunk, hogy nem csak a fogászatban alkalmazható segédeszközök és implantátumok, hanem az egyéb területeken szükséges pótlások (pl. csípő-, koponya- vagy egyéb- csont protézis gyártása) is gyárthatóak legyenek a gépeken. A nagyobb munkatér lehetővé teszi a folyamatok fürtözését és robotizálását is, amire a fogászatban elterjedt kisebb berendezések fizikailag alkalmatlanok. Jelenleg ilyen műszaki tartalmú berendezések egyben a piacon nem kaphatóak, azok csak egyedi tervezés és egyedi kivitelezés útján állíthatóak elő. Cégünk rendelkezik megfelelő fejlesztői kapacitással és tapasztalattal, hogy a gépek robotizálását – a projekt megvalósítását követő fázisban, a projekten kívüli forrásból – megvalósítsa, tovább javítva a hatékonyságot. Az új gépek alkalmasak különféle anyagok megmunkálására, fémek (ezen belül különösen titánium és ötvözetei) és kerámiák (ezen belül különösen cirkónium dioxid) megmunkálására. A precíz fémmegmunkálás – vágás és forgácsolás – révén lehetővé válik a munkadarabok elkészítésének egy igen idő és energiaigényes fázisának, a fémöntésnek a kiváltása. A kerámiák esetében a gépek alkalmasak mind elő szinterezett (kiégetett), mind izosztatikusan préselt cirkónium megmunkálására, ami a technológiai folyamat további egyszerűsítését teszi lehetővé, illetve az egyedi igényekhez való igazodást szolgálja. A magasabb feldolgozottsági szintű termékek előállítása azáltal valósul meg, hogy a beszerzésre kerülő marógépekkel titániumból és ötvözeteiből, valamint kerámiákból, leginkább cirkóniumból különlegesen precíz, és extra tulajdonságokkal rendelkező, nagy hozzáadott értéket képviselő fogászatban alkalmazható segédeszközöket és implantátumokat, valamint egyéb orvosi – gyógyászati szakterületeken alkalmazandó pótlásokat pl. csípő-, koponya- vagy egyéb- csont protéziseket gyárthatunk. A beszerzésre kerülő CAD-CAM technológiával működő megmunkáló központok távoli vezérlése is megoldható, a gyártási folyamat könnyen ellenőrizhető, változtatható, függően a felmerülő vevői igényektől. A többféle tömb-vastagság megmunkálására képes gépek lehetővé teszik, a beérkező különféle méretű, anyagú munkadarabokra vonatkozó igények kielégítése párhuzamosan történjen (Hungarian)
    0 references
    At present, we produce and hire our own products on several different CNC machining equipment, partly for affiliated enterprises and partly for export partners. Our current capacity to manufacture parts for medical instruments and to produce implants — a piece of milling machine — is low compared to the demand. The machines to be procured, in total 10, each have 2x5 axis, split workspace milling machines, which can form 3D shapes. Each machine has a working space of 300x800mm, which is important because it can accommodate arrays of different sizes and allows robotic adaptor operation in automated array change. The working space of a traditional dental milling machine is ~100x100mm, usually only for dental technology. Our goal is that not only aids and implants that can be used in dentistry, but also replacements needed in other areas (e.g. hip, skull or other bone prosthesis) can be manufactured on the machines. The larger working space also allows for clustering and robotisation of processes, which are physically unsuitable for smaller equipment that is widespread in dentistry. Currently, equipment with such a technical content is also not available on the market and can only be produced through individual design and individual construction. Our company has the appropriate development capacity and experience to realise the robotisation of the machines — in the phase after the implementation of the project, from sources outside the project — further improving efficiency. The new machines are suitable for the machining of various materials, metals (particularly titanium and its alloys) and ceramics (particularly zirconium dioxide). Precise metalworking — cutting and cutting — makes it possible to replace a very time-consuming and energy-intensive phase of the preparation of the workpieces, metal casting. In the case of ceramics, the machines are suitable for the machining of both pre-sintered (burnt) and isostaticly pressed zirconium, which allows further simplification of the technological process and serves to adapt to specific needs. The production of products with a higher level of processing is achieved by producing aids and implants that can be used in dentistry of titanium and its alloys and ceramics, mostly zirconium, which can be used in high-added-value dentistry with extra properties, as well as replacements for other medical and medical disciplines, e.g. hip, skull or other bone prostheses. Remote control of machining centers with CAD-CAM technology can also be provided, the production process can be easily controlled and changed, depending on the customer’s needs. Machines capable of machining multiple block thicknesses make it possible to meet the demands for different sizes of material workpieces in parallel (English)
    8 February 2022
    0 references
    Hatvan, Heves
    0 references

    Identifiers

    GINOP-1.2.1-15-2015-00427
    0 references