Produktai skirti apdorojimo užsakymų grąžinimas (171)

Mechaninis aliuminio dalių apdorojimas - Sutartinė gamyba

Mechaninis aliuminio dalių apdorojimas - Sutartinė gamyba

Bearbeitung, mechanische, von Aluminiumteilen, unsere Stärken liegen sowohl in der Entwicklung, Konstruktion und Fertigung. Bearbeitung, mechanische, von Aluminiumteilen wir verarbeiten jährlich über 2.500t Aluminium und Edelstähle zu Qualitätslösungen. Dabei erstreckt sich unsere Produktion von der Musterfertigung über Kleinserien bis hin zum kompletten Jahresbedarf für einzelne Kunden.
Profilio pjovimas - Atliekamas automatinėmis ir dvigubomis kampinėmis pjovimo mašinomis.

Profilio pjovimas - Atliekamas automatinėmis ir dvigubomis kampinėmis pjovimo mašinomis.

Max. Stablänge 7.000 mm Sägeblattdurchmesser Ø 500 mm
Matuoklių, Kontrolės ir Reguliavimo Technologija iš KÖBO ECO>PROCESS GmbH

Matuoklių, Kontrolės ir Reguliavimo Technologija iš KÖBO ECO>PROCESS GmbH

For complex solutions in filtration and conveying technology, all components must be perfectly coordinated. As a powerful addition to our mechanical delivery range, we offer our customers comprehensive services in measurement, control, and regulation technology. At KÖBO ECO>PROCESS GmbH, you receive custom-tailored process and function software for: • Control • Operation • Monitoring The software is compatible with newly created or existing control systems. Close dialogue with our customers is essential to us to ensure that we can respond quickly and flexibly to changes or special requests.
Kraunamoji konvejerinė juosta "KÖBO ECO>PROCESS GmbH"

Kraunamoji konvejerinė juosta "KÖBO ECO>PROCESS GmbH"

The wear-resistant KÖBO ECO>PROCESS scrap conveyor is a universal conveyor system for many areas of application. The scraper conveyor is equipped with 2 chain strands that are connected to each other via carriers and push the material in the conveyor channel to the discharge. The lower run is mainly used for conveying. The conveyors are equipped with wear plates made of high-quality wear steel. Depending on the requirements, you can choose between bush conveyor chains and plug-in chains for the chain strands. Structure: • Standardized housing cross-sections with variable usable width • Bushing conveyor chain(s) or plug-in chain(s) with flights • Horizontal or ascending design • Transfer via slide or floor opening • Drive via shaft-mounted geared motor • Use as a single conveyor or in an interlinked conveyor line • Floor or ceiling mounting possible Functionality: • The conveyors are equipped with two chain strands • Carriers are attached to chains at regular intervals • The carriers (scraper plates) push the material to be conveyed to the discharge point. • Separation of liquids from the conveyed material • The sub-trum is mainly used for conveying Typical application cases: • Transportation from: - dry or wet conveyed material, even with a large amount of cooling lubricant - free-flowing chips and chips containing cooling lubricant - sedimented solids from liquid containers (e.g. grinding sludge, swarf, etc.) - molding sand and: - Distributing bulk goods to containers or bunkers - Use as a bunker discharge conveyor Customer benefits: • Simple and cost-effective maintenance • Variable widths / heights depending on volume throughput • Vertical inclination up to 60° and steeper possible • Simple and cost-saving maintenance • Very sustainable due to long service life and recyclable materials Technical data: • Conveyed material: free-flowing short chips, sludge and other bulk materials • Effective width: 250 - 1200 m • Length: max. 100 m • Incline angle: 15° , 30° ,45°, 60°, individually adjustable (also steeper)
Vibracinis tiektuvas pagal KÖBO ECO>PROCESS GmbH

Vibracinis tiektuvas pagal KÖBO ECO>PROCESS GmbH

The KÖBO ECO>PROCESS vibrating feeders are used when bulk materials need to be transferred in metered quantities. If these are installed upstream of a chip centrifuge, a uniform chip flow is achieved. Different fractions can be screened through the use of sieve trays. The design of the vibrating feeders is customized. Structure: A vibrating conveyor trough consists of a rectangular trough construction with an inclined base plate. Unbalance motors are attached to the two long sides of the trough construction. The unbalance motors generate a vibration that moves the material in the chute and transports it to the discharge. The movement of the conveyed material can be adjusted by setting the unbalance motors. Functionality: • Material transport by means of oscillating movements • An elastically mounted, vibration-resistant conveyor trough is set into linear vibration • The delivery speed and thus the delivery rate can be adjusted via the amplitude or oscillation frequency • The excitation of the vibrating trough is carried out by electric motor vibration drives Typical use cases: • Transportation of: - Fine and short chips - Broken chips - Long and clumped chips - Abrasive chips and abrasive slurries • Targeted dosing of chips (e.g. for centrifuges) • Optional: Screening of gob/foreign parts Separation of tufts and small chips Customer benefits: • Individual adaptation of the construction to the structural conditions • Precise material dosing • Easy and quick to clean • Low-maintenance continuous operation • Efficient operation Technical data: • Conveyed material: Chips and other bulk materials • Width/usable width [mm]: individual • Length [m]: individual
KÖBO ECO>PROCESS GmbH priekabos tiektuvai

KÖBO ECO>PROCESS GmbH priekabos tiektuvai

Apron feeders are ideal for transporting sheet metal packages and other heavy piece goods, castings and cold and hot forged parts. Structure: • Individual conveyor cross-sections with variable usable widths of up to 2200 mm and more • Special arrangement of the conveyor chains (multi-conveyor chains) • Horizontal lines, slight inclines possible • Transfer to grippers, robots, chutes, etc. • Drive via external chain drive or shaft-mounted geared motor • Use as a single conveyor or as a buffer section • Floor or ceiling mounting possible Functionality: • Material is transported via shingle plates, which are moved via two or more external chain strands Scale plates consist of individual metal plates connected to the conveyor chains • The conveyor chains are driven by drive sprockets • Conveyor speed infinitely adjustable via frequency converter Typical use cases: • Transportation of heavy components • Transport of scrap packages as a buffer line • Transport of heavy packages e.g. from a baler • Use in sorting systems Customer benefits: • Easy and cost-saving maintenance work thanks to good accessibility • Robust construction made from solid components • Heavy-duty version possible • Variable width/height depending on package size Technical data: • Conveyed goods: Packages/large scrap • Width/usable width [mm]: individual • Length [m]: individual • Hinge plate spacings are generally: 160 mm
Chip bunker sistema pagal KÖBO ECO>PROCESS

Chip bunker sistema pagal KÖBO ECO>PROCESS

Storage bunker for the centralized interim storage of all types of crushed chips are built in individual or battery construction. Our product range also includes the complete steel construction for the bunkers with the necessary access steps and maintenance walkways. Structure: • The size of each chip bunker can be customized up to 9 m³ • The storage capacity can be expanded as required by planning several individual bunkers • A vertical slide plate is installed at the hopper outlet, which is moved by a lifting spindle with a geared motor Functionality: The chip hoppers are usually filled via upstream scraper conveyors. By opening the sliding plate, the material is transported out of the bunker via the sloping floor and can be loaded onto trucks or wagons, for example. Typical use cases: • Machining industry • Chip recycling Customer benefits: • Thanks to closable openings in the base of the scraper conveyor, the materials can be sorted by type into the individual chip bunkers • Determination of the loading weight thanks to optional fully automatic weighing device • Electronically operated slide opening for easy loading directly onto the truck/rail wagon
KÖBO ECO>PROCESS GmbH stūmoklinis konvejeris

KÖBO ECO>PROCESS GmbH stūmoklinis konvejeris

Push-rod conveyors, also known as harpoon conveyors, are a proven conveyor system for transporting tufted chips and large quantities of cooling lubricant. Conveying distances of up to 200 meters can easily be covered with a push rod conveyor. The use of the push-rod conveyor is economical and cost-effective. Structure: A variable cross-section of the push-rod conveyor allows it to be adapted to the required chip and cooling lubricant capacity as required The structure is roughly divided into the following steps: • Tub construction with counter-hook for holding the guided push rod (harpoon rod) • Push rod (harpoon rod) for conveying small and tufted shavings • Hydraulic unit for the hydraulic drive of the push rod • Floor or ceiling mounting possible Functionality: The alternating movement of the push rod transports the chips in the trough construction successively to the discharge. • A push rod in the conveyor trough is moved back and forth by a hydraulic cylinder • Carriers are attached to the positively driven push rod the chip bundles are moved by the "carriers" in the conveying direction • Wall hooks hold the chips in position during the backward stroke of the push rod • Due to the height of the trough and a constant gradient, large quantities of cooling lubricant are removed in addition to the chips Typical use cases: • Transportation of material over long distances • Transportation of: - Turning chips - Short and long chips - Spiral chips - Chip tufts • High quantities of cooling lubricants (up to 10,000 l/min) • Separation of chips and cooling lubricant via slotted screen bottom • Long-distance transportation of chips (up to 200m) Customer benefits: • Economical and affordable • Transport of large quantities of cooling lubricant due to variable width and height of the push rod conveyor • Reliable chip transport thanks to conveyor bar without additional flushing nozzles • Up to four push rod conveyors can be operated with just one hydraulic unit Technical data: • Conveyed material: short/tufted chips • Width/usable width [mm]: 400-1000 • Length [m]: max. 200 per PRC • Stroke length: approx. 1.5 m • Coolant transport up to >10,000 l/min
KÖBO ECO>PROCESS GmbH vakuuminis juostinis filtras

KÖBO ECO>PROCESS GmbH vakuuminis juostinis filtras

The vacuum belt filter (VBF) is a fully automatic cooling lubricant filter that is continuously supplied with contaminated cooling lubricant from the production return flow and acts as a container to store the cooling lubricant for the entire circulation system . Filter/system pumps connected to the lower suction chamber generate a vacuum in the lower chamber and suck the cooling lubricant through the filter medium, cleaning it and making it available to the production supply again. The filtered dirt cake is discharged discontinuously for chip disposal. During chip discharge, production is supplied with cooling lubricant via a separate regeneration tank. Structure: • Upper dirt chamber for collecting the cooling lubricant (CL) contaminated with dirt particles • Horizontal filter belt support to separate the upper dirt chamber from the lower filtrate suction chamber • Lower filtrate extraction chamber (vacuum chamber) for collecting the cleaned cooling lubricant with connection to the filter/system pump(s) • Filter medium: Circumferential filter tape or fiber fleece • Modular system: short assembly and set-up times Functionality: • Fully automatic • Continuous operation (production supply during regeneration phase through separate regeneration tank) • Filtration by flowing the cooling lubricant through the filter medium (vacuum build-up in the lower filtrate extraction chamber if necessary) • Initiation of filter regeneration by vacuum measurement or time lapse • Fully automatic belt cleaning with brush or beater shaft and belt rinsing • Possible for nonwoven operation with take-up reel • Dirt deposits are avoided by flushing or designing the lower chamber as a channel system Typical use cases: • machining processes with: - Cutting chips, fine and short - Sanding swarf and sanding sludge • Can also be used as a secondary filter/post-filter • Cleaning of cooling lubricants in machining processes such as turning, drilling, milling and certain grinding processes. Usually with endless nylon belt, optionally also in non-woven mode (if required) Customer benefits: • Increased throughput due to possible negative pressure in the lower chamber • The vacuum belt filter combines the functions of coolant supply and filtration • Continuous and fully automatic operation Automatic belt cleaning with brush or beater shaft and belt rinsing Technical data: • Filter fineness [µm]: 120-30 • Size of filter area [m²]: 2.0-45.0 • Throughput [l/min]: 500-20,000 • Sizes: standard sizes from 3 to 24 m², larger sizes according to customer requirements, smaller sizes (0.7-1.4 m²) are only available for paper operation
Kėlimo diržas su vyriu KÖBO ECO>PROCESS GmbH

Kėlimo diržas su vyriu KÖBO ECO>PROCESS GmbH

Hinged belt conveyors are ideal for transporting large quantities and for covering long distances. Hinged belt conveyors can be used as individual conveyors or as a complex conveyor system for fully automatic operation. The robust design enables use even under the most difficult conditions. Structure: • Standardized conveyor cross-sections with variable usable width • Special conveyor chains with rollers or flanged rollers • Horizontal or ascending design • Transfer of conveyed goods via chutes • Drive via shaft-mounted geared motor • Floor or ceiling mounting possible Functionality: • Material is transported via hinged plates that are moved by two conveyor chains • Hinged plates made of individual metal plates, flexibly assembled using chain rods • Hinged plates connected via two external chain strands • The conveyor chains are driven by sprockets • Conveyor speed infinitely adjustable via frequency converter Typical use cases: • As an individual conveyor or as a complex conveyor system • Transportation from: - Chips with or without cooling lubricant in Bünschel form or broken - Punching waste, such as sheet metal, slugs etc. - Cold and hot forged parts - Bulk goods - Garbage and other waste Customer benefits: • Easy/simple and cost-saving maintenance • Support plates freely accessible after removing the cover, and therefore easy to maintain • Robust design/robust construction made of solid components • Additional reinforced versions are available for particularly heavy-duty applications Technical data: • Conveyed material: short chips, long chips, fine sheet metal scrap and other bulk materials • Width/usable width [mm]: 150-1,100 (also wider on request) • Length [m]: max. 100 per sponsor • Incline angle 30°, 45°, 60°, or individually adjustable (also steeper) • Hinged plates have sheet thicknesses of 2 - 5 mm (individually also available in thicker sheet thicknesses) • Hinged plate spacings are generally: 63, 125 and 160 mm
Sraigtinis konvejeris pagal KÖBO ECO>PROCESS GmbH

Sraigtinis konvejeris pagal KÖBO ECO>PROCESS GmbH

Screw conveyors are used for the intermediate conveying of short and long chips under the machines or from chip bunkers. Their size depends on the type of chip and the accumulation of chips. Functionality: • Transport of chips by means of a rotating screw conveyor / material transport by an Archimedean screw • The auger bucket is located in a tube or trough and is driven by a geared motor • The bulk material lies on the "thread" and is conveyed in the desired direction by continuous rotation • The size of the conveyors depends on the type of bulk material and chips • Horizontal, vertical or inclined material transport Typical use cases: • Removal of chips from chip bunkers • Suction locks of pneumatic suction systems or return pump stations • Intermediate transport of short and long chips • Chip discharge from chip bunkers, worm shaft with continuous or progressive pitch • Discharge of filter cake after coolant filtration Customer benefits: • Targeted dosing of chips/dosed chip removal through operation with frequency inverters • Adjustable conveying speeds possible with FU operation • Efficient transport solution with low space requirements • Robust design for extreme working conditions, therefore hardly susceptible to faults Technical data: • Conveyed material: short chips and bulk materials • Width/usable width [mm]: Ø80-500 • Length [m]: max. 10
KÖBO ECO>PROCESS precoat filtras

KÖBO ECO>PROCESS precoat filtras

The precoat filter is a filter dome equipped with filter cartridges, which is fed discontinuously with contaminated oils (or solutions) via filter pumps. In the first step, a filter aid suspended in the oil (e.g. cellulose, diatomaceous earth, perlite, etc.) is floated onto the filter carriers (filter cartridges) and a filter cake layer is formed. The pores of this filter aid layer are much finer than those of the filter carriers and thus enable fine filtration. Once the precoat layer has formed, the process is automatically switched to filtration mode. The contaminated liquid is now passed through the filter layer of the filter cartridges from the outside to the inside, filtering out the dirt particles it contains. When a predefined differential pressure is reached (or after a set time has elapsed), the filter elements are cleaned by an automatic backwash and are ready for a new filter cycle. Structure: • The precoat filter consists of a filter dome and a cartridge plate in which the filter cartridges are mounted vertically • The cartridge plate separates the lower dirt area of the filter from the upper clean area in the dome cover • The inlets of the contaminated medium and the precoat line for the oil/filter aid mixture flow into the lower dirt area • The outlet opening for the sludge drain is located at the lower end of the filter dome • The outlet line for returning the filtrate to the clean tank or to the precoat tank leads from the upper clean area of the dome cover Functionality: •Precoating the filter cartridges with a filter aid (e.g. cellulose, diatomaceous earth, perlite or carbon products) • Feeding the liquid to be filtered into the lower section of the ASF • Filtration of the contaminated liquid through the filter layer • Filtrate emerges from the upper dome cover • If the predefined differential pressure or the preset max. filter time, the filtration process is interrupted and automatic backwashing is started • Washing off the dirt-laden filter aid with the liquid dominate to the wash-off tank • The sludge is processed by a secondary unit Typical use cases: The precoat filter system is ideal for ultra-fine cleaning of liquids, e.g. for: • Fine filtration of cooling lubricants (oil) for: - Grinding, honing and cold rolling processes - Finishing, lapping, eroding - Presses and rollers - In beer production, aqueous solutions, water treatment etc. Customer benefits: • High filtration capacity with low space requirement • Highest achievable filtrate quality • Modular design and expansion of the overall system possible • Fully automatic operation Technical data: • Filter fineness [µm]: approx. 10 • Size [m² filter area]: 10,0-67,0 • Throughput [l/min]: 300-4,000 • Higher system outputs are also possible by connecting several filters in series
Spaudimo diržo filtras, pagamintas KÖBO ECO>PROCESS GmbH

Spaudimo diržo filtras, pagamintas KÖBO ECO>PROCESS GmbH

The pressure belt filter (PBF) is a fully automatic cooling lubricant filter that is fed discontinuously with contaminated cooling lubricant via filter pumps. The coolant to be filtered is pressed through the filter medium with overpressure. The cooling lubricant is cleaned via a circulating or reversing filter medium or via fiber fleece as a consumable. After free discharge into a clean tank, the cleaned cooling lubricant is available again to supply production. The filtered dirt cake is blown dry in the pressure belt filter and then discharged for chip disposal. Structure: • Pressure-monitored, upper dirt chamber/pressure chamber for holding the cooling lubricant contaminated with dirt particles with pressure monitoring. • Horizontal filter belt support to separate the upper pressure chamber from the lower filtrate drain chamber • Lower filtrate drain chamber for collecting the cleaned cooling lubricant • Front sealing flaps on both sides, pneumatically operated • Filtrate drain at the side or bottom • Completely pre-assembled, short assembly and set-up times Functionality: • Fully automatic • Continuous operation (with the exception of a short-term filter regeneration phase) • Filtration by pressure in the upper pressure chamber and flow of the cooling lubricant through the filter medium into the filtrate drain chamber • Initiation of filter regeneration by pressure measurement or time lapse • Dry blowing of the dirt cake before discharge • Fully automatic belt cleaning with brush or beater shaft and belt rinsing • Filter belt circulating or reversing, alternatively with fleece operation Typical use cases: • Cleaning of contaminated cooling lubricants during metalworking. Typical is the processing of various sludges from rough machining, especially steel, aluminum and grinding sludges (fine steel wool) • Machining processes with: - Cutting chips, fine and short - Sanding swarf and sanding sludge • Can also be used as a secondary filter/post-filter • Oil filtration - Optionally with additional filter aid • Filtration of washing water in metalworking Customer benefits: • High throughput due to overpressure in the upper chamber • No backwashing during regeneration • Minimal set-up time due to completely pre-assembled delivery • Modular design and expansion of the overall system possible Technical data: • Filter fineness [µm]: 120-30 • Filter surface size [m²]: 3.0-6.0 • Throughput [l/min]: 100-12,000
Sulankstomas diržo filtras, pagamintas KÖBO ECO>PROCESS GmbH

Sulankstomas diržo filtras, pagamintas KÖBO ECO>PROCESS GmbH

Our folding belt filter (FBF) is a special version of a pressure band filter. As a fully automatic coolant filter, our FBF is intermittently supplied with contaminated coolant via filter pumps. The coolant to be filtered is pressed through the filter medium under pressure. The coolant is cleaned through a circulating filter medium or through a consumable fiber fleece material. After being freely discharged into a clean tank, the cleaned coolant is available again to supply production. The filtered sludge cake is blown dry in the KBF and then removed for chip disposal Structure: • Pressure-monitored upper dirt container/pressure vessel for receiving the coolant contaminated with dirt particles, with pressure monitoring • Horizontal filter band support to separate the upper pressure vessel from the lower filtrate discharge container • Lower filtrate discharge container for collecting the cleaned coolant. • Swivel/lift upper chamber, pneumatically operated. • The filtrate is discharged laterally Functionality: • Fully automatic. • Continuous operation (except for a short-term filter regeneration phase). • Filtration through pressure in the upper pressure vessel and flow of the coolant through the filter medium into the filtrate discharge container. • Initiation of filter regeneration through pressure measurement or time elapsed. • Dry blowing of the sludge cake before discharge. • Fully automatic band cleaning with brush or flail shaft and band rinsing. • Extensive filter band, optionally also with fleece operation. Typical application cases: • Cleaning of contaminated coolants during metalworking. Typical is the processing of various sludges from rough machining, especially from steel or aluminum and grinding sludges (fine steel wool) • Machining processes with: - Chips, fine and short - Grinding chips and grinding sludge • Can also be used as a secondary filter/post-filter • Oil filtration Customer benefits: • The system requires up to 80% less space than a conventional flat band filter, without compromising filtration performance and even with a higher cleaning performance • Long service life and high throughput performance • Low space requirement • Low maintenance effort • Low investment costs • Completely pre-assembled, short assembly and setup times Technical data: • Filter fineness [µm]: 120-5 • Filter area [m²]: 1.5 • Throughput* [l/min]: 50-2,000
Konteinerių šėrimas pagal KÖBO ECO>PROCESS GmbH

Konteinerių šėrimas pagal KÖBO ECO>PROCESS GmbH

For direct loading of one or more containers or rail wagons, KÖBO ECO>PROCESS creates sophisticated concepts for the temporary storage of chips or sheet metal scrap. We develop solutions that ensure optimum filling of the containers/wagons depending on the fill level. Rotating or swivel chutes, movable conveyors or a combination of different systems are used here. Structure: • Rotary slide with toothed ball bearing slewing ring or chain drive • Trouser slide with swivel flap and drive via shaft-mounted geared motors • Both systems can be bolted directly to the feeding conveyor or supported on a separate steel structure • Movable conveyors can also be used for container/wagon loading Functionality: • Slide positioning via end positions possible • Control of various discharge points for uniform container filling via end positions or fill level-controlled timing Typical use cases: • Sorting and loading of bulk goods • A sprung version is possible for heavy unit loads, e.g. chip briquettes Customer benefits Customer benefits: • Single-variety transportation and loading of different materials • Robust design • Low operating effort due to fully automatic filling • Low maintenance Technical data: • Sliding inclination depending on the conveyed goods and container size • Rotation angle (for swivel chutes) depending on the container arrangement
Efektyvus projektų valdymas iš IDH galutinių linijų pakavimo sistemoms

Efektyvus projektų valdymas iš IDH galutinių linijų pakavimo sistemoms

Unser Projektmanagement für End-of-Line-Verpackungslinien bietet Unternehmen eine umfassende Lösung zur Planung, Optimierung und Umsetzung ihrer Verpackungsprozesse. Vom ersten Konzept bis zur Inbetriebnahme begleiten wir Sie durch alle Projektphasen und sorgen dafür, dass Ihre Verpackungslinie effizient, zuverlässig und passgenau auf Ihre spezifischen Anforderungen abgestimmt ist. Unsere Dienstleistungen richten sich an Unternehmen aus den Bereichen Lebensmittel, Getränke, Pharma, Kosmetik, Chemie und vielen weiteren, die auf eine leistungsstarke und zukunftssichere End-of-Line-Lösung setzen. Unsere erfahrenen Projektmanager unterstützen Sie dabei, die beste Lösung für Ihre Produktionsumgebung zu finden. Wir analysieren die bestehenden Abläufe und entwickeln auf dieser Grundlage maßgeschneiderte Konzepte für die Integration, Optimierung oder Erweiterung Ihrer End-of-Line-Verpackungslinie. Dazu zählen die Auswahl der passenden Maschinen, die Planung der Layouts und der Materialflüsse sowie die Optimierung de
SPS programavimo ir optimizavimo paslaugos Siemens valdymo sistemoms iš IDH

SPS programavimo ir optimizavimo paslaugos Siemens valdymo sistemoms iš IDH

Unsere Dienstleistungen in der SPS-Programmierung bieten Unternehmen eine umfassende Lösung zur Entwicklung, Anpassung und Optimierung von SPS-Programmen für Siemens Steuerungen. Wir unterstützen Sie dabei, Ihre Steuerungssysteme leistungsfähiger und effizienter zu gestalten, indem wir maßgeschneiderte Programme für Ihre spezifischen Automatisierungsanforderungen entwickeln. Von der vollständigen Programmerstellung über gezielte Programmergänzungen bis zur Optimierung bestehender Programme passen wir Ihre Siemens Steuerungstechnik individuell an Ihre Produktionsprozesse an. Diese Dienstleistung richtet sich an Unternehmen in der Produktion, Logistik, Lebensmittelindustrie, Chemie und weiteren Industriezweigen, die eine zuverlässige und flexible Automatisierungslösung benötigen. Unsere erfahrenen SPS-Programmierer kennen sich mit der gesamten Siemens Produktpalette aus, einschließlich S7-1200, S7-1500, S7-300 und S7-400, und setzen modernste Programmiermethoden ein, um präzise und zuverlässige Automatisierungsprozesse zu gewährleisten. Wir analysieren Ihre aktuellen Steuerungssysteme und erstellen darauf basierend ein Konzept, das exakt auf Ihre Anforderungen abgestimmt ist – sei es eine Neuentwicklung, eine Programmerweiterung oder die Optimierung bestehender Programmstrukturen, um Durchlaufzeiten zu verkürzen und die Betriebseffizienz zu steigern. Unsere SPS-Programmdienstleistungen beinhalten die Dokumentation und Testphase, sodass die Integration und Inbetriebnahme reibungslos abläuft und die höchsten Standards an Sicherheit und Qualität erfüllt werden. Vertrauen Sie auf unsere Expertise in der Siemens SPS-Programmierung, um Ihre Automatisierungsprozesse zu optimieren und die Produktivität Ihrer Anlagen zu maximieren.
Profesionalios intralogistikos paslaugos iš IDH – efektyvus planavimas ir vykdymas optimaliems procesams

Profesionalios intralogistikos paslaugos iš IDH – efektyvus planavimas ir vykdymas optimaliems procesams

Unsere Intralogistik-Dienstleistung bietet Unternehmen eine umfassende Lösung für die effiziente Planung und professionelle Umsetzung innerbetrieblicher Logistikprozesse. Durch eine maßgeschneiderte Planung und detaillierte Analyse optimieren wir den Materialfluss, die Lagerverwaltung und alle logistischen Prozesse innerhalb Ihres Betriebs, um Ihre Effizienz und Wirtschaftlichkeit nachhaltig zu steigern. Unsere Intralogistiklösungen eignen sich für alle Branchen, darunter Produktion, Handel, Lebensmittel, Chemie und E-Commerce, und sind darauf ausgelegt, den individuellen Anforderungen und Zielen Ihres Unternehmens gerecht zu werden. Unser Leistungsspektrum umfasst die vollständige Planung neuer Intralogistik-Systeme sowie die Optimierung bestehender Logistikprozesse. Wir führen eine gründliche Bestandsaufnahme und Analyse Ihrer bestehenden Systeme durch, um Einsparpotenziale zu identifizieren und Prozessabläufe zu optimieren. Unsere Experten arbeiten eng mit Ihnen zusammen, um bedarfsgerechte Lösungen zu entwickeln, die Lagerkapazitäten besser ausnutzen, die Durchlaufzeiten verkürzen und die Betriebskosten senken. Von der Auswahl der passenden Fördertechnik und Lagerhaltungssysteme bis zur Implementierung modernster Automatisierungstechnologien sorgen wir für eine reibungslose Ausführung und Inbetriebnahme. Unsere Intralogistik-Planung zeichnet sich durch langjährige Erfahrung in der Planung, Konzeption und Umsetzung aus, die es ermöglichen, verschiedene Szenarien zu eruieren und die beste Lösung für Ihre Anforderungen zu finden. Mit einer detaillierten Projektplanung, kontinuierlicher Überwachung und flexibler Anpassung während der Umsetzung sorgen wir dafür, dass alle Prozesse nahtlos ineinandergreifen. Vertrauen Sie auf unsere Intralogistik-Kompetenz, um Ihre innerbetrieblichen Abläufe zu optimieren und Ihre Logistik zukunftssicher zu gestalten.
IDH „Fördertechnik“ optimizuoti logistikos procesai ir medžiagų transportas

IDH „Fördertechnik“ optimizuoti logistikos procesai ir medžiagų transportas

Unsere Fördertechniklösungen bieten Unternehmen eine umfassende und effiziente Möglichkeit, ihre Materialflussprozesse zu optimieren. Von der Produktion bis zur Lagerlogistik ermöglichen unsere Förderanlagen den sicheren und schnellen Transport von Waren und Produkten. Unsere Fördertechnik ist vielseitig einsetzbar und eignet sich für zahlreiche Branchen, darunter die Automobil-, Lebensmittel-, Pharma-, Chemie- und Logistikbranche. Die Systeme sind speziell darauf ausgelegt, Transportwege zu verkürzen, Arbeitsabläufe zu optimieren und die Effizienz im innerbetrieblichen Materialhandling zu steigern. Unsere Fördertechnik umfasst ein breites Spektrum an Komponenten wie Förderbänder, Rollenbahnen, Vertikalförderer, Kettenförderer und modulare Fördersysteme. Die Anlagen sind robust, wartungsfreundlich und flexibel konfigurierbar, sodass sie an individuelle Produktionsanforderungen und Transportbedarfe angepasst werden können. Die Fördertechnik kann problemlos in bestehende Systeme integriert werden und unterstützt die Automatisierung innerbetrieblicher Prozesse, was die Produktivität steigert und die Betriebskosten senkt. Mit modernster Steuerungstechnologie ausgestattet, bieten unsere Förderanlagen eine präzise und zuverlässige Steuerung und Überwachung aller Materialflussprozesse. Die Systeme lassen sich einfach bedienen und anpassen, wodurch sie eine langlebige und wirtschaftliche Lösung für die Intralogistik darstellen. Unsere Fördertechnik bietet Ihnen die Flexibilität, Effizienz und Zuverlässigkeit, die für eine optimale Lager- und Produktionslogistik erforderlich sind.
Nitrokarbonizavimas

Nitrokarbonizavimas

Dieses Verfahren sorgt in stickstoffabgebender Atmosphäre und Zusatz eines Kohlenstoffpotentials (meist durch CO2Dosierung) aufgrund der etwas höheren Verfahrenstemperatur gegenüber dem Gasnitrieren für ein schnelleres Verbindungsschichtwachstum, bei etwas geringerer Diffusionstiefe. Die Mischphasen aus sich ausscheidenden Nitriden und Carbiden haben einen exzellenten Verschleißschutz im Fokus sowie damit einhergehende Notlaufeigenschaften. Auch ein Korrosionsangriff auf der Bauteiloberfläche wird nachhaltig verlangsamt. Die geringe Verfahrenstemperatur hält dabei den Verzug gering und verhindert Rissbildung, wie sie in Umwandlungsprozessen mit Abschreckung auftreten können. Bei nachgeschalteter Oxidierung in Luft, Wasser oder Öl kann die Korrosionsbeständigkeit noch zusätzlich verbessert werden. Die NHD liegt bei 0,1 0,5 mm. MASSE:700
Pjūklai

Pjūklai

Automatisch bis Ø 400 mm