Um unser Angebot an Ihre Bedürfnisse anzupassen, stützt sich die Firma ANBI-TECH sp. z o.o. auf effiziente und moderne Technologien, die eine effektive Materialbearbeitung ermöglichen, darunter auch CNC-Drehen. Wir stellen Details durch CNC-Bearbeitung her.
Drehbänke von Weltklasse-Herstellern: CNC – DOOSAN GILDEMEISTER DMG MORI SEIKI und konventionell – PORĘBA TUR ermöglichen uns die Herstellung der komplexesten und präzisesten Teile, die sich durch hohe Qualität und Funktionalität auszeichnen.
Bei der Durchführung von CNC-Dreharbeiten halten wir die höchsten Servicestandards ein. Das eingeführte Qualitätsmanagementsystem nach ISO 9001:2015 ermöglicht es uns, die Prozesse ständig zu überwachen und zu verbessern, um die Effizienz und Produktivität des Unternehmens zu steigern, was sich letztendlich in der Zufriedenheit unserer Kunden niederschlägt.
Der Umfang unserer Dienstleistungen umfasst auch CNC-Fräsen und CNC-Schneiden.
Metalldrehen ist eine Form der maschinellen Bearbeitung, bei der unerwünschtes Material von einem Werkstück entfernt wird. Das Verfahren erfordert eine Drehmaschine mit einem Schneidwerkzeug und einem Werkstück.
Das Werkstück ist ein Stück bearbeiteten Materials, das im Spannfutter der Maschine befestigt ist und sich mit hoher Geschwindigkeit dreht.
Der Fräser ist in der Regel ein an der Maschine befestigtes Einpunktschneidwerkzeug. Das Schneidwerkzeug wird näher an das Werkstück herangeführt und schneidet dabei einen Teil des Materials in Form von Spänen ab, bis die gewünschte Form erreicht ist.
Das Drehen wird zur Herstellung von rotierenden Teilen mit Merkmalen wie Löchern, Fugen, Gewinden, Kegeln und verschiedenen Durchmessern verwendet.
Das Drehen kann als nachgelagertes Verfahren zur Veredelung von in anderen Verfahren hergestellten Teilen eingesetzt werden.
Das CNC-Drehen ist eine innovative und moderne Form der Werkstückbearbeitung, die auf einem computergestützten Verfahren beruht. Dadurch ist es möglich, in kurzer Zeit eine große Anzahl gleicher Endteile zu erhalten, die sich durch hohe Qualität auszeichnen.
In general terms, CNC turning is a specialized manufacturing process that involves machining a given material. In this process, the workpiece material is held by a chuck and rotated around an axis. During this time, the cutting tool (knife) is pushed against the material in order to remove (cut) the superfluous part of the material and, as a result, obtain the desired shape. The key in CNC turning is to move the cutting tool along the material in such a way that the desired result is achieved.
The material being machined can be (and generally is) round, although square or hexagonal materials are also common. The length of material to be machined can vary and depends on the capabilities of the machine tool.
Each CNC lathe has its own set of computer-controlled tools. The more tools the machine has, the greater the number of options for machining the material.
Some CNC machines can stop the rotation of the workpiece at any time to perform additional functions such as:
The material turning services performed by our company include precision turning. A wide range of modern CNC lathes allows us to produce parts from a variety of materials. We offer a combination of knowledge and the latest technology, which allows us to obtain products with tight tolerances. This allows us to produce efficient products with high quality.
The milling and turning services we offer have some differences. Since these services are seemingly similar, and our customers sometimes confuse them, we present a description of both. What is the difference between machining: milling and turning?
CNC milling is done with a numerically controlled milling machine. It uses commands written in the form of a computer program. Each code entered into the program is responsible for a specific function performed by the machine. Once all the codes have been entered into the CNC program, the purpose of which is to machine the prepared material, it is not the material but the milling cutter that rotates. It rotates along its axis and cuts and shapes the material upon contact. The purpose of processing is to fit the material to the dimensions in accordance with the written computer program. A CNC milling machine can be controlled in two ways: by computer or manually.
CNC turning is different from milling. It is also based on computer programs, but here a slightly different end product is created. In this process, the cutting tool is moved parallel to the work piece. However, in this case it is the material that is rotated at a set speed, while the cutting tool moves to create incisions of precise depths and diameters.
CNC turning can be used on the outside of the material to achieve a circular shape or on the inside to create a circular recess in the material. Due to the significant automation of the CNC turning process, it can be completed faster and more accurately than manual lathe turning.
Toczenie aluminium nie jest trudne, ale przy tej czynności należy pamiętać o tym, aby materiał był obracany z dużą prędkością. Pewną zasadą toczenia jest dobór szybkości toczenia w stosunku do twardości materiału. Im twardszy materiał, tym wolniejsza prędkość obrotowa. Ponieważ aluminium należy do miękkich materiałów to prędkość obracania tokarki powinna być bardzo duża. W zależności od używanej tokarki może pojawić się konieczność użycia maksymalnej prędkości. Należy pamiętać, że przy obracaniu długiego kawałka aluminium mogą wystąpić problemy z chwiejącą się końcówką. Należy wówczas przyjąć, że nie można wystarczająco dokładnie obrobić przedmiotu dłuższego niż trzykrotność jego średnicy.
CNC copper machining is the specialised machining of copper components from customer-designed blanks, semi-finished copper products or rods. Unfortunately copper is a very difficult metal to machine, and its machining requires specialized knowledge of the process. To improve machinability, copper alloys are often used instead of pure copper, especially when complex work is to be done to order. For such machining the necessary knowledge and experience in copper machining is essential.
The machining and turning of plastics requires experience and specific machining processes due to the tight tolerances. Components such as bearings, bushings, seals and guides must be manufactured with high precision. That is why in practice we process these parts with care, thanks to our experience in turning plastics.
Turning polyamide is a difficult process, just like turning plastics. It requires a lot of knowledge and experience, but years of work allowed us to gain it and deal with this processing.
Practice shows that low carbon steel is softer and easier to machine than alloy steel. The machinability of a material depends on its hardness, so hardness is a very important characteristic to consider when calculating the feed rate. Stainless steel is an alloy steel and the alloying element is usually chromium. It forms an oxide on the surface, which increases the corrosion resistance of the material. Other types of alloying elements such as nickel and carbon are also used in the production of stainless steel. The alloying elements differ from one another. Stainless steels are therefore not only characterized by a high degree of hardening, but also by a low heat transfer coefficient.
One of the typical technological operations performed on a machine tool is the turning of external cylindrical surfaces. For this activity lathes are used, which allow obtaining rotating solids. Thanks to the possibilities of modern CNC lathes, it is possible to carry out very precise metal processing, thanks to which it is possible to obtain, among others, shafts.