Pipe cutting machine Bielda T 220 – 6 m Series
Maximum acceleration speed1.0 G
|Chassis||Robust welded plates|
|Traverse||Aluminium, light and precise|
|Transmission system||Dual precision system with rack and pinion mechanism|
|Machine type||Open model|
|Speed reducer||German EREFAT|
|Rack and pinion||YYC|
|Laser cap||Ray Tools with auto focus|
|Chuck||Front/side chuck: pneumatic|
|Electrical components||French Schneider|
|Electric proportional valve||Japan SMC|
|Dust and mist removal system||1 exhaustor|
|Control system||Tubepro FSCUT 3000S|
|File format recognition system||IGS|
|Optical configuration||Multi-level drilling process
Very fine cutting process
Anti-scratch protection function
|Safety configuration||Contour recognition
Automatic pipe inspection function
Anti-collision function rear chuck and rollers
Abnormal laser alarm
Abnormal cutting alarm
Abnormal water cooler alarm
Anti-collision detection function
Intelligent visual light reminder function
|Engine power||Front chuck: 2 Kw
Rear chuck: 1.5 Kw
Power supply: 1.5 Kw
|Spare parts||10 nozzles; 6 protective lenses|
|Maximum laser head movement speed||90m/ min|
|X/Y axis positioning accuracy||±0.03mm|
|Repeated positioning accuracy on X/Y axis||±0.02mm|
|Maximum Z-axis speed||60m/min|
|Maximum acceleration speed||1.0 G|
|Maximum load on worktable||200Kg 30Kg/m|
|Maximum spindle speed||80r/min|
|Maximum spindle feed speed by chuck||90m/min|
|Pipe cutting system specifications||Round pipe: Φ20-Φ210mm / Square pipe: Φ20-Φ210mm
Rectangular pipe: diameter of circumscribed circle≤210mm
|Power supply||Three-phase, 380V, 50/60Hz|
The chassis is made of thick metal plates welded together and then heat-treated so it becomes stronger, harder to deform and has a longer lif
Made of cast aluminium, it ensures high precision and very good stability
Suitable for cursor observation, facilitates heat dissipation, easy access for cleaning and maintenance, prevents burning of air passages
Combined partitioned purge system with top outlet and
Bielda laser machine adopts CypCut control system, having diagnostic intelligent, multi-process operation, three-stage drilling, control laser functional control, adaptive part side search, deceleration automatic corner deceleration, flycut, worktable interchangeable, mechanical compensation, accuracy.
During oxygen cutting, the material is heated up to melting temperature by the laser beam, using pressures of pressures between 0.4 and 10 bar. With this process we achieve the cutting OL sheets. With thicknesses between 0.8mm and 30mm
Depending on the material and its quality, different industrial gases at different pressures, chosen according to the speed of and the quality selected for it.
Cutting with Bielda laser machines is extremely precise. Besides sheet materials, pipes and metal tubes can be cut with our laser machines.
Blackboard, pickled, galvanized or stainless steel sheet, aluminium or other non-ferrous materials with thicknesses from 0,8mm to 30mm can be cut with successfully without further processing. Depending on material and quality, different industrial gases are used la diferite presiuni, alese in funcție de viteza de taiere și calitatea selected for it.
Nitrogen cutting tests a fusion cutting process resulting in a high cutting accuracy that does not require further processing, The gas is used at pressures up to 20 bar. With this process we succeed in cutting galvanized sheets, stainless steel or other metals non-ferrous metals.Cutting with laser technology has a very low thermal impact on the materials of small thicknesses, they can be cut without any further need for other mechanical operations during a technological process, or before painting.
The cutting process itself, compared to traditional solutions, is clean and with very little environmental impact, or human factor. The solutions offered for ventilation and air filtration making it easy to install this equipment even in the most The user interface and working with the machine is optimised for maximum ergonomics and efficiency.
The multitude of supported CAD formats as well as the ability to perform saving, correcting or even complex drawings from scratch directly on the the machine interface supports maximum production output. efficiency.
Importing, saving and exporting files is also facilitated by the possibility of integrating the machine into the user LAN, the machine accepting formats from all established CAD programs: .dxf , dwg, Ai, AutoCad, Corel Draw. The solutions offered by the machine’s software facilitate the operator’s work as much as possible by generating drawings nesting, predefined settings, ergonomically organised layout.
The ability to generate common sides in serial drawings provides a low cutting time and maximum efficiency of the whole process. The possibility to generate common sides in serial drawings offers a cutting time and maximum efficiency of the whole proces
Maximum cutting thicknesses depending on power and material type
|Material||Coarse (mm）||Speed m/min||Speed m/min||Speed m/min||Speed m/min|
|CONSUMABLE||ESTIMATED TIME OF USE|
|Protective glass||500 hours|
|Ceramic ring||4000 hours|
|Focus lens||4000 hours|
Users can graphically view real-time data dynamics through the browser, allowing diagnosis and maintenance equipment remotely. Users can use mobile phones, PDAs and other devices for real-time display of the monitoring interface and text mode to change data values, to confirm alerts and so on.
The system has the function of “expert system” to realize/help product positioning, tracking flow query tracking, remote fault diagnosis and query of stored data about equipment failures. The data is transmitted to the customer, other monitoring points and the server via the Internet/5G network.
CLOUD intelligently collects equipment status and information about failures for analysis, calculates the cost of production and maintenance costs according to a given algorithm and a high quality performance scheme is obtained. product design costs, which saves the cost of production costs for the enterprise.
CLOUD has multiple functions such as diagnostics and maintenance at redundancy, real-time historical data recording, scheduling, formulation, video and audio functions. It has a multitude of options of manageri ere and scrinting functions, establishes connections with many standardised interfaces and can connect efficiently with the MES system system. With the advent of the 5G era, CLOUD will combine laser equipment and artificial intelligence with 5G technology and will be widely used in cloud computing, big data and edge computing. It will make advanced technology and complex laser equipment much and easier to use, and offer customers diagnostic services at remote diagnostics faster worldwide.