Laser Cutting Machine Bielda BB 3015, Raycus, 140 m/min, 800 kg Load
Machine typeOpen type
|Chassis||Sturdy rectangular pipe|
|Crossbar||Aluminium, light and precise|
|Transmission system||Precision unit with rack and pinion mechanism|
|Machine type||Open system and interchangeable tables|
|Speed reducer||Germany EREFAT|
|Engine and driver||Japan FUJI servo motor （X:1KW Y:1.5KW Z:0.4KW）|
|Rack and pinion||T-WIN|
|Cap laser||Ray Tools with auto-focus|
|Gas valve||Taiwan Airtac|
|Electrical components||French Schneider|
|Electric proportional valve and gas control||Germany AVENTICS|
|Dust and mist removal system||Exhaust with centrifugal fan 1.5 kW|
|Control system||FSCUT 2000C|
|Optical configuration||Multi-level punching process. Very fine cutting process Anti-scratch protection function|
|Safety configuration||Abnormal cutting water cooler alarm|
|Spare parts||10 nozzles; 6 protective lenses|
|X/Y axis positioning accuracy||±0.03mm|
|X/Y axis repeat positioning accuracy||±0.02mm|
|Maximum rolling speed||140m/min|
|Maximum acceleration speed||1.5G|
|Maximum load on the worktable||800 kg|
|Time change tables||25s|
|Power supply||Three-phase, 380V, 50/60Hz|
The chassis is made of thick metal plates welded and then heat treated so it becomes stronger, harder to deform and has a longer life.
Made of cast aluminium, 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 upper and lower partitioned drain system
The Bielda laser machine adopts the CypCut control system, featuring intelligent diagnostics, multi-process operation, three-stage drilling, functional laser control, adaptive workpiece side search, automatic corner deceleration, flycut, interchangeable worktable, mechanical compensation, accuracy.
|CONSUMABLES||ESTIMATED TIME OF USE|
|Protective glass||500 hours|
|Ceramic ring||4000 hours|
|Focus lens||4000 hours|
Users can graphically view real-time data dynamics via the browser, allowing remote diagnosis and maintenance of equipment. Users can use mobile phones, PDAs and other devices for real-time display of the monitoring interface and text mode to change data values, acknowledge alerts and so on.
The system has the function of an “expert system” to perform/assist product positioning, flow tracking tracking interrogation, remote fault diagnosis and interrogation of stored equipment fault data. Data is transmitted to the client, other monitoring points and the server via the Internet/5G network.
In CLOUD it intelligently collects equipment status and failure information for analysis, calculates production cost and maintenance costs according to a certain algorithm and obtains a high quality cost performance scheme of the product design, which saves production costs for the enterprise.
The CLOUD has multiple functions such as remote diagnostics and maintenance, redundancy, real-time historical data recording, scheduling, formulation, video and audio functions. It has a multitude of ere manager options and scrinting functions, establishes connections with many standardized interfaces and can efficiently connect with the plants MES system. With the advent of the 5G era, the 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 provide customers with faster global remote diagnostic services.