Plasma Cutter Nozzle .11.848.311.614 G2514 for Kjellberg Plasma Cutting Machine with High Quality Material
Price:
negotiation
MOQ:
5pcs
Delivery Time:
Prompt goods
Brand:
Plasma Consumables
Product Description
Plasma Cutter Nozzle .11.848.311.614 G2514
Compatible with Kjellberg Plasma Cutting Machines
Product Overview
HEC plasma consumables are manufactured using high-quality materials and standardized processes to ensure optimal performance matching original OEM specifications.
Key Advantages
- HEC Brand Quality: Manufacturer of complete metal cutting systems including plasma cutters, torches, and consumables
- Superior Cutting Performance: High-quality materials and manufacturing processes deliver performance equivalent to original OEM parts
- Competitive Pricing: Premium quality components at cost-effective prices for maximum value
- Comprehensive Range: Extensive selection of plasma consumables compatible with EASB, Kjellberg, Koike systems and torch replacements
Compatible Parts Reference
| Machine Model | HEC Part No. | Thum No. | Reference No. | Description |
|---|---|---|---|---|
| Hifocus 280i/360i/440i (Carbon Steel) | K94211 | G901Y | .11.848.201.142 | Cooling tube |
| Hifocus 280i/360i/440i (Carbon Steel) | K94212 | G902Y | .11.852.201.142 | Cooling tube |
| Hifocus 280i/360i/440i (Carbon Steel) | K94241 | G931Y | .11.848.401.142 | Cooling tube |
| Various Models | K0402 | G002Y | .11.848.221.300 | Cathode O2 |
| Various Models | K0105 | G015Y | .11.848.231.350 | Cathode O2 |
| Various Models | K0101 | G011Y | .11.848.231.320 | Cathode O2 |
| Various Models | K0106 | G016Y | .11.848.231.360 | Cathode O2 |
| Various Models | K0402 | G092Y | .11.848.401.310 | Cathode O2 |
| Various Models | K7441 | G101 | .11.848.221.145 | Gas guide |
| Various Models | K1466 | G2006 | .11.848.221.406 | Nozzle O2 25A |
| Various Models | K1467 | G2007 | .11.848.221.407 | Nozzle O2 35A |
| Various Models | K54124 | G3004 | .11.848.201.1604 | Nozzle cap |
| Various Models | K641515 | G4015 | .11.848.201.1515 | Swirl gas cap |
| Various Models | K641220 | G4020 | .11.848.201.1520 | Swirl gas cap |
| Various Models | K44191 | G501 | .11.848.201.081 | Protective cap |
| Various Models | K0403 | G003Y | .11.848.221.310 | Gathode -O2 |
| Various Models | K7442 | G102 | .11.848.221.146 | Gas guide |
| Various Models | K1466 | G2006Y | .11.848.221.406 | Nozzle O2 |
| Various Models | K1467 | G2007Y | .11.848.221.407 | Nozzle O2 |
| Various Models | K1468 | G2008Y | .11.848.221.408 | Nozzle O2 50A |
| Various Models | K14610 | G2010Y | .11.848.221.410 | Nozzle O2 80A |
| Various Models | K14612 | G2012Y | .11.848.221.412 | Nozzle O2 120A |
| Various Models | K14614 | G2014Y | .11.848.221.414 | Nozzle O2 160A |
| Various Models | K14616 | G2016Y | .11.848.221.416 | Nozzle O2 200A |
| Various Models | K14826 | G2326Y | .11.848.221.426 | Nozzle |
| Various Models | K14830 | G2330Y | .11.848.221.430 | Nozzle |
| Various Models | K14831 | G2331Y | .11.848.221.431 | Nozzle |
| Various Models | K11014 | G2514 | .11.848.311.614 | Nozzle |
| Various Models | K11015 | G2515 | .11.848.311.615 | Nozzle |
| Various Models | K11016 | G2516 | .11.848.311.616 | Nozzle |
| Various Models | K11018 | G2518 | .11.848.311.618 | Nozzle |
| Various Models | K11125 | G2725 | .11.848.411.625 | Nozzle |
| Various Models | K11127 | G2727 | .11.848.411.627 | Nozzle |
| Various Models | K11129 | G2729 | .11.848.411.629 | Nozzle |
| Various Models | K541228 | G3028 | .11.848.201.1628 | Nozzle cap |
| Various Models | K641522 | G4022 | .11.848.201.1522 | Swirl gas cap |
| Various Models | K641525 | G4025 | .11.848.201.1525 | Swirl gas cap |
| Various Models | K641530 | G4030 | .11.848.201.1530 | Swirl gas cap |
| Various Models | K04242 | G032Y | .11.848.421.310 | Cathode O2 |
| Various Models | K04244 | G034Y | .11.848.421.330 | Cathode O2 |
| Various Models | K74251 | G121 | .11.848.421.145 | Gas guide |
| Various Models | K14826 | G2326Y | .11.848.421.426 | Nozzle O2 280A |
| Various Models | K14830 | G2330Y | .11.848.421.430 | Nozzle O2 360A |
| Various Models | K14831 | G2331Y | .11.848.421.431 | Nozzle -O2-400A |
| Various Models | K541409 | G3209 | .11.848.401.1609 | Nozzle cap |
| Various Models | K541419 | G3219 | .11.848.401.1619 | Nozzle cap |
| Various Models | K541429 | G3229 | .11.848.401.1629 | Nozzle cap |
| Various Models | K641745 | G4345 | .11.848.401.1545 | Swirl gas cap |
| Various Models | K641750 | G4350 | .11.848.401.1550 | Swirl gas cap |
| Various Models | K641755 | G4355 | .11.848.401.1555 | Swirl gas cap |
| Various Models | K44201 | G521 | .11.848.401.081 | Protective cap |
| Various Models | K94211 | G901Y | .11.848.201.142 | Water Tube |
| Various Models | K94212 | G902Y | .11.852.201.142 | Water Tube |
| Various Models | K94241 | G931Y | .11.848.401.142 | Water Tube |
Technical Support
Plasma cutting is an industrial process that efficiently cuts through electrically conductive materials using an accelerated jet of hot plasma. This technology is ideal for cutting steel, aluminum, copper, and other conductive metals.
Applications
Plasma cutting is widely used in fabrication and welding shops, automotive repair and restoration, industrial construction, and salvage operations. The combination of high-speed precision cutting with low operational costs makes it suitable for both large-scale industrial CNC applications and small hobbyist workshops.
Plasma Cutting Process
The plasma cutting process creates an electrical channel of ionized gas (plasma) from the plasma cutter through the workpiece, completing the electrical circuit via a grounding clamp. Compressed gas (oxygen, air, or inert gases) is blown through a focused nozzle at high velocity toward the workpiece.
An electrical arc forms within the gas between an electrode near the gas nozzle and the workpiece itself. This arc ionizes the gas, creating an electrically conductive plasma channel. The electrical current traveling through this plasma delivers sufficient heat to melt through the workpiece, while the high-velocity plasma and compressed gas simultaneously blow away the molten metal, effectively cutting through the material.
Cutting Capabilities
Plasma cutting effectively processes both thin and thick materials. Hand-held torches typically cut steel plate up to 38mm thick, while computer-controlled systems can handle steel up to 150mm thick. The highly localized cutting "cone" makes plasma cutting particularly effective for cutting sheet metal in curved or angled shapes with precision.
Advanced Cooling Systems
Modern plasma cutting systems incorporate sophisticated cooling mechanisms for consumables. Electrodes feature front portions designed to matingly engage with nozzles, containing plasma arc emitters. Rear portions thermally connect to complementary swirl rings, creating dynamic seals that inhibit gas flow and optimize cutting performance.
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Company
Shanghai Zhoubo welding & cutting technology CO.,LTD.