Since a decade Company is engaged in manufacturing high quality Equi-CUT, PRO-CUT, TABLE STYLE, MULTI TROCH Series CNC Oxy-fuel & Plasma cutting machines, CNC Profile cutting machines, Plasma Sources, Welding Machines and Automation Products.
The company is also engaged in providing CCD, DVR, Surveillance services to the corporate offices, banks, companies and institutions.
The company is run by a highly qualified and experienced team is managed by its people, believes in delegation of authority and our corporate policy encompasses views and opinions of all personnel and above all, our customers.
The Series machine from SH Electronics Co. has the perfect entry level as well as high end model for profile cutting, plasma cutting, cnc plasma cutting, cnc cutting machine, gas cutting machine, cnc profile cutting solution. Any complicated shape can cut by CNC cutting machine easily with less time. Job working units or manufacturer can easily use these machines comfortably. Each machine includes a CNC control, rail system, nesting software and high-speed motors & drivers, plasma cutting system can also integrate with machines as per requirement.
We Have Complete Solution in cnc cutting, the Series machine from SH Electronics Co. has the perfect entry level as well as high end model for profile cutting, plasma cutting, cnc plasma cutting, cnc cutting machine, gas cutting machine, cnc profile cutting solution. Any complicated shape can cut by CNC cutting machine easily with less time. Job working units or manufacturer can easily use these machines comfortably. Each machine includes a CNC control, rail system, nesting software and high-speed motors & drivers, plasma cutting system can also integrate with machines as per requirement.
Series machine delivers productivity. ADTECH CNC, Hyper-therm control provides precision motion control for both high-speed plasma and Oxy-fuel cutting. Original Micro EDGE TM control system produced by Hypertherm, USA. Micro EDGE TM CNC system is the most advanced one developed by Hypertherm Corporation, USA on the basis of windows interface for plasma, flame, laser and high-pressure water cutter The interface design, cutting speed and motion control of this system adopt the newest technology. It features powerful function and convenient operation. It is the most intellectualized system in cutting process. Arc-off time between parts is extremely short with a rapid traverse speed. Torch height control rapidly sets pierce height and maintains precise torch to plate distance while cutting-no matter what the travel speed.
- • Consumable life improvement
- • Improved cut quality
- • Reduced operator intervention. For better consumable life.
- • Spatter during piercing presents a threat to the nozzle and shield.
- • Setting the height of the torch higher during piercing protects the consumables by moving them away from the spatter.
Oxy – Fuel Performance
HOW DOES OXY FUEL CUTTING WORK?
Preheat flames are used to heat up the surface of the steel to approximately 1000°C (1800°F – bright red color) but below the metal’s melting point. A jet of pure oxygen is then directed toward the heated area in a fine, high pressure stream. A vigorous exothermic chemical reaction takes place between the oxygen and metal forming an aluminum or iron oxide or rust. The pressure of the jet of oxygen blows away the slag or oxide forming a cavity. The preheat and oxygen stream are moved at constant speed to form a continuous cut
OXY – FUEL PERFORMANCE
Heavy duty – high performance Oxy-fuel components are your guarantee of superior productivity. The optional gas system includes twin sets of high and low pre-heat regulators to produce fast pierce rates and balanced torch flames, even with multiple torches. A domed high-flow oxygen regulator ensures uniform pierce rate control and outstanding flow capacity. The standard torches are designed for cutting plate up to 200/ 300mm thick.
Computer-aided manufacturing (CAM) is the use of computer software to control machine tools and related machinery in the manufacturing of work pieces. Traditionally, CAM has been considered as a numerical control (NC) programming tool, wherein two-dimensional (2-D) or three-dimensional (3-D) models of components generated in CAD software are used to generate G-code to drive computer numerically controlled (CNC) machine tools. The marriage of CAM software and control systems is critical to the successful implementation of any CNC machine.