The HLC 150 H is a gear hobbing and worm milling machine with outstanding versatility and flexibility. This high-performance gear machining center caters to a very wide workpiece range: From gears and pinions for gearboxes over armature shafts and worms up to transmission shafts with total length of up to 500 mm (20 in).
Horizontal Hobbing Machine with Integrated Chamfering Unit for Maximum Productivity
The new HLC 150 H stands out for its numerous innovations and covers a unique spectrum of production applications.
Steering gears or shafts, straight, angled, or worm gearing the HLC 150 H puts the full expertise of EMAG KOEPFER at the users disposal. This unique machine is complemented by a device for the chamfering and deburring of components during loading and unloading without interrupting operation. As a result, it offers perfect gear-cutting, short cycle times, and minimum cost.
Perfect Combination of Power Skiving and Turning
Fast, precise, and easy to operate: power skiving has been turned into a highly efficient process for the production of internal and external gear teeth by the VSC 400 PS machine.
Responsible for this is a high-performance tool concept. The VSC 400 PS can accommodate up to four different power skiving tools on two spindles, plus up to six turning tools. This enables various combination processes with a single clamping operation:
1st variant: Roughing (for example with an indexable insert tool) and finishing (for example with a carbide tool) take place in rapid alternation.
2nd variant: Up to four different types of external and internal gear teeth are produced with four tools.
3rd variant: The combination of pre-turning and power skiving ensures speed and precision in concentricity.
The G 160 gear generating grinding machine presents a unique design to optimize the dynamic stiffness compared to current standard machine architectures.
The G 160 gear generating grinding machine splits the X-axis of current machines into two linear slides (X1, X2), each of which carries one workpiece spindle.
So both work-spindles are under full position control anytime. Being driven by high dynamic 30 m/s linear motors, changing spindles comes down under 2 seconds including simultaneous repositioning of the grinding wheel. The machine architecture with only three axes instead of 4 axes concept of current machines, is a breakthrough.
We use cookies to optimize our website for you and to be able to improve it continuously. By clicking the "Accept" button, you expressly agree to the use of cookies. For further information on cookies, please refer to our privacy policy.