Ten characteristics of large-scale tooth roller

Automatic cutting and rubbing machineThe types of large gear hobbing machines of the manufacturer are divided into 2-axis eccentricity, 2-axis rolling, 2-axis hydraulic, 2-axis hydraulic rolling, 3-axis cam, 3-axis hydraulic, and 3-axis hydraulic rolling. When threading is processed, the roll die is installed on the rotating shafts of the 2-axis and 3-axis machine respectively to form extruded threads, and different types of rolling are changed through different thread rolling. Three-angle threads, ladder patterns, straight lines, mesh, twill fabrics, etc. can be processed.

Large gear hobbing machine

Automatic cutting tooth rubbing machine manufacturerWhat are the characteristics of large gear hobbing machines?

1. The gear hobbing machine has a simple structure, built-in tank, small space, and easy maintenance.

2. Supports 3 angles such as gear hobbing machines to ensure true roundness, concentricity and perpendicularity.

3. The gear hobbing machine is driven by hydraulic pressure, operates freely, has fast speed, slow speed, stable performance and high efficiency.

4. The gear hobbing machine has a compact structure and strong rigidity of cast steel.

5. The gear hobbing machine is specially designed for the pipe threads of thin-walled pipes above 1.5mm, which can be rolled, grid, straight lines, etc.

6. The automatic feeding device can be added to the gear hobbing machine to achieve automatic production.

7. The frequency conversion power of the gear hobbing machine and the spindle speed are arbitrarily adjusted.

8. PLC programming control of plate rolling machine, there are things that are easy to control in the human-machine interface.

9. The gear hobbing machine has complete functions, automatic, semi-automatic, manual, and free switching.

10. When the gear hobbing machine does not require full automatic production, the feeding device can be removed and switched to semi-automatic. Rolling cold rolling processing is an advanced non-cutting processing method that can effectively improve the internal and surface quality of the workpiece and generate radial compressive stress during processing. It can significantly improve the fatigue strength and torsional strength of the workpiece, and is an ideal technology that is efficient, energy-saving and low-consumption.