
Horizontal Turning Center
In today's manufacturing industry, the rigidity and stability of machine tools are essential to ensure production efficiency and product quality. The design scheme of resin sand casting, honeycomb structure, multiple stress relief process, new chevron column structure, meter-shaped reinforcement and double-layer table structure is designed to improve the rigidity and stability of the machine tool.
Resin sand casting has high dimensional accuracy and surface quality, while cooling speed is faster, making the machine have better mechanical properties. The application of honeycomb structure in machine tool design can significantly improve the rigidity and stability of the machine tool, and improve the overall load capacity. However, the design and manufacture of honeycomb structures is relatively complex and requires a higher level of craftsmanship. Multiple stress relief processes play an important role in improving the rigidity and stability of the machine tool, which can effectively eliminate the internal stress generated during the machine tool manufacturing process, thereby improving the overall rigidity and stability. The design of M shaped reinforcement can further improve the rigidity and stability of the machine tool, increase the supporting point and carrying capacity of the machine tool, and improve the overall stability.
The design of double-layer table structure can better meet the needs of modern manufacturing industry and improve the production efficiency of machine tools. In addition, the double-layer table structure can also increase the overall rigidity and stability of the machine tool, so that it can maintain stable operation in a complex working environment.
In conclusion, the design scheme using resin sand casting, honeycomb structure, multiple stress relief procedures, new herringbone column structure, meter-shaped reinforcement and double-deck table structure can significantly improve the rigidity and stability of the machine. This design scheme can not only meet the needs of modern manufacturing, but also provide a strong guarantee for the improvement of production efficiency and product quality.
| Model | HMC1075 | HMC1290 | HMC1395 |
| Table size (mm) | 1300X600 | 1360X700 | 1400X700 |
| Allowable maximum load (Kg) | 800 | 1000 | 1000 |
| X-axis travel (mm) | 1000 | 1200 | 1200 |
| Y-axis travel (mm) | 750 | 800 | 800 |
| Z-axis travel (mm) | 800 | 700 | 750 |
| T-slot | 5-18-105 | 5-18-122 | 5-18-122 |
| Distance from spindle end face to work table (mm) | 115-915 | 180-880 | 168-918 |
| Distance from spindle center to Z-axis rail surface (mm) | 110-860 | 140-940 | 260-1060 |
| Spindle taper | BT50-150 | BT50-190 | BT50-190 |
| Spindle speed (r/min) | 6000 | 6000 | 6000 |
| X/Y/Z rapid movement (m/min) | 20/12/20 | 20/12/20 | 20/12/20 |
| Machine weight (Kg) | 8000 | 10000 | 10000 |
| Model | HMC1814 | HMCT500 | HMCT630 |
| Table size (mm) | 2000X900 | 500*500 | 630*630 |
| Allowable maximum load (Kg) | 1600 | 600 | 950 |
| X-axis travel (mm) | 1800 | 600 | 1050 |
| Y-axis travel (mm) | 1280 | 360 | 750 |
| Z-axis travel (mm) | 900 | 450 | 900 |
| T-slot | 5-22-165 | — | — |
| Distance from spindle end face to work table (mm) | 200-1100 | 150-850 | — |
| Distance from spindle center to Z-axis rail surface (mm) | 140-1420 | 130-650 | 130-1030 |
| Spindle taper | BT50-190 | BT40-150 | BT50-190 |
| Spindle speed (r/min) | 6000 | 8000 | 6000 |
| X/Y/Z rapid movement (m/min) | 18/12/18 | 20/12/20 | 20/12/20 |
| Machine weight (Kg) | 15000 | 8000 | 10000 |
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