Hubei Yixing Intelligent Equipment Co., Ltd
Mechanical Body
| Distinction | Project | BS265D | BS266D |
|
Mechanical
Ability |
Spindle clamping bar diameter | Φ8-Φ26mm | |
| Main spindle rear-side bar diameter | Φ8-Φ26mm | ||
| Maximum machining length | 441 mm (fixed guide sleeve) / 135 mm (synchronous guide sleeve) / 70 mm (no guide sleeve) / 315 mm (electrical guide sleeve) | ||
| Maximum spindle drilling diameter | Φ10mm | ||
| Maximum thread hole diameter of the spindle | M10 | ||
| Maximum drilling diameter of the tailstock | Φ10mm | ||
| Maximum thread diameter of the back spindle | M10 | ||
| Maximum horizontal drilling diameter | Φ10mm | ||
| Maximum thread hole diameter in the transverse direction | M8 | ||
| Maximum drilling diameter of the rear power head | Φ10mm (optional) | Φ10mm | |
| Maximum thread hole diameter of the rear power head | M8 (optional) | M8 | |
| Spindle speed | 0-10000rpm | ||
| Backshaft rotational speed | 0-10000rpm | ||
| Rotational guide sleeve speed | Max: 8000 rpm (conductive sleeve: 10,000 rpm) | ||
| Side power head rotational speed | Max:6000rpm | ||
| Number of tool installations | 28 teams | 32 teams | |
| Tool dimensions | □16x16 | ||
| Rapid feed rate | Z1/X2/Z2:32 m/min (X1/Y1:24 m/min) | Z1/X2/Z2:32 m/min (X1/Y1/Y2:24 m/min) | |
| Number of control axes (linear axes) | 5-axis | 6-axis | |
| Motor | Spindle motor power | 3.7/5.5 kW | |
| Backshaft motor power | 2.2/3.7 kW | ||
| Side power head motor power | 2.2 kW | ||
| Cutting oil motor power | 0.58 kW | ||
| Drive shaft power | 1.0 kW | ||
| Power supply. Other | Power transformer | 20kVA | |
| Center height | 1066mm | ||
| Compressed air source | 0.5-0.7Mpa | ||
| Air volume | 100L/min | ||
| External dimensions | 2652x1495x2340mm | ||
| Machine tool weight | Approximately 4,100 kg | Approximately 4,200 kg | |
Product details
· High-torque, high-precision electric spindle structure
· Disc brake design, with indexing accuracy improved by more than 20%
· High-rigidity, multi‑position arched drilling holder, designed to meet the demands of rigid drilling and tapping.
· All axes are equipped with silent, high-rigidity ball screws, paired with high-torque motors.
· The Z1, X2, and Z2 models all employ a pre-tensioned lead screw design to enhance structural rigidity.
· A variety of embedded power milling devices, meeting the demands of complex processes.
· The structural components feature a high-rigidity design to ensure machining stability.
NC Device
Accessories
Company advantages
Environment
Superior manufacturing environment, customized equipment advantages
Quality
Rigorous quality control, equipped with state-of-the-art testing equipment.
Team
An outstanding management team and a highly responsive combat philosophy.
Cost
Strong scale and synergy create a low-cost advantage.
Research and development
Over a decade of accumulated experience and robust R&D and manufacturing capabilities.
Resources
High-quality customer base and market resources with broad growth prospects.
Green Factory
FAQ
Q
How to Select Cutting Tools Appropriately Based on Different Machining Operations
+
A
Machining centers can perform a variety of operations, but different machining processes require different types of cutting tools. The general principles for tool selection should be: ease of installation and adjustment, good rigidity, and high durability and precision. Provided that machining requirements are met, shorter shanks should be chosen to enhance tool‑holding rigidity. When selecting tools, ensure that their dimensions are compatible with the surface geometry of the workpiece being machined.
When machining the peripheral contours of planar parts, it is recommended to use end mills.
When milling flat surfaces, it is recommended to use carbide-insert milling cutters.
When roughing—i.e., machining the blank’s surface—it is recommended to use a corn‑shaped end mill with a carbide insert.
Selecting the appropriate cutting tool is essential to achieving precise, seamless machining and preventing process deviations caused by unsuitable tools, which can lead to tool collisions.
Q
In summer, the weather is so hot—why can’t we open the CNC cabinet to allow it to dissipate heat?
+
A
In summer, to enable the CNC system to operate continuously under heavy load, some people open the CNC cabinet door to improve heat dissipation. Is this approach advisable?
The air in machining workshops typically contains oil mist, dust, and even metal particles. If these contaminants settle on the circuit boards or electronic components within a CNC system, they can reduce the insulation resistance between components and may even cause damage to the components and circuit boards.
Opening the doors of CNC cabinets to dissipate heat will ultimately accelerate the deterioration of the CNC system. Therefore, during extremely hot summer weather, it is advisable to minimize opening the doors of both the CNC cabinet and the high-voltage electrical cabinet. So, how should a CNC system be maintained?
Hubei Province Intelligent Manufacturing Demonstration Unit
Tech Little Giant
Top Ten Brand Award
China’s Famous Brand Products in the Machinery Industry
Enterprise Technology Center
Message
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Contact Us
Email: yixingsmart@chyixing.com
Address: No. 8 Dujiawan Road, Shili Industrial Park, Guangshui City, Hubei Province
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