Labzee 3D Mixer BZDSM-503 features a shaft rotation speed of 13 rpm, providing precise and uniform mixing of powders and granules. It has a 20 L capacity with a high loading rate of 80–90%, offering optimal material throughput and reduced mixing time. The multi-directional motion of the cylinder guarantees thorough blending while maintaining energy efficiency and minimal vibration. Its compact, user-friendly design simplifies loading and unloading, enhancing operational convenience. Our 3D Mixer BZDSM-503 is ideal for efficient processing of powders and granules across pharmaceutical, chemical, and industrial sectors.
$6,767.00
| Capacity | 20 L |
| Available Capacity | 50 to 70% of Grinding Tank |
| Optimal Mixing Capacity | ≥10% of Grinding Tank |
| Main Shaft Speed | 13 rpm |
| Load Weight Limit | 20 Kg |
| Mixing Time Range | 0 to 99 hr |
| Tube Material | 304L Stainless Steel |
| Thickness Of Barrel | 2 mm |
| Thickness Of Seal Plate | 1.5 mm |
| Support Internal Motor Plate | 10 mm |
| Reduction Box | WPDA-70 |
| Electrical Protection Grade | Grade 3 |
| Bearing Type | UCP-35 Self-Aligning |
| Outlet Distance From Ground | 350 mm |
| Import/Export Port Size | 110 mm |
| Motor Power | 750 W |
| Power Supply | 220V / 50Hz |
| Power Consumption | 1000W |
| Product Dimension | 80 × 80 × 80cm |
| Package Dimension | 147 × 58 × 132cm |
| Net Weight | 145 Kg |
| Gross Weight | 170 kg |
Our 3D Mixer BZDSM-503 is ideal for efficient mixing of powdery and granular materials in pharmaceuticals, chemicals, food, light industry, electronics, machinery, mining, metallurgy, and scientific research, ensuring uniform, rapid, and high-quality blending.
Frequently Asked Questions
1: How does the 3D motion improve mixing uniformity compared to conventional mixers?
The multi-directional 3D motion of the cylinder induces simultaneous translation, rotation, and rolling, eliminating dead zones and minimizing material segregation, achieving over 99% uniformity in each batch.
2: What factors influence the optimal loading rate in the BZDSM-503?
Optimal loading depends on the material type, particle size, and bulk density. Our 3D Mixer BZDSM-503 supports a high loading rate of 80–90%, allowing efficient throughput while maintaining thorough blending.
3: How does the mixer minimize energy consumption during operation?
The mixer’s rotational and translational cylinder movements reduce centrifugal force and stratification, ensuring materials flow naturally with minimal resistance, which lowers motor load and energy consumption.
4: Can the BZDSM-503 handle sensitive or shear-sensitive materials?
Yes. The gentle 3D motion avoids high shear forces, preventing particle degradation or breakage, making it suitable for delicate powders in pharmaceutical and food industries.
5: How does the mixer support scalability for industrial production?
With a 20?L capacity and high loading efficiency, the BZDSM-503 allows batch processing that can be scaled by using multiple units or integrating with automated loading/unloading systems for continuous production.
6: How does the design prevent material residue or cross-contamination?
All internal surfaces are over-circular and precision-polished, with no dead angles, allowing complete discharge and easy cleaning between batches, reducing the risk of cross-contamination.
7: What is a 3D Mixer used for?
A 3D Mixer helps you mix powders and granules uniformly. It rotates in multiple directions, ensuring no dead corners during blending.
8: Can you use a 3D Mixer for pharmaceutical applications?
Yes, it's ideal for pharmaceuticals. It gives you homogenous mixing without breaking particles or generating heat.
9: Is the 3D Mixer safe for food processing?
Yes, food-grade models are available. You can use them to mix powders like flour, cocoa, or protein supplements safely.
10: Does the 3D Mixer require manual mixing?
No, you don’t need to mix anything manually. It automatically rotates and tumbles your materials for even mixing.
11: Can you mix fine powders in a 3D Mixer?
Yes, it's excellent for fine powders. You get consistent distribution without clumping or layering.
