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Product model |
Machine weight |
Machine voltage |
Machine power |
Bleed pressure |
Color selection accuracy |
Air source consumption |
Dimension |
|
A4 |
1300 |
AC220V/50HZ |
4.3 |
0.6-0.8 |
>99.99% |
<4 |
2348*1610*1887 |
|
A5 |
1500 |
AC220V/50HZ |
5.9 |
0.6-0.8 |
>99.99% |
<5 |
2978*1610*1887 |
|
sA6 |
1800 |
AC220V/50HZ |
6.9 |
0.6-0.8 |
>99.99% |
<6 |
3293*1610*1887 |
|
A7 |
2150 |
AC220V/50HZ |
8.6 |
0.6-0.8 |
>99.99% |
<7 |
3933*1610*1887 |
|
A8 |
2500 |
AC220V/50HZ |
10.4 |
0.6-0.8 |
>99.99% |
<8 |
4563*1610*1887 |
|
A9 |
1540 |
AC220V/50HZ |
4.3 |
0.6-0.8 |
>99.99% |
<4 |
2348*1610*1887 |
|
A10 |
1700 |
AC220V/50HZ |
5.9 |
0.6-0.8 |
>99.99% |
<5 |
2978*1610*1887 |
|
A11 |
1910 |
AC220V/50HZ |
6.9 |
0.6-0.8 |
>99.99% |
<6 |
3293*1610*1887 |
|
A12 |
2260 |
AC220V/50HZ |
8.6 |
0.6-0.8 |
>99.99% |
<7 |
3933*1610*1887 |
|
A13 |
2630 |
AC220V/50HZ |
10.4 |
0.6-0.8 |
>99.99% |
<8 |
4563*1610*1887 |
|
A14 |
1570 |
AC220V/50HZ |
4.3 |
0.6-0.8 |
>99.99% |
<4 |
2348*1610*1887 |
|
A15 |
1730 |
AC220V/50HZ |
5.9 |
0.6-0.8 |
>99.99% |
<5 |
2978*1610*1887 |
|
A16 |
1940 |
AC220V/50HZ |
6.9 |
0.6-0.8 |
>99.99% |
<6 |
3293*1610*1887 |
|
A17 |
2300 |
AC220V/50HZ |
8.6 |
0.6-0.8 |
>99.99% |
<7 |
3933*1610*1887 |
|
A18 |
2680 |
AC220V/50HZ |
10.4 |
0.6-0.8 |
>99.99% |
<8 |
4563*1610*1887 |
|
● Super operating system, equipped with independent color selection mode, each mode has the function of storing memory, sorting does not need to be set again, and can get better sorting effect. |
|
● New multi-purpose color separator, equipped with multiple channels, each channel is relatively independent. |
|
● Automatic startup spray valve self-test, pressure detection, camera fault detection, control board detection and other functions. |
|
● The sorting machine effect is better for materials with small color difference and small particles. |
Targeted positioning technology enables the sorting machine to locate and eliminate unwanted particles with higher precision, significantly improving the accuracy of the sorting process.
The deep learning system benefits greatly from the application of ultra-high-definition imaging technology, resulting in a significant improvement in imaging accuracy that allows for the capture of minute details on the surface of ores.
The core features include self-learning and optimization, insight into user behavior, seamless connectivity and intelligent collaboration, all of which provide users with personalized, efficient, and secure service experiences.
The Ultra-Clear Camera System effectively reduces image distortion through its precise lens design, ensuring the accuracy and authenticity of the imaging.
Barite is an important non-metallic raw material, primarily composed of barium sulfate. It exhibits a unique vitreous luster and possesses a relatively high density. Chemically stable, barite is insoluble in water and hydrochloric acid, and is non-magnetic and non-toxic. The crystals of barite can form large tubular shapes, and when aggregated, they may sometimes form rosette or branching crystal masses. Pure barite is colorless and transparent, while commonly it appears white or light yellow with a vitreous luster. Additionally, barite can be used as a white pigment and serves as a filler in the chemical, papermaking, and textile industries. In glass production, it acts as a flux and enhances the brightness of the glass. However, its primary use is as a weighting agent in the drilling industry and for the extraction of barium.
The screening, identification, and discrimination of barite constitute a comprehensive process that encompasses multiple crucial steps from ore mining to final quality confirmation. Initially, physical processing methods such as coarse crushing and fine crushing are employed to break the barite ore into appropriate particle sizes, facilitating subsequent separation and purification. Subsequently, heavy media separation equipment like jigs and shaking tables, as well as chemical methods such as flotation, are utilized to separate and purify the ore, removing most of the gangue and other impurities. Identification primarily relies on preliminary judgments based on its appearance and physical properties. Pure barite typically appears colorless, transparent, or white to light yellow, with a vitreous luster, a relatively high specific gravity, and moderate hardness. By observing these characteristics, one can make an initial judgment on whether the ore is barite. Finally, to ensure the purity and quality of barite, more professional discrimination methods are required.
The efficient and intelligent oursort barite sorting machine is an advanced equipment specifically designed for the separation of barite ore. It adopts advanced photoelectric detection technology and image processing algorithms to accurately identify and separate heterochromatic particles in the ore, thereby improving the purity and grade of the ore. This machine is suitable for barite mines and processing plants of various sizes, and is an ideal choice for achieving efficient separation and purification of ores.
After numerous mines and processing plants adopted oursort technology's efficient and intelligent barite sorting machine, the purity and grade of the ore were significantly enhanced, production costs were greatly reduced, and production efficiency was markedly improved. Customers have provided unanimous praise, considering barite sorting machine as the preferred equipment in the field of ore sorting machine.
http://www.oursort.com/