Ánodo ukan ch’iyar jaquntatapa.

China markan industria de aluminio ukax jan jaytjasaw ch’amanchasi kunayman qullqituqit ukhamarak técnicos uñacht’awinak jaya pachanak askichañataki ukat jichha eficiencia ukanx mä juk’a nayrar sartawinak lurawayi, energía ukat yaqha aspectos. ukampis, kunayman razonanakatxa, carbono de ánodo uka manq’añax janiw sinti satisfactoria ukhamäkiti. Tasa de consumo de la bloque de carbono 200 ukax 1{{5CC {{5 de aluminio de aluminio, ukax apropiado, aproximoso, aproximoso, 1 {1} anode carbon block is generally 28 days. If it exceeds 28 days, the electrolyte will erode the anode steel claws. The eroded steel claws and phosphor iron rings will melt into the molten aluminum, not only reducing the service life of the anode steel claws but also significantly affecting the improvement of the grade of the molten aluminum. The technology of protecting the carbon ring of the anode steel Claw Shot Blasting Machine ukaxa wali wakiskiriwa uka producto ukaxa jilxatayañataki servicio vida del garra de acero ukatxa aski suma uñjañataki aluminio electrolítico.

Uka garra de acero tiro de explosión de tiro para ánodo de aluminio electrolítico ukaxa juk’ampi apnaqatarakiwa taller de montaje de ánodo ukanxa plantas de aluminio electrolítico..

In the electrolytic aluminum industry, anode steel claws, as important conductive accessories, are prone to adhering to impurities that affect conductivity on the surface of the claw heads during the production turnover cycle, and they are difficult to handle. At present, domestic electrolytic aluminum manufacturers basically adopt manual grinding and shot blasting for treatment, which involves high labor intensity, low efficiency, high cleaning production operation costs and unsatisfactory results, and cannot meet the technical parameters uka lurawi lurawi ukatxa jach’a jach’a lurawi mayiwi. .

At present, in the aluminum industry, the steel claws for anode assembly generally have problems such as simple equipment and single methods in the process of graphite coating. In the existing graphite coating process, most of the methods adopted are compressed air blowing combined with manual stirring or dry graphite coating. The two methods have the following problems: The method of blowing and stirring with compressed air results in the inability to guarantee the concentration and uniformity of the graphite coating on the steel jaws. The graphite solution contains a large amount of water, resulting in poor graphite coating effect, easy graphite sedimentation, and even blockage of the compressed air pipeline. The inability to guarantee the concentration and uniformity of the graphite coating, the moisture contained in the compressed air causes the molten iron to splash during casting, affecting the casting quality and posing a high Riesgo. Unidad de consumo de aire comprimido ukax jilxattawayiwa.

Aka aski técnica tuqita, Ánodo acero garra tiro de blasting máquina ukaxa churarakiw mä dispositivo de limpieza de garra de acero de aluminio electrolítico ukampi jisk’a q’umachañataki, suma q’umachaña eficiencia ukhamaraki jani aire contaminado ukampi, ukhamata atipjañataki deficiencias uka utjki uka tecnología.

Uka ánodo garra ukat ánodo lanzamiento fuerza q’umachañ maquina ukax mä dispositivo dedicado ukhamawa q’umachañataki árezas de ánodo ukat barras de ánodo. ch’ama lanzamiento q’umachañ tuqi, ukax electrolito residual ukat carbono flotante ukanak apsu, ukax conductividad ukaruw juk’amp sumaptayi, ukat acero garra p’iqin chiqap garra de acero ukat q’umacharaki}

Kunawsatix garra de acero tiro de explosión máquina ukan irnaqki ukhax, grupo de barras de guía ukax mä posición de limpieza de limpieza de disparos ukar khithatawa cadena de suspensión ukan. ukan utjki ukat, cadena de suspensión ukan pista giratoria ukax guía de barra quturuw muyunti ukat maquina de explosión de disparos ukax jist’aratawa shot máquina shots anks anth the shep on speed the fotle on the fogone Yaqha q’añunaka acero garras ukan patapanxa. acero disparo ukat electrolitos ukat yaqha impurezas ukat Ejector ukax transportador de tornillo inferior ukar jaqukipatawa. Transportador de tornillo ukax ascensor de cubo ukar khitharaki, ukat ukax dispositivo de separación ukar puriyi. Disparo de acero ukat electroyes ukanakax selección ukat cribado ukatw uñt’ayasi. Uka electrolitos ukat yaqha q’añunakaw uka yänakat apsusipxi. .