RU2061797C1 - Device for supply of aluminium electrolyzer with alumina - Google Patents

Abstract

FIELD: aluminium production. SUBSTANCE: device for supply of aluminium electrolyzer with alumina has hopper installed for vertical motion and member for pressing-through the electrolyte crust made in form of horizontal metal rod rigidly connected with hopper. Made between pressing-through member and hopper wall close to electrolyzer is slotted opening for spontaneous spilling of alumina. Hopper has through channels for circulation of the air cooling the gas collector and anode shell. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to the production of aluminum by an electrolytic method and can be used to power aluminum electrolysis cells with alumina.

A device for feeding the electrolyzer with alumina, including a mechanism for forcing the crust of the electrolyte with a forcing beam and a device for loading alumina in the form of a hopper with a hole, mounted on the electrolyzer with the ability to move vertically, and the hole of the hopper is closed with a forcing beam in its upper position [1]
A disadvantage of the known device is the significant consumption of alumina due to its dusting and electricity.

The closest technical solution is the alumina power supply unit of the electrolyzer, containing a hopper mounted on the electrolyzer with the ability to move vertically, and a bursting element made in the form of a plate with vertical through slots and rigidly connected to the hopper [2]
A disadvantage of the known device is the complexity of the design of the punching element, the large energy consumption when punching the crust of the electrolyte, the violation of the heat exchange of the gas collector and the anode casing of the electrolyzer, the complexity of the maintenance of the electrolyzer during technological processing.

 The objective of the invention is to simplify the design of the punching element, reduce energy consumption when punching the crust of the electrolyte, improve heat transfer of the gas collector and the anode casing and simplify maintenance of the cell during processing.

 This object is achieved by the fact that in the device for supplying aluminum electrolyzer with alumina containing a hopper mounted on the electrolyzer with the ability to move it vertically, and an element for pushing the electrolyte crust, the forcing element is made in the form of a horizontally located metal rod, rigidly connected to the hopper by jumpers, between the slotting element and the near electrolyzer have a slotted hole in the buffer wall, and through channels are located between the longitudinal walls of the hopper ly.

 The implementation of the punching element in the form of a horizontally arranged metal rod simplifies the design of the device and can significantly reduce the energy consumption for punching the electrolyte crust.

 In addition, the volume of the device is reduced, which allows seamless processing of the electrolyzer.

 The slit opening between the elements of forcing the electrolyte crust and the wall of the hopper closest to the cell provides a uniform distribution of the alumina coming from the hopper when lifting the device. Alumina completely covers the area of the destroyed electrolyte crust, i.e., reliable sealing of the electrolyzer is provided without any additional operations.

 The through channels located between the longitudinal walls of the hopper, through which air circulates, can improve the heat exchange of the gas collector and the anode casing.

 The drawing shows a General view of a device for powering an aluminum electrolyzer.

 The device includes a hopper 1, an electrolyte crust bursting element 2, made in the form of a horizontal rod, and rigidly connected by jumpers to the walls of the hopper 1. A slotted opening is made between the electrolyte crust bursting element 2 and the wall 3 of the hopper 1. Between the longitudinal walls of the hopper there are through channels 4.

 The hopper 1 is connected to the pneumatic actuator 5.

 The device operates as follows.

 Under the action of the pneumatic actuator 5, the device lowers down by 80 150 mm. When this element 2 is pressed through the electrolyte crust, which descends into the electrolyte. When the device is moved up by alumina by gravity through the slotted opening between the punching element 2 and the wall 3 of the hopper 1, it enters the depression formed by the action of the punching element 2 and seals the cell.

 In any position of the device, the through channels 4 through which air circulates and cools the gas collector and the anode casing of the electrolyzer remain open.

Claims (1)

 A device for powering an aluminum electrolyzer with alumina, comprising a hopper mounted on the electrolyzer with the possibility of moving it vertically, and a bursting element, characterized in that the bursting element is made in the form of a horizontal rod, rigidly connected to the hopper by jumpers, between the bursting element and the closest to the cell a hopper wall is provided with a slotted opening, and through channels are made between the longitudinal walls of the hopper.