RU14434U1 - DEVICE FOR LOADING THE DOSE OF ANODE MASS INTO THE HOLE FROM UNDER THE PIN IN THE "DRY" ELECTROLYZER ANODE FOR PRODUCING ALUMINUM - Google Patents

Abstract

1. Device for loading a dose of the anode mass into the hole from under the pin in the “dry” anode of the electrolyzer for producing aluminum with an upper current supply, including a housing with a discharge opening and a support for the dispenser, as well as a dispenser with loading and unloading valves with actuators. 2 . The device according to claim 1, characterized in that electro-hydraulic actuators are used to control the dispenser valves. The device according to claim 1, characterized in that for regulating the dose of the anode mass loaded into the hole from under the pin, rings of different widths are installed between the dispenser and its support in the device body. The device according to claim 1, characterized in that for guiding the discharge opening into the hole from under the pin in the "dry" anode, it is equipped with a discharge pipe. The device according to claim 1, characterized in that in order to reduce the height dimension during its transportation, the discharge pipe can be made telescopic from individual links.

Description

DEVICE FOR DAY LOADING THE DOSE OF ANODE MASS INTO THE HOLE FROM UNDER THE PIN IN THE DRY ANODE OF THE ELECTROLYZER FOR PRODUCTION OF ALKMISH

A device for loading a dose of anode mass into a well from under a pin in a dry anode of an electrolytic cell for producing aluminum is intended for servicing self-firing anodes with a dry anode mass of electrolyzers with an upper current supply for producing aluminum.

At present, in most states of aluminum producers abroad, the technology of the dry anode is used, which can significantly reduce the emission of harmful substances from the surface of the self-burning anode of the electrolyzer with an overhead current supply to the atmosphere, and also improve technological parameters.

In this case, the loading of the dose of the anode mass into the hole from under the pin is carried out by special cranes of relatively complex construction, having bunkers with gates and, in addition, weighing dosing systems. There is no information about these devices in open printing.

At present, the dry anode technology is beginning to be used in the aluminum industry in Russia.

The device proposed by us solves the following problems: 1 / is a drive of a plug-in anode mass providing a replaceable need; 2 / combines dosing and unloading operations in one device; 3 / is a universal tool that can be used both in new designs of special cranes for servicing self-baking dry anodes of electrolytic cells for producing aluminum with top current supply, and it is also used on existing pin cranes operated at aluminum plants in Russia and abroad.

The use of existing pin cranes will reduce their obsolescence, extend their life, save on the cost of new special cranes designed to service dry anodes.

A device for loading a dose of the anode mass into the well from under the pin in the dry anode of the electrolytic cell for producing aluminum includes a housing with a discharge opening and a support for the dispenser, as well as a dispenser with loading and unloading valves with an actuator.

The specified set of elements is common for the device designed both for use in new designs of special cranes for servicing dry anodes and for use on existing pin cranes operated in aluminum electrolysis cases at Russian plants.

The actuator actuator used in the proposed device must have a reciprocating movement to control the loading or unloading valves of the dispenser. An electrohydraulic actuator, a hydraulic actuator, a pneumatic actuator and an electric actuator can be used as a drive.

The dose adjustment in the proposed device for a one-time loading into the hole from under the pin in the dry anode between the dispenser and its support in the device body are installed rings of different widths.

To use the device on existing pin cranes, it is suspended on a hook of the lifting mechanism and lowered to the dry anode. The lowering height is limited by the anode frame of the cell. In order to load the dose into the well from under the pin in the dry anode, the device is equipped with a discharge pipe. can be made telescopic from individual links.

In FIG. 1 shows a device in section; in FIG. 2 shows a section AA of the device explaining the coupling of the control levers with the draft of the discharge valve and the pipe of the loading valve; in FIG. 3 shows a device with a discharge pipe; figure 4 shows a device with a telescopic discharge pipe; in FIG. 5 shows the position of the ring between the support of the housing of the device and the dispenser when increasing the dose of the loaded anode mass.

Device / FIG. 1 / includes a housing 1 with a discharge opening 2 and a support for the dispenser 3, a dispenser 4 with a loading 5 and unloading 6 valves connected by a pipe 7 and a rod 8 with control levers 9 and 10 using axes 11 and 12 / Fig. 2 /.

The control lever 9 using the axis 13 is connected to the rod of the electrohydropusher 14 and using the axis 15 with the frame of the dispenser 4.

The control lever 10 using the axis 16 is connected to the rod of the electro-pusher 17 and using the axis 18 with the frame of the dispenser 4,

When using the device on existing pin taps to its body 1 at the location of the discharge opening 2, the discharge pipe 19 / Fig. 3 / or alternatively a telescopic discharge pipe 20 / FIG. 4/.

On Fig, 5 shows the location of the rings 21 with the necessary increase in the dose of the anode mass. Ring 21 is installed between the support of the dispenser 3 and the base of the dispenser 4.

The operation of the device is as follows.

The device is suspended on a hook of the lifting mechanism. Moreover, in the initial position, the loading 5 and unloading 6 valves of the dispenser 4 are in the lowest position.

The driver turns on the power of the electrohydraulic pusher 14, the rod of which is connected using the axis 13 with the lever 9 extends, turning the lever 9 relative to the axis 15 up. Free end

3 levers 9 using axles 11 connected to the pipe 7 boot

valve 5, rising, moves the loading valve 5 to the upper extreme position. The anode mass fills the metering chamber of the dispenser 4. The driver turns off the power of the electro-pusher 14.

To unload the measured dose of the anode mass, the driver turns on the power of the electrohydro pusher 17, the rod of which, connected via the axis 16 with the lever 10, extends, rotates the lever 10 relative to the axis 18 upward. The free end of the lever 1.0 using the axis 12 connected to the rod 8 of the discharge valve 6, rising, moves the discharge valve 6 to the upper extreme: position. There is an unloading of the dose of the anode mass.

When unloading the dose of the anode mass, the loading valve 5 under the influence of the weight of the system, the loading valve-valve drive pipe is lowered to the lowermost position, blocking the metering chamber of the dispenser.

After unloading the dose of the anode mass, the driver turns off the power of the electrohydropusher 17. The unloading valve b, under the influence of the weight of the system, the unloading valve-rod is lowered to its lowest position, blocking the unloading hole 2.

The device becomes prepared for the next cycle of loading and unloading a dose of the anode mass.

4

Claims (5)

1. A device for loading a dose of the anode mass into the well from under the pin in the "dry" anode of the electrolyzer to produce aluminum with an upper current supply, including a housing with a discharge opening and a support for the dispenser, as well as a dispenser with loading and unloading valves with actuators.  2. The device according to claim 1, characterized in that electro-hydraulic actuators are used to control the dispenser valves.  3. The device according to claim 1, characterized in that for regulating the dose of the anode mass loaded into the hole from under the pin, rings of different widths are installed between the dispenser and its support in the device body.  4. The device according to claim 1, characterized in that for guiding the discharge hole into the hole from under the pin in the "dry" anode, it is equipped with a discharge pipe. 5. The device according to claim 1, characterized in that in order to reduce the height dimension during its transportation, the discharge pipe can be made telescopic from individual links.