EA010850B1 - Vibrating compactor for the production of formed bodies by way of compaction - Google Patents

Abstract

To create a vibrating compactor with mould (11), preloaded over weight (12) and firm cover hood (14) for compacting grainy raw materials by vibration for shaping especially anode blocks (16) for molten phase electrolysis for the production of aluminium the service life of the at least one cover weight pressure spring (18) of which shall not be impaired by the atmosphere within the system of mould (11)/cover hood (14), the invention suggests to have the cover weight preloading device with the at least one pressure spring (18) arranged outside the mould/cover hood (14).

Description

FIELD OF THE INVENTION

The invention is directed to a vibration compactor intended for the production of molded parts using vibrational compaction of granular starting materials, in particular for the production of anodes and / or cathodes used in the process of electrolytic melting in the production of aluminum, using a vibration table mounted on springs, which makes it possible vibration, which can be clamped form with a covering load, which from the upper side is connected to the device for creating aritelnoy load spring.

State of the art

Aluminum metal is obtained from alumina by electrolysis in the molten phase in an electrolytic bath in which anodes in the form of carbon blocks are immersed. These blocks are produced in the anode installation, usually from calcined petroleum coke and usually using resin as a binder. During this operation, the hot mixture of petroleum coke and resin is molded in the form fixed to the table of the vibration compactor for vibrational compaction of the anode block, i.e., to obtain the so-called green anode, which is subsequently fired in the furnace. The density and height of the formed anode block must meet strict tolerances.

Known vibration seals are devices in which, after filling in the form with raw materials, a covering load is installed. The rod of the covering load protrudes in its upper part and is mounted on an open frame. In addition, from ΌΕ-Ά-2041520 and ΌΕ-Ά3724199 it is known to use a covering load, in the upper part of which at least one spring is installed, designed to increase the frequency of impacts and the intensity of impacts. This spring, however, is exposed to hot exhaust gases and vapors, such as resin vapors, which flow out of the hot material, which is a drawback, in particular if the spring creating the covering load pressure is a pneumatic spring made of an elastic material. This primarily refers to the case when, as is known from ΌΕ-Ά-1923767, the rigid casing is mounted on the shape of a vibration seal and if the pneumatic springs designed to press the covering load to the paste are located inside the closing casing. In addition to the problem of reduced service life of the springs of the covering load, the closing casing prevents access to these springs.

SUMMARY OF THE INVENTION

The problem to be solved in accordance with the invention is to create a vibratory seal of the above type with a mold pre-installed with a covering weight and a hard closing casing with at least one pressure spring covering the load, providing good access and characterized by a long service life.

This problem is solved in accordance with the invention in a vibration compactor containing the properties according to claim 1 of the claims. Preferred embodiments of the invention are apparent from the dependent claims.

For the vibratory seal in accordance with the invention, there is provided a device for pre-clamping the covering load with at least one spring located outside the closing cover of the mold. This means that the covering load spring, which, in principle, can be designed as a mechanical spring, but, in particular, is preferably a pneumatic spring made of an elastic material with a variable force of contraction, will no longer be exposed to, for example, a chemically aggressive atmosphere inside vibration-proof mold / cover system, which helps to extend the life of the pre-clamp device of the covering load. In addition, this arrangement of the cover pre-clamp device improves accessibility during installation and maintenance.

In accordance with a specific property of the invention, a pre-clamping device for covering the load, including a spring, is installed in the device of the rod holder, which is mounted on the upper side of the closing casing and, therefore, is located outside of it. This means that this at least one spring is placed between the upper cover of the rod holder device and the upper end of the rod of the covering load, which protrudes from below through the closing casing of the form of the rod holder device. In addition, the lifting yoke acts on the upper end of the rod of the covering load through the holes of the rod holder device, separates the connection between the mold / closing casing during upward movement and raises components such as covering weight, closing casing and preload device as a single module.

Brief Description of the Drawings

The invention and its additional properties and advantages are explained in more detail on the example of an embodiment, which is shown schematically in the drawings:

in FIG. 1 is a vertical sectional view of a vibration compactor in accordance with the invention, in which the vibration holder of the vibration table and the vibration drive are not shown, and

- 1 010850 in FIG. 2 shows the vibration compactor of FIG. 1 after a partial upward movement of the lifting yoke.

Information confirming the possibility of carrying out the invention

Based on the typical embodiment shown in FIG. 1 and 2, the vibration seal is intended, for example, to form anode blocks. The vibration seal at the molding section consists of a vibration table 10, which is mounted on the base frame with the possibility of vibration using spring elements that are not shown in the drawing, in particular pneumatic springs, and which can be made with the possibility of vibrational movements using rotating unbalanced pathogens, which are not shown in the drawing. In the molding section, a mold 11 of a generally rectangular cross-section, which must be filled with hot granular starting materials, is clamped onto a vibrating table 10, which works in conjunction with the covering weight 12. The central rod 13 of the covering weight is guided along the axis through the sealing guide sleeve 15, installed in the hole on the upper side of the hard closing casing 14, which close the form 11 from above.

During operation of the vibratory compactor, the paste is subjected to vibratory compaction in the form of 11 in the interval between the upper part of the vibrating table 10 and the lower part of the covering load 12 to form the anode block 16, as shown in FIG. 1 and 2. After a certain period of vibration, the anode block 16 is formed with its specific density and height. The vibration process is then turned off.

As can be seen in FIG. 2, the closing casing 14 with the covering weight 12 and, possibly together with the mold 11, is lifted by the upper part by the upward movement of the lifting yoke 17, using a cable hoist or hydraulic means, and the finally formed green anode block 16 is pushed from the upper side of the vibrating table 10 to the side, after which the forming section of the vibratory seal is released and can receive a new anode block for its vibration compaction.

To increase the uniform vibrational compaction, to generate additional pressure during compaction and to reduce the vibration period, a preload device with at least one spring 18 is installed on the covering load 12, in particular, made in the form of a bellows made of elastic material into which compressed air, which actually allows you to change the normal mode of the covering load 12, in particular, the frequency of its impacts and the intensity of the impacts during vibration compaction, d even when the vibratory seal is in operation. In FIG. 2 shows pneumatically the bellows 18 of FIG. 1 in a compressed state when the covering load 12 is lifted up.

A distinctive feature of the vibratory seal in accordance with the invention is that the pre-clamping device of the covering load with at least one spring 18 has been installed outside the closing cover 14 of the mold, i.e. located in the rod holder device 19, mounted on the upper part of the closing casing 14. The springs 18 are installed and / or sandwiched between the upper cover 20 of the rod holder device 19 and the upper end of the rod 13 of the covering load, which extends from below through the guide sleeve 15 in the rod holder device 19 . The compressed air hole is indicated at 21 as a central hole in the top cover 20 for supplying compressed air to the spring 18.

Thus, under any conditions, the spring 18 is not in contact with the chemically aggressive atmosphere generated inside the mold system 11 / cover of the casing 14, in particular if the guide sleeve 15 has an additional sealing function.

The radial levers of the lower supporting disk 22 of the lifting yoke 17 are installed in the gaps between the rods located along the outer contour of the rod holder device 19. A support ring 23 is fixed at the upper end of the rod 13 of the covering load, which supports the lower part of the spring 18. In addition, a mounting disk 22 with a central hole that covers the rod 13 of the covering load can be connected to the support ring 23 from the bottom after the lifting yoke 17 moves upward. When moving up the lifting yoke 17, the closing casing 14 with or without form 11, but in any case, with the covering load 12 and with the device of preliminary clamping of the covering load, as a connecting module, may be Nhat with the vibrating table 10 upward. This operation is simplified by using the locking stops 24, interacting with the upper side of the covering load 12, mounted on the inner side of the closing casing 14.

The vibration compactor in accordance with the present invention makes it possible to compact all possible granular starting materials, for example, synthetic resin granules, as well as granular primary or secondary fuel, etc.

Claims (8)

1. Vibration compactor designed for the production of molded parts by compaction of granular starting materials, in particular for the production of anodes and / or cathodes used in the electrolytic melting process in the production of aluminum, using a vibration table (10) mounted on springs to enable vibration, which can be clamped form (11) with a closing casing (14) with a covering weight (12), which can be introduced into the form (11), the upper side of which is connected to the device th preliminary pressing with a spring (18), characterized in that the preliminary pressing device covering the load with at least one spring (18) fitted outside the cover casing (14) forms. 2. Vibratory seal according to claim 1, characterized in that the device for pre-clamping the covering load, which includes a spring (18), is installed inside the device (19) of the stem holder, which is mounted on the upper side of the closing casing (14). 3. Vibratory seal according to claim 2, characterized in that the spring (18) of the cover pre-clamp device is located between the top cover (20) of the rod holder (19) and the top end of the rod (13) of the cover weight that extends from the bottom through the cover (14) mold into the stem holder device. 4. Vibration compactor according to any one of claims 1 to 3, characterized in that the spring (18) of the cover pre-clamp device is a pneumatic bellows, the inner space of which is connected to the compressed air source through an opening (21) in the top cover (20) devices (19) of the stem holder. 5. Vibration compactor according to claim 2, characterized in that the radial levers of the support disk (22) of the lifting yoke (17) are installed in the spaces between the rods of the rod holder device (19), which are formed along the outer contour of the preload device of the covering load with the spring. 6. Vibratory seal according to claim 5, characterized in that the support ring (23) is fixed on the upper end of the rod (13) of the covering load and that the mounting disk (22) with a central hole that covers the rod (13) of the covering load can be connected with a support ring (23) from the bottom after the upward movement of the lifting yoke (17). 7. Vibration compactor according to claim 6, characterized in that after moving the lifting yoke (17) upward, the closing casing (14) is possible together with the mold (11), but in any case with a covering load (12) and with a pre-clamp device covering load as a connection module, can be lifted up. 8. Vibratory seal according to claim 7, characterized in that the locking stops (24) interacting with the upper side of the covering load (12) are installed on the inside of the closing casing (14).