阅读说明：本技术 用于在电解池上传送干预工具的搬运设备 (Handling device for conveying intervention tools on electrolytic cells ) 是由 F·布伦 S·瑞纳乌迪尔 于 2020-03-11 设计创作，主要内容包括：用于传送干预工具使得能够执行对电解池的干预的搬运设备。该搬运设备(1)包括承载干预工具(2)的底盘(10),以及允许所述底盘(10)移动、特别是沿着电解池(3)的上部结构移动的移位装置。另外,所述移位装置适于置支撑在所述上部结构上。(Handling equipment for conveying intervention tools enabling intervention on the electrolytic cell to be performed. The handling device (1) comprises a chassis (10) carrying the intervention tool (2), and displacement means allowing said chassis (10) to move, in particular along the superstructure of the electrolytic cell (3). In addition, the displacement device is adapted to be placed supported on the superstructure.)

1. Handling device (1) for conveying intervention tools (2) capable of intervening on an electrolytic cell (3) having a superstructure (30), said handling device (1) comprising a chassis (10) carrying said intervention tools (2), and displacement means adapted to allow said chassis (10) to move, characterized in that said displacement means are adapted to abut against said superstructure (30).

2. Handling apparatus (1) according to the preceding claim, wherein the handling apparatus (1) comprises lifting means configured to raise or lower the intervention tool (2) between a parking position, capable of keeping the intervention tool (2) away from the electrolytic cell (3), and a working position, capable of lowering the intervention tool (2) into contact with the electrolytic cell (3).

3. Handling device (1) according to the preceding claim, wherein the lifting means are cable lifting means (102).

4. Handling device (1) according to any of claims 2 to 3, wherein the lifting means comprise a motorized crane or winch (100).

5. Handling device (1) according to any of claims 2 to 4, wherein the lifting means comprise means for detecting the arrival of the intervention tool (2) at a working position.

6. Handling device (1) according to any of the preceding claims, wherein the handling device (1) comprises guiding means configured to guide the intervention tool (2) according to a predetermined path from a parking position to a working position.

7. Handling device (1) according to the preceding claim, wherein the guiding means comprise two parallel flanges (18), between which the intervention tool (2) extends into the parking position, each flange (18) comprising a groove designed to receive and guide an element attached to the intervention tool (2).

8. Handling apparatus (1) according to any of the preceding claims, wherein the handling apparatus (1) comprises a holding member designed to prevent a chassis (10) carrying the intervention tool (2) from tilting on one side or the other of the superstructure (30).

9. Handling device (1) according to any of the preceding claims, wherein the handling device (1) carries two intervention tools (2) arranged on opposite sides of the chassis (10).

10. Handling device (1) according to any of claims 1 to 9, wherein the handling device (1) carries a single intervention tool (2) arranged on a rotating platform located on the chassis (10).

11. Handling device (1) according to any of claims 1 to 10, wherein said displacement means allow displacement of said chassis (10) along a superstructure (30) of said electrolytic cell (3).

12. Handling device (1) according to any of claims 1-11, wherein the chassis (10) is moved over the superstructure (30).

13. Intervention plant on an electrolytic cell (3), comprising a handling device (1) according to any of the preceding claims and an intervention tool (2), said intervention tool (2) comprising a mount (22) provided with one or more bearing surfaces (220) to allow said intervention tool (2) to be pressed against and stably supported directly on at least one element of said electrolytic cell (3) in said working position.

14. The intervention device of the preceding claim, wherein the mount (22) of the intervention tool (2) comprises reversible fixing means adapted to create a reversible attachment between the mount (22) and at least one element of the electrolytic cell (3).

15. Handling device (1) according to any of claims 13 to 14, wherein the intervention tool (2) comprises a part (24) movable with respect to the mount (22), displacement means for translationally moving the movable part (24) with respect to the mount (22), the movable part (24) comprising engagement means configured to engage an anode rod (36) of an anode assembly (38) of the electrolytic cell (3) so as to fix in translation the anode rod (36) and the movable part (24).

16. Handling equipment (1) according to any of claims 13 to 15, wherein the intervention tool (2) comprises tightening/loosening means adapted to tighten/loosen a connector (32) holding the anode assembly (38) in place within the electrolytic cell (3).

17. An electrolytic cell (3) comprising a superstructure (30), an anode frame (34) supported by said superstructure (30), and an intervention device (1) according to any of claims 1-12, wherein said superstructure (30) comprises a surface (300) against which said displacement means is pressed.

18. Electrolytic cell (3) according to the preceding claim, wherein the surface (300) on which the displacement means rest is the upper surface of the superstructure (30).

19. Electrolytic cell (3) according to any of claims 17 to 18, wherein the superstructure (30) and/or the displacement means form a displacement path of the chassis (10) at least over the entire length of the anode frame (34).

20. Electrolytic cell (3) according to the preceding claim, wherein the displacement path has a storage track (40) at one end of the electrolytic cell (3).

21. Electrolytic cell (3) according to any of claims 17 to 20, wherein the displacement means comprise guiding means designed to guide the chassis (10) in translation in the longitudinal direction of the electrolytic cell (3).

22. Electrolytic cell (3) according to the preceding claim, wherein the displacement means comprise drive means configured to move the chassis (10) along the superstructure (30).

23. Aluminium smelter comprising at least one electrolytic cell (3) according to any one of claims 17 to 22.

24. The intervention method of an electrolytic cell (3) according to any of the claims from 17 to 22, comprising the steps of:

-displacing the chassis (10),

-displacing the intervention tool (2) from a parking position to a working position,

-performing an intervention on the electrolytic cell (3) using the intervention tool (2),

-displacing the intervention tool (2) from a working position to a parking position.

25. The intervention method according to the preceding claim, wherein the intervention on said electrolytic cell (3) is a repositioning of the anode assembly (38) and comprises the steps of:

-engaging the intervention tool (2) with an anode rod (36) of an anode assembly (38) to be repositioned,

-loosening a connector (32) of an electrolytic cell (3) to release the anode rod (36),

-displacing the anode assembly (38) such that a lower surface of the anode assembly (38) is brought into a predetermined position,

-tightening the connector (32),

-disengaging the intervention tool (2) and the anode rod (36),

-displacing the intervention tool (2) to the parking position.