CN100485094C

CN100485094C - Serving machine for electrolysis cells for producing aluminium

Info

Publication number: CN100485094C
Application number: CNB2004800028800A
Authority: CN
Inventors: P·德莱克吕兹
Original assignee: ECL SAS
Current assignee: Fives ECL SAS
Priority date: 2003-01-31
Filing date: 2004-01-28
Publication date: 2009-05-06
Anticipated expiration: 2024-01-28
Also published as: CA2512745C; BRPI0407135A; EP1443128A1; AR042735A1; CN1742117A; ATE299193T1; DE60300977D1; WO2004070086A3; US20060060469A1; EP1443128B1; WO2004070086A8; WO2004070086A2; DE60300977T2; IS8000A; CA2512745A1

Abstract

The invention relates to a device for the mechanical and electrical rotatable connection (100) between a transportation module (6) and the material handling and interaction organs of an aluminium producing plant by fire electrolysis. The inventive device is characterised in that it comprises a fixed rack (101) provided with a core (102) and a sleeve (121) which encompasses the core (102) and rotates therearound, first (110) and second (120) rotatable racks rotating around the sleeve (121), sliding and rotatable electric contacts (113, 114) between the bodies and an actuating system (140, 141, 142, 150, 151, 152) which initiates the rotation of the racks with respect to each other around a common axis (103). The inventive connecting device makes it possible to carry out an angularly unlimited rotation between three racks providing with a permanent electrical contact therebetween.

Description

Be used to produce the mechanical arm of the electrolyzer of aluminium

Technical field

The present invention relates to use molten bath electrolytic production of aluminum according to Hall-Ai Lu (Hall-H é roult) method.Especially, the present invention relates to the electrolytic cell operation device used on the walking crane used in producing the device of aluminium.

Background technology

Metallic aluminium industrial be by the molten bath electrolysis, that is by producing with well-known Hall-H é roult method electrolytic oxidation aluminum solutions in being called the molten cryolitic electrolytic solution of electrolytic solution.Electrolytic solution is contained in the groove that is called " electrolyzer ", and above-mentioned " electrolyzer " comprises a kind of box hat and cathode assembly at the bottom land place that is lined with heat-stable material and/or lagging material in inside.The anode part made from carbonaceous material immerses in the electrolytic solution.The assembly that is formed by electrolyzer, its anode and electrolytic solution is called electrolyzer.

Contain many electrolyzers in the device, the arrangement of in buildings, embarking on journey of these electrolyzers, above-mentioned buildings is called potroom or tank room, and above-mentioned electrolyzer is connected in series with the connection lead, so that optimize the floor space of device.Electrolyzer is arranged in two or some parallel row usually, and the above-mentioned parallel end leads that worked is electrically connected mutually.Therefore Faradaic current becomes cascade to forward next electrolyzer to from an electrolyzer.

During operation, electrolyzer need be intervened electrolyzer, especially comprises with new anode replacement scrap anode, extracts liquid metal, extraction or add ionogen from electrolyzer.Go-go device is equipped with one or several electrolytic cell operations unit, so that implement this work, the aforesaid operations unit comprises a walking crane, described walking crane can vertically move above electrolyzer, and electrolytic cell operation module, it comprises a portable driving and some loading and unloading and equipment (usually being called " instrument ") as scraper bowl and tackleblock, and they can move on walking crane.These electrolytic cell operation unit usually are called electrolytic cell operation assembly (PTA) or electrolytic cell operation machine (PTM).

Yet the unitary locomotivity of known electrolytic cell operation is restricted, especially because feed cable can only be done limited motion of translation or limited rotatablely moving.

Therefore, the applicant explores the electrolytic cell operation unit, keeps reliable simultaneously so that avoid these shortcomings.

Summary of the invention

The objective of the invention is at a transportation module, normally portable driving, and loading and unloading in the Aluminum Electrolysis Production device of molten bath and a kind of rotary machine and the electrical connection arrangement between the equipment, it is characterized in that, it comprises: " fixed " framework, described lining of stationary frame assembling or linear axis; A sleeve, described sleeve surrounds lining, can be around this lining rotation; First and second " rotary " framework, the described first and second rotary frameworks can rotate around sleeve; With slip rotary electric point of contact, described electrical pickoff is between framework and drive system, so that each framework is rotated relative to one another around a common axis line.

More precisely, it is characterized in that according to rotary machine of the present invention and electrical connection arrangement it comprises:

" fixed " framework, described " fixed " framework comprise a lining or the axle, described lining or the axle be referred to as " the " center " axle, should " rotation of " center " axis limit,

A sleeve, described sleeve surround above-mentioned lining and can rotate around above-mentioned lining with around above-mentioned rotation,

One first " rotary " framework, described first " rotary " framework rotates with above-mentioned sleeve, and can rotate around rotation,

One second " rotary " framework, described second " rotary " framework can rotate around above-mentioned sleeve and above-mentioned rotation,

A plurality of first slip rotary electric point of contact, the described first slip rotary electric point of contact comprises a member and another member, an above-mentioned member designs on the outer lead and is fixed on the stationary frame for being connected to, and above-mentioned another member is to design and be fixed on the sleeve on the lead that is connected in the system, described system can be driven and be rotated

A plurality of second slip rotary electric point of contact, the described second slip rotary electric point of contact comprises a member and another member, an above-mentioned member is fixed on second rotating frame, and above-mentioned another member is fixed on the sleeve, each member all designs for being connected on the lead in the system, described system can be driven and be rotated

One first drive system, described first drive system can make the first rotary framework rotate around above-mentioned rotation,

One second drive system, described second drive system can make the second rotary framework rotate around above-mentioned rotation.

Therefore, become independently of each other around common axis line rotation according to the sleeve design of two rotary frameworks of the present invention and coupling device, above-mentioned rotation is normally vertical in use.Thereby the rotation of framework and telescopic said that becoming is " co-axial ".Sleeve is by the first rotary framework, and normally by a mechanical mechanism such as pin, driving is in rotating state.

Can under the situation that does not have angle limits between three frameworks, rotate according to coupling device of the present invention, and between them, form permanent electrical connection simultaneously.Each framework rotates the comfortable and efficient that this fact has increased the operator independently.

Description of drawings

The present invention will be better understood after the detailed description of having seen the preferred embodiment of the present invention that describes with reference to the accompanying drawings.

Fig. 1 is depicted as aluminium production and the sectional view of the typical tank room that designs, and comprises and schematically show a kind of electrolytic cell operation unit.

Fig. 2 illustrates a kind of schematic side-view of electrolytic cell operation module of device, and said apparatus is produced aluminium by molten bath of the present invention electrolytic process.

Fig. 3 illustrates the sectional view according to a kind of coupling device of the present invention.

Embodiment

The electrolyzer that designs for production aluminium comprises a liquid aluminium production area, and described liquid aluminium production area comprises one or some tank rooms 1.As shown in Figure 1, each tank room 1 all comprises some electrolyzers 2 and at least one " electrolytic cell operation unit " or " electrolytic cell operation machine " 3.Electrolyzer 2 normally is arranged in plurality of rows or row (being typically side by side or formula arrangement head to head), and each row or row are typically the electrolyzer that comprises more than 100.Above-mentioned electrolyzer 2 comprises a series of anode 21, and described anode 21 is all equipped a metal bar 22, and above-mentioned metal bar 22 is used for anode being connected and being electrically connected on the metal anode framework (not shown).

Electrolytic cell operation unit 3 is used for being implemented in the operation on the electrolyzer 2, as anode change or with the ground melt with use AlF ₃The hopper of filling electrolyzer.It also can be used for loading and unloading various load such as electrolyzer component, liquid metal bag or anode.

Electrolytic cell operation unit 3 comprises a walking crane 4 and an electrolytic cell operation module 5, above-mentioned walking crane 4 can vertically move above electrolyzer 2, and above-mentioned electrolytic cell operation module 5 comprises movable type driving 6 and several loading and unloading and equipment such as a various tool (scraper bowl, spanner, hardening layer shredder assembly etc.) and the watch-keeping cubicle that can move on walking crane 4.

Walking crane 4 is bearing in crane track 30,30 ' go up and is parallel to each other and is parallel to the workshop main axis of (with the row of electrolyzer) along above-mentioned track 30,30 ' move, above-mentioned crane track 30,30 ' be mounted to.Therefore walking crane 4 can move along tank room 1.

According to the present invention, in the Aluminum Electrolysis Production device of molten bath, rotary machine and electrical connection arrangement 100 between the normally portable driving 6 of transportation module and loading and unloading and equipment is characterized in that it comprises:

" fixed " framework 101, described " fixed " framework 101 is designed to can be fixed on the above-mentioned transportation module, and comprises a lining 102 that limits rotation 103, described lining 102 common principal planes perpendicular to said fixing formula framework;

A sleeve 121, described sleeve 121 surrounds above-mentioned lining 102, and can be around above-mentioned lining 102 with around above-mentioned rotation 103 rotations;

One first " rotary " framework 110, described first " rotation " framework 110 can and drive above-mentioned sleeve 121 around above-mentioned rotation 103 rotations and be in rotating state, and are designed to carry at least one loading and unloading and equipment;

One second " rotation " framework 120, described second " rotary " framework 120 can rotate around above-mentioned sleeve 121 and above-mentioned rotation 103, and is designed to carry at least one loading and unloading and equipment;

At least a plurality of first slides and rotary electric point of contact 113, each slides and rotary electric point of contact 113 all comprises at least one first member 1131 and at least one second member 1132, above-mentioned first member 1131 is fixed on the stationary frame 101 and is connected at least one outer lead 117, and above-mentioned second member 1132 is fixed on the sleeve 121 and is connected at least one

distribution lead

118,1181,1182.

A plurality of second slides and rotary electric point of contact 114, each slides and rotary electric point of contact 114 all comprises at least one first member 1141 and at least one second member 1142, above-mentioned first member 1141 is fixed on the second rotary framework 120 and is connected at least one distribution lead 119, and above-mentioned second member 1142 is fixed on the sleeve 121 and is connected at least one

distribution lead

1181,1182;

One first drive system, described first drive system can make the first rotary framework 110 around above-mentioned axis 103 rotations;

One second drive system, described second drive system can make the second rotary framework 120 around above-mentioned axis 103 rotations.

Lining 102 is when rotated with respect to stationary frame 101 lockings.During use, stationary frame 101 is normally above rotary framework 110,120, and rotation 103 is vertical usually basically.

The first rotary framework 110 is with sleeve 121 rotation, and normally drives above-mentioned sleeve by a mechanical mechanism such as pin and be in rotating state.

Above-mentioned a plurality of slip and rotary electric point of contact 113,114 generally include ring or track and plurality of fixed brush or the slider to framework 101,120 of plurality of fixed to the sleeve 121.Usually have several or tens rotations and sliding type electrical pickoff.Especially, they can be used for transmitting control signal and electric power.115,116 protections of shell of above-mentioned a plurality of electrical pickoff 113,114 usefulness are favourable.Framework 101,110,120 generally includes opening, and said external lead and distribution lead can pass above-mentioned opening.

Outer lead 117 is fixed with respect to stationary frame usually.Distribution lead the 118,1181,1182, the 119th, the electrical lead of coupling device, above-mentioned coupling device can drive by the above-mentioned rotary framework 110,120 of rotation.The distribution lead comprises one first a

serial lead

118,1181,1182 and a second series lead 119, the above-mentioned first

serial lead

118,1181,1182 is normally fixed and is fixed on the first rotary framework 110 with respect to sleeve 121, and above-mentioned second series lead 119 is normally fixed with respect to the second rotary framework 120.

In an advantageous embodiments of the present invention, coupling device 100 also comprises:

One first annular bearing 111, described first annular bearing 111 are between the stationary frame 101 and the first rotary framework 110, and it can rotate between above-mentioned these two frameworks around a rotation 103;

One second annular bearing 112, described second annular bearing 112 are between the first rotary framework 110 and the second rotary framework 120, and it can rotate between above-mentioned these two frameworks around rotation 103.

Annular bearing 111,112 is rolling bearing normally, as has the ring of roller bearing.

Advantageously comprise one or more assemble mechanisms that said frame 101,110,120 are clamped in the axial location of regulation according to coupling device 100 of the present invention.These assemble mechanisms can be combined in the annular bearing 111,112 whole or in part.

Drive system generally includes 141,151 and toothed rings 142 of 140,150, one gears of a motor or toothedly takes turns 152.Motor 140,150 and ring are respectively fixed on the stationary frame 101 and are fixed on one of them of rotary framework 110,120, and perhaps vice versa.Motor 140,150 can be fixed on rotary framework or the stationary frame by a mechanical mechanism such as arm 153.

According to the another kind of possible variant of the present invention, drive system can comprise one or more motion-work wheel and at least one track that clamp based on the surface.

Coupling device 100 advantageously comprises complementary annular bearing 160,161,162,163,164 and/or complementary annular bearing 170,171.Above-mentioned complementary annular bearing 160,161,162,163,164 is between sleeve 121 and stationary frame 101, perhaps by lining 102, as shown in Figure 3.And above-mentioned complementary annular bearing the 170, the 171st, between the sleeve 121 and the second rotary framework 120.These complementary bearings are avoided the lateral shift of spinner member.

According to a kind of favourable variant of the present invention, coupling device also comprises rotary pneumatic and/or hydraulic pressure connection mechanism, described connection mechanism is in stationary frame 101 and at least between one of them of rotary framework 110,120, and preferably and between they the two, and therefore be used for wherein at least one turret.Especially, these connection mechanisms can be fed to loading and unloading and equipment to pressurized air.These mechanisms advantageously are included in an axial cavity 130 in the lining 102, sealed swivel joint 131,132 and complementary pipeline 133,134.

In a preferred embodiment of the present invention shown in Figure 3, the first rotary framework 110 is between the stationary frame 101 and the second rotary framework 120.In this embodiment of the present invention, the drive system of the second rotary framework 120 comprises that preferably one is toothedly taken turns 152 and motors 150, above-mentionedly toothedly take turns 152 and be fixed on the lining 102, and above-mentioned motor 150 is fixed on the second rotary framework 120 and assemble a gear 151.

Another object of the present invention is a kind of for the electrolytic cell operation module of using in the Aluminum Electrolysis Production device of molten bath 5, and comprises a driving 6 and some loading and unloading and equipment, it is characterized in that it also comprises:

One according to coupling device 100 of the present invention, and described coupling device 100 joins in the above-mentioned driving 6 by said fixing formula framework 101.

One first turret 110 ', described first turret 110 ' form or join on the above-mentioned first rotary framework 110 by the above-mentioned first rotary framework 110, and comprise at least one first loading and unloading and equipment;

One second turret 120 ', described second turret forms or joins on the above-mentioned second rotary framework 120 by the above-mentioned second rotary framework 120, and comprises at least one second loading and unloading and equipment.

For example, first turret 110 ' generally include a watch-keeping cubicle 11 and a hopper 10, described hopper 10 is equipped with anode and covers product.Second turret 120 ' be equipped with the usually various electrolytic cell operation instruments that electrolyzer is used, as: a kind of hardening layer shredder assembly 8, described hardening layer shredder assembly 8 are smashed around the anode and the aluminum oxide and the sodium aluminum fluoride hardening layer that form between each anode; A scraper bowl 7, described scraper bowl 7 are used for the dismounting solid component that electrolyzer comprised when anode change; With an anode loading and unloading system 9, described system design is for taking out scrap anode and being used for more renewing anode.

Thereby coupling device 100 placement so usually, when being in the working position with box lunch driving 6 on walking crane 4, rotary framework 110,120 is positioned at the below of stationary frame 101.

Make the operator in his working process, have good visuality according to electrolytic cell operation module of the present invention to electrolyzer with to loading and unloading and Work tool or device.Especially by avoiding the wide-angle rotation with respect to his starting point, it also can make operator's task simplify.It can also use same module in the tank room that separates.In the above-mentioned tank room that separates, each electrolyzer is not all to determine the orientation by identical mode.

Another object of the present invention is a kind of electrolytic cell operation unit 3 that is used for molten bath Aluminum Electrolysis Production device, and described operating unit 3 comprises that a walking crane 4 and at least one are according to electrolytic cell operation module 5 of the present invention.

Another object of the present invention is to use according to electrolytic cell operation module 5 of the present invention or electrolytic cell operation unit 3 carries out work on for molten bath electrolytic production of aluminum designed electrolytic cell 2.

Label declaration

1 tank house

2 electrolytic cells

3 electrolytic cell operation unit

4 walking cranes

5 electrolytic cell operation modules

6 drivings

7 scraper bowls

8 hardening layer shredder assemblys

9 anode loading and unloading system

10 hoppers

11 watch-keeping cubicle

21 anodes

22 anode bars

30,30 ' walking crane track

100 machineries and electrical connection arrangement

101 stationary frame

103 lining rotations

110 first rotary frameworks

110 ' the first turrets

111 first annular bearings

112 second annular bearings

More than 113 first is slided and the rotary electric point of contact

More than 114 second is slided and the rotary electric point of contact

1131, first member of 1141 each electrical pickoff (being referred to as " external member ")

1132, second member of 1142 each electrical pickoff (being referred to as " internals ")

115,116 protecting sheathings

117 external electric leads

118,1181,1182 distribution leads

119 distribution leads

120 second rotary frameworks

120 ' the second turrets

121 sleeves

122 rotary joint bodies

123 rotary driving mechanisms

130 axial cavities

131,132 sealed swivel joints

133,134 pipelines

140,150 drive-motor

141,151 gears

142 toothed rings

152 toothed wheels

153 arms

The complementary annular bearing of 160-164

170,171 complementary annular bearings

Claims

1. rotary machine and electrical connection arrangement (100), described device (100) is in the Aluminum Electrolysis Production device of molten bath between a transportation module and loading and unloading and equipment, it is characterized in that it comprises:

" fixed " framework (101), described " fixed " framework (101) is designed to be assembled on the above-mentioned transportation module, and comprises a lining (102) that limits rotation (103);

A sleeve (121), described sleeve (121) surrounds above-mentioned lining (102), and can rotate around lining (102) with around above-mentioned rotation (103);

One first " rotary " framework (110), described first " rotary " framework (110) can rotate and drive above-mentioned sleeve (121) and be in rotating state around above-mentioned rotation (103), and are designed to carry at least one loading and unloading and equipment;

One second " rotary " framework (120), described second " rotary " framework (120) can rotate around above-mentioned sleeve (121) and above-mentioned rotation (103), and is designed to carry at least one loading and unloading and equipment;

A plurality of first slides and rotary electric point of contact (113), each first slip and rotary electric point of contact (113) all comprise at least one first member (1131) and at least one second member (1132), the stationary frame (101) that is fixed to above-mentioned first member (1131) goes up and is connected at least one outer lead (117), and above-mentioned second member (1132) is fixed on the sleeve (121) and be connected at least one distribution lead (118,1181,1182) on;

A plurality of second slides and rotary electric point of contact (114), each second slides and rotary electric point of contact (114) comprises that all at least one is fixed to the second rotary framework (120) and goes up and be connected to first member (1141) at least one distribution lead (119) and at least one to be fixed to sleeve (121) last and be connected at least one distribution lead (1181,1182) second member (1142) on, above-mentioned first member (1141);

One first drive system, described first drive system can make the first rotary framework (110) rotate around above-mentioned axis (103);

One second drive system, described second drive system can make the second rotary framework (120) rotate around above-mentioned axis (103).

2. according to the described coupling device of claim 1 (100), it is characterized in that it also comprises:

One first annular bearing (111), described first annular bearing (111) are between the stationary frame (101) and the first rotary framework (110), and it can rotate around rotation (103) between these two frameworks;

One second annular bearing (112), described second annular bearing (112) are between the first rotary framework (110) and the second rotary framework (120), and it can rotate around rotation (103) between these two frameworks.

3. according to claim 1 or 2 described coupling devices (100), it is characterized in that drive system comprises a motor (140,150), a gear (141,151) and a toothed ring (142) or toothed a wheel (152).

4. according to claim 1 or 2 described coupling devices (100), it is characterized in that drive system comprises one or more driving wheel and at least one track that clamp based on the surface.

5. according to claim 1 or 2 described coupling devices (100), it is characterized in that it is included in the complementary annular bearing (160,161,162,163,164) between sleeve (121) and the stationary frame (101).

6. according to claim 1 or 2 described coupling devices (100), it is characterized in that it also is included in the rotary pneumatic and/or hydraulic pressure connection mechanism between stationary frame (101) and at least one the rotary framework (110,120).

7. according to the described coupling device of claim 6 (100), it is characterized in that rotary pneumatic connection mechanism is included in the axial cavity (130) in the lining (102), sealed swivel joint (131,132) and complementary pipeline (133,134).

8. according to claim 1 or 2 described coupling devices (100), it is characterized in that the first rotary framework (110) is positioned between the stationary frame (101) and the second rotary framework (120).

9. according to the described coupling device of claim 8 (100), it is characterized in that, the drive system of the second rotary framework (120) comprises toothed a wheel (152) and a motor (150), above-mentioned toothed wheel the (152) is fixed on the lining (102), and above-mentioned motor (150) is fixed on the second rotary framework (120) and be equipped with a gear (151).

10. electrolytic cell operation module (5) is used in the Aluminum Electrolysis Production device of molten bath, and described electrolytic cell operation module (5) comprises a driving (6) and loading and unloading and equipment, it is characterized in that it also comprises:

One according to one of them described coupling device (100) of claim 1-9, and described coupling device (100) joins in the above-mentioned driving (6) by said fixing formula framework (101);

One first turret (110 '), described first turret (110 ') forms or joins on the above-mentioned first rotary framework (110) by the above-mentioned first rotary framework (110), and comprises at least one first loading and unloading and equipment;

One second turret (120 '), described second turret (120 ') forms or joins on the above-mentioned second rotary framework (120) by the above-mentioned second rotary framework (120), and comprises at least one second loading and unloading and equipment.

11. according to the described electrolytic cell operation module of claim 10 (5), it is characterized in that, coupling device (100) is placed to and makes that rotary framework (110,120) is positioned at the below of stationary frame (101) when driving (6) is in the working position on walking crane (4).

12. be used for the electrolytic cell operation unit (3) of molten bath Aluminum Electrolysis Production device, comprise that a walking crane (4) and at least one are according to claim 10 or 11 one of them described electrolytic cell operation module (5).

13. utilize according to claim 10 or 11 described electrolytic cell operation modules (5), on for molten bath electrolytic process production aluminium designed electrolytic cell (2), carry out work.

14. utilize according to the described cell operation of claim 12 unit (3), on for molten bath electrolytic process production aluminium designed electrolytic cell (2), carry out work.