CN102121115A - Supporting structure of magnesium electrolytic cell - Google Patents

Abstract

The invention discloses a supporting structure of a magnesium electrolytic cell. An insulation support seat (3) is placed on a concrete foundation (4); a horizontal support system (2) is arranged on the insulation support seat (3); a magnesium electrolytic cell (1) is directly placed in the horizontal support system (2); and the compression strength and insulation resistivity of the insulation support seat (3) in the technical scheme are enough; and the horizontal support structure (2) is composed of an upper main beam (5), a secondary beam (6), a secondary beam (7) and a diagonal bracing (8), wherein, the size of each constructional element is determined through calculation. As the horizontal support system is adopted, the friction horizontal thrust caused by the expansion of the electrolytic cell is transformed into the vertical force through the support system so as to be uniformly transmitted to the concrete foundation, thereby reducing the horizontal thrust of the concrete foundation, and enhancing the stability of the concrete foundation.

Description

A kind of closing down magnesium electrolysis bath supporting structure

Technical field

The present invention relates to a kind of supporting structure of closing down magnesium electrolysis bath, particularly a kind of installation supporting structure of closing down magnesium electrolysis bath large-scale, big electric current.

Background technology

At present, existing support structure of aluminum electrolytic cell mode adopts more is placed bench insulator (plate) on foundation of civil work, place crossbeam on bench insulator, will be positioned on the crossbeam with the electrolyzer of bassinet stand at last.Present increasing gradually along with the electrolyzer capacity, the weight that electrolyzer is produced, it is big that the displacement of electric current and thermal expansion also begins to become.Therefore, because the caused frictional force that expands also becomes greatly, associated components and foundation of civil work are carrying bigger frictional force, and be big to the horizontal thrust on concrete basis, and the stability on this basis is had a negative impact; Simultaneously because electric current changes the induced current that produces, also require higher to the insulating property and the intensity of insulated leg.

Summary of the invention

Technical problem to be solved by this invention provides a kind of electrolyzer supporting structure and insulated leg (plate), the horizontal thrust that this supporting structure makes closing down magnesium electrolysis bath thermal strain displacement in process of production produce can pass uniformly on a horizontal supporting system, to reduce horizontal thrust, overcome the deficiencies in the prior art to the concrete basis.

In order to solve the problems of the technologies described above, the present invention takes following basic technical scheme: place insulated leg on the concrete basis, place horizontal supporting system on insulated leg, directly place the closing down magnesium electrolysis bath of band bassinet stand on horizontal supporting system.

Horizontal supporting system is made up of girder, first secondary beam, second secondary beam and diagonal brace.Girder is supported on the bench insulator, and first secondary beam is placed on girder 5, the second secondary beams and is placed in the middle of first secondary beam, and diagonal brace is connected with first secondary beam.Horizontal supporting system passes to horizontal thrust on the concrete basis uniformly by insulated leg.

Compared with prior art, the present invention has adopted horizontal supporting system, makes electrolyzer pass to uniformly on the concrete basis owing to the caused friction level thrust that expands changes vertical power into by support system.Thereby reduced the horizontal thrust on concrete basis, increased basic stability.

Basic technical scheme of the present invention has changed traditional supporting way, and the horizontal thrust that passes on the basis is significantly reduced, thereby has increased basic stability.

Description of drawings

Fig. 1 is a supporting structure elevational schematic view of the present invention;

Fig. 2: supporting structure floor map of the present invention.

Embodiment

Embodiment 1, and as shown in Figure 1: this supporting structure comprises closing down magnesium electrolysis bath 1, horizontal supporting system 2, insulated leg 3 and concrete basis 4, earlier by traditional method construction reinforced bar concrete basis 4; And levelling is placed insulated leg 3 on Steel Concrete concrete basis 4 then; On process horizontal supporting system 2 on the ground, on insulated leg 3, place horizontal supporting system 2, place the closing down magnesium electrolysis bath 1 of band bassinet stands at horizontal supporting system 2.

Horizontal supporting system 2 is made up of girder 5, first secondary beam 6, second secondary beam 7 and diagonal brace 8, and girder 5 is supported on the bench insulator 3, and first secondary beam 6 is placed on the girder 5, and second secondary beam 7 is placed in the middle of first secondary beam 6, and diagonal brace 8 is connected with first secondary beam 6.Horizontal supporting system passes to horizontal thrust on the concrete basis uniformly by insulated leg, thereby has reduced the horizontal thrust on concrete basis, has increased basic stability.

Claims (2)

1. the supporting structure of a closing down magnesium electrolysis bath, it is characterized in that: it comprises closing down magnesium electrolysis bath (1), horizontal supporting system (2), insulated leg (3) and concrete basis (4), go up placement insulated leg (3) in concrete basis (4), go up placement horizontal supporting system (2) at insulated leg (3), place closing down magnesium electrolysis bath (1) at horizontal supporting system (2).

2. the supporting structure of closing down magnesium electrolysis bath according to claim 1, it is characterized in that: horizontal supporting system (2) is made up of girder (5), first secondary beam (6), second secondary beam (7) and diagonal brace (8), girder (5) is supported on the bench insulator (3), first secondary beam (6) is placed on the girder (5), second secondary beam (7) is placed in the middle of first secondary beam (6), and diagonal brace (8) is connected with first secondary beam (6).

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