CN102672155A - Iron ladle - Google Patents

Abstract

The invention relates to an iron ladle and belongs to the technical field of steel smelting. The iron ladle comprises an iron package and refractory bricks, wherein a layer of refractory material is applied on the refractory bricks, the refractory material comprises a casting material and high alumina cement, and the weight percentage ratio of casting material to high alumina cement is 7:1. Since the refractory material is applied on the refractory bricks, when iron dross is attached to the refractory bricks in the iron ladle, the iron ladle is cooled and the iron dross attached to the refractory bricks is poured out, then the refractory material is re-coated on the refractory bricks for further use. The production cost is reduced, the energy consumption is reduced, the environmental pollution is reduced, and the service life of the iron ladle is increased.

Description

Ladle

Technical field

The present invention relates to a kind of ladle, belong to field of iron and steel smelting.

Background technology

At present, the ladle that use in the large, medium and small ironworks of China all is only thorough in the iron bag refractory brick to be arranged, and smears the coating that one deck is processed by refractory cement and pours at refractory brick; On on the coating, spray a coating again, after using a period of time, will stick the molten iron slag on the coating in the iron bag; Take off slag; Cause production cost to increase, energy-output ratio is big, and environmental pollution is serious.

Summary of the invention

The object of the present invention is to provide a kind of production cost low, reduce and the pollution of environment is fallen a kind of ladle of low energy expenditure.

Technical solution: the present invention includes: iron bag, refractory brick, smear one deck refractory material on the refractory brick, smear one deck refractory material on the refractory brick, refractory material comprises: pours, alumina cement, by weight percentage, pours: alumina cement=7: 1.

Said refractory material by weight percentage, pours: alumina cement=5: 1.

The present invention is owing to be wiped with refractory material on refractory brick, so on the refractory brick in the ladle, stick scum, the cooling ladle is poured out the scum that is bonded on the refractory material, and then just can continue to use with spreading refractory material on the refractory brick.The present invention has reduced production cost, has reduced energy resource consumption, has reduced the pollution to environment, has prolonged the service life of ladle.

Description of drawings

Fig. 1 is a round bottom ladle structural representation of the present invention;

Fig. 2 is the flat ladle structural representation of the present invention.

The specific embodiment

Embodiment 1

Get alumina cement 200kg, commercially available pours 1000kg; With processing refractory material 3 after above-mentioned two kinds of mixing of materials, by weight percentage, refractory material: water-2: 1 is made into the oar material; The oar material for preparing directly is put on the refractory brick 2 in round bottom or the flat iron bag 1, smears the thickness 1-2cm of oar material.

Embodiment 2

Get aluminic acid cement 100kg, common refractory brick or high-alumina brick and pulverize material 700kg; With processing refractory material 3 after above-mentioned two kinds of mixing of materials; By weight percentage; Refractory material: water=be made into oar material at 2: 1, the oar material for preparing directly is put on the refractory brick 2 in round bottom or the flat iron bag 1, smear the thickness 1-2cm of oar material.

Claims (2)

1. ladle, comprising: iron bag (1), refractory brick (2) is characterized in that: smear one deck refractory material (3) on the refractory brick (2), refractory material (3) comprising: pours, alumina cement, by weight percentage, pours: alumina cement=7: 1.

2. ladle according to claim 1 is characterized in that: by weight percentage, and pours: alumina cement=5: 1.

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