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Gas supply element, composite gas supply brick and preparation method of composite gas supply brick

A technology of gas supply components and gas supply bricks, which is applied in the field of high-temperature smelting, can solve the problems of unreasonable design of ventilation slits, low blowing rate, slit blockage, etc., and achieve reduced oxygen burning operations, high blowing rate, and extended The effect of longevity

Active Publication Date: 2017-03-08
PUYANG REFRACTORIES GRP CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] In the steel (or copper, aluminum) smelting process of the prior art, the gas is supplied to the high-temperature molten steel through the ventilation element or the ventilation brick to uniform the composition and temperature of the molten steel, and promote the floating of impurities in the molten steel to improve the quality of the steel; However, the design of the ventilation slits of the existing ventilation elements or ventilation bricks is not reasonable enough, and steel seepage is prone to occur during actual use, resulting in clogging of the slits and low blow-through rate

Method used

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  • Gas supply element, composite gas supply brick and preparation method of composite gas supply brick
  • Gas supply element, composite gas supply brick and preparation method of composite gas supply brick
  • Gas supply element, composite gas supply brick and preparation method of composite gas supply brick

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Embodiment 1

[0052] Such as Figure 5 with Image 6As shown, the air supply element of the present embodiment is provided with an air supply passage 2, a first anti-seepage and anti-blockage passage 4 and a second anti-seepage and anti-blockage passage 8 in the air supply element 1 (air supply passage 2, first anti-blockage passage The seepage prevention and blocking passage 4 and the second seepage prevention and blocking prevention passage 8 are perpendicular to each other), the first seepage prevention and blocking prevention passage 4 is in fluid communication with two or more than two air supply passages 2 respectively, and the second antiseepage The seepage prevention and blocking passage 8 is also in fluid communication with two or more than two air supply passages 2 respectively, and between any two of the first seepage prevention and blocking prevention passage 4 and the second seepage prevention and blocking prevention passage 8 The fluid conduction is only through the same air ...

Embodiment 2

[0058] Such as Figure 5 with Image 6 As shown, the air supply element of the present embodiment is provided with an air supply passage 2, a first anti-seepage and anti-blocking passage 4 and a second anti-seepage and anti-blockage passage 8 (air supply passage 2, first anti-seepage prevention passage 8) in the air supply element 1 The anti-seepage and anti-blockage passage 4 and the second anti-seepage and anti-blockage passage 8 are perpendicular to each other), the first anti-seepage and anti-blockage passage 4 is in fluid communication with two or more air supply passages 2 respectively, and the second anti-seepage The anti-seepage and anti-blockage passages 8 are also in fluid communication with two or more than two air supply passages 2, and there is only one The same said air supply channel 2 is fluidly connected; said air supply channel 2 is layered in said air supply element 1, and there are two or more than two said air supply channels 2 in each layer, and each lay...

Embodiment 3

[0062] Such as Figure 5 with Image 6 As shown, the air supply element of the present embodiment is provided with an air supply passage 2, a first anti-seepage and anti-blockage passage 4 and a second anti-seepage and anti-blockage passage 8 in the air supply element 1 (air supply passage 2, first anti-blockage passage The seepage prevention and blocking passage 4 and the second seepage prevention and blocking prevention passage 8 are perpendicular to each other), the first seepage prevention and blocking prevention passage 4 is in fluid communication with two or more than two air supply passages 2 respectively, and the second antiseepage The seepage prevention and blocking passage 8 is also in fluid communication with two or more than two air supply passages 2 respectively, and between any two of the first seepage prevention and blocking prevention passage 4 and the second seepage prevention and blocking prevention passage 8 The fluid conduction is only through the same air...

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Abstract

The invention provides a gas supply element, a composite gas supply brick and a manufacturing method of the composite gas supply brick. Gas supply channels, first anti-seepage anti-blockage channels and second anti-seepage anti-blockage channels are arranged in the gas supply element. The first anti-seepage anti-blockage channel is communicated with two or more other gas supply channels through fluid. The second anti-seepage anti-blockage channel is communicated with two or more other gas supply channels through fluid as well. Any two first anti-seepage anti-blockage channels and the corresponding second anti-seepage anti-blockage channel are communicated by the same gas supply channel through fluid. By the adoption of the gas supply element and the gas supply brick with the gas supply elements, steel seepage is not likely to happen in the actual use process, the gas supply channels are not blocked in the gas supply process, the blowing-through rate is high, the oxygen blowing amount is reduced, and the smelting cost is lowered; and due to the high blowing-through rate, the ablation amount of an air brick can be reduced as well, the service life of the air brick is prolonged, and the smelting cost is lowered.

Description

technical field [0001] The invention relates to the field of high-temperature smelting. More specifically, it relates to an air supply element for blowing air into a high-temperature melt, a composite air supply brick and a preparation method for the composite air supply brick. Background technique [0002] In the steel (or copper, aluminum) smelting process of the prior art, the gas is supplied to the high-temperature molten steel through the ventilation element or the ventilation brick to uniform the composition and temperature of the molten steel, and promote the floating of impurities in the molten steel to improve the quality of the steel; However, the design of the ventilation slits of the existing ventilation elements or ventilation bricks is not reasonable enough, and steel seepage is prone to occur during actual use, resulting in blockage of the slits and a low blow-through rate. In order to prevent the ventilation bricks from being blocked, the residual steel is m...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C21C7/072C22B9/05
Inventor 张厚兴吴晓刘国涛李建泽孙荣海
Owner PUYANG REFRACTORIES GRP CO LTD