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A Furnace Pool Optimization Method for Reinforced Fiber Glass Melting Furnace

A glass melting furnace and fiber-reinforced technology, which is applied in the field of fiber-reinforced glass melting furnace and furnace pool optimization, can solve problems such as affecting glass quality, and achieve the effects of enhancing cooling effect, speeding up flow rate, and improving cooling efficiency.

Inactive Publication Date: 2017-06-09
重庆留鑫玻璃钢制品厂
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The object of the present invention is to provide a furnace pool optimization method for strengthening fiber glass melting furnace, to prevent the pool wall wind from directly blowing into the lower gap and bring debris into the kiln to pollute the glass liquid, so as to solve the problem of cooling the pool wall bricks. And the problem that affects the quality of glass

Method used

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  • A Furnace Pool Optimization Method for Reinforced Fiber Glass Melting Furnace
  • A Furnace Pool Optimization Method for Reinforced Fiber Glass Melting Furnace
  • A Furnace Pool Optimization Method for Reinforced Fiber Glass Melting Furnace

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Embodiment 1

[0021] Such as Figure 1 to Figure 3 As shown, the present invention is a method for optimizing the furnace pool of a fiberglass melting furnace, which includes an air duct 7 connected to a compressed air source and a pool wall tuyere 2, and the pool wall tuyere 2 is connected to the wind through a bending portion 8 The pipe 7 is connected, and the pool wall air nozzle 2 is composed of the upper part 4 of the air nozzle and the lower part 5 of the air nozzle. , the shorter bottom edge of the trapezoidal plate is connected to the bent portion 8, and the length of the upper part 4 of the air nozzle is greater than the length of the lower part 5 of the air nozzle. In order to ensure the life of the pool wall brick 3 and the quality of glass production, the glass kiln wall brick 3 needs to be continuously cooled and dissipated during the glass production process, and the heat dissipation method usually adopts water cooling or air cooling or a combination of water cooling and air c...

Embodiment 2

[0023] Such as figure 2 and image 3 As shown, in this embodiment, on the basis of Embodiment 1, a plurality of spiral grooves 9 are also provided in the lower part 5 of the tuyere, and the lower part 5 of the tuyere is an arc groove whose outer diameter decreases along the direction of the pool wall brick 3 Or V-groove. The multiple spiral grooves 9 arranged in the groove can make the mixed gas and the cooling air flowing in from the air inlet form a turbulent flow in the groove, thereby speeding up the flow speed of the cooling air and improving the cooling effect of the cooling air on the pool wall per unit time. The cooling efficiency of the brick 3; the lower part of the air nozzle 5 of the arc groove or the V-shaped groove can ensure the rapid flow of cooling air, and the outer diameter of the lower part of the air nozzle 5 decreases along the direction of the pool wall brick 3, which can make the unit volume of the cooling air The speed of the airflow ejected from th...

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Abstract

The invention discloses a furnace hearth optimization method for a reinforced fiberglass melting furnace. An air pipe connected with a compressed air source and a hearth wall air nozzle are arranged, wherein the hearth wall air nozzle is connected with an air pipe through a bent pipe; the hearth wall air nozzle is composed of an air nozzle upper part and an air nozzle lower part, which are connected with each other; the air nozzle upper part is a trapezoidal plate; a relatively long bottom edge of the trapezoidal plate is connected with an outer wall of a hearth wall brick; a relatively short bottom edge of the trapezoidal plate is connected with the bent part; the length of the air nozzle upper part is greater than the length of the air nozzle lower part. The length of the air nozzle upper part is greater than the length of the air nozzle lower part and straight flow cooling air directly flows out from the groove-shaped air nozzle lower part, so as to carry out cooling treatment on the hearth wall brick, and furthermore, a condition that the cooling effect is reduced after the air nozzle upper part is connected with the surface of the hearth wall brick is avoided.

Description

technical field [0001] The invention relates to the field of glass production, in particular to a furnace pool optimization method for strengthening fiberglass melting furnaces. Background technique [0002] Float glass is widely used, divided into colored glass, float silver mirror, float glass / car windshield grade, float glass / various deep processing grade, float glass / scanner grade, float glass / coating grade, float glass French glass / mirror grade. Among them, ultra-clear float glass has a wide range of uses and broad market prospects. It is mainly used in high-end buildings, high-end glass processing and solar photovoltaic curtain walls, as well as high-end glass furniture, decorative glass, imitation crystal products, lamp glass, precision electronics industry, special buildings, etc. The forming process of float glass production is completed in a tin bath fed with protective gas (N2 and H2). The molten glass flows continuously from the tank kiln and floats on the surf...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C03B18/18
CPCY02P40/57
Inventor 刘青
Owner 重庆留鑫玻璃钢制品厂
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