Insulation apparatus for glass tank furnace

A technology of heat preservation device and glass pool kiln, which is applied in glass furnace equipment, glass manufacturing equipment, manufacturing tools, etc., can solve the problems of slender heat conduction path, reduction of solid heat conduction rate, and low solid content.

Inactive Publication Date: 2015-04-08
常州循天节能科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

(3) Up to 80% of the composition is air, the solid content is small, the skeleton is fine, and the heat conduction path is slender, thereby greatly reducing the solid heat conduction rate

Method used

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  • Insulation apparatus for glass tank furnace
  • Insulation apparatus for glass tank furnace
  • Insulation apparatus for glass tank furnace

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Experimental program
Comparison scheme
Effect test

Embodiment 1)

[0051] see figure 1 with figure 2 , The heat preservation device of the glass tank kiln of this embodiment is the heat preservation device of the float glass tank kiln, including the heat insulation composite layer 2 and the fixing member 5. The thermal insulation composite layer 2 is composed of an aluminum silicate fiber blanket layer 21 and a first aerogel thermal insulation blanket layer 22.

[0052] The aluminum silicate fiber blanket layer 21 and the first aerogel thermal insulation blanket layer 22 are laid in order from the inside to the outside to cover all the outer surfaces of the glass tank kiln where the thermal insulation layer 1 is provided, and the fixing member 5 is provided on the first Outside the aerogel thermal insulation blanket layer 22, the thermal insulation composite layer 2 is compressed and compacted on the outer surface of the thermal insulation layer 1 of the glass tank kiln. The thermal insulation layer 1 is a silicon thermal insulation material la...

Embodiment 2)

[0061] see image 3 The rest of this embodiment is the same as Embodiment 1, except that the heat preservation device of the glass tank furnace of this embodiment also includes a reflective layer 4. The reflective layer 4 is 0.5 mm thick aluminum plate or galvanized iron sheet, covering the outer surface of the first aerogel insulation blanket layer 22 of the thermal insulation composite layer 2, and the fixing member 5 is arranged outside the reflective layer 4 so that the reflective layer 4 and The thermal insulation composite layer 2 is compressed and compacted on the outer surface of the thermal insulation layer 1 of the glass tank kiln sequentially from the outside to the inside.

[0062] Comparing the heat preservation device of this embodiment with the heat preservation device of embodiment 1, due to the presence of the reflective layer 4, part of the heat radiated from the heat preservation layer 1 of the glass tank furnace can be reflected back into the heat preservation ...

Embodiment 3)

[0064] see Figure 4 with Figure 5 The rest of this embodiment is the same as Embodiment 1, except that: the heat preservation device of this embodiment also includes a heat preservation composite layer 3. The thermal insulation composite layer 3 is divided into a single thermal insulation composite layer 3a and a double thermal insulation composite layer 3b according to the number of glass fiber felt layers and aerogel thermal insulation blanket layers contained. The single thermal insulation composite layer 3a has only one composite layer, that is, the first glass fiber felt layer 31 and the second aerogel thermal insulation blanket layer 32 are arranged in order from the inside to the outside. The double thermal insulation composite layer 3b has two composite layers, namely, the first glass fiber felt layer 31, the second aerogel thermal insulation blanket layer 32, the second glass fiber felt layer 33 and the third aerogel thermal insulation blanket layer 34 They are arran...

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Abstract

The invention discloses an insulation apparatus for a glass tank furnace. The insulation apparatus comprises, from interior to exterior, a heat insulation composite layer, an insulation composite layer, a reflecting layer and a fixing part, wherein the heat insulation composite layer is mainly composed of an alumina silicate fiber blanket layer and a first aerogel insulation blanket layer, the alumina silicate fiber blanket layer and the first aerogel insulation blanket layer are successively, from interior to exterior, laid and covered on the external side surfaces of all the positions of the glass tank furnace provided with an insulation layer, the insulation composite layer is composed of a glass fibrofelt layer or rock wool layer and an aerogel insulation blanket layer, the reflecting layer is an aluminum plate or galvanized sheet iron, and the fixing part is arranged out of the reflecting layer to allow the heat insulation composite layer, the insulation composite layer and the reflecting layer to be tightly compacted on the external surface of the insulation layer of the glass tank furnace. The insulation apparatus for the glass tank furnace in the invention is applied at the outer side of the insulation layer of a traditional float glass tank furnace, enables heat dissipation quantity of the insulation layer of the traditional glass tank furnace to be greatly reduced and has a substantial secondary insulation effect on the glass tank furnace.

Description

Technical field [0001] The invention relates to a heat preservation device for a glass tank furnace, in particular to a heat preservation device for a float glass tank furnace. Background technique [0002] Glass in this article refers to inorganic glass whose main component is silica. The glass industry is an industry closely related to building energy conservation and is a typical resource and energy consuming industry. The annual energy consumption of flat glass in my country is about 1 million tons of standard coal, and the fuel consumption accounts for more than 80% of the energy consumption of glass enterprises; the average unit consumption is 7800 kJ / kg molten glass (1866 kcal / kg molten glass), which is higher than the international average 20%, more than 30% higher than the international advanced level. [0003] Due to the continuous rise of energy prices in recent years, fuel costs have seriously affected the economic benefits of glass companies. The increasing energy cos...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C03B5/16
Inventor 徐俊伟敖文亮陈精明马国庆林国东于宁宁
Owner 常州循天节能科技有限公司
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