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A kind of glass furnace with environmental protection, energy saving and heat preservation and its working method

A glass furnace, environmental protection and energy-saving technology, applied in glass furnace equipment, glass production, glass manufacturing equipment, etc., can solve the problems of easy change of chemical properties, energy waste, and impact on glass quality, so as to be beneficial to environmental protection and improve product quality. Quality, the effect of avoiding energy loss

Active Publication Date: 2022-07-26
江苏孚日玻璃科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The glass production process basically includes composition design, raw material processing, ingredient preparation, melting, forming, annealing, defect inspection, and deep processing. In the process of melting and forming, a large amount of heat is required. Today's commonly used electric-assisted thermal heating and all-electric heating can be used Provide sufficient heat, but the energy waste is serious, and the chemical properties of some impurities are easy to change after melting, which affects the quality of the glass

Method used

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  • A kind of glass furnace with environmental protection, energy saving and heat preservation and its working method
  • A kind of glass furnace with environmental protection, energy saving and heat preservation and its working method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] like figure 1 An environmentally friendly, energy-saving and heat-preserving glass furnace as shown includes an electric heating chamber 100, an electric melting chamber 200 and a physicochemical reaction chamber 300; the electric heating chamber 100 includes a cover plate 101, a feeding port 102, an electric heater 103, and a movable partition 104 and separator 105; the electrofusion chamber 200 includes a liquid injection port 201, an electrolytic positive electrode 202, an electrolytic negative electrode 203 and a lead 204; the physicochemical reaction chamber 300 includes a stirrer 301, an elastic member layer 302, a discharge port 303, Reaction base 305 and waste gas collection port 306; the feeding port 102 is located on the upper part of the electric heating chamber 100; a movable cover plate 101 is placed on the feeding port 102; The electrothermal cavity 100 and the electrofusion cavity 200 are separated by a partition 105; the middle of the partition 105 is se...

Embodiment 2

[0036] like figure 2 An environmentally friendly, energy-saving and heat-preserving glass furnace as shown includes an electric heating chamber 100, an electric melting chamber 200 and a physicochemical reaction chamber 300; the electric heating chamber 100 includes a cover plate 101, a feeding port 102, an electric heater 103, and a movable partition 104 and separator 105; the electrofusion chamber 200 includes a liquid injection port 201, an electrolytic positive electrode 202, an electrolytic negative electrode 203 and a lead 204; the physicochemical reaction chamber 300 includes a stirrer 301, an elastic member layer 302, a discharge port 303, Reaction base 305 and waste gas collection port 306; the feeding port 102 is located on the upper part of the electric heating chamber 100; a movable cover plate 101 is placed on the feeding port 102; The electrothermal cavity 100 and the electrofusion cavity 200 are separated by a partition 105; the middle of the partition 105 is sep...

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Abstract

The present invention relates to the field of glass manufacturing, in particular to an environment-friendly, energy-saving and heat-preserving glass furnace and a working method thereof, comprising an electric heating cavity (100), an electric melting cavity (200) and a physicochemical reaction cavity (300); the electric heating cavity (100) ) includes a cover plate (101), a feeding port (102), an electric heater (103), a movable separator (104) and a separator (105); the electrofusion chamber (200) includes a liquid injection port (201), an electrolytic positive electrode (202), an electrolytic negative electrode (203) and a wire (204); the physicochemical reaction chamber (300) includes a stirrer (301), an elastic member layer (302), a discharge port (303), a discharge switch (304), a reaction A base (305) and a waste gas collection port (306); an environmentally friendly, energy-saving and heat-preserving glass furnace disclosed in the present invention completes the production from powder to glass liquid through heating, electrolytic melting and multiple physical and chemical reactions, and fully utilizes heat , the waste gas generated by the reaction is reasonably collected, which is friendly to the environment, and effectively saves manpower and improves production efficiency.

Description

technical field [0001] The invention relates to the field of glass manufacturing, in particular to an environment-friendly, energy-saving and heat-preserving glass furnace and a working method thereof. [0002] technical background [0003] The glass production process basically includes component design, raw material processing, ingredient preparation, melting, forming, annealing, defect inspection, and deep processing. In the process of melting and forming, a large amount of heat is required. The commonly used electric-assisted thermal heating and all-electric heating can be used today. Sufficient heat is provided, but the energy is wasted seriously, and the chemical properties of some impurities are easily changed after melting, which affects the quality of the glass. SUMMARY OF THE INVENTION [0004] In view of the above deficiencies, the present invention discloses an environment-friendly, energy-saving and heat-preserving glass kiln and a working method thereof. The e...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C03B5/027C03B5/16C03B5/173C03B5/187C03B3/02
CPCC03B5/027C03B5/16C03B5/173C03B5/187C03B3/023Y02P40/57
Inventor 徐路张健
Owner 江苏孚日玻璃科技有限公司