CN209835982U - High-performance special glass fiber gravity balance melt heating device - Google Patents

Abstract

The utility model relates to a fine gravity balance meltwater heating device of high performance special type glass. The device comprises a heating kiln body, wherein a communicated throat is arranged at the bottom of the heating kiln body and connects the heating kiln body with a melt ascending channel; an impurity treatment mechanism is arranged in the melt ascending channel. The utility model provides a heating device, rational in infrastructure convenient to use can carry out effective heating to raw materials for production to can effectively guarantee the quality of meltwater.

Description

High-performance special glass fiber gravity balance melt heating device

The technical field is as follows:

the utility model relates to a fine gravity balance meltwater heating device of high performance special glass belongs to fine production facility of glass.

Background art:

in the production process of glass fiber, especially in the production process of special glass fiber such as colored glass fiber, special colored glass fiber raw materials need to be melted. The conventional glass ball melting furnace cannot meet the requirements of production on high-quality molten liquid, such as less impurities, stable temperature and the like. And thus cannot satisfy the production conditions.

The glass fiber solution is melted for the second time at present, so that the energy consumption is increased additionally during production, and the waste and pollution of mass production materials such as refractory materials are caused.

The utility model has the following contents:

the utility model aims to provide a can overcome above-mentioned defect, can make the fine production meltwater of glass reach the fine gravity balance meltwater heating device of the high performance special type glass of predetermined quality requirement.

The utility model provides a high-performance special glass fiber gravity balance melt heating device, which is characterized by comprising a heating kiln body, wherein the bottom of the heating kiln body is provided with a communicated throat which connects the heating kiln body with a melt ascending channel;

an impurity treatment mechanism is arranged in the melt ascending channel.

The heating kiln body and the melt liquid ascending channel form a U-shaped pipe structure.

And a heating device is arranged in the heating kiln body.

The impurity treatment mechanism is an impurity accommodating inner groove.

The impurity holds the inner groovy and opens there is the through-hole, the through-hole is furnished with the stopple.

The heating devices are arranged in a layered manner from top to bottom. The heating device may also employ electrode heating, gas heating, or a combination of both.

The air cooling device is arranged outside the throat and comprises an air cooling pipeline and a fan, and the air cooling pipeline is arranged outside the throat.

The utility model has the advantages that:

the utility model provides a heating device, rational in infrastructure convenient to use can carry out effective heating to raw materials for production to can effectively guarantee the quality of meltwater. The layered electrode heating device is matched with the throat and the air cooling device to form the vertical melting of the whole raw material, and the whole molten liquid meets the production requirement through the stages of silicate formation, glass clarification, homogenization, solution cooling and the like. And secondary high-temperature melting is not needed, so that the waste of production materials is avoided.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and embodiments:

FIG. 1 is a schematic structural view of the present invention;

in the figure: 1. heating the kiln body; 2. a liquid flowing hole; 3. a melt lifting channel; 4. an impurity-containing inner groove; 41. a through hole; 5. a heating device; 6. and (5) air cooling the pipeline.

The specific implementation mode is as follows:

as shown in the figure, the high-performance special glass fiber gravity balance melt heating device is characterized by comprising a heating kiln body 1, wherein the bottom of the heating kiln body 1 is provided with a communicated throat 2, and the heating kiln body 1 is connected with a melt ascending channel 3 through the throat 2;

an impurity treatment mechanism is provided inside the melt-lifting channel 3.

The heating kiln body 1 and the melt ascending channel 3 form a U-shaped pipe structure. The U-shaped tube structure enables the molten liquid to automatically complete the transfer of the molten liquid under the self-gravity action without adding additional equipment, so that the cost can be reduced, the equipment damage rate can be reduced, and meanwhile, the filtering and temperature control are performed to a certain degree in the transfer process.

And a heating device 5 is arranged in the heating kiln body 1.

The impurity treatment mechanism is an impurity accommodating inner groove 4.

The impurity accommodating inner groove 4 is provided with a through hole 41 which is matched with a hole plug.

The heating device 5 is an electrode heating device, and the electrode heating device is arranged in an up-down layered mode.

The air cooling device is arranged outside the throat and comprises an air cooling pipeline and a fan, and the air cooling pipeline is arranged outside the throat.

When the melting furnace is used, raw materials are put into the heating kiln body 1, the raw materials are heated by the layered electrode heating devices, the heated raw materials form molten liquid after being melted, the molten liquid naturally sinks to the bottom of the heating kiln body and enters a molten liquid ascending channel through the throat, and the molten liquid flows through the impurity accommodating inner groove, so that impurities can naturally sink in the impurity accommodating inner groove, and the purity of the molten liquid is guaranteed.

In addition, a cooling device, namely an air cooling pipeline 6 is arranged outside the throat 2 to adjust the temperature of the molten liquid, so that the molten liquid can conveniently enter subsequent production equipment.

The layered electrode heating device is matched with the throat and the air cooling device to form the vertical melting of the whole raw material, and the whole molten liquid meets the production requirement through the stages of silicate formation, glass clarification, homogenization, solution cooling and the like.

Meanwhile, a corresponding temperature sensing element can be arranged in the heating kiln body 1 to be matched with a control circuit of the heating electrode to adjust the heating temperature in the heating kiln body.

The above embodiments are merely examples for clarity of the invention and are not intended to limit the embodiments of the invention. Obvious changes or variations to the spirit of the present invention are within the scope of the present invention.

Claims (7)

1. A high-performance special glass fiber gravity balance melt heating device is characterized by comprising a heating kiln body, wherein a communicated throat is arranged at the bottom of the heating kiln body and connects the heating kiln body with a melt ascending channel;

an impurity treatment mechanism is arranged in the melt ascending channel.

2. The high performance special glass fiber gravity balanced melt heating apparatus of claim 1, wherein the heating kiln body and the melt uptake channel form a U-shaped tube structure.

3. The high performance special glass fiber gravity balanced melt heating device according to claim 1, wherein a heating device is arranged in the heating kiln body.

4. The high performance special glass fiber gravity balanced melt heating apparatus of claim 1, wherein the contaminant handling mechanism is an contaminant holding internal recess.

5. The high performance special glass fiber gravity balance melt heating apparatus as claimed in claim 4, wherein the impurity accommodating inner groove is provided with a through hole, and the through hole is provided with a hole plug.

6. The high performance special glass fiber gravity balanced melt heating device according to claim 3, wherein the heating device is layered on top of the other.

7. The high-performance special glass fiber gravity balance melt heating device as claimed in claim 1, wherein a wind cooling device is arranged outside the throat, the wind cooling device comprises a wind cooling pipeline and a fan, and the wind cooling pipeline is arranged outside the throat.