CN216837626U - T type glass electric melting furnace melting tank cooling system - Google Patents

Abstract

The utility model discloses a T-shaped glass electric melting furnace melting tank cooling system, which comprises a liquid level line cooling component, a tank wall cooling component and a T-shaped table cooling component, wherein the liquid level line cooling component comprises a gap reserved outside the position of a liquid level line on the tank wall of the glass electric melting furnace melting tank, and a first fan is arranged outside the gap; the pool wall cooling assembly comprises a gap reserved at the joint of the AZS refractory materials of the pool wall, and a second fan is arranged on the outer side of the gap; t type platform cooling module includes two parts, and the first part is including reserving the first passageway between backing brick and the AZS refractory material of T type platform lower part in advance, and the second part is including reserving the second passageway of T type platform side in advance, and the lower part of T type platform is provided with the third fan, connects two nozzles through the tuber pipe on the third fan, and two nozzles are to the interior blast cooling of first passageway and second passageway respectively. The utility model discloses improve air-cooled system, reduce T type glass electric melting furnace melting tank AZS refractory material's temperature, alleviate key position AZS refractory material's erosion rate.

Description

T type glass electric melting furnace melting tank cooling system

Technical Field

The utility model relates to a glass electric melting furnace technical field especially relates to a T type glass electric melting furnace melting tank cooling system.

Background

In the process of melting the glass liquid in the electric melting furnace, the positions of a liquid level line, the wall of the melting tank, the T-shaped table and the like are the most seriously washed by the glass liquid. As shown in FIG. 4, the AZS refractory material at the liquid level line, the wall of the melting tank, the T-shaped table and other parts is seriously damaged by the high-temperature glass liquid. If the defect area is large or a pot hole is formed, light persons easily cause the incompletely melted glass liquid to enter a forming and cooling area to cause the defects of bubbles in the glass liquid and the like, and if the defects are serious, high-temperature glass liquid overflows to cause safety accidents of stopping a kiln, burning equipment and the like.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a T type glass electric melting furnace melting tank cooling system solves T type glass electric melting furnace because of melting tank AZS refractory material relevant position is easily corroded by high temperature glass liquid, causes the large tracts of land to be defective or the pot hole appears, the problem of glass liquid quality problem perhaps causes the incident.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model relates to a T-shaped glass electric melting furnace melting tank cooling system, which comprises a liquid surface line cooling component, a tank wall cooling component and a T-shaped table cooling component, wherein the liquid surface line cooling component comprises a gap reserved outside the position of a liquid surface line of the tank wall of the glass electric melting furnace melting tank, and a first fan is arranged outside the gap; the pool wall cooling assembly comprises a gap reserved at the joint of AZS refractory materials of the pool wall, and a second fan is arranged on the outer side of the gap; the T-shaped table cooling assembly comprises two parts, the first part comprises a first channel reserved between a brick pad and AZS refractory materials at the lower part of the T-shaped table, the second part comprises a second channel reserved on the side surface of the T-shaped table, a third fan is arranged at the lower part of the T-shaped table, the third fan is connected with two nozzles through air pipes, and the two nozzles respectively blow air into the first channel and the second channel for cooling.

Furthermore, the first fan, the second fan and the third fan are all frequency conversion fans.

Still further, the size of the gap is set to be 200-340 mm.

Furthermore, clay standard bricks are detachably built in the gaps; and after the clay standard brick is completely disassembled, the first fan blows air into the gap for cooling.

Still further, the size of clearance sets up to 40 ~ 80 mm.

Still further, the first channel is arranged to be L-shaped, and the cross section of the first channel is arranged to be semicircular.

Still further, the cross-sectional diameter of the first passage is set to 50 mm.

Compared with the prior art, the utility model discloses a beneficial technological effect:

the utility model relates to a T-shaped glass electric melting furnace melting tank cooling system, which comprises a liquid surface line cooling component, a tank wall cooling component and a T-shaped table cooling component, wherein the liquid surface line cooling component comprises a gap reserved outside the liquid surface line position of the tank wall of the glass electric melting furnace melting tank, and a first fan is arranged outside the gap; the pool wall cooling assembly comprises a gap reserved at the joint of the AZS refractory materials of the pool wall, and a second fan is arranged outside the gap; the T-shaped table cooling assembly comprises two parts, wherein the first part comprises a first channel reserved between a pad brick and AZS refractory materials at the lower part of the T-shaped table, the second part comprises a second channel reserved on the side surface of the T-shaped table, a third fan is arranged at the lower part of the T-shaped table, the third fan is connected with two nozzles through air pipes, and the two nozzles respectively blow air into the first channel and the second channel for cooling; the utility model discloses an air-cooled system improves, has reduced T type glass electric melting furnace melting tank AZS refractory material's temperature, alleviates key position AZS refractory material's erosion rate, has reduced the risk that the material matter is undulant and glass electric melting furnace leaks the material, has prolonged the life of kiln.

Drawings

The present invention will be further explained with reference to the following description of the drawings.

FIG. 1 is a schematic view showing a tank wall cooling assembly of a T-shaped glass electric melting furnace of the present invention;

FIG. 2 is a sectional view taken along the direction A-A of the present invention;

FIG. 3 is a sectional view taken along the direction B-B of the present invention;

FIG. 4 is a schematic view showing the corrosion of AZS refractory material in a T-shaped glass electric melting furnace in the prior art;

description of reference numerals: 1. a liquid-surface line cooling assembly; 1-1, a void; 1-2, a first fan; 2. a pool wall cooling assembly; 2-1, clearance; 2-2, a second fan; 3. a T-table cooling assembly; 3-1, a first channel; 3-2, a first nozzle; 3-3, a second channel; 3-4 and a second nozzle.

Detailed Description

As shown in fig. 1-3, a T-type glass electric melting furnace melting tank cooling system comprises a liquid level line cooling assembly 1, a tank wall cooling assembly 2 and a T-type table cooling assembly 3, wherein the liquid level line cooling assembly 1 comprises a gap 1-1 reserved outside the position of a liquid level line on the tank wall of the glass electric melting furnace melting tank, and a first fan 1-2 is arranged outside the gap 1-1; the pool wall cooling assembly 2 comprises a gap 2-1 reserved at a joint of AZS refractory materials of the pool wall, and a second fan 2-2 is arranged on the outer side of the gap 2-1; the T-shaped table cooling assembly 3 comprises two parts, the first part comprises a first channel 3-1 reserved between a cushion brick and AZS refractory materials at the lower part of the T-shaped table, the second part comprises a second channel 3-3 reserved on the side surface of the T-shaped table, a third fan is arranged at the lower part of the T-shaped table, the third fan is connected with a first nozzle 3-2 and a second nozzle 3-4 through air pipes, the first nozzle 3-2 blows air into the first channel 3-1, and the second nozzle 3-4 blows air into the second channel 3-3 for cooling.

Specifically, the first fan 1-2, the second fan 2-2 and the third fan are all frequency conversion fans.

The size of the gap 1-1 is set to be 200-340 mm; clay standard bricks are detachably built in the gaps 1-1; and (3) disassembling the standard clay bricks block by block when the kiln is in operation, and after the clay bricks are disassembled, blowing air into the gap 1-1 by using a first fan 1-2 air pipe with a frequency converter for cooling so as to reduce the temperature of the AZS refractory material at the inner layer.

The size of the gap 2-1 is set to be 50-100 mm; and a 50-100 mm exposed gap 2-1 is reserved on the outer side of the joint of the AZS refractory material of the tank wall, and the exposed position is controlled by controlling the air output by a second fan 2-2 to adjust the temperature change.

The first channel 3-1 is L-shaped, and the cross section of the first channel 3-1 is semicircular; the section diameter phi of the first channel 3-1 is approximately equal to 50 mm; when the device is used, the air sent by the third fan through the first nozzle 3-2 partially takes away the heat on the outer surface of the AZS refractory material at the T-shaped platform through the L-shaped first channel 3-1, so that the overall temperature of the device is reduced.

The utility model discloses a use as follows:

when the liquid level line cooling assembly 1 is a melting tank designed for a glass electric melting furnace, a gap 1-1 with the thickness of 200-340 mm is reserved at a clay insulating brick outside the liquid level line position of the melting tank, a detachable standard clay brick is built in the gap 1-1, the standard clay bricks are detached one by one when a furnace runs, and after the detachment of the clay bricks is finished, the inner AZS refractory material is cooled by blowing air through a first fan 1-2 according to the temperature change of the gap; the pool wall cooling component 2 is characterized in that a 50-100 mm gap 2-1 is reserved at the joint of the zirconia corundum bricks on the outer layer of clay bricks when the pool wall of the melting pool is designed, and a pipeline of a second fan 2-2 is controlled by a communication frequency converter to cool the gap; the T-shaped table cooling component 3 comprises two parts, wherein the first part is a first channel 3-1 which is L-shaped for clay cushion bricks of the stepped table, the third fan takes away heat on the outer surface of the AZS refractory material at the T-shaped table through the first channel 3-1 by wind sent by a first nozzle 3-2, the second part is a second channel 3-3 reserved on the side surface of the T-shaped table, and the second nozzle 3-4 blows air into the second channel 3-3 for cooling, so that the temperature of the T-shaped table is reduced.

In a melting tank of a T-shaped glass electric melting furnace, a liquid surface line, a tank wall and a T-shaped platform are parts of AZS refractory materials which are eroded by molten glass at the highest speed. Through the improvement of the air cooling system, the temperature of the AZS refractory material of the melting tank of the T-shaped glass electric melting furnace is reduced, the erosion speed of the AZS refractory material at the key part is reduced, the material quality fluctuation and the risk of material leakage of the glass electric melting furnace are reduced, and the service life of the furnace is prolonged.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and those skilled in the art should also be able to make various modifications and improvements to the technical solution of the present invention without departing from the spirit of the present invention, and all such modifications and improvements are intended to fall within the scope of the present invention as defined in the appended claims.

Claims (7)

1. The utility model provides a T type glass electric melting furnace melting tank cooling system which characterized in that: the device comprises a liquid level line cooling assembly (1), a pool wall cooling assembly (2) and a T-shaped table cooling assembly (3), wherein the liquid level line cooling assembly (1) comprises a gap (1-1) reserved outside the liquid level line position of the melting pool wall of the glass electric melting furnace, and a first fan (1-2) is arranged outside the gap (1-1); the pool wall cooling assembly (2) comprises a gap (2-1) reserved at a joint of AZS refractory materials of the pool wall, and a second fan (2-2) is arranged on the outer side of the gap (2-1); the T-shaped table cooling assembly (3) comprises two parts, the first part comprises a first channel (3-1) reserved between a brick pad and AZS refractory materials at the lower part of the T-shaped table, the second part comprises a second channel (3-3) reserved on the side surface of the T-shaped table, a third fan is arranged at the lower part of the T-shaped table, the third fan is connected with two nozzles through air pipes, and the two nozzles respectively blow air into the first channel (3-1) and the second channel (3-3) for cooling.

2. The T-type glass electric melter cooling system of claim 1, wherein: the first fan (1-2), the second fan (2-2) and the third fan are all frequency conversion fans.

3. The T-type glass electric melter cooling system of claim 1, wherein: the size of the gap (1-1) is set to be 200-340 mm.

4. The T-type glass electric melter cooling system of claim 3, wherein: clay standard bricks are detachably built in the gaps (1-1); and after the clay standard brick is completely disassembled, the first fan (1-2) blows air into the gap (1-1) for cooling.

5. The T-type glass electric melter cooling system of claim 1, wherein: the size of the gap (2-1) is set to be 50-100 mm.

6. The T-type glass electric melter cooling system of claim 1, wherein: the first channel (3-1) is L-shaped, and the cross section of the first channel (3-1) is semicircular.

7. The T-type glass electric melter cooling system of claim 6, wherein: the cross-sectional diameter of the first channel (3-1) is set to 50 mm.

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