KR20000050572A - Apparatus for cooling glass melter - Google Patents

Abstract

PURPOSE: A refrigerator of glass furnace is provided to improve the durability of the side wall of a furnace by controlling the temperature thereof. CONSTITUTION: A refrigerator of glass furnace for melting provided glass raw material comprises at least one temperature perceiving part(21), a refrigerated air spraying nozzle and a controlling part(25). The temperature perceiving part(21) for perceiving temperature is installed on both side walls of the glass furnace. The refrigerated air spraying nozzle provides air for refrigerating to both side walls of the glass furnace. The controlling part(25) controls the flow rate of the refrigerated air provided to the refrigerated air spraying nozzle by a signal of the temperature perceiving part(21). Therefore, the side walls of the glass furnace is properly controlled.

Description

Glass melting furnace cooling device {APPARATUS FOR COOLING GLASS MELTER}

The present invention relates to a glass melting furnace cooling apparatus, and more particularly, to a glass melting furnace cooling apparatus that can improve the durability by appropriately controlling the temperature of the side wall of the furnace.

Generally, a melting furnace for melting glass is a melting furnace for receiving and dissolving glass raw materials, a clarification unit for receiving and clarifying molten glass for melting in a melting furnace, and a supply unit for supplying molten glass clarified in the clarification unit to a plurality of molding machines. Consists of.

The melting furnace, which receives and dissolves the glass raw material, is the highest temperature of each part of the melting furnace and is maintained at about 1500 to 1600 ° C.

3 is a cross-sectional view of a conventional melting furnace. As shown in this figure, the melting furnace 101 has a bottom wall 103, a pair of side walls 105 provided at both upper ends of the bottom wall 103, a bottom wall 103 and a pair of side walls. It has the roof wall 107 which covers the upper part of the flow path of molten glass formed by 105. As shown in FIG. Thus, the molten glass flows through the flow path formed by the side wall 105 and the bottom wall 103.

On the outer side of both side walls 105, a heat storage chamber 109 is provided for supplying combustion air into the melting furnace 101 and outflowing the waste gas in the melting furnace 101. Between the heat storage chamber 109 and the side wall 105, a heat storage chamber is provided. The burner block 111 is interposed so that 109 and the inside of the melting furnace 101 can communicate.

On the other hand, the cooling device 113 is provided in the lower part of the burner block 111 so that the refractory which comprises the side wall 105 may be eroded by temperature. The cooling apparatus 113 includes a cooling air jet nozzle 115 provided adjacent to the side wall 105 of the melting furnace 101, a cooling fan 117 for supplying cooling air to the cooling air jet nozzle 115, and a cooling nozzle. And a duct portion 119 installed between the cooling fan 117 and guiding cooling air, and both duct portions 119 are connected to communicate with each other.

By the above structure, the cooling air has the duct part 119 through the cooling fan 117 so that the inner surface of the side wall 105 which contacts molten glass can be suppressed from being eroded.

However, in the conventional apparatus for cooling a glass melting furnace, the temperature of the sidewall 105 is not properly controlled because the amount of cooling air injected to the outer side surface of the sidewall 105 through the cooling air injection nozzle 115 cannot be adjusted. I couldn't. As a result, when the sidewall 105 is overcooled by the cooling air, temperature gradients on the outside and the inside of the sidewall 105 are severely generated, and the refractory material forming the sidewall 105 may be cracked due to thermal shock. If the cooling of the 105 is not sufficient, there is a problem that the erosion is increased from the inner side of the side wall 105 in contact with the molten glass and the durability of the melting furnace 101 is lowered.

Accordingly, it is an object of the present invention to provide a cooling apparatus for a glass melting furnace which can improve the durability by appropriately controlling the temperature of the furnace sidewall.

1 is a side cross-sectional view of a melting furnace according to the present invention,

2 is a block diagram of a cooling apparatus according to the present invention,

3 is a side cross-sectional view of a conventional melting furnace.

* Explanation of symbols for the main parts of the drawings

1 melting furnace 3 bottom wall

5: side wall 9: heat storage chamber

11: burner block 13: cooling device

15 cooling air spray nozzle 17 cooling fan

19: duct part 21: temperature sensing part

23 grill member 25 control unit

27; Rotating member

According to the present invention, there is provided a cooling apparatus for a glass melting furnace for receiving and dissolving a glass raw material, the apparatus comprising: at least one temperature sensing unit installed on both side walls of the melting furnace to sense a temperature; Cooling air injection nozzle for injecting cooling air to both side walls of the melting furnace; And a control unit for controlling a flow rate of cooling air supplied to the cooling air injection nozzle by the signal of the temperature sensing unit.

Here, the duct unit for supplying cooling air to the cooling air jet nozzle; A plurality of grill members rotatably installed in the duct part to adjust a flow area of cooling air passing through the duct part; The amount of cooling air supplied to the cooling air injection nozzle may be adjusted by the control unit by the rotation member for rotating the grill member.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view of a melting furnace according to the present invention, Figure 2 is a block diagram of a cooling apparatus according to the present invention. As shown in these drawings, the melting furnace according to the present invention, like the conventional melting furnace, has a bottom wall 3, a pair of side walls 5 provided on both sides of the bottom wall 3, and a bottom wall ( 3) and a roof wall 7 covering the upper portion of the flow path of the molten glass formed by the side walls 5. Outside the side wall 5, a heat storage chamber 9 is provided for discharging waste gas generated in the melting furnace 1 and supplying combustion air, and a heat storage chamber 109 between the heat storage chamber 9 and the melting furnace 1. ) And the burner block 111 is interposed so that the melting furnace 101 can communicate with each other.

On the other hand, the cooling device 13 which supplies cooling air to the side wall 5 and cools the side wall 5 in the lower part of the burner block 11 is provided.

The cooling device 13 includes a cooling air jet nozzle 15 for injecting cooling air to the side walls 5, a cooling fan 17 for supplying cooling air to the cooling air jet nozzle 15, and a cooling fan 17. And a duct portion 19 for communicating the cooling air injection nozzle 15 with each other.

In addition, a plurality of temperature sensing units 21 are provided on the side wall 5, and a plurality of grill members 23 are rotatably provided inside the duct unit 19.

The grill member 23 is rotated by the rotation member 27 driven by the controller 25 based on the signal of the temperature sensing unit 21.

As a result of the above configuration, the glass raw material is introduced into the melting furnace 1 and melted and flows, so that the thermal stress acts on the side wall 5 of the melting furnace 1. The side wall 5 is provided with a plurality of temperature sensing units 21 to sense the temperature of the side wall 5, and when the temperature of the side wall 5 is greater than a preset value, the signal of the temperature sensing unit 21 is detected. By moving the rotating member 27 in the control unit 25 to receive the rotation of the grill member 23 accommodated in the duct portion 19.

When the grill member 23 rotates in this way, the flow area of the cooling air passing through the duct part 19 through the cooling fan 17 increases, and the injection amount of the cooling air injected from the cooling air injection nozzle 15 is increased. Can be increased.

If the amount of cooling air injected from the cooling air injection nozzle 15 is excessive, a large temperature difference between the outer region of the side wall 5 in contact with the external air and the inner region of the side wall 5 in contact with the molten glass occurs. In addition, cracks may occur in the refractory forming the side wall 5 due to thermal shock. In order to prevent this, when the temperature of the temperature sensing unit 21 is equal to or less than a predetermined set value, the control unit 25 drives the rotating member 27 to rotate the grill member 23 in the duct unit 19 to rotate the duct unit ( 19, it reduces the passage area of the cooling air passing through the cooling air flow rate is reduced to reduce the flow rate of the cooling air supplied to the cooling air injection nozzle (15), so that the outer surface of the side wall (5) is supercooled to cause cracks due to thermal shock Can be suppressed.

As described above, the rotating member 27 and the grill member 23 are rotated and cooled through the plurality of temperature sensing units 21 provided on the side wall 5 of the melting furnace 1 and the sensed values of the temperature sensing unit 21. By controlling the amount of cooling air supplied to the air injection nozzle 15, the temperature of the side wall 5 can be effectively controlled to improve durability.

As described above, according to the present invention, there is provided a cooling apparatus for glass melting furnace that can improve the durability by appropriately controlling the temperature of the side wall of the furnace.

Claims (2)

In the cooling device to the glass melting furnace to receive and dissolve the glass raw material, At least one temperature sensing unit installed on both side walls of the melting furnace to sense a temperature; A cooling air spray nozzle for supplying cooling air to both side walls of the melting furnace; And a control unit for controlling a flow rate of cooling air supplied to the cooling air injection nozzle according to the signal of the temperature sensing unit. The method of claim 1, A duct part for supplying cooling air to the cooling air jet nozzle; A plurality of grill members rotatably installed in the duct part to adjust a flow area of cooling air passing through the duct part; And a rotating member for rotating the grill member by the control unit.