KR100950399B1 - Clloing apparatus of cooler for sintering machine - Google Patents

Abstract

The present invention relates to a cooling device for a sintered ore cooler that can prevent the belt conveyor from being burned due to the high temperature sintered ore by spraying the cooling water to the hot sintered ore discharged from the cooler. A first thermometer 260 for detecting the temperature of the sintered ore supplied to the sintered ore hopper 130 installed in the miner and a second thermometer for detecting the temperature of the sintered ore being discharged to the lower part of the sintered ore hopper 130 261), an injection nozzle 220 provided on the side of the sintered ore discharge hopper 130 to spray cooling water into the sintered ore discharge hopper 130, and a water pipe 210 to the injection nozzle 220. A storage tank 200 connected to each other and having a cooling water stored therein, a pump 230 installed in the water supply pipe 210 to pump cooling water stored in the storage tank 200, and pumped by the pump 230. cooling water It includes a coolant valve 240 for adjusting the supply amount, and a control unit 250 for receiving the temperature value of the first thermometer 260 and the second thermometer 261 to adjust the opening and closing amount of the coolant valve 240 will be.

Sinterer, Cooler, Coolant, Dry Ice, Sintered Ore

Description

Cooling apparatus for sintered ore cooler {Clloing apparatus of cooler for sintering machine}

The present invention relates to a cooling device for a sintered ore cooler, and more particularly, to a cooling device for a sintered ore cooler that can prevent the belt conveyor from being burned by the high temperature sintered ore by spraying the cooling water to the hot sintered ore discharged from the cooler. will be.

In general, as shown in FIG. 1, the upper light emitted through the upper light hopper 1 is charged to the cart 6, and when the cart 6 in which the upper light is loaded is moved, the upper light hopper 1 is moved. The raw material discharged through the surge hopper (2) installed at the rear end of the) is added to the drum 6, the compound material discharged after a certain amount of water is added to the upper portion of the trolley (6).

As described above, the trolley 6 loaded with the upper light and the blended raw material is ignited by the hot gas while passing through the lower portion of the ignition furnace 4, and the trolley 6 proceeds continuously. .

On the other hand, when the blower motor 10 is operated, the main blower 9 is rotated, and when the main blower 9 is rotated, suction force is generated.

The suction force is transmitted to the windbox 7 through the chamber 8, and the suction force transmitted to the windbox 7 strongly inhales the lower portion of the trolley 6 so that the air in the atmosphere is loaded with the trolley 6. Firing of the sintered ore proceeds while passing from the top of the sintered layer charged to the bottom.

The completed sintered ore is discharged from the light distribution unit, and the temperature of the sintered ore reaches about 1500 ° C.

The above-mentioned sintered ore sintering time is usually about 30 to 40 minutes, the optimal method for producing the sintered ore is that the air in the atmosphere passes through the blending raw material of the sintered upper layer by the pressure of suction air sucked from the lower layer, and the coke is a fuel. By transferring the high-temperature heat of combustion to the iron ore to melt-bond the fine iron ore and the secondary raw material is discharged to the atmosphere through the dust collector and the stack (5).

In general, the blended raw material charged into the down suction sintering machine is ignited by the ignition furnace 4 and then discharged from the light distribution part through the process of combustion-melt-combination while being transferred to the light distribution part of about 100M by the driving wheel.

The lump of light emitted from the light distribution unit is crushed by the hot crusher 11 and then supplied to the cooler 12 to perform a cooling process.

On the other hand, with reference to Figure 2 showing the process of cooling by the cooler 12 will be described in detail as follows.

First, the sintered ore crushed by the hot crusher 11 is moved while being guided by the sintered ore supply chute 100, and the lower end of the sintered ore supply chute 100 is installed in the light feeding part of the cooler 12 Therefore, the sintered ore is charged in the cooling bogie 110 moved to the light feeding part.

The cooling bogie 110 is rotated continuously while being guided by the turntable rail 120 installed in the cooler 12, wherein the bogie wheel 111 installed in the lower portion of the cooling bogie 110 is a fixed rail 121 As rotated in contact with the upper surface, to guide the rotation of the cooling bogie 110, through this process the sintered ore is sequentially charged into the plurality of cooling bogie 110 installed in the cooler 12.

On the other hand, when the cooler fan 140 is operated when the cooling cart 110 loaded with the sintered ore is rotated, external air is introduced into the air duct 150, and the outside air introduced into the air duct 150. After cooling to the sintered ore charged in the cooling bogie 110 while moving to the top is discharged to the atmosphere through the top of the cooling bogie 110.

When the cooling trolley 110 into which the sintered ore is charged moves to the light distribution unit of the cooler 12, the sintered ore charged into the cooling trolley 110 is discharged to the sintered ore hopper 130.

The sintered ore discharged to the sintered ore discharge hopper 130 is supplied to the belt conveyor 170 while being guided by the sintered ore guide feeder 160 and then moved to the destination.

That is, the sintered ore of the high temperature (about 1500 ° C.) crushed by the hot crusher 11 is moved to the state charged in the cooling cart 110 and cooled by the sintered ore of the low temperature (about 150 ° C. or less), and then the belt conveyor 170. To be supplied.

On the other hand, the cooling bogie 110 in which the cooled sintered ore is discharged is moved to the light feeding part and charged with high temperature sintered ore, thereby cooling the sintered ore while repeating the above-described process.

On the other hand, when the cooling trolley 110 loaded with uncooled sintered ore is moved to the light distribution unit, the high temperature sintered ore is distributed in the cooling trolley 110 and then moved to the belt conveyor 170, and the belt conveyor 170 is moved. There were problems such as breakage due to high temperature sintered ore.

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The present invention has been made to solve the above problems, the object of the present invention is to detect the temperature of the sintered ore to be passed through the sintered ore hopper for light distribution in the cooling bogie to spray the coolant to the sintered ore discharge hopper when the sintered ore is a high temperature state It is to provide a cooling device for a sintered ore cooler that can sinter the sintered ore to prevent damage to the belt conveyor due to high temperature sintered ore.

Referring to the characteristic configuration of the present invention for achieving the above object is as follows.

The cooling device for a sintered ore cooler of the present invention includes a first thermometer for detecting a temperature of the sintered ore supplied to the sintered ore hopper provided in the light distribution unit of the cooler, and a second for detecting a temperature of the sintered ore that is discharged to the lower portion of the sintered ore hopper. A storage nozzle for connecting a nozzle to a side of the sintered ore hopper for injecting cooling water into the thermometer, a sintered ore hopper for discharge, a storage tank connected to the injection nozzle via a water supply pipe, and having the coolant to be stored therein; A pump installed in the water supply pipe to pump the coolant stored in the tank, a coolant valve for adjusting the supply amount of the coolant pumped by the pump, and the temperature value of the first and second thermometers are input to adjust the opening and closing amount of the coolant valve. It was made to include a control unit.

The present invention can improve the sintered ore productivity by preventing the breakage of the belt conveyor due to the high temperature sintered ore by spraying the coolant to the inside of the sintered ore hopper for moving the sintered ore to cool the high temperature sintered ore to be distributed in the cooling bogie Has a unique effect.

When described with reference to the accompanying drawings showing the present invention.

Figure 3 is a perspective view showing a state in which the cooling device for sintered ore cooler according to the present invention is installed in the cooler, the same parts as the conventional device will be omitted and the same reference numerals will be given.

As referred to herein, the present invention includes a first thermometer 260 for detecting a temperature of the sintered ore supplied to the sintered ore hopper 130 for sintered ore discharge hopper 130 installed in the light distribution unit of the cooler 12. Is installed, and a second thermometer 261 for detecting the temperature of the sintered ore discharged from the sintered ore discharge hopper 130 is installed below the sintered ore discharge hopper 130.

On the other hand, the side of the sintered ore discharge hopper 130 is provided with a spray nozzle 220 for injecting the cooling water into the sintered ore hopper 130 for cooling the sintered light passing through the sintered ore discharge hopper 130 is installed In addition, the injection nozzle 220 is connected to the storage tank 200 through the water supply pipe 210, the cooling tank for cooling the sintered ore is stored in the storage tank 200.

In addition, the water supply pipe 210 is provided with a pump 230 for pumping the cooling water stored in the storage tank 200, the water supply pipe 210 connected to the outlet side of the pump 230 is pumped by the pump 230 Cooling water valve 240 for adjusting the supply amount of the cooling water is provided.

The first thermometer 260 and the second thermometer 261 are connected to a controller 250 that receives temperature values of the thermometers and adjusts the opening and closing amount of the cooling water valve 240.

On the other hand, the storage tank 200 is provided with a coolant level gauge 201 for detecting the level of the stored coolant, the upper side of the storage tank 200, the supply pipe for supplying the coolant to the interior of the storage tank 200 290 is installed.

The supply pipe 290 is provided with a supply valve 291 for adjusting the cooling water supplied through the supply pipe 290 according to the level of the storage tank 200 detected by the level gauge 201, the supply valve 291 ) And the level gauge 201 are connected to the control unit 250.

The water supply pipe 210 connected to the outlet side of the storage tank 200 is provided with a third thermometer 202 for detecting the temperature of the cooling water discharged from the storage tank 200.

Meanwhile, a dry ice storage hopper 270 is provided in which dry ice for cooling the cooling water discharged from the storage tank 200 is stored, and a third thermometer 202 is disposed below the dry ice storage hopper 270. Screw feeder 280 for discharging the dry ice stored in the dry ice storage hopper 270 according to the temperature value of the) is installed, the third thermometer 202 and the screw feeder 280 is the control unit 250 Connected with

Referring to the present invention configured as described in detail as follows.

First, the sintered ore crushed by the hot crusher 11 is moved while being guided by the chute 100 for sintered ore supply chute 100 is charged in the cooling bogie 110.

The cooling bogie 110 loaded with the sintered ore is rotated continuously while being guided by the turntable rail 120 installed in the cooler 12, and the bogie wheel 111 installed below the cooling bogie 110 is a fixed rail. As rotated in contact with the upper surface of the 121, to guide the rotation of the cooling bogie 110, through this process the sintered ore is sequentially charged into the plurality of cooling bogie 110 installed in the cooler 12. Will be.

As the cooling bogie 110 is loaded with the sintered ore as described above, the cooler fan 140 is operated so that external air is introduced into the air duct 150, and the outside air introduced into the air duct 150 is upper. After cooling to the sintered ore charged in the cooling bogie 110 is discharged to the atmosphere through the upper portion of the cooling bogie 110.

When the cooling trolley 110 into which the sintered ore is charged moves to the light distribution unit of the cooler 12, the sintered ore charged into the cooling trolley 110 is discharged to the sintered ore hopper 130.

The sintered ore discharged to the sintered ore discharge hopper 130 is supplied to the belt conveyor 170 while being guided by the sintered ore guide feeder 160 and then moved to the destination.

On the other hand, when the cooling cart 110 into which the uncooled sintered ore is charged moves to the light distribution unit and the high temperature sintered ore is distributed, the first thermometer 260 provided above the sintered ore hopper 130 detects the temperature of the sintered ore. The temperature value of the first thermometer 260 is transmitted to the controller 250.

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When the temperature value of the first thermometer 260 is higher than the set value, the controller 250 operates the pump 230 to pump cooling water, and the pumped cooling water discharges the sintered ore through the injection nozzle 220. It is injected into the sintered ore passing through the hopper 130 to cool the hot sintered ore.

The sintered ore cooled by the cooling water is discharged to the lower portion of the sintered ore discharge hopper 130, and the second thermometer 261 provided at the lower portion of the sintered ore hopper 130 detects the temperature of the sintered ore and controls the 250).

When the temperature value of the second thermometer 261 is higher than the set value, the controller 250 opens the coolant valve 240 so that the supply amount of the coolant is increased.

On the other hand, the third thermometer 202 is to detect the temperature value of the cooling water discharged from the storage tank 200 to transmit to the control unit 250, the control unit 250 is the temperature value of the third thermometer 202 is set When the value is higher than the value, the screw feeder 280 is operated to lower the temperature of the cooling water.

When the screw feeder 280 is operated, the dry ice stored in the dry ice storage hopper 270 is discharged to reduce the temperature of the cooling water.

When the coolant is injected in this way, the level of the coolant stored in the storage tank 200 is reduced, and the detection value of the level gauge 201 installed in the storage tank 200 is transmitted to the control unit 250. 250 is to maintain the water level of the storage tank 200 by opening and closing the supply valve 291 provided in the supply pipe 290 in accordance with the detection value of the level gauge 201.

1 is a schematic view showing a typical sintering machine.

Figure 2 is a perspective view showing a conventional cooler.

3 is a perspective view showing a state in which a cooling device for a sintered ore cooler according to the present invention is installed in a cooler.

* Description of the symbols for the main parts of the drawings *

12: cooler 130: sintered ore discharge hopper

200: storage tank 201: coolant level gauge

202: third thermometer 210: water pipe

220: injection nozzle 230: pump

240: cooling water valve 250: control unit

260: first thermometer 261: second thermometer

270: dry ice hopper 280: screw feeder

290: supply pipe 291: supply valve

Claims (3)

The first thermometer 260 for detecting the temperature of the sintered ore supplied to the sintered ore hopper 130 installed in the light distribution unit of the cooler 12, and the temperature of the sintered ore discharged to the lower portion of the sintered ore hopper 130 A second nozzle 261 to be detected, an injection nozzle 220 provided on a side surface of the sintered light discharge hopper 130 to spray cooling water into the sintered light discharge hopper 130, and the injection nozzle 220. The storage tank 200 is connected to the water supply pipe 210 and the cooling water is stored therein, the pump 230 installed in the water supply pipe 210 to pump the coolant stored in the storage tank 200, and the pump ( The cooling water valve 240 for adjusting the supply amount of the cooling water pumped by the 230 and the temperature value of the first thermometer 260 and the second thermometer 261 are input to adjust the opening and closing amount of the cooling water valve 240. Cooling apparatus for a sintered ore cooler, characterized in that it comprises a control unit (250). The method according to claim 1, A coolant level gauge 201 for detecting a level of the coolant stored in the storage tank 200, a supply pipe 290 installed at an upper side of the storage tank 200 to supply coolant to the storage tank 200, and the Cooling apparatus for a sintered ore cooler, characterized in that it further comprises a supply valve (291) for controlling the cooling water supplied through the supply pipe (290) according to the level of the storage tank (200) detected by the level gauge (201). The method according to claim 1, A dry ice storage hopper 270 in which a third thermometer 202 for detecting a temperature of the cooling water discharged from the storage tank 200 and dry ice for cooling the cooling water discharged from the storage tank 200 are stored. And a screw feeder 280 installed below the dry ice storage hopper 270 to discharge dry ice stored in the dry ice storage hopper 270 according to the temperature value of the third thermometer 202. Cooling device for sintered ore cooler characterized in that.

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