KR100543299B1 - Apparatus for enlargement of sealing and cooling efficiency of sintered ore cooler - Google Patents

Abstract

The present invention relates to an apparatus for increasing the sealing efficiency and cooling efficiency of a sintered ore cooler which is capable of increasing the cooling efficiency of the sintered ore while charging the sintered ore manufactured in the sintering machine into a cooler bogie and cooling it.

The present invention provides a device in which a sintered ore charged in a cooler bogie is cooled in a cooling fan and an air duct installed at a lower portion of the cooler bogie, comprising: a water tube configured to flow water for injection into an upper portion of the air duct; A self-weight seal unit installed outside the water tube and configured to bend downward in response to the filling of water in the water tube; A plurality of bellows pipes connected in a length direction on the outer surface of the water tube; A water spray nozzle connected to the bellows pipe; And a control valve controlling a supply amount of water through a pressure sensor connected to the water tube.

Sintered ore, Chiller bogie, Self-sealing seal, Spray nozzle, Water tube

Description

Apparatus for enlargement of sealing and cooling efficiency of sintered ore cooler}

1 is a plan view of a conventional sintered ore cooler bogie.

2 is a schematic perspective view of a conventional sintered ore cooler bogie.

3 is a state diagram used in the conventional sintered ore cooler bogie.

Figure 4 is a front view showing the installation state of the sealing and cooling efficiency increasing apparatus of the sintered ore cooler according to an embodiment of the present invention.

5 is a partial perspective view of the sealing and cooling efficiency increasing apparatus of the sintered ore cooler shown in FIG.

Fig. 6A is an installation state diagram of the jet nozzle in the present invention.

6B is an operational state diagram of the self-weight seal and the injection nozzle in the present invention.

7 is an installation state diagram of the water tube and the spray nozzle according to the present invention;

<Explanation of symbols for main parts of drawing>

1: cooler bogie 2: cooling fan

10 self-acting chamber 40 water tube

50: bellows piping 60: injection nozzle

80: control valve 90: pressure sensor

The present invention relates to a device for increasing the sealing efficiency and cooling efficiency of a sintered ore cooler, and in particular, a sintered ore cooler capable of increasing the cooling efficiency of the sintered ore and increasing the sealing force during charging and cooling of the sintered ore manufactured in the sintering machine to a cooler bogie. The present invention relates to a device for increasing sealing and cooling efficiency.

In general, as shown in Figures 1 to 3, when the manufacture of the sintered ore (4) in the sintering machine using the blended raw material of spectroscopy is completed, the sintered ore having a temperature of about 800 ℃ is charged to the cooler bogie (1) The cooling is performed by the air generated by the cooling fan 2.

This cooling method cools the air by forcibly blowing air from the lower direction to the upper direction in the state where the sintered ore is loaded on the cooler bogie 1, and when the grain size of the loaded sintered ore is thick and the porosity is good, If the sintered ore has a lot of spectroscopy or the sintered ore is over-melted and the porosity is poor, the air flow is shorted and the cooling efficiency is rapidly deteriorated. As air leaks from the cooler bogie 1 sealing portion, the cooling efficiency is drastically lowered.

Since the air supplied to the conventional sintered ore cooler has been advanced by a simple method of boosting and blowing air in the cooling fan 2 in the summer, a phenomenon in which cooling efficiency worsens frequently occurs due to an increase in the temperature of atmospheric air. In particular, there is a problem in that the cooling is not properly performed even if the sintering operation situation is a little worse.

On the other hand, since the sealing device using a conventional water is cooled by the forced supply of air in the cooler trolley (1), the dust is introduced into the water tube filled with water as a large amount of dust generated To stop the sealing action,

Cooling device that makes the cooling device in the air duct to reduce the temperature of the cooling air through the air duct to improve the cooling efficiency problem that the heat exchange efficiency is lowered because the cooling air must pass through the air duct in a short time There was this.

In addition, when the manufactured sintered ore is a molten ore which is glowing due to excessive calorie value or is charged into the cooler bogie 1 in a state of high spectroscopy, cooling is not performed within a predetermined time and intentionally secondary cooling is performed using water. In this case, a rapid quenching phenomenon occurs due to water, and a cracking phenomenon occurs in the sintered ore structure, causing differentiation easily in a reducing atmosphere in the smelting furnace, thereby deteriorating breathability. , 3 is an air duct.

The present invention has been made to solve the above problems of the prior art, an object of the present invention is to provide a sealing and cooling efficiency increasing device of the sintered ore cooler that can increase the cooling efficiency of the sintered ore together with the strengthening of the sealing force of the sealing portion. .

In the device for increasing the sealing efficiency and cooling efficiency of the sintered ore cooler according to the present invention for realizing the above object, in the device in which the sintered ore charged in the cooler trolley is cooled in the cooling fan and air duct installed in the lower portion of the cooler trolley, the air duct Water tube is configured to send the water for injection to the top of the; A self-weight seal unit installed outside the water tube and configured to bend downward in response to the filling of water in the water tube; A plurality of bellows pipes connected in a length direction on the outer surface of the water tube; A water spray nozzle connected to the bellows pipe; And a control valve controlling a supply amount of water through a pressure sensor connected to the water tube.

In the present invention, the self-weighting thread part is a rubber material, a self-weighting thread having an elastic plate inserted therein, a first sealing plate fixedly attached to an upper end of one side of the self-weighting thread, and a predetermined upward inclination from the upper surface of the thread. It characterized in that it comprises a second sealing plate coupled to the outer surface of the first sealing plate and a pipe-shaped water tube fixedly attached to the upper end of the inner surface of the seal.

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

4 to 7 show an embodiment of the sealing and cooling efficiency increasing apparatus of the sintered ore cooler of the present invention, the sealing and cooling efficiency increasing apparatus according to this is largely installed on the upper portion of the air duct and seals according to the filling of water ) Through the self-weighted seal portion bent in the downward direction, a bellows pipe plurally connected along the length direction on the outer surface of the water tube of the self-weight seal portion, a water spray nozzle connected to the bellows pipe, and a pressure sensor connected to the water tube It consists of a control valve that regulates the water supply.

As shown in FIG. 4, the self-weighting thread is fixedly attached to the first sealing plate 30 having a square shape at an upper end of one side of the self-weighting thread 10, and is approximately at an upper surface of the seal 10. The second sealing plate 20 having a 'b' shaped cross section is coupled to the outer surface of the first sealing plate by a plurality of bolts, and the second sealing plate 20 is an upper surface of the seal 10. And has an upward slope of about 25 degrees.

The self-weighting seal 10 is made of rubber and has a plate-shaped elastic plate 10a inserted therein as shown in FIG. 5, and a water tube having a pipe shape at the upper end of the inner surface of the seal 10. (water tube) (40; 40a, 40b) is fixedly attached, a plurality of bellows pipe 50 is connected at equal intervals along the length direction of the outer surface of the water tube, each of the bellows pipe in Figure 6 The water injection nozzle 60 as shown is connected.

The injection nozzle 60 has a configuration in which the nozzle socket 60d is connected to the bellows pipe 50 in a pin fastening manner and moved back and forth by the injection pressure of the injection nozzle 60, and the injection nozzle 60 has a hexagonal shape. A front cap nozzle 60a having a central portion and six side cap nozzles 60b connected to each side of the cap nozzle are configured as a total of seven cap nozzles, and each cap nozzle is detachable from the nozzle body 60c. This is a possible structure.

As shown in FIG. 6, the self-priming chamber 10 and the water injection nozzle 60 are moved by the self-priming chamber 10 and the water tube 40 as 45 cooler bogies 1 move along a circular track rail. ) Is connected in a round circle shape and has a unitary configuration. The self-weighting seal 10 and the water tube 40 are positioned inside and outside the cooler bogie 1, and thus, 45 pieces are placed inside the cooler bogie 1, A total of 45 total 90 injection nozzles 60a and 60b are configured outside.

In addition, the water tube (40a, 40b) is connected to the pipe for supplying water and the pressure sensor 90 for detecting the water pressure in the water tube, the control valve for controlling the amount of water supplied through the pressure sensor ( 80 is configured to be connected to the inner and outer water tubes 40a and 40b, respectively.

 Referring to the operation of the sealing and cooling efficiency increasing apparatus of the sintered ore cooler according to the present embodiment configured as described above are as follows.

As shown in FIG. 1, when the cooler fan 2 is operated before the sintered ore 4 is loaded on the cooler bogie 1, and the sintered ore is loaded on the bogie 1, the damper of the cooling fan is opened to supply cooling air. Heat exchange action proceeds.

As the cooling air is supplied into the air duct 3, the air passes through the sintered ore loaded on the cooler bogie 1, while drawing hot air from the hot sintered ore and continuously exiting the cooler. Cooling is achieved.

In this process, water particles are finely sprayed from the spray nozzles 60 connected to the water tubes 40a and 40b inside and outside the lower portion of the cooler bogie 1 to mix with the cooling air to cool the sintered ore. In this case, as the seal 10 is filled with water for injection in the water tube 40, as shown in Figure 6, its own weight becomes heavy, so that the upper portion of the seal 10 in the downward direction, that is, air duct (3) It acts to bend inwardly, and the adhesion between the second sealing plate 20 of the cooler bogie 1, which is at an angle of 25 degrees, becomes strong and the airtightness is greatly improved to prevent leakage of cooling air. Will act.

Further, water is continuously injected from the spray nozzle 60 of the water tube 40, and the seal 10 is continuously inclined inward as the spray nozzle 60 is moved at a predetermined angle by the supply pressure of the water. Force is generated and airtightness is further increased.

The operation of the injection nozzle 60 in the above process operates by drawing an arc of 30 degrees angle to 60 ~ 90 degrees by the pressure of the water supplied from the water tube 40, wherein the water tube 40 and the injection nozzle Since the pipe 50 between the 60 is bellows-shaped, the arc motion of the nozzle is more flexible and continuous.

The spray of the spray nozzle 60 is mixed with the cooling air moving upward from the cooler bogie 1 under the air duct 3 as the mist is sprayed from the front and side cap nozzles 60a to 60d. Passing through the sintered ore causes heat exchange, that is, cooling.

As shown in FIG. 7, 90 nozzles 60-1 and 60-2, respectively located inside and outside the lower portion of the cooler bogie 1, operate simultaneously, and are mounted on the water tubes 40a and 40b. Since the pressure sensor 90 detects the water pressure in the tubes 40a and 40b and the flow rate is adjusted in the control valve 80, water is sprayed at each injection nozzle 60 at a uniform pressure.

As above, mist-like water particles are injected into the cooling air supplied to the air duct 3 at a pressure of about 40 m BAR, and a large amount of heat exchange is performed while passing between the sintered ore particles loaded on the cooler bogie 1. The result is a very good cooling efficiency over time.

As described above, the sealing and cooling efficiency increasing device of the sintered ore cooler of the present invention improves the cooling efficiency by reducing the loss of cooling air due to the airtightness of the seal and the seal plate according to the self-gravity of the water tube and the spraying action of the injection nozzle, thereby improving the cooling efficiency. Since the spectroscopy particles and water particles of the fine particles between the particles are combined and adsorbed to the pores of the sintered ore, dust generation can be reduced during the transportation process, thereby preventing air pollution.

Claims (2)

An apparatus in which a sintered ore charged in a cooler bogie is cooled in a cooling fan and an air duct installed under the cooler bogie, A water tube configured to flow water for injection into the upper portion of the air duct; A self-weight seal unit installed outside the water tube and configured to bend downward in response to the filling of water in the water tube; A plurality of bellows pipes connected in a length direction on the outer surface of the water tube; A water spray nozzle connected to the bellows pipe; And A control valve controlling a supply amount of water through a pressure sensor connected to the water tube; Sealing and cooling efficiency increasing device of the sintered ore cooler, characterized in that configured to include. The method of claim 1, The self-weighting thread is a rubber material, a self-weighting thread having an elastic plate inserted therein, a first sealing plate fixedly attached to an upper end of one side of the self-weighting thread, and a predetermined upward inclination on an upper surface of the thread. And a second sealing plate coupled to the outer side of the one sealing plate, and a pipe-shaped water tube fixedly attached to the upper end of the inner side of the seal.

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