KR200312508Y1 - Leak-proof Sealing Device for Sinterer Bogie - Google Patents

Abstract

The object of the present invention is to provide a sealing device for preventing air leakage of the sintering machine bogie to manufacture high quality sintered ore and improve the performance of the dust collector by preventing leakage of external air through the lower both sides of the sintering bogie.

The anti-leak sealing device of the present invention includes a wear ring block 21 coupled to the lower portion of the sintering machine trolley, a sealing cover 22 coupled to the lower portion of the wear ring block, and external air introduced into the sintering machine trolley. A sealing opening 31 coupled to the up and down moving shaft 23 and a spring 24 installed around the up and down moving shaft to restrict the inflow, and the insertion opening 32 into which the sealing cover can be inserted is inserted into the sealing opening. It is formed along the longitudinal direction of the sintering machine trolley, and is installed so that the sealing cover can be inserted into the insertion groove. When the raw material is loaded into the sintering machine trolley, the airtight cover is inserted into the insertion groove so that the outside air flows in. It is formed in a long “U” shape to prevent leakage of external air, and when the sintered ore is unloaded from the sintering machine cart, the sealing cover is not inserted into the insertion groove by the elastic force of the spring so that the external air flows into the sintering machine cart. The.

Description

Leak-proof sealing device of sintering machine bogie

The present invention relates to a leakproof sealing device of a sintering machine bogie, and more particularly, to a leakproof sealing device of a sintering machine bogie which prevents the inflow of external air through both sides of the lower side of the bogie during suctioning in a large air blower for sintering. It is about.

As shown in FIG. 1, a DWIGHT LIOYD type sintering machine is a device for continuously sintering blended raw materials on a sintering machine bogie 13 moving in a straight line. Such a sintering machine generates a compounding material hopper 11 for storing a compounding material, a charging device 12 composed of a main gate, a subgate, and a drum feeder, a sintering machine bogie 13, and a flame of 1000 ° C to 1200 ° C. It consists of an ignition furnace 14 and a main blower (not shown).

Looking at the process of manufacturing a sintered ore using the sintering machine configured as described above, first, the compounding material stored in the compounding material hopper 11 is supplied to the sintering machine truck 13 by a predetermined amount using the charging device 12. Then, the flame of the ignition furnace 14 is used to ignite the surface of the blended raw material and the air is sucked in the downward direction of the sintered layer by suction of the main blower. Through this process, the coke contained in the blended raw material reacts with the oxygen in the air to be burned and the sintering reaction proceeds to produce agglomerated or sintered ore.

At this time, the suction air as shown in Figure 2, when the suction of the main blower located in the lower portion of the sintering machine trolley 13, the seal (15; seal bar) formed on both sides of the sintering machine trolley 13 is up and down While being in close contact with the wear bar 16 (wearing bar) arranged at a predetermined interval, the suction is carried out by the large blower through the 50 suction ports 17 located in the lower portion of the sintering machine trolley 13. The suction air sucked in this way determines the quality of the sintered ore and the performance of the current collector. That is, when the sealing opening 15 is operated smoothly and a certain amount of external air is sucked, not only the quality of the sintered ore and the performance of the dust collector are improved, but also the operation can be stably performed, but various problems occur. .

In addition, while the Dwight Lloyd type sintering machine is suitable for mass production, when a problem occurs in the machine construction device, a large amount of degraded products are produced, which causes enormous obstacles to the blast furnace operation, which is a post process, and requires careful management. In particular, the quality and sintering time of the sintered ore is determined by the amount of air passing through the sintering raw material layer in the sintering machine bogie when inhaling for sintering, and the sintering machine side wall or sealing that does not pass through the raw material layer is poor. If the outside air flows into the place, the plasticity is not uniform and the quality is inadequate. At this time, the most vulnerable portion in which the outside air is introduced is the sealing opening (15), where the most leakage occurs.

3 shows a coupling relationship of the conventional anti-leak sealing device. As shown in FIG. 3, a wearing block 21 having a predetermined size of space along the longitudinal direction is coupled to a lower portion of the sintering machine bogie along the longitudinal direction of the sintering bogie. A sealing cover 22 is provided below the wear ring block 21. At this time, the wear ring block 21 and the sealing cover 22 are provided at a predetermined interval. And, the wear ring block 21 is coupled to the sealing opening 15 to limit the inflow of external air by operating up and down in the space. That is, the sealing opening 15 is coupled to the lower portion of the vertical movement shaft 23 that operates up and down, and the spring 24 for providing an elastic force is disposed around the vertical movement shaft 23. This spring 24 provides an elastic force for operating the seal 15 up and down in accordance with the presence or absence of raw material loading in the sintering machine trolley.

The sealing opening 15 coupled to restrict the inflow of external air is formed as a plate having a predetermined thickness, and a small gap is formed between the sealing opening 15 and the sealing cover 22, so that the sealing opening ( 15) should be able to operate up and down smoothly. In addition, such gaps may leak outside air, thereby degrading the quality of the sintered ore. In addition, the lubricating oil supplied through the wear ring bar 16 is inserted into the sieve cured together with foreign matter by the heat so that the sealing opening 15 smoothly moves up and down in such a gap, so that the spring 24 does not function properly. have. If the spring 24 does not perform its proper function, a leak occurs and it is impossible to manufacture high quality sintered ore.

Therefore, the present invention was devised to solve the problems of the prior art as described above, the sintering machine to manufacture high-quality sintered ore by preventing leakage of external air through the lower both sides of the sintering machine bogie and improve the performance of the dust collector The object is to provide a bogie and a leakproof seal.

1 is a structural diagram for explaining the overall components of the Dwight Lloyd sintering machine,

FIG. 2 is a schematic view for explaining an arrangement relationship of the sintering machine shown in FIG.

Figure 3 is a schematic diagram showing the coupling relationship of the leak-proof sealing device of the sintering machine bogie according to the prior art,

4 and 5 is a schematic view showing a coupling relationship of the leak-proof sealing device of the sintering machine bogie according to an embodiment of the present invention.

♠ Explanation of symbols on the main parts of the drawing ♠

11: compounding material hopper 12: charging device

13: sintering machine balance 14: ignition furnace

15, 31: airtight 16: wear ring bar

17: suction port 22: airtight cover

24: spring 32: insertion groove

33: Prevent foreign substance jamming and leakage blocking membrane

The present invention for achieving the object as described above, the wear ring block is coupled to the lower portion of the sintering machine bogie in the longitudinal direction and a predetermined size space is formed in the lower portion, and the inner surface of the wear ring block and constant An airtight cover installed in the space to have a gap, an airtight opening coupled to a vertically moving shaft so as to operate up and down in the space of the wear ring block to restrict the inflow of external air introduced into the sintering machine truck, and the vertical movement It is provided around the shaft and includes a spring for providing an elastic force to operate the closure up and down in accordance with the presence or absence of raw material loading in the sintering machine cart. In addition, the sealing opening of the present invention is formed along the longitudinal direction of the sintering machine trolley in which the sealing cover can be inserted, the sealing cover is installed to be inserted into the insertion groove, When the raw material is loaded into the sintering machine trolley, the sealing cover is inserted into the insertion groove so that the path for the inflow of external air is formed in a “U” shape to prevent leakage of external air, and when the sintered ore is separated from the sintering machine trolley. The sealing cover is not inserted into the insertion groove by the elastic force of the spring is characterized in that the external air flows into the sintering machine trolley.

In the following, with reference to the accompanying drawings a preferred embodiment of the leak-proof sealing device of the sintering machine bogie according to the present invention will be described in detail.

4 and 5 is a schematic view showing a coupling relationship of the leak-proof sealing device of the sintering machine bogie according to an embodiment of the present invention, Figure 4 is a view showing a state in which the sealing opening is opened, 5 is a view showing a state in which the closure is closed.

4 and 5, the seal 31 of the present invention is formed of a plate having a predetermined thickness. In such a plate, insertion grooves 32 having a predetermined depth are formed at both sides and at predetermined intervals along the longitudinal direction thereof. The insertion grooves 32 and the sealing openings 31 formed as described above are formed with both sides of the foreign matter jamming prevention and leakage blocking film 33 having a predetermined thickness, and the foreign matter jamming prevention and leakage blocking membrane 33 is a wear ring bar. (16) serves to prevent the lubricating oil and foreign substances from adhering and to prevent leakage of external air. Then, the sealing cover 22 is installed to be inserted into the insertion groove (22).

The sealing opening 31 thus formed is used in the same manner as the conventional sealing opening 15, at this time, the sealing cover 22 is inserted into the insertion groove 32 of the sealing opening 31, foreign matter caught The prevention and leakage blocking film 33 is located between the wear ring block 21 and the sealing cover 22.

In the following, it will be described in detail how to use the anti-leak sealing device of the sintering machine bogie of the present invention configured and coupled as described above.

The sealing opening 31 of the present invention has both sides of the lower portion of the trolley 13 to the light distribution portion for separating the sintered ore in the sintering machine trolley 13 after the baking is completed in the light receiving portion for charging the blended raw material into the sintering machine trolley 13. The wear ring bar 16 located in the sliding operation to prevent the inflow of external air.

That is, as shown in Figure 4, when the calcination is completed in the light distribution unit and the sintered light is separated and moved back to the light supply unit for loading the raw material, since the state is not under load, the sealing opening 31 is the elastic force of the spring 24 It is opened so that external air can flow in. Then, as shown in Figure 5, when starting the firing in the state of loading the raw material again under the load, the sealing cover 22 is inserted into the insertion groove 32 of the sealing opening 31 by the load of the raw material, foreign matter The pinch prevention and leakage blocking film 33 is located between the wear ring block 21 and the sealing cover 22, thereby more effectively blocking the leakage of external air through the sealing opening 31, thereby purely sintering machine bogie ( Air is sucked only from the material layer listed in 13). That is, it is possible to prevent the inflow of air by making the inflow path of the air inlet 31 into which the air flows into the "U" shape and lengthening the inflow path.

And, the sealing opening 31 of the present invention is configured to prevent the lubricant and dust applied to prevent friction and wear, the problem that the spring 24 does not re-play due to the fixed oil and dust Does not occur.

As described above, by applying the sealing apparatus of the present invention to the sintering machine, the oxygen concentration in the exhaust gas can be reduced by reducing external air other than the air sucked through the raw material layer during the sintering process.

Table 1 shows the results of measuring the oxygen concentration in the exhaust gas discharged through the outlet of the sintering machine when using the conventional sealing device and the sealing device of the present invention, the oxygen concentration in the exhaust gas when using the sealing device of the present invention It can be seen that the deterioration.

As described in detail above, the leakage preventing device of the sintering machine bogie of the present invention prevents leakage by increasing the inflow length through which external air can be introduced, thereby improving the quality of the sintered ore and the performance of current collectors. Can be performed stably.

In addition, the leak-proof sealing device of the sintering machine trolley of the present invention by minimizing the gap with the sealing cover to prevent lubricating oil sticking and the mixing of foreign matter so that each component can perform its function.

The technical idea of the airtight sealing device of the sintering machine trolley of the present invention has been described in conjunction with the accompanying drawings, but this is illustrative of the best embodiment of the present invention and is not intended to limit the present invention.

Claims (1)

Wearing block coupled to the lower portion of the sintering machine bogie in the longitudinal direction and formed in the space so as to have a predetermined distance from the inner surface of the wear ring block and a wearing block having a predetermined size space in the lower portion A cover, a sealing unit coupled to a vertical movement shaft so as to operate up and down in the space of the wear ring block to restrict the inflow of external air introduced into the sintering apparatus bogie, and installed around the vertical movement shaft, In the leakage preventing device comprising a spring for providing an elastic force to operate the closure up and down in accordance with the presence or absence of raw material loading therein, The sealing opening is formed along the longitudinal direction of the sintering machine cart, the insertion groove into which the sealing cover can be inserted, and the sealing cover is installed to be inserted into the insertion groove, When the raw material is loaded in the sintering machine trolley, the sealing cover is inserted into the insertion groove so as to have a length of a U-shaped path path through which external air flows, thereby preventing leakage of external air. When the sintered ore is separated from the sinterer bogie, the airtight cover of the sinterer bogie is characterized in that the airtight cover is not inserted into the insertion groove by the elastic force of the spring so that external air flows into the sinterer bogie. .