KR200233010Y1 - Leak gas recovery sealing apparatus of shaft for coke oven gas booster - Google Patents

Abstract

The present invention prevents the gas leaking from the shaft water in the seal block in advance when the COG booster is operated, and self-recovers the blocked gas to the inlet side of the booster to effectively prevent the leakage of poisonous gas. At the same time, the present invention relates to a leaky gas self-recovery sealing device for COG booster shaft water, which prevents fires and gas poisoning of workers.

In particular, it is formed in a set of two, but is inserted into the through hole 7 of the seal block 6 located on the impeller casing 2 side of the COG booster 1 to be equally spaced through the through hole. First, second, and third carbonaceous labyrinths 8a, 8b, 8c to allow intimate contact with the bearing 9 located in (7); When the inner diameter of the carbon material labyrinth is worn by friction with the bearing 9, the outer diameter part is installed in the outer diameter portions of the first, second, and third carbon material labyrinths 8a, 8b, and 8c. A tension spring (10) for compressing to reduce a portion of the inner diameter contacting the bearing (9); A through hole 7 and a COG booster between the seal blocks 6 where the first, second, and third carbon material labyrinths 8a, 8b, and 8c are located. An inert gas self-recovery port 12 formed to connect the inlet pipe 11 of 1) and an inert gas supply port formed to purge nitrogen gas at high pressure into the through hole 7 ( 13) characterized in that configured to include.

Description

LEO GAS RECOVERY SEALING APPARATUS OF SHAFT FOR COKE OVEN GAS BOOSTER}

The present invention relates to a leak gas self-recovery sealing device for COG booster shaft water, and more specifically, to prevent the gas leaked from the water shaft when the COG booster is operated in the seal block. The self-recovered gas is returned to the inlet side of the booster to effectively prevent the leakage of poisonous gas and to prevent the fire of the facility and the gas poisoning of the worker in advance. It relates to a self-recovery sealing device.

In general, C.O.G gas produced by coke production process is used as a combustion gas in a hot blast furnace in the blast furnace process because its calorific value is high and suitable as an energy source.

However, the coke gas by-produced in the coke manufacturing process does not take more than the pressure state of about 300 ~ 400mmAQ during combustion, so in order to use for the hot stove combustion, as shown in Figure 5 separate COG booster ( 15) After increasing the pressure to 1300mmAq or more, it is supplied to the hot stove.

However, the COG gas supplied to the combustion gas of the hot stove through this process is a seal block of the bearing water when the pressure is increased in the COG booster (). The problem of leaking large amounts of gas was frequently caused by the lack of confidentiality.

Therefore, conventionally, as shown in FIG. 6, two first and second labyrinths 8a and 8b are inserted into the through holes 7 formed in the seal block 6 so as to have a predetermined interval. The COG booster (1) was configured to block a certain amount of leakage gas from the shaft (9) during operation.

However, the conventional method of the seal block 6 is caused by friction between the first and second labyrinths 8a and 8b and the leakage of hot leak gas and the bearing water 9 which remain between the first and second labyrinths 8a and 8b. The heat generated on the surface caused a fire of the facility, and failed to achieve effective airtightness, causing a large amount of gas to leak into the atmosphere, causing problems such as poisoning workers.

The present invention has been made to solve the above-mentioned problems, the purpose of which is to shut off the gas leaking from the bearing when operating the COG booster in the seal block in advance, and the blocked gas back to the booster It provides self-recovery sealing device for leak gas self-recovery of COG booster shaft which enables self-recovery to the inlet side to effectively prevent the leakage of poisonous gas and prevent the fire of facility and gas poisoning of workers. It is.

The purpose of the above is to provide a sealing device for blocking the gas leaking from the shaft water when operating the pressure booster (C.O.G) is installed in the shaft of the booster boosting the Shio (C.O.G) gas by-produced in the coke manufacturing process of the steel mill,

It is formed in two pairs, but is inserted into the through hole of the seal block located at the impeller casing side of the COG booster so as to be in close contact with the shaft bearing located in the through hole. Second and third carbonaceous labyrinths; Installed in the outer diameter portion of the first, second, and third carbon material labyrinth so that when the inner diameter of the carbon material labyrinth wears due to friction with the bearing, it can press the outer diameter to reduce the inner diameter portion in contact with the bearing. A tension spring; An inert gas self-recovery port formed to connect a through hole and an inlet pipe of a COG booster between the seal block where the first, second and third carbon material labyrinths are located, and nitrogen into the through hole. Characterized in that it comprises an inert gas supply port which is formed to purge the gas at a high pressure (PURGING).

1 is a front view showing the configuration of the leak gas self-recovery sealing device of the Shiji (C.O.G) booster shaft water according to the present invention,

Figure 2 is a schematic diagram showing the connection of the pipe connected to the leak gas self-recovery sealing device of the Shiji (C.O.G) booster shaft water according to the present invention,

Figure 3 is a schematic diagram showing the main configuration of the leak gas self-recovery sealing device of the Shiji (C.O.G) booster shaft water according to the present invention,

Figure 4 is a schematic diagram showing the operating state of the leak gas self-recovery sealing device of the Shiji (C.O.G) booster shaft water according to the present invention,

5 is a schematic diagram showing a configuration state of a C.O.G booster for explaining the prior art;

Fig. 6 is a front elevational view showing the configuration of a conventional Shiji (C.O.G) booster shaft bearing sealing device.

<Description of the symbols for the main parts of the drawings>

1: COKE OVEN GAS Booster 2: Impeller Casing

3: shaft seal 4: fluid coupling

5: driving motor 6: seal block

7: through-through

8a, 8b, 8c: First, second and third carbon material labyrinth

9: Number of axes 10: Tension spring

11: Entrance pipe 12: Inert gas self-recovery port

13: inert gas supply port 14: supply pipe

15: opening and closing flow control valve

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

1 is a front view showing the configuration of the leak gas self-recovery sealing device of the COG booster shaft water according to the present invention, Figure 2 is a leak gas self-recovery sealing of COG booster shaft water according to the present invention Figure 3 is a schematic diagram showing a connection state of the pipe connected to the device, Figure 3 is a schematic diagram showing the main configuration of the leakage gas self-recovery sealing device of the COG booster shaft water according to the present invention.

As shown in the figure, it is formed in two sets, and is inserted and installed to take equal intervals in the through hole 7 of the seal block 6 located on the impeller casing 2 side of the COG booster 1. First, second, and third carbon material labyrinths 8a, 8b, 8c are provided to make intimate contact with the bearing 9 located in the through hole 7.

The outer diameter portion of the first, second, and third carbonaceous labyrinths 8a, 8b, and 8c is worn when the inner diameter portion of the carbonaceous labyrinth is worn by friction with the bearing 9. Tension springs 10 are provided to reduce the inner diameter portion in contact with the bearing 9 by pressing.

In addition, a through hole 7 and an inlet pipe of the booster are formed between the seal blocks 6 where the first, second, and third carbon material labyrinths 8a, 8b, and 8c are located. Inert gas self-recovery opening 12 formed to connect 11) and inert gas supply opening 13 formed to purge nitrogen gas at high pressure into through hole 7 are provided. .

On the other hand, at least two inert gas self-recovering holes 12 are provided in the seal block 6 in order to achieve the discharge of the leaking gas into the through-holes 7, and the inert gas supply holes 13 are In order to purge the injection of nitrogen gas into the through hole (7) at least four or more provided in the seal block 6, the supply pipe connected to the inert gas supply port 13 ( 14, an opening / closing flow rate control valve 15 is provided.

When described in detail with reference to the accompanying drawings, the operation of the present invention and its operation configured as described above are as follows.

Figure 4 is a schematic diagram showing the operating state of the leak gas self-recovery sealing device of the Shiji (C.O.G) booster shaft water according to the present invention.

This causes a gas rack to be generated between the first and second carbon material labyrinths 8a and 8b in the through hole 7 of the seal block 6 which is storing the bearing 9 during operation. When it is discharged through the inert gas self-recovery port 12 formed in one side it is possible to achieve the self-recovery to the inlet pipe 11 to form a boost of COG.

At this time, if a gas rack is generated between the other part, that is, between the second and third carbon material labyrinths 8b and 8c, the inert gas supply port 13 supplying the nitrogen gas at high pressure is applied. The inert gas self-recovering port 12 is quickly guided to the position where it is located is discharged.

Therefore, the surface of the seal block 6 is generated due to the friction between the high temperature leaking gas and the residual water 9, which are introduced and remain in use during the actual use, thereby preventing the problem of equipment fire. In addition to being able to achieve this, it is possible to achieve an effective airtight to minimize the generation of leakage gas.

As described above, the present invention prevents the leakage of poisonous gas by blocking the gas leaked from the shaft water in the seal block in advance when the COG booster is operated, and self-recovering the blocked gas back to the inlet side of the booster. In addition, it is possible to effectively achieve the effect and to prevent the fire of the facility and gas poisoning of the worker in advance.

Claims (2)

In the sealing device installed in the shaft of the booster boosting the C.O.G gas produced by the coke manufacturing process of the steelworks to shut off the gas leaked from the shaft water when the C.O.G booster is operated, It is formed in two sets, but is inserted into the through hole (7) of the seal block (6) located on the impeller casing (2) side of the COG booster (1) to be equally spaced through the through hole (7). First, second, and third carbonaceous labyrinths 8a, 8b, 8c to make intimate contact with the bearing 9 located therein; When the inner diameter of the carbon material labyrinth is worn by friction with the bearing 9, the outer diameter part is installed in the outer diameter portions of the first, second, and third carbon material labyrinths 8a, 8b, and 8c. A tension spring (10) for compressing to reduce a portion of the inner diameter contacting the bearing (9); A through hole 7 and a COG booster between the seal blocks 6 where the first, second, and third carbon material labyrinths 8a, 8b, and 8c are located. An inert gas self-recovery port 12 formed to connect the inlet pipe 11 of 1) and an inert gas supply port formed to purge nitrogen gas at high pressure into the through hole 7 ( 13) COG booster shaft water leakage gas self-recovery sealing device comprising a). According to claim 1, At least two inert gas self-recovering port 12 is provided in the seal block 6 to achieve the discharge of the leakage gas, the inert gas supply port 13 is a through hole (7) At least four or more are provided in the seal block (6) in order to be able to constantly purge the injection of nitrogen gas into the supply pipe (14) connected to the inert gas supply port (13) The leakage gas self-recovery sealing device of the COG booster shaft water, characterized in that the opening and closing flow control valve (15) is connected to.